(function() { 'use strict'; var globals = typeof window === 'undefined' ? global : window; if (typeof globals.require === 'function') return; var modules = {}; var cache = {}; var aliases = {}; var has = ({}).hasOwnProperty; var expRe = /^\.\.?(\/|$)/; var expand = function(root, name) { var results = [], part; var parts = (expRe.test(name) ? root + '/' + name : name).split('/'); for (var i = 0, length = parts.length; i < length; i++) { part = parts[i]; if (part === '..') { results.pop(); } else if (part !== '.' && part !== '') { results.push(part); } } return results.join('/'); }; var dirname = function(path) { return path.split('/').slice(0, -1).join('/'); }; var localRequire = function(path) { return function expanded(name) { var absolute = expand(dirname(path), name); return globals.require(absolute, path); }; }; var initModule = function(name, definition) { var hot = null; hot = hmr && hmr.createHot(name); var module = {id: name, exports: {}, hot: hot}; cache[name] = module; definition(module.exports, localRequire(name), module); return module.exports; }; var expandAlias = function(name) { return aliases[name] ? expandAlias(aliases[name]) : name; }; var _resolve = function(name, dep) { return expandAlias(expand(dirname(name), dep)); }; var require = function(name, loaderPath) { if (loaderPath == null) loaderPath = '/'; var path = expandAlias(name); if (has.call(cache, path)) return cache[path].exports; if (has.call(modules, path)) return initModule(path, modules[path]); throw new Error("Cannot find module '" + name + "' from '" + loaderPath + "'"); }; require.alias = function(from, to) { aliases[to] = from; }; var extRe = /\.[^.\/]+$/; var indexRe = /\/index(\.[^\/]+)?$/; var addExtensions = function(bundle) { if (extRe.test(bundle)) { var alias = bundle.replace(extRe, ''); if (!has.call(aliases, alias) || aliases[alias].replace(extRe, '') === alias + '/index') { aliases[alias] = bundle; } } if (indexRe.test(bundle)) { var iAlias = bundle.replace(indexRe, ''); if (!has.call(aliases, iAlias)) { aliases[iAlias] = bundle; } } }; require.register = require.define = function(bundle, fn) { if (typeof bundle === 'object') { for (var key in bundle) { if (has.call(bundle, key)) { require.register(key, bundle[key]); } } } else { modules[bundle] = fn; delete cache[bundle]; addExtensions(bundle); } }; require.list = function() { var list = []; for (var item in modules) { if (has.call(modules, item)) { list.push(item); } } return list; }; var hmr = globals._hmr && new globals._hmr(_resolve, require, modules, cache); require._cache = cache; require.hmr = hmr && hmr.wrap; require.brunch = true; globals.require = require; })(); (function() { var global = window; var process; var __makeRelativeRequire = function(require, mappings, pref) { var none = {}; var tryReq = function(name, pref) { var val; try { val = require(pref + '/node_modules/' + name); return val; } catch (e) { if (e.toString().indexOf('Cannot find module') === -1) { throw e; } if (pref.indexOf('node_modules') !== -1) { var s = pref.split('/'); var i = s.lastIndexOf('node_modules'); var newPref = s.slice(0, i).join('/'); return tryReq(name, newPref); } } return none; }; return function(name) { if (name in mappings) name = mappings[name]; if (!name) return; if (name[0] !== '.' && pref) { var val = tryReq(name, pref); if (val !== none) return val; } return require(name); } }; require.register("base64-js/lib/b64.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "base64-js"); (function() { 'use strict' exports.toByteArray = toByteArray exports.fromByteArray = fromByteArray var lookup = [] var revLookup = [] var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array function init () { var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/' for (var i = 0, len = code.length; i < len; ++i) { lookup[i] = code[i] revLookup[code.charCodeAt(i)] = i } revLookup['-'.charCodeAt(0)] = 62 revLookup['_'.charCodeAt(0)] = 63 } init() function toByteArray (b64) { var i, j, l, tmp, placeHolders, arr var len = b64.length if (len % 4 > 0) { throw new Error('Invalid string. Length must be a multiple of 4') } // the number of equal signs (place holders) // if there are two placeholders, than the two characters before it // represent one byte // if there is only one, then the three characters before it represent 2 bytes // this is just a cheap hack to not do indexOf twice placeHolders = b64[len - 2] === '=' ? 2 : b64[len - 1] === '=' ? 1 : 0 // base64 is 4/3 + up to two characters of the original data arr = new Arr(len * 3 / 4 - placeHolders) // if there are placeholders, only get up to the last complete 4 chars l = placeHolders > 0 ? len - 4 : len var L = 0 for (i = 0, j = 0; i < l; i += 4, j += 3) { tmp = (revLookup[b64.charCodeAt(i)] << 18) | (revLookup[b64.charCodeAt(i + 1)] << 12) | (revLookup[b64.charCodeAt(i + 2)] << 6) | revLookup[b64.charCodeAt(i + 3)] arr[L++] = (tmp >> 16) & 0xFF arr[L++] = (tmp >> 8) & 0xFF arr[L++] = tmp & 0xFF } if (placeHolders === 2) { tmp = (revLookup[b64.charCodeAt(i)] << 2) | (revLookup[b64.charCodeAt(i + 1)] >> 4) arr[L++] = tmp & 0xFF } else if (placeHolders === 1) { tmp = (revLookup[b64.charCodeAt(i)] << 10) | (revLookup[b64.charCodeAt(i + 1)] << 4) | (revLookup[b64.charCodeAt(i + 2)] >> 2) arr[L++] = (tmp >> 8) & 0xFF arr[L++] = tmp & 0xFF } return arr } function tripletToBase64 (num) { return lookup[num >> 18 & 0x3F] + lookup[num >> 12 & 0x3F] + lookup[num >> 6 & 0x3F] + lookup[num & 0x3F] } function encodeChunk (uint8, start, end) { var tmp var output = [] for (var i = start; i < end; i += 3) { tmp = (uint8[i] << 16) + (uint8[i + 1] << 8) + (uint8[i + 2]) output.push(tripletToBase64(tmp)) } return output.join('') } function fromByteArray (uint8) { var tmp var len = uint8.length var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes var output = '' var parts = [] var maxChunkLength = 16383 // must be multiple of 3 // go through the array every three bytes, we'll deal with trailing stuff later for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) { parts.push(encodeChunk(uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength))) } // pad the end with zeros, but make sure to not forget the extra bytes if (extraBytes === 1) { tmp = uint8[len - 1] output += lookup[tmp >> 2] output += lookup[(tmp << 4) & 0x3F] output += '==' } else if (extraBytes === 2) { tmp = (uint8[len - 2] << 8) + (uint8[len - 1]) output += lookup[tmp >> 10] output += lookup[(tmp >> 4) & 0x3F] output += lookup[(tmp << 2) & 0x3F] output += '=' } parts.push(output) return parts.join('') } })(); }); require.register("buffer/index.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "buffer"); var _Buffer = require('buffer'); var Buffer = _Buffer && _Buffer.Buffer; (function() { /*! * The buffer module from node.js, for the browser. * * @author Feross Aboukhadijeh * @license MIT */ /* eslint-disable no-proto */ 'use strict' var base64 = require('base64-js') var ieee754 = require('ieee754') var isArray = require('isarray') exports.Buffer = Buffer exports.SlowBuffer = SlowBuffer exports.INSPECT_MAX_BYTES = 50 Buffer.poolSize = 8192 // not used by this implementation var rootParent = {} /** * If `Buffer.TYPED_ARRAY_SUPPORT`: * === true Use Uint8Array implementation (fastest) * === false Use Object implementation (most compatible, even IE6) * * Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+, * Opera 11.6+, iOS 4.2+. * * Due to various browser bugs, sometimes the Object implementation will be used even * when the browser supports typed arrays. * * Note: * * - Firefox 4-29 lacks support for adding new properties to `Uint8Array` instances, * See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438. * * - Chrome 9-10 is missing the `TypedArray.prototype.subarray` function. * * - IE10 has a broken `TypedArray.prototype.subarray` function which returns arrays of * incorrect length in some situations. * We detect these buggy browsers and set `Buffer.TYPED_ARRAY_SUPPORT` to `false` so they * get the Object implementation, which is slower but behaves correctly. */ Buffer.TYPED_ARRAY_SUPPORT = global.TYPED_ARRAY_SUPPORT !== undefined ? global.TYPED_ARRAY_SUPPORT : typedArraySupport() function typedArraySupport () { try { var arr = new Uint8Array(1) arr.foo = function () { return 42 } return arr.foo() === 42 && // typed array instances can be augmented typeof arr.subarray === 'function' && // chrome 9-10 lack `subarray` arr.subarray(1, 1).byteLength === 0 // ie10 has broken `subarray` } catch (e) { return false } } function kMaxLength () { return Buffer.TYPED_ARRAY_SUPPORT ? 0x7fffffff : 0x3fffffff } /** * The Buffer constructor returns instances of `Uint8Array` that have their * prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of * `Uint8Array`, so the returned instances will have all the node `Buffer` methods * and the `Uint8Array` methods. Square bracket notation works as expected -- it * returns a single octet. * * The `Uint8Array` prototype remains unmodified. */ function Buffer (arg) { if (!(this instanceof Buffer)) { // Avoid going through an ArgumentsAdaptorTrampoline in the common case. if (arguments.length > 1) return new Buffer(arg, arguments[1]) return new Buffer(arg) } if (!Buffer.TYPED_ARRAY_SUPPORT) { this.length = 0 this.parent = undefined } // Common case. if (typeof arg === 'number') { return fromNumber(this, arg) } // Slightly less common case. if (typeof arg === 'string') { return fromString(this, arg, arguments.length > 1 ? arguments[1] : 'utf8') } // Unusual. return fromObject(this, arg) } // TODO: Legacy, not needed anymore. Remove in next major version. Buffer._augment = function (arr) { arr.__proto__ = Buffer.prototype return arr } function fromNumber (that, length) { that = allocate(that, length < 0 ? 0 : checked(length) | 0) if (!Buffer.TYPED_ARRAY_SUPPORT) { for (var i = 0; i < length; i++) { that[i] = 0 } } return that } function fromString (that, string, encoding) { if (typeof encoding !== 'string' || encoding === '') encoding = 'utf8' // Assumption: byteLength() return value is always < kMaxLength. var length = byteLength(string, encoding) | 0 that = allocate(that, length) that.write(string, encoding) return that } function fromObject (that, object) { if (Buffer.isBuffer(object)) return fromBuffer(that, object) if (isArray(object)) return fromArray(that, object) if (object == null) { throw new TypeError('must start with number, buffer, array or string') } if (typeof ArrayBuffer !== 'undefined') { if (object.buffer instanceof ArrayBuffer) { return fromTypedArray(that, object) } if (object instanceof ArrayBuffer) { return fromArrayBuffer(that, object) } } if (object.length) return fromArrayLike(that, object) return fromJsonObject(that, object) } function fromBuffer (that, buffer) { var length = checked(buffer.length) | 0 that = allocate(that, length) buffer.copy(that, 0, 0, length) return that } function fromArray (that, array) { var length = checked(array.length) | 0 that = allocate(that, length) for (var i = 0; i < length; i += 1) { that[i] = array[i] & 255 } return that } // Duplicate of fromArray() to keep fromArray() monomorphic. function fromTypedArray (that, array) { var length = checked(array.length) | 0 that = allocate(that, length) // Truncating the elements is probably not what people expect from typed // arrays with BYTES_PER_ELEMENT > 1 but it's compatible with the behavior // of the old Buffer constructor. for (var i = 0; i < length; i += 1) { that[i] = array[i] & 255 } return that } function fromArrayBuffer (that, array) { array.byteLength // this throws if `array` is not a valid ArrayBuffer if (Buffer.TYPED_ARRAY_SUPPORT) { // Return an augmented `Uint8Array` instance, for best performance that = new Uint8Array(array) that.__proto__ = Buffer.prototype } else { // Fallback: Return an object instance of the Buffer class that = fromTypedArray(that, new Uint8Array(array)) } return that } function fromArrayLike (that, array) { var length = checked(array.length) | 0 that = allocate(that, length) for (var i = 0; i < length; i += 1) { that[i] = array[i] & 255 } return that } // Deserialize { type: 'Buffer', data: [1,2,3,...] } into a Buffer object. // Returns a zero-length buffer for inputs that don't conform to the spec. function fromJsonObject (that, object) { var array var length = 0 if (object.type === 'Buffer' && isArray(object.data)) { array = object.data length = checked(array.length) | 0 } that = allocate(that, length) for (var i = 0; i < length; i += 1) { that[i] = array[i] & 255 } return that } if (Buffer.TYPED_ARRAY_SUPPORT) { Buffer.prototype.__proto__ = Uint8Array.prototype Buffer.__proto__ = Uint8Array } else { // pre-set for values that may exist in the future Buffer.prototype.length = undefined Buffer.prototype.parent = undefined } function allocate (that, length) { if (Buffer.TYPED_ARRAY_SUPPORT) { // Return an augmented `Uint8Array` instance, for best performance that = new Uint8Array(length) that.__proto__ = Buffer.prototype } else { // Fallback: Return an object instance of the Buffer class that.length = length } var fromPool = length !== 0 && length <= Buffer.poolSize >>> 1 if (fromPool) that.parent = rootParent return that } function checked (length) { // Note: cannot use `length < kMaxLength` here because that fails when // length is NaN (which is otherwise coerced to zero.) if (length >= kMaxLength()) { throw new RangeError('Attempt to allocate Buffer larger than maximum ' + 'size: 0x' + kMaxLength().toString(16) + ' bytes') } return length | 0 } function SlowBuffer (subject, encoding) { if (!(this instanceof SlowBuffer)) return new SlowBuffer(subject, encoding) var buf = new Buffer(subject, encoding) delete buf.parent return buf } Buffer.isBuffer = function isBuffer (b) { return !!(b != null && b._isBuffer) } Buffer.compare = function compare (a, b) { if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) { throw new TypeError('Arguments must be Buffers') } if (a === b) return 0 var x = a.length var y = b.length var i = 0 var len = Math.min(x, y) while (i < len) { if (a[i] !== b[i]) break ++i } if (i !== len) { x = a[i] y = b[i] } if (x < y) return -1 if (y < x) return 1 return 0 } Buffer.isEncoding = function isEncoding (encoding) { switch (String(encoding).toLowerCase()) { case 'hex': case 'utf8': case 'utf-8': case 'ascii': case 'binary': case 'base64': case 'raw': case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return true default: return false } } Buffer.concat = function concat (list, length) { if (!isArray(list)) throw new TypeError('list argument must be an Array of Buffers.') if (list.length === 0) { return new Buffer(0) } var i if (length === undefined) { length = 0 for (i = 0; i < list.length; i++) { length += list[i].length } } var buf = new Buffer(length) var pos = 0 for (i = 0; i < list.length; i++) { var item = list[i] item.copy(buf, pos) pos += item.length } return buf } function byteLength (string, encoding) { if (typeof string !== 'string') string = '' + string var len = string.length if (len === 0) return 0 // Use a for loop to avoid recursion var loweredCase = false for (;;) { switch (encoding) { case 'ascii': case 'binary': // Deprecated case 'raw': case 'raws': return len case 'utf8': case 'utf-8': return utf8ToBytes(string).length case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return len * 2 case 'hex': return len >>> 1 case 'base64': return base64ToBytes(string).length default: if (loweredCase) return utf8ToBytes(string).length // assume utf8 encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.byteLength = byteLength function slowToString (encoding, start, end) { var loweredCase = false start = start | 0 end = end === undefined || end === Infinity ? this.length : end | 0 if (!encoding) encoding = 'utf8' if (start < 0) start = 0 if (end > this.length) end = this.length if (end <= start) return '' while (true) { switch (encoding) { case 'hex': return hexSlice(this, start, end) case 'utf8': case 'utf-8': return utf8Slice(this, start, end) case 'ascii': return asciiSlice(this, start, end) case 'binary': return binarySlice(this, start, end) case 'base64': return base64Slice(this, start, end) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return utf16leSlice(this, start, end) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = (encoding + '').toLowerCase() loweredCase = true } } } // The property is used by `Buffer.isBuffer` and `is-buffer` (in Safari 5-7) to detect // Buffer instances. Buffer.prototype._isBuffer = true Buffer.prototype.toString = function toString () { var length = this.length | 0 if (length === 0) return '' if (arguments.length === 0) return utf8Slice(this, 0, length) return slowToString.apply(this, arguments) } Buffer.prototype.equals = function equals (b) { if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') if (this === b) return true return Buffer.compare(this, b) === 0 } Buffer.prototype.inspect = function inspect () { var str = '' var max = exports.INSPECT_MAX_BYTES if (this.length > 0) { str = this.toString('hex', 0, max).match(/.{2}/g).join(' ') if (this.length > max) str += ' ... ' } return '' } Buffer.prototype.compare = function compare (b) { if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') if (this === b) return 0 return Buffer.compare(this, b) } Buffer.prototype.indexOf = function indexOf (val, byteOffset) { if (byteOffset > 0x7fffffff) byteOffset = 0x7fffffff else if (byteOffset < -0x80000000) byteOffset = -0x80000000 byteOffset >>= 0 if (this.length === 0) return -1 if (byteOffset >= this.length) return -1 // Negative offsets start from the end of the buffer if (byteOffset < 0) byteOffset = Math.max(this.length + byteOffset, 0) if (typeof val === 'string') { if (val.length === 0) return -1 // special case: looking for empty string always fails return String.prototype.indexOf.call(this, val, byteOffset) } if (Buffer.isBuffer(val)) { return arrayIndexOf(this, val, byteOffset) } if (typeof val === 'number') { if (Buffer.TYPED_ARRAY_SUPPORT && Uint8Array.prototype.indexOf === 'function') { return Uint8Array.prototype.indexOf.call(this, val, byteOffset) } return arrayIndexOf(this, [ val ], byteOffset) } function arrayIndexOf (arr, val, byteOffset) { var foundIndex = -1 for (var i = 0; byteOffset + i < arr.length; i++) { if (arr[byteOffset + i] === val[foundIndex === -1 ? 0 : i - foundIndex]) { if (foundIndex === -1) foundIndex = i if (i - foundIndex + 1 === val.length) return byteOffset + foundIndex } else { foundIndex = -1 } } return -1 } throw new TypeError('val must be string, number or Buffer') } function hexWrite (buf, string, offset, length) { offset = Number(offset) || 0 var remaining = buf.length - offset if (!length) { length = remaining } else { length = Number(length) if (length > remaining) { length = remaining } } // must be an even number of digits var strLen = string.length if (strLen % 2 !== 0) throw new Error('Invalid hex string') if (length > strLen / 2) { length = strLen / 2 } for (var i = 0; i < length; i++) { var parsed = parseInt(string.substr(i * 2, 2), 16) if (isNaN(parsed)) throw new Error('Invalid hex string') buf[offset + i] = parsed } return i } function utf8Write (buf, string, offset, length) { return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length) } function asciiWrite (buf, string, offset, length) { return blitBuffer(asciiToBytes(string), buf, offset, length) } function binaryWrite (buf, string, offset, length) { return asciiWrite(buf, string, offset, length) } function base64Write (buf, string, offset, length) { return blitBuffer(base64ToBytes(string), buf, offset, length) } function ucs2Write (buf, string, offset, length) { return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length) } Buffer.prototype.write = function write (string, offset, length, encoding) { // Buffer#write(string) if (offset === undefined) { encoding = 'utf8' length = this.length offset = 0 // Buffer#write(string, encoding) } else if (length === undefined && typeof offset === 'string') { encoding = offset length = this.length offset = 0 // Buffer#write(string, offset[, length][, encoding]) } else if (isFinite(offset)) { offset = offset | 0 if (isFinite(length)) { length = length | 0 if (encoding === undefined) encoding = 'utf8' } else { encoding = length length = undefined } // legacy write(string, encoding, offset, length) - remove in v0.13 } else { var swap = encoding encoding = offset offset = length | 0 length = swap } var remaining = this.length - offset if (length === undefined || length > remaining) length = remaining if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) { throw new RangeError('attempt to write outside buffer bounds') } if (!encoding) encoding = 'utf8' var loweredCase = false for (;;) { switch (encoding) { case 'hex': return hexWrite(this, string, offset, length) case 'utf8': case 'utf-8': return utf8Write(this, string, offset, length) case 'ascii': return asciiWrite(this, string, offset, length) case 'binary': return binaryWrite(this, string, offset, length) case 'base64': // Warning: maxLength not taken into account in base64Write return base64Write(this, string, offset, length) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return ucs2Write(this, string, offset, length) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.prototype.toJSON = function toJSON () { return { type: 'Buffer', data: Array.prototype.slice.call(this._arr || this, 0) } } function base64Slice (buf, start, end) { if (start === 0 && end === buf.length) { return base64.fromByteArray(buf) } else { return base64.fromByteArray(buf.slice(start, end)) } } function utf8Slice (buf, start, end) { end = Math.min(buf.length, end) var res = [] var i = start while (i < end) { var firstByte = buf[i] var codePoint = null var bytesPerSequence = (firstByte > 0xEF) ? 4 : (firstByte > 0xDF) ? 3 : (firstByte > 0xBF) ? 2 : 1 if (i + bytesPerSequence <= end) { var secondByte, thirdByte, fourthByte, tempCodePoint switch (bytesPerSequence) { case 1: if (firstByte < 0x80) { codePoint = firstByte } break case 2: secondByte = buf[i + 1] if ((secondByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F) if (tempCodePoint > 0x7F) { codePoint = tempCodePoint } } break case 3: secondByte = buf[i + 1] thirdByte = buf[i + 2] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F) if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) { codePoint = tempCodePoint } } break case 4: secondByte = buf[i + 1] thirdByte = buf[i + 2] fourthByte = buf[i + 3] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F) if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) { codePoint = tempCodePoint } } } } if (codePoint === null) { // we did not generate a valid codePoint so insert a // replacement char (U+FFFD) and advance only 1 byte codePoint = 0xFFFD bytesPerSequence = 1 } else if (codePoint > 0xFFFF) { // encode to utf16 (surrogate pair dance) codePoint -= 0x10000 res.push(codePoint >>> 10 & 0x3FF | 0xD800) codePoint = 0xDC00 | codePoint & 0x3FF } res.push(codePoint) i += bytesPerSequence } return decodeCodePointsArray(res) } // Based on http://stackoverflow.com/a/22747272/680742, the browser with // the lowest limit is Chrome, with 0x10000 args. // We go 1 magnitude less, for safety var MAX_ARGUMENTS_LENGTH = 0x1000 function decodeCodePointsArray (codePoints) { var len = codePoints.length if (len <= MAX_ARGUMENTS_LENGTH) { return String.fromCharCode.apply(String, codePoints) // avoid extra slice() } // Decode in chunks to avoid "call stack size exceeded". var res = '' var i = 0 while (i < len) { res += String.fromCharCode.apply( String, codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH) ) } return res } function asciiSlice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; i++) { ret += String.fromCharCode(buf[i] & 0x7F) } return ret } function binarySlice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; i++) { ret += String.fromCharCode(buf[i]) } return ret } function hexSlice (buf, start, end) { var len = buf.length if (!start || start < 0) start = 0 if (!end || end < 0 || end > len) end = len var out = '' for (var i = start; i < end; i++) { out += toHex(buf[i]) } return out } function utf16leSlice (buf, start, end) { var bytes = buf.slice(start, end) var res = '' for (var i = 0; i < bytes.length; i += 2) { res += String.fromCharCode(bytes[i] + bytes[i + 1] * 256) } return res } Buffer.prototype.slice = function slice (start, end) { var len = this.length start = ~~start end = end === undefined ? len : ~~end if (start < 0) { start += len if (start < 0) start = 0 } else if (start > len) { start = len } if (end < 0) { end += len if (end < 0) end = 0 } else if (end > len) { end = len } if (end < start) end = start var newBuf if (Buffer.TYPED_ARRAY_SUPPORT) { newBuf = this.subarray(start, end) newBuf.__proto__ = Buffer.prototype } else { var sliceLen = end - start newBuf = new Buffer(sliceLen, undefined) for (var i = 0; i < sliceLen; i++) { newBuf[i] = this[i + start] } } if (newBuf.length) newBuf.parent = this.parent || this return newBuf } /* * Need to make sure that buffer isn't trying to write out of bounds. */ function checkOffset (offset, ext, length) { if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint') if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length') } Buffer.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) { offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } return val } Buffer.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) { offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) { checkOffset(offset, byteLength, this.length) } var val = this[offset + --byteLength] var mul = 1 while (byteLength > 0 && (mul *= 0x100)) { val += this[offset + --byteLength] * mul } return val } Buffer.prototype.readUInt8 = function readUInt8 (offset, noAssert) { if (!noAssert) checkOffset(offset, 1, this.length) return this[offset] } Buffer.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) return this[offset] | (this[offset + 1] << 8) } Buffer.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) return (this[offset] << 8) | this[offset + 1] } Buffer.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ((this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16)) + (this[offset + 3] * 0x1000000) } Buffer.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] * 0x1000000) + ((this[offset + 1] << 16) | (this[offset + 2] << 8) | this[offset + 3]) } Buffer.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) { offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) { offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var i = byteLength var mul = 1 var val = this[offset + --i] while (i > 0 && (mul *= 0x100)) { val += this[offset + --i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readInt8 = function readInt8 (offset, noAssert) { if (!noAssert) checkOffset(offset, 1, this.length) if (!(this[offset] & 0x80)) return (this[offset]) return ((0xff - this[offset] + 1) * -1) } Buffer.prototype.readInt16LE = function readInt16LE (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset] | (this[offset + 1] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt16BE = function readInt16BE (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset + 1] | (this[offset] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt32LE = function readInt32LE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16) | (this[offset + 3] << 24) } Buffer.prototype.readInt32BE = function readInt32BE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] << 24) | (this[offset + 1] << 16) | (this[offset + 2] << 8) | (this[offset + 3]) } Buffer.prototype.readFloatLE = function readFloatLE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, true, 23, 4) } Buffer.prototype.readFloatBE = function readFloatBE (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, false, 23, 4) } Buffer.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) { if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, true, 52, 8) } Buffer.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) { if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, false, 52, 8) } function checkInt (buf, value, offset, ext, max, min) { if (!Buffer.isBuffer(buf)) throw new TypeError('buffer must be a Buffer instance') if (value > max || value < min) throw new RangeError('value is out of bounds') if (offset + ext > buf.length) throw new RangeError('index out of range') } Buffer.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) checkInt(this, value, offset, byteLength, Math.pow(2, 8 * byteLength), 0) var mul = 1 var i = 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset | 0 byteLength = byteLength | 0 if (!noAssert) checkInt(this, value, offset, byteLength, Math.pow(2, 8 * byteLength), 0) var i = byteLength - 1 var mul = 1 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0) if (!Buffer.TYPED_ARRAY_SUPPORT) value = Math.floor(value) this[offset] = (value & 0xff) return offset + 1 } function objectWriteUInt16 (buf, value, offset, littleEndian) { if (value < 0) value = 0xffff + value + 1 for (var i = 0, j = Math.min(buf.length - offset, 2); i < j; i++) { buf[offset + i] = (value & (0xff << (8 * (littleEndian ? i : 1 - i)))) >>> (littleEndian ? i : 1 - i) * 8 } } Buffer.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) } else { objectWriteUInt16(this, value, offset, true) } return offset + 2 } Buffer.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) } else { objectWriteUInt16(this, value, offset, false) } return offset + 2 } function objectWriteUInt32 (buf, value, offset, littleEndian) { if (value < 0) value = 0xffffffff + value + 1 for (var i = 0, j = Math.min(buf.length - offset, 4); i < j; i++) { buf[offset + i] = (value >>> (littleEndian ? i : 3 - i) * 8) & 0xff } } Buffer.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset + 3] = (value >>> 24) this[offset + 2] = (value >>> 16) this[offset + 1] = (value >>> 8) this[offset] = (value & 0xff) } else { objectWriteUInt32(this, value, offset, true) } return offset + 4 } Buffer.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) } else { objectWriteUInt32(this, value, offset, false) } return offset + 4 } Buffer.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset | 0 if (!noAssert) { var limit = Math.pow(2, 8 * byteLength - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = 0 var mul = 1 var sub = value < 0 ? 1 : 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset | 0 if (!noAssert) { var limit = Math.pow(2, 8 * byteLength - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = byteLength - 1 var mul = 1 var sub = value < 0 ? 1 : 0 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80) if (!Buffer.TYPED_ARRAY_SUPPORT) value = Math.floor(value) if (value < 0) value = 0xff + value + 1 this[offset] = (value & 0xff) return offset + 1 } Buffer.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) } else { objectWriteUInt16(this, value, offset, true) } return offset + 2 } Buffer.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) } else { objectWriteUInt16(this, value, offset, false) } return offset + 2 } Buffer.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) this[offset + 2] = (value >>> 16) this[offset + 3] = (value >>> 24) } else { objectWriteUInt32(this, value, offset, true) } return offset + 4 } Buffer.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) { value = +value offset = offset | 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (value < 0) value = 0xffffffff + value + 1 if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) } else { objectWriteUInt32(this, value, offset, false) } return offset + 4 } function checkIEEE754 (buf, value, offset, ext, max, min) { if (value > max || value < min) throw new RangeError('value is out of bounds') if (offset + ext > buf.length) throw new RangeError('index out of range') if (offset < 0) throw new RangeError('index out of range') } function writeFloat (buf, value, offset, littleEndian, noAssert) { if (!noAssert) { checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38) } ieee754.write(buf, value, offset, littleEndian, 23, 4) return offset + 4 } Buffer.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) { return writeFloat(this, value, offset, true, noAssert) } Buffer.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) { return writeFloat(this, value, offset, false, noAssert) } function writeDouble (buf, value, offset, littleEndian, noAssert) { if (!noAssert) { checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308) } ieee754.write(buf, value, offset, littleEndian, 52, 8) return offset + 8 } Buffer.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) { return writeDouble(this, value, offset, true, noAssert) } Buffer.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) { return writeDouble(this, value, offset, false, noAssert) } // copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length) Buffer.prototype.copy = function copy (target, targetStart, start, end) { if (!start) start = 0 if (!end && end !== 0) end = this.length if (targetStart >= target.length) targetStart = target.length if (!targetStart) targetStart = 0 if (end > 0 && end < start) end = start // Copy 0 bytes; we're done if (end === start) return 0 if (target.length === 0 || this.length === 0) return 0 // Fatal error conditions if (targetStart < 0) { throw new RangeError('targetStart out of bounds') } if (start < 0 || start >= this.length) throw new RangeError('sourceStart out of bounds') if (end < 0) throw new RangeError('sourceEnd out of bounds') // Are we oob? if (end > this.length) end = this.length if (target.length - targetStart < end - start) { end = target.length - targetStart + start } var len = end - start var i if (this === target && start < targetStart && targetStart < end) { // descending copy from end for (i = len - 1; i >= 0; i--) { target[i + targetStart] = this[i + start] } } else if (len < 1000 || !Buffer.TYPED_ARRAY_SUPPORT) { // ascending copy from start for (i = 0; i < len; i++) { target[i + targetStart] = this[i + start] } } else { Uint8Array.prototype.set.call( target, this.subarray(start, start + len), targetStart ) } return len } // fill(value, start=0, end=buffer.length) Buffer.prototype.fill = function fill (value, start, end) { if (!value) value = 0 if (!start) start = 0 if (!end) end = this.length if (end < start) throw new RangeError('end < start') // Fill 0 bytes; we're done if (end === start) return if (this.length === 0) return if (start < 0 || start >= this.length) throw new RangeError('start out of bounds') if (end < 0 || end > this.length) throw new RangeError('end out of bounds') var i if (typeof value === 'number') { for (i = start; i < end; i++) { this[i] = value } } else { var bytes = utf8ToBytes(value.toString()) var len = bytes.length for (i = start; i < end; i++) { this[i] = bytes[i % len] } } return this } // HELPER FUNCTIONS // ================ var INVALID_BASE64_RE = /[^+\/0-9A-Za-z-_]/g function base64clean (str) { // Node strips out invalid characters like \n and \t from the string, base64-js does not str = stringtrim(str).replace(INVALID_BASE64_RE, '') // Node converts strings with length < 2 to '' if (str.length < 2) return '' // Node allows for non-padded base64 strings (missing trailing ===), base64-js does not while (str.length % 4 !== 0) { str = str + '=' } return str } function stringtrim (str) { if (str.trim) return str.trim() return str.replace(/^\s+|\s+$/g, '') } function toHex (n) { if (n < 16) return '0' + n.toString(16) return n.toString(16) } function utf8ToBytes (string, units) { units = units || Infinity var codePoint var length = string.length var leadSurrogate = null var bytes = [] for (var i = 0; i < length; i++) { codePoint = string.charCodeAt(i) // is surrogate component if (codePoint > 0xD7FF && codePoint < 0xE000) { // last char was a lead if (!leadSurrogate) { // no lead yet if (codePoint > 0xDBFF) { // unexpected trail if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } else if (i + 1 === length) { // unpaired lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } // valid lead leadSurrogate = codePoint continue } // 2 leads in a row if (codePoint < 0xDC00) { if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) leadSurrogate = codePoint continue } // valid surrogate pair codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000 } else if (leadSurrogate) { // valid bmp char, but last char was a lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) } leadSurrogate = null // encode utf8 if (codePoint < 0x80) { if ((units -= 1) < 0) break bytes.push(codePoint) } else if (codePoint < 0x800) { if ((units -= 2) < 0) break bytes.push( codePoint >> 0x6 | 0xC0, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x10000) { if ((units -= 3) < 0) break bytes.push( codePoint >> 0xC | 0xE0, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x110000) { if ((units -= 4) < 0) break bytes.push( codePoint >> 0x12 | 0xF0, codePoint >> 0xC & 0x3F | 0x80, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else { throw new Error('Invalid code point') } } return bytes } function asciiToBytes (str) { var byteArray = [] for (var i = 0; i < str.length; i++) { // Node's code seems to be doing this and not & 0x7F.. byteArray.push(str.charCodeAt(i) & 0xFF) } return byteArray } function utf16leToBytes (str, units) { var c, hi, lo var byteArray = [] for (var i = 0; i < str.length; i++) { if ((units -= 2) < 0) break c = str.charCodeAt(i) hi = c >> 8 lo = c % 256 byteArray.push(lo) byteArray.push(hi) } return byteArray } function base64ToBytes (str) { return base64.toByteArray(base64clean(str)) } function blitBuffer (src, dst, offset, length) { for (var i = 0; i < length; i++) { if ((i + offset >= dst.length) || (i >= src.length)) break dst[i + offset] = src[i] } return i } })(); }); require.register("d3/build/d3.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "d3"); (function() { // https://d3js.org Version 4.2.2. Copyright 2016 Mike Bostock. (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3 = global.d3 || {}))); }(this, (function (exports) { 'use strict'; var version = "4.2.2"; function ascending(a, b) { return a < b ? -1 : a > b ? 1 : a >= b ? 0 : NaN; } function bisector(compare) { if (compare.length === 1) compare = ascendingComparator(compare); return { left: function(a, x, lo, hi) { if (lo == null) lo = 0; if (hi == null) hi = a.length; while (lo < hi) { var mid = lo + hi >>> 1; if (compare(a[mid], x) < 0) lo = mid + 1; else hi = mid; } return lo; }, right: function(a, x, lo, hi) { if (lo == null) lo = 0; if (hi == null) hi = a.length; while (lo < hi) { var mid = lo + hi >>> 1; if (compare(a[mid], x) > 0) hi = mid; else lo = mid + 1; } return lo; } }; } function ascendingComparator(f) { return function(d, x) { return ascending(f(d), x); }; } var ascendingBisect = bisector(ascending); var bisectRight = ascendingBisect.right; var bisectLeft = ascendingBisect.left; function descending(a, b) { return b < a ? -1 : b > a ? 1 : b >= a ? 0 : NaN; } function number(x) { return x === null ? NaN : +x; } function variance(array, f) { var n = array.length, m = 0, a, d, s = 0, i = -1, j = 0; if (f == null) { while (++i < n) { if (!isNaN(a = number(array[i]))) { d = a - m; m += d / ++j; s += d * (a - m); } } } else { while (++i < n) { if (!isNaN(a = number(f(array[i], i, array)))) { d = a - m; m += d / ++j; s += d * (a - m); } } } if (j > 1) return s / (j - 1); } function deviation(array, f) { var v = variance(array, f); return v ? Math.sqrt(v) : v; } function extent(array, f) { var i = -1, n = array.length, a, b, c; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = c = b; break; } while (++i < n) if ((b = array[i]) != null) { if (a > b) a = b; if (c < b) c = b; } } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = c = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null) { if (a > b) a = b; if (c < b) c = b; } } return [a, c]; } var array = Array.prototype; var slice = array.slice; var map = array.map; function constant(x) { return function() { return x; }; } function identity(x) { return x; } function range(start, stop, step) { start = +start, stop = +stop, step = (n = arguments.length) < 2 ? (stop = start, start = 0, 1) : n < 3 ? 1 : +step; var i = -1, n = Math.max(0, Math.ceil((stop - start) / step)) | 0, range = new Array(n); while (++i < n) { range[i] = start + i * step; } return range; } var e10 = Math.sqrt(50); var e5 = Math.sqrt(10); var e2 = Math.sqrt(2); function ticks(start, stop, count) { var step = tickStep(start, stop, count); return range( Math.ceil(start / step) * step, Math.floor(stop / step) * step + step / 2, // inclusive step ); } function tickStep(start, stop, count) { var step0 = Math.abs(stop - start) / Math.max(0, count), step1 = Math.pow(10, Math.floor(Math.log(step0) / Math.LN10)), error = step0 / step1; if (error >= e10) step1 *= 10; else if (error >= e5) step1 *= 5; else if (error >= e2) step1 *= 2; return stop < start ? -step1 : step1; } function sturges(values) { return Math.ceil(Math.log(values.length) / Math.LN2) + 1; } function histogram() { var value = identity, domain = extent, threshold = sturges; function histogram(data) { var i, n = data.length, x, values = new Array(n); for (i = 0; i < n; ++i) { values[i] = value(data[i], i, data); } var xz = domain(values), x0 = xz[0], x1 = xz[1], tz = threshold(values, x0, x1); // Convert number of thresholds into uniform thresholds. if (!Array.isArray(tz)) tz = ticks(x0, x1, tz); // Remove any thresholds outside the domain. var m = tz.length; while (tz[0] <= x0) tz.shift(), --m; while (tz[m - 1] >= x1) tz.pop(), --m; var bins = new Array(m + 1), bin; // Initialize bins. for (i = 0; i <= m; ++i) { bin = bins[i] = []; bin.x0 = i > 0 ? tz[i - 1] : x0; bin.x1 = i < m ? tz[i] : x1; } // Assign data to bins by value, ignoring any outside the domain. for (i = 0; i < n; ++i) { x = values[i]; if (x0 <= x && x <= x1) { bins[bisectRight(tz, x, 0, m)].push(data[i]); } } return bins; } histogram.value = function(_) { return arguments.length ? (value = typeof _ === "function" ? _ : constant(_), histogram) : value; }; histogram.domain = function(_) { return arguments.length ? (domain = typeof _ === "function" ? _ : constant([_[0], _[1]]), histogram) : domain; }; histogram.thresholds = function(_) { return arguments.length ? (threshold = typeof _ === "function" ? _ : Array.isArray(_) ? constant(slice.call(_)) : constant(_), histogram) : threshold; }; return histogram; } function threshold(array, p, f) { if (f == null) f = number; if (!(n = array.length)) return; if ((p = +p) <= 0 || n < 2) return +f(array[0], 0, array); if (p >= 1) return +f(array[n - 1], n - 1, array); var n, h = (n - 1) * p, i = Math.floor(h), a = +f(array[i], i, array), b = +f(array[i + 1], i + 1, array); return a + (b - a) * (h - i); } function freedmanDiaconis(values, min, max) { values = map.call(values, number).sort(ascending); return Math.ceil((max - min) / (2 * (threshold(values, 0.75) - threshold(values, 0.25)) * Math.pow(values.length, -1 / 3))); } function scott(values, min, max) { return Math.ceil((max - min) / (3.5 * deviation(values) * Math.pow(values.length, -1 / 3))); } function max(array, f) { var i = -1, n = array.length, a, b; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = b; break; } while (++i < n) if ((b = array[i]) != null && b > a) a = b; } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null && b > a) a = b; } return a; } function mean(array, f) { var s = 0, n = array.length, a, i = -1, j = n; if (f == null) { while (++i < n) if (!isNaN(a = number(array[i]))) s += a; else --j; } else { while (++i < n) if (!isNaN(a = number(f(array[i], i, array)))) s += a; else --j; } if (j) return s / j; } function median(array, f) { var numbers = [], n = array.length, a, i = -1; if (f == null) { while (++i < n) if (!isNaN(a = number(array[i]))) numbers.push(a); } else { while (++i < n) if (!isNaN(a = number(f(array[i], i, array)))) numbers.push(a); } return threshold(numbers.sort(ascending), 0.5); } function merge(arrays) { var n = arrays.length, m, i = -1, j = 0, merged, array; while (++i < n) j += arrays[i].length; merged = new Array(j); while (--n >= 0) { array = arrays[n]; m = array.length; while (--m >= 0) { merged[--j] = array[m]; } } return merged; } function min(array, f) { var i = -1, n = array.length, a, b; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = b; break; } while (++i < n) if ((b = array[i]) != null && a > b) a = b; } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null && a > b) a = b; } return a; } function pairs(array) { var i = 0, n = array.length - 1, p = array[0], pairs = new Array(n < 0 ? 0 : n); while (i < n) pairs[i] = [p, p = array[++i]]; return pairs; } function permute(array, indexes) { var i = indexes.length, permutes = new Array(i); while (i--) permutes[i] = array[indexes[i]]; return permutes; } function scan(array, compare) { if (!(n = array.length)) return; var i = 0, n, j = 0, xi, xj = array[j]; if (!compare) compare = ascending; while (++i < n) if (compare(xi = array[i], xj) < 0 || compare(xj, xj) !== 0) xj = xi, j = i; if (compare(xj, xj) === 0) return j; } function shuffle(array, i0, i1) { var m = (i1 == null ? array.length : i1) - (i0 = i0 == null ? 0 : +i0), t, i; while (m) { i = Math.random() * m-- | 0; t = array[m + i0]; array[m + i0] = array[i + i0]; array[i + i0] = t; } return array; } function sum(array, f) { var s = 0, n = array.length, a, i = -1; if (f == null) { while (++i < n) if (a = +array[i]) s += a; // Note: zero and null are equivalent. } else { while (++i < n) if (a = +f(array[i], i, array)) s += a; } return s; } function transpose(matrix) { if (!(n = matrix.length)) return []; for (var i = -1, m = min(matrix, length), transpose = new Array(m); ++i < m;) { for (var j = -1, n, row = transpose[i] = new Array(n); ++j < n;) { row[j] = matrix[j][i]; } } return transpose; } function length(d) { return d.length; } function zip() { return transpose(arguments); } var prefix = "$"; function Map() {} Map.prototype = map$1.prototype = { constructor: Map, has: function(key) { return (prefix + key) in this; }, get: function(key) { return this[prefix + key]; }, set: function(key, value) { this[prefix + key] = value; return this; }, remove: function(key) { var property = prefix + key; return property in this && delete this[property]; }, clear: function() { for (var property in this) if (property[0] === prefix) delete this[property]; }, keys: function() { var keys = []; for (var property in this) if (property[0] === prefix) keys.push(property.slice(1)); return keys; }, values: function() { var values = []; for (var property in this) if (property[0] === prefix) values.push(this[property]); return values; }, entries: function() { var entries = []; for (var property in this) if (property[0] === prefix) entries.push({key: property.slice(1), value: this[property]}); return entries; }, size: function() { var size = 0; for (var property in this) if (property[0] === prefix) ++size; return size; }, empty: function() { for (var property in this) if (property[0] === prefix) return false; return true; }, each: function(f) { for (var property in this) if (property[0] === prefix) f(this[property], property.slice(1), this); } }; function map$1(object, f) { var map = new Map; // Copy constructor. if (object instanceof Map) object.each(function(value, key) { map.set(key, value); }); // Index array by numeric index or specified key function. else if (Array.isArray(object)) { var i = -1, n = object.length, o; if (f == null) while (++i < n) map.set(i, object[i]); else while (++i < n) map.set(f(o = object[i], i, object), o); } // Convert object to map. else if (object) for (var key in object) map.set(key, object[key]); return map; } function nest() { var keys = [], sortKeys = [], sortValues, rollup, nest; function apply(array, depth, createResult, setResult) { if (depth >= keys.length) return rollup != null ? rollup(array) : (sortValues != null ? array.sort(sortValues) : array); var i = -1, n = array.length, key = keys[depth++], keyValue, value, valuesByKey = map$1(), values, result = createResult(); while (++i < n) { if (values = valuesByKey.get(keyValue = key(value = array[i]) + "")) { values.push(value); } else { valuesByKey.set(keyValue, [value]); } } valuesByKey.each(function(values, key) { setResult(result, key, apply(values, depth, createResult, setResult)); }); return result; } function entries(map, depth) { if (++depth > keys.length) return map; var array, sortKey = sortKeys[depth - 1]; if (rollup != null && depth >= keys.length) array = map.entries(); else array = [], map.each(function(v, k) { array.push({key: k, values: entries(v, depth)}); }); return sortKey != null ? array.sort(function(a, b) { return sortKey(a.key, b.key); }) : array; } return nest = { object: function(array) { return apply(array, 0, createObject, setObject); }, map: function(array) { return apply(array, 0, createMap, setMap); }, entries: function(array) { return entries(apply(array, 0, createMap, setMap), 0); }, key: function(d) { keys.push(d); return nest; }, sortKeys: function(order) { sortKeys[keys.length - 1] = order; return nest; }, sortValues: function(order) { sortValues = order; return nest; }, rollup: function(f) { rollup = f; return nest; } }; } function createObject() { return {}; } function setObject(object, key, value) { object[key] = value; } function createMap() { return map$1(); } function setMap(map, key, value) { map.set(key, value); } function Set() {} var proto = map$1.prototype; Set.prototype = set.prototype = { constructor: Set, has: proto.has, add: function(value) { value += ""; this[prefix + value] = value; return this; }, remove: proto.remove, clear: proto.clear, values: proto.keys, size: proto.size, empty: proto.empty, each: proto.each }; function set(object, f) { var set = new Set; // Copy constructor. if (object instanceof Set) object.each(function(value) { set.add(value); }); // Otherwise, assume it’s an array. else if (object) { var i = -1, n = object.length; if (f == null) while (++i < n) set.add(object[i]); else while (++i < n) set.add(f(object[i], i, object)); } return set; } function keys(map) { var keys = []; for (var key in map) keys.push(key); return keys; } function values(map) { var values = []; for (var key in map) values.push(map[key]); return values; } function entries(map) { var entries = []; for (var key in map) entries.push({key: key, value: map[key]}); return entries; } function uniform(min, max) { min = min == null ? 0 : +min; max = max == null ? 1 : +max; if (arguments.length === 1) max = min, min = 0; else max -= min; return function() { return Math.random() * max + min; }; } function normal(mu, sigma) { var x, r; mu = mu == null ? 0 : +mu; sigma = sigma == null ? 1 : +sigma; return function() { var y; // If available, use the second previously-generated uniform random. if (x != null) y = x, x = null; // Otherwise, generate a new x and y. else do { x = Math.random() * 2 - 1; y = Math.random() * 2 - 1; r = x * x + y * y; } while (!r || r > 1); return mu + sigma * y * Math.sqrt(-2 * Math.log(r) / r); }; } function logNormal() { var randomNormal = normal.apply(this, arguments); return function() { return Math.exp(randomNormal()); }; } function irwinHall(n) { return function() { for (var sum = 0, i = 0; i < n; ++i) sum += Math.random(); return sum; }; } function bates(n) { var randomIrwinHall = irwinHall(n); return function() { return randomIrwinHall() / n; }; } function exponential(lambda) { return function() { return -Math.log(1 - Math.random()) / lambda; }; } function linear(t) { return +t; } function quadIn(t) { return t * t; } function quadOut(t) { return t * (2 - t); } function quadInOut(t) { return ((t *= 2) <= 1 ? t * t : --t * (2 - t) + 1) / 2; } function cubicIn(t) { return t * t * t; } function cubicOut(t) { return --t * t * t + 1; } function easeCubicInOut(t) { return ((t *= 2) <= 1 ? t * t * t : (t -= 2) * t * t + 2) / 2; } var exponent = 3; var polyIn = (function custom(e) { e = +e; function polyIn(t) { return Math.pow(t, e); } polyIn.exponent = custom; return polyIn; })(exponent); var polyOut = (function custom(e) { e = +e; function polyOut(t) { return 1 - Math.pow(1 - t, e); } polyOut.exponent = custom; return polyOut; })(exponent); var polyInOut = (function custom(e) { e = +e; function polyInOut(t) { return ((t *= 2) <= 1 ? Math.pow(t, e) : 2 - Math.pow(2 - t, e)) / 2; } polyInOut.exponent = custom; return polyInOut; })(exponent); var pi = Math.PI; var halfPi = pi / 2; function sinIn(t) { return 1 - Math.cos(t * halfPi); } function sinOut(t) { return Math.sin(t * halfPi); } function sinInOut(t) { return (1 - Math.cos(pi * t)) / 2; } function expIn(t) { return Math.pow(2, 10 * t - 10); } function expOut(t) { return 1 - Math.pow(2, -10 * t); } function expInOut(t) { return ((t *= 2) <= 1 ? Math.pow(2, 10 * t - 10) : 2 - Math.pow(2, 10 - 10 * t)) / 2; } function circleIn(t) { return 1 - Math.sqrt(1 - t * t); } function circleOut(t) { return Math.sqrt(1 - --t * t); } function circleInOut(t) { return ((t *= 2) <= 1 ? 1 - Math.sqrt(1 - t * t) : Math.sqrt(1 - (t -= 2) * t) + 1) / 2; } var b1 = 4 / 11; var b2 = 6 / 11; var b3 = 8 / 11; var b4 = 3 / 4; var b5 = 9 / 11; var b6 = 10 / 11; var b7 = 15 / 16; var b8 = 21 / 22; var b9 = 63 / 64; var b0 = 1 / b1 / b1; function bounceIn(t) { return 1 - bounceOut(1 - t); } function bounceOut(t) { return (t = +t) < b1 ? b0 * t * t : t < b3 ? b0 * (t -= b2) * t + b4 : t < b6 ? b0 * (t -= b5) * t + b7 : b0 * (t -= b8) * t + b9; } function bounceInOut(t) { return ((t *= 2) <= 1 ? 1 - bounceOut(1 - t) : bounceOut(t - 1) + 1) / 2; } var overshoot = 1.70158; var backIn = (function custom(s) { s = +s; function backIn(t) { return t * t * ((s + 1) * t - s); } backIn.overshoot = custom; return backIn; })(overshoot); var backOut = (function custom(s) { s = +s; function backOut(t) { return --t * t * ((s + 1) * t + s) + 1; } backOut.overshoot = custom; return backOut; })(overshoot); var backInOut = (function custom(s) { s = +s; function backInOut(t) { return ((t *= 2) < 1 ? t * t * ((s + 1) * t - s) : (t -= 2) * t * ((s + 1) * t + s) + 2) / 2; } backInOut.overshoot = custom; return backInOut; })(overshoot); var tau = 2 * Math.PI; var amplitude = 1; var period = 0.3; var elasticIn = (function custom(a, p) { var s = Math.asin(1 / (a = Math.max(1, a))) * (p /= tau); function elasticIn(t) { return a * Math.pow(2, 10 * --t) * Math.sin((s - t) / p); } elasticIn.amplitude = function(a) { return custom(a, p * tau); }; elasticIn.period = function(p) { return custom(a, p); }; return elasticIn; })(amplitude, period); var elasticOut = (function custom(a, p) { var s = Math.asin(1 / (a = Math.max(1, a))) * (p /= tau); function elasticOut(t) { return 1 - a * Math.pow(2, -10 * (t = +t)) * Math.sin((t + s) / p); } elasticOut.amplitude = function(a) { return custom(a, p * tau); }; elasticOut.period = function(p) { return custom(a, p); }; return elasticOut; })(amplitude, period); var elasticInOut = (function custom(a, p) { var s = Math.asin(1 / (a = Math.max(1, a))) * (p /= tau); function elasticInOut(t) { return ((t = t * 2 - 1) < 0 ? a * Math.pow(2, 10 * t) * Math.sin((s - t) / p) : 2 - a * Math.pow(2, -10 * t) * Math.sin((s + t) / p)) / 2; } elasticInOut.amplitude = function(a) { return custom(a, p * tau); }; elasticInOut.period = function(p) { return custom(a, p); }; return elasticInOut; })(amplitude, period); function area(polygon) { var i = -1, n = polygon.length, a, b = polygon[n - 1], area = 0; while (++i < n) { a = b; b = polygon[i]; area += a[1] * b[0] - a[0] * b[1]; } return area / 2; } function centroid(polygon) { var i = -1, n = polygon.length, x = 0, y = 0, a, b = polygon[n - 1], c, k = 0; while (++i < n) { a = b; b = polygon[i]; k += c = a[0] * b[1] - b[0] * a[1]; x += (a[0] + b[0]) * c; y += (a[1] + b[1]) * c; } return k *= 3, [x / k, y / k]; } // Returns the 2D cross product of AB and AC vectors, i.e., the z-component of // the 3D cross product in a quadrant I Cartesian coordinate system (+x is // right, +y is up). Returns a positive value if ABC is counter-clockwise, // negative if clockwise, and zero if the points are collinear. function cross(a, b, c) { return (b[0] - a[0]) * (c[1] - a[1]) - (b[1] - a[1]) * (c[0] - a[0]); } function lexicographicOrder(a, b) { return a[0] - b[0] || a[1] - b[1]; } // Computes the upper convex hull per the monotone chain algorithm. // Assumes points.length >= 3, is sorted by x, unique in y. // Returns an array of indices into points in left-to-right order. function computeUpperHullIndexes(points) { var n = points.length, indexes = [0, 1], size = 2; for (var i = 2; i < n; ++i) { while (size > 1 && cross(points[indexes[size - 2]], points[indexes[size - 1]], points[i]) <= 0) --size; indexes[size++] = i; } return indexes.slice(0, size); // remove popped points } function hull(points) { if ((n = points.length) < 3) return null; var i, n, sortedPoints = new Array(n), flippedPoints = new Array(n); for (i = 0; i < n; ++i) sortedPoints[i] = [+points[i][0], +points[i][1], i]; sortedPoints.sort(lexicographicOrder); for (i = 0; i < n; ++i) flippedPoints[i] = [sortedPoints[i][0], -sortedPoints[i][1]]; var upperIndexes = computeUpperHullIndexes(sortedPoints), lowerIndexes = computeUpperHullIndexes(flippedPoints); // Construct the hull polygon, removing possible duplicate endpoints. var skipLeft = lowerIndexes[0] === upperIndexes[0], skipRight = lowerIndexes[lowerIndexes.length - 1] === upperIndexes[upperIndexes.length - 1], hull = []; // Add upper hull in right-to-l order. // Then add lower hull in left-to-right order. for (i = upperIndexes.length - 1; i >= 0; --i) hull.push(points[sortedPoints[upperIndexes[i]][2]]); for (i = +skipLeft; i < lowerIndexes.length - skipRight; ++i) hull.push(points[sortedPoints[lowerIndexes[i]][2]]); return hull; } function contains(polygon, point) { var n = polygon.length, p = polygon[n - 1], x = point[0], y = point[1], x0 = p[0], y0 = p[1], x1, y1, inside = false; for (var i = 0; i < n; ++i) { p = polygon[i], x1 = p[0], y1 = p[1]; if (((y1 > y) !== (y0 > y)) && (x < (x0 - x1) * (y - y1) / (y0 - y1) + x1)) inside = !inside; x0 = x1, y0 = y1; } return inside; } function length$1(polygon) { var i = -1, n = polygon.length, b = polygon[n - 1], xa, ya, xb = b[0], yb = b[1], perimeter = 0; while (++i < n) { xa = xb; ya = yb; b = polygon[i]; xb = b[0]; yb = b[1]; xa -= xb; ya -= yb; perimeter += Math.sqrt(xa * xa + ya * ya); } return perimeter; } var pi$1 = Math.PI; var tau$1 = 2 * pi$1; var epsilon = 1e-6; var tauEpsilon = tau$1 - epsilon; function Path() { this._x0 = this._y0 = // start of current subpath this._x1 = this._y1 = null; // end of current subpath this._ = []; } function path() { return new Path; } Path.prototype = path.prototype = { constructor: Path, moveTo: function(x, y) { this._.push("M", this._x0 = this._x1 = +x, ",", this._y0 = this._y1 = +y); }, closePath: function() { if (this._x1 !== null) { this._x1 = this._x0, this._y1 = this._y0; this._.push("Z"); } }, lineTo: function(x, y) { this._.push("L", this._x1 = +x, ",", this._y1 = +y); }, quadraticCurveTo: function(x1, y1, x, y) { this._.push("Q", +x1, ",", +y1, ",", this._x1 = +x, ",", this._y1 = +y); }, bezierCurveTo: function(x1, y1, x2, y2, x, y) { this._.push("C", +x1, ",", +y1, ",", +x2, ",", +y2, ",", this._x1 = +x, ",", this._y1 = +y); }, arcTo: function(x1, y1, x2, y2, r) { x1 = +x1, y1 = +y1, x2 = +x2, y2 = +y2, r = +r; var x0 = this._x1, y0 = this._y1, x21 = x2 - x1, y21 = y2 - y1, x01 = x0 - x1, y01 = y0 - y1, l01_2 = x01 * x01 + y01 * y01; // Is the radius negative? Error. if (r < 0) throw new Error("negative radius: " + r); // Is this path empty? Move to (x1,y1). if (this._x1 === null) { this._.push( "M", this._x1 = x1, ",", this._y1 = y1 ); } // Or, is (x1,y1) coincident with (x0,y0)? Do nothing. else if (!(l01_2 > epsilon)); // Or, are (x0,y0), (x1,y1) and (x2,y2) collinear? // Equivalently, is (x1,y1) coincident with (x2,y2)? // Or, is the radius zero? Line to (x1,y1). else if (!(Math.abs(y01 * x21 - y21 * x01) > epsilon) || !r) { this._.push( "L", this._x1 = x1, ",", this._y1 = y1 ); } // Otherwise, draw an arc! else { var x20 = x2 - x0, y20 = y2 - y0, l21_2 = x21 * x21 + y21 * y21, l20_2 = x20 * x20 + y20 * y20, l21 = Math.sqrt(l21_2), l01 = Math.sqrt(l01_2), l = r * Math.tan((pi$1 - Math.acos((l21_2 + l01_2 - l20_2) / (2 * l21 * l01))) / 2), t01 = l / l01, t21 = l / l21; // If the start tangent is not coincident with (x0,y0), line to. if (Math.abs(t01 - 1) > epsilon) { this._.push( "L", x1 + t01 * x01, ",", y1 + t01 * y01 ); } this._.push( "A", r, ",", r, ",0,0,", +(y01 * x20 > x01 * y20), ",", this._x1 = x1 + t21 * x21, ",", this._y1 = y1 + t21 * y21 ); } }, arc: function(x, y, r, a0, a1, ccw) { x = +x, y = +y, r = +r; var dx = r * Math.cos(a0), dy = r * Math.sin(a0), x0 = x + dx, y0 = y + dy, cw = 1 ^ ccw, da = ccw ? a0 - a1 : a1 - a0; // Is the radius negative? Error. if (r < 0) throw new Error("negative radius: " + r); // Is this path empty? Move to (x0,y0). if (this._x1 === null) { this._.push( "M", x0, ",", y0 ); } // Or, is (x0,y0) not coincident with the previous point? Line to (x0,y0). else if (Math.abs(this._x1 - x0) > epsilon || Math.abs(this._y1 - y0) > epsilon) { this._.push( "L", x0, ",", y0 ); } // Is this arc empty? We’re done. if (!r) return; // Is this a complete circle? Draw two arcs to complete the circle. if (da > tauEpsilon) { this._.push( "A", r, ",", r, ",0,1,", cw, ",", x - dx, ",", y - dy, "A", r, ",", r, ",0,1,", cw, ",", this._x1 = x0, ",", this._y1 = y0 ); } // Otherwise, draw an arc! else { if (da < 0) da = da % tau$1 + tau$1; this._.push( "A", r, ",", r, ",0,", +(da >= pi$1), ",", cw, ",", this._x1 = x + r * Math.cos(a1), ",", this._y1 = y + r * Math.sin(a1) ); } }, rect: function(x, y, w, h) { this._.push("M", this._x0 = this._x1 = +x, ",", this._y0 = this._y1 = +y, "h", +w, "v", +h, "h", -w, "Z"); }, toString: function() { return this._.join(""); } }; function tree_add(d) { var x = +this._x.call(null, d), y = +this._y.call(null, d); return add(this.cover(x, y), x, y, d); } function add(tree, x, y, d) { if (isNaN(x) || isNaN(y)) return tree; // ignore invalid points var parent, node = tree._root, leaf = {data: d}, x0 = tree._x0, y0 = tree._y0, x1 = tree._x1, y1 = tree._y1, xm, ym, xp, yp, right, bottom, i, j; // If the tree is empty, initialize the root as a leaf. if (!node) return tree._root = leaf, tree; // Find the existing leaf for the new point, or add it. while (node.length) { if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm; if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym; if (parent = node, !(node = node[i = bottom << 1 | right])) return parent[i] = leaf, tree; } // Is the new point is exactly coincident with the existing point? xp = +tree._x.call(null, node.data); yp = +tree._y.call(null, node.data); if (x === xp && y === yp) return leaf.next = node, parent ? parent[i] = leaf : tree._root = leaf, tree; // Otherwise, split the leaf node until the old and new point are separated. do { parent = parent ? parent[i] = new Array(4) : tree._root = new Array(4); if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm; if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym; } while ((i = bottom << 1 | right) === (j = (yp >= ym) << 1 | (xp >= xm))); return parent[j] = node, parent[i] = leaf, tree; } function addAll(data) { var d, i, n = data.length, x, y, xz = new Array(n), yz = new Array(n), x0 = Infinity, y0 = Infinity, x1 = -Infinity, y1 = -Infinity; // Compute the points and their extent. for (i = 0; i < n; ++i) { if (isNaN(x = +this._x.call(null, d = data[i])) || isNaN(y = +this._y.call(null, d))) continue; xz[i] = x; yz[i] = y; if (x < x0) x0 = x; if (x > x1) x1 = x; if (y < y0) y0 = y; if (y > y1) y1 = y; } // If there were no (valid) points, inherit the existing extent. if (x1 < x0) x0 = this._x0, x1 = this._x1; if (y1 < y0) y0 = this._y0, y1 = this._y1; // Expand the tree to cover the new points. this.cover(x0, y0).cover(x1, y1); // Add the new points. for (i = 0; i < n; ++i) { add(this, xz[i], yz[i], data[i]); } return this; } function tree_cover(x, y) { if (isNaN(x = +x) || isNaN(y = +y)) return this; // ignore invalid points var x0 = this._x0, y0 = this._y0, x1 = this._x1, y1 = this._y1; // If the quadtree has no extent, initialize them. // Integer extent are necessary so that if we later double the extent, // the existing quadrant boundaries don’t change due to floating point error! if (isNaN(x0)) { x1 = (x0 = Math.floor(x)) + 1; y1 = (y0 = Math.floor(y)) + 1; } // Otherwise, double repeatedly to cover. else if (x0 > x || x > x1 || y0 > y || y > y1) { var z = x1 - x0, node = this._root, parent, i; switch (i = (y < (y0 + y1) / 2) << 1 | (x < (x0 + x1) / 2)) { case 0: { do parent = new Array(4), parent[i] = node, node = parent; while (z *= 2, x1 = x0 + z, y1 = y0 + z, x > x1 || y > y1); break; } case 1: { do parent = new Array(4), parent[i] = node, node = parent; while (z *= 2, x0 = x1 - z, y1 = y0 + z, x0 > x || y > y1); break; } case 2: { do parent = new Array(4), parent[i] = node, node = parent; while (z *= 2, x1 = x0 + z, y0 = y1 - z, x > x1 || y0 > y); break; } case 3: { do parent = new Array(4), parent[i] = node, node = parent; while (z *= 2, x0 = x1 - z, y0 = y1 - z, x0 > x || y0 > y); break; } } if (this._root && this._root.length) this._root = node; } // If the quadtree covers the point already, just return. else return this; this._x0 = x0; this._y0 = y0; this._x1 = x1; this._y1 = y1; return this; } function tree_data() { var data = []; this.visit(function(node) { if (!node.length) do data.push(node.data); while (node = node.next) }); return data; } function tree_extent(_) { return arguments.length ? this.cover(+_[0][0], +_[0][1]).cover(+_[1][0], +_[1][1]) : isNaN(this._x0) ? undefined : [[this._x0, this._y0], [this._x1, this._y1]]; } function Quad(node, x0, y0, x1, y1) { this.node = node; this.x0 = x0; this.y0 = y0; this.x1 = x1; this.y1 = y1; } function tree_find(x, y, radius) { var data, x0 = this._x0, y0 = this._y0, x1, y1, x2, y2, x3 = this._x1, y3 = this._y1, quads = [], node = this._root, q, i; if (node) quads.push(new Quad(node, x0, y0, x3, y3)); if (radius == null) radius = Infinity; else { x0 = x - radius, y0 = y - radius; x3 = x + radius, y3 = y + radius; radius *= radius; } while (q = quads.pop()) { // Stop searching if this quadrant can’t contain a closer node. if (!(node = q.node) || (x1 = q.x0) > x3 || (y1 = q.y0) > y3 || (x2 = q.x1) < x0 || (y2 = q.y1) < y0) continue; // Bisect the current quadrant. if (node.length) { var xm = (x1 + x2) / 2, ym = (y1 + y2) / 2; quads.push( new Quad(node[3], xm, ym, x2, y2), new Quad(node[2], x1, ym, xm, y2), new Quad(node[1], xm, y1, x2, ym), new Quad(node[0], x1, y1, xm, ym) ); // Visit the closest quadrant first. if (i = (y >= ym) << 1 | (x >= xm)) { q = quads[quads.length - 1]; quads[quads.length - 1] = quads[quads.length - 1 - i]; quads[quads.length - 1 - i] = q; } } // Visit this point. (Visiting coincident points isn’t necessary!) else { var dx = x - +this._x.call(null, node.data), dy = y - +this._y.call(null, node.data), d2 = dx * dx + dy * dy; if (d2 < radius) { var d = Math.sqrt(radius = d2); x0 = x - d, y0 = y - d; x3 = x + d, y3 = y + d; data = node.data; } } } return data; } function tree_remove(d) { if (isNaN(x = +this._x.call(null, d)) || isNaN(y = +this._y.call(null, d))) return this; // ignore invalid points var parent, node = this._root, retainer, previous, next, x0 = this._x0, y0 = this._y0, x1 = this._x1, y1 = this._y1, x, y, xm, ym, right, bottom, i, j; // If the tree is empty, initialize the root as a leaf. if (!node) return this; // Find the leaf node for the point. // While descending, also retain the deepest parent with a non-removed sibling. if (node.length) while (true) { if (right = x >= (xm = (x0 + x1) / 2)) x0 = xm; else x1 = xm; if (bottom = y >= (ym = (y0 + y1) / 2)) y0 = ym; else y1 = ym; if (!(parent = node, node = node[i = bottom << 1 | right])) return this; if (!node.length) break; if (parent[(i + 1) & 3] || parent[(i + 2) & 3] || parent[(i + 3) & 3]) retainer = parent, j = i; } // Find the point to remove. while (node.data !== d) if (!(previous = node, node = node.next)) return this; if (next = node.next) delete node.next; // If there are multiple coincident points, remove just the point. if (previous) return (next ? previous.next = next : delete previous.next), this; // If this is the root point, remove it. if (!parent) return this._root = next, this; // Remove this leaf. next ? parent[i] = next : delete parent[i]; // If the parent now contains exactly one leaf, collapse superfluous parents. if ((node = parent[0] || parent[1] || parent[2] || parent[3]) && node === (parent[3] || parent[2] || parent[1] || parent[0]) && !node.length) { if (retainer) retainer[j] = node; else this._root = node; } return this; } function removeAll(data) { for (var i = 0, n = data.length; i < n; ++i) this.remove(data[i]); return this; } function tree_root() { return this._root; } function tree_size() { var size = 0; this.visit(function(node) { if (!node.length) do ++size; while (node = node.next) }); return size; } function tree_visit(callback) { var quads = [], q, node = this._root, child, x0, y0, x1, y1; if (node) quads.push(new Quad(node, this._x0, this._y0, this._x1, this._y1)); while (q = quads.pop()) { if (!callback(node = q.node, x0 = q.x0, y0 = q.y0, x1 = q.x1, y1 = q.y1) && node.length) { var xm = (x0 + x1) / 2, ym = (y0 + y1) / 2; if (child = node[3]) quads.push(new Quad(child, xm, ym, x1, y1)); if (child = node[2]) quads.push(new Quad(child, x0, ym, xm, y1)); if (child = node[1]) quads.push(new Quad(child, xm, y0, x1, ym)); if (child = node[0]) quads.push(new Quad(child, x0, y0, xm, ym)); } } return this; } function tree_visitAfter(callback) { var quads = [], next = [], q; if (this._root) quads.push(new Quad(this._root, this._x0, this._y0, this._x1, this._y1)); while (q = quads.pop()) { var node = q.node; if (node.length) { var child, x0 = q.x0, y0 = q.y0, x1 = q.x1, y1 = q.y1, xm = (x0 + x1) / 2, ym = (y0 + y1) / 2; if (child = node[0]) quads.push(new Quad(child, x0, y0, xm, ym)); if (child = node[1]) quads.push(new Quad(child, xm, y0, x1, ym)); if (child = node[2]) quads.push(new Quad(child, x0, ym, xm, y1)); if (child = node[3]) quads.push(new Quad(child, xm, ym, x1, y1)); } next.push(q); } while (q = next.pop()) { callback(q.node, q.x0, q.y0, q.x1, q.y1); } return this; } function defaultX(d) { return d[0]; } function tree_x(_) { return arguments.length ? (this._x = _, this) : this._x; } function defaultY(d) { return d[1]; } function tree_y(_) { return arguments.length ? (this._y = _, this) : this._y; } function quadtree(nodes, x, y) { var tree = new Quadtree(x == null ? defaultX : x, y == null ? defaultY : y, NaN, NaN, NaN, NaN); return nodes == null ? tree : tree.addAll(nodes); } function Quadtree(x, y, x0, y0, x1, y1) { this._x = x; this._y = y; this._x0 = x0; this._y0 = y0; this._x1 = x1; this._y1 = y1; this._root = undefined; } function leaf_copy(leaf) { var copy = {data: leaf.data}, next = copy; while (leaf = leaf.next) next = next.next = {data: leaf.data}; return copy; } var treeProto = quadtree.prototype = Quadtree.prototype; treeProto.copy = function() { var copy = new Quadtree(this._x, this._y, this._x0, this._y0, this._x1, this._y1), node = this._root, nodes, child; if (!node) return copy; if (!node.length) return copy._root = leaf_copy(node), copy; nodes = [{source: node, target: copy._root = new Array(4)}]; while (node = nodes.pop()) { for (var i = 0; i < 4; ++i) { if (child = node.source[i]) { if (child.length) nodes.push({source: child, target: node.target[i] = new Array(4)}); else node.target[i] = leaf_copy(child); } } } return copy; }; treeProto.add = tree_add; treeProto.addAll = addAll; treeProto.cover = tree_cover; treeProto.data = tree_data; treeProto.extent = tree_extent; treeProto.find = tree_find; treeProto.remove = tree_remove; treeProto.removeAll = removeAll; treeProto.root = tree_root; treeProto.size = tree_size; treeProto.visit = tree_visit; treeProto.visitAfter = tree_visitAfter; treeProto.x = tree_x; treeProto.y = tree_y; var slice$1 = [].slice; var noabort = {}; function Queue(size) { if (!(size >= 1)) throw new Error; this._size = size; this._call = this._error = null; this._tasks = []; this._data = []; this._waiting = this._active = this._ended = this._start = 0; // inside a synchronous task callback? } Queue.prototype = queue.prototype = { constructor: Queue, defer: function(callback) { if (typeof callback !== "function" || this._call) throw new Error; if (this._error != null) return this; var t = slice$1.call(arguments, 1); t.push(callback); ++this._waiting, this._tasks.push(t); poke(this); return this; }, abort: function() { if (this._error == null) abort(this, new Error("abort")); return this; }, await: function(callback) { if (typeof callback !== "function" || this._call) throw new Error; this._call = function(error, results) { callback.apply(null, [error].concat(results)); }; maybeNotify(this); return this; }, awaitAll: function(callback) { if (typeof callback !== "function" || this._call) throw new Error; this._call = callback; maybeNotify(this); return this; } }; function poke(q) { if (!q._start) try { start(q); } // let the current task complete catch (e) { if (q._tasks[q._ended + q._active - 1]) abort(q, e); } // task errored synchronously } function start(q) { while (q._start = q._waiting && q._active < q._size) { var i = q._ended + q._active, t = q._tasks[i], j = t.length - 1, c = t[j]; t[j] = end(q, i); --q._waiting, ++q._active; t = c.apply(null, t); if (!q._tasks[i]) continue; // task finished synchronously q._tasks[i] = t || noabort; } } function end(q, i) { return function(e, r) { if (!q._tasks[i]) return; // ignore multiple callbacks --q._active, ++q._ended; q._tasks[i] = null; if (q._error != null) return; // ignore secondary errors if (e != null) { abort(q, e); } else { q._data[i] = r; if (q._waiting) poke(q); else maybeNotify(q); } }; } function abort(q, e) { var i = q._tasks.length, t; q._error = e; // ignore active callbacks q._data = undefined; // allow gc q._waiting = NaN; // prevent starting while (--i >= 0) { if (t = q._tasks[i]) { q._tasks[i] = null; if (t.abort) try { t.abort(); } catch (e) { /* ignore */ } } } q._active = NaN; // allow notification maybeNotify(q); } function maybeNotify(q) { if (!q._active && q._call) q._call(q._error, q._data); } function queue(concurrency) { return new Queue(arguments.length ? +concurrency : Infinity); } function constant$1(x) { return function constant() { return x; }; } var epsilon$1 = 1e-12; var pi$2 = Math.PI; var halfPi$1 = pi$2 / 2; var tau$2 = 2 * pi$2; function arcInnerRadius(d) { return d.innerRadius; } function arcOuterRadius(d) { return d.outerRadius; } function arcStartAngle(d) { return d.startAngle; } function arcEndAngle(d) { return d.endAngle; } function arcPadAngle(d) { return d && d.padAngle; // Note: optional! } function asin(x) { return x >= 1 ? halfPi$1 : x <= -1 ? -halfPi$1 : Math.asin(x); } function intersect(x0, y0, x1, y1, x2, y2, x3, y3) { var x10 = x1 - x0, y10 = y1 - y0, x32 = x3 - x2, y32 = y3 - y2, t = (x32 * (y0 - y2) - y32 * (x0 - x2)) / (y32 * x10 - x32 * y10); return [x0 + t * x10, y0 + t * y10]; } // Compute perpendicular offset line of length rc. // http://mathworld.wolfram.com/Circle-LineIntersection.html function cornerTangents(x0, y0, x1, y1, r1, rc, cw) { var x01 = x0 - x1, y01 = y0 - y1, lo = (cw ? rc : -rc) / Math.sqrt(x01 * x01 + y01 * y01), ox = lo * y01, oy = -lo * x01, x11 = x0 + ox, y11 = y0 + oy, x10 = x1 + ox, y10 = y1 + oy, x00 = (x11 + x10) / 2, y00 = (y11 + y10) / 2, dx = x10 - x11, dy = y10 - y11, d2 = dx * dx + dy * dy, r = r1 - rc, D = x11 * y10 - x10 * y11, d = (dy < 0 ? -1 : 1) * Math.sqrt(Math.max(0, r * r * d2 - D * D)), cx0 = (D * dy - dx * d) / d2, cy0 = (-D * dx - dy * d) / d2, cx1 = (D * dy + dx * d) / d2, cy1 = (-D * dx + dy * d) / d2, dx0 = cx0 - x00, dy0 = cy0 - y00, dx1 = cx1 - x00, dy1 = cy1 - y00; // Pick the closer of the two intersection points. // TODO Is there a faster way to determine which intersection to use? if (dx0 * dx0 + dy0 * dy0 > dx1 * dx1 + dy1 * dy1) cx0 = cx1, cy0 = cy1; return { cx: cx0, cy: cy0, x01: -ox, y01: -oy, x11: cx0 * (r1 / r - 1), y11: cy0 * (r1 / r - 1) }; } function arc() { var innerRadius = arcInnerRadius, outerRadius = arcOuterRadius, cornerRadius = constant$1(0), padRadius = null, startAngle = arcStartAngle, endAngle = arcEndAngle, padAngle = arcPadAngle, context = null; function arc() { var buffer, r, r0 = +innerRadius.apply(this, arguments), r1 = +outerRadius.apply(this, arguments), a0 = startAngle.apply(this, arguments) - halfPi$1, a1 = endAngle.apply(this, arguments) - halfPi$1, da = Math.abs(a1 - a0), cw = a1 > a0; if (!context) context = buffer = path(); // Ensure that the outer radius is always larger than the inner radius. if (r1 < r0) r = r1, r1 = r0, r0 = r; // Is it a point? if (!(r1 > epsilon$1)) context.moveTo(0, 0); // Or is it a circle or annulus? else if (da > tau$2 - epsilon$1) { context.moveTo(r1 * Math.cos(a0), r1 * Math.sin(a0)); context.arc(0, 0, r1, a0, a1, !cw); if (r0 > epsilon$1) { context.moveTo(r0 * Math.cos(a1), r0 * Math.sin(a1)); context.arc(0, 0, r0, a1, a0, cw); } } // Or is it a circular or annular sector? else { var a01 = a0, a11 = a1, a00 = a0, a10 = a1, da0 = da, da1 = da, ap = padAngle.apply(this, arguments) / 2, rp = (ap > epsilon$1) && (padRadius ? +padRadius.apply(this, arguments) : Math.sqrt(r0 * r0 + r1 * r1)), rc = Math.min(Math.abs(r1 - r0) / 2, +cornerRadius.apply(this, arguments)), rc0 = rc, rc1 = rc, t0, t1; // Apply padding? Note that since r1 ≥ r0, da1 ≥ da0. if (rp > epsilon$1) { var p0 = asin(rp / r0 * Math.sin(ap)), p1 = asin(rp / r1 * Math.sin(ap)); if ((da0 -= p0 * 2) > epsilon$1) p0 *= (cw ? 1 : -1), a00 += p0, a10 -= p0; else da0 = 0, a00 = a10 = (a0 + a1) / 2; if ((da1 -= p1 * 2) > epsilon$1) p1 *= (cw ? 1 : -1), a01 += p1, a11 -= p1; else da1 = 0, a01 = a11 = (a0 + a1) / 2; } var x01 = r1 * Math.cos(a01), y01 = r1 * Math.sin(a01), x10 = r0 * Math.cos(a10), y10 = r0 * Math.sin(a10); // Apply rounded corners? if (rc > epsilon$1) { var x11 = r1 * Math.cos(a11), y11 = r1 * Math.sin(a11), x00 = r0 * Math.cos(a00), y00 = r0 * Math.sin(a00); // Restrict the corner radius according to the sector angle. if (da < pi$2) { var oc = da0 > epsilon$1 ? intersect(x01, y01, x00, y00, x11, y11, x10, y10) : [x10, y10], ax = x01 - oc[0], ay = y01 - oc[1], bx = x11 - oc[0], by = y11 - oc[1], kc = 1 / Math.sin(Math.acos((ax * bx + ay * by) / (Math.sqrt(ax * ax + ay * ay) * Math.sqrt(bx * bx + by * by))) / 2), lc = Math.sqrt(oc[0] * oc[0] + oc[1] * oc[1]); rc0 = Math.min(rc, (r0 - lc) / (kc - 1)); rc1 = Math.min(rc, (r1 - lc) / (kc + 1)); } } // Is the sector collapsed to a line? if (!(da1 > epsilon$1)) context.moveTo(x01, y01); // Does the sector’s outer ring have rounded corners? else if (rc1 > epsilon$1) { t0 = cornerTangents(x00, y00, x01, y01, r1, rc1, cw); t1 = cornerTangents(x11, y11, x10, y10, r1, rc1, cw); context.moveTo(t0.cx + t0.x01, t0.cy + t0.y01); // Have the corners merged? if (rc1 < rc) context.arc(t0.cx, t0.cy, rc1, Math.atan2(t0.y01, t0.x01), Math.atan2(t1.y01, t1.x01), !cw); // Otherwise, draw the two corners and the ring. else { context.arc(t0.cx, t0.cy, rc1, Math.atan2(t0.y01, t0.x01), Math.atan2(t0.y11, t0.x11), !cw); context.arc(0, 0, r1, Math.atan2(t0.cy + t0.y11, t0.cx + t0.x11), Math.atan2(t1.cy + t1.y11, t1.cx + t1.x11), !cw); context.arc(t1.cx, t1.cy, rc1, Math.atan2(t1.y11, t1.x11), Math.atan2(t1.y01, t1.x01), !cw); } } // Or is the outer ring just a circular arc? else context.moveTo(x01, y01), context.arc(0, 0, r1, a01, a11, !cw); // Is there no inner ring, and it’s a circular sector? // Or perhaps it’s an annular sector collapsed due to padding? if (!(r0 > epsilon$1) || !(da0 > epsilon$1)) context.lineTo(x10, y10); // Does the sector’s inner ring (or point) have rounded corners? else if (rc0 > epsilon$1) { t0 = cornerTangents(x10, y10, x11, y11, r0, -rc0, cw); t1 = cornerTangents(x01, y01, x00, y00, r0, -rc0, cw); context.lineTo(t0.cx + t0.x01, t0.cy + t0.y01); // Have the corners merged? if (rc0 < rc) context.arc(t0.cx, t0.cy, rc0, Math.atan2(t0.y01, t0.x01), Math.atan2(t1.y01, t1.x01), !cw); // Otherwise, draw the two corners and the ring. else { context.arc(t0.cx, t0.cy, rc0, Math.atan2(t0.y01, t0.x01), Math.atan2(t0.y11, t0.x11), !cw); context.arc(0, 0, r0, Math.atan2(t0.cy + t0.y11, t0.cx + t0.x11), Math.atan2(t1.cy + t1.y11, t1.cx + t1.x11), cw); context.arc(t1.cx, t1.cy, rc0, Math.atan2(t1.y11, t1.x11), Math.atan2(t1.y01, t1.x01), !cw); } } // Or is the inner ring just a circular arc? else context.arc(0, 0, r0, a10, a00, cw); } context.closePath(); if (buffer) return context = null, buffer + "" || null; } arc.centroid = function() { var r = (+innerRadius.apply(this, arguments) + +outerRadius.apply(this, arguments)) / 2, a = (+startAngle.apply(this, arguments) + +endAngle.apply(this, arguments)) / 2 - pi$2 / 2; return [Math.cos(a) * r, Math.sin(a) * r]; }; arc.innerRadius = function(_) { return arguments.length ? (innerRadius = typeof _ === "function" ? _ : constant$1(+_), arc) : innerRadius; }; arc.outerRadius = function(_) { return arguments.length ? (outerRadius = typeof _ === "function" ? _ : constant$1(+_), arc) : outerRadius; }; arc.cornerRadius = function(_) { return arguments.length ? (cornerRadius = typeof _ === "function" ? _ : constant$1(+_), arc) : cornerRadius; }; arc.padRadius = function(_) { return arguments.length ? (padRadius = _ == null ? null : typeof _ === "function" ? _ : constant$1(+_), arc) : padRadius; }; arc.startAngle = function(_) { return arguments.length ? (startAngle = typeof _ === "function" ? _ : constant$1(+_), arc) : startAngle; }; arc.endAngle = function(_) { return arguments.length ? (endAngle = typeof _ === "function" ? _ : constant$1(+_), arc) : endAngle; }; arc.padAngle = function(_) { return arguments.length ? (padAngle = typeof _ === "function" ? _ : constant$1(+_), arc) : padAngle; }; arc.context = function(_) { return arguments.length ? ((context = _ == null ? null : _), arc) : context; }; return arc; } function Linear(context) { this._context = context; } Linear.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._point = 0; }, lineEnd: function() { if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; // proceed default: this._context.lineTo(x, y); break; } } }; function curveLinear(context) { return new Linear(context); } function x(p) { return p[0]; } function y(p) { return p[1]; } function line() { var x$$ = x, y$$ = y, defined = constant$1(true), context = null, curve = curveLinear, output = null; function line(data) { var i, n = data.length, d, defined0 = false, buffer; if (context == null) output = curve(buffer = path()); for (i = 0; i <= n; ++i) { if (!(i < n && defined(d = data[i], i, data)) === defined0) { if (defined0 = !defined0) output.lineStart(); else output.lineEnd(); } if (defined0) output.point(+x$$(d, i, data), +y$$(d, i, data)); } if (buffer) return output = null, buffer + "" || null; } line.x = function(_) { return arguments.length ? (x$$ = typeof _ === "function" ? _ : constant$1(+_), line) : x$$; }; line.y = function(_) { return arguments.length ? (y$$ = typeof _ === "function" ? _ : constant$1(+_), line) : y$$; }; line.defined = function(_) { return arguments.length ? (defined = typeof _ === "function" ? _ : constant$1(!!_), line) : defined; }; line.curve = function(_) { return arguments.length ? (curve = _, context != null && (output = curve(context)), line) : curve; }; line.context = function(_) { return arguments.length ? (_ == null ? context = output = null : output = curve(context = _), line) : context; }; return line; } function area$1() { var x0 = x, x1 = null, y0 = constant$1(0), y1 = y, defined = constant$1(true), context = null, curve = curveLinear, output = null; function area(data) { var i, j, k, n = data.length, d, defined0 = false, buffer, x0z = new Array(n), y0z = new Array(n); if (context == null) output = curve(buffer = path()); for (i = 0; i <= n; ++i) { if (!(i < n && defined(d = data[i], i, data)) === defined0) { if (defined0 = !defined0) { j = i; output.areaStart(); output.lineStart(); } else { output.lineEnd(); output.lineStart(); for (k = i - 1; k >= j; --k) { output.point(x0z[k], y0z[k]); } output.lineEnd(); output.areaEnd(); } } if (defined0) { x0z[i] = +x0(d, i, data), y0z[i] = +y0(d, i, data); output.point(x1 ? +x1(d, i, data) : x0z[i], y1 ? +y1(d, i, data) : y0z[i]); } } if (buffer) return output = null, buffer + "" || null; } function arealine() { return line().defined(defined).curve(curve).context(context); } area.x = function(_) { return arguments.length ? (x0 = typeof _ === "function" ? _ : constant$1(+_), x1 = null, area) : x0; }; area.x0 = function(_) { return arguments.length ? (x0 = typeof _ === "function" ? _ : constant$1(+_), area) : x0; }; area.x1 = function(_) { return arguments.length ? (x1 = _ == null ? null : typeof _ === "function" ? _ : constant$1(+_), area) : x1; }; area.y = function(_) { return arguments.length ? (y0 = typeof _ === "function" ? _ : constant$1(+_), y1 = null, area) : y0; }; area.y0 = function(_) { return arguments.length ? (y0 = typeof _ === "function" ? _ : constant$1(+_), area) : y0; }; area.y1 = function(_) { return arguments.length ? (y1 = _ == null ? null : typeof _ === "function" ? _ : constant$1(+_), area) : y1; }; area.lineX0 = area.lineY0 = function() { return arealine().x(x0).y(y0); }; area.lineY1 = function() { return arealine().x(x0).y(y1); }; area.lineX1 = function() { return arealine().x(x1).y(y0); }; area.defined = function(_) { return arguments.length ? (defined = typeof _ === "function" ? _ : constant$1(!!_), area) : defined; }; area.curve = function(_) { return arguments.length ? (curve = _, context != null && (output = curve(context)), area) : curve; }; area.context = function(_) { return arguments.length ? (_ == null ? context = output = null : output = curve(context = _), area) : context; }; return area; } function descending$1(a, b) { return b < a ? -1 : b > a ? 1 : b >= a ? 0 : NaN; } function identity$1(d) { return d; } function pie() { var value = identity$1, sortValues = descending$1, sort = null, startAngle = constant$1(0), endAngle = constant$1(tau$2), padAngle = constant$1(0); function pie(data) { var i, n = data.length, j, k, sum = 0, index = new Array(n), arcs = new Array(n), a0 = +startAngle.apply(this, arguments), da = Math.min(tau$2, Math.max(-tau$2, endAngle.apply(this, arguments) - a0)), a1, p = Math.min(Math.abs(da) / n, padAngle.apply(this, arguments)), pa = p * (da < 0 ? -1 : 1), v; for (i = 0; i < n; ++i) { if ((v = arcs[index[i] = i] = +value(data[i], i, data)) > 0) { sum += v; } } // Optionally sort the arcs by previously-computed values or by data. if (sortValues != null) index.sort(function(i, j) { return sortValues(arcs[i], arcs[j]); }); else if (sort != null) index.sort(function(i, j) { return sort(data[i], data[j]); }); // Compute the arcs! They are stored in the original data's order. for (i = 0, k = sum ? (da - n * pa) / sum : 0; i < n; ++i, a0 = a1) { j = index[i], v = arcs[j], a1 = a0 + (v > 0 ? v * k : 0) + pa, arcs[j] = { data: data[j], index: i, value: v, startAngle: a0, endAngle: a1, padAngle: p }; } return arcs; } pie.value = function(_) { return arguments.length ? (value = typeof _ === "function" ? _ : constant$1(+_), pie) : value; }; pie.sortValues = function(_) { return arguments.length ? (sortValues = _, sort = null, pie) : sortValues; }; pie.sort = function(_) { return arguments.length ? (sort = _, sortValues = null, pie) : sort; }; pie.startAngle = function(_) { return arguments.length ? (startAngle = typeof _ === "function" ? _ : constant$1(+_), pie) : startAngle; }; pie.endAngle = function(_) { return arguments.length ? (endAngle = typeof _ === "function" ? _ : constant$1(+_), pie) : endAngle; }; pie.padAngle = function(_) { return arguments.length ? (padAngle = typeof _ === "function" ? _ : constant$1(+_), pie) : padAngle; }; return pie; } var curveRadialLinear = curveRadial(curveLinear); function Radial(curve) { this._curve = curve; } Radial.prototype = { areaStart: function() { this._curve.areaStart(); }, areaEnd: function() { this._curve.areaEnd(); }, lineStart: function() { this._curve.lineStart(); }, lineEnd: function() { this._curve.lineEnd(); }, point: function(a, r) { this._curve.point(r * Math.sin(a), r * -Math.cos(a)); } }; function curveRadial(curve) { function radial(context) { return new Radial(curve(context)); } radial._curve = curve; return radial; } function radialLine(l) { var c = l.curve; l.angle = l.x, delete l.x; l.radius = l.y, delete l.y; l.curve = function(_) { return arguments.length ? c(curveRadial(_)) : c()._curve; }; return l; } function radialLine$1() { return radialLine(line().curve(curveRadialLinear)); } function radialArea() { var a = area$1().curve(curveRadialLinear), c = a.curve, x0 = a.lineX0, x1 = a.lineX1, y0 = a.lineY0, y1 = a.lineY1; a.angle = a.x, delete a.x; a.startAngle = a.x0, delete a.x0; a.endAngle = a.x1, delete a.x1; a.radius = a.y, delete a.y; a.innerRadius = a.y0, delete a.y0; a.outerRadius = a.y1, delete a.y1; a.lineStartAngle = function() { return radialLine(x0()); }, delete a.lineX0; a.lineEndAngle = function() { return radialLine(x1()); }, delete a.lineX1; a.lineInnerRadius = function() { return radialLine(y0()); }, delete a.lineY0; a.lineOuterRadius = function() { return radialLine(y1()); }, delete a.lineY1; a.curve = function(_) { return arguments.length ? c(curveRadial(_)) : c()._curve; }; return a; } var circle = { draw: function(context, size) { var r = Math.sqrt(size / pi$2); context.moveTo(r, 0); context.arc(0, 0, r, 0, tau$2); } }; var cross$1 = { draw: function(context, size) { var r = Math.sqrt(size / 5) / 2; context.moveTo(-3 * r, -r); context.lineTo(-r, -r); context.lineTo(-r, -3 * r); context.lineTo(r, -3 * r); context.lineTo(r, -r); context.lineTo(3 * r, -r); context.lineTo(3 * r, r); context.lineTo(r, r); context.lineTo(r, 3 * r); context.lineTo(-r, 3 * r); context.lineTo(-r, r); context.lineTo(-3 * r, r); context.closePath(); } }; var tan30 = Math.sqrt(1 / 3); var tan30_2 = tan30 * 2; var diamond = { draw: function(context, size) { var y = Math.sqrt(size / tan30_2), x = y * tan30; context.moveTo(0, -y); context.lineTo(x, 0); context.lineTo(0, y); context.lineTo(-x, 0); context.closePath(); } }; var ka = 0.89081309152928522810; var kr = Math.sin(pi$2 / 10) / Math.sin(7 * pi$2 / 10); var kx = Math.sin(tau$2 / 10) * kr; var ky = -Math.cos(tau$2 / 10) * kr; var star = { draw: function(context, size) { var r = Math.sqrt(size * ka), x = kx * r, y = ky * r; context.moveTo(0, -r); context.lineTo(x, y); for (var i = 1; i < 5; ++i) { var a = tau$2 * i / 5, c = Math.cos(a), s = Math.sin(a); context.lineTo(s * r, -c * r); context.lineTo(c * x - s * y, s * x + c * y); } context.closePath(); } }; var square = { draw: function(context, size) { var w = Math.sqrt(size), x = -w / 2; context.rect(x, x, w, w); } }; var sqrt3 = Math.sqrt(3); var triangle = { draw: function(context, size) { var y = -Math.sqrt(size / (sqrt3 * 3)); context.moveTo(0, y * 2); context.lineTo(-sqrt3 * y, -y); context.lineTo(sqrt3 * y, -y); context.closePath(); } }; var c = -0.5; var s = Math.sqrt(3) / 2; var k = 1 / Math.sqrt(12); var a = (k / 2 + 1) * 3; var wye = { draw: function(context, size) { var r = Math.sqrt(size / a), x0 = r / 2, y0 = r * k, x1 = x0, y1 = r * k + r, x2 = -x1, y2 = y1; context.moveTo(x0, y0); context.lineTo(x1, y1); context.lineTo(x2, y2); context.lineTo(c * x0 - s * y0, s * x0 + c * y0); context.lineTo(c * x1 - s * y1, s * x1 + c * y1); context.lineTo(c * x2 - s * y2, s * x2 + c * y2); context.lineTo(c * x0 + s * y0, c * y0 - s * x0); context.lineTo(c * x1 + s * y1, c * y1 - s * x1); context.lineTo(c * x2 + s * y2, c * y2 - s * x2); context.closePath(); } }; var symbols = [ circle, cross$1, diamond, square, star, triangle, wye ]; function symbol() { var type = constant$1(circle), size = constant$1(64), context = null; function symbol() { var buffer; if (!context) context = buffer = path(); type.apply(this, arguments).draw(context, +size.apply(this, arguments)); if (buffer) return context = null, buffer + "" || null; } symbol.type = function(_) { return arguments.length ? (type = typeof _ === "function" ? _ : constant$1(_), symbol) : type; }; symbol.size = function(_) { return arguments.length ? (size = typeof _ === "function" ? _ : constant$1(+_), symbol) : size; }; symbol.context = function(_) { return arguments.length ? (context = _ == null ? null : _, symbol) : context; }; return symbol; } function noop() {} function point(that, x, y) { that._context.bezierCurveTo( (2 * that._x0 + that._x1) / 3, (2 * that._y0 + that._y1) / 3, (that._x0 + 2 * that._x1) / 3, (that._y0 + 2 * that._y1) / 3, (that._x0 + 4 * that._x1 + x) / 6, (that._y0 + 4 * that._y1 + y) / 6 ); } function Basis(context) { this._context = context; } Basis.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._y0 = this._y1 = NaN; this._point = 0; }, lineEnd: function() { switch (this._point) { case 3: point(this, this._x1, this._y1); // proceed case 2: this._context.lineTo(this._x1, this._y1); break; } if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; break; case 2: this._point = 3; this._context.lineTo((5 * this._x0 + this._x1) / 6, (5 * this._y0 + this._y1) / 6); // proceed default: point(this, x, y); break; } this._x0 = this._x1, this._x1 = x; this._y0 = this._y1, this._y1 = y; } }; function basis(context) { return new Basis(context); } function BasisClosed(context) { this._context = context; } BasisClosed.prototype = { areaStart: noop, areaEnd: noop, lineStart: function() { this._x0 = this._x1 = this._x2 = this._x3 = this._x4 = this._y0 = this._y1 = this._y2 = this._y3 = this._y4 = NaN; this._point = 0; }, lineEnd: function() { switch (this._point) { case 1: { this._context.moveTo(this._x2, this._y2); this._context.closePath(); break; } case 2: { this._context.moveTo((this._x2 + 2 * this._x3) / 3, (this._y2 + 2 * this._y3) / 3); this._context.lineTo((this._x3 + 2 * this._x2) / 3, (this._y3 + 2 * this._y2) / 3); this._context.closePath(); break; } case 3: { this.point(this._x2, this._y2); this.point(this._x3, this._y3); this.point(this._x4, this._y4); break; } } }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._x2 = x, this._y2 = y; break; case 1: this._point = 2; this._x3 = x, this._y3 = y; break; case 2: this._point = 3; this._x4 = x, this._y4 = y; this._context.moveTo((this._x0 + 4 * this._x1 + x) / 6, (this._y0 + 4 * this._y1 + y) / 6); break; default: point(this, x, y); break; } this._x0 = this._x1, this._x1 = x; this._y0 = this._y1, this._y1 = y; } }; function basisClosed(context) { return new BasisClosed(context); } function BasisOpen(context) { this._context = context; } BasisOpen.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._y0 = this._y1 = NaN; this._point = 0; }, lineEnd: function() { if (this._line || (this._line !== 0 && this._point === 3)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; break; case 1: this._point = 2; break; case 2: this._point = 3; var x0 = (this._x0 + 4 * this._x1 + x) / 6, y0 = (this._y0 + 4 * this._y1 + y) / 6; this._line ? this._context.lineTo(x0, y0) : this._context.moveTo(x0, y0); break; case 3: this._point = 4; // proceed default: point(this, x, y); break; } this._x0 = this._x1, this._x1 = x; this._y0 = this._y1, this._y1 = y; } }; function basisOpen(context) { return new BasisOpen(context); } function Bundle(context, beta) { this._basis = new Basis(context); this._beta = beta; } Bundle.prototype = { lineStart: function() { this._x = []; this._y = []; this._basis.lineStart(); }, lineEnd: function() { var x = this._x, y = this._y, j = x.length - 1; if (j > 0) { var x0 = x[0], y0 = y[0], dx = x[j] - x0, dy = y[j] - y0, i = -1, t; while (++i <= j) { t = i / j; this._basis.point( this._beta * x[i] + (1 - this._beta) * (x0 + t * dx), this._beta * y[i] + (1 - this._beta) * (y0 + t * dy) ); } } this._x = this._y = null; this._basis.lineEnd(); }, point: function(x, y) { this._x.push(+x); this._y.push(+y); } }; var bundle = (function custom(beta) { function bundle(context) { return beta === 1 ? new Basis(context) : new Bundle(context, beta); } bundle.beta = function(beta) { return custom(+beta); }; return bundle; })(0.85); function point$1(that, x, y) { that._context.bezierCurveTo( that._x1 + that._k * (that._x2 - that._x0), that._y1 + that._k * (that._y2 - that._y0), that._x2 + that._k * (that._x1 - x), that._y2 + that._k * (that._y1 - y), that._x2, that._y2 ); } function Cardinal(context, tension) { this._context = context; this._k = (1 - tension) / 6; } Cardinal.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._x2 = this._y0 = this._y1 = this._y2 = NaN; this._point = 0; }, lineEnd: function() { switch (this._point) { case 2: this._context.lineTo(this._x2, this._y2); break; case 3: point$1(this, this._x1, this._y1); break; } if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; this._x1 = x, this._y1 = y; break; case 2: this._point = 3; // proceed default: point$1(this, x, y); break; } this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var cardinal = (function custom(tension) { function cardinal(context) { return new Cardinal(context, tension); } cardinal.tension = function(tension) { return custom(+tension); }; return cardinal; })(0); function CardinalClosed(context, tension) { this._context = context; this._k = (1 - tension) / 6; } CardinalClosed.prototype = { areaStart: noop, areaEnd: noop, lineStart: function() { this._x0 = this._x1 = this._x2 = this._x3 = this._x4 = this._x5 = this._y0 = this._y1 = this._y2 = this._y3 = this._y4 = this._y5 = NaN; this._point = 0; }, lineEnd: function() { switch (this._point) { case 1: { this._context.moveTo(this._x3, this._y3); this._context.closePath(); break; } case 2: { this._context.lineTo(this._x3, this._y3); this._context.closePath(); break; } case 3: { this.point(this._x3, this._y3); this.point(this._x4, this._y4); this.point(this._x5, this._y5); break; } } }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._x3 = x, this._y3 = y; break; case 1: this._point = 2; this._context.moveTo(this._x4 = x, this._y4 = y); break; case 2: this._point = 3; this._x5 = x, this._y5 = y; break; default: point$1(this, x, y); break; } this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var cardinalClosed = (function custom(tension) { function cardinal(context) { return new CardinalClosed(context, tension); } cardinal.tension = function(tension) { return custom(+tension); }; return cardinal; })(0); function CardinalOpen(context, tension) { this._context = context; this._k = (1 - tension) / 6; } CardinalOpen.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._x2 = this._y0 = this._y1 = this._y2 = NaN; this._point = 0; }, lineEnd: function() { if (this._line || (this._line !== 0 && this._point === 3)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; break; case 1: this._point = 2; break; case 2: this._point = 3; this._line ? this._context.lineTo(this._x2, this._y2) : this._context.moveTo(this._x2, this._y2); break; case 3: this._point = 4; // proceed default: point$1(this, x, y); break; } this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var cardinalOpen = (function custom(tension) { function cardinal(context) { return new CardinalOpen(context, tension); } cardinal.tension = function(tension) { return custom(+tension); }; return cardinal; })(0); function point$2(that, x, y) { var x1 = that._x1, y1 = that._y1, x2 = that._x2, y2 = that._y2; if (that._l01_a > epsilon$1) { var a = 2 * that._l01_2a + 3 * that._l01_a * that._l12_a + that._l12_2a, n = 3 * that._l01_a * (that._l01_a + that._l12_a); x1 = (x1 * a - that._x0 * that._l12_2a + that._x2 * that._l01_2a) / n; y1 = (y1 * a - that._y0 * that._l12_2a + that._y2 * that._l01_2a) / n; } if (that._l23_a > epsilon$1) { var b = 2 * that._l23_2a + 3 * that._l23_a * that._l12_a + that._l12_2a, m = 3 * that._l23_a * (that._l23_a + that._l12_a); x2 = (x2 * b + that._x1 * that._l23_2a - x * that._l12_2a) / m; y2 = (y2 * b + that._y1 * that._l23_2a - y * that._l12_2a) / m; } that._context.bezierCurveTo(x1, y1, x2, y2, that._x2, that._y2); } function CatmullRom(context, alpha) { this._context = context; this._alpha = alpha; } CatmullRom.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._x2 = this._y0 = this._y1 = this._y2 = NaN; this._l01_a = this._l12_a = this._l23_a = this._l01_2a = this._l12_2a = this._l23_2a = this._point = 0; }, lineEnd: function() { switch (this._point) { case 2: this._context.lineTo(this._x2, this._y2); break; case 3: this.point(this, this._x2, this._y2); break; } if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; if (this._point) { var x23 = this._x2 - x, y23 = this._y2 - y; this._l23_a = Math.sqrt(this._l23_2a = Math.pow(x23 * x23 + y23 * y23, this._alpha)); } switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; break; case 2: this._point = 3; // proceed default: point$2(this, x, y); break; } this._l01_a = this._l12_a, this._l12_a = this._l23_a; this._l01_2a = this._l12_2a, this._l12_2a = this._l23_2a; this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var catmullRom = (function custom(alpha) { function catmullRom(context) { return alpha ? new CatmullRom(context, alpha) : new Cardinal(context, 0); } catmullRom.alpha = function(alpha) { return custom(+alpha); }; return catmullRom; })(0.5); function CatmullRomClosed(context, alpha) { this._context = context; this._alpha = alpha; } CatmullRomClosed.prototype = { areaStart: noop, areaEnd: noop, lineStart: function() { this._x0 = this._x1 = this._x2 = this._x3 = this._x4 = this._x5 = this._y0 = this._y1 = this._y2 = this._y3 = this._y4 = this._y5 = NaN; this._l01_a = this._l12_a = this._l23_a = this._l01_2a = this._l12_2a = this._l23_2a = this._point = 0; }, lineEnd: function() { switch (this._point) { case 1: { this._context.moveTo(this._x3, this._y3); this._context.closePath(); break; } case 2: { this._context.lineTo(this._x3, this._y3); this._context.closePath(); break; } case 3: { this.point(this._x3, this._y3); this.point(this._x4, this._y4); this.point(this._x5, this._y5); break; } } }, point: function(x, y) { x = +x, y = +y; if (this._point) { var x23 = this._x2 - x, y23 = this._y2 - y; this._l23_a = Math.sqrt(this._l23_2a = Math.pow(x23 * x23 + y23 * y23, this._alpha)); } switch (this._point) { case 0: this._point = 1; this._x3 = x, this._y3 = y; break; case 1: this._point = 2; this._context.moveTo(this._x4 = x, this._y4 = y); break; case 2: this._point = 3; this._x5 = x, this._y5 = y; break; default: point$2(this, x, y); break; } this._l01_a = this._l12_a, this._l12_a = this._l23_a; this._l01_2a = this._l12_2a, this._l12_2a = this._l23_2a; this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var catmullRomClosed = (function custom(alpha) { function catmullRom(context) { return alpha ? new CatmullRomClosed(context, alpha) : new CardinalClosed(context, 0); } catmullRom.alpha = function(alpha) { return custom(+alpha); }; return catmullRom; })(0.5); function CatmullRomOpen(context, alpha) { this._context = context; this._alpha = alpha; } CatmullRomOpen.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._x2 = this._y0 = this._y1 = this._y2 = NaN; this._l01_a = this._l12_a = this._l23_a = this._l01_2a = this._l12_2a = this._l23_2a = this._point = 0; }, lineEnd: function() { if (this._line || (this._line !== 0 && this._point === 3)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; if (this._point) { var x23 = this._x2 - x, y23 = this._y2 - y; this._l23_a = Math.sqrt(this._l23_2a = Math.pow(x23 * x23 + y23 * y23, this._alpha)); } switch (this._point) { case 0: this._point = 1; break; case 1: this._point = 2; break; case 2: this._point = 3; this._line ? this._context.lineTo(this._x2, this._y2) : this._context.moveTo(this._x2, this._y2); break; case 3: this._point = 4; // proceed default: point$2(this, x, y); break; } this._l01_a = this._l12_a, this._l12_a = this._l23_a; this._l01_2a = this._l12_2a, this._l12_2a = this._l23_2a; this._x0 = this._x1, this._x1 = this._x2, this._x2 = x; this._y0 = this._y1, this._y1 = this._y2, this._y2 = y; } }; var catmullRomOpen = (function custom(alpha) { function catmullRom(context) { return alpha ? new CatmullRomOpen(context, alpha) : new CardinalOpen(context, 0); } catmullRom.alpha = function(alpha) { return custom(+alpha); }; return catmullRom; })(0.5); function LinearClosed(context) { this._context = context; } LinearClosed.prototype = { areaStart: noop, areaEnd: noop, lineStart: function() { this._point = 0; }, lineEnd: function() { if (this._point) this._context.closePath(); }, point: function(x, y) { x = +x, y = +y; if (this._point) this._context.lineTo(x, y); else this._point = 1, this._context.moveTo(x, y); } }; function linearClosed(context) { return new LinearClosed(context); } function sign(x) { return x < 0 ? -1 : 1; } // Calculate the slopes of the tangents (Hermite-type interpolation) based on // the following paper: Steffen, M. 1990. A Simple Method for Monotonic // Interpolation in One Dimension. Astronomy and Astrophysics, Vol. 239, NO. // NOV(II), P. 443, 1990. function slope3(that, x2, y2) { var h0 = that._x1 - that._x0, h1 = x2 - that._x1, s0 = (that._y1 - that._y0) / (h0 || h1 < 0 && -0), s1 = (y2 - that._y1) / (h1 || h0 < 0 && -0), p = (s0 * h1 + s1 * h0) / (h0 + h1); return (sign(s0) + sign(s1)) * Math.min(Math.abs(s0), Math.abs(s1), 0.5 * Math.abs(p)) || 0; } // Calculate a one-sided slope. function slope2(that, t) { var h = that._x1 - that._x0; return h ? (3 * (that._y1 - that._y0) / h - t) / 2 : t; } // According to https://en.wikipedia.org/wiki/Cubic_Hermite_spline#Representations // "you can express cubic Hermite interpolation in terms of cubic Bézier curves // with respect to the four values p0, p0 + m0 / 3, p1 - m1 / 3, p1". function point$3(that, t0, t1) { var x0 = that._x0, y0 = that._y0, x1 = that._x1, y1 = that._y1, dx = (x1 - x0) / 3; that._context.bezierCurveTo(x0 + dx, y0 + dx * t0, x1 - dx, y1 - dx * t1, x1, y1); } function MonotoneX(context) { this._context = context; } MonotoneX.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x0 = this._x1 = this._y0 = this._y1 = this._t0 = NaN; this._point = 0; }, lineEnd: function() { switch (this._point) { case 2: this._context.lineTo(this._x1, this._y1); break; case 3: point$3(this, this._t0, slope2(this, this._t0)); break; } if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); this._line = 1 - this._line; }, point: function(x, y) { var t1 = NaN; x = +x, y = +y; if (x === this._x1 && y === this._y1) return; // Ignore coincident points. switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; break; case 2: this._point = 3; point$3(this, slope2(this, t1 = slope3(this, x, y)), t1); break; default: point$3(this, this._t0, t1 = slope3(this, x, y)); break; } this._x0 = this._x1, this._x1 = x; this._y0 = this._y1, this._y1 = y; this._t0 = t1; } } function MonotoneY(context) { this._context = new ReflectContext(context); } (MonotoneY.prototype = Object.create(MonotoneX.prototype)).point = function(x, y) { MonotoneX.prototype.point.call(this, y, x); }; function ReflectContext(context) { this._context = context; } ReflectContext.prototype = { moveTo: function(x, y) { this._context.moveTo(y, x); }, closePath: function() { this._context.closePath(); }, lineTo: function(x, y) { this._context.lineTo(y, x); }, bezierCurveTo: function(x1, y1, x2, y2, x, y) { this._context.bezierCurveTo(y1, x1, y2, x2, y, x); } }; function monotoneX(context) { return new MonotoneX(context); } function monotoneY(context) { return new MonotoneY(context); } function Natural(context) { this._context = context; } Natural.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x = []; this._y = []; }, lineEnd: function() { var x = this._x, y = this._y, n = x.length; if (n) { this._line ? this._context.lineTo(x[0], y[0]) : this._context.moveTo(x[0], y[0]); if (n === 2) { this._context.lineTo(x[1], y[1]); } else { var px = controlPoints(x), py = controlPoints(y); for (var i0 = 0, i1 = 1; i1 < n; ++i0, ++i1) { this._context.bezierCurveTo(px[0][i0], py[0][i0], px[1][i0], py[1][i0], x[i1], y[i1]); } } } if (this._line || (this._line !== 0 && n === 1)) this._context.closePath(); this._line = 1 - this._line; this._x = this._y = null; }, point: function(x, y) { this._x.push(+x); this._y.push(+y); } }; // See https://www.particleincell.com/2012/bezier-splines/ for derivation. function controlPoints(x) { var i, n = x.length - 1, m, a = new Array(n), b = new Array(n), r = new Array(n); a[0] = 0, b[0] = 2, r[0] = x[0] + 2 * x[1]; for (i = 1; i < n - 1; ++i) a[i] = 1, b[i] = 4, r[i] = 4 * x[i] + 2 * x[i + 1]; a[n - 1] = 2, b[n - 1] = 7, r[n - 1] = 8 * x[n - 1] + x[n]; for (i = 1; i < n; ++i) m = a[i] / b[i - 1], b[i] -= m, r[i] -= m * r[i - 1]; a[n - 1] = r[n - 1] / b[n - 1]; for (i = n - 2; i >= 0; --i) a[i] = (r[i] - a[i + 1]) / b[i]; b[n - 1] = (x[n] + a[n - 1]) / 2; for (i = 0; i < n - 1; ++i) b[i] = 2 * x[i + 1] - a[i + 1]; return [a, b]; } function natural(context) { return new Natural(context); } function Step(context, t) { this._context = context; this._t = t; } Step.prototype = { areaStart: function() { this._line = 0; }, areaEnd: function() { this._line = NaN; }, lineStart: function() { this._x = this._y = NaN; this._point = 0; }, lineEnd: function() { if (0 < this._t && this._t < 1 && this._point === 2) this._context.lineTo(this._x, this._y); if (this._line || (this._line !== 0 && this._point === 1)) this._context.closePath(); if (this._line >= 0) this._t = 1 - this._t, this._line = 1 - this._line; }, point: function(x, y) { x = +x, y = +y; switch (this._point) { case 0: this._point = 1; this._line ? this._context.lineTo(x, y) : this._context.moveTo(x, y); break; case 1: this._point = 2; // proceed default: { if (this._t <= 0) { this._context.lineTo(this._x, y); this._context.lineTo(x, y); } else { var x1 = this._x * (1 - this._t) + x * this._t; this._context.lineTo(x1, this._y); this._context.lineTo(x1, y); } break; } } this._x = x, this._y = y; } }; function step(context) { return new Step(context, 0.5); } function stepBefore(context) { return new Step(context, 0); } function stepAfter(context) { return new Step(context, 1); } var slice$2 = Array.prototype.slice; function none(series, order) { if (!((n = series.length) > 1)) return; for (var i = 1, s0, s1 = series[order[0]], n, m = s1.length; i < n; ++i) { s0 = s1, s1 = series[order[i]]; for (var j = 0; j < m; ++j) { s1[j][1] += s1[j][0] = isNaN(s0[j][1]) ? s0[j][0] : s0[j][1]; } } } function none$1(series) { var n = series.length, o = new Array(n); while (--n >= 0) o[n] = n; return o; } function stackValue(d, key) { return d[key]; } function stack() { var keys = constant$1([]), order = none$1, offset = none, value = stackValue; function stack(data) { var kz = keys.apply(this, arguments), i, m = data.length, n = kz.length, sz = new Array(n), oz; for (i = 0; i < n; ++i) { for (var ki = kz[i], si = sz[i] = new Array(m), j = 0, sij; j < m; ++j) { si[j] = sij = [0, +value(data[j], ki, j, data)]; sij.data = data[j]; } si.key = ki; } for (i = 0, oz = order(sz); i < n; ++i) { sz[oz[i]].index = i; } offset(sz, oz); return sz; } stack.keys = function(_) { return arguments.length ? (keys = typeof _ === "function" ? _ : constant$1(slice$2.call(_)), stack) : keys; }; stack.value = function(_) { return arguments.length ? (value = typeof _ === "function" ? _ : constant$1(+_), stack) : value; }; stack.order = function(_) { return arguments.length ? (order = _ == null ? none$1 : typeof _ === "function" ? _ : constant$1(slice$2.call(_)), stack) : order; }; stack.offset = function(_) { return arguments.length ? (offset = _ == null ? none : _, stack) : offset; }; return stack; } function expand(series, order) { if (!((n = series.length) > 0)) return; for (var i, n, j = 0, m = series[0].length, y; j < m; ++j) { for (y = i = 0; i < n; ++i) y += series[i][j][1] || 0; if (y) for (i = 0; i < n; ++i) series[i][j][1] /= y; } none(series, order); } function silhouette(series, order) { if (!((n = series.length) > 0)) return; for (var j = 0, s0 = series[order[0]], n, m = s0.length; j < m; ++j) { for (var i = 0, y = 0; i < n; ++i) y += series[i][j][1] || 0; s0[j][1] += s0[j][0] = -y / 2; } none(series, order); } function wiggle(series, order) { if (!((n = series.length) > 0) || !((m = (s0 = series[order[0]]).length) > 0)) return; for (var y = 0, j = 1, s0, m, n; j < m; ++j) { for (var i = 0, s1 = 0, s2 = 0; i < n; ++i) { var si = series[order[i]], sij0 = si[j][1] || 0, sij1 = si[j - 1][1] || 0, s3 = (sij0 - sij1) / 2; for (var k = 0; k < i; ++k) { var sk = series[order[k]], skj0 = sk[j][1] || 0, skj1 = sk[j - 1][1] || 0; s3 += skj0 - skj1; } s1 += sij0, s2 += s3 * sij0; } s0[j - 1][1] += s0[j - 1][0] = y; if (s1) y -= s2 / s1; } s0[j - 1][1] += s0[j - 1][0] = y; none(series, order); } function ascending$1(series) { var sums = series.map(sum$1); return none$1(series).sort(function(a, b) { return sums[a] - sums[b]; }); } function sum$1(series) { var s = 0, i = -1, n = series.length, v; while (++i < n) if (v = +series[i][1]) s += v; return s; } function descending$2(series) { return ascending$1(series).reverse(); } function insideOut(series) { var n = series.length, i, j, sums = series.map(sum$1), order = none$1(series).sort(function(a, b) { return sums[b] - sums[a]; }), top = 0, bottom = 0, tops = [], bottoms = []; for (i = 0; i < n; ++i) { j = order[i]; if (top < bottom) { top += sums[j]; tops.push(j); } else { bottom += sums[j]; bottoms.push(j); } } return bottoms.reverse().concat(tops); } function reverse(series) { return none$1(series).reverse(); } function define(constructor, factory, prototype) { constructor.prototype = factory.prototype = prototype; prototype.constructor = constructor; } function extend(parent, definition) { var prototype = Object.create(parent.prototype); for (var key in definition) prototype[key] = definition[key]; return prototype; } function Color() {} var darker = 0.7; var brighter = 1 / darker; var reHex3 = /^#([0-9a-f]{3})$/; var reHex6 = /^#([0-9a-f]{6})$/; var reRgbInteger = /^rgb\(\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*\)$/; var reRgbPercent = /^rgb\(\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*\)$/; var reRgbaInteger = /^rgba\(\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var reRgbaPercent = /^rgba\(\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var reHslPercent = /^hsl\(\s*([-+]?\d+(?:\.\d+)?)\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*\)$/; var reHslaPercent = /^hsla\(\s*([-+]?\d+(?:\.\d+)?)\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var named = { aliceblue: 0xf0f8ff, antiquewhite: 0xfaebd7, aqua: 0x00ffff, aquamarine: 0x7fffd4, azure: 0xf0ffff, beige: 0xf5f5dc, bisque: 0xffe4c4, black: 0x000000, blanchedalmond: 0xffebcd, blue: 0x0000ff, blueviolet: 0x8a2be2, brown: 0xa52a2a, burlywood: 0xdeb887, cadetblue: 0x5f9ea0, chartreuse: 0x7fff00, chocolate: 0xd2691e, coral: 0xff7f50, cornflowerblue: 0x6495ed, cornsilk: 0xfff8dc, crimson: 0xdc143c, cyan: 0x00ffff, darkblue: 0x00008b, darkcyan: 0x008b8b, darkgoldenrod: 0xb8860b, darkgray: 0xa9a9a9, darkgreen: 0x006400, darkgrey: 0xa9a9a9, darkkhaki: 0xbdb76b, darkmagenta: 0x8b008b, darkolivegreen: 0x556b2f, darkorange: 0xff8c00, darkorchid: 0x9932cc, darkred: 0x8b0000, darksalmon: 0xe9967a, darkseagreen: 0x8fbc8f, darkslateblue: 0x483d8b, darkslategray: 0x2f4f4f, darkslategrey: 0x2f4f4f, darkturquoise: 0x00ced1, darkviolet: 0x9400d3, deeppink: 0xff1493, deepskyblue: 0x00bfff, dimgray: 0x696969, dimgrey: 0x696969, dodgerblue: 0x1e90ff, firebrick: 0xb22222, floralwhite: 0xfffaf0, forestgreen: 0x228b22, fuchsia: 0xff00ff, gainsboro: 0xdcdcdc, ghostwhite: 0xf8f8ff, gold: 0xffd700, goldenrod: 0xdaa520, gray: 0x808080, green: 0x008000, greenyellow: 0xadff2f, grey: 0x808080, honeydew: 0xf0fff0, hotpink: 0xff69b4, indianred: 0xcd5c5c, indigo: 0x4b0082, ivory: 0xfffff0, khaki: 0xf0e68c, lavender: 0xe6e6fa, lavenderblush: 0xfff0f5, lawngreen: 0x7cfc00, lemonchiffon: 0xfffacd, lightblue: 0xadd8e6, lightcoral: 0xf08080, lightcyan: 0xe0ffff, lightgoldenrodyellow: 0xfafad2, lightgray: 0xd3d3d3, lightgreen: 0x90ee90, lightgrey: 0xd3d3d3, lightpink: 0xffb6c1, lightsalmon: 0xffa07a, lightseagreen: 0x20b2aa, lightskyblue: 0x87cefa, lightslategray: 0x778899, lightslategrey: 0x778899, lightsteelblue: 0xb0c4de, lightyellow: 0xffffe0, lime: 0x00ff00, limegreen: 0x32cd32, linen: 0xfaf0e6, magenta: 0xff00ff, maroon: 0x800000, mediumaquamarine: 0x66cdaa, mediumblue: 0x0000cd, mediumorchid: 0xba55d3, mediumpurple: 0x9370db, mediumseagreen: 0x3cb371, mediumslateblue: 0x7b68ee, mediumspringgreen: 0x00fa9a, mediumturquoise: 0x48d1cc, mediumvioletred: 0xc71585, midnightblue: 0x191970, mintcream: 0xf5fffa, mistyrose: 0xffe4e1, moccasin: 0xffe4b5, navajowhite: 0xffdead, navy: 0x000080, oldlace: 0xfdf5e6, olive: 0x808000, olivedrab: 0x6b8e23, orange: 0xffa500, orangered: 0xff4500, orchid: 0xda70d6, palegoldenrod: 0xeee8aa, palegreen: 0x98fb98, paleturquoise: 0xafeeee, palevioletred: 0xdb7093, papayawhip: 0xffefd5, peachpuff: 0xffdab9, peru: 0xcd853f, pink: 0xffc0cb, plum: 0xdda0dd, powderblue: 0xb0e0e6, purple: 0x800080, rebeccapurple: 0x663399, red: 0xff0000, rosybrown: 0xbc8f8f, royalblue: 0x4169e1, saddlebrown: 0x8b4513, salmon: 0xfa8072, sandybrown: 0xf4a460, seagreen: 0x2e8b57, seashell: 0xfff5ee, sienna: 0xa0522d, silver: 0xc0c0c0, skyblue: 0x87ceeb, slateblue: 0x6a5acd, slategray: 0x708090, slategrey: 0x708090, snow: 0xfffafa, springgreen: 0x00ff7f, steelblue: 0x4682b4, tan: 0xd2b48c, teal: 0x008080, thistle: 0xd8bfd8, tomato: 0xff6347, turquoise: 0x40e0d0, violet: 0xee82ee, wheat: 0xf5deb3, white: 0xffffff, whitesmoke: 0xf5f5f5, yellow: 0xffff00, yellowgreen: 0x9acd32 }; define(Color, color, { displayable: function() { return this.rgb().displayable(); }, toString: function() { return this.rgb() + ""; } }); function color(format) { var m; format = (format + "").trim().toLowerCase(); return (m = reHex3.exec(format)) ? (m = parseInt(m[1], 16), new Rgb((m >> 8 & 0xf) | (m >> 4 & 0x0f0), (m >> 4 & 0xf) | (m & 0xf0), ((m & 0xf) << 4) | (m & 0xf), 1)) // #f00 : (m = reHex6.exec(format)) ? rgbn(parseInt(m[1], 16)) // #ff0000 : (m = reRgbInteger.exec(format)) ? new Rgb(m[1], m[2], m[3], 1) // rgb(255, 0, 0) : (m = reRgbPercent.exec(format)) ? new Rgb(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, 1) // rgb(100%, 0%, 0%) : (m = reRgbaInteger.exec(format)) ? rgba(m[1], m[2], m[3], m[4]) // rgba(255, 0, 0, 1) : (m = reRgbaPercent.exec(format)) ? rgba(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, m[4]) // rgb(100%, 0%, 0%, 1) : (m = reHslPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, 1) // hsl(120, 50%, 50%) : (m = reHslaPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, m[4]) // hsla(120, 50%, 50%, 1) : named.hasOwnProperty(format) ? rgbn(named[format]) : format === "transparent" ? new Rgb(NaN, NaN, NaN, 0) : null; } function rgbn(n) { return new Rgb(n >> 16 & 0xff, n >> 8 & 0xff, n & 0xff, 1); } function rgba(r, g, b, a) { if (a <= 0) r = g = b = NaN; return new Rgb(r, g, b, a); } function rgbConvert(o) { if (!(o instanceof Color)) o = color(o); if (!o) return new Rgb; o = o.rgb(); return new Rgb(o.r, o.g, o.b, o.opacity); } function colorRgb(r, g, b, opacity) { return arguments.length === 1 ? rgbConvert(r) : new Rgb(r, g, b, opacity == null ? 1 : opacity); } function Rgb(r, g, b, opacity) { this.r = +r; this.g = +g; this.b = +b; this.opacity = +opacity; } define(Rgb, colorRgb, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity); }, rgb: function() { return this; }, displayable: function() { return (0 <= this.r && this.r <= 255) && (0 <= this.g && this.g <= 255) && (0 <= this.b && this.b <= 255) && (0 <= this.opacity && this.opacity <= 1); }, toString: function() { var a = this.opacity; a = isNaN(a) ? 1 : Math.max(0, Math.min(1, a)); return (a === 1 ? "rgb(" : "rgba(") + Math.max(0, Math.min(255, Math.round(this.r) || 0)) + ", " + Math.max(0, Math.min(255, Math.round(this.g) || 0)) + ", " + Math.max(0, Math.min(255, Math.round(this.b) || 0)) + (a === 1 ? ")" : ", " + a + ")"); } })); function hsla(h, s, l, a) { if (a <= 0) h = s = l = NaN; else if (l <= 0 || l >= 1) h = s = NaN; else if (s <= 0) h = NaN; return new Hsl(h, s, l, a); } function hslConvert(o) { if (o instanceof Hsl) return new Hsl(o.h, o.s, o.l, o.opacity); if (!(o instanceof Color)) o = color(o); if (!o) return new Hsl; if (o instanceof Hsl) return o; o = o.rgb(); var r = o.r / 255, g = o.g / 255, b = o.b / 255, min = Math.min(r, g, b), max = Math.max(r, g, b), h = NaN, s = max - min, l = (max + min) / 2; if (s) { if (r === max) h = (g - b) / s + (g < b) * 6; else if (g === max) h = (b - r) / s + 2; else h = (r - g) / s + 4; s /= l < 0.5 ? max + min : 2 - max - min; h *= 60; } else { s = l > 0 && l < 1 ? 0 : h; } return new Hsl(h, s, l, o.opacity); } function colorHsl(h, s, l, opacity) { return arguments.length === 1 ? hslConvert(h) : new Hsl(h, s, l, opacity == null ? 1 : opacity); } function Hsl(h, s, l, opacity) { this.h = +h; this.s = +s; this.l = +l; this.opacity = +opacity; } define(Hsl, colorHsl, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Hsl(this.h, this.s, this.l * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Hsl(this.h, this.s, this.l * k, this.opacity); }, rgb: function() { var h = this.h % 360 + (this.h < 0) * 360, s = isNaN(h) || isNaN(this.s) ? 0 : this.s, l = this.l, m2 = l + (l < 0.5 ? l : 1 - l) * s, m1 = 2 * l - m2; return new Rgb( hsl2rgb(h >= 240 ? h - 240 : h + 120, m1, m2), hsl2rgb(h, m1, m2), hsl2rgb(h < 120 ? h + 240 : h - 120, m1, m2), this.opacity ); }, displayable: function() { return (0 <= this.s && this.s <= 1 || isNaN(this.s)) && (0 <= this.l && this.l <= 1) && (0 <= this.opacity && this.opacity <= 1); } })); /* From FvD 13.37, CSS Color Module Level 3 */ function hsl2rgb(h, m1, m2) { return (h < 60 ? m1 + (m2 - m1) * h / 60 : h < 180 ? m2 : h < 240 ? m1 + (m2 - m1) * (240 - h) / 60 : m1) * 255; } var deg2rad = Math.PI / 180; var rad2deg = 180 / Math.PI; var Kn = 18; var Xn = 0.950470; var Yn = 1; var Zn = 1.088830; var t0 = 4 / 29; var t1 = 6 / 29; var t2 = 3 * t1 * t1; var t3 = t1 * t1 * t1; function labConvert(o) { if (o instanceof Lab) return new Lab(o.l, o.a, o.b, o.opacity); if (o instanceof Hcl) { var h = o.h * deg2rad; return new Lab(o.l, Math.cos(h) * o.c, Math.sin(h) * o.c, o.opacity); } if (!(o instanceof Rgb)) o = rgbConvert(o); var b = rgb2xyz(o.r), a = rgb2xyz(o.g), l = rgb2xyz(o.b), x = xyz2lab((0.4124564 * b + 0.3575761 * a + 0.1804375 * l) / Xn), y = xyz2lab((0.2126729 * b + 0.7151522 * a + 0.0721750 * l) / Yn), z = xyz2lab((0.0193339 * b + 0.1191920 * a + 0.9503041 * l) / Zn); return new Lab(116 * y - 16, 500 * (x - y), 200 * (y - z), o.opacity); } function lab(l, a, b, opacity) { return arguments.length === 1 ? labConvert(l) : new Lab(l, a, b, opacity == null ? 1 : opacity); } function Lab(l, a, b, opacity) { this.l = +l; this.a = +a; this.b = +b; this.opacity = +opacity; } define(Lab, lab, extend(Color, { brighter: function(k) { return new Lab(this.l + Kn * (k == null ? 1 : k), this.a, this.b, this.opacity); }, darker: function(k) { return new Lab(this.l - Kn * (k == null ? 1 : k), this.a, this.b, this.opacity); }, rgb: function() { var y = (this.l + 16) / 116, x = isNaN(this.a) ? y : y + this.a / 500, z = isNaN(this.b) ? y : y - this.b / 200; y = Yn * lab2xyz(y); x = Xn * lab2xyz(x); z = Zn * lab2xyz(z); return new Rgb( xyz2rgb( 3.2404542 * x - 1.5371385 * y - 0.4985314 * z), // D65 -> sRGB xyz2rgb(-0.9692660 * x + 1.8760108 * y + 0.0415560 * z), xyz2rgb( 0.0556434 * x - 0.2040259 * y + 1.0572252 * z), this.opacity ); } })); function xyz2lab(t) { return t > t3 ? Math.pow(t, 1 / 3) : t / t2 + t0; } function lab2xyz(t) { return t > t1 ? t * t * t : t2 * (t - t0); } function xyz2rgb(x) { return 255 * (x <= 0.0031308 ? 12.92 * x : 1.055 * Math.pow(x, 1 / 2.4) - 0.055); } function rgb2xyz(x) { return (x /= 255) <= 0.04045 ? x / 12.92 : Math.pow((x + 0.055) / 1.055, 2.4); } function hclConvert(o) { if (o instanceof Hcl) return new Hcl(o.h, o.c, o.l, o.opacity); if (!(o instanceof Lab)) o = labConvert(o); var h = Math.atan2(o.b, o.a) * rad2deg; return new Hcl(h < 0 ? h + 360 : h, Math.sqrt(o.a * o.a + o.b * o.b), o.l, o.opacity); } function colorHcl(h, c, l, opacity) { return arguments.length === 1 ? hclConvert(h) : new Hcl(h, c, l, opacity == null ? 1 : opacity); } function Hcl(h, c, l, opacity) { this.h = +h; this.c = +c; this.l = +l; this.opacity = +opacity; } define(Hcl, colorHcl, extend(Color, { brighter: function(k) { return new Hcl(this.h, this.c, this.l + Kn * (k == null ? 1 : k), this.opacity); }, darker: function(k) { return new Hcl(this.h, this.c, this.l - Kn * (k == null ? 1 : k), this.opacity); }, rgb: function() { return labConvert(this).rgb(); } })); var A = -0.14861; var B = +1.78277; var C = -0.29227; var D = -0.90649; var E = +1.97294; var ED = E * D; var EB = E * B; var BC_DA = B * C - D * A; function cubehelixConvert(o) { if (o instanceof Cubehelix) return new Cubehelix(o.h, o.s, o.l, o.opacity); if (!(o instanceof Rgb)) o = rgbConvert(o); var r = o.r / 255, g = o.g / 255, b = o.b / 255, l = (BC_DA * b + ED * r - EB * g) / (BC_DA + ED - EB), bl = b - l, k = (E * (g - l) - C * bl) / D, s = Math.sqrt(k * k + bl * bl) / (E * l * (1 - l)), // NaN if l=0 or l=1 h = s ? Math.atan2(k, bl) * rad2deg - 120 : NaN; return new Cubehelix(h < 0 ? h + 360 : h, s, l, o.opacity); } function cubehelix(h, s, l, opacity) { return arguments.length === 1 ? cubehelixConvert(h) : new Cubehelix(h, s, l, opacity == null ? 1 : opacity); } function Cubehelix(h, s, l, opacity) { this.h = +h; this.s = +s; this.l = +l; this.opacity = +opacity; } define(Cubehelix, cubehelix, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Cubehelix(this.h, this.s, this.l * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Cubehelix(this.h, this.s, this.l * k, this.opacity); }, rgb: function() { var h = isNaN(this.h) ? 0 : (this.h + 120) * deg2rad, l = +this.l, a = isNaN(this.s) ? 0 : this.s * l * (1 - l), cosh = Math.cos(h), sinh = Math.sin(h); return new Rgb( 255 * (l + a * (A * cosh + B * sinh)), 255 * (l + a * (C * cosh + D * sinh)), 255 * (l + a * (E * cosh)), this.opacity ); } })); function basis$1(t1, v0, v1, v2, v3) { var t2 = t1 * t1, t3 = t2 * t1; return ((1 - 3 * t1 + 3 * t2 - t3) * v0 + (4 - 6 * t2 + 3 * t3) * v1 + (1 + 3 * t1 + 3 * t2 - 3 * t3) * v2 + t3 * v3) / 6; } function basis$2(values) { var n = values.length - 1; return function(t) { var i = t <= 0 ? (t = 0) : t >= 1 ? (t = 1, n - 1) : Math.floor(t * n), v1 = values[i], v2 = values[i + 1], v0 = i > 0 ? values[i - 1] : 2 * v1 - v2, v3 = i < n - 1 ? values[i + 2] : 2 * v2 - v1; return basis$1((t - i / n) * n, v0, v1, v2, v3); }; } function basisClosed$1(values) { var n = values.length; return function(t) { var i = Math.floor(((t %= 1) < 0 ? ++t : t) * n), v0 = values[(i + n - 1) % n], v1 = values[i % n], v2 = values[(i + 1) % n], v3 = values[(i + 2) % n]; return basis$1((t - i / n) * n, v0, v1, v2, v3); }; } function constant$2(x) { return function() { return x; }; } function linear$1(a, d) { return function(t) { return a + t * d; }; } function exponential$1(a, b, y) { return a = Math.pow(a, y), b = Math.pow(b, y) - a, y = 1 / y, function(t) { return Math.pow(a + t * b, y); }; } function hue(a, b) { var d = b - a; return d ? linear$1(a, d > 180 || d < -180 ? d - 360 * Math.round(d / 360) : d) : constant$2(isNaN(a) ? b : a); } function gamma(y) { return (y = +y) === 1 ? nogamma : function(a, b) { return b - a ? exponential$1(a, b, y) : constant$2(isNaN(a) ? b : a); }; } function nogamma(a, b) { var d = b - a; return d ? linear$1(a, d) : constant$2(isNaN(a) ? b : a); } var interpolateRgb = (function rgbGamma(y) { var color = gamma(y); function rgb(start, end) { var r = color((start = colorRgb(start)).r, (end = colorRgb(end)).r), g = color(start.g, end.g), b = color(start.b, end.b), opacity = color(start.opacity, end.opacity); return function(t) { start.r = r(t); start.g = g(t); start.b = b(t); start.opacity = opacity(t); return start + ""; }; } rgb.gamma = rgbGamma; return rgb; })(1); function rgbSpline(spline) { return function(colors) { var n = colors.length, r = new Array(n), g = new Array(n), b = new Array(n), i, color; for (i = 0; i < n; ++i) { color = colorRgb(colors[i]); r[i] = color.r || 0; g[i] = color.g || 0; b[i] = color.b || 0; } r = spline(r); g = spline(g); b = spline(b); color.opacity = 1; return function(t) { color.r = r(t); color.g = g(t); color.b = b(t); return color + ""; }; }; } var rgbBasis = rgbSpline(basis$2); var rgbBasisClosed = rgbSpline(basisClosed$1); function array$1(a, b) { var nb = b ? b.length : 0, na = a ? Math.min(nb, a.length) : 0, x = new Array(nb), c = new Array(nb), i; for (i = 0; i < na; ++i) x[i] = interpolate(a[i], b[i]); for (; i < nb; ++i) c[i] = b[i]; return function(t) { for (i = 0; i < na; ++i) c[i] = x[i](t); return c; }; } function date(a, b) { var d = new Date; return a = +a, b -= a, function(t) { return d.setTime(a + b * t), d; }; } function interpolateNumber(a, b) { return a = +a, b -= a, function(t) { return a + b * t; }; } function object(a, b) { var i = {}, c = {}, k; if (a === null || typeof a !== "object") a = {}; if (b === null || typeof b !== "object") b = {}; for (k in b) { if (k in a) { i[k] = interpolate(a[k], b[k]); } else { c[k] = b[k]; } } return function(t) { for (k in i) c[k] = i[k](t); return c; }; } var reA = /[-+]?(?:\d+\.?\d*|\.?\d+)(?:[eE][-+]?\d+)?/g; var reB = new RegExp(reA.source, "g"); function zero(b) { return function() { return b; }; } function one(b) { return function(t) { return b(t) + ""; }; } function interpolateString(a, b) { var bi = reA.lastIndex = reB.lastIndex = 0, // scan index for next number in b am, // current match in a bm, // current match in b bs, // string preceding current number in b, if any i = -1, // index in s s = [], // string constants and placeholders q = []; // number interpolators // Coerce inputs to strings. a = a + "", b = b + ""; // Interpolate pairs of numbers in a & b. while ((am = reA.exec(a)) && (bm = reB.exec(b))) { if ((bs = bm.index) > bi) { // a string precedes the next number in b bs = b.slice(bi, bs); if (s[i]) s[i] += bs; // coalesce with previous string else s[++i] = bs; } if ((am = am[0]) === (bm = bm[0])) { // numbers in a & b match if (s[i]) s[i] += bm; // coalesce with previous string else s[++i] = bm; } else { // interpolate non-matching numbers s[++i] = null; q.push({i: i, x: interpolateNumber(am, bm)}); } bi = reB.lastIndex; } // Add remains of b. if (bi < b.length) { bs = b.slice(bi); if (s[i]) s[i] += bs; // coalesce with previous string else s[++i] = bs; } // Special optimization for only a single match. // Otherwise, interpolate each of the numbers and rejoin the string. return s.length < 2 ? (q[0] ? one(q[0].x) : zero(b)) : (b = q.length, function(t) { for (var i = 0, o; i < b; ++i) s[(o = q[i]).i] = o.x(t); return s.join(""); }); } function interpolate(a, b) { var t = typeof b, c; return b == null || t === "boolean" ? constant$2(b) : (t === "number" ? interpolateNumber : t === "string" ? ((c = color(b)) ? (b = c, interpolateRgb) : interpolateString) : b instanceof color ? interpolateRgb : b instanceof Date ? date : Array.isArray(b) ? array$1 : isNaN(b) ? object : interpolateNumber)(a, b); } function interpolateRound(a, b) { return a = +a, b -= a, function(t) { return Math.round(a + b * t); }; } var degrees = 180 / Math.PI; var identity$2 = { translateX: 0, translateY: 0, rotate: 0, skewX: 0, scaleX: 1, scaleY: 1 }; function decompose(a, b, c, d, e, f) { var scaleX, scaleY, skewX; if (scaleX = Math.sqrt(a * a + b * b)) a /= scaleX, b /= scaleX; if (skewX = a * c + b * d) c -= a * skewX, d -= b * skewX; if (scaleY = Math.sqrt(c * c + d * d)) c /= scaleY, d /= scaleY, skewX /= scaleY; if (a * d < b * c) a = -a, b = -b, skewX = -skewX, scaleX = -scaleX; return { translateX: e, translateY: f, rotate: Math.atan2(b, a) * degrees, skewX: Math.atan(skewX) * degrees, scaleX: scaleX, scaleY: scaleY }; } var cssNode; var cssRoot; var cssView; var svgNode; function parseCss(value) { if (value === "none") return identity$2; if (!cssNode) cssNode = document.createElement("DIV"), cssRoot = document.documentElement, cssView = document.defaultView; cssNode.style.transform = value; value = cssView.getComputedStyle(cssRoot.appendChild(cssNode), null).getPropertyValue("transform"); cssRoot.removeChild(cssNode); value = value.slice(7, -1).split(","); return decompose(+value[0], +value[1], +value[2], +value[3], +value[4], +value[5]); } function parseSvg(value) { if (value == null) return identity$2; if (!svgNode) svgNode = document.createElementNS("http://www.w3.org/2000/svg", "g"); svgNode.setAttribute("transform", value); if (!(value = svgNode.transform.baseVal.consolidate())) return identity$2; value = value.matrix; return decompose(value.a, value.b, value.c, value.d, value.e, value.f); } function interpolateTransform(parse, pxComma, pxParen, degParen) { function pop(s) { return s.length ? s.pop() + " " : ""; } function translate(xa, ya, xb, yb, s, q) { if (xa !== xb || ya !== yb) { var i = s.push("translate(", null, pxComma, null, pxParen); q.push({i: i - 4, x: interpolateNumber(xa, xb)}, {i: i - 2, x: interpolateNumber(ya, yb)}); } else if (xb || yb) { s.push("translate(" + xb + pxComma + yb + pxParen); } } function rotate(a, b, s, q) { if (a !== b) { if (a - b > 180) b += 360; else if (b - a > 180) a += 360; // shortest path q.push({i: s.push(pop(s) + "rotate(", null, degParen) - 2, x: interpolateNumber(a, b)}); } else if (b) { s.push(pop(s) + "rotate(" + b + degParen); } } function skewX(a, b, s, q) { if (a !== b) { q.push({i: s.push(pop(s) + "skewX(", null, degParen) - 2, x: interpolateNumber(a, b)}); } else if (b) { s.push(pop(s) + "skewX(" + b + degParen); } } function scale(xa, ya, xb, yb, s, q) { if (xa !== xb || ya !== yb) { var i = s.push(pop(s) + "scale(", null, ",", null, ")"); q.push({i: i - 4, x: interpolateNumber(xa, xb)}, {i: i - 2, x: interpolateNumber(ya, yb)}); } else if (xb !== 1 || yb !== 1) { s.push(pop(s) + "scale(" + xb + "," + yb + ")"); } } return function(a, b) { var s = [], // string constants and placeholders q = []; // number interpolators a = parse(a), b = parse(b); translate(a.translateX, a.translateY, b.translateX, b.translateY, s, q); rotate(a.rotate, b.rotate, s, q); skewX(a.skewX, b.skewX, s, q); scale(a.scaleX, a.scaleY, b.scaleX, b.scaleY, s, q); a = b = null; // gc return function(t) { var i = -1, n = q.length, o; while (++i < n) s[(o = q[i]).i] = o.x(t); return s.join(""); }; }; } var interpolateTransform$1 = interpolateTransform(parseCss, "px, ", "px)", "deg)"); var interpolateTransform$2 = interpolateTransform(parseSvg, ", ", ")", ")"); var rho = Math.SQRT2; var rho2 = 2; var rho4 = 4; var epsilon2 = 1e-12; function cosh(x) { return ((x = Math.exp(x)) + 1 / x) / 2; } function sinh(x) { return ((x = Math.exp(x)) - 1 / x) / 2; } function tanh(x) { return ((x = Math.exp(2 * x)) - 1) / (x + 1); } // p0 = [ux0, uy0, w0] // p1 = [ux1, uy1, w1] function interpolateZoom(p0, p1) { var ux0 = p0[0], uy0 = p0[1], w0 = p0[2], ux1 = p1[0], uy1 = p1[1], w1 = p1[2], dx = ux1 - ux0, dy = uy1 - uy0, d2 = dx * dx + dy * dy, i, S; // Special case for u0 ≅ u1. if (d2 < epsilon2) { S = Math.log(w1 / w0) / rho; i = function(t) { return [ ux0 + t * dx, uy0 + t * dy, w0 * Math.exp(rho * t * S) ]; } } // General case. else { var d1 = Math.sqrt(d2), b0 = (w1 * w1 - w0 * w0 + rho4 * d2) / (2 * w0 * rho2 * d1), b1 = (w1 * w1 - w0 * w0 - rho4 * d2) / (2 * w1 * rho2 * d1), r0 = Math.log(Math.sqrt(b0 * b0 + 1) - b0), r1 = Math.log(Math.sqrt(b1 * b1 + 1) - b1); S = (r1 - r0) / rho; i = function(t) { var s = t * S, coshr0 = cosh(r0), u = w0 / (rho2 * d1) * (coshr0 * tanh(rho * s + r0) - sinh(r0)); return [ ux0 + u * dx, uy0 + u * dy, w0 * coshr0 / cosh(rho * s + r0) ]; } } i.duration = S * 1000; return i; } function hsl(hue) { return function(start, end) { var h = hue((start = colorHsl(start)).h, (end = colorHsl(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } } var hsl$1 = hsl(hue); var hslLong = hsl(nogamma); function lab$1(start, end) { var l = nogamma((start = lab(start)).l, (end = lab(end)).l), a = nogamma(start.a, end.a), b = nogamma(start.b, end.b), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.l = l(t); start.a = a(t); start.b = b(t); start.opacity = opacity(t); return start + ""; }; } function hcl(hue) { return function(start, end) { var h = hue((start = colorHcl(start)).h, (end = colorHcl(end)).h), c = nogamma(start.c, end.c), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.c = c(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } } var hcl$1 = hcl(hue); var hclLong = hcl(nogamma); function cubehelix$1(hue) { return (function cubehelixGamma(y) { y = +y; function cubehelix$$(start, end) { var h = hue((start = cubehelix(start)).h, (end = cubehelix(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(Math.pow(t, y)); start.opacity = opacity(t); return start + ""; }; } cubehelix$$.gamma = cubehelixGamma; return cubehelix$$; })(1); } var cubehelix$2 = cubehelix$1(hue); var interpolateCubehelixLong = cubehelix$1(nogamma); function quantize(interpolator, n) { var samples = new Array(n); for (var i = 0; i < n; ++i) samples[i] = interpolator(i / (n - 1)); return samples; } var noop$1 = {value: function() {}}; function dispatch() { for (var i = 0, n = arguments.length, _ = {}, t; i < n; ++i) { if (!(t = arguments[i] + "") || (t in _)) throw new Error("illegal type: " + t); _[t] = []; } return new Dispatch(_); } function Dispatch(_) { this._ = _; } function parseTypenames(typenames, types) { return typenames.trim().split(/^|\s+/).map(function(t) { var name = "", i = t.indexOf("."); if (i >= 0) name = t.slice(i + 1), t = t.slice(0, i); if (t && !types.hasOwnProperty(t)) throw new Error("unknown type: " + t); return {type: t, name: name}; }); } Dispatch.prototype = dispatch.prototype = { constructor: Dispatch, on: function(typename, callback) { var _ = this._, T = parseTypenames(typename + "", _), t, i = -1, n = T.length; // If no callback was specified, return the callback of the given type and name. if (arguments.length < 2) { while (++i < n) if ((t = (typename = T[i]).type) && (t = get(_[t], typename.name))) return t; return; } // If a type was specified, set the callback for the given type and name. // Otherwise, if a null callback was specified, remove callbacks of the given name. if (callback != null && typeof callback !== "function") throw new Error("invalid callback: " + callback); while (++i < n) { if (t = (typename = T[i]).type) _[t] = set$1(_[t], typename.name, callback); else if (callback == null) for (t in _) _[t] = set$1(_[t], typename.name, null); } return this; }, copy: function() { var copy = {}, _ = this._; for (var t in _) copy[t] = _[t].slice(); return new Dispatch(copy); }, call: function(type, that) { if ((n = arguments.length - 2) > 0) for (var args = new Array(n), i = 0, n, t; i < n; ++i) args[i] = arguments[i + 2]; if (!this._.hasOwnProperty(type)) throw new Error("unknown type: " + type); for (t = this._[type], i = 0, n = t.length; i < n; ++i) t[i].value.apply(that, args); }, apply: function(type, that, args) { if (!this._.hasOwnProperty(type)) throw new Error("unknown type: " + type); for (var t = this._[type], i = 0, n = t.length; i < n; ++i) t[i].value.apply(that, args); } }; function get(type, name) { for (var i = 0, n = type.length, c; i < n; ++i) { if ((c = type[i]).name === name) { return c.value; } } } function set$1(type, name, callback) { for (var i = 0, n = type.length; i < n; ++i) { if (type[i].name === name) { type[i] = noop$1, type = type.slice(0, i).concat(type.slice(i + 1)); break; } } if (callback != null) type.push({name: name, value: callback}); return type; } function objectConverter(columns) { return new Function("d", "return {" + columns.map(function(name, i) { return JSON.stringify(name) + ": d[" + i + "]"; }).join(",") + "}"); } function customConverter(columns, f) { var object = objectConverter(columns); return function(row, i) { return f(object(row), i, columns); }; } // Compute unique columns in order of discovery. function inferColumns(rows) { var columnSet = Object.create(null), columns = []; rows.forEach(function(row) { for (var column in row) { if (!(column in columnSet)) { columns.push(columnSet[column] = column); } } }); return columns; } function dsv(delimiter) { var reFormat = new RegExp("[\"" + delimiter + "\n]"), delimiterCode = delimiter.charCodeAt(0); function parse(text, f) { var convert, columns, rows = parseRows(text, function(row, i) { if (convert) return convert(row, i - 1); columns = row, convert = f ? customConverter(row, f) : objectConverter(row); }); rows.columns = columns; return rows; } function parseRows(text, f) { var EOL = {}, // sentinel value for end-of-line EOF = {}, // sentinel value for end-of-file rows = [], // output rows N = text.length, I = 0, // current character index n = 0, // the current line number t, // the current token eol; // is the current token followed by EOL? function token() { if (I >= N) return EOF; // special case: end of file if (eol) return eol = false, EOL; // special case: end of line // special case: quotes var j = I, c; if (text.charCodeAt(j) === 34) { var i = j; while (i++ < N) { if (text.charCodeAt(i) === 34) { if (text.charCodeAt(i + 1) !== 34) break; ++i; } } I = i + 2; c = text.charCodeAt(i + 1); if (c === 13) { eol = true; if (text.charCodeAt(i + 2) === 10) ++I; } else if (c === 10) { eol = true; } return text.slice(j + 1, i).replace(/""/g, "\""); } // common case: find next delimiter or newline while (I < N) { var k = 1; c = text.charCodeAt(I++); if (c === 10) eol = true; // \n else if (c === 13) { eol = true; if (text.charCodeAt(I) === 10) ++I, ++k; } // \r|\r\n else if (c !== delimiterCode) continue; return text.slice(j, I - k); } // special case: last token before EOF return text.slice(j); } while ((t = token()) !== EOF) { var a = []; while (t !== EOL && t !== EOF) { a.push(t); t = token(); } if (f && (a = f(a, n++)) == null) continue; rows.push(a); } return rows; } function format(rows, columns) { if (columns == null) columns = inferColumns(rows); return [columns.map(formatValue).join(delimiter)].concat(rows.map(function(row) { return columns.map(function(column) { return formatValue(row[column]); }).join(delimiter); })).join("\n"); } function formatRows(rows) { return rows.map(formatRow).join("\n"); } function formatRow(row) { return row.map(formatValue).join(delimiter); } function formatValue(text) { return text == null ? "" : reFormat.test(text += "") ? "\"" + text.replace(/\"/g, "\"\"") + "\"" : text; } return { parse: parse, parseRows: parseRows, format: format, formatRows: formatRows }; } var csv = dsv(","); var csvParse = csv.parse; var csvParseRows = csv.parseRows; var csvFormat = csv.format; var csvFormatRows = csv.formatRows; var tsv = dsv("\t"); var tsvParse = tsv.parse; var tsvParseRows = tsv.parseRows; var tsvFormat = tsv.format; var tsvFormatRows = tsv.formatRows; function request(url, callback) { var request, event = dispatch("beforesend", "progress", "load", "error"), mimeType, headers = map$1(), xhr = new XMLHttpRequest, user = null, password = null, response, responseType, timeout = 0; // If IE does not support CORS, use XDomainRequest. if (typeof XDomainRequest !== "undefined" && !("withCredentials" in xhr) && /^(http(s)?:)?\/\//.test(url)) xhr = new XDomainRequest; "onload" in xhr ? xhr.onload = xhr.onerror = xhr.ontimeout = respond : xhr.onreadystatechange = function(o) { xhr.readyState > 3 && respond(o); }; function respond(o) { var status = xhr.status, result; if (!status && hasResponse(xhr) || status >= 200 && status < 300 || status === 304) { if (response) { try { result = response.call(request, xhr); } catch (e) { event.call("error", request, e); return; } } else { result = xhr; } event.call("load", request, result); } else { event.call("error", request, o); } } xhr.onprogress = function(e) { event.call("progress", request, e); }; request = { header: function(name, value) { name = (name + "").toLowerCase(); if (arguments.length < 2) return headers.get(name); if (value == null) headers.remove(name); else headers.set(name, value + ""); return request; }, // If mimeType is non-null and no Accept header is set, a default is used. mimeType: function(value) { if (!arguments.length) return mimeType; mimeType = value == null ? null : value + ""; return request; }, // Specifies what type the response value should take; // for instance, arraybuffer, blob, document, or text. responseType: function(value) { if (!arguments.length) return responseType; responseType = value; return request; }, timeout: function(value) { if (!arguments.length) return timeout; timeout = +value; return request; }, user: function(value) { return arguments.length < 1 ? user : (user = value == null ? null : value + "", request); }, password: function(value) { return arguments.length < 1 ? password : (password = value == null ? null : value + "", request); }, // Specify how to convert the response content to a specific type; // changes the callback value on "load" events. response: function(value) { response = value; return request; }, // Alias for send("GET", …). get: function(data, callback) { return request.send("GET", data, callback); }, // Alias for send("POST", …). post: function(data, callback) { return request.send("POST", data, callback); }, // If callback is non-null, it will be used for error and load events. send: function(method, data, callback) { xhr.open(method, url, true, user, password); if (mimeType != null && !headers.has("accept")) headers.set("accept", mimeType + ",*/*"); if (xhr.setRequestHeader) headers.each(function(value, name) { xhr.setRequestHeader(name, value); }); if (mimeType != null && xhr.overrideMimeType) xhr.overrideMimeType(mimeType); if (responseType != null) xhr.responseType = responseType; if (timeout > 0) xhr.timeout = timeout; if (callback == null && typeof data === "function") callback = data, data = null; if (callback != null && callback.length === 1) callback = fixCallback(callback); if (callback != null) request.on("error", callback).on("load", function(xhr) { callback(null, xhr); }); event.call("beforesend", request, xhr); xhr.send(data == null ? null : data); return request; }, abort: function() { xhr.abort(); return request; }, on: function() { var value = event.on.apply(event, arguments); return value === event ? request : value; } }; if (callback != null) { if (typeof callback !== "function") throw new Error("invalid callback: " + callback); return request.get(callback); } return request; } function fixCallback(callback) { return function(error, xhr) { callback(error == null ? xhr : null); }; } function hasResponse(xhr) { var type = xhr.responseType; return type && type !== "text" ? xhr.response // null on error : xhr.responseText; // "" on error } function type(defaultMimeType, response) { return function(url, callback) { var r = request(url).mimeType(defaultMimeType).response(response); if (callback != null) { if (typeof callback !== "function") throw new Error("invalid callback: " + callback); return r.get(callback); } return r; }; } var html = type("text/html", function(xhr) { return document.createRange().createContextualFragment(xhr.responseText); }); var json = type("application/json", function(xhr) { return JSON.parse(xhr.responseText); }); var text = type("text/plain", function(xhr) { return xhr.responseText; }); var xml = type("application/xml", function(xhr) { var xml = xhr.responseXML; if (!xml) throw new Error("parse error"); return xml; }); function dsv$1(defaultMimeType, parse) { return function(url, row, callback) { if (arguments.length < 3) callback = row, row = null; var r = request(url).mimeType(defaultMimeType); r.row = function(_) { return arguments.length ? r.response(responseOf(parse, row = _)) : row; }; r.row(row); return callback ? r.get(callback) : r; }; } function responseOf(parse, row) { return function(request) { return parse(request.responseText, row); }; } var csv$1 = dsv$1("text/csv", csvParse); var tsv$1 = dsv$1("text/tab-separated-values", tsvParse); var frame = 0; var timeout = 0; var interval = 0; var pokeDelay = 1000; var taskHead; var taskTail; var clockLast = 0; var clockNow = 0; var clockSkew = 0; var clock = typeof performance === "object" && performance.now ? performance : Date; var setFrame = typeof requestAnimationFrame === "function" ? (clock === Date ? function(f) { requestAnimationFrame(function() { f(clock.now()); }); } : requestAnimationFrame) : function(f) { setTimeout(f, 17); }; function now() { return clockNow || (setFrame(clearNow), clockNow = clock.now() + clockSkew); } function clearNow() { clockNow = 0; } function Timer() { this._call = this._time = this._next = null; } Timer.prototype = timer.prototype = { constructor: Timer, restart: function(callback, delay, time) { if (typeof callback !== "function") throw new TypeError("callback is not a function"); time = (time == null ? now() : +time) + (delay == null ? 0 : +delay); if (!this._next && taskTail !== this) { if (taskTail) taskTail._next = this; else taskHead = this; taskTail = this; } this._call = callback; this._time = time; sleep(); }, stop: function() { if (this._call) { this._call = null; this._time = Infinity; sleep(); } } }; function timer(callback, delay, time) { var t = new Timer; t.restart(callback, delay, time); return t; } function timerFlush() { now(); // Get the current time, if not already set. ++frame; // Pretend we’ve set an alarm, if we haven’t already. var t = taskHead, e; while (t) { if ((e = clockNow - t._time) >= 0) t._call.call(null, e); t = t._next; } --frame; } function wake(time) { clockNow = (clockLast = time || clock.now()) + clockSkew; frame = timeout = 0; try { timerFlush(); } finally { frame = 0; nap(); clockNow = 0; } } function poke$1() { var now = clock.now(), delay = now - clockLast; if (delay > pokeDelay) clockSkew -= delay, clockLast = now; } function nap() { var t0, t1 = taskHead, t2, time = Infinity; while (t1) { if (t1._call) { if (time > t1._time) time = t1._time; t0 = t1, t1 = t1._next; } else { t2 = t1._next, t1._next = null; t1 = t0 ? t0._next = t2 : taskHead = t2; } } taskTail = t0; sleep(time); } function sleep(time) { if (frame) return; // Soonest alarm already set, or will be. if (timeout) timeout = clearTimeout(timeout); var delay = time - clockNow; if (delay > 24) { if (time < Infinity) timeout = setTimeout(wake, delay); if (interval) interval = clearInterval(interval); } else { if (!interval) interval = setInterval(poke$1, pokeDelay); frame = 1, setFrame(wake); } } function timeout$1(callback, delay, time) { var t = new Timer; delay = delay == null ? 0 : +delay; t.restart(function(elapsed) { t.stop(); callback(elapsed + delay); }, delay, time); return t; } function interval$1(callback, delay, time) { var t = new Timer, total = delay; if (delay == null) return t.restart(callback, delay, time), t; delay = +delay, time = time == null ? now() : +time; t.restart(function tick(elapsed) { elapsed += total; t.restart(tick, total += delay, time); callback(elapsed); }, delay, time); return t; } var t0$1 = new Date; var t1$1 = new Date; function newInterval(floori, offseti, count, field) { function interval(date) { return floori(date = new Date(+date)), date; } interval.floor = interval; interval.ceil = function(date) { return floori(date = new Date(date - 1)), offseti(date, 1), floori(date), date; }; interval.round = function(date) { var d0 = interval(date), d1 = interval.ceil(date); return date - d0 < d1 - date ? d0 : d1; }; interval.offset = function(date, step) { return offseti(date = new Date(+date), step == null ? 1 : Math.floor(step)), date; }; interval.range = function(start, stop, step) { var range = []; start = interval.ceil(start); step = step == null ? 1 : Math.floor(step); if (!(start < stop) || !(step > 0)) return range; // also handles Invalid Date do range.push(new Date(+start)); while (offseti(start, step), floori(start), start < stop) return range; }; interval.filter = function(test) { return newInterval(function(date) { while (floori(date), !test(date)) date.setTime(date - 1); }, function(date, step) { while (--step >= 0) while (offseti(date, 1), !test(date)); }); }; if (count) { interval.count = function(start, end) { t0$1.setTime(+start), t1$1.setTime(+end); floori(t0$1), floori(t1$1); return Math.floor(count(t0$1, t1$1)); }; interval.every = function(step) { step = Math.floor(step); return !isFinite(step) || !(step > 0) ? null : !(step > 1) ? interval : interval.filter(field ? function(d) { return field(d) % step === 0; } : function(d) { return interval.count(0, d) % step === 0; }); }; } return interval; } var millisecond = newInterval(function() { // noop }, function(date, step) { date.setTime(+date + step); }, function(start, end) { return end - start; }); // An optimized implementation for this simple case. millisecond.every = function(k) { k = Math.floor(k); if (!isFinite(k) || !(k > 0)) return null; if (!(k > 1)) return millisecond; return newInterval(function(date) { date.setTime(Math.floor(date / k) * k); }, function(date, step) { date.setTime(+date + step * k); }, function(start, end) { return (end - start) / k; }); }; var milliseconds = millisecond.range; var durationSecond = 1e3; var durationMinute = 6e4; var durationHour = 36e5; var durationDay = 864e5; var durationWeek = 6048e5; var second = newInterval(function(date) { date.setTime(Math.floor(date / durationSecond) * durationSecond); }, function(date, step) { date.setTime(+date + step * durationSecond); }, function(start, end) { return (end - start) / durationSecond; }, function(date) { return date.getUTCSeconds(); }); var seconds = second.range; var minute = newInterval(function(date) { date.setTime(Math.floor(date / durationMinute) * durationMinute); }, function(date, step) { date.setTime(+date + step * durationMinute); }, function(start, end) { return (end - start) / durationMinute; }, function(date) { return date.getMinutes(); }); var minutes = minute.range; var hour = newInterval(function(date) { var offset = date.getTimezoneOffset() * durationMinute % durationHour; if (offset < 0) offset += durationHour; date.setTime(Math.floor((+date - offset) / durationHour) * durationHour + offset); }, function(date, step) { date.setTime(+date + step * durationHour); }, function(start, end) { return (end - start) / durationHour; }, function(date) { return date.getHours(); }); var hours = hour.range; var day = newInterval(function(date) { date.setHours(0, 0, 0, 0); }, function(date, step) { date.setDate(date.getDate() + step); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * durationMinute) / durationDay; }, function(date) { return date.getDate() - 1; }); var days = day.range; function weekday(i) { return newInterval(function(date) { date.setDate(date.getDate() - (date.getDay() + 7 - i) % 7); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setDate(date.getDate() + step * 7); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * durationMinute) / durationWeek; }); } var timeWeek = weekday(0); var timeMonday = weekday(1); var tuesday = weekday(2); var wednesday = weekday(3); var thursday = weekday(4); var friday = weekday(5); var saturday = weekday(6); var sundays = timeWeek.range; var mondays = timeMonday.range; var tuesdays = tuesday.range; var wednesdays = wednesday.range; var thursdays = thursday.range; var fridays = friday.range; var saturdays = saturday.range; var month = newInterval(function(date) { date.setDate(1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setMonth(date.getMonth() + step); }, function(start, end) { return end.getMonth() - start.getMonth() + (end.getFullYear() - start.getFullYear()) * 12; }, function(date) { return date.getMonth(); }); var months = month.range; var year = newInterval(function(date) { date.setMonth(0, 1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setFullYear(date.getFullYear() + step); }, function(start, end) { return end.getFullYear() - start.getFullYear(); }, function(date) { return date.getFullYear(); }); // An optimized implementation for this simple case. year.every = function(k) { return !isFinite(k = Math.floor(k)) || !(k > 0) ? null : newInterval(function(date) { date.setFullYear(Math.floor(date.getFullYear() / k) * k); date.setMonth(0, 1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setFullYear(date.getFullYear() + step * k); }); }; var years = year.range; var utcMinute = newInterval(function(date) { date.setUTCSeconds(0, 0); }, function(date, step) { date.setTime(+date + step * durationMinute); }, function(start, end) { return (end - start) / durationMinute; }, function(date) { return date.getUTCMinutes(); }); var utcMinutes = utcMinute.range; var utcHour = newInterval(function(date) { date.setUTCMinutes(0, 0, 0); }, function(date, step) { date.setTime(+date + step * durationHour); }, function(start, end) { return (end - start) / durationHour; }, function(date) { return date.getUTCHours(); }); var utcHours = utcHour.range; var utcDay = newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step); }, function(start, end) { return (end - start) / durationDay; }, function(date) { return date.getUTCDate() - 1; }); var utcDays = utcDay.range; function utcWeekday(i) { return newInterval(function(date) { date.setUTCDate(date.getUTCDate() - (date.getUTCDay() + 7 - i) % 7); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step * 7); }, function(start, end) { return (end - start) / durationWeek; }); } var utcWeek = utcWeekday(0); var utcMonday = utcWeekday(1); var utcTuesday = utcWeekday(2); var utcWednesday = utcWeekday(3); var utcThursday = utcWeekday(4); var utcFriday = utcWeekday(5); var utcSaturday = utcWeekday(6); var utcSundays = utcWeek.range; var utcMondays = utcMonday.range; var utcTuesdays = utcTuesday.range; var utcWednesdays = utcWednesday.range; var utcThursdays = utcThursday.range; var utcFridays = utcFriday.range; var utcSaturdays = utcSaturday.range; var utcMonth = newInterval(function(date) { date.setUTCDate(1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCMonth(date.getUTCMonth() + step); }, function(start, end) { return end.getUTCMonth() - start.getUTCMonth() + (end.getUTCFullYear() - start.getUTCFullYear()) * 12; }, function(date) { return date.getUTCMonth(); }); var utcMonths = utcMonth.range; var utcYear = newInterval(function(date) { date.setUTCMonth(0, 1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCFullYear(date.getUTCFullYear() + step); }, function(start, end) { return end.getUTCFullYear() - start.getUTCFullYear(); }, function(date) { return date.getUTCFullYear(); }); // An optimized implementation for this simple case. utcYear.every = function(k) { return !isFinite(k = Math.floor(k)) || !(k > 0) ? null : newInterval(function(date) { date.setUTCFullYear(Math.floor(date.getUTCFullYear() / k) * k); date.setUTCMonth(0, 1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCFullYear(date.getUTCFullYear() + step * k); }); }; var utcYears = utcYear.range; // Computes the decimal coefficient and exponent of the specified number x with // significant digits p, where x is positive and p is in [1, 21] or undefined. // For example, formatDecimal(1.23) returns ["123", 0]. function formatDecimal(x, p) { if ((i = (x = p ? x.toExponential(p - 1) : x.toExponential()).indexOf("e")) < 0) return null; // NaN, ±Infinity var i, coefficient = x.slice(0, i); // The string returned by toExponential either has the form \d\.\d+e[-+]\d+ // (e.g., 1.2e+3) or the form \de[-+]\d+ (e.g., 1e+3). return [ coefficient.length > 1 ? coefficient[0] + coefficient.slice(2) : coefficient, +x.slice(i + 1) ]; } function exponent$1(x) { return x = formatDecimal(Math.abs(x)), x ? x[1] : NaN; } function formatGroup(grouping, thousands) { return function(value, width) { var i = value.length, t = [], j = 0, g = grouping[0], length = 0; while (i > 0 && g > 0) { if (length + g + 1 > width) g = Math.max(1, width - length); t.push(value.substring(i -= g, i + g)); if ((length += g + 1) > width) break; g = grouping[j = (j + 1) % grouping.length]; } return t.reverse().join(thousands); }; } function formatDefault(x, p) { x = x.toPrecision(p); out: for (var n = x.length, i = 1, i0 = -1, i1; i < n; ++i) { switch (x[i]) { case ".": i0 = i1 = i; break; case "0": if (i0 === 0) i0 = i; i1 = i; break; case "e": break out; default: if (i0 > 0) i0 = 0; break; } } return i0 > 0 ? x.slice(0, i0) + x.slice(i1 + 1) : x; } var prefixExponent; function formatPrefixAuto(x, p) { var d = formatDecimal(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1], i = exponent - (prefixExponent = Math.max(-8, Math.min(8, Math.floor(exponent / 3))) * 3) + 1, n = coefficient.length; return i === n ? coefficient : i > n ? coefficient + new Array(i - n + 1).join("0") : i > 0 ? coefficient.slice(0, i) + "." + coefficient.slice(i) : "0." + new Array(1 - i).join("0") + formatDecimal(x, Math.max(0, p + i - 1))[0]; // less than 1y! } function formatRounded(x, p) { var d = formatDecimal(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1]; return exponent < 0 ? "0." + new Array(-exponent).join("0") + coefficient : coefficient.length > exponent + 1 ? coefficient.slice(0, exponent + 1) + "." + coefficient.slice(exponent + 1) : coefficient + new Array(exponent - coefficient.length + 2).join("0"); } var formatTypes = { "": formatDefault, "%": function(x, p) { return (x * 100).toFixed(p); }, "b": function(x) { return Math.round(x).toString(2); }, "c": function(x) { return x + ""; }, "d": function(x) { return Math.round(x).toString(10); }, "e": function(x, p) { return x.toExponential(p); }, "f": function(x, p) { return x.toFixed(p); }, "g": function(x, p) { return x.toPrecision(p); }, "o": function(x) { return Math.round(x).toString(8); }, "p": function(x, p) { return formatRounded(x * 100, p); }, "r": formatRounded, "s": formatPrefixAuto, "X": function(x) { return Math.round(x).toString(16).toUpperCase(); }, "x": function(x) { return Math.round(x).toString(16); } }; // [[fill]align][sign][symbol][0][width][,][.precision][type] var re = /^(?:(.)?([<>=^]))?([+\-\( ])?([$#])?(0)?(\d+)?(,)?(\.\d+)?([a-z%])?$/i; function formatSpecifier(specifier) { return new FormatSpecifier(specifier); } function FormatSpecifier(specifier) { if (!(match = re.exec(specifier))) throw new Error("invalid format: " + specifier); var match, fill = match[1] || " ", align = match[2] || ">", sign = match[3] || "-", symbol = match[4] || "", zero = !!match[5], width = match[6] && +match[6], comma = !!match[7], precision = match[8] && +match[8].slice(1), type = match[9] || ""; // The "n" type is an alias for ",g". if (type === "n") comma = true, type = "g"; // Map invalid types to the default format. else if (!formatTypes[type]) type = ""; // If zero fill is specified, padding goes after sign and before digits. if (zero || (fill === "0" && align === "=")) zero = true, fill = "0", align = "="; this.fill = fill; this.align = align; this.sign = sign; this.symbol = symbol; this.zero = zero; this.width = width; this.comma = comma; this.precision = precision; this.type = type; } FormatSpecifier.prototype.toString = function() { return this.fill + this.align + this.sign + this.symbol + (this.zero ? "0" : "") + (this.width == null ? "" : Math.max(1, this.width | 0)) + (this.comma ? "," : "") + (this.precision == null ? "" : "." + Math.max(0, this.precision | 0)) + this.type; }; var prefixes = ["y","z","a","f","p","n","\xB5","m","","k","M","G","T","P","E","Z","Y"]; function identity$3(x) { return x; } function formatLocale(locale) { var group = locale.grouping && locale.thousands ? formatGroup(locale.grouping, locale.thousands) : identity$3, currency = locale.currency, decimal = locale.decimal; function newFormat(specifier) { specifier = formatSpecifier(specifier); var fill = specifier.fill, align = specifier.align, sign = specifier.sign, symbol = specifier.symbol, zero = specifier.zero, width = specifier.width, comma = specifier.comma, precision = specifier.precision, type = specifier.type; // Compute the prefix and suffix. // For SI-prefix, the suffix is lazily computed. var prefix = symbol === "$" ? currency[0] : symbol === "#" && /[boxX]/.test(type) ? "0" + type.toLowerCase() : "", suffix = symbol === "$" ? currency[1] : /[%p]/.test(type) ? "%" : ""; // What format function should we use? // Is this an integer type? // Can this type generate exponential notation? var formatType = formatTypes[type], maybeSuffix = !type || /[defgprs%]/.test(type); // Set the default precision if not specified, // or clamp the specified precision to the supported range. // For significant precision, it must be in [1, 21]. // For fixed precision, it must be in [0, 20]. precision = precision == null ? (type ? 6 : 12) : /[gprs]/.test(type) ? Math.max(1, Math.min(21, precision)) : Math.max(0, Math.min(20, precision)); function format(value) { var valuePrefix = prefix, valueSuffix = suffix, i, n, c; if (type === "c") { valueSuffix = formatType(value) + valueSuffix; value = ""; } else { value = +value; // Convert negative to positive, and compute the prefix. // Note that -0 is not less than 0, but 1 / -0 is! var valueNegative = (value < 0 || 1 / value < 0) && (value *= -1, true); // Perform the initial formatting. value = formatType(value, precision); // If the original value was negative, it may be rounded to zero during // formatting; treat this as (positive) zero. if (valueNegative) { i = -1, n = value.length; valueNegative = false; while (++i < n) { if (c = value.charCodeAt(i), (48 < c && c < 58) || (type === "x" && 96 < c && c < 103) || (type === "X" && 64 < c && c < 71)) { valueNegative = true; break; } } } // Compute the prefix and suffix. valuePrefix = (valueNegative ? (sign === "(" ? sign : "-") : sign === "-" || sign === "(" ? "" : sign) + valuePrefix; valueSuffix = valueSuffix + (type === "s" ? prefixes[8 + prefixExponent / 3] : "") + (valueNegative && sign === "(" ? ")" : ""); // Break the formatted value into the integer “value” part that can be // grouped, and fractional or exponential “suffix” part that is not. if (maybeSuffix) { i = -1, n = value.length; while (++i < n) { if (c = value.charCodeAt(i), 48 > c || c > 57) { valueSuffix = (c === 46 ? decimal + value.slice(i + 1) : value.slice(i)) + valueSuffix; value = value.slice(0, i); break; } } } } // If the fill character is not "0", grouping is applied before padding. if (comma && !zero) value = group(value, Infinity); // Compute the padding. var length = valuePrefix.length + value.length + valueSuffix.length, padding = length < width ? new Array(width - length + 1).join(fill) : ""; // If the fill character is "0", grouping is applied after padding. if (comma && zero) value = group(padding + value, padding.length ? width - valueSuffix.length : Infinity), padding = ""; // Reconstruct the final output based on the desired alignment. switch (align) { case "<": return valuePrefix + value + valueSuffix + padding; case "=": return valuePrefix + padding + value + valueSuffix; case "^": return padding.slice(0, length = padding.length >> 1) + valuePrefix + value + valueSuffix + padding.slice(length); } return padding + valuePrefix + value + valueSuffix; } format.toString = function() { return specifier + ""; }; return format; } function formatPrefix(specifier, value) { var f = newFormat((specifier = formatSpecifier(specifier), specifier.type = "f", specifier)), e = Math.max(-8, Math.min(8, Math.floor(exponent$1(value) / 3))) * 3, k = Math.pow(10, -e), prefix = prefixes[8 + e / 3]; return function(value) { return f(k * value) + prefix; }; } return { format: newFormat, formatPrefix: formatPrefix }; } var locale; defaultLocale({ decimal: ".", thousands: ",", grouping: [3], currency: ["$", ""] }); function defaultLocale(definition) { locale = formatLocale(definition); exports.format = locale.format; exports.formatPrefix = locale.formatPrefix; return locale; } function precisionFixed(step) { return Math.max(0, -exponent$1(Math.abs(step))); } function precisionPrefix(step, value) { return Math.max(0, Math.max(-8, Math.min(8, Math.floor(exponent$1(value) / 3))) * 3 - exponent$1(Math.abs(step))); } function precisionRound(step, max) { step = Math.abs(step), max = Math.abs(max) - step; return Math.max(0, exponent$1(max) - exponent$1(step)) + 1; } function localDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(-1, d.m, d.d, d.H, d.M, d.S, d.L); date.setFullYear(d.y); return date; } return new Date(d.y, d.m, d.d, d.H, d.M, d.S, d.L); } function utcDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(Date.UTC(-1, d.m, d.d, d.H, d.M, d.S, d.L)); date.setUTCFullYear(d.y); return date; } return new Date(Date.UTC(d.y, d.m, d.d, d.H, d.M, d.S, d.L)); } function newYear(y) { return {y: y, m: 0, d: 1, H: 0, M: 0, S: 0, L: 0}; } function formatLocale$1(locale) { var locale_dateTime = locale.dateTime, locale_date = locale.date, locale_time = locale.time, locale_periods = locale.periods, locale_weekdays = locale.days, locale_shortWeekdays = locale.shortDays, locale_months = locale.months, locale_shortMonths = locale.shortMonths; var periodRe = formatRe(locale_periods), periodLookup = formatLookup(locale_periods), weekdayRe = formatRe(locale_weekdays), weekdayLookup = formatLookup(locale_weekdays), shortWeekdayRe = formatRe(locale_shortWeekdays), shortWeekdayLookup = formatLookup(locale_shortWeekdays), monthRe = formatRe(locale_months), monthLookup = formatLookup(locale_months), shortMonthRe = formatRe(locale_shortMonths), shortMonthLookup = formatLookup(locale_shortMonths); var formats = { "a": formatShortWeekday, "A": formatWeekday, "b": formatShortMonth, "B": formatMonth, "c": null, "d": formatDayOfMonth, "e": formatDayOfMonth, "H": formatHour24, "I": formatHour12, "j": formatDayOfYear, "L": formatMilliseconds, "m": formatMonthNumber, "M": formatMinutes, "p": formatPeriod, "S": formatSeconds, "U": formatWeekNumberSunday, "w": formatWeekdayNumber, "W": formatWeekNumberMonday, "x": null, "X": null, "y": formatYear, "Y": formatFullYear, "Z": formatZone, "%": formatLiteralPercent }; var utcFormats = { "a": formatUTCShortWeekday, "A": formatUTCWeekday, "b": formatUTCShortMonth, "B": formatUTCMonth, "c": null, "d": formatUTCDayOfMonth, "e": formatUTCDayOfMonth, "H": formatUTCHour24, "I": formatUTCHour12, "j": formatUTCDayOfYear, "L": formatUTCMilliseconds, "m": formatUTCMonthNumber, "M": formatUTCMinutes, "p": formatUTCPeriod, "S": formatUTCSeconds, "U": formatUTCWeekNumberSunday, "w": formatUTCWeekdayNumber, "W": formatUTCWeekNumberMonday, "x": null, "X": null, "y": formatUTCYear, "Y": formatUTCFullYear, "Z": formatUTCZone, "%": formatLiteralPercent }; var parses = { "a": parseShortWeekday, "A": parseWeekday, "b": parseShortMonth, "B": parseMonth, "c": parseLocaleDateTime, "d": parseDayOfMonth, "e": parseDayOfMonth, "H": parseHour24, "I": parseHour24, "j": parseDayOfYear, "L": parseMilliseconds, "m": parseMonthNumber, "M": parseMinutes, "p": parsePeriod, "S": parseSeconds, "U": parseWeekNumberSunday, "w": parseWeekdayNumber, "W": parseWeekNumberMonday, "x": parseLocaleDate, "X": parseLocaleTime, "y": parseYear, "Y": parseFullYear, "Z": parseZone, "%": parseLiteralPercent }; // These recursive directive definitions must be deferred. formats.x = newFormat(locale_date, formats); formats.X = newFormat(locale_time, formats); formats.c = newFormat(locale_dateTime, formats); utcFormats.x = newFormat(locale_date, utcFormats); utcFormats.X = newFormat(locale_time, utcFormats); utcFormats.c = newFormat(locale_dateTime, utcFormats); function newFormat(specifier, formats) { return function(date) { var string = [], i = -1, j = 0, n = specifier.length, c, pad, format; if (!(date instanceof Date)) date = new Date(+date); while (++i < n) { if (specifier.charCodeAt(i) === 37) { string.push(specifier.slice(j, i)); if ((pad = pads[c = specifier.charAt(++i)]) != null) c = specifier.charAt(++i); else pad = c === "e" ? " " : "0"; if (format = formats[c]) c = format(date, pad); string.push(c); j = i + 1; } } string.push(specifier.slice(j, i)); return string.join(""); }; } function newParse(specifier, newDate) { return function(string) { var d = newYear(1900), i = parseSpecifier(d, specifier, string += "", 0); if (i != string.length) return null; // The am-pm flag is 0 for AM, and 1 for PM. if ("p" in d) d.H = d.H % 12 + d.p * 12; // Convert day-of-week and week-of-year to day-of-year. if ("W" in d || "U" in d) { if (!("w" in d)) d.w = "W" in d ? 1 : 0; var day = "Z" in d ? utcDate(newYear(d.y)).getUTCDay() : newDate(newYear(d.y)).getDay(); d.m = 0; d.d = "W" in d ? (d.w + 6) % 7 + d.W * 7 - (day + 5) % 7 : d.w + d.U * 7 - (day + 6) % 7; } // If a time zone is specified, all fields are interpreted as UTC and then // offset according to the specified time zone. if ("Z" in d) { d.H += d.Z / 100 | 0; d.M += d.Z % 100; return utcDate(d); } // Otherwise, all fields are in local time. return newDate(d); }; } function parseSpecifier(d, specifier, string, j) { var i = 0, n = specifier.length, m = string.length, c, parse; while (i < n) { if (j >= m) return -1; c = specifier.charCodeAt(i++); if (c === 37) { c = specifier.charAt(i++); parse = parses[c in pads ? specifier.charAt(i++) : c]; if (!parse || ((j = parse(d, string, j)) < 0)) return -1; } else if (c != string.charCodeAt(j++)) { return -1; } } return j; } function parsePeriod(d, string, i) { var n = periodRe.exec(string.slice(i)); return n ? (d.p = periodLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortWeekday(d, string, i) { var n = shortWeekdayRe.exec(string.slice(i)); return n ? (d.w = shortWeekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseWeekday(d, string, i) { var n = weekdayRe.exec(string.slice(i)); return n ? (d.w = weekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortMonth(d, string, i) { var n = shortMonthRe.exec(string.slice(i)); return n ? (d.m = shortMonthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseMonth(d, string, i) { var n = monthRe.exec(string.slice(i)); return n ? (d.m = monthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseLocaleDateTime(d, string, i) { return parseSpecifier(d, locale_dateTime, string, i); } function parseLocaleDate(d, string, i) { return parseSpecifier(d, locale_date, string, i); } function parseLocaleTime(d, string, i) { return parseSpecifier(d, locale_time, string, i); } function formatShortWeekday(d) { return locale_shortWeekdays[d.getDay()]; } function formatWeekday(d) { return locale_weekdays[d.getDay()]; } function formatShortMonth(d) { return locale_shortMonths[d.getMonth()]; } function formatMonth(d) { return locale_months[d.getMonth()]; } function formatPeriod(d) { return locale_periods[+(d.getHours() >= 12)]; } function formatUTCShortWeekday(d) { return locale_shortWeekdays[d.getUTCDay()]; } function formatUTCWeekday(d) { return locale_weekdays[d.getUTCDay()]; } function formatUTCShortMonth(d) { return locale_shortMonths[d.getUTCMonth()]; } function formatUTCMonth(d) { return locale_months[d.getUTCMonth()]; } function formatUTCPeriod(d) { return locale_periods[+(d.getUTCHours() >= 12)]; } return { format: function(specifier) { var f = newFormat(specifier += "", formats); f.toString = function() { return specifier; }; return f; }, parse: function(specifier) { var p = newParse(specifier += "", localDate); p.toString = function() { return specifier; }; return p; }, utcFormat: function(specifier) { var f = newFormat(specifier += "", utcFormats); f.toString = function() { return specifier; }; return f; }, utcParse: function(specifier) { var p = newParse(specifier, utcDate); p.toString = function() { return specifier; }; return p; } }; } var pads = {"-": "", "_": " ", "0": "0"}; var numberRe = /^\s*\d+/; var percentRe = /^%/; var requoteRe = /[\\\^\$\*\+\?\|\[\]\(\)\.\{\}]/g; function pad(value, fill, width) { var sign = value < 0 ? "-" : "", string = (sign ? -value : value) + "", length = string.length; return sign + (length < width ? new Array(width - length + 1).join(fill) + string : string); } function requote(s) { return s.replace(requoteRe, "\\$&"); } function formatRe(names) { return new RegExp("^(?:" + names.map(requote).join("|") + ")", "i"); } function formatLookup(names) { var map = {}, i = -1, n = names.length; while (++i < n) map[names[i].toLowerCase()] = i; return map; } function parseWeekdayNumber(d, string, i) { var n = numberRe.exec(string.slice(i, i + 1)); return n ? (d.w = +n[0], i + n[0].length) : -1; } function parseWeekNumberSunday(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.U = +n[0], i + n[0].length) : -1; } function parseWeekNumberMonday(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.W = +n[0], i + n[0].length) : -1; } function parseFullYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 4)); return n ? (d.y = +n[0], i + n[0].length) : -1; } function parseYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.y = +n[0] + (+n[0] > 68 ? 1900 : 2000), i + n[0].length) : -1; } function parseZone(d, string, i) { var n = /^(Z)|([+-]\d\d)(?:\:?(\d\d))?/.exec(string.slice(i, i + 6)); return n ? (d.Z = n[1] ? 0 : -(n[2] + (n[3] || "00")), i + n[0].length) : -1; } function parseMonthNumber(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.m = n[0] - 1, i + n[0].length) : -1; } function parseDayOfMonth(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.d = +n[0], i + n[0].length) : -1; } function parseDayOfYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.m = 0, d.d = +n[0], i + n[0].length) : -1; } function parseHour24(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.H = +n[0], i + n[0].length) : -1; } function parseMinutes(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.M = +n[0], i + n[0].length) : -1; } function parseSeconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.S = +n[0], i + n[0].length) : -1; } function parseMilliseconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.L = +n[0], i + n[0].length) : -1; } function parseLiteralPercent(d, string, i) { var n = percentRe.exec(string.slice(i, i + 1)); return n ? i + n[0].length : -1; } function formatDayOfMonth(d, p) { return pad(d.getDate(), p, 2); } function formatHour24(d, p) { return pad(d.getHours(), p, 2); } function formatHour12(d, p) { return pad(d.getHours() % 12 || 12, p, 2); } function formatDayOfYear(d, p) { return pad(1 + day.count(year(d), d), p, 3); } function formatMilliseconds(d, p) { return pad(d.getMilliseconds(), p, 3); } function formatMonthNumber(d, p) { return pad(d.getMonth() + 1, p, 2); } function formatMinutes(d, p) { return pad(d.getMinutes(), p, 2); } function formatSeconds(d, p) { return pad(d.getSeconds(), p, 2); } function formatWeekNumberSunday(d, p) { return pad(timeWeek.count(year(d), d), p, 2); } function formatWeekdayNumber(d) { return d.getDay(); } function formatWeekNumberMonday(d, p) { return pad(timeMonday.count(year(d), d), p, 2); } function formatYear(d, p) { return pad(d.getFullYear() % 100, p, 2); } function formatFullYear(d, p) { return pad(d.getFullYear() % 10000, p, 4); } function formatZone(d) { var z = d.getTimezoneOffset(); return (z > 0 ? "-" : (z *= -1, "+")) + pad(z / 60 | 0, "0", 2) + pad(z % 60, "0", 2); } function formatUTCDayOfMonth(d, p) { return pad(d.getUTCDate(), p, 2); } function formatUTCHour24(d, p) { return pad(d.getUTCHours(), p, 2); } function formatUTCHour12(d, p) { return pad(d.getUTCHours() % 12 || 12, p, 2); } function formatUTCDayOfYear(d, p) { return pad(1 + utcDay.count(utcYear(d), d), p, 3); } function formatUTCMilliseconds(d, p) { return pad(d.getUTCMilliseconds(), p, 3); } function formatUTCMonthNumber(d, p) { return pad(d.getUTCMonth() + 1, p, 2); } function formatUTCMinutes(d, p) { return pad(d.getUTCMinutes(), p, 2); } function formatUTCSeconds(d, p) { return pad(d.getUTCSeconds(), p, 2); } function formatUTCWeekNumberSunday(d, p) { return pad(utcWeek.count(utcYear(d), d), p, 2); } function formatUTCWeekdayNumber(d) { return d.getUTCDay(); } function formatUTCWeekNumberMonday(d, p) { return pad(utcMonday.count(utcYear(d), d), p, 2); } function formatUTCYear(d, p) { return pad(d.getUTCFullYear() % 100, p, 2); } function formatUTCFullYear(d, p) { return pad(d.getUTCFullYear() % 10000, p, 4); } function formatUTCZone() { return "+0000"; } function formatLiteralPercent() { return "%"; } var locale$1; defaultLocale$1({ dateTime: "%x, %X", date: "%-m/%-d/%Y", time: "%-I:%M:%S %p", periods: ["AM", "PM"], days: ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], shortDays: ["Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"], months: ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] }); function defaultLocale$1(definition) { locale$1 = formatLocale$1(definition); exports.timeFormat = locale$1.format; exports.timeParse = locale$1.parse; exports.utcFormat = locale$1.utcFormat; exports.utcParse = locale$1.utcParse; return locale$1; } var isoSpecifier = "%Y-%m-%dT%H:%M:%S.%LZ"; function formatIsoNative(date) { return date.toISOString(); } var formatIso = Date.prototype.toISOString ? formatIsoNative : exports.utcFormat(isoSpecifier); function parseIsoNative(string) { var date = new Date(string); return isNaN(date) ? null : date; } var parseIso = +new Date("2000-01-01T00:00:00.000Z") ? parseIsoNative : exports.utcParse(isoSpecifier); var array$2 = Array.prototype; var map$2 = array$2.map; var slice$3 = array$2.slice; var implicit = {name: "implicit"}; function ordinal(range) { var index = map$1(), domain = [], unknown = implicit; range = range == null ? [] : slice$3.call(range); function scale(d) { var key = d + "", i = index.get(key); if (!i) { if (unknown !== implicit) return unknown; index.set(key, i = domain.push(d)); } return range[(i - 1) % range.length]; } scale.domain = function(_) { if (!arguments.length) return domain.slice(); domain = [], index = map$1(); var i = -1, n = _.length, d, key; while (++i < n) if (!index.has(key = (d = _[i]) + "")) index.set(key, domain.push(d)); return scale; }; scale.range = function(_) { return arguments.length ? (range = slice$3.call(_), scale) : range.slice(); }; scale.unknown = function(_) { return arguments.length ? (unknown = _, scale) : unknown; }; scale.copy = function() { return ordinal() .domain(domain) .range(range) .unknown(unknown); }; return scale; } function band() { var scale = ordinal().unknown(undefined), domain = scale.domain, ordinalRange = scale.range, range$$ = [0, 1], step, bandwidth, round = false, paddingInner = 0, paddingOuter = 0, align = 0.5; delete scale.unknown; function rescale() { var n = domain().length, reverse = range$$[1] < range$$[0], start = range$$[reverse - 0], stop = range$$[1 - reverse]; step = (stop - start) / Math.max(1, n - paddingInner + paddingOuter * 2); if (round) step = Math.floor(step); start += (stop - start - step * (n - paddingInner)) * align; bandwidth = step * (1 - paddingInner); if (round) start = Math.round(start), bandwidth = Math.round(bandwidth); var values = range(n).map(function(i) { return start + step * i; }); return ordinalRange(reverse ? values.reverse() : values); } scale.domain = function(_) { return arguments.length ? (domain(_), rescale()) : domain(); }; scale.range = function(_) { return arguments.length ? (range$$ = [+_[0], +_[1]], rescale()) : range$$.slice(); }; scale.rangeRound = function(_) { return range$$ = [+_[0], +_[1]], round = true, rescale(); }; scale.bandwidth = function() { return bandwidth; }; scale.step = function() { return step; }; scale.round = function(_) { return arguments.length ? (round = !!_, rescale()) : round; }; scale.padding = function(_) { return arguments.length ? (paddingInner = paddingOuter = Math.max(0, Math.min(1, _)), rescale()) : paddingInner; }; scale.paddingInner = function(_) { return arguments.length ? (paddingInner = Math.max(0, Math.min(1, _)), rescale()) : paddingInner; }; scale.paddingOuter = function(_) { return arguments.length ? (paddingOuter = Math.max(0, Math.min(1, _)), rescale()) : paddingOuter; }; scale.align = function(_) { return arguments.length ? (align = Math.max(0, Math.min(1, _)), rescale()) : align; }; scale.copy = function() { return band() .domain(domain()) .range(range$$) .round(round) .paddingInner(paddingInner) .paddingOuter(paddingOuter) .align(align); }; return rescale(); } function pointish(scale) { var copy = scale.copy; scale.padding = scale.paddingOuter; delete scale.paddingInner; delete scale.paddingOuter; scale.copy = function() { return pointish(copy()); }; return scale; } function point$4() { return pointish(band().paddingInner(1)); } function constant$3(x) { return function() { return x; }; } function number$1(x) { return +x; } var unit = [0, 1]; function deinterpolate(a, b) { return (b -= (a = +a)) ? function(x) { return (x - a) / b; } : constant$3(b); } function deinterpolateClamp(deinterpolate) { return function(a, b) { var d = deinterpolate(a = +a, b = +b); return function(x) { return x <= a ? 0 : x >= b ? 1 : d(x); }; }; } function reinterpolateClamp(reinterpolate) { return function(a, b) { var r = reinterpolate(a = +a, b = +b); return function(t) { return t <= 0 ? a : t >= 1 ? b : r(t); }; }; } function bimap(domain, range, deinterpolate, reinterpolate) { var d0 = domain[0], d1 = domain[1], r0 = range[0], r1 = range[1]; if (d1 < d0) d0 = deinterpolate(d1, d0), r0 = reinterpolate(r1, r0); else d0 = deinterpolate(d0, d1), r0 = reinterpolate(r0, r1); return function(x) { return r0(d0(x)); }; } function polymap(domain, range, deinterpolate, reinterpolate) { var j = Math.min(domain.length, range.length) - 1, d = new Array(j), r = new Array(j), i = -1; // Reverse descending domains. if (domain[j] < domain[0]) { domain = domain.slice().reverse(); range = range.slice().reverse(); } while (++i < j) { d[i] = deinterpolate(domain[i], domain[i + 1]); r[i] = reinterpolate(range[i], range[i + 1]); } return function(x) { var i = bisectRight(domain, x, 1, j) - 1; return r[i](d[i](x)); }; } function copy(source, target) { return target .domain(source.domain()) .range(source.range()) .interpolate(source.interpolate()) .clamp(source.clamp()); } // deinterpolate(a, b)(x) takes a domain value x in [a,b] and returns the corresponding parameter t in [0,1]. // reinterpolate(a, b)(t) takes a parameter t in [0,1] and returns the corresponding domain value x in [a,b]. function continuous(deinterpolate$$, reinterpolate) { var domain = unit, range = unit, interpolate$$ = interpolate, clamp = false, piecewise, output, input; function rescale() { piecewise = Math.min(domain.length, range.length) > 2 ? polymap : bimap; output = input = null; return scale; } function scale(x) { return (output || (output = piecewise(domain, range, clamp ? deinterpolateClamp(deinterpolate$$) : deinterpolate$$, interpolate$$)))(+x); } scale.invert = function(y) { return (input || (input = piecewise(range, domain, deinterpolate, clamp ? reinterpolateClamp(reinterpolate) : reinterpolate)))(+y); }; scale.domain = function(_) { return arguments.length ? (domain = map$2.call(_, number$1), rescale()) : domain.slice(); }; scale.range = function(_) { return arguments.length ? (range = slice$3.call(_), rescale()) : range.slice(); }; scale.rangeRound = function(_) { return range = slice$3.call(_), interpolate$$ = interpolateRound, rescale(); }; scale.clamp = function(_) { return arguments.length ? (clamp = !!_, rescale()) : clamp; }; scale.interpolate = function(_) { return arguments.length ? (interpolate$$ = _, rescale()) : interpolate$$; }; return rescale(); } function tickFormat(domain, count, specifier) { var start = domain[0], stop = domain[domain.length - 1], step = tickStep(start, stop, count == null ? 10 : count), precision; specifier = formatSpecifier(specifier == null ? ",f" : specifier); switch (specifier.type) { case "s": { var value = Math.max(Math.abs(start), Math.abs(stop)); if (specifier.precision == null && !isNaN(precision = precisionPrefix(step, value))) specifier.precision = precision; return exports.formatPrefix(specifier, value); } case "": case "e": case "g": case "p": case "r": { if (specifier.precision == null && !isNaN(precision = precisionRound(step, Math.max(Math.abs(start), Math.abs(stop))))) specifier.precision = precision - (specifier.type === "e"); break; } case "f": case "%": { if (specifier.precision == null && !isNaN(precision = precisionFixed(step))) specifier.precision = precision - (specifier.type === "%") * 2; break; } } return exports.format(specifier); } function linearish(scale) { var domain = scale.domain; scale.ticks = function(count) { var d = domain(); return ticks(d[0], d[d.length - 1], count == null ? 10 : count); }; scale.tickFormat = function(count, specifier) { return tickFormat(domain(), count, specifier); }; scale.nice = function(count) { var d = domain(), i = d.length - 1, n = count == null ? 10 : count, start = d[0], stop = d[i], step = tickStep(start, stop, n); if (step) { step = tickStep(Math.floor(start / step) * step, Math.ceil(stop / step) * step, n); d[0] = Math.floor(start / step) * step; d[i] = Math.ceil(stop / step) * step; domain(d); } return scale; }; return scale; } function linear$2() { var scale = continuous(deinterpolate, interpolateNumber); scale.copy = function() { return copy(scale, linear$2()); }; return linearish(scale); } function identity$4() { var domain = [0, 1]; function scale(x) { return +x; } scale.invert = scale; scale.domain = scale.range = function(_) { return arguments.length ? (domain = map$2.call(_, number$1), scale) : domain.slice(); }; scale.copy = function() { return identity$4().domain(domain); }; return linearish(scale); } function nice(domain, interval) { domain = domain.slice(); var i0 = 0, i1 = domain.length - 1, x0 = domain[i0], x1 = domain[i1], t; if (x1 < x0) { t = i0, i0 = i1, i1 = t; t = x0, x0 = x1, x1 = t; } domain[i0] = interval.floor(x0); domain[i1] = interval.ceil(x1); return domain; } function deinterpolate$1(a, b) { return (b = Math.log(b / a)) ? function(x) { return Math.log(x / a) / b; } : constant$3(b); } function reinterpolate(a, b) { return a < 0 ? function(t) { return -Math.pow(-b, t) * Math.pow(-a, 1 - t); } : function(t) { return Math.pow(b, t) * Math.pow(a, 1 - t); }; } function pow10(x) { return isFinite(x) ? +("1e" + x) : x < 0 ? 0 : x; } function powp(base) { return base === 10 ? pow10 : base === Math.E ? Math.exp : function(x) { return Math.pow(base, x); }; } function logp(base) { return base === Math.E ? Math.log : base === 10 && Math.log10 || base === 2 && Math.log2 || (base = Math.log(base), function(x) { return Math.log(x) / base; }); } function reflect(f) { return function(x) { return -f(-x); }; } function log() { var scale = continuous(deinterpolate$1, reinterpolate).domain([1, 10]), domain = scale.domain, base = 10, logs = logp(10), pows = powp(10); function rescale() { logs = logp(base), pows = powp(base); if (domain()[0] < 0) logs = reflect(logs), pows = reflect(pows); return scale; } scale.base = function(_) { return arguments.length ? (base = +_, rescale()) : base; }; scale.domain = function(_) { return arguments.length ? (domain(_), rescale()) : domain(); }; scale.ticks = function(count) { var d = domain(), u = d[0], v = d[d.length - 1], r; if (r = v < u) i = u, u = v, v = i; var i = logs(u), j = logs(v), p, k, t, n = count == null ? 10 : +count, z = []; if (!(base % 1) && j - i < n) { i = Math.round(i) - 1, j = Math.round(j) + 1; if (u > 0) for (; i < j; ++i) { for (k = 1, p = pows(i); k < base; ++k) { t = p * k; if (t < u) continue; if (t > v) break; z.push(t); } } else for (; i < j; ++i) { for (k = base - 1, p = pows(i); k >= 1; --k) { t = p * k; if (t < u) continue; if (t > v) break; z.push(t); } } } else { z = ticks(i, j, Math.min(j - i, n)).map(pows); } return r ? z.reverse() : z; }; scale.tickFormat = function(count, specifier) { if (specifier == null) specifier = base === 10 ? ".0e" : ","; if (typeof specifier !== "function") specifier = exports.format(specifier); if (count === Infinity) return specifier; if (count == null) count = 10; var k = Math.max(1, base * count / scale.ticks().length); // TODO fast estimate? return function(d) { var i = d / pows(Math.round(logs(d))); if (i * base < base - 0.5) i *= base; return i <= k ? specifier(d) : ""; }; }; scale.nice = function() { return domain(nice(domain(), { floor: function(x) { return pows(Math.floor(logs(x))); }, ceil: function(x) { return pows(Math.ceil(logs(x))); } })); }; scale.copy = function() { return copy(scale, log().base(base)); }; return scale; } function raise(x, exponent) { return x < 0 ? -Math.pow(-x, exponent) : Math.pow(x, exponent); } function pow() { var exponent = 1, scale = continuous(deinterpolate, reinterpolate), domain = scale.domain; function deinterpolate(a, b) { return (b = raise(b, exponent) - (a = raise(a, exponent))) ? function(x) { return (raise(x, exponent) - a) / b; } : constant$3(b); } function reinterpolate(a, b) { b = raise(b, exponent) - (a = raise(a, exponent)); return function(t) { return raise(a + b * t, 1 / exponent); }; } scale.exponent = function(_) { return arguments.length ? (exponent = +_, domain(domain())) : exponent; }; scale.copy = function() { return copy(scale, pow().exponent(exponent)); }; return linearish(scale); } function sqrt() { return pow().exponent(0.5); } function quantile() { var domain = [], range = [], thresholds = []; function rescale() { var i = 0, n = Math.max(1, range.length); thresholds = new Array(n - 1); while (++i < n) thresholds[i - 1] = threshold(domain, i / n); return scale; } function scale(x) { if (!isNaN(x = +x)) return range[bisectRight(thresholds, x)]; } scale.invertExtent = function(y) { var i = range.indexOf(y); return i < 0 ? [NaN, NaN] : [ i > 0 ? thresholds[i - 1] : domain[0], i < thresholds.length ? thresholds[i] : domain[domain.length - 1] ]; }; scale.domain = function(_) { if (!arguments.length) return domain.slice(); domain = []; for (var i = 0, n = _.length, d; i < n; ++i) if (d = _[i], d != null && !isNaN(d = +d)) domain.push(d); domain.sort(ascending); return rescale(); }; scale.range = function(_) { return arguments.length ? (range = slice$3.call(_), rescale()) : range.slice(); }; scale.quantiles = function() { return thresholds.slice(); }; scale.copy = function() { return quantile() .domain(domain) .range(range); }; return scale; } function quantize$1() { var x0 = 0, x1 = 1, n = 1, domain = [0.5], range = [0, 1]; function scale(x) { if (x <= x) return range[bisectRight(domain, x, 0, n)]; } function rescale() { var i = -1; domain = new Array(n); while (++i < n) domain[i] = ((i + 1) * x1 - (i - n) * x0) / (n + 1); return scale; } scale.domain = function(_) { return arguments.length ? (x0 = +_[0], x1 = +_[1], rescale()) : [x0, x1]; }; scale.range = function(_) { return arguments.length ? (n = (range = slice$3.call(_)).length - 1, rescale()) : range.slice(); }; scale.invertExtent = function(y) { var i = range.indexOf(y); return i < 0 ? [NaN, NaN] : i < 1 ? [x0, domain[0]] : i >= n ? [domain[n - 1], x1] : [domain[i - 1], domain[i]]; }; scale.copy = function() { return quantize$1() .domain([x0, x1]) .range(range); }; return linearish(scale); } function threshold$1() { var domain = [0.5], range = [0, 1], n = 1; function scale(x) { if (x <= x) return range[bisectRight(domain, x, 0, n)]; } scale.domain = function(_) { return arguments.length ? (domain = slice$3.call(_), n = Math.min(domain.length, range.length - 1), scale) : domain.slice(); }; scale.range = function(_) { return arguments.length ? (range = slice$3.call(_), n = Math.min(domain.length, range.length - 1), scale) : range.slice(); }; scale.invertExtent = function(y) { var i = range.indexOf(y); return [domain[i - 1], domain[i]]; }; scale.copy = function() { return threshold$1() .domain(domain) .range(range); }; return scale; } var durationSecond$1 = 1000; var durationMinute$1 = durationSecond$1 * 60; var durationHour$1 = durationMinute$1 * 60; var durationDay$1 = durationHour$1 * 24; var durationWeek$1 = durationDay$1 * 7; var durationMonth = durationDay$1 * 30; var durationYear = durationDay$1 * 365; function date$1(t) { return new Date(t); } function number$2(t) { return t instanceof Date ? +t : +new Date(+t); } function calendar(year, month, week, day, hour, minute, second, millisecond, format) { var scale = continuous(deinterpolate, interpolateNumber), invert = scale.invert, domain = scale.domain; var formatMillisecond = format(".%L"), formatSecond = format(":%S"), formatMinute = format("%I:%M"), formatHour = format("%I %p"), formatDay = format("%a %d"), formatWeek = format("%b %d"), formatMonth = format("%B"), formatYear = format("%Y"); var tickIntervals = [ [second, 1, durationSecond$1], [second, 5, 5 * durationSecond$1], [second, 15, 15 * durationSecond$1], [second, 30, 30 * durationSecond$1], [minute, 1, durationMinute$1], [minute, 5, 5 * durationMinute$1], [minute, 15, 15 * durationMinute$1], [minute, 30, 30 * durationMinute$1], [ hour, 1, durationHour$1 ], [ hour, 3, 3 * durationHour$1 ], [ hour, 6, 6 * durationHour$1 ], [ hour, 12, 12 * durationHour$1 ], [ day, 1, durationDay$1 ], [ day, 2, 2 * durationDay$1 ], [ week, 1, durationWeek$1 ], [ month, 1, durationMonth ], [ month, 3, 3 * durationMonth ], [ year, 1, durationYear ] ]; function tickFormat(date) { return (second(date) < date ? formatMillisecond : minute(date) < date ? formatSecond : hour(date) < date ? formatMinute : day(date) < date ? formatHour : month(date) < date ? (week(date) < date ? formatDay : formatWeek) : year(date) < date ? formatMonth : formatYear)(date); } function tickInterval(interval, start, stop, step) { if (interval == null) interval = 10; // If a desired tick count is specified, pick a reasonable tick interval // based on the extent of the domain and a rough estimate of tick size. // Otherwise, assume interval is already a time interval and use it. if (typeof interval === "number") { var target = Math.abs(stop - start) / interval, i = bisector(function(i) { return i[2]; }).right(tickIntervals, target); if (i === tickIntervals.length) { step = tickStep(start / durationYear, stop / durationYear, interval); interval = year; } else if (i) { i = tickIntervals[target / tickIntervals[i - 1][2] < tickIntervals[i][2] / target ? i - 1 : i]; step = i[1]; interval = i[0]; } else { step = tickStep(start, stop, interval); interval = millisecond; } } return step == null ? interval : interval.every(step); } scale.invert = function(y) { return new Date(invert(y)); }; scale.domain = function(_) { return arguments.length ? domain(map$2.call(_, number$2)) : domain().map(date$1); }; scale.ticks = function(interval, step) { var d = domain(), t0 = d[0], t1 = d[d.length - 1], r = t1 < t0, t; if (r) t = t0, t0 = t1, t1 = t; t = tickInterval(interval, t0, t1, step); t = t ? t.range(t0, t1 + 1) : []; // inclusive stop return r ? t.reverse() : t; }; scale.tickFormat = function(count, specifier) { return specifier == null ? tickFormat : format(specifier); }; scale.nice = function(interval, step) { var d = domain(); return (interval = tickInterval(interval, d[0], d[d.length - 1], step)) ? domain(nice(d, interval)) : scale; }; scale.copy = function() { return copy(scale, calendar(year, month, week, day, hour, minute, second, millisecond, format)); }; return scale; } function time() { return calendar(year, month, timeWeek, day, hour, minute, second, millisecond, exports.timeFormat).domain([new Date(2000, 0, 1), new Date(2000, 0, 2)]); } function utcTime() { return calendar(utcYear, utcMonth, utcWeek, utcDay, utcHour, utcMinute, second, millisecond, exports.utcFormat).domain([Date.UTC(2000, 0, 1), Date.UTC(2000, 0, 2)]); } function colors(s) { return s.match(/.{6}/g).map(function(x) { return "#" + x; }); } var category10 = colors("1f77b4ff7f0e2ca02cd627289467bd8c564be377c27f7f7fbcbd2217becf"); var category20b = colors("393b795254a36b6ecf9c9ede6379398ca252b5cf6bcedb9c8c6d31bd9e39e7ba52e7cb94843c39ad494ad6616be7969c7b4173a55194ce6dbdde9ed6"); var category20c = colors("3182bd6baed69ecae1c6dbefe6550dfd8d3cfdae6bfdd0a231a35474c476a1d99bc7e9c0756bb19e9ac8bcbddcdadaeb636363969696bdbdbdd9d9d9"); var category20 = colors("1f77b4aec7e8ff7f0effbb782ca02c98df8ad62728ff98969467bdc5b0d58c564bc49c94e377c2f7b6d27f7f7fc7c7c7bcbd22dbdb8d17becf9edae5"); var cubehelix$3 = interpolateCubehelixLong(cubehelix(300, 0.5, 0.0), cubehelix(-240, 0.5, 1.0)); var warm = interpolateCubehelixLong(cubehelix(-100, 0.75, 0.35), cubehelix(80, 1.50, 0.8)); var cool = interpolateCubehelixLong(cubehelix(260, 0.75, 0.35), cubehelix(80, 1.50, 0.8)); var rainbow = cubehelix(); function rainbow$1(t) { if (t < 0 || t > 1) t -= Math.floor(t); var ts = Math.abs(t - 0.5); rainbow.h = 360 * t - 100; rainbow.s = 1.5 - 1.5 * ts; rainbow.l = 0.8 - 0.9 * ts; return rainbow + ""; } function ramp(range) { var n = range.length; return function(t) { return range[Math.max(0, Math.min(n - 1, Math.floor(t * n)))]; }; } var viridis = ramp(colors("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")); var magma = ramp(colors("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")); var inferno = ramp(colors("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")); var plasma = ramp(colors("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")); function sequential(interpolator) { var x0 = 0, x1 = 1, clamp = false; function scale(x) { var t = (x - x0) / (x1 - x0); return interpolator(clamp ? Math.max(0, Math.min(1, t)) : t); } scale.domain = function(_) { return arguments.length ? (x0 = +_[0], x1 = +_[1], scale) : [x0, x1]; }; scale.clamp = function(_) { return arguments.length ? (clamp = !!_, scale) : clamp; }; scale.interpolator = function(_) { return arguments.length ? (interpolator = _, scale) : interpolator; }; scale.copy = function() { return sequential(interpolator).domain([x0, x1]).clamp(clamp); }; return linearish(scale); } var xhtml = "http://www.w3.org/1999/xhtml"; var namespaces = { svg: "http://www.w3.org/2000/svg", xhtml: xhtml, xlink: "http://www.w3.org/1999/xlink", xml: "http://www.w3.org/XML/1998/namespace", xmlns: "http://www.w3.org/2000/xmlns/" }; function namespace(name) { var prefix = name += "", i = prefix.indexOf(":"); if (i >= 0 && (prefix = name.slice(0, i)) !== "xmlns") name = name.slice(i + 1); return namespaces.hasOwnProperty(prefix) ? {space: namespaces[prefix], local: name} : name; } function creatorInherit(name) { return function() { var document = this.ownerDocument, uri = this.namespaceURI; return uri === xhtml && document.documentElement.namespaceURI === xhtml ? document.createElement(name) : document.createElementNS(uri, name); }; } function creatorFixed(fullname) { return function() { return this.ownerDocument.createElementNS(fullname.space, fullname.local); }; } function creator(name) { var fullname = namespace(name); return (fullname.local ? creatorFixed : creatorInherit)(fullname); } var nextId = 0; function local() { return new Local; } function Local() { this._ = "@" + (++nextId).toString(36); } Local.prototype = local.prototype = { constructor: Local, get: function(node) { var id = this._; while (!(id in node)) if (!(node = node.parentNode)) return; return node[id]; }, set: function(node, value) { return node[this._] = value; }, remove: function(node) { return this._ in node && delete node[this._]; }, toString: function() { return this._; } }; var matcher = function(selector) { return function() { return this.matches(selector); }; }; if (typeof document !== "undefined") { var element = document.documentElement; if (!element.matches) { var vendorMatches = element.webkitMatchesSelector || element.msMatchesSelector || element.mozMatchesSelector || element.oMatchesSelector; matcher = function(selector) { return function() { return vendorMatches.call(this, selector); }; }; } } var matcher$1 = matcher; var filterEvents = {}; exports.event = null; if (typeof document !== "undefined") { var element$1 = document.documentElement; if (!("onmouseenter" in element$1)) { filterEvents = {mouseenter: "mouseover", mouseleave: "mouseout"}; } } function filterContextListener(listener, index, group) { listener = contextListener(listener, index, group); return function(event) { var related = event.relatedTarget; if (!related || (related !== this && !(related.compareDocumentPosition(this) & 8))) { listener.call(this, event); } }; } function contextListener(listener, index, group) { return function(event1) { var event0 = exports.event; // Events can be reentrant (e.g., focus). exports.event = event1; try { listener.call(this, this.__data__, index, group); } finally { exports.event = event0; } }; } function parseTypenames$1(typenames) { return typenames.trim().split(/^|\s+/).map(function(t) { var name = "", i = t.indexOf("."); if (i >= 0) name = t.slice(i + 1), t = t.slice(0, i); return {type: t, name: name}; }); } function onRemove(typename) { return function() { var on = this.__on; if (!on) return; for (var j = 0, i = -1, m = on.length, o; j < m; ++j) { if (o = on[j], (!typename.type || o.type === typename.type) && o.name === typename.name) { this.removeEventListener(o.type, o.listener, o.capture); } else { on[++i] = o; } } if (++i) on.length = i; else delete this.__on; }; } function onAdd(typename, value, capture) { var wrap = filterEvents.hasOwnProperty(typename.type) ? filterContextListener : contextListener; return function(d, i, group) { var on = this.__on, o, listener = wrap(value, i, group); if (on) for (var j = 0, m = on.length; j < m; ++j) { if ((o = on[j]).type === typename.type && o.name === typename.name) { this.removeEventListener(o.type, o.listener, o.capture); this.addEventListener(o.type, o.listener = listener, o.capture = capture); o.value = value; return; } } this.addEventListener(typename.type, listener, capture); o = {type: typename.type, name: typename.name, value: value, listener: listener, capture: capture}; if (!on) this.__on = [o]; else on.push(o); }; } function selection_on(typename, value, capture) { var typenames = parseTypenames$1(typename + ""), i, n = typenames.length, t; if (arguments.length < 2) { var on = this.node().__on; if (on) for (var j = 0, m = on.length, o; j < m; ++j) { for (i = 0, o = on[j]; i < n; ++i) { if ((t = typenames[i]).type === o.type && t.name === o.name) { return o.value; } } } return; } on = value ? onAdd : onRemove; if (capture == null) capture = false; for (i = 0; i < n; ++i) this.each(on(typenames[i], value, capture)); return this; } function customEvent(event1, listener, that, args) { var event0 = exports.event; event1.sourceEvent = exports.event; exports.event = event1; try { return listener.apply(that, args); } finally { exports.event = event0; } } function sourceEvent() { var current = exports.event, source; while (source = current.sourceEvent) current = source; return current; } function point$5(node, event) { var svg = node.ownerSVGElement || node; if (svg.createSVGPoint) { var point = svg.createSVGPoint(); point.x = event.clientX, point.y = event.clientY; point = point.matrixTransform(node.getScreenCTM().inverse()); return [point.x, point.y]; } var rect = node.getBoundingClientRect(); return [event.clientX - rect.left - node.clientLeft, event.clientY - rect.top - node.clientTop]; } function mouse(node) { var event = sourceEvent(); if (event.changedTouches) event = event.changedTouches[0]; return point$5(node, event); } function none$2() {} function selector(selector) { return selector == null ? none$2 : function() { return this.querySelector(selector); }; } function selection_select(select) { if (typeof select !== "function") select = selector(select); for (var groups = this._groups, m = groups.length, subgroups = new Array(m), j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, subgroup = subgroups[j] = new Array(n), node, subnode, i = 0; i < n; ++i) { if ((node = group[i]) && (subnode = select.call(node, node.__data__, i, group))) { if ("__data__" in node) subnode.__data__ = node.__data__; subgroup[i] = subnode; } } } return new Selection(subgroups, this._parents); } function empty() { return []; } function selectorAll(selector) { return selector == null ? empty : function() { return this.querySelectorAll(selector); }; } function selection_selectAll(select) { if (typeof select !== "function") select = selectorAll(select); for (var groups = this._groups, m = groups.length, subgroups = [], parents = [], j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, node, i = 0; i < n; ++i) { if (node = group[i]) { subgroups.push(select.call(node, node.__data__, i, group)); parents.push(node); } } } return new Selection(subgroups, parents); } function selection_filter(match) { if (typeof match !== "function") match = matcher$1(match); for (var groups = this._groups, m = groups.length, subgroups = new Array(m), j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, subgroup = subgroups[j] = [], node, i = 0; i < n; ++i) { if ((node = group[i]) && match.call(node, node.__data__, i, group)) { subgroup.push(node); } } } return new Selection(subgroups, this._parents); } function sparse(update) { return new Array(update.length); } function selection_enter() { return new Selection(this._enter || this._groups.map(sparse), this._parents); } function EnterNode(parent, datum) { this.ownerDocument = parent.ownerDocument; this.namespaceURI = parent.namespaceURI; this._next = null; this._parent = parent; this.__data__ = datum; } EnterNode.prototype = { constructor: EnterNode, appendChild: function(child) { return this._parent.insertBefore(child, this._next); }, insertBefore: function(child, next) { return this._parent.insertBefore(child, next); }, querySelector: function(selector) { return this._parent.querySelector(selector); }, querySelectorAll: function(selector) { return this._parent.querySelectorAll(selector); } }; function constant$4(x) { return function() { return x; }; } var keyPrefix = "$"; // Protect against keys like “__proto__”. function bindIndex(parent, group, enter, update, exit, data) { var i = 0, node, groupLength = group.length, dataLength = data.length; // Put any non-null nodes that fit into update. // Put any null nodes into enter. // Put any remaining data into enter. for (; i < dataLength; ++i) { if (node = group[i]) { node.__data__ = data[i]; update[i] = node; } else { enter[i] = new EnterNode(parent, data[i]); } } // Put any non-null nodes that don’t fit into exit. for (; i < groupLength; ++i) { if (node = group[i]) { exit[i] = node; } } } function bindKey(parent, group, enter, update, exit, data, key) { var i, node, nodeByKeyValue = {}, groupLength = group.length, dataLength = data.length, keyValues = new Array(groupLength), keyValue; // Compute the key for each node. // If multiple nodes have the same key, the duplicates are added to exit. for (i = 0; i < groupLength; ++i) { if (node = group[i]) { keyValues[i] = keyValue = keyPrefix + key.call(node, node.__data__, i, group); if (keyValue in nodeByKeyValue) { exit[i] = node; } else { nodeByKeyValue[keyValue] = node; } } } // Compute the key for each datum. // If there a node associated with this key, join and add it to update. // If there is not (or the key is a duplicate), add it to enter. for (i = 0; i < dataLength; ++i) { keyValue = keyPrefix + key.call(parent, data[i], i, data); if (node = nodeByKeyValue[keyValue]) { update[i] = node; node.__data__ = data[i]; nodeByKeyValue[keyValue] = null; } else { enter[i] = new EnterNode(parent, data[i]); } } // Add any remaining nodes that were not bound to data to exit. for (i = 0; i < groupLength; ++i) { if ((node = group[i]) && (nodeByKeyValue[keyValues[i]] === node)) { exit[i] = node; } } } function selection_data(value, key) { if (!value) { data = new Array(this.size()), j = -1; this.each(function(d) { data[++j] = d; }); return data; } var bind = key ? bindKey : bindIndex, parents = this._parents, groups = this._groups; if (typeof value !== "function") value = constant$4(value); for (var m = groups.length, update = new Array(m), enter = new Array(m), exit = new Array(m), j = 0; j < m; ++j) { var parent = parents[j], group = groups[j], groupLength = group.length, data = value.call(parent, parent && parent.__data__, j, parents), dataLength = data.length, enterGroup = enter[j] = new Array(dataLength), updateGroup = update[j] = new Array(dataLength), exitGroup = exit[j] = new Array(groupLength); bind(parent, group, enterGroup, updateGroup, exitGroup, data, key); // Now connect the enter nodes to their following update node, such that // appendChild can insert the materialized enter node before this node, // rather than at the end of the parent node. for (var i0 = 0, i1 = 0, previous, next; i0 < dataLength; ++i0) { if (previous = enterGroup[i0]) { if (i0 >= i1) i1 = i0 + 1; while (!(next = updateGroup[i1]) && ++i1 < dataLength); previous._next = next || null; } } } update = new Selection(update, parents); update._enter = enter; update._exit = exit; return update; } function selection_exit() { return new Selection(this._exit || this._groups.map(sparse), this._parents); } function selection_merge(selection) { for (var groups0 = this._groups, groups1 = selection._groups, m0 = groups0.length, m1 = groups1.length, m = Math.min(m0, m1), merges = new Array(m0), j = 0; j < m; ++j) { for (var group0 = groups0[j], group1 = groups1[j], n = group0.length, merge = merges[j] = new Array(n), node, i = 0; i < n; ++i) { if (node = group0[i] || group1[i]) { merge[i] = node; } } } for (; j < m0; ++j) { merges[j] = groups0[j]; } return new Selection(merges, this._parents); } function selection_order() { for (var groups = this._groups, j = -1, m = groups.length; ++j < m;) { for (var group = groups[j], i = group.length - 1, next = group[i], node; --i >= 0;) { if (node = group[i]) { if (next && next !== node.nextSibling) next.parentNode.insertBefore(node, next); next = node; } } } return this; } function selection_sort(compare) { if (!compare) compare = ascending$2; function compareNode(a, b) { return a && b ? compare(a.__data__, b.__data__) : !a - !b; } for (var groups = this._groups, m = groups.length, sortgroups = new Array(m), j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, sortgroup = sortgroups[j] = new Array(n), node, i = 0; i < n; ++i) { if (node = group[i]) { sortgroup[i] = node; } } sortgroup.sort(compareNode); } return new Selection(sortgroups, this._parents).order(); } function ascending$2(a, b) { return a < b ? -1 : a > b ? 1 : a >= b ? 0 : NaN; } function selection_call() { var callback = arguments[0]; arguments[0] = this; callback.apply(null, arguments); return this; } function selection_nodes() { var nodes = new Array(this.size()), i = -1; this.each(function() { nodes[++i] = this; }); return nodes; } function selection_node() { for (var groups = this._groups, j = 0, m = groups.length; j < m; ++j) { for (var group = groups[j], i = 0, n = group.length; i < n; ++i) { var node = group[i]; if (node) return node; } } return null; } function selection_size() { var size = 0; this.each(function() { ++size; }); return size; } function selection_empty() { return !this.node(); } function selection_each(callback) { for (var groups = this._groups, j = 0, m = groups.length; j < m; ++j) { for (var group = groups[j], i = 0, n = group.length, node; i < n; ++i) { if (node = group[i]) callback.call(node, node.__data__, i, group); } } return this; } function attrRemove(name) { return function() { this.removeAttribute(name); }; } function attrRemoveNS(fullname) { return function() { this.removeAttributeNS(fullname.space, fullname.local); }; } function attrConstant(name, value) { return function() { this.setAttribute(name, value); }; } function attrConstantNS(fullname, value) { return function() { this.setAttributeNS(fullname.space, fullname.local, value); }; } function attrFunction(name, value) { return function() { var v = value.apply(this, arguments); if (v == null) this.removeAttribute(name); else this.setAttribute(name, v); }; } function attrFunctionNS(fullname, value) { return function() { var v = value.apply(this, arguments); if (v == null) this.removeAttributeNS(fullname.space, fullname.local); else this.setAttributeNS(fullname.space, fullname.local, v); }; } function selection_attr(name, value) { var fullname = namespace(name); if (arguments.length < 2) { var node = this.node(); return fullname.local ? node.getAttributeNS(fullname.space, fullname.local) : node.getAttribute(fullname); } return this.each((value == null ? (fullname.local ? attrRemoveNS : attrRemove) : (typeof value === "function" ? (fullname.local ? attrFunctionNS : attrFunction) : (fullname.local ? attrConstantNS : attrConstant)))(fullname, value)); } function window(node) { return (node.ownerDocument && node.ownerDocument.defaultView) // node is a Node || (node.document && node) // node is a Window || node.defaultView; // node is a Document } function styleRemove(name) { return function() { this.style.removeProperty(name); }; } function styleConstant(name, value, priority) { return function() { this.style.setProperty(name, value, priority); }; } function styleFunction(name, value, priority) { return function() { var v = value.apply(this, arguments); if (v == null) this.style.removeProperty(name); else this.style.setProperty(name, v, priority); }; } function selection_style(name, value, priority) { var node; return arguments.length > 1 ? this.each((value == null ? styleRemove : typeof value === "function" ? styleFunction : styleConstant)(name, value, priority == null ? "" : priority)) : window(node = this.node()) .getComputedStyle(node, null) .getPropertyValue(name); } function propertyRemove(name) { return function() { delete this[name]; }; } function propertyConstant(name, value) { return function() { this[name] = value; }; } function propertyFunction(name, value) { return function() { var v = value.apply(this, arguments); if (v == null) delete this[name]; else this[name] = v; }; } function selection_property(name, value) { return arguments.length > 1 ? this.each((value == null ? propertyRemove : typeof value === "function" ? propertyFunction : propertyConstant)(name, value)) : this.node()[name]; } function classArray(string) { return string.trim().split(/^|\s+/); } function classList(node) { return node.classList || new ClassList(node); } function ClassList(node) { this._node = node; this._names = classArray(node.getAttribute("class") || ""); } ClassList.prototype = { add: function(name) { var i = this._names.indexOf(name); if (i < 0) { this._names.push(name); this._node.setAttribute("class", this._names.join(" ")); } }, remove: function(name) { var i = this._names.indexOf(name); if (i >= 0) { this._names.splice(i, 1); this._node.setAttribute("class", this._names.join(" ")); } }, contains: function(name) { return this._names.indexOf(name) >= 0; } }; function classedAdd(node, names) { var list = classList(node), i = -1, n = names.length; while (++i < n) list.add(names[i]); } function classedRemove(node, names) { var list = classList(node), i = -1, n = names.length; while (++i < n) list.remove(names[i]); } function classedTrue(names) { return function() { classedAdd(this, names); }; } function classedFalse(names) { return function() { classedRemove(this, names); }; } function classedFunction(names, value) { return function() { (value.apply(this, arguments) ? classedAdd : classedRemove)(this, names); }; } function selection_classed(name, value) { var names = classArray(name + ""); if (arguments.length < 2) { var list = classList(this.node()), i = -1, n = names.length; while (++i < n) if (!list.contains(names[i])) return false; return true; } return this.each((typeof value === "function" ? classedFunction : value ? classedTrue : classedFalse)(names, value)); } function textRemove() { this.textContent = ""; } function textConstant(value) { return function() { this.textContent = value; }; } function textFunction(value) { return function() { var v = value.apply(this, arguments); this.textContent = v == null ? "" : v; }; } function selection_text(value) { return arguments.length ? this.each(value == null ? textRemove : (typeof value === "function" ? textFunction : textConstant)(value)) : this.node().textContent; } function htmlRemove() { this.innerHTML = ""; } function htmlConstant(value) { return function() { this.innerHTML = value; }; } function htmlFunction(value) { return function() { var v = value.apply(this, arguments); this.innerHTML = v == null ? "" : v; }; } function selection_html(value) { return arguments.length ? this.each(value == null ? htmlRemove : (typeof value === "function" ? htmlFunction : htmlConstant)(value)) : this.node().innerHTML; } function raise$1() { if (this.nextSibling) this.parentNode.appendChild(this); } function selection_raise() { return this.each(raise$1); } function lower() { if (this.previousSibling) this.parentNode.insertBefore(this, this.parentNode.firstChild); } function selection_lower() { return this.each(lower); } function selection_append(name) { var create = typeof name === "function" ? name : creator(name); return this.select(function() { return this.appendChild(create.apply(this, arguments)); }); } function constantNull() { return null; } function selection_insert(name, before) { var create = typeof name === "function" ? name : creator(name), select = before == null ? constantNull : typeof before === "function" ? before : selector(before); return this.select(function() { return this.insertBefore(create.apply(this, arguments), select.apply(this, arguments) || null); }); } function remove() { var parent = this.parentNode; if (parent) parent.removeChild(this); } function selection_remove() { return this.each(remove); } function selection_datum(value) { return arguments.length ? this.property("__data__", value) : this.node().__data__; } function dispatchEvent(node, type, params) { var window$$ = window(node), event = window$$.CustomEvent; if (event) { event = new event(type, params); } else { event = window$$.document.createEvent("Event"); if (params) event.initEvent(type, params.bubbles, params.cancelable), event.detail = params.detail; else event.initEvent(type, false, false); } node.dispatchEvent(event); } function dispatchConstant(type, params) { return function() { return dispatchEvent(this, type, params); }; } function dispatchFunction(type, params) { return function() { return dispatchEvent(this, type, params.apply(this, arguments)); }; } function selection_dispatch(type, params) { return this.each((typeof params === "function" ? dispatchFunction : dispatchConstant)(type, params)); } var root = [null]; function Selection(groups, parents) { this._groups = groups; this._parents = parents; } function selection() { return new Selection([[document.documentElement]], root); } Selection.prototype = selection.prototype = { constructor: Selection, select: selection_select, selectAll: selection_selectAll, filter: selection_filter, data: selection_data, enter: selection_enter, exit: selection_exit, merge: selection_merge, order: selection_order, sort: selection_sort, call: selection_call, nodes: selection_nodes, node: selection_node, size: selection_size, empty: selection_empty, each: selection_each, attr: selection_attr, style: selection_style, property: selection_property, classed: selection_classed, text: selection_text, html: selection_html, raise: selection_raise, lower: selection_lower, append: selection_append, insert: selection_insert, remove: selection_remove, datum: selection_datum, on: selection_on, dispatch: selection_dispatch }; function select(selector) { return typeof selector === "string" ? new Selection([[document.querySelector(selector)]], [document.documentElement]) : new Selection([[selector]], root); } function selectAll(selector) { return typeof selector === "string" ? new Selection([document.querySelectorAll(selector)], [document.documentElement]) : new Selection([selector == null ? [] : selector], root); } function touch(node, touches, identifier) { if (arguments.length < 3) identifier = touches, touches = sourceEvent().changedTouches; for (var i = 0, n = touches ? touches.length : 0, touch; i < n; ++i) { if ((touch = touches[i]).identifier === identifier) { return point$5(node, touch); } } return null; } function touches(node, touches) { if (touches == null) touches = sourceEvent().touches; for (var i = 0, n = touches ? touches.length : 0, points = new Array(n); i < n; ++i) { points[i] = point$5(node, touches[i]); } return points; } var emptyOn = dispatch("start", "end", "interrupt"); var emptyTween = []; var CREATED = 0; var SCHEDULED = 1; var STARTING = 2; var STARTED = 3; var ENDING = 4; var ENDED = 5; function schedule(node, name, id, index, group, timing) { var schedules = node.__transition; if (!schedules) node.__transition = {}; else if (id in schedules) return; create(node, id, { name: name, index: index, // For context during callback. group: group, // For context during callback. on: emptyOn, tween: emptyTween, time: timing.time, delay: timing.delay, duration: timing.duration, ease: timing.ease, timer: null, state: CREATED }); } function init(node, id) { var schedule = node.__transition; if (!schedule || !(schedule = schedule[id]) || schedule.state > CREATED) throw new Error("too late"); return schedule; } function set$2(node, id) { var schedule = node.__transition; if (!schedule || !(schedule = schedule[id]) || schedule.state > STARTING) throw new Error("too late"); return schedule; } function get$1(node, id) { var schedule = node.__transition; if (!schedule || !(schedule = schedule[id])) throw new Error("too late"); return schedule; } function create(node, id, self) { var schedules = node.__transition, tween; // Initialize the self timer when the transition is created. // Note the actual delay is not known until the first callback! schedules[id] = self; self.timer = timer(schedule, 0, self.time); // If the delay is greater than this first sleep, sleep some more; // otherwise, start immediately. function schedule(elapsed) { self.state = SCHEDULED; if (self.delay <= elapsed) start(elapsed - self.delay); else self.timer.restart(start, self.delay, self.time); } function start(elapsed) { var i, j, n, o; for (i in schedules) { o = schedules[i]; if (o.name !== self.name) continue; // Interrupt the active transition, if any. // Dispatch the interrupt event. if (o.state === STARTED) { o.state = ENDED; o.timer.stop(); o.on.call("interrupt", node, node.__data__, o.index, o.group); delete schedules[i]; } // Cancel any pre-empted transitions. No interrupt event is dispatched // because the cancelled transitions never started. Note that this also // removes this transition from the pending list! else if (+i < id) { o.state = ENDED; o.timer.stop(); delete schedules[i]; } } // Defer the first tick to end of the current frame; see mbostock/d3#1576. // Note the transition may be canceled after start and before the first tick! // Note this must be scheduled before the start event; see d3/d3-transition#16! // Assuming this is successful, subsequent callbacks go straight to tick. timeout$1(function() { if (self.state === STARTED) { self.timer.restart(tick, self.delay, self.time); tick(elapsed); } }); // Dispatch the start event. // Note this must be done before the tween are initialized. self.state = STARTING; self.on.call("start", node, node.__data__, self.index, self.group); if (self.state !== STARTING) return; // interrupted self.state = STARTED; // Initialize the tween, deleting null tween. tween = new Array(n = self.tween.length); for (i = 0, j = -1; i < n; ++i) { if (o = self.tween[i].value.call(node, node.__data__, self.index, self.group)) { tween[++j] = o; } } tween.length = j + 1; } function tick(elapsed) { var t = elapsed < self.duration ? self.ease.call(null, elapsed / self.duration) : (self.state = ENDING, 1), i = -1, n = tween.length; while (++i < n) { tween[i].call(null, t); } // Dispatch the end event. if (self.state === ENDING) { self.state = ENDED; self.timer.stop(); self.on.call("end", node, node.__data__, self.index, self.group); for (i in schedules) if (+i !== id) return void delete schedules[id]; delete node.__transition; } } } function interrupt(node, name) { var schedules = node.__transition, schedule, active, empty = true, i; if (!schedules) return; name = name == null ? null : name + ""; for (i in schedules) { if ((schedule = schedules[i]).name !== name) { empty = false; continue; } active = schedule.state === STARTED; schedule.state = ENDED; schedule.timer.stop(); if (active) schedule.on.call("interrupt", node, node.__data__, schedule.index, schedule.group); delete schedules[i]; } if (empty) delete node.__transition; } function selection_interrupt(name) { return this.each(function() { interrupt(this, name); }); } function tweenRemove(id, name) { var tween0, tween1; return function() { var schedule = set$2(this, id), tween = schedule.tween; // If this node shared tween with the previous node, // just assign the updated shared tween and we’re done! // Otherwise, copy-on-write. if (tween !== tween0) { tween1 = tween0 = tween; for (var i = 0, n = tween1.length; i < n; ++i) { if (tween1[i].name === name) { tween1 = tween1.slice(); tween1.splice(i, 1); break; } } } schedule.tween = tween1; }; } function tweenFunction(id, name, value) { var tween0, tween1; if (typeof value !== "function") throw new Error; return function() { var schedule = set$2(this, id), tween = schedule.tween; // If this node shared tween with the previous node, // just assign the updated shared tween and we’re done! // Otherwise, copy-on-write. if (tween !== tween0) { tween1 = (tween0 = tween).slice(); for (var t = {name: name, value: value}, i = 0, n = tween1.length; i < n; ++i) { if (tween1[i].name === name) { tween1[i] = t; break; } } if (i === n) tween1.push(t); } schedule.tween = tween1; }; } function transition_tween(name, value) { var id = this._id; name += ""; if (arguments.length < 2) { var tween = get$1(this.node(), id).tween; for (var i = 0, n = tween.length, t; i < n; ++i) { if ((t = tween[i]).name === name) { return t.value; } } return null; } return this.each((value == null ? tweenRemove : tweenFunction)(id, name, value)); } function tweenValue(transition, name, value) { var id = transition._id; transition.each(function() { var schedule = set$2(this, id); (schedule.value || (schedule.value = {}))[name] = value.apply(this, arguments); }); return function(node) { return get$1(node, id).value[name]; }; } function interpolate$1(a, b) { var c; return (typeof b === "number" ? interpolateNumber : b instanceof color ? interpolateRgb : (c = color(b)) ? (b = c, interpolateRgb) : interpolateString)(a, b); } function attrRemove$1(name) { return function() { this.removeAttribute(name); }; } function attrRemoveNS$1(fullname) { return function() { this.removeAttributeNS(fullname.space, fullname.local); }; } function attrConstant$1(name, interpolate, value1) { var value00, interpolate0; return function() { var value0 = this.getAttribute(name); return value0 === value1 ? null : value0 === value00 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value1); }; } function attrConstantNS$1(fullname, interpolate, value1) { var value00, interpolate0; return function() { var value0 = this.getAttributeNS(fullname.space, fullname.local); return value0 === value1 ? null : value0 === value00 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value1); }; } function attrFunction$1(name, interpolate, value) { var value00, value10, interpolate0; return function() { var value0, value1 = value(this); if (value1 == null) return void this.removeAttribute(name); value0 = this.getAttribute(name); return value0 === value1 ? null : value0 === value00 && value1 === value10 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value10 = value1); }; } function attrFunctionNS$1(fullname, interpolate, value) { var value00, value10, interpolate0; return function() { var value0, value1 = value(this); if (value1 == null) return void this.removeAttributeNS(fullname.space, fullname.local); value0 = this.getAttributeNS(fullname.space, fullname.local); return value0 === value1 ? null : value0 === value00 && value1 === value10 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value10 = value1); }; } function transition_attr(name, value) { var fullname = namespace(name), i = fullname === "transform" ? interpolateTransform$2 : interpolate$1; return this.attrTween(name, typeof value === "function" ? (fullname.local ? attrFunctionNS$1 : attrFunction$1)(fullname, i, tweenValue(this, "attr." + name, value)) : value == null ? (fullname.local ? attrRemoveNS$1 : attrRemove$1)(fullname) : (fullname.local ? attrConstantNS$1 : attrConstant$1)(fullname, i, value)); } function attrTweenNS(fullname, value) { function tween() { var node = this, i = value.apply(node, arguments); return i && function(t) { node.setAttributeNS(fullname.space, fullname.local, i(t)); }; } tween._value = value; return tween; } function attrTween(name, value) { function tween() { var node = this, i = value.apply(node, arguments); return i && function(t) { node.setAttribute(name, i(t)); }; } tween._value = value; return tween; } function transition_attrTween(name, value) { var key = "attr." + name; if (arguments.length < 2) return (key = this.tween(key)) && key._value; if (value == null) return this.tween(key, null); if (typeof value !== "function") throw new Error; var fullname = namespace(name); return this.tween(key, (fullname.local ? attrTweenNS : attrTween)(fullname, value)); } function delayFunction(id, value) { return function() { init(this, id).delay = +value.apply(this, arguments); }; } function delayConstant(id, value) { return value = +value, function() { init(this, id).delay = value; }; } function transition_delay(value) { var id = this._id; return arguments.length ? this.each((typeof value === "function" ? delayFunction : delayConstant)(id, value)) : get$1(this.node(), id).delay; } function durationFunction(id, value) { return function() { set$2(this, id).duration = +value.apply(this, arguments); }; } function durationConstant(id, value) { return value = +value, function() { set$2(this, id).duration = value; }; } function transition_duration(value) { var id = this._id; return arguments.length ? this.each((typeof value === "function" ? durationFunction : durationConstant)(id, value)) : get$1(this.node(), id).duration; } function easeConstant(id, value) { if (typeof value !== "function") throw new Error; return function() { set$2(this, id).ease = value; }; } function transition_ease(value) { var id = this._id; return arguments.length ? this.each(easeConstant(id, value)) : get$1(this.node(), id).ease; } function transition_filter(match) { if (typeof match !== "function") match = matcher$1(match); for (var groups = this._groups, m = groups.length, subgroups = new Array(m), j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, subgroup = subgroups[j] = [], node, i = 0; i < n; ++i) { if ((node = group[i]) && match.call(node, node.__data__, i, group)) { subgroup.push(node); } } } return new Transition(subgroups, this._parents, this._name, this._id); } function transition_merge(transition) { if (transition._id !== this._id) throw new Error; for (var groups0 = this._groups, groups1 = transition._groups, m0 = groups0.length, m1 = groups1.length, m = Math.min(m0, m1), merges = new Array(m0), j = 0; j < m; ++j) { for (var group0 = groups0[j], group1 = groups1[j], n = group0.length, merge = merges[j] = new Array(n), node, i = 0; i < n; ++i) { if (node = group0[i] || group1[i]) { merge[i] = node; } } } for (; j < m0; ++j) { merges[j] = groups0[j]; } return new Transition(merges, this._parents, this._name, this._id); } function start$1(name) { return (name + "").trim().split(/^|\s+/).every(function(t) { var i = t.indexOf("."); if (i >= 0) t = t.slice(0, i); return !t || t === "start"; }); } function onFunction(id, name, listener) { var on0, on1, sit = start$1(name) ? init : set$2; return function() { var schedule = sit(this, id), on = schedule.on; // If this node shared a dispatch with the previous node, // just assign the updated shared dispatch and we’re done! // Otherwise, copy-on-write. if (on !== on0) (on1 = (on0 = on).copy()).on(name, listener); schedule.on = on1; }; } function transition_on(name, listener) { var id = this._id; return arguments.length < 2 ? get$1(this.node(), id).on.on(name) : this.each(onFunction(id, name, listener)); } function removeFunction(id) { return function() { var parent = this.parentNode; for (var i in this.__transition) if (+i !== id) return; if (parent) parent.removeChild(this); }; } function transition_remove() { return this.on("end.remove", removeFunction(this._id)); } function transition_select(select) { var name = this._name, id = this._id; if (typeof select !== "function") select = selector(select); for (var groups = this._groups, m = groups.length, subgroups = new Array(m), j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, subgroup = subgroups[j] = new Array(n), node, subnode, i = 0; i < n; ++i) { if ((node = group[i]) && (subnode = select.call(node, node.__data__, i, group))) { if ("__data__" in node) subnode.__data__ = node.__data__; subgroup[i] = subnode; schedule(subgroup[i], name, id, i, subgroup, get$1(node, id)); } } } return new Transition(subgroups, this._parents, name, id); } function transition_selectAll(select) { var name = this._name, id = this._id; if (typeof select !== "function") select = selectorAll(select); for (var groups = this._groups, m = groups.length, subgroups = [], parents = [], j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, node, i = 0; i < n; ++i) { if (node = group[i]) { for (var children = select.call(node, node.__data__, i, group), child, inherit = get$1(node, id), k = 0, l = children.length; k < l; ++k) { if (child = children[k]) { schedule(child, name, id, k, children, inherit); } } subgroups.push(children); parents.push(node); } } } return new Transition(subgroups, parents, name, id); } var Selection$1 = selection.prototype.constructor; function transition_selection() { return new Selection$1(this._groups, this._parents); } function styleRemove$1(name, interpolate) { var value00, value10, interpolate0; return function() { var style = window(this).getComputedStyle(this, null), value0 = style.getPropertyValue(name), value1 = (this.style.removeProperty(name), style.getPropertyValue(name)); return value0 === value1 ? null : value0 === value00 && value1 === value10 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value10 = value1); }; } function styleRemoveEnd(name) { return function() { this.style.removeProperty(name); }; } function styleConstant$1(name, interpolate, value1) { var value00, interpolate0; return function() { var value0 = window(this).getComputedStyle(this, null).getPropertyValue(name); return value0 === value1 ? null : value0 === value00 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value1); }; } function styleFunction$1(name, interpolate, value) { var value00, value10, interpolate0; return function() { var style = window(this).getComputedStyle(this, null), value0 = style.getPropertyValue(name), value1 = value(this); if (value1 == null) value1 = (this.style.removeProperty(name), style.getPropertyValue(name)); return value0 === value1 ? null : value0 === value00 && value1 === value10 ? interpolate0 : interpolate0 = interpolate(value00 = value0, value10 = value1); }; } function transition_style(name, value, priority) { var i = (name += "") === "transform" ? interpolateTransform$1 : interpolate$1; return value == null ? this .styleTween(name, styleRemove$1(name, i)) .on("end.style." + name, styleRemoveEnd(name)) : this.styleTween(name, typeof value === "function" ? styleFunction$1(name, i, tweenValue(this, "style." + name, value)) : styleConstant$1(name, i, value), priority); } function styleTween(name, value, priority) { function tween() { var node = this, i = value.apply(node, arguments); return i && function(t) { node.style.setProperty(name, i(t), priority); }; } tween._value = value; return tween; } function transition_styleTween(name, value, priority) { var key = "style." + (name += ""); if (arguments.length < 2) return (key = this.tween(key)) && key._value; if (value == null) return this.tween(key, null); if (typeof value !== "function") throw new Error; return this.tween(key, styleTween(name, value, priority == null ? "" : priority)); } function textConstant$1(value) { return function() { this.textContent = value; }; } function textFunction$1(value) { return function() { var value1 = value(this); this.textContent = value1 == null ? "" : value1; }; } function transition_text(value) { return this.tween("text", typeof value === "function" ? textFunction$1(tweenValue(this, "text", value)) : textConstant$1(value == null ? "" : value + "")); } function transition_transition() { var name = this._name, id0 = this._id, id1 = newId(); for (var groups = this._groups, m = groups.length, j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, node, i = 0; i < n; ++i) { if (node = group[i]) { var inherit = get$1(node, id0); schedule(node, name, id1, i, group, { time: inherit.time + inherit.delay + inherit.duration, delay: 0, duration: inherit.duration, ease: inherit.ease }); } } } return new Transition(groups, this._parents, name, id1); } var id = 0; function Transition(groups, parents, name, id) { this._groups = groups; this._parents = parents; this._name = name; this._id = id; } function transition(name) { return selection().transition(name); } function newId() { return ++id; } var selection_prototype = selection.prototype; Transition.prototype = transition.prototype = { constructor: Transition, select: transition_select, selectAll: transition_selectAll, filter: transition_filter, merge: transition_merge, selection: transition_selection, transition: transition_transition, call: selection_prototype.call, nodes: selection_prototype.nodes, node: selection_prototype.node, size: selection_prototype.size, empty: selection_prototype.empty, each: selection_prototype.each, on: transition_on, attr: transition_attr, attrTween: transition_attrTween, style: transition_style, styleTween: transition_styleTween, text: transition_text, remove: transition_remove, tween: transition_tween, delay: transition_delay, duration: transition_duration, ease: transition_ease }; var defaultTiming = { time: null, // Set on use. delay: 0, duration: 250, ease: easeCubicInOut }; function inherit(node, id) { var timing; while (!(timing = node.__transition) || !(timing = timing[id])) { if (!(node = node.parentNode)) { return defaultTiming.time = now(), defaultTiming; } } return timing; } function selection_transition(name) { var id, timing; if (name instanceof Transition) { id = name._id, name = name._name; } else { id = newId(), (timing = defaultTiming).time = now(), name = name == null ? null : name + ""; } for (var groups = this._groups, m = groups.length, j = 0; j < m; ++j) { for (var group = groups[j], n = group.length, node, i = 0; i < n; ++i) { if (node = group[i]) { schedule(node, name, id, i, group, timing || inherit(node, id)); } } } return new Transition(groups, this._parents, name, id); } selection.prototype.interrupt = selection_interrupt; selection.prototype.transition = selection_transition; var root$1 = [null]; function active(node, name) { var schedules = node.__transition, schedule, i; if (schedules) { name = name == null ? null : name + ""; for (i in schedules) { if ((schedule = schedules[i]).state > SCHEDULED && schedule.name === name) { return new Transition([[node]], root$1, name, +i); } } } return null; } var slice$4 = Array.prototype.slice; function identity$5(x) { return x; } var top = 1; var right = 2; var bottom = 3; var left = 4; var epsilon$2 = 1e-6; function translateX(scale0, scale1, d) { var x = scale0(d); return "translate(" + (isFinite(x) ? x : scale1(d)) + ",0)"; } function translateY(scale0, scale1, d) { var y = scale0(d); return "translate(0," + (isFinite(y) ? y : scale1(d)) + ")"; } function center(scale) { var offset = scale.bandwidth() / 2; if (scale.round()) offset = Math.round(offset); return function(d) { return scale(d) + offset; }; } function entering() { return !this.__axis; } function axis(orient, scale) { var tickArguments = [], tickValues = null, tickFormat = null, tickSizeInner = 6, tickSizeOuter = 6, tickPadding = 3; function axis(context) { var values = tickValues == null ? (scale.ticks ? scale.ticks.apply(scale, tickArguments) : scale.domain()) : tickValues, format = tickFormat == null ? (scale.tickFormat ? scale.tickFormat.apply(scale, tickArguments) : identity$5) : tickFormat, spacing = Math.max(tickSizeInner, 0) + tickPadding, transform = orient === top || orient === bottom ? translateX : translateY, range = scale.range(), range0 = range[0] + 0.5, range1 = range[range.length - 1] + 0.5, position = (scale.bandwidth ? center : identity$5)(scale.copy()), selection = context.selection ? context.selection() : context, path = selection.selectAll(".domain").data([null]), tick = selection.selectAll(".tick").data(values, scale).order(), tickExit = tick.exit(), tickEnter = tick.enter().append("g").attr("class", "tick"), line = tick.select("line"), text = tick.select("text"), k = orient === top || orient === left ? -1 : 1, x, y = orient === left || orient === right ? (x = "x", "y") : (x = "y", "x"); path = path.merge(path.enter().insert("path", ".tick") .attr("class", "domain") .attr("stroke", "#000")); tick = tick.merge(tickEnter); line = line.merge(tickEnter.append("line") .attr("stroke", "#000") .attr(x + "2", k * tickSizeInner) .attr(y + "1", 0.5) .attr(y + "2", 0.5)); text = text.merge(tickEnter.append("text") .attr("fill", "#000") .attr(x, k * spacing) .attr(y, 0.5) .attr("dy", orient === top ? "0em" : orient === bottom ? "0.71em" : "0.32em")); if (context !== selection) { path = path.transition(context); tick = tick.transition(context); line = line.transition(context); text = text.transition(context); tickExit = tickExit.transition(context) .attr("opacity", epsilon$2) .attr("transform", function(d) { return transform(position, this.parentNode.__axis || position, d); }); tickEnter .attr("opacity", epsilon$2) .attr("transform", function(d) { return transform(this.parentNode.__axis || position, position, d); }); } tickExit.remove(); path .attr("d", orient === left || orient == right ? "M" + k * tickSizeOuter + "," + range0 + "H0.5V" + range1 + "H" + k * tickSizeOuter : "M" + range0 + "," + k * tickSizeOuter + "V0.5H" + range1 + "V" + k * tickSizeOuter); tick .attr("opacity", 1) .attr("transform", function(d) { return transform(position, position, d); }); line .attr(x + "2", k * tickSizeInner); text .attr(x, k * spacing) .text(format); selection.filter(entering) .attr("fill", "none") .attr("font-size", 10) .attr("font-family", "sans-serif") .attr("text-anchor", orient === right ? "start" : orient === left ? "end" : "middle"); selection .each(function() { this.__axis = position; }); } axis.scale = function(_) { return arguments.length ? (scale = _, axis) : scale; }; axis.ticks = function() { return tickArguments = slice$4.call(arguments), axis; }; axis.tickArguments = function(_) { return arguments.length ? (tickArguments = _ == null ? [] : slice$4.call(_), axis) : tickArguments.slice(); }; axis.tickValues = function(_) { return arguments.length ? (tickValues = _ == null ? null : slice$4.call(_), axis) : tickValues && tickValues.slice(); }; axis.tickFormat = function(_) { return arguments.length ? (tickFormat = _, axis) : tickFormat; }; axis.tickSize = function(_) { return arguments.length ? (tickSizeInner = tickSizeOuter = +_, axis) : tickSizeInner; }; axis.tickSizeInner = function(_) { return arguments.length ? (tickSizeInner = +_, axis) : tickSizeInner; }; axis.tickSizeOuter = function(_) { return arguments.length ? (tickSizeOuter = +_, axis) : tickSizeOuter; }; axis.tickPadding = function(_) { return arguments.length ? (tickPadding = +_, axis) : tickPadding; }; return axis; } function axisTop(scale) { return axis(top, scale); } function axisRight(scale) { return axis(right, scale); } function axisBottom(scale) { return axis(bottom, scale); } function axisLeft(scale) { return axis(left, scale); } function defaultSeparation(a, b) { return a.parent === b.parent ? 1 : 2; } function meanX(children) { return children.reduce(meanXReduce, 0) / children.length; } function meanXReduce(x, c) { return x + c.x; } function maxY(children) { return 1 + children.reduce(maxYReduce, 0); } function maxYReduce(y, c) { return Math.max(y, c.y); } function leafLeft(node) { var children; while (children = node.children) node = children[0]; return node; } function leafRight(node) { var children; while (children = node.children) node = children[children.length - 1]; return node; } function cluster() { var separation = defaultSeparation, dx = 1, dy = 1, nodeSize = false; function cluster(root) { var previousNode, x = 0; // First walk, computing the initial x & y values. root.eachAfter(function(node) { var children = node.children; if (children) { node.x = meanX(children); node.y = maxY(children); } else { node.x = previousNode ? x += separation(node, previousNode) : 0; node.y = 0; previousNode = node; } }); var left = leafLeft(root), right = leafRight(root), x0 = left.x - separation(left, right) / 2, x1 = right.x + separation(right, left) / 2; // Second walk, normalizing x & y to the desired size. return root.eachAfter(nodeSize ? function(node) { node.x = (node.x - root.x) * dx; node.y = (root.y - node.y) * dy; } : function(node) { node.x = (node.x - x0) / (x1 - x0) * dx; node.y = (1 - (root.y ? node.y / root.y : 1)) * dy; }); } cluster.separation = function(x) { return arguments.length ? (separation = x, cluster) : separation; }; cluster.size = function(x) { return arguments.length ? (nodeSize = false, dx = +x[0], dy = +x[1], cluster) : (nodeSize ? null : [dx, dy]); }; cluster.nodeSize = function(x) { return arguments.length ? (nodeSize = true, dx = +x[0], dy = +x[1], cluster) : (nodeSize ? [dx, dy] : null); }; return cluster; } function node_each(callback) { var node = this, current, next = [node], children, i, n; do { current = next.reverse(), next = []; while (node = current.pop()) { callback(node), children = node.children; if (children) for (i = 0, n = children.length; i < n; ++i) { next.push(children[i]); } } } while (next.length); return this; } function node_eachBefore(callback) { var node = this, nodes = [node], children, i; while (node = nodes.pop()) { callback(node), children = node.children; if (children) for (i = children.length - 1; i >= 0; --i) { nodes.push(children[i]); } } return this; } function node_eachAfter(callback) { var node = this, nodes = [node], next = [], children, i, n; while (node = nodes.pop()) { next.push(node), children = node.children; if (children) for (i = 0, n = children.length; i < n; ++i) { nodes.push(children[i]); } } while (node = next.pop()) { callback(node); } return this; } function node_sum(value) { return this.eachAfter(function(node) { var sum = +value(node.data) || 0, children = node.children, i = children && children.length; while (--i >= 0) sum += children[i].value; node.value = sum; }); } function node_sort(compare) { return this.eachBefore(function(node) { if (node.children) { node.children.sort(compare); } }); } function node_path(end) { var start = this, ancestor = leastCommonAncestor(start, end), nodes = [start]; while (start !== ancestor) { start = start.parent; nodes.push(start); } var k = nodes.length; while (end !== ancestor) { nodes.splice(k, 0, end); end = end.parent; } return nodes; } function leastCommonAncestor(a, b) { if (a === b) return a; var aNodes = a.ancestors(), bNodes = b.ancestors(), c = null; a = aNodes.pop(); b = bNodes.pop(); while (a === b) { c = a; a = aNodes.pop(); b = bNodes.pop(); } return c; } function node_ancestors() { var node = this, nodes = [node]; while (node = node.parent) { nodes.push(node); } return nodes; } function node_descendants() { var nodes = []; this.each(function(node) { nodes.push(node); }); return nodes; } function node_leaves() { var leaves = []; this.eachBefore(function(node) { if (!node.children) { leaves.push(node); } }); return leaves; } function node_links() { var root = this, links = []; root.each(function(node) { if (node !== root) { // Don’t include the root’s parent, if any. links.push({source: node.parent, target: node}); } }); return links; } function hierarchy(data, children) { var root = new Node(data), valued = +data.value && (root.value = data.value), node, nodes = [root], child, childs, i, n; if (children == null) children = defaultChildren; while (node = nodes.pop()) { if (valued) node.value = +node.data.value; if ((childs = children(node.data)) && (n = childs.length)) { node.children = new Array(n); for (i = n - 1; i >= 0; --i) { nodes.push(child = node.children[i] = new Node(childs[i])); child.parent = node; child.depth = node.depth + 1; } } } return root.eachBefore(computeHeight); } function node_copy() { return hierarchy(this).eachBefore(copyData); } function defaultChildren(d) { return d.children; } function copyData(node) { node.data = node.data.data; } function computeHeight(node) { var height = 0; do node.height = height; while ((node = node.parent) && (node.height < ++height)); } function Node(data) { this.data = data; this.depth = this.height = 0; this.parent = null; } Node.prototype = hierarchy.prototype = { constructor: Node, each: node_each, eachAfter: node_eachAfter, eachBefore: node_eachBefore, sum: node_sum, sort: node_sort, path: node_path, ancestors: node_ancestors, descendants: node_descendants, leaves: node_leaves, links: node_links, copy: node_copy }; function Node$2(value) { this._ = value; this.next = null; } function shuffle$1(array) { var i, n = (array = array.slice()).length, head = null, node = head; while (n) { var next = new Node$2(array[n - 1]); if (node) node = node.next = next; else node = head = next; array[i] = array[--n]; } return { head: head, tail: node }; } function enclose(circles) { return encloseN(shuffle$1(circles), []); } function encloses(a, b) { var dx = b.x - a.x, dy = b.y - a.y, dr = a.r - b.r; return dr * dr + 1e-6 > dx * dx + dy * dy; } // Returns the smallest circle that contains circles L and intersects circles B. function encloseN(L, B) { var circle, l0 = null, l1 = L.head, l2, p1; switch (B.length) { case 1: circle = enclose1(B[0]); break; case 2: circle = enclose2(B[0], B[1]); break; case 3: circle = enclose3(B[0], B[1], B[2]); break; } while (l1) { p1 = l1._, l2 = l1.next; if (!circle || !encloses(circle, p1)) { // Temporarily truncate L before l1. if (l0) L.tail = l0, l0.next = null; else L.head = L.tail = null; B.push(p1); circle = encloseN(L, B); // Note: reorders L! B.pop(); // Move l1 to the front of L and reconnect the truncated list L. if (L.head) l1.next = L.head, L.head = l1; else l1.next = null, L.head = L.tail = l1; l0 = L.tail, l0.next = l2; } else { l0 = l1; } l1 = l2; } L.tail = l0; return circle; } function enclose1(a) { return { x: a.x, y: a.y, r: a.r }; } function enclose2(a, b) { var x1 = a.x, y1 = a.y, r1 = a.r, x2 = b.x, y2 = b.y, r2 = b.r, x21 = x2 - x1, y21 = y2 - y1, r21 = r2 - r1, l = Math.sqrt(x21 * x21 + y21 * y21); return { x: (x1 + x2 + x21 / l * r21) / 2, y: (y1 + y2 + y21 / l * r21) / 2, r: (l + r1 + r2) / 2 }; } function enclose3(a, b, c) { var x1 = a.x, y1 = a.y, r1 = a.r, x2 = b.x, y2 = b.y, r2 = b.r, x3 = c.x, y3 = c.y, r3 = c.r, a2 = 2 * (x1 - x2), b2 = 2 * (y1 - y2), c2 = 2 * (r2 - r1), d2 = x1 * x1 + y1 * y1 - r1 * r1 - x2 * x2 - y2 * y2 + r2 * r2, a3 = 2 * (x1 - x3), b3 = 2 * (y1 - y3), c3 = 2 * (r3 - r1), d3 = x1 * x1 + y1 * y1 - r1 * r1 - x3 * x3 - y3 * y3 + r3 * r3, ab = a3 * b2 - a2 * b3, xa = (b2 * d3 - b3 * d2) / ab - x1, xb = (b3 * c2 - b2 * c3) / ab, ya = (a3 * d2 - a2 * d3) / ab - y1, yb = (a2 * c3 - a3 * c2) / ab, A = xb * xb + yb * yb - 1, B = 2 * (xa * xb + ya * yb + r1), C = xa * xa + ya * ya - r1 * r1, r = (-B - Math.sqrt(B * B - 4 * A * C)) / (2 * A); return { x: xa + xb * r + x1, y: ya + yb * r + y1, r: r }; } function place(a, b, c) { var ax = a.x, ay = a.y, da = b.r + c.r, db = a.r + c.r, dx = b.x - ax, dy = b.y - ay, dc = dx * dx + dy * dy; if (dc) { var x = 0.5 + ((db *= db) - (da *= da)) / (2 * dc), y = Math.sqrt(Math.max(0, 2 * da * (db + dc) - (db -= dc) * db - da * da)) / (2 * dc); c.x = ax + x * dx + y * dy; c.y = ay + x * dy - y * dx; } else { c.x = ax + db; c.y = ay; } } function intersects(a, b) { var dx = b.x - a.x, dy = b.y - a.y, dr = a.r + b.r; return dr * dr > dx * dx + dy * dy; } function distance2(circle, x, y) { var dx = circle.x - x, dy = circle.y - y; return dx * dx + dy * dy; } function Node$1(circle) { this._ = circle; this.next = null; this.previous = null; } function packEnclose(circles) { if (!(n = circles.length)) return 0; var a, b, c, n; // Place the first circle. a = circles[0], a.x = 0, a.y = 0; if (!(n > 1)) return a.r; // Place the second circle. b = circles[1], a.x = -b.r, b.x = a.r, b.y = 0; if (!(n > 2)) return a.r + b.r; // Place the third circle. place(b, a, c = circles[2]); // Initialize the weighted centroid. var aa = a.r * a.r, ba = b.r * b.r, ca = c.r * c.r, oa = aa + ba + ca, ox = aa * a.x + ba * b.x + ca * c.x, oy = aa * a.y + ba * b.y + ca * c.y, cx, cy, i, j, k, sj, sk; // Initialize the front-chain using the first three circles a, b and c. a = new Node$1(a), b = new Node$1(b), c = new Node$1(c); a.next = c.previous = b; b.next = a.previous = c; c.next = b.previous = a; // Attempt to place each remaining circle… pack: for (i = 3; i < n; ++i) { place(a._, b._, c = circles[i]), c = new Node$1(c); // If there are only three elements in the front-chain… if ((k = a.previous) === (j = b.next)) { // If the new circle intersects the third circle, // rotate the front chain to try the next position. if (intersects(j._, c._)) { a = b, b = j, --i; continue pack; } } // Find the closest intersecting circle on the front-chain, if any. else { sj = j._.r, sk = k._.r; do { if (sj <= sk) { if (intersects(j._, c._)) { b = j, a.next = b, b.previous = a, --i; continue pack; } j = j.next, sj += j._.r; } else { if (intersects(k._, c._)) { a = k, a.next = b, b.previous = a, --i; continue pack; } k = k.previous, sk += k._.r; } } while (j !== k.next); } // Success! Insert the new circle c between a and b. c.previous = a, c.next = b, a.next = b.previous = b = c; // Update the weighted centroid. oa += ca = c._.r * c._.r; ox += ca * c._.x; oy += ca * c._.y; // Compute the new closest circle a to centroid. aa = distance2(a._, cx = ox / oa, cy = oy / oa); while ((c = c.next) !== b) { if ((ca = distance2(c._, cx, cy)) < aa) { a = c, aa = ca; } } b = a.next; } // Compute the enclosing circle of the front chain. a = [b._], c = b; while ((c = c.next) !== b) a.push(c._); c = enclose(a); // Translate the circles to put the enclosing circle around the origin. for (i = 0; i < n; ++i) a = circles[i], a.x -= c.x, a.y -= c.y; return c.r; } function siblings(circles) { packEnclose(circles); return circles; } function optional(f) { return f == null ? null : required(f); } function required(f) { if (typeof f !== "function") throw new Error; return f; } function constantZero() { return 0; } function constant$5(x) { return function() { return x; }; } function defaultRadius(d) { return Math.sqrt(d.value); } function index() { var radius = null, dx = 1, dy = 1, padding = constantZero; function pack(root) { root.x = dx / 2, root.y = dy / 2; if (radius) { root.eachBefore(radiusLeaf(radius)) .eachAfter(packChildren(padding, 0.5)) .eachBefore(translateChild(1)); } else { root.eachBefore(radiusLeaf(defaultRadius)) .eachAfter(packChildren(constantZero, 1)) .eachAfter(packChildren(padding, root.r / Math.min(dx, dy))) .eachBefore(translateChild(Math.min(dx, dy) / (2 * root.r))); } return root; } pack.radius = function(x) { return arguments.length ? (radius = optional(x), pack) : radius; }; pack.size = function(x) { return arguments.length ? (dx = +x[0], dy = +x[1], pack) : [dx, dy]; }; pack.padding = function(x) { return arguments.length ? (padding = typeof x === "function" ? x : constant$5(+x), pack) : padding; }; return pack; } function radiusLeaf(radius) { return function(node) { if (!node.children) { node.r = Math.max(0, +radius(node) || 0); } }; } function packChildren(padding, k) { return function(node) { if (children = node.children) { var children, i, n = children.length, r = padding(node) * k || 0, e; if (r) for (i = 0; i < n; ++i) children[i].r += r; e = packEnclose(children); if (r) for (i = 0; i < n; ++i) children[i].r -= r; node.r = e + r; } }; } function translateChild(k) { return function(node) { var parent = node.parent; node.r *= k; if (parent) { node.x = parent.x + k * node.x; node.y = parent.y + k * node.y; } }; } function roundNode(node) { node.x0 = Math.round(node.x0); node.y0 = Math.round(node.y0); node.x1 = Math.round(node.x1); node.y1 = Math.round(node.y1); } function treemapDice(parent, x0, y0, x1, y1) { var nodes = parent.children, node, i = -1, n = nodes.length, k = parent.value && (x1 - x0) / parent.value; while (++i < n) { node = nodes[i], node.y0 = y0, node.y1 = y1; node.x0 = x0, node.x1 = x0 += node.value * k; } } function partition() { var dx = 1, dy = 1, padding = 0, round = false; function partition(root) { var n = root.height + 1; root.x0 = root.y0 = padding; root.x1 = dx; root.y1 = dy / n; root.eachBefore(positionNode(dy, n)); if (round) root.eachBefore(roundNode); return root; } function positionNode(dy, n) { return function(node) { if (node.children) { treemapDice(node, node.x0, dy * (node.depth + 1) / n, node.x1, dy * (node.depth + 2) / n); } var x0 = node.x0, y0 = node.y0, x1 = node.x1 - padding, y1 = node.y1 - padding; if (x1 < x0) x0 = x1 = (x0 + x1) / 2; if (y1 < y0) y0 = y1 = (y0 + y1) / 2; node.x0 = x0; node.y0 = y0; node.x1 = x1; node.y1 = y1; }; } partition.round = function(x) { return arguments.length ? (round = !!x, partition) : round; }; partition.size = function(x) { return arguments.length ? (dx = +x[0], dy = +x[1], partition) : [dx, dy]; }; partition.padding = function(x) { return arguments.length ? (padding = +x, partition) : padding; }; return partition; } var keyPrefix$1 = "$"; var preroot = {depth: -1}; var ambiguous = {}; function defaultId(d) { return d.id; } function defaultParentId(d) { return d.parentId; } function stratify() { var id = defaultId, parentId = defaultParentId; function stratify(data) { var d, i, n = data.length, root, parent, node, nodes = new Array(n), nodeId, nodeKey, nodeByKey = {}; for (i = 0; i < n; ++i) { d = data[i], node = nodes[i] = new Node(d); if ((nodeId = id(d, i, data)) != null && (nodeId += "")) { nodeKey = keyPrefix$1 + (node.id = nodeId); nodeByKey[nodeKey] = nodeKey in nodeByKey ? ambiguous : node; } } for (i = 0; i < n; ++i) { node = nodes[i], nodeId = parentId(data[i], i, data); if (nodeId == null || !(nodeId += "")) { if (root) throw new Error("multiple roots"); root = node; } else { parent = nodeByKey[keyPrefix$1 + nodeId]; if (!parent) throw new Error("missing: " + nodeId); if (parent === ambiguous) throw new Error("ambiguous: " + nodeId); if (parent.children) parent.children.push(node); else parent.children = [node]; node.parent = parent; } } if (!root) throw new Error("no root"); root.parent = preroot; root.eachBefore(function(node) { node.depth = node.parent.depth + 1; --n; }).eachBefore(computeHeight); root.parent = null; if (n > 0) throw new Error("cycle"); return root; } stratify.id = function(x) { return arguments.length ? (id = required(x), stratify) : id; }; stratify.parentId = function(x) { return arguments.length ? (parentId = required(x), stratify) : parentId; }; return stratify; } function defaultSeparation$1(a, b) { return a.parent === b.parent ? 1 : 2; } // function radialSeparation(a, b) { // return (a.parent === b.parent ? 1 : 2) / a.depth; // } // This function is used to traverse the left contour of a subtree (or // subforest). It returns the successor of v on this contour. This successor is // either given by the leftmost child of v or by the thread of v. The function // returns null if and only if v is on the highest level of its subtree. function nextLeft(v) { var children = v.children; return children ? children[0] : v.t; } // This function works analogously to nextLeft. function nextRight(v) { var children = v.children; return children ? children[children.length - 1] : v.t; } // Shifts the current subtree rooted at w+. This is done by increasing // prelim(w+) and mod(w+) by shift. function moveSubtree(wm, wp, shift) { var change = shift / (wp.i - wm.i); wp.c -= change; wp.s += shift; wm.c += change; wp.z += shift; wp.m += shift; } // All other shifts, applied to the smaller subtrees between w- and w+, are // performed by this function. To prepare the shifts, we have to adjust // change(w+), shift(w+), and change(w-). function executeShifts(v) { var shift = 0, change = 0, children = v.children, i = children.length, w; while (--i >= 0) { w = children[i]; w.z += shift; w.m += shift; shift += w.s + (change += w.c); } } // If vi-’s ancestor is a sibling of v, returns vi-’s ancestor. Otherwise, // returns the specified (default) ancestor. function nextAncestor(vim, v, ancestor) { return vim.a.parent === v.parent ? vim.a : ancestor; } function TreeNode(node, i) { this._ = node; this.parent = null; this.children = null; this.A = null; // default ancestor this.a = this; // ancestor this.z = 0; // prelim this.m = 0; // mod this.c = 0; // change this.s = 0; // shift this.t = null; // thread this.i = i; // number } TreeNode.prototype = Object.create(Node.prototype); function treeRoot(root) { var tree = new TreeNode(root, 0), node, nodes = [tree], child, children, i, n; while (node = nodes.pop()) { if (children = node._.children) { node.children = new Array(n = children.length); for (i = n - 1; i >= 0; --i) { nodes.push(child = node.children[i] = new TreeNode(children[i], i)); child.parent = node; } } } (tree.parent = new TreeNode(null, 0)).children = [tree]; return tree; } // Node-link tree diagram using the Reingold-Tilford "tidy" algorithm function tree() { var separation = defaultSeparation$1, dx = 1, dy = 1, nodeSize = null; function tree(root) { var t = treeRoot(root); // Compute the layout using Buchheim et al.’s algorithm. t.eachAfter(firstWalk), t.parent.m = -t.z; t.eachBefore(secondWalk); // If a fixed node size is specified, scale x and y. if (nodeSize) root.eachBefore(sizeNode); // If a fixed tree size is specified, scale x and y based on the extent. // Compute the left-most, right-most, and depth-most nodes for extents. else { var left = root, right = root, bottom = root; root.eachBefore(function(node) { if (node.x < left.x) left = node; if (node.x > right.x) right = node; if (node.depth > bottom.depth) bottom = node; }); var s = left === right ? 1 : separation(left, right) / 2, tx = s - left.x, kx = dx / (right.x + s + tx), ky = dy / (bottom.depth || 1); root.eachBefore(function(node) { node.x = (node.x + tx) * kx; node.y = node.depth * ky; }); } return root; } // Computes a preliminary x-coordinate for v. Before that, FIRST WALK is // applied recursively to the children of v, as well as the function // APPORTION. After spacing out the children by calling EXECUTE SHIFTS, the // node v is placed to the midpoint of its outermost children. function firstWalk(v) { var children = v.children, siblings = v.parent.children, w = v.i ? siblings[v.i - 1] : null; if (children) { executeShifts(v); var midpoint = (children[0].z + children[children.length - 1].z) / 2; if (w) { v.z = w.z + separation(v._, w._); v.m = v.z - midpoint; } else { v.z = midpoint; } } else if (w) { v.z = w.z + separation(v._, w._); } v.parent.A = apportion(v, w, v.parent.A || siblings[0]); } // Computes all real x-coordinates by summing up the modifiers recursively. function secondWalk(v) { v._.x = v.z + v.parent.m; v.m += v.parent.m; } // The core of the algorithm. Here, a new subtree is combined with the // previous subtrees. Threads are used to traverse the inside and outside // contours of the left and right subtree up to the highest common level. The // vertices used for the traversals are vi+, vi-, vo-, and vo+, where the // superscript o means outside and i means inside, the subscript - means left // subtree and + means right subtree. For summing up the modifiers along the // contour, we use respective variables si+, si-, so-, and so+. Whenever two // nodes of the inside contours conflict, we compute the left one of the // greatest uncommon ancestors using the function ANCESTOR and call MOVE // SUBTREE to shift the subtree and prepare the shifts of smaller subtrees. // Finally, we add a new thread (if necessary). function apportion(v, w, ancestor) { if (w) { var vip = v, vop = v, vim = w, vom = vip.parent.children[0], sip = vip.m, sop = vop.m, sim = vim.m, som = vom.m, shift; while (vim = nextRight(vim), vip = nextLeft(vip), vim && vip) { vom = nextLeft(vom); vop = nextRight(vop); vop.a = v; shift = vim.z + sim - vip.z - sip + separation(vim._, vip._); if (shift > 0) { moveSubtree(nextAncestor(vim, v, ancestor), v, shift); sip += shift; sop += shift; } sim += vim.m; sip += vip.m; som += vom.m; sop += vop.m; } if (vim && !nextRight(vop)) { vop.t = vim; vop.m += sim - sop; } if (vip && !nextLeft(vom)) { vom.t = vip; vom.m += sip - som; ancestor = v; } } return ancestor; } function sizeNode(node) { node.x *= dx; node.y = node.depth * dy; } tree.separation = function(x) { return arguments.length ? (separation = x, tree) : separation; }; tree.size = function(x) { return arguments.length ? (nodeSize = false, dx = +x[0], dy = +x[1], tree) : (nodeSize ? null : [dx, dy]); }; tree.nodeSize = function(x) { return arguments.length ? (nodeSize = true, dx = +x[0], dy = +x[1], tree) : (nodeSize ? [dx, dy] : null); }; return tree; } function treemapSlice(parent, x0, y0, x1, y1) { var nodes = parent.children, node, i = -1, n = nodes.length, k = parent.value && (y1 - y0) / parent.value; while (++i < n) { node = nodes[i], node.x0 = x0, node.x1 = x1; node.y0 = y0, node.y1 = y0 += node.value * k; } } var phi = (1 + Math.sqrt(5)) / 2; function squarifyRatio(ratio, parent, x0, y0, x1, y1) { var rows = [], nodes = parent.children, row, nodeValue, i0 = 0, i1, n = nodes.length, dx, dy, value = parent.value, sumValue, minValue, maxValue, newRatio, minRatio, alpha, beta; while (i0 < n) { dx = x1 - x0, dy = y1 - y0; minValue = maxValue = sumValue = nodes[i0].value; alpha = Math.max(dy / dx, dx / dy) / (value * ratio); beta = sumValue * sumValue * alpha; minRatio = Math.max(maxValue / beta, beta / minValue); // Keep adding nodes while the aspect ratio maintains or improves. for (i1 = i0 + 1; i1 < n; ++i1) { sumValue += nodeValue = nodes[i1].value; if (nodeValue < minValue) minValue = nodeValue; if (nodeValue > maxValue) maxValue = nodeValue; beta = sumValue * sumValue * alpha; newRatio = Math.max(maxValue / beta, beta / minValue); if (newRatio > minRatio) { sumValue -= nodeValue; break; } minRatio = newRatio; } // Position and record the row orientation. rows.push(row = {value: sumValue, dice: dx < dy, children: nodes.slice(i0, i1)}); if (row.dice) treemapDice(row, x0, y0, x1, value ? y0 += dy * sumValue / value : y1); else treemapSlice(row, x0, y0, value ? x0 += dx * sumValue / value : x1, y1); value -= sumValue, i0 = i1; } return rows; } var squarify = (function custom(ratio) { function squarify(parent, x0, y0, x1, y1) { squarifyRatio(ratio, parent, x0, y0, x1, y1); } squarify.ratio = function(x) { return custom((x = +x) > 1 ? x : 1); }; return squarify; })(phi); function index$1() { var tile = squarify, round = false, dx = 1, dy = 1, paddingStack = [0], paddingInner = constantZero, paddingTop = constantZero, paddingRight = constantZero, paddingBottom = constantZero, paddingLeft = constantZero; function treemap(root) { root.x0 = root.y0 = 0; root.x1 = dx; root.y1 = dy; root.eachBefore(positionNode); paddingStack = [0]; if (round) root.eachBefore(roundNode); return root; } function positionNode(node) { var p = paddingStack[node.depth], x0 = node.x0 + p, y0 = node.y0 + p, x1 = node.x1 - p, y1 = node.y1 - p; if (x1 < x0) x0 = x1 = (x0 + x1) / 2; if (y1 < y0) y0 = y1 = (y0 + y1) / 2; node.x0 = x0; node.y0 = y0; node.x1 = x1; node.y1 = y1; if (node.children) { p = paddingStack[node.depth + 1] = paddingInner(node) / 2; x0 += paddingLeft(node) - p; y0 += paddingTop(node) - p; x1 -= paddingRight(node) - p; y1 -= paddingBottom(node) - p; if (x1 < x0) x0 = x1 = (x0 + x1) / 2; if (y1 < y0) y0 = y1 = (y0 + y1) / 2; tile(node, x0, y0, x1, y1); } } treemap.round = function(x) { return arguments.length ? (round = !!x, treemap) : round; }; treemap.size = function(x) { return arguments.length ? (dx = +x[0], dy = +x[1], treemap) : [dx, dy]; }; treemap.tile = function(x) { return arguments.length ? (tile = required(x), treemap) : tile; }; treemap.padding = function(x) { return arguments.length ? treemap.paddingInner(x).paddingOuter(x) : treemap.paddingInner(); }; treemap.paddingInner = function(x) { return arguments.length ? (paddingInner = typeof x === "function" ? x : constant$5(+x), treemap) : paddingInner; }; treemap.paddingOuter = function(x) { return arguments.length ? treemap.paddingTop(x).paddingRight(x).paddingBottom(x).paddingLeft(x) : treemap.paddingTop(); }; treemap.paddingTop = function(x) { return arguments.length ? (paddingTop = typeof x === "function" ? x : constant$5(+x), treemap) : paddingTop; }; treemap.paddingRight = function(x) { return arguments.length ? (paddingRight = typeof x === "function" ? x : constant$5(+x), treemap) : paddingRight; }; treemap.paddingBottom = function(x) { return arguments.length ? (paddingBottom = typeof x === "function" ? x : constant$5(+x), treemap) : paddingBottom; }; treemap.paddingLeft = function(x) { return arguments.length ? (paddingLeft = typeof x === "function" ? x : constant$5(+x), treemap) : paddingLeft; }; return treemap; } function binary(parent, x0, y0, x1, y1) { var nodes = parent.children, i, n = nodes.length, sum, sums = new Array(n + 1); for (sums[0] = sum = i = 0; i < n; ++i) { sums[i + 1] = sum += nodes[i].value; } partition(0, n, parent.value, x0, y0, x1, y1); function partition(i, j, value, x0, y0, x1, y1) { if (i >= j - 1) { var node = nodes[i]; node.x0 = x0, node.y0 = y0; node.x1 = x1, node.y1 = y1; return; } var valueOffset = sums[i], valueTarget = (value / 2) + valueOffset, k = i + 1, hi = j - 1; while (k < hi) { var mid = k + hi >>> 1; if (sums[mid] < valueTarget) k = mid + 1; else hi = mid; } var valueLeft = sums[k] - valueOffset, valueRight = value - valueLeft; if ((y1 - y0) > (x1 - x0)) { var yk = (y0 * valueRight + y1 * valueLeft) / value; partition(i, k, valueLeft, x0, y0, x1, yk); partition(k, j, valueRight, x0, yk, x1, y1); } else { var xk = (x0 * valueRight + x1 * valueLeft) / value; partition(i, k, valueLeft, x0, y0, xk, y1); partition(k, j, valueRight, xk, y0, x1, y1); } } } function sliceDice(parent, x0, y0, x1, y1) { (parent.depth & 1 ? treemapSlice : treemapDice)(parent, x0, y0, x1, y1); } var resquarify = (function custom(ratio) { function resquarify(parent, x0, y0, x1, y1) { if ((rows = parent._squarify) && (rows.ratio === ratio)) { var rows, row, nodes, i, j = -1, n, m = rows.length, value = parent.value; while (++j < m) { row = rows[j], nodes = row.children; for (i = row.value = 0, n = nodes.length; i < n; ++i) row.value += nodes[i].value; if (row.dice) treemapDice(row, x0, y0, x1, y0 += (y1 - y0) * row.value / value); else treemapSlice(row, x0, y0, x0 += (x1 - x0) * row.value / value, y1); value -= row.value; } } else { parent._squarify = rows = squarifyRatio(ratio, parent, x0, y0, x1, y1); rows.ratio = ratio; } } resquarify.ratio = function(x) { return custom((x = +x) > 1 ? x : 1); }; return resquarify; })(phi); function center$1(x, y) { var nodes; if (x == null) x = 0; if (y == null) y = 0; function force() { var i, n = nodes.length, node, sx = 0, sy = 0; for (i = 0; i < n; ++i) { node = nodes[i], sx += node.x, sy += node.y; } for (sx = sx / n - x, sy = sy / n - y, i = 0; i < n; ++i) { node = nodes[i], node.x -= sx, node.y -= sy; } } force.initialize = function(_) { nodes = _; }; force.x = function(_) { return arguments.length ? (x = +_, force) : x; }; force.y = function(_) { return arguments.length ? (y = +_, force) : y; }; return force; } function constant$6(x) { return function() { return x; }; } function jiggle() { return (Math.random() - 0.5) * 1e-6; } function x$1(d) { return d.x + d.vx; } function y$1(d) { return d.y + d.vy; } function collide(radius) { var nodes, radii, strength = 1, iterations = 1; if (typeof radius !== "function") radius = constant$6(radius == null ? 1 : +radius); function force() { var i, n = nodes.length, tree, node, xi, yi, ri, ri2; for (var k = 0; k < iterations; ++k) { tree = quadtree(nodes, x$1, y$1).visitAfter(prepare); for (i = 0; i < n; ++i) { node = nodes[i]; ri = radii[i], ri2 = ri * ri; xi = node.x + node.vx; yi = node.y + node.vy; tree.visit(apply); } } function apply(quad, x0, y0, x1, y1) { var data = quad.data, rj = quad.r, r = ri + rj; if (data) { if (data.index > i) { var x = xi - data.x - data.vx, y = yi - data.y - data.vy, l = x * x + y * y; if (l < r * r) { if (x === 0) x = jiggle(), l += x * x; if (y === 0) y = jiggle(), l += y * y; l = (r - (l = Math.sqrt(l))) / l * strength; node.vx += (x *= l) * (r = (rj *= rj) / (ri2 + rj)); node.vy += (y *= l) * r; data.vx -= x * (r = 1 - r); data.vy -= y * r; } } return; } return x0 > xi + r || x1 < xi - r || y0 > yi + r || y1 < yi - r; } } function prepare(quad) { if (quad.data) return quad.r = radii[quad.data.index]; for (var i = quad.r = 0; i < 4; ++i) { if (quad[i] && quad[i].r > quad.r) { quad.r = quad[i].r; } } } force.initialize = function(_) { var i, n = (nodes = _).length; radii = new Array(n); for (i = 0; i < n; ++i) radii[i] = +radius(nodes[i], i, nodes); }; force.iterations = function(_) { return arguments.length ? (iterations = +_, force) : iterations; }; force.strength = function(_) { return arguments.length ? (strength = +_, force) : strength; }; force.radius = function(_) { return arguments.length ? (radius = typeof _ === "function" ? _ : constant$6(+_), force) : radius; }; return force; } function index$2(d, i) { return i; } function link(links) { var id = index$2, strength = defaultStrength, strengths, distance = constant$6(30), distances, nodes, count, bias, iterations = 1; if (links == null) links = []; function defaultStrength(link) { return 1 / Math.min(count[link.source.index], count[link.target.index]); } function force(alpha) { for (var k = 0, n = links.length; k < iterations; ++k) { for (var i = 0, link, source, target, x, y, l, b; i < n; ++i) { link = links[i], source = link.source, target = link.target; x = target.x + target.vx - source.x - source.vx || jiggle(); y = target.y + target.vy - source.y - source.vy || jiggle(); l = Math.sqrt(x * x + y * y); l = (l - distances[i]) / l * alpha * strengths[i]; x *= l, y *= l; target.vx -= x * (b = bias[i]); target.vy -= y * b; source.vx += x * (b = 1 - b); source.vy += y * b; } } } function initialize() { if (!nodes) return; var i, n = nodes.length, m = links.length, nodeById = map$1(nodes, id), link; for (i = 0, count = new Array(n); i < n; ++i) { count[i] = 0; } for (i = 0; i < m; ++i) { link = links[i], link.index = i; if (typeof link.source !== "object") link.source = nodeById.get(link.source); if (typeof link.target !== "object") link.target = nodeById.get(link.target); ++count[link.source.index], ++count[link.target.index]; } for (i = 0, bias = new Array(m); i < m; ++i) { link = links[i], bias[i] = count[link.source.index] / (count[link.source.index] + count[link.target.index]); } strengths = new Array(m), initializeStrength(); distances = new Array(m), initializeDistance(); } function initializeStrength() { if (!nodes) return; for (var i = 0, n = links.length; i < n; ++i) { strengths[i] = +strength(links[i], i, links); } } function initializeDistance() { if (!nodes) return; for (var i = 0, n = links.length; i < n; ++i) { distances[i] = +distance(links[i], i, links); } } force.initialize = function(_) { nodes = _; initialize(); }; force.links = function(_) { return arguments.length ? (links = _, initialize(), force) : links; }; force.id = function(_) { return arguments.length ? (id = _, force) : id; }; force.iterations = function(_) { return arguments.length ? (iterations = +_, force) : iterations; }; force.strength = function(_) { return arguments.length ? (strength = typeof _ === "function" ? _ : constant$6(+_), initializeStrength(), force) : strength; }; force.distance = function(_) { return arguments.length ? (distance = typeof _ === "function" ? _ : constant$6(+_), initializeDistance(), force) : distance; }; return force; } function x$2(d) { return d.x; } function y$2(d) { return d.y; } var initialRadius = 10; var initialAngle = Math.PI * (3 - Math.sqrt(5)); function simulation(nodes) { var simulation, alpha = 1, alphaMin = 0.001, alphaDecay = 1 - Math.pow(alphaMin, 1 / 300), alphaTarget = 0, velocityDecay = 0.6, forces = map$1(), stepper = timer(step), event = dispatch("tick", "end"); if (nodes == null) nodes = []; function step() { tick(); event.call("tick", simulation); if (alpha < alphaMin) { stepper.stop(); event.call("end", simulation); } } function tick() { var i, n = nodes.length, node; alpha += (alphaTarget - alpha) * alphaDecay; forces.each(function(force) { force(alpha); }); for (i = 0; i < n; ++i) { node = nodes[i]; if (node.fx == null) node.x += node.vx *= velocityDecay; else node.x = node.fx, node.vx = 0; if (node.fy == null) node.y += node.vy *= velocityDecay; else node.y = node.fy, node.vy = 0; } } function initializeNodes() { for (var i = 0, n = nodes.length, node; i < n; ++i) { node = nodes[i], node.index = i; if (isNaN(node.x) || isNaN(node.y)) { var radius = initialRadius * Math.sqrt(i), angle = i * initialAngle; node.x = radius * Math.cos(angle); node.y = radius * Math.sin(angle); } if (isNaN(node.vx) || isNaN(node.vy)) { node.vx = node.vy = 0; } } } function initializeForce(force) { if (force.initialize) force.initialize(nodes); return force; } initializeNodes(); return simulation = { tick: tick, restart: function() { return stepper.restart(step), simulation; }, stop: function() { return stepper.stop(), simulation; }, nodes: function(_) { return arguments.length ? (nodes = _, initializeNodes(), forces.each(initializeForce), simulation) : nodes; }, alpha: function(_) { return arguments.length ? (alpha = +_, simulation) : alpha; }, alphaMin: function(_) { return arguments.length ? (alphaMin = +_, simulation) : alphaMin; }, alphaDecay: function(_) { return arguments.length ? (alphaDecay = +_, simulation) : +alphaDecay; }, alphaTarget: function(_) { return arguments.length ? (alphaTarget = +_, simulation) : alphaTarget; }, velocityDecay: function(_) { return arguments.length ? (velocityDecay = 1 - _, simulation) : 1 - velocityDecay; }, force: function(name, _) { return arguments.length > 1 ? ((_ == null ? forces.remove(name) : forces.set(name, initializeForce(_))), simulation) : forces.get(name); }, find: function(x, y, radius) { var i = 0, n = nodes.length, dx, dy, d2, node, closest; if (radius == null) radius = Infinity; else radius *= radius; for (i = 0; i < n; ++i) { node = nodes[i]; dx = x - node.x; dy = y - node.y; d2 = dx * dx + dy * dy; if (d2 < radius) closest = node, radius = d2; } return closest; }, on: function(name, _) { return arguments.length > 1 ? (event.on(name, _), simulation) : event.on(name); } }; } function manyBody() { var nodes, node, alpha, strength = constant$6(-30), strengths, distanceMin2 = 1, distanceMax2 = Infinity, theta2 = 0.81; function force(_) { var i, n = nodes.length, tree = quadtree(nodes, x$2, y$2).visitAfter(accumulate); for (alpha = _, i = 0; i < n; ++i) node = nodes[i], tree.visit(apply); } function initialize() { if (!nodes) return; var i, n = nodes.length; strengths = new Array(n); for (i = 0; i < n; ++i) strengths[i] = +strength(nodes[i], i, nodes); } function accumulate(quad) { var strength = 0, q, c, x, y, i; // For internal nodes, accumulate forces from child quadrants. if (quad.length) { for (x = y = i = 0; i < 4; ++i) { if ((q = quad[i]) && (c = q.value)) { strength += c, x += c * q.x, y += c * q.y; } } quad.x = x / strength; quad.y = y / strength; } // For leaf nodes, accumulate forces from coincident quadrants. else { q = quad; q.x = q.data.x; q.y = q.data.y; do strength += strengths[q.data.index]; while (q = q.next); } quad.value = strength; } function apply(quad, x1, _, x2) { if (!quad.value) return true; var x = quad.x - node.x, y = quad.y - node.y, w = x2 - x1, l = x * x + y * y; // Apply the Barnes-Hut approximation if possible. // Limit forces for very close nodes; randomize direction if coincident. if (w * w / theta2 < l) { if (l < distanceMax2) { if (x === 0) x = jiggle(), l += x * x; if (y === 0) y = jiggle(), l += y * y; if (l < distanceMin2) l = Math.sqrt(distanceMin2 * l); node.vx += x * quad.value * alpha / l; node.vy += y * quad.value * alpha / l; } return true; } // Otherwise, process points directly. else if (quad.length || l >= distanceMax2) return; // Limit forces for very close nodes; randomize direction if coincident. if (quad.data !== node || quad.next) { if (x === 0) x = jiggle(), l += x * x; if (y === 0) y = jiggle(), l += y * y; if (l < distanceMin2) l = Math.sqrt(distanceMin2 * l); } do if (quad.data !== node) { w = strengths[quad.data.index] * alpha / l; node.vx += x * w; node.vy += y * w; } while (quad = quad.next); } force.initialize = function(_) { nodes = _; initialize(); }; force.strength = function(_) { return arguments.length ? (strength = typeof _ === "function" ? _ : constant$6(+_), initialize(), force) : strength; }; force.distanceMin = function(_) { return arguments.length ? (distanceMin2 = _ * _, force) : Math.sqrt(distanceMin2); }; force.distanceMax = function(_) { return arguments.length ? (distanceMax2 = _ * _, force) : Math.sqrt(distanceMax2); }; force.theta = function(_) { return arguments.length ? (theta2 = _ * _, force) : Math.sqrt(theta2); }; return force; } function x$3(x) { var strength = constant$6(0.1), nodes, strengths, xz; if (typeof x !== "function") x = constant$6(x == null ? 0 : +x); function force(alpha) { for (var i = 0, n = nodes.length, node; i < n; ++i) { node = nodes[i], node.vx += (xz[i] - node.x) * strengths[i] * alpha; } } function initialize() { if (!nodes) return; var i, n = nodes.length; strengths = new Array(n); xz = new Array(n); for (i = 0; i < n; ++i) { strengths[i] = isNaN(xz[i] = +x(nodes[i], i, nodes)) ? 0 : +strength(nodes[i], i, nodes); } } force.initialize = function(_) { nodes = _; initialize(); }; force.strength = function(_) { return arguments.length ? (strength = typeof _ === "function" ? _ : constant$6(+_), initialize(), force) : strength; }; force.x = function(_) { return arguments.length ? (x = typeof _ === "function" ? _ : constant$6(+_), initialize(), force) : x; }; return force; } function y$3(y) { var strength = constant$6(0.1), nodes, strengths, yz; if (typeof y !== "function") y = constant$6(y == null ? 0 : +y); function force(alpha) { for (var i = 0, n = nodes.length, node; i < n; ++i) { node = nodes[i], node.vy += (yz[i] - node.y) * strengths[i] * alpha; } } function initialize() { if (!nodes) return; var i, n = nodes.length; strengths = new Array(n); yz = new Array(n); for (i = 0; i < n; ++i) { strengths[i] = isNaN(yz[i] = +y(nodes[i], i, nodes)) ? 0 : +strength(nodes[i], i, nodes); } } force.initialize = function(_) { nodes = _; initialize(); }; force.strength = function(_) { return arguments.length ? (strength = typeof _ === "function" ? _ : constant$6(+_), initialize(), force) : strength; }; force.y = function(_) { return arguments.length ? (y = typeof _ === "function" ? _ : constant$6(+_), initialize(), force) : y; }; return force; } function nopropagation() { exports.event.stopImmediatePropagation(); } function noevent() { exports.event.preventDefault(); exports.event.stopImmediatePropagation(); } function dragDisable(view) { var root = view.document.documentElement, selection = select(view).on("dragstart.drag", noevent, true); if ("onselectstart" in root) { selection.on("selectstart.drag", noevent, true); } else { root.__noselect = root.style.MozUserSelect; root.style.MozUserSelect = "none"; } } function dragEnable(view, noclick) { var root = view.document.documentElement, selection = select(view).on("dragstart.drag", null); if (noclick) { selection.on("click.drag", noevent, true); setTimeout(function() { selection.on("click.drag", null); }, 0); } if ("onselectstart" in root) { selection.on("selectstart.drag", null); } else { root.style.MozUserSelect = root.__noselect; delete root.__noselect; } } function constant$7(x) { return function() { return x; }; } function DragEvent(target, type, subject, id, active, x, y, dx, dy, dispatch) { this.target = target; this.type = type; this.subject = subject; this.identifier = id; this.active = active; this.x = x; this.y = y; this.dx = dx; this.dy = dy; this._ = dispatch; } DragEvent.prototype.on = function() { var value = this._.on.apply(this._, arguments); return value === this._ ? this : value; }; // Ignore right-click, since that should open the context menu. function defaultFilter() { return !exports.event.button; } function defaultContainer() { return this.parentNode; } function defaultSubject(d) { return d == null ? {x: exports.event.x, y: exports.event.y} : d; } function drag() { var filter = defaultFilter, container = defaultContainer, subject = defaultSubject, gestures = {}, listeners = dispatch("start", "drag", "end"), active = 0, mousemoving, touchending; function drag(selection) { selection .on("mousedown.drag", mousedowned) .on("touchstart.drag", touchstarted) .on("touchmove.drag", touchmoved) .on("touchend.drag touchcancel.drag", touchended) .style("-webkit-tap-highlight-color", "rgba(0,0,0,0)"); } function mousedowned() { if (touchending || !filter.apply(this, arguments)) return; var gesture = beforestart("mouse", container.apply(this, arguments), mouse, this, arguments); if (!gesture) return; select(exports.event.view).on("mousemove.drag", mousemoved, true).on("mouseup.drag", mouseupped, true); dragDisable(exports.event.view); nopropagation(); mousemoving = false; gesture("start"); } function mousemoved() { noevent(); mousemoving = true; gestures.mouse("drag"); } function mouseupped() { select(exports.event.view).on("mousemove.drag mouseup.drag", null); dragEnable(exports.event.view, mousemoving); noevent(); gestures.mouse("end"); } function touchstarted() { if (!filter.apply(this, arguments)) return; var touches = exports.event.changedTouches, c = container.apply(this, arguments), n = touches.length, i, gesture; for (i = 0; i < n; ++i) { if (gesture = beforestart(touches[i].identifier, c, touch, this, arguments)) { nopropagation(); gesture("start"); } } } function touchmoved() { var touches = exports.event.changedTouches, n = touches.length, i, gesture; for (i = 0; i < n; ++i) { if (gesture = gestures[touches[i].identifier]) { noevent(); gesture("drag"); } } } function touchended() { var touches = exports.event.changedTouches, n = touches.length, i, gesture; if (touchending) clearTimeout(touchending); touchending = setTimeout(function() { touchending = null; }, 500); // Ghost clicks are delayed! for (i = 0; i < n; ++i) { if (gesture = gestures[touches[i].identifier]) { nopropagation(); gesture("end"); } } } function beforestart(id, container, point, that, args) { var p = point(container, id), s, dx, dy, sublisteners = listeners.copy(); if (!customEvent(new DragEvent(drag, "beforestart", s, id, active, p[0], p[1], 0, 0, sublisteners), function() { if ((exports.event.subject = s = subject.apply(that, args)) == null) return false; dx = s.x - p[0] || 0; dy = s.y - p[1] || 0; return true; })) return; return function gesture(type) { var p0 = p, n; switch (type) { case "start": gestures[id] = gesture, n = active++; break; case "end": delete gestures[id], --active; // nobreak case "drag": p = point(container, id), n = active; break; } customEvent(new DragEvent(drag, type, s, id, n, p[0] + dx, p[1] + dy, p[0] - p0[0], p[1] - p0[1], sublisteners), sublisteners.apply, sublisteners, [type, that, args]); }; } drag.filter = function(_) { return arguments.length ? (filter = typeof _ === "function" ? _ : constant$7(!!_), drag) : filter; }; drag.container = function(_) { return arguments.length ? (container = typeof _ === "function" ? _ : constant$7(_), drag) : container; }; drag.subject = function(_) { return arguments.length ? (subject = typeof _ === "function" ? _ : constant$7(_), drag) : subject; }; drag.on = function() { var value = listeners.on.apply(listeners, arguments); return value === listeners ? drag : value; }; return drag; } function constant$8(x) { return function() { return x; }; } function x$4(d) { return d[0]; } function y$4(d) { return d[1]; } function RedBlackTree() { this._ = null; // root node } function RedBlackNode(node) { node.U = // parent node node.C = // color - true for red, false for black node.L = // left node node.R = // right node node.P = // previous node node.N = null; // next node } RedBlackTree.prototype = { constructor: RedBlackTree, insert: function(after, node) { var parent, grandpa, uncle; if (after) { node.P = after; node.N = after.N; if (after.N) after.N.P = node; after.N = node; if (after.R) { after = after.R; while (after.L) after = after.L; after.L = node; } else { after.R = node; } parent = after; } else if (this._) { after = RedBlackFirst(this._); node.P = null; node.N = after; after.P = after.L = node; parent = after; } else { node.P = node.N = null; this._ = node; parent = null; } node.L = node.R = null; node.U = parent; node.C = true; after = node; while (parent && parent.C) { grandpa = parent.U; if (parent === grandpa.L) { uncle = grandpa.R; if (uncle && uncle.C) { parent.C = uncle.C = false; grandpa.C = true; after = grandpa; } else { if (after === parent.R) { RedBlackRotateLeft(this, parent); after = parent; parent = after.U; } parent.C = false; grandpa.C = true; RedBlackRotateRight(this, grandpa); } } else { uncle = grandpa.L; if (uncle && uncle.C) { parent.C = uncle.C = false; grandpa.C = true; after = grandpa; } else { if (after === parent.L) { RedBlackRotateRight(this, parent); after = parent; parent = after.U; } parent.C = false; grandpa.C = true; RedBlackRotateLeft(this, grandpa); } } parent = after.U; } this._.C = false; }, remove: function(node) { if (node.N) node.N.P = node.P; if (node.P) node.P.N = node.N; node.N = node.P = null; var parent = node.U, sibling, left = node.L, right = node.R, next, red; if (!left) next = right; else if (!right) next = left; else next = RedBlackFirst(right); if (parent) { if (parent.L === node) parent.L = next; else parent.R = next; } else { this._ = next; } if (left && right) { red = next.C; next.C = node.C; next.L = left; left.U = next; if (next !== right) { parent = next.U; next.U = node.U; node = next.R; parent.L = node; next.R = right; right.U = next; } else { next.U = parent; parent = next; node = next.R; } } else { red = node.C; node = next; } if (node) node.U = parent; if (red) return; if (node && node.C) { node.C = false; return; } do { if (node === this._) break; if (node === parent.L) { sibling = parent.R; if (sibling.C) { sibling.C = false; parent.C = true; RedBlackRotateLeft(this, parent); sibling = parent.R; } if ((sibling.L && sibling.L.C) || (sibling.R && sibling.R.C)) { if (!sibling.R || !sibling.R.C) { sibling.L.C = false; sibling.C = true; RedBlackRotateRight(this, sibling); sibling = parent.R; } sibling.C = parent.C; parent.C = sibling.R.C = false; RedBlackRotateLeft(this, parent); node = this._; break; } } else { sibling = parent.L; if (sibling.C) { sibling.C = false; parent.C = true; RedBlackRotateRight(this, parent); sibling = parent.L; } if ((sibling.L && sibling.L.C) || (sibling.R && sibling.R.C)) { if (!sibling.L || !sibling.L.C) { sibling.R.C = false; sibling.C = true; RedBlackRotateLeft(this, sibling); sibling = parent.L; } sibling.C = parent.C; parent.C = sibling.L.C = false; RedBlackRotateRight(this, parent); node = this._; break; } } sibling.C = true; node = parent; parent = parent.U; } while (!node.C); if (node) node.C = false; } }; function RedBlackRotateLeft(tree, node) { var p = node, q = node.R, parent = p.U; if (parent) { if (parent.L === p) parent.L = q; else parent.R = q; } else { tree._ = q; } q.U = parent; p.U = q; p.R = q.L; if (p.R) p.R.U = p; q.L = p; } function RedBlackRotateRight(tree, node) { var p = node, q = node.L, parent = p.U; if (parent) { if (parent.L === p) parent.L = q; else parent.R = q; } else { tree._ = q; } q.U = parent; p.U = q; p.L = q.R; if (p.L) p.L.U = p; q.R = p; } function RedBlackFirst(node) { while (node.L) node = node.L; return node; } function createEdge(left, right, v0, v1) { var edge = [null, null], index = edges.push(edge) - 1; edge.left = left; edge.right = right; if (v0) setEdgeEnd(edge, left, right, v0); if (v1) setEdgeEnd(edge, right, left, v1); cells[left.index].halfedges.push(index); cells[right.index].halfedges.push(index); return edge; } function createBorderEdge(left, v0, v1) { var edge = [v0, v1]; edge.left = left; return edge; } function setEdgeEnd(edge, left, right, vertex) { if (!edge[0] && !edge[1]) { edge[0] = vertex; edge.left = left; edge.right = right; } else if (edge.left === right) { edge[1] = vertex; } else { edge[0] = vertex; } } // Liang–Barsky line clipping. function clipEdge(edge, x0, y0, x1, y1) { var a = edge[0], b = edge[1], ax = a[0], ay = a[1], bx = b[0], by = b[1], t0 = 0, t1 = 1, dx = bx - ax, dy = by - ay, r; r = x0 - ax; if (!dx && r > 0) return; r /= dx; if (dx < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dx > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = x1 - ax; if (!dx && r < 0) return; r /= dx; if (dx < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dx > 0) { if (r < t0) return; if (r < t1) t1 = r; } r = y0 - ay; if (!dy && r > 0) return; r /= dy; if (dy < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dy > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = y1 - ay; if (!dy && r < 0) return; r /= dy; if (dy < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dy > 0) { if (r < t0) return; if (r < t1) t1 = r; } if (!(t0 > 0) && !(t1 < 1)) return true; // TODO Better check? if (t0 > 0) edge[0] = [ax + t0 * dx, ay + t0 * dy]; if (t1 < 1) edge[1] = [ax + t1 * dx, ay + t1 * dy]; return true; } function connectEdge(edge, x0, y0, x1, y1) { var v1 = edge[1]; if (v1) return true; var v0 = edge[0], left = edge.left, right = edge.right, lx = left[0], ly = left[1], rx = right[0], ry = right[1], fx = (lx + rx) / 2, fy = (ly + ry) / 2, fm, fb; if (ry === ly) { if (fx < x0 || fx >= x1) return; if (lx > rx) { if (!v0) v0 = [fx, y0]; else if (v0[1] >= y1) return; v1 = [fx, y1]; } else { if (!v0) v0 = [fx, y1]; else if (v0[1] < y0) return; v1 = [fx, y0]; } } else { fm = (lx - rx) / (ry - ly); fb = fy - fm * fx; if (fm < -1 || fm > 1) { if (lx > rx) { if (!v0) v0 = [(y0 - fb) / fm, y0]; else if (v0[1] >= y1) return; v1 = [(y1 - fb) / fm, y1]; } else { if (!v0) v0 = [(y1 - fb) / fm, y1]; else if (v0[1] < y0) return; v1 = [(y0 - fb) / fm, y0]; } } else { if (ly < ry) { if (!v0) v0 = [x0, fm * x0 + fb]; else if (v0[0] >= x1) return; v1 = [x1, fm * x1 + fb]; } else { if (!v0) v0 = [x1, fm * x1 + fb]; else if (v0[0] < x0) return; v1 = [x0, fm * x0 + fb]; } } } edge[0] = v0; edge[1] = v1; return true; } function clipEdges(x0, y0, x1, y1) { var i = edges.length, edge; while (i--) { if (!connectEdge(edge = edges[i], x0, y0, x1, y1) || !clipEdge(edge, x0, y0, x1, y1) || !(Math.abs(edge[0][0] - edge[1][0]) > epsilon$3 || Math.abs(edge[0][1] - edge[1][1]) > epsilon$3)) { delete edges[i]; } } } function createCell(site) { return cells[site.index] = { site: site, halfedges: [] }; } function cellHalfedgeAngle(cell, edge) { var site = cell.site, va = edge.left, vb = edge.right; if (site === vb) vb = va, va = site; if (vb) return Math.atan2(vb[1] - va[1], vb[0] - va[0]); if (site === va) va = edge[1], vb = edge[0]; else va = edge[0], vb = edge[1]; return Math.atan2(va[0] - vb[0], vb[1] - va[1]); } function cellHalfedgeStart(cell, edge) { return edge[+(edge.left !== cell.site)]; } function cellHalfedgeEnd(cell, edge) { return edge[+(edge.left === cell.site)]; } function sortCellHalfedges() { for (var i = 0, n = cells.length, cell, halfedges, j, m; i < n; ++i) { if ((cell = cells[i]) && (m = (halfedges = cell.halfedges).length)) { var index = new Array(m), array = new Array(m); for (j = 0; j < m; ++j) index[j] = j, array[j] = cellHalfedgeAngle(cell, edges[halfedges[j]]); index.sort(function(i, j) { return array[j] - array[i]; }); for (j = 0; j < m; ++j) array[j] = halfedges[index[j]]; for (j = 0; j < m; ++j) halfedges[j] = array[j]; } } } function clipCells(x0, y0, x1, y1) { var nCells = cells.length, iCell, cell, site, iHalfedge, halfedges, nHalfedges, start, startX, startY, end, endX, endY, cover = true; for (iCell = 0; iCell < nCells; ++iCell) { if (cell = cells[iCell]) { site = cell.site; halfedges = cell.halfedges; iHalfedge = halfedges.length; // Remove any dangling clipped edges. while (iHalfedge--) { if (!edges[halfedges[iHalfedge]]) { halfedges.splice(iHalfedge, 1); } } // Insert any border edges as necessary. iHalfedge = 0, nHalfedges = halfedges.length; while (iHalfedge < nHalfedges) { end = cellHalfedgeEnd(cell, edges[halfedges[iHalfedge]]), endX = end[0], endY = end[1]; start = cellHalfedgeStart(cell, edges[halfedges[++iHalfedge % nHalfedges]]), startX = start[0], startY = start[1]; if (Math.abs(endX - startX) > epsilon$3 || Math.abs(endY - startY) > epsilon$3) { halfedges.splice(iHalfedge, 0, edges.push(createBorderEdge(site, end, Math.abs(endX - x0) < epsilon$3 && y1 - endY > epsilon$3 ? [x0, Math.abs(startX - x0) < epsilon$3 ? startY : y1] : Math.abs(endY - y1) < epsilon$3 && x1 - endX > epsilon$3 ? [Math.abs(startY - y1) < epsilon$3 ? startX : x1, y1] : Math.abs(endX - x1) < epsilon$3 && endY - y0 > epsilon$3 ? [x1, Math.abs(startX - x1) < epsilon$3 ? startY : y0] : Math.abs(endY - y0) < epsilon$3 && endX - x0 > epsilon$3 ? [Math.abs(startY - y0) < epsilon$3 ? startX : x0, y0] : null)) - 1); ++nHalfedges; } } if (nHalfedges) cover = false; } } // If there weren’t any edges, have the closest site cover the extent. // It doesn’t matter which corner of the extent we measure! if (cover) { var dx, dy, d2, dc = Infinity; for (iCell = 0, cover = null; iCell < nCells; ++iCell) { if (cell = cells[iCell]) { site = cell.site; dx = site[0] - x0; dy = site[1] - y0; d2 = dx * dx + dy * dy; if (d2 < dc) dc = d2, cover = cell; } } if (cover) { var v00 = [x0, y0], v01 = [x0, y1], v11 = [x1, y1], v10 = [x1, y0]; cover.halfedges.push( edges.push(createBorderEdge(site = cover.site, v00, v01)) - 1, edges.push(createBorderEdge(site, v01, v11)) - 1, edges.push(createBorderEdge(site, v11, v10)) - 1, edges.push(createBorderEdge(site, v10, v00)) - 1 ); } } // Lastly delete any cells with no edges; these were entirely clipped. for (iCell = 0; iCell < nCells; ++iCell) { if (cell = cells[iCell]) { if (!cell.halfedges.length) { delete cells[iCell]; } } } } var circlePool = []; var firstCircle; function Circle() { RedBlackNode(this); this.x = this.y = this.arc = this.site = this.cy = null; } function attachCircle(arc) { var lArc = arc.P, rArc = arc.N; if (!lArc || !rArc) return; var lSite = lArc.site, cSite = arc.site, rSite = rArc.site; if (lSite === rSite) return; var bx = cSite[0], by = cSite[1], ax = lSite[0] - bx, ay = lSite[1] - by, cx = rSite[0] - bx, cy = rSite[1] - by; var d = 2 * (ax * cy - ay * cx); if (d >= -epsilon2$1) return; var ha = ax * ax + ay * ay, hc = cx * cx + cy * cy, x = (cy * ha - ay * hc) / d, y = (ax * hc - cx * ha) / d; var circle = circlePool.pop() || new Circle; circle.arc = arc; circle.site = cSite; circle.x = x + bx; circle.y = (circle.cy = y + by) + Math.sqrt(x * x + y * y); // y bottom arc.circle = circle; var before = null, node = circles._; while (node) { if (circle.y < node.y || (circle.y === node.y && circle.x <= node.x)) { if (node.L) node = node.L; else { before = node.P; break; } } else { if (node.R) node = node.R; else { before = node; break; } } } circles.insert(before, circle); if (!before) firstCircle = circle; } function detachCircle(arc) { var circle = arc.circle; if (circle) { if (!circle.P) firstCircle = circle.N; circles.remove(circle); circlePool.push(circle); RedBlackNode(circle); arc.circle = null; } } var beachPool = []; function Beach() { RedBlackNode(this); this.edge = this.site = this.circle = null; } function createBeach(site) { var beach = beachPool.pop() || new Beach; beach.site = site; return beach; } function detachBeach(beach) { detachCircle(beach); beaches.remove(beach); beachPool.push(beach); RedBlackNode(beach); } function removeBeach(beach) { var circle = beach.circle, x = circle.x, y = circle.cy, vertex = [x, y], previous = beach.P, next = beach.N, disappearing = [beach]; detachBeach(beach); var lArc = previous; while (lArc.circle && Math.abs(x - lArc.circle.x) < epsilon$3 && Math.abs(y - lArc.circle.cy) < epsilon$3) { previous = lArc.P; disappearing.unshift(lArc); detachBeach(lArc); lArc = previous; } disappearing.unshift(lArc); detachCircle(lArc); var rArc = next; while (rArc.circle && Math.abs(x - rArc.circle.x) < epsilon$3 && Math.abs(y - rArc.circle.cy) < epsilon$3) { next = rArc.N; disappearing.push(rArc); detachBeach(rArc); rArc = next; } disappearing.push(rArc); detachCircle(rArc); var nArcs = disappearing.length, iArc; for (iArc = 1; iArc < nArcs; ++iArc) { rArc = disappearing[iArc]; lArc = disappearing[iArc - 1]; setEdgeEnd(rArc.edge, lArc.site, rArc.site, vertex); } lArc = disappearing[0]; rArc = disappearing[nArcs - 1]; rArc.edge = createEdge(lArc.site, rArc.site, null, vertex); attachCircle(lArc); attachCircle(rArc); } function addBeach(site) { var x = site[0], directrix = site[1], lArc, rArc, dxl, dxr, node = beaches._; while (node) { dxl = leftBreakPoint(node, directrix) - x; if (dxl > epsilon$3) node = node.L; else { dxr = x - rightBreakPoint(node, directrix); if (dxr > epsilon$3) { if (!node.R) { lArc = node; break; } node = node.R; } else { if (dxl > -epsilon$3) { lArc = node.P; rArc = node; } else if (dxr > -epsilon$3) { lArc = node; rArc = node.N; } else { lArc = rArc = node; } break; } } } createCell(site); var newArc = createBeach(site); beaches.insert(lArc, newArc); if (!lArc && !rArc) return; if (lArc === rArc) { detachCircle(lArc); rArc = createBeach(lArc.site); beaches.insert(newArc, rArc); newArc.edge = rArc.edge = createEdge(lArc.site, newArc.site); attachCircle(lArc); attachCircle(rArc); return; } if (!rArc) { // && lArc newArc.edge = createEdge(lArc.site, newArc.site); return; } // else lArc !== rArc detachCircle(lArc); detachCircle(rArc); var lSite = lArc.site, ax = lSite[0], ay = lSite[1], bx = site[0] - ax, by = site[1] - ay, rSite = rArc.site, cx = rSite[0] - ax, cy = rSite[1] - ay, d = 2 * (bx * cy - by * cx), hb = bx * bx + by * by, hc = cx * cx + cy * cy, vertex = [(cy * hb - by * hc) / d + ax, (bx * hc - cx * hb) / d + ay]; setEdgeEnd(rArc.edge, lSite, rSite, vertex); newArc.edge = createEdge(lSite, site, null, vertex); rArc.edge = createEdge(site, rSite, null, vertex); attachCircle(lArc); attachCircle(rArc); } function leftBreakPoint(arc, directrix) { var site = arc.site, rfocx = site[0], rfocy = site[1], pby2 = rfocy - directrix; if (!pby2) return rfocx; var lArc = arc.P; if (!lArc) return -Infinity; site = lArc.site; var lfocx = site[0], lfocy = site[1], plby2 = lfocy - directrix; if (!plby2) return lfocx; var hl = lfocx - rfocx, aby2 = 1 / pby2 - 1 / plby2, b = hl / plby2; if (aby2) return (-b + Math.sqrt(b * b - 2 * aby2 * (hl * hl / (-2 * plby2) - lfocy + plby2 / 2 + rfocy - pby2 / 2))) / aby2 + rfocx; return (rfocx + lfocx) / 2; } function rightBreakPoint(arc, directrix) { var rArc = arc.N; if (rArc) return leftBreakPoint(rArc, directrix); var site = arc.site; return site[1] === directrix ? site[0] : Infinity; } var epsilon$3 = 1e-6; var epsilon2$1 = 1e-12; var beaches; var cells; var circles; var edges; function triangleArea(a, b, c) { return (a[0] - c[0]) * (b[1] - a[1]) - (a[0] - b[0]) * (c[1] - a[1]); } function lexicographic(a, b) { return b[1] - a[1] || b[0] - a[0]; } function Diagram(sites, extent) { var site = sites.sort(lexicographic).pop(), x, y, circle; edges = []; cells = new Array(sites.length); beaches = new RedBlackTree; circles = new RedBlackTree; while (true) { circle = firstCircle; if (site && (!circle || site[1] < circle.y || (site[1] === circle.y && site[0] < circle.x))) { if (site[0] !== x || site[1] !== y) { addBeach(site); x = site[0], y = site[1]; } site = sites.pop(); } else if (circle) { removeBeach(circle.arc); } else { break; } } sortCellHalfedges(); if (extent) { var x0 = +extent[0][0], y0 = +extent[0][1], x1 = +extent[1][0], y1 = +extent[1][1]; clipEdges(x0, y0, x1, y1); clipCells(x0, y0, x1, y1); } this.edges = edges; this.cells = cells; beaches = circles = edges = cells = null; } Diagram.prototype = { constructor: Diagram, polygons: function() { var edges = this.edges; return this.cells.map(function(cell) { var polygon = cell.halfedges.map(function(i) { return cellHalfedgeStart(cell, edges[i]); }); polygon.data = cell.site.data; return polygon; }); }, triangles: function() { var triangles = [], edges = this.edges; this.cells.forEach(function(cell, i) { var site = cell.site, halfedges = cell.halfedges, j = -1, m = halfedges.length, s0, e1 = edges[halfedges[m - 1]], s1 = e1.left === site ? e1.right : e1.left; while (++j < m) { s0 = s1; e1 = edges[halfedges[j]]; s1 = e1.left === site ? e1.right : e1.left; if (i < s0.index && i < s1.index && triangleArea(site, s0, s1) < 0) { triangles.push([site.data, s0.data, s1.data]); } } }); return triangles; }, links: function() { return this.edges.filter(function(edge) { return edge.right; }).map(function(edge) { return { source: edge.left.data, target: edge.right.data }; }); } } function voronoi() { var x = x$4, y = y$4, extent = null; function voronoi(data) { return new Diagram(data.map(function(d, i) { var s = [Math.round(x(d, i, data) / epsilon$3) * epsilon$3, Math.round(y(d, i, data) / epsilon$3) * epsilon$3]; s.index = i; s.data = d; return s; }), extent); } voronoi.polygons = function(data) { return voronoi(data).polygons(); }; voronoi.links = function(data) { return voronoi(data).links(); }; voronoi.triangles = function(data) { return voronoi(data).triangles(); }; voronoi.x = function(_) { return arguments.length ? (x = typeof _ === "function" ? _ : constant$8(+_), voronoi) : x; }; voronoi.y = function(_) { return arguments.length ? (y = typeof _ === "function" ? _ : constant$8(+_), voronoi) : y; }; voronoi.extent = function(_) { return arguments.length ? (extent = _ == null ? null : [[+_[0][0], +_[0][1]], [+_[1][0], +_[1][1]]], voronoi) : extent && [[extent[0][0], extent[0][1]], [extent[1][0], extent[1][1]]]; }; voronoi.size = function(_) { return arguments.length ? (extent = _ == null ? null : [[0, 0], [+_[0], +_[1]]], voronoi) : extent && [extent[1][0] - extent[0][0], extent[1][1] - extent[0][1]]; }; return voronoi; } function constant$9(x) { return function() { return x; }; } function ZoomEvent(target, type, transform) { this.target = target; this.type = type; this.transform = transform; } function Transform(k, x, y) { this.k = k; this.x = x; this.y = y; } Transform.prototype = { constructor: Transform, scale: function(k) { return k === 1 ? this : new Transform(this.k * k, this.x, this.y); }, translate: function(x, y) { return x === 0 & y === 0 ? this : new Transform(this.k, this.x + this.k * x, this.y + this.k * y); }, apply: function(point) { return [point[0] * this.k + this.x, point[1] * this.k + this.y]; }, applyX: function(x) { return x * this.k + this.x; }, applyY: function(y) { return y * this.k + this.y; }, invert: function(location) { return [(location[0] - this.x) / this.k, (location[1] - this.y) / this.k]; }, invertX: function(x) { return (x - this.x) / this.k; }, invertY: function(y) { return (y - this.y) / this.k; }, rescaleX: function(x) { return x.copy().domain(x.range().map(this.invertX, this).map(x.invert, x)); }, rescaleY: function(y) { return y.copy().domain(y.range().map(this.invertY, this).map(y.invert, y)); }, toString: function() { return "translate(" + this.x + "," + this.y + ") scale(" + this.k + ")"; } }; var identity$6 = new Transform(1, 0, 0); transform.prototype = Transform.prototype; function transform(node) { return node.__zoom || identity$6; } function nopropagation$1() { exports.event.stopImmediatePropagation(); } function noevent$1() { exports.event.preventDefault(); exports.event.stopImmediatePropagation(); } // Ignore right-click, since that should open the context menu. function defaultFilter$1() { return !exports.event.button; } function defaultExtent() { var e = this, w, h; if (e instanceof SVGElement) { e = e.ownerSVGElement || e; w = e.width.baseVal.value; h = e.height.baseVal.value; } else { w = e.clientWidth; h = e.clientHeight; } return [[0, 0], [w, h]]; } function defaultTransform() { return this.__zoom || identity$6; } function zoom() { var filter = defaultFilter$1, extent = defaultExtent, k0 = 0, k1 = Infinity, x0 = -k1, x1 = k1, y0 = x0, y1 = x1, duration = 250, gestures = [], listeners = dispatch("start", "zoom", "end"), touchstarting, touchending, touchDelay = 500, wheelDelay = 150; function zoom(selection) { selection .on("wheel.zoom", wheeled) .on("mousedown.zoom", mousedowned) .on("dblclick.zoom", dblclicked) .on("touchstart.zoom", touchstarted) .on("touchmove.zoom", touchmoved) .on("touchend.zoom touchcancel.zoom", touchended) .style("-webkit-tap-highlight-color", "rgba(0,0,0,0)") .property("__zoom", defaultTransform); } zoom.transform = function(collection, transform) { var selection = collection.selection ? collection.selection() : collection; selection.property("__zoom", defaultTransform); if (collection !== selection) { schedule(collection, transform); } else { selection.interrupt().each(function() { gesture(this, arguments) .start() .zoom(null, typeof transform === "function" ? transform.apply(this, arguments) : transform) .end(); }); } }; zoom.scaleBy = function(selection, k) { zoom.scaleTo(selection, function() { var k0 = this.__zoom.k, k1 = typeof k === "function" ? k.apply(this, arguments) : k; return k0 * k1; }); }; zoom.scaleTo = function(selection, k) { zoom.transform(selection, function() { var e = extent.apply(this, arguments), t0 = this.__zoom, p0 = centroid(e), p1 = t0.invert(p0), k1 = typeof k === "function" ? k.apply(this, arguments) : k; return constrain(translate(scale(t0, k1), p0, p1), e); }); }; zoom.translateBy = function(selection, x, y) { zoom.transform(selection, function() { return constrain(this.__zoom.translate( typeof x === "function" ? x.apply(this, arguments) : x, typeof y === "function" ? y.apply(this, arguments) : y ), extent.apply(this, arguments)); }); }; function scale(transform, k) { k = Math.max(k0, Math.min(k1, k)); return k === transform.k ? transform : new Transform(k, transform.x, transform.y); } function translate(transform, p0, p1) { var x = p0[0] - p1[0] * transform.k, y = p0[1] - p1[1] * transform.k; return x === transform.x && y === transform.y ? transform : new Transform(transform.k, x, y); } function constrain(transform, extent) { var dx = Math.min(0, transform.invertX(extent[0][0]) - x0) || Math.max(0, transform.invertX(extent[1][0]) - x1), dy = Math.min(0, transform.invertY(extent[0][1]) - y0) || Math.max(0, transform.invertY(extent[1][1]) - y1); return dx || dy ? transform.translate(dx, dy) : transform; } function centroid(extent) { return [(+extent[0][0] + +extent[1][0]) / 2, (+extent[0][1] + +extent[1][1]) / 2]; } function schedule(transition, transform, center) { transition .on("start.zoom", function() { gesture(this, arguments).start(); }) .on("interrupt.zoom end.zoom", function() { gesture(this, arguments).end(); }) .tween("zoom", function() { var that = this, args = arguments, g = gesture(that, args), e = extent.apply(that, args), p = center || centroid(e), w = Math.max(e[1][0] - e[0][0], e[1][1] - e[0][1]), a = that.__zoom, b = typeof transform === "function" ? transform.apply(that, args) : transform, i = interpolateZoom(a.invert(p).concat(w / a.k), b.invert(p).concat(w / b.k)); return function(t) { if (t === 1) t = b; // Avoid rounding error on end. else { var l = i(t), k = w / l[2]; t = new Transform(k, p[0] - l[0] * k, p[1] - l[1] * k); } g.zoom(null, t); }; }); } function gesture(that, args) { for (var i = 0, n = gestures.length, g; i < n; ++i) { if ((g = gestures[i]).that === that) { return g; } } return new Gesture(that, args); } function Gesture(that, args) { this.that = that; this.args = args; this.index = -1; this.active = 0; this.extent = extent.apply(that, args); } Gesture.prototype = { start: function() { if (++this.active === 1) { this.index = gestures.push(this) - 1; this.emit("start"); } return this; }, zoom: function(key, transform) { if (this.mouse && key !== "mouse") this.mouse[1] = transform.invert(this.mouse[0]); if (this.touch0 && key !== "touch") this.touch0[1] = transform.invert(this.touch0[0]); if (this.touch1 && key !== "touch") this.touch1[1] = transform.invert(this.touch1[0]); this.that.__zoom = transform; this.emit("zoom"); return this; }, end: function() { if (--this.active === 0) { gestures.splice(this.index, 1); this.index = -1; this.emit("end"); } return this; }, emit: function(type) { customEvent(new ZoomEvent(zoom, type, this.that.__zoom), listeners.apply, listeners, [type, this.that, this.args]); } }; function wheeled() { if (!filter.apply(this, arguments)) return; var g = gesture(this, arguments), t = this.__zoom, k = Math.max(k0, Math.min(k1, t.k * Math.pow(2, -exports.event.deltaY * (exports.event.deltaMode ? 120 : 1) / 500))), p = mouse(this); // If the mouse is in the same location as before, reuse it. // If there were recent wheel events, reset the wheel idle timeout. if (g.wheel) { if (g.mouse[0][0] !== p[0] || g.mouse[0][1] !== p[1]) { g.mouse[1] = t.invert(g.mouse[0] = p); } clearTimeout(g.wheel); } // If this wheel event won’t trigger a transform change, ignore it. else if (t.k === k) return; // Otherwise, capture the mouse point and location at the start. else { g.mouse = [p, t.invert(p)]; interrupt(this); g.start(); } noevent$1(); g.wheel = setTimeout(wheelidled, wheelDelay); g.zoom("mouse", constrain(translate(scale(t, k), g.mouse[0], g.mouse[1]), g.extent)); function wheelidled() { g.wheel = null; g.end(); } } function mousedowned() { if (touchending || !filter.apply(this, arguments)) return; var g = gesture(this, arguments), v = select(exports.event.view).on("mousemove.zoom", mousemoved, true).on("mouseup.zoom", mouseupped, true), p = mouse(this); dragDisable(exports.event.view); nopropagation$1(); g.mouse = [p, this.__zoom.invert(p)]; interrupt(this); g.start(); function mousemoved() { noevent$1(); g.moved = true; g.zoom("mouse", constrain(translate(g.that.__zoom, g.mouse[0] = mouse(g.that), g.mouse[1]), g.extent)); } function mouseupped() { v.on("mousemove.zoom mouseup.zoom", null); dragEnable(exports.event.view, g.moved); noevent$1(); g.end(); } } function dblclicked() { if (!filter.apply(this, arguments)) return; var t0 = this.__zoom, p0 = mouse(this), p1 = t0.invert(p0), k1 = t0.k * (exports.event.shiftKey ? 0.5 : 2), t1 = constrain(translate(scale(t0, k1), p0, p1), extent.apply(this, arguments)); noevent$1(); if (duration > 0) select(this).transition().duration(duration).call(schedule, t1, p0); else select(this).call(zoom.transform, t1); } function touchstarted() { if (!filter.apply(this, arguments)) return; var g = gesture(this, arguments), touches = exports.event.changedTouches, n = touches.length, i, t, p; nopropagation$1(); for (i = 0; i < n; ++i) { t = touches[i], p = touch(this, touches, t.identifier); p = [p, this.__zoom.invert(p), t.identifier]; if (!g.touch0) g.touch0 = p; else if (!g.touch1) g.touch1 = p; } if (touchstarting) { touchstarting = clearTimeout(touchstarting); if (!g.touch1) return g.end(), dblclicked.apply(this, arguments); } if (exports.event.touches.length === n) { touchstarting = setTimeout(function() { touchstarting = null; }, touchDelay); interrupt(this); g.start(); } } function touchmoved() { var g = gesture(this, arguments), touches = exports.event.changedTouches, n = touches.length, i, t, p, l; noevent$1(); if (touchstarting) touchstarting = clearTimeout(touchstarting); for (i = 0; i < n; ++i) { t = touches[i], p = touch(this, touches, t.identifier); if (g.touch0 && g.touch0[2] === t.identifier) g.touch0[0] = p; else if (g.touch1 && g.touch1[2] === t.identifier) g.touch1[0] = p; } t = g.that.__zoom; if (g.touch1) { var p0 = g.touch0[0], l0 = g.touch0[1], p1 = g.touch1[0], l1 = g.touch1[1], dp = (dp = p1[0] - p0[0]) * dp + (dp = p1[1] - p0[1]) * dp, dl = (dl = l1[0] - l0[0]) * dl + (dl = l1[1] - l0[1]) * dl; t = scale(t, Math.sqrt(dp / dl)); p = [(p0[0] + p1[0]) / 2, (p0[1] + p1[1]) / 2]; l = [(l0[0] + l1[0]) / 2, (l0[1] + l1[1]) / 2]; } else if (g.touch0) p = g.touch0[0], l = g.touch0[1]; else return; g.zoom("touch", constrain(translate(t, p, l), g.extent)); } function touchended() { var g = gesture(this, arguments), touches = exports.event.changedTouches, n = touches.length, i, t; nopropagation$1(); if (touchending) clearTimeout(touchending); touchending = setTimeout(function() { touchending = null; }, touchDelay); for (i = 0; i < n; ++i) { t = touches[i]; if (g.touch0 && g.touch0[2] === t.identifier) delete g.touch0; else if (g.touch1 && g.touch1[2] === t.identifier) delete g.touch1; } if (g.touch1 && !g.touch0) g.touch0 = g.touch1, delete g.touch1; if (!g.touch0) g.end(); } zoom.filter = function(_) { return arguments.length ? (filter = typeof _ === "function" ? _ : constant$9(!!_), zoom) : filter; }; zoom.extent = function(_) { return arguments.length ? (extent = typeof _ === "function" ? _ : constant$9([[+_[0][0], +_[0][1]], [+_[1][0], +_[1][1]]]), zoom) : extent; }; zoom.scaleExtent = function(_) { return arguments.length ? (k0 = +_[0], k1 = +_[1], zoom) : [k0, k1]; }; zoom.translateExtent = function(_) { return arguments.length ? (x0 = +_[0][0], x1 = +_[1][0], y0 = +_[0][1], y1 = +_[1][1], zoom) : [[x0, y0], [x1, y1]]; }; zoom.duration = function(_) { return arguments.length ? (duration = +_, zoom) : duration; }; zoom.on = function() { var value = listeners.on.apply(listeners, arguments); return value === listeners ? zoom : value; }; return zoom; } function constant$10(x) { return function() { return x; }; } function BrushEvent(target, type, selection) { this.target = target; this.type = type; this.selection = selection; } function nopropagation$2() { exports.event.stopImmediatePropagation(); } function noevent$2() { exports.event.preventDefault(); exports.event.stopImmediatePropagation(); } var MODE_DRAG = {name: "drag"}; var MODE_SPACE = {name: "space"}; var MODE_HANDLE = {name: "handle"}; var MODE_CENTER = {name: "center"}; var X = { name: "x", handles: ["e", "w"].map(type$1), input: function(x, e) { return x && [[x[0], e[0][1]], [x[1], e[1][1]]]; }, output: function(xy) { return xy && [xy[0][0], xy[1][0]]; } }; var Y = { name: "y", handles: ["n", "s"].map(type$1), input: function(y, e) { return y && [[e[0][0], y[0]], [e[1][0], y[1]]]; }, output: function(xy) { return xy && [xy[0][1], xy[1][1]]; } }; var XY = { name: "xy", handles: ["n", "e", "s", "w", "nw", "ne", "se", "sw"].map(type$1), input: function(xy) { return xy; }, output: function(xy) { return xy; } }; var cursors = { overlay: "crosshair", selection: "move", n: "ns-resize", e: "ew-resize", s: "ns-resize", w: "ew-resize", nw: "nwse-resize", ne: "nesw-resize", se: "nwse-resize", sw: "nesw-resize" }; var flipX = { e: "w", w: "e", nw: "ne", ne: "nw", se: "sw", sw: "se" }; var flipY = { n: "s", s: "n", nw: "sw", ne: "se", se: "ne", sw: "nw" }; var signsX = { overlay: +1, selection: +1, n: null, e: +1, s: null, w: -1, nw: -1, ne: +1, se: +1, sw: -1 }; var signsY = { overlay: +1, selection: +1, n: -1, e: null, s: +1, w: null, nw: -1, ne: -1, se: +1, sw: +1 }; function type$1(t) { return {type: t}; } // Ignore right-click, since that should open the context menu. function defaultFilter$2() { return !exports.event.button; } function defaultExtent$1() { var svg = this.ownerSVGElement || this; return [[0, 0], [svg.width.baseVal.value, svg.height.baseVal.value]]; } // Like d3.local, but with the name “__brush” rather than auto-generated. function local$1(node) { while (!node.__brush) if (!(node = node.parentNode)) return; return node.__brush; } function empty$1(extent) { return extent[0][0] === extent[1][0] || extent[0][1] === extent[1][1]; } function brushSelection(node) { var state = node.__brush; return state ? state.dim.output(state.selection) : null; } function brushX() { return brush$1(X); } function brushY() { return brush$1(Y); } function brush() { return brush$1(XY); } function brush$1(dim) { var extent = defaultExtent$1, filter = defaultFilter$2, listeners = dispatch(brush, "start", "brush", "end"), handleSize = 6, touchending; function brush(group) { var overlay = group .property("__brush", initialize) .selectAll(".overlay") .data([type$1("overlay")]); overlay.enter().append("rect") .attr("class", "overlay") .attr("pointer-events", "all") .attr("cursor", cursors.overlay) .merge(overlay) .each(function() { var extent = local$1(this).extent; select(this) .attr("x", extent[0][0]) .attr("y", extent[0][1]) .attr("width", extent[1][0] - extent[0][0]) .attr("height", extent[1][1] - extent[0][1]); }); group.selectAll(".selection") .data([type$1("selection")]) .enter().append("rect") .attr("class", "selection") .attr("cursor", cursors.selection) .attr("fill", "#777") .attr("fill-opacity", 0.3) .attr("stroke", "#fff") .attr("shape-rendering", "crispEdges"); var handle = group.selectAll(".handle") .data(dim.handles, function(d) { return d.type; }); handle.exit().remove(); handle.enter().append("rect") .attr("class", function(d) { return "handle handle--" + d.type; }) .attr("cursor", function(d) { return cursors[d.type]; }); group .each(redraw) .attr("fill", "none") .attr("pointer-events", "all") .style("-webkit-tap-highlight-color", "rgba(0,0,0,0)") .on("mousedown.brush touchstart.brush", started); } brush.move = function(group, selection) { if (group.selection) { group .on("start.brush", function() { emitter(this, arguments).beforestart().start(); }) .on("interrupt.brush end.brush", function() { emitter(this, arguments).end(); }) .tween("brush", function() { var that = this, state = that.__brush, emit = emitter(that, arguments), selection0 = state.selection, selection1 = dim.input(typeof selection === "function" ? selection.apply(this, arguments) : selection, state.extent), i = interpolate(selection0, selection1); function tween(t) { state.selection = t === 1 && empty$1(selection1) ? null : i(t); redraw.call(that); emit.brush(); } return selection0 && selection1 ? tween : tween(1); }); } else { group .each(function() { var that = this, args = arguments, state = that.__brush, selection1 = dim.input(typeof selection === "function" ? selection.apply(that, args) : selection, state.extent), emit = emitter(that, args).beforestart(); interrupt(that); state.selection = selection1 == null || empty$1(selection1) ? null : selection1; redraw.call(that); emit.start().brush().end(); }); } }; function redraw() { var group = select(this), selection = local$1(this).selection; if (selection) { group.selectAll(".selection") .style("display", null) .attr("x", selection[0][0]) .attr("y", selection[0][1]) .attr("width", selection[1][0] - selection[0][0]) .attr("height", selection[1][1] - selection[0][1]); group.selectAll(".handle") .style("display", null) .attr("x", function(d) { return d.type[d.type.length - 1] === "e" ? selection[1][0] - handleSize / 2 : selection[0][0] - handleSize / 2; }) .attr("y", function(d) { return d.type[0] === "s" ? selection[1][1] - handleSize / 2 : selection[0][1] - handleSize / 2; }) .attr("width", function(d) { return d.type === "n" || d.type === "s" ? selection[1][0] - selection[0][0] + handleSize : handleSize; }) .attr("height", function(d) { return d.type === "e" || d.type === "w" ? selection[1][1] - selection[0][1] + handleSize : handleSize; }); } else { group.selectAll(".selection,.handle") .style("display", "none") .attr("x", null) .attr("y", null) .attr("width", null) .attr("height", null); } } function emitter(that, args) { return that.__brush.emitter || new Emitter(that, args); } function Emitter(that, args) { this.that = that; this.args = args; this.state = that.__brush; this.active = 0; } Emitter.prototype = { beforestart: function() { if (++this.active === 1) this.state.emitter = this, this.starting = true; return this; }, start: function() { if (this.starting) this.starting = false, this.emit("start"); return this; }, brush: function() { this.emit("brush"); return this; }, end: function() { if (--this.active === 0) delete this.state.emitter, this.emit("end"); return this; }, emit: function(type) { customEvent(new BrushEvent(brush, type, dim.output(this.state.selection)), listeners.apply, listeners, [type, this.that, this.args]); } }; function started() { if (exports.event.touches) { if (exports.event.changedTouches.length < exports.event.touches.length) return noevent$2(); } else if (touchending) return; if (!filter.apply(this, arguments)) return; var that = this, type = exports.event.target.__data__.type, mode = (exports.event.metaKey ? type = "overlay" : type) === "selection" ? MODE_DRAG : (exports.event.altKey ? MODE_CENTER : MODE_HANDLE), signX = dim === Y ? null : signsX[type], signY = dim === X ? null : signsY[type], state = local$1(that), extent = state.extent, selection = state.selection, W = extent[0][0], w0, w1, N = extent[0][1], n0, n1, E = extent[1][0], e0, e1, S = extent[1][1], s0, s1, dx, dy, moving, shifting = signX && signY && exports.event.shiftKey, lockX, lockY, point0 = mouse(that), point = point0, emit = emitter(that, arguments).beforestart(); if (type === "overlay") { state.selection = selection = [ [w0 = dim === Y ? W : point0[0], n0 = dim === X ? N : point0[1]], [e0 = dim === Y ? E : w0, s0 = dim === X ? S : n0] ]; } else { w0 = selection[0][0]; n0 = selection[0][1]; e0 = selection[1][0]; s0 = selection[1][1]; } w1 = w0; n1 = n0; e1 = e0; s1 = s0; var group = select(that) .attr("pointer-events", "none"); var overlay = group.selectAll(".overlay") .attr("cursor", cursors[type]); if (exports.event.touches) { group .on("touchmove.brush", moved, true) .on("touchend.brush touchcancel.brush", ended, true); } else { var view = select(exports.event.view) .on("keydown.brush", keydowned, true) .on("keyup.brush", keyupped, true) .on("mousemove.brush", moved, true) .on("mouseup.brush", ended, true); dragDisable(exports.event.view); } nopropagation$2(); interrupt(that); redraw.call(that); emit.start(); function moved() { var point1 = mouse(that); if (shifting && !lockX && !lockY) { if (Math.abs(point1[0] - point[0]) > Math.abs(point1[1] - point[1])) lockY = true; else lockX = true; } point = point1; moving = true; noevent$2(); move(); } function move() { var t; dx = point[0] - point0[0]; dy = point[1] - point0[1]; switch (mode) { case MODE_SPACE: case MODE_DRAG: { if (signX) dx = Math.max(W - w0, Math.min(E - e0, dx)), w1 = w0 + dx, e1 = e0 + dx; if (signY) dy = Math.max(N - n0, Math.min(S - s0, dy)), n1 = n0 + dy, s1 = s0 + dy; break; } case MODE_HANDLE: { if (signX < 0) dx = Math.max(W - w0, Math.min(E - w0, dx)), w1 = w0 + dx, e1 = e0; else if (signX > 0) dx = Math.max(W - e0, Math.min(E - e0, dx)), w1 = w0, e1 = e0 + dx; if (signY < 0) dy = Math.max(N - n0, Math.min(S - n0, dy)), n1 = n0 + dy, s1 = s0; else if (signY > 0) dy = Math.max(N - s0, Math.min(S - s0, dy)), n1 = n0, s1 = s0 + dy; break; } case MODE_CENTER: { if (signX) w1 = Math.max(W, Math.min(E, w0 - dx * signX)), e1 = Math.max(W, Math.min(E, e0 + dx * signX)); if (signY) n1 = Math.max(N, Math.min(S, n0 - dy * signY)), s1 = Math.max(N, Math.min(S, s0 + dy * signY)); break; } } if (e1 < w1) { signX *= -1; t = w0, w0 = e0, e0 = t; t = w1, w1 = e1, e1 = t; if (type in flipX) overlay.attr("cursor", cursors[type = flipX[type]]); } if (s1 < n1) { signY *= -1; t = n0, n0 = s0, s0 = t; t = n1, n1 = s1, s1 = t; if (type in flipY) overlay.attr("cursor", cursors[type = flipY[type]]); } selection = state.selection; // May be set by brush.move! if (lockX) w1 = selection[0][0], e1 = selection[1][0]; if (lockY) n1 = selection[0][1], s1 = selection[1][1]; if (selection[0][0] !== w1 || selection[0][1] !== n1 || selection[1][0] !== e1 || selection[1][1] !== s1) { state.selection = [[w1, n1], [e1, s1]]; redraw.call(that); emit.brush(); } } function ended() { nopropagation$2(); if (exports.event.touches) { if (exports.event.touches.length) return; if (touchending) clearTimeout(touchending); touchending = setTimeout(function() { touchending = null; }, 500); // Ghost clicks are delayed! group.on("touchmove.brush touchend.brush touchcancel.brush", null); } else { dragEnable(exports.event.view, moving); view.on("keydown.brush keyup.brush mousemove.brush mouseup.brush", null); } group.attr("pointer-events", "all"); overlay.attr("cursor", cursors.overlay); if (empty$1(selection)) state.selection = null, redraw.call(that); emit.end(); } function keydowned() { switch (exports.event.keyCode) { case 16: { // SHIFT shifting = signX && signY; break; } case 18: { // ALT if (mode === MODE_HANDLE) { if (signX) e0 = e1 - dx * signX, w0 = w1 + dx * signX; if (signY) s0 = s1 - dy * signY, n0 = n1 + dy * signY; mode = MODE_CENTER; move(); } break; } case 32: { // SPACE; takes priority over ALT if (mode === MODE_HANDLE || mode === MODE_CENTER) { if (signX < 0) e0 = e1 - dx; else if (signX > 0) w0 = w1 - dx; if (signY < 0) s0 = s1 - dy; else if (signY > 0) n0 = n1 - dy; mode = MODE_SPACE; overlay.attr("cursor", cursors.selection); move(); } break; } default: return; } noevent$2(); } function keyupped() { switch (exports.event.keyCode) { case 16: { // SHIFT if (shifting) { lockX = lockY = shifting = false; move(); } break; } case 18: { // ALT if (mode === MODE_CENTER) { if (signX < 0) e0 = e1; else if (signX > 0) w0 = w1; if (signY < 0) s0 = s1; else if (signY > 0) n0 = n1; mode = MODE_HANDLE; move(); } break; } case 32: { // SPACE if (mode === MODE_SPACE) { if (exports.event.altKey) { if (signX) e0 = e1 - dx * signX, w0 = w1 + dx * signX; if (signY) s0 = s1 - dy * signY, n0 = n1 + dy * signY; mode = MODE_CENTER; } else { if (signX < 0) e0 = e1; else if (signX > 0) w0 = w1; if (signY < 0) s0 = s1; else if (signY > 0) n0 = n1; mode = MODE_HANDLE; } overlay.attr("cursor", cursors[type]); move(); } break; } default: return; } noevent$2(); } } function initialize() { var state = this.__brush || {selection: null}; state.extent = extent.apply(this, arguments); state.dim = dim; return state; } brush.extent = function(_) { return arguments.length ? (extent = typeof _ === "function" ? _ : constant$10([[+_[0][0], +_[0][1]], [+_[1][0], +_[1][1]]]), brush) : extent; }; brush.filter = function(_) { return arguments.length ? (filter = typeof _ === "function" ? _ : constant$10(!!_), brush) : filter; }; brush.handleSize = function(_) { return arguments.length ? (handleSize = +_, brush) : handleSize; }; brush.on = function() { var value = listeners.on.apply(listeners, arguments); return value === listeners ? brush : value; }; return brush; } var cos = Math.cos; var sin = Math.sin; var pi$3 = Math.PI; var halfPi$2 = pi$3 / 2; var tau$3 = pi$3 * 2; var max$1 = Math.max; function compareValue(compare) { return function(a, b) { return compare( a.source.value + a.target.value, b.source.value + b.target.value ); }; } function chord() { var padAngle = 0, sortGroups = null, sortSubgroups = null, sortChords = null; function chord(matrix) { var n = matrix.length, groupSums = [], groupIndex = range(n), subgroupIndex = [], chords = [], groups = chords.groups = new Array(n), subgroups = new Array(n * n), k, x, x0, dx, i, j; // Compute the sum. k = 0, i = -1; while (++i < n) { x = 0, j = -1; while (++j < n) { x += matrix[i][j]; } groupSums.push(x); subgroupIndex.push(range(n)); k += x; } // Sort groups… if (sortGroups) groupIndex.sort(function(a, b) { return sortGroups(groupSums[a], groupSums[b]); }); // Sort subgroups… if (sortSubgroups) subgroupIndex.forEach(function(d, i) { d.sort(function(a, b) { return sortSubgroups(matrix[i][a], matrix[i][b]); }); }); // Convert the sum to scaling factor for [0, 2pi]. // TODO Allow start and end angle to be specified? // TODO Allow padding to be specified as percentage? k = max$1(0, tau$3 - padAngle * n) / k; dx = k ? padAngle : tau$3 / n; // Compute the start and end angle for each group and subgroup. // Note: Opera has a bug reordering object literal properties! x = 0, i = -1; while (++i < n) { x0 = x, j = -1; while (++j < n) { var di = groupIndex[i], dj = subgroupIndex[di][j], v = matrix[di][dj], a0 = x, a1 = x += v * k; subgroups[dj * n + di] = { index: di, subindex: dj, startAngle: a0, endAngle: a1, value: v }; } groups[di] = { index: di, startAngle: x0, endAngle: x, value: groupSums[di] }; x += dx; } // Generate chords for each (non-empty) subgroup-subgroup link. i = -1; while (++i < n) { j = i - 1; while (++j < n) { var source = subgroups[j * n + i], target = subgroups[i * n + j]; if (source.value || target.value) { chords.push(source.value < target.value ? {source: target, target: source} : {source: source, target: target}); } } } return sortChords ? chords.sort(sortChords) : chords; } chord.padAngle = function(_) { return arguments.length ? (padAngle = max$1(0, _), chord) : padAngle; }; chord.sortGroups = function(_) { return arguments.length ? (sortGroups = _, chord) : sortGroups; }; chord.sortSubgroups = function(_) { return arguments.length ? (sortSubgroups = _, chord) : sortSubgroups; }; chord.sortChords = function(_) { return arguments.length ? (_ == null ? sortChords = null : (sortChords = compareValue(_))._ = _, chord) : sortChords && sortChords._; }; return chord; } var slice$5 = Array.prototype.slice; function constant$11(x) { return function() { return x; }; } function defaultSource(d) { return d.source; } function defaultTarget(d) { return d.target; } function defaultRadius$1(d) { return d.radius; } function defaultStartAngle(d) { return d.startAngle; } function defaultEndAngle(d) { return d.endAngle; } function ribbon() { var source = defaultSource, target = defaultTarget, radius = defaultRadius$1, startAngle = defaultStartAngle, endAngle = defaultEndAngle, context = null; function ribbon() { var buffer, argv = slice$5.call(arguments), s = source.apply(this, argv), t = target.apply(this, argv), sr = +radius.apply(this, (argv[0] = s, argv)), sa0 = startAngle.apply(this, argv) - halfPi$2, sa1 = endAngle.apply(this, argv) - halfPi$2, sx0 = sr * cos(sa0), sy0 = sr * sin(sa0), tr = +radius.apply(this, (argv[0] = t, argv)), ta0 = startAngle.apply(this, argv) - halfPi$2, ta1 = endAngle.apply(this, argv) - halfPi$2; if (!context) context = buffer = path(); context.moveTo(sx0, sy0); context.arc(0, 0, sr, sa0, sa1); if (sa0 !== ta0 || sa1 !== ta1) { // TODO sr !== tr? context.quadraticCurveTo(0, 0, tr * cos(ta0), tr * sin(ta0)); context.arc(0, 0, tr, ta0, ta1); } context.quadraticCurveTo(0, 0, sx0, sy0); context.closePath(); if (buffer) return context = null, buffer + "" || null; } ribbon.radius = function(_) { return arguments.length ? (radius = typeof _ === "function" ? _ : constant$11(+_), ribbon) : radius; }; ribbon.startAngle = function(_) { return arguments.length ? (startAngle = typeof _ === "function" ? _ : constant$11(+_), ribbon) : startAngle; }; ribbon.endAngle = function(_) { return arguments.length ? (endAngle = typeof _ === "function" ? _ : constant$11(+_), ribbon) : endAngle; }; ribbon.source = function(_) { return arguments.length ? (source = _, ribbon) : source; }; ribbon.target = function(_) { return arguments.length ? (target = _, ribbon) : target; }; ribbon.context = function(_) { return arguments.length ? ((context = _ == null ? null : _), ribbon) : context; }; return ribbon; } // Adds floating point numbers with twice the normal precision. // Reference: J. R. Shewchuk, Adaptive Precision Floating-Point Arithmetic and // Fast Robust Geometric Predicates, Discrete & Computational Geometry 18(3) // 305–363 (1997). // Code adapted from GeographicLib by Charles F. F. Karney, // http://geographiclib.sourceforge.net/ function adder() { return new Adder; } function Adder() { this.reset(); } Adder.prototype = { constructor: Adder, reset: function() { this.s = // rounded value this.t = 0; // exact error }, add: function(y) { add$1(temp, y, this.t); add$1(this, temp.s, this.s); if (this.s) this.t += temp.t; else this.s = temp.t; }, valueOf: function() { return this.s; } }; var temp = new Adder; function add$1(adder, a, b) { var x = adder.s = a + b, bv = x - a, av = x - bv; adder.t = (a - av) + (b - bv); } var epsilon$4 = 1e-6; var epsilon2$2 = 1e-12; var pi$4 = Math.PI; var halfPi$3 = pi$4 / 2; var quarterPi = pi$4 / 4; var tau$4 = pi$4 * 2; var degrees$1 = 180 / pi$4; var radians = pi$4 / 180; var abs = Math.abs; var atan = Math.atan; var atan2 = Math.atan2; var cos$1 = Math.cos; var ceil = Math.ceil; var exp = Math.exp; var log$1 = Math.log; var pow$1 = Math.pow; var sin$1 = Math.sin; var sign$1 = Math.sign || function(x) { return x > 0 ? 1 : x < 0 ? -1 : 0; }; var sqrt$1 = Math.sqrt; var tan = Math.tan; function acos(x) { return x > 1 ? 0 : x < -1 ? pi$4 : Math.acos(x); } function asin$1(x) { return x > 1 ? halfPi$3 : x < -1 ? -halfPi$3 : Math.asin(x); } function haversin(x) { return (x = sin$1(x / 2)) * x; } function noop$2() {} function streamGeometry(geometry, stream) { if (geometry && streamGeometryType.hasOwnProperty(geometry.type)) { streamGeometryType[geometry.type](geometry, stream); } } var streamObjectType = { Feature: function(feature, stream) { streamGeometry(feature.geometry, stream); }, FeatureCollection: function(object, stream) { var features = object.features, i = -1, n = features.length; while (++i < n) streamGeometry(features[i].geometry, stream); } }; var streamGeometryType = { Sphere: function(object, stream) { stream.sphere(); }, Point: function(object, stream) { object = object.coordinates; stream.point(object[0], object[1], object[2]); }, MultiPoint: function(object, stream) { var coordinates = object.coordinates, i = -1, n = coordinates.length; while (++i < n) object = coordinates[i], stream.point(object[0], object[1], object[2]); }, LineString: function(object, stream) { streamLine(object.coordinates, stream, 0); }, MultiLineString: function(object, stream) { var coordinates = object.coordinates, i = -1, n = coordinates.length; while (++i < n) streamLine(coordinates[i], stream, 0); }, Polygon: function(object, stream) { streamPolygon(object.coordinates, stream); }, MultiPolygon: function(object, stream) { var coordinates = object.coordinates, i = -1, n = coordinates.length; while (++i < n) streamPolygon(coordinates[i], stream); }, GeometryCollection: function(object, stream) { var geometries = object.geometries, i = -1, n = geometries.length; while (++i < n) streamGeometry(geometries[i], stream); } }; function streamLine(coordinates, stream, closed) { var i = -1, n = coordinates.length - closed, coordinate; stream.lineStart(); while (++i < n) coordinate = coordinates[i], stream.point(coordinate[0], coordinate[1], coordinate[2]); stream.lineEnd(); } function streamPolygon(coordinates, stream) { var i = -1, n = coordinates.length; stream.polygonStart(); while (++i < n) streamLine(coordinates[i], stream, 1); stream.polygonEnd(); } function geoStream(object, stream) { if (object && streamObjectType.hasOwnProperty(object.type)) { streamObjectType[object.type](object, stream); } else { streamGeometry(object, stream); } } var areaRingSum = adder(); var areaSum = adder(); var lambda00; var phi00; var lambda0; var cosPhi0; var sinPhi0; var areaStream = { point: noop$2, lineStart: noop$2, lineEnd: noop$2, polygonStart: function() { areaRingSum.reset(); areaStream.lineStart = areaRingStart; areaStream.lineEnd = areaRingEnd; }, polygonEnd: function() { var areaRing = +areaRingSum; areaSum.add(areaRing < 0 ? tau$4 + areaRing : areaRing); this.lineStart = this.lineEnd = this.point = noop$2; }, sphere: function() { areaSum.add(tau$4); } }; function areaRingStart() { areaStream.point = areaPointFirst; } function areaRingEnd() { areaPoint(lambda00, phi00); } function areaPointFirst(lambda, phi) { areaStream.point = areaPoint; lambda00 = lambda, phi00 = phi; lambda *= radians, phi *= radians; lambda0 = lambda, cosPhi0 = cos$1(phi = phi / 2 + quarterPi), sinPhi0 = sin$1(phi); } function areaPoint(lambda, phi) { lambda *= radians, phi *= radians; phi = phi / 2 + quarterPi; // half the angular distance from south pole // Spherical excess E for a spherical triangle with vertices: south pole, // previous point, current point. Uses a formula derived from Cagnoli’s // theorem. See Todhunter, Spherical Trig. (1871), Sec. 103, Eq. (2). var dLambda = lambda - lambda0, sdLambda = dLambda >= 0 ? 1 : -1, adLambda = sdLambda * dLambda, cosPhi = cos$1(phi), sinPhi = sin$1(phi), k = sinPhi0 * sinPhi, u = cosPhi0 * cosPhi + k * cos$1(adLambda), v = k * sdLambda * sin$1(adLambda); areaRingSum.add(atan2(v, u)); // Advance the previous points. lambda0 = lambda, cosPhi0 = cosPhi, sinPhi0 = sinPhi; } function area$2(object) { areaSum.reset(); geoStream(object, areaStream); return areaSum * 2; } function spherical(cartesian) { return [atan2(cartesian[1], cartesian[0]), asin$1(cartesian[2])]; } function cartesian(spherical) { var lambda = spherical[0], phi = spherical[1], cosPhi = cos$1(phi); return [cosPhi * cos$1(lambda), cosPhi * sin$1(lambda), sin$1(phi)]; } function cartesianDot(a, b) { return a[0] * b[0] + a[1] * b[1] + a[2] * b[2]; } function cartesianCross(a, b) { return [a[1] * b[2] - a[2] * b[1], a[2] * b[0] - a[0] * b[2], a[0] * b[1] - a[1] * b[0]]; } // TODO return a function cartesianAddInPlace(a, b) { a[0] += b[0], a[1] += b[1], a[2] += b[2]; } function cartesianScale(vector, k) { return [vector[0] * k, vector[1] * k, vector[2] * k]; } // TODO return d function cartesianNormalizeInPlace(d) { var l = sqrt$1(d[0] * d[0] + d[1] * d[1] + d[2] * d[2]); d[0] /= l, d[1] /= l, d[2] /= l; } var lambda0$1; var phi0; var lambda1; var phi1; var lambda2; var lambda00$1; var phi00$1; var p0; var deltaSum = adder(); var ranges; var range$1; var boundsStream = { point: boundsPoint, lineStart: boundsLineStart, lineEnd: boundsLineEnd, polygonStart: function() { boundsStream.point = boundsRingPoint; boundsStream.lineStart = boundsRingStart; boundsStream.lineEnd = boundsRingEnd; deltaSum.reset(); areaStream.polygonStart(); }, polygonEnd: function() { areaStream.polygonEnd(); boundsStream.point = boundsPoint; boundsStream.lineStart = boundsLineStart; boundsStream.lineEnd = boundsLineEnd; if (areaRingSum < 0) lambda0$1 = -(lambda1 = 180), phi0 = -(phi1 = 90); else if (deltaSum > epsilon$4) phi1 = 90; else if (deltaSum < -epsilon$4) phi0 = -90; range$1[0] = lambda0$1, range$1[1] = lambda1; } }; function boundsPoint(lambda, phi) { ranges.push(range$1 = [lambda0$1 = lambda, lambda1 = lambda]); if (phi < phi0) phi0 = phi; if (phi > phi1) phi1 = phi; } function linePoint(lambda, phi) { var p = cartesian([lambda * radians, phi * radians]); if (p0) { var normal = cartesianCross(p0, p), equatorial = [normal[1], -normal[0], 0], inflection = cartesianCross(equatorial, normal); cartesianNormalizeInPlace(inflection); inflection = spherical(inflection); var delta = lambda - lambda2, sign = delta > 0 ? 1 : -1, lambdai = inflection[0] * degrees$1 * sign, phii, antimeridian = abs(delta) > 180; if (antimeridian ^ (sign * lambda2 < lambdai && lambdai < sign * lambda)) { phii = inflection[1] * degrees$1; if (phii > phi1) phi1 = phii; } else if (lambdai = (lambdai + 360) % 360 - 180, antimeridian ^ (sign * lambda2 < lambdai && lambdai < sign * lambda)) { phii = -inflection[1] * degrees$1; if (phii < phi0) phi0 = phii; } else { if (phi < phi0) phi0 = phi; if (phi > phi1) phi1 = phi; } if (antimeridian) { if (lambda < lambda2) { if (angle(lambda0$1, lambda) > angle(lambda0$1, lambda1)) lambda1 = lambda; } else { if (angle(lambda, lambda1) > angle(lambda0$1, lambda1)) lambda0$1 = lambda; } } else { if (lambda1 >= lambda0$1) { if (lambda < lambda0$1) lambda0$1 = lambda; if (lambda > lambda1) lambda1 = lambda; } else { if (lambda > lambda2) { if (angle(lambda0$1, lambda) > angle(lambda0$1, lambda1)) lambda1 = lambda; } else { if (angle(lambda, lambda1) > angle(lambda0$1, lambda1)) lambda0$1 = lambda; } } } } else { boundsPoint(lambda, phi); } p0 = p, lambda2 = lambda; } function boundsLineStart() { boundsStream.point = linePoint; } function boundsLineEnd() { range$1[0] = lambda0$1, range$1[1] = lambda1; boundsStream.point = boundsPoint; p0 = null; } function boundsRingPoint(lambda, phi) { if (p0) { var delta = lambda - lambda2; deltaSum.add(abs(delta) > 180 ? delta + (delta > 0 ? 360 : -360) : delta); } else { lambda00$1 = lambda, phi00$1 = phi; } areaStream.point(lambda, phi); linePoint(lambda, phi); } function boundsRingStart() { areaStream.lineStart(); } function boundsRingEnd() { boundsRingPoint(lambda00$1, phi00$1); areaStream.lineEnd(); if (abs(deltaSum) > epsilon$4) lambda0$1 = -(lambda1 = 180); range$1[0] = lambda0$1, range$1[1] = lambda1; p0 = null; } // Finds the left-right distance between two longitudes. // This is almost the same as (lambda1 - lambda0 + 360°) % 360°, except that we want // the distance between ±180° to be 360°. function angle(lambda0, lambda1) { return (lambda1 -= lambda0) < 0 ? lambda1 + 360 : lambda1; } function rangeCompare(a, b) { return a[0] - b[0]; } function rangeContains(range, x) { return range[0] <= range[1] ? range[0] <= x && x <= range[1] : x < range[0] || range[1] < x; } function bounds(feature) { var i, n, a, b, merged, deltaMax, delta; phi1 = lambda1 = -(lambda0$1 = phi0 = Infinity); ranges = []; geoStream(feature, boundsStream); // First, sort ranges by their minimum longitudes. if (n = ranges.length) { ranges.sort(rangeCompare); // Then, merge any ranges that overlap. for (i = 1, a = ranges[0], merged = [a]; i < n; ++i) { b = ranges[i]; if (rangeContains(a, b[0]) || rangeContains(a, b[1])) { if (angle(a[0], b[1]) > angle(a[0], a[1])) a[1] = b[1]; if (angle(b[0], a[1]) > angle(a[0], a[1])) a[0] = b[0]; } else { merged.push(a = b); } } // Finally, find the largest gap between the merged ranges. // The final bounding box will be the inverse of this gap. for (deltaMax = -Infinity, n = merged.length - 1, i = 0, a = merged[n]; i <= n; a = b, ++i) { b = merged[i]; if ((delta = angle(a[1], b[0])) > deltaMax) deltaMax = delta, lambda0$1 = b[0], lambda1 = a[1]; } } ranges = range$1 = null; return lambda0$1 === Infinity || phi0 === Infinity ? [[NaN, NaN], [NaN, NaN]] : [[lambda0$1, phi0], [lambda1, phi1]]; } var W0; var W1; var X0; var Y0; var Z0; var X1; var Y1; var Z1; var X2; var Y2; var Z2; var lambda00$2; var phi00$2; var x0; var y0; var z0; // previous point var centroidStream = { sphere: noop$2, point: centroidPoint, lineStart: centroidLineStart, lineEnd: centroidLineEnd, polygonStart: function() { centroidStream.lineStart = centroidRingStart; centroidStream.lineEnd = centroidRingEnd; }, polygonEnd: function() { centroidStream.lineStart = centroidLineStart; centroidStream.lineEnd = centroidLineEnd; } }; // Arithmetic mean of Cartesian vectors. function centroidPoint(lambda, phi) { lambda *= radians, phi *= radians; var cosPhi = cos$1(phi); centroidPointCartesian(cosPhi * cos$1(lambda), cosPhi * sin$1(lambda), sin$1(phi)); } function centroidPointCartesian(x, y, z) { ++W0; X0 += (x - X0) / W0; Y0 += (y - Y0) / W0; Z0 += (z - Z0) / W0; } function centroidLineStart() { centroidStream.point = centroidLinePointFirst; } function centroidLinePointFirst(lambda, phi) { lambda *= radians, phi *= radians; var cosPhi = cos$1(phi); x0 = cosPhi * cos$1(lambda); y0 = cosPhi * sin$1(lambda); z0 = sin$1(phi); centroidStream.point = centroidLinePoint; centroidPointCartesian(x0, y0, z0); } function centroidLinePoint(lambda, phi) { lambda *= radians, phi *= radians; var cosPhi = cos$1(phi), x = cosPhi * cos$1(lambda), y = cosPhi * sin$1(lambda), z = sin$1(phi), w = atan2(sqrt$1((w = y0 * z - z0 * y) * w + (w = z0 * x - x0 * z) * w + (w = x0 * y - y0 * x) * w), x0 * x + y0 * y + z0 * z); W1 += w; X1 += w * (x0 + (x0 = x)); Y1 += w * (y0 + (y0 = y)); Z1 += w * (z0 + (z0 = z)); centroidPointCartesian(x0, y0, z0); } function centroidLineEnd() { centroidStream.point = centroidPoint; } // See J. E. Brock, The Inertia Tensor for a Spherical Triangle, // J. Applied Mechanics 42, 239 (1975). function centroidRingStart() { centroidStream.point = centroidRingPointFirst; } function centroidRingEnd() { centroidRingPoint(lambda00$2, phi00$2); centroidStream.point = centroidPoint; } function centroidRingPointFirst(lambda, phi) { lambda00$2 = lambda, phi00$2 = phi; lambda *= radians, phi *= radians; centroidStream.point = centroidRingPoint; var cosPhi = cos$1(phi); x0 = cosPhi * cos$1(lambda); y0 = cosPhi * sin$1(lambda); z0 = sin$1(phi); centroidPointCartesian(x0, y0, z0); } function centroidRingPoint(lambda, phi) { lambda *= radians, phi *= radians; var cosPhi = cos$1(phi), x = cosPhi * cos$1(lambda), y = cosPhi * sin$1(lambda), z = sin$1(phi), cx = y0 * z - z0 * y, cy = z0 * x - x0 * z, cz = x0 * y - y0 * x, m = sqrt$1(cx * cx + cy * cy + cz * cz), u = x0 * x + y0 * y + z0 * z, v = m && -acos(u) / m, // area weight w = atan2(m, u); // line weight X2 += v * cx; Y2 += v * cy; Z2 += v * cz; W1 += w; X1 += w * (x0 + (x0 = x)); Y1 += w * (y0 + (y0 = y)); Z1 += w * (z0 + (z0 = z)); centroidPointCartesian(x0, y0, z0); } function centroid$1(object) { W0 = W1 = X0 = Y0 = Z0 = X1 = Y1 = Z1 = X2 = Y2 = Z2 = 0; geoStream(object, centroidStream); var x = X2, y = Y2, z = Z2, m = x * x + y * y + z * z; // If the area-weighted ccentroid is undefined, fall back to length-weighted ccentroid. if (m < epsilon2$2) { x = X1, y = Y1, z = Z1; // If the feature has zero length, fall back to arithmetic mean of point vectors. if (W1 < epsilon$4) x = X0, y = Y0, z = Z0; m = x * x + y * y + z * z; // If the feature still has an undefined ccentroid, then return. if (m < epsilon2$2) return [NaN, NaN]; } return [atan2(y, x) * degrees$1, asin$1(z / sqrt$1(m)) * degrees$1]; } function constant$12(x) { return function() { return x; }; } function compose(a, b) { function compose(x, y) { return x = a(x, y), b(x[0], x[1]); } if (a.invert && b.invert) compose.invert = function(x, y) { return x = b.invert(x, y), x && a.invert(x[0], x[1]); }; return compose; } function rotationIdentity(lambda, phi) { return [lambda > pi$4 ? lambda - tau$4 : lambda < -pi$4 ? lambda + tau$4 : lambda, phi]; } rotationIdentity.invert = rotationIdentity; function rotateRadians(deltaLambda, deltaPhi, deltaGamma) { return (deltaLambda %= tau$4) ? (deltaPhi || deltaGamma ? compose(rotationLambda(deltaLambda), rotationPhiGamma(deltaPhi, deltaGamma)) : rotationLambda(deltaLambda)) : (deltaPhi || deltaGamma ? rotationPhiGamma(deltaPhi, deltaGamma) : rotationIdentity); } function forwardRotationLambda(deltaLambda) { return function(lambda, phi) { return lambda += deltaLambda, [lambda > pi$4 ? lambda - tau$4 : lambda < -pi$4 ? lambda + tau$4 : lambda, phi]; }; } function rotationLambda(deltaLambda) { var rotation = forwardRotationLambda(deltaLambda); rotation.invert = forwardRotationLambda(-deltaLambda); return rotation; } function rotationPhiGamma(deltaPhi, deltaGamma) { var cosDeltaPhi = cos$1(deltaPhi), sinDeltaPhi = sin$1(deltaPhi), cosDeltaGamma = cos$1(deltaGamma), sinDeltaGamma = sin$1(deltaGamma); function rotation(lambda, phi) { var cosPhi = cos$1(phi), x = cos$1(lambda) * cosPhi, y = sin$1(lambda) * cosPhi, z = sin$1(phi), k = z * cosDeltaPhi + x * sinDeltaPhi; return [ atan2(y * cosDeltaGamma - k * sinDeltaGamma, x * cosDeltaPhi - z * sinDeltaPhi), asin$1(k * cosDeltaGamma + y * sinDeltaGamma) ]; } rotation.invert = function(lambda, phi) { var cosPhi = cos$1(phi), x = cos$1(lambda) * cosPhi, y = sin$1(lambda) * cosPhi, z = sin$1(phi), k = z * cosDeltaGamma - y * sinDeltaGamma; return [ atan2(y * cosDeltaGamma + z * sinDeltaGamma, x * cosDeltaPhi + k * sinDeltaPhi), asin$1(k * cosDeltaPhi - x * sinDeltaPhi) ]; }; return rotation; } function rotation(rotate) { rotate = rotateRadians(rotate[0] * radians, rotate[1] * radians, rotate.length > 2 ? rotate[2] * radians : 0); function forward(coordinates) { coordinates = rotate(coordinates[0] * radians, coordinates[1] * radians); return coordinates[0] *= degrees$1, coordinates[1] *= degrees$1, coordinates; } forward.invert = function(coordinates) { coordinates = rotate.invert(coordinates[0] * radians, coordinates[1] * radians); return coordinates[0] *= degrees$1, coordinates[1] *= degrees$1, coordinates; }; return forward; } // Generates a circle centered at [0°, 0°], with a given radius and precision. function circleStream(stream, radius, delta, direction, t0, t1) { if (!delta) return; var cosRadius = cos$1(radius), sinRadius = sin$1(radius), step = direction * delta; if (t0 == null) { t0 = radius + direction * tau$4; t1 = radius - step / 2; } else { t0 = circleRadius(cosRadius, t0); t1 = circleRadius(cosRadius, t1); if (direction > 0 ? t0 < t1 : t0 > t1) t0 += direction * tau$4; } for (var point, t = t0; direction > 0 ? t > t1 : t < t1; t -= step) { point = spherical([cosRadius, -sinRadius * cos$1(t), -sinRadius * sin$1(t)]); stream.point(point[0], point[1]); } } // Returns the signed angle of a cartesian point relative to [cosRadius, 0, 0]. function circleRadius(cosRadius, point) { point = cartesian(point), point[0] -= cosRadius; cartesianNormalizeInPlace(point); var radius = acos(-point[1]); return ((-point[2] < 0 ? -radius : radius) + tau$4 - epsilon$4) % tau$4; } function circle$1() { var center = constant$12([0, 0]), radius = constant$12(90), precision = constant$12(6), ring, rotate, stream = {point: point}; function point(x, y) { ring.push(x = rotate(x, y)); x[0] *= degrees$1, x[1] *= degrees$1; } function circle() { var c = center.apply(this, arguments), r = radius.apply(this, arguments) * radians, p = precision.apply(this, arguments) * radians; ring = []; rotate = rotateRadians(-c[0] * radians, -c[1] * radians, 0).invert; circleStream(stream, r, p, 1); c = {type: "Polygon", coordinates: [ring]}; ring = rotate = null; return c; } circle.center = function(_) { return arguments.length ? (center = typeof _ === "function" ? _ : constant$12([+_[0], +_[1]]), circle) : center; }; circle.radius = function(_) { return arguments.length ? (radius = typeof _ === "function" ? _ : constant$12(+_), circle) : radius; }; circle.precision = function(_) { return arguments.length ? (precision = typeof _ === "function" ? _ : constant$12(+_), circle) : precision; }; return circle; } function clipBuffer() { var lines = [], line; return { point: function(x, y) { line.push([x, y]); }, lineStart: function() { lines.push(line = []); }, lineEnd: noop$2, rejoin: function() { if (lines.length > 1) lines.push(lines.pop().concat(lines.shift())); }, result: function() { var result = lines; lines = []; line = null; return result; } }; } function clipLine(a, b, x0, y0, x1, y1) { var ax = a[0], ay = a[1], bx = b[0], by = b[1], t0 = 0, t1 = 1, dx = bx - ax, dy = by - ay, r; r = x0 - ax; if (!dx && r > 0) return; r /= dx; if (dx < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dx > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = x1 - ax; if (!dx && r < 0) return; r /= dx; if (dx < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dx > 0) { if (r < t0) return; if (r < t1) t1 = r; } r = y0 - ay; if (!dy && r > 0) return; r /= dy; if (dy < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dy > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = y1 - ay; if (!dy && r < 0) return; r /= dy; if (dy < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dy > 0) { if (r < t0) return; if (r < t1) t1 = r; } if (t0 > 0) a[0] = ax + t0 * dx, a[1] = ay + t0 * dy; if (t1 < 1) b[0] = ax + t1 * dx, b[1] = ay + t1 * dy; return true; } function pointEqual(a, b) { return abs(a[0] - b[0]) < epsilon$4 && abs(a[1] - b[1]) < epsilon$4; } function Intersection(point, points, other, entry) { this.x = point; this.z = points; this.o = other; // another intersection this.e = entry; // is an entry? this.v = false; // visited this.n = this.p = null; // next & previous } // A generalized polygon clipping algorithm: given a polygon that has been cut // into its visible line segments, and rejoins the segments by interpolating // along the clip edge. function clipPolygon(segments, compareIntersection, startInside, interpolate, stream) { var subject = [], clip = [], i, n; segments.forEach(function(segment) { if ((n = segment.length - 1) <= 0) return; var n, p0 = segment[0], p1 = segment[n], x; // If the first and last points of a segment are coincident, then treat as a // closed ring. TODO if all rings are closed, then the winding order of the // exterior ring should be checked. if (pointEqual(p0, p1)) { stream.lineStart(); for (i = 0; i < n; ++i) stream.point((p0 = segment[i])[0], p0[1]); stream.lineEnd(); return; } subject.push(x = new Intersection(p0, segment, null, true)); clip.push(x.o = new Intersection(p0, null, x, false)); subject.push(x = new Intersection(p1, segment, null, false)); clip.push(x.o = new Intersection(p1, null, x, true)); }); if (!subject.length) return; clip.sort(compareIntersection); link$1(subject); link$1(clip); for (i = 0, n = clip.length; i < n; ++i) { clip[i].e = startInside = !startInside; } var start = subject[0], points, point; while (1) { // Find first unvisited intersection. var current = start, isSubject = true; while (current.v) if ((current = current.n) === start) return; points = current.z; stream.lineStart(); do { current.v = current.o.v = true; if (current.e) { if (isSubject) { for (i = 0, n = points.length; i < n; ++i) stream.point((point = points[i])[0], point[1]); } else { interpolate(current.x, current.n.x, 1, stream); } current = current.n; } else { if (isSubject) { points = current.p.z; for (i = points.length - 1; i >= 0; --i) stream.point((point = points[i])[0], point[1]); } else { interpolate(current.x, current.p.x, -1, stream); } current = current.p; } current = current.o; points = current.z; isSubject = !isSubject; } while (!current.v); stream.lineEnd(); } } function link$1(array) { if (!(n = array.length)) return; var n, i = 0, a = array[0], b; while (++i < n) { a.n = b = array[i]; b.p = a; a = b; } a.n = b = array[0]; b.p = a; } var clipMax = 1e9; var clipMin = -clipMax; // TODO Use d3-polygon’s polygonContains here for the ring check? // TODO Eliminate duplicate buffering in clipBuffer and polygon.push? function clipExtent(x0, y0, x1, y1) { function visible(x, y) { return x0 <= x && x <= x1 && y0 <= y && y <= y1; } function interpolate(from, to, direction, stream) { var a = 0, a1 = 0; if (from == null || (a = corner(from, direction)) !== (a1 = corner(to, direction)) || comparePoint(from, to) < 0 ^ direction > 0) { do stream.point(a === 0 || a === 3 ? x0 : x1, a > 1 ? y1 : y0); while ((a = (a + direction + 4) % 4) !== a1); } else { stream.point(to[0], to[1]); } } function corner(p, direction) { return abs(p[0] - x0) < epsilon$4 ? direction > 0 ? 0 : 3 : abs(p[0] - x1) < epsilon$4 ? direction > 0 ? 2 : 1 : abs(p[1] - y0) < epsilon$4 ? direction > 0 ? 1 : 0 : direction > 0 ? 3 : 2; // abs(p[1] - y1) < epsilon } function compareIntersection(a, b) { return comparePoint(a.x, b.x); } function comparePoint(a, b) { var ca = corner(a, 1), cb = corner(b, 1); return ca !== cb ? ca - cb : ca === 0 ? b[1] - a[1] : ca === 1 ? a[0] - b[0] : ca === 2 ? a[1] - b[1] : b[0] - a[0]; } return function(stream) { var activeStream = stream, bufferStream = clipBuffer(), segments, polygon, ring, x__, y__, v__, // first point x_, y_, v_, // previous point first, clean; var clipStream = { point: point, lineStart: lineStart, lineEnd: lineEnd, polygonStart: polygonStart, polygonEnd: polygonEnd }; function point(x, y) { if (visible(x, y)) activeStream.point(x, y); } function polygonInside() { var winding = 0; for (var i = 0, n = polygon.length; i < n; ++i) { for (var ring = polygon[i], j = 1, m = ring.length, point = ring[0], a0, a1, b0 = point[0], b1 = point[1]; j < m; ++j) { a0 = b0, a1 = b1, point = ring[j], b0 = point[0], b1 = point[1]; if (a1 <= y1) { if (b1 > y1 && (b0 - a0) * (y1 - a1) > (b1 - a1) * (x0 - a0)) ++winding; } else { if (b1 <= y1 && (b0 - a0) * (y1 - a1) < (b1 - a1) * (x0 - a0)) --winding; } } } return winding; } // Buffer geometry within a polygon and then clip it en masse. function polygonStart() { activeStream = bufferStream, segments = [], polygon = [], clean = true; } function polygonEnd() { var startInside = polygonInside(), cleanInside = clean && startInside, visible = (segments = merge(segments)).length; if (cleanInside || visible) { stream.polygonStart(); if (cleanInside) { stream.lineStart(); interpolate(null, null, 1, stream); stream.lineEnd(); } if (visible) { clipPolygon(segments, compareIntersection, startInside, interpolate, stream); } stream.polygonEnd(); } activeStream = stream, segments = polygon = ring = null; } function lineStart() { clipStream.point = linePoint; if (polygon) polygon.push(ring = []); first = true; v_ = false; x_ = y_ = NaN; } // TODO rather than special-case polygons, simply handle them separately. // Ideally, coincident intersection points should be jittered to avoid // clipping issues. function lineEnd() { if (segments) { linePoint(x__, y__); if (v__ && v_) bufferStream.rejoin(); segments.push(bufferStream.result()); } clipStream.point = point; if (v_) activeStream.lineEnd(); } function linePoint(x, y) { var v = visible(x, y); if (polygon) ring.push([x, y]); if (first) { x__ = x, y__ = y, v__ = v; first = false; if (v) { activeStream.lineStart(); activeStream.point(x, y); } } else { if (v && v_) activeStream.point(x, y); else { var a = [x_ = Math.max(clipMin, Math.min(clipMax, x_)), y_ = Math.max(clipMin, Math.min(clipMax, y_))], b = [x = Math.max(clipMin, Math.min(clipMax, x)), y = Math.max(clipMin, Math.min(clipMax, y))]; if (clipLine(a, b, x0, y0, x1, y1)) { if (!v_) { activeStream.lineStart(); activeStream.point(a[0], a[1]); } activeStream.point(b[0], b[1]); if (!v) activeStream.lineEnd(); clean = false; } else if (v) { activeStream.lineStart(); activeStream.point(x, y); clean = false; } } } x_ = x, y_ = y, v_ = v; } return clipStream; }; } function extent$1() { var x0 = 0, y0 = 0, x1 = 960, y1 = 500, cache, cacheStream, clip; return clip = { stream: function(stream) { return cache && cacheStream === stream ? cache : cache = clipExtent(x0, y0, x1, y1)(cacheStream = stream); }, extent: function(_) { return arguments.length ? (x0 = +_[0][0], y0 = +_[0][1], x1 = +_[1][0], y1 = +_[1][1], cache = cacheStream = null, clip) : [[x0, y0], [x1, y1]]; } }; } var lengthSum = adder(); var lambda0$2; var sinPhi0$1; var cosPhi0$1; var lengthStream = { sphere: noop$2, point: noop$2, lineStart: lengthLineStart, lineEnd: noop$2, polygonStart: noop$2, polygonEnd: noop$2 }; function lengthLineStart() { lengthStream.point = lengthPointFirst; lengthStream.lineEnd = lengthLineEnd; } function lengthLineEnd() { lengthStream.point = lengthStream.lineEnd = noop$2; } function lengthPointFirst(lambda, phi) { lambda *= radians, phi *= radians; lambda0$2 = lambda, sinPhi0$1 = sin$1(phi), cosPhi0$1 = cos$1(phi); lengthStream.point = lengthPoint; } function lengthPoint(lambda, phi) { lambda *= radians, phi *= radians; var sinPhi = sin$1(phi), cosPhi = cos$1(phi), delta = abs(lambda - lambda0$2), cosDelta = cos$1(delta), sinDelta = sin$1(delta), x = cosPhi * sinDelta, y = cosPhi0$1 * sinPhi - sinPhi0$1 * cosPhi * cosDelta, z = sinPhi0$1 * sinPhi + cosPhi0$1 * cosPhi * cosDelta; lengthSum.add(atan2(sqrt$1(x * x + y * y), z)); lambda0$2 = lambda, sinPhi0$1 = sinPhi, cosPhi0$1 = cosPhi; } function length$2(object) { lengthSum.reset(); geoStream(object, lengthStream); return +lengthSum; } var coordinates = [null, null]; var object$1 = {type: "LineString", coordinates: coordinates}; function distance(a, b) { coordinates[0] = a; coordinates[1] = b; return length$2(object$1); } function graticuleX(y0, y1, dy) { var y = range(y0, y1 - epsilon$4, dy).concat(y1); return function(x) { return y.map(function(y) { return [x, y]; }); }; } function graticuleY(x0, x1, dx) { var x = range(x0, x1 - epsilon$4, dx).concat(x1); return function(y) { return x.map(function(x) { return [x, y]; }); }; } function graticule() { var x1, x0, X1, X0, y1, y0, Y1, Y0, dx = 10, dy = dx, DX = 90, DY = 360, x, y, X, Y, precision = 2.5; function graticule() { return {type: "MultiLineString", coordinates: lines()}; } function lines() { return range(ceil(X0 / DX) * DX, X1, DX).map(X) .concat(range(ceil(Y0 / DY) * DY, Y1, DY).map(Y)) .concat(range(ceil(x0 / dx) * dx, x1, dx).filter(function(x) { return abs(x % DX) > epsilon$4; }).map(x)) .concat(range(ceil(y0 / dy) * dy, y1, dy).filter(function(y) { return abs(y % DY) > epsilon$4; }).map(y)); } graticule.lines = function() { return lines().map(function(coordinates) { return {type: "LineString", coordinates: coordinates}; }); }; graticule.outline = function() { return { type: "Polygon", coordinates: [ X(X0).concat( Y(Y1).slice(1), X(X1).reverse().slice(1), Y(Y0).reverse().slice(1)) ] }; }; graticule.extent = function(_) { if (!arguments.length) return graticule.extentMinor(); return graticule.extentMajor(_).extentMinor(_); }; graticule.extentMajor = function(_) { if (!arguments.length) return [[X0, Y0], [X1, Y1]]; X0 = +_[0][0], X1 = +_[1][0]; Y0 = +_[0][1], Y1 = +_[1][1]; if (X0 > X1) _ = X0, X0 = X1, X1 = _; if (Y0 > Y1) _ = Y0, Y0 = Y1, Y1 = _; return graticule.precision(precision); }; graticule.extentMinor = function(_) { if (!arguments.length) return [[x0, y0], [x1, y1]]; x0 = +_[0][0], x1 = +_[1][0]; y0 = +_[0][1], y1 = +_[1][1]; if (x0 > x1) _ = x0, x0 = x1, x1 = _; if (y0 > y1) _ = y0, y0 = y1, y1 = _; return graticule.precision(precision); }; graticule.step = function(_) { if (!arguments.length) return graticule.stepMinor(); return graticule.stepMajor(_).stepMinor(_); }; graticule.stepMajor = function(_) { if (!arguments.length) return [DX, DY]; DX = +_[0], DY = +_[1]; return graticule; }; graticule.stepMinor = function(_) { if (!arguments.length) return [dx, dy]; dx = +_[0], dy = +_[1]; return graticule; }; graticule.precision = function(_) { if (!arguments.length) return precision; precision = +_; x = graticuleX(y0, y1, 90); y = graticuleY(x0, x1, precision); X = graticuleX(Y0, Y1, 90); Y = graticuleY(X0, X1, precision); return graticule; }; return graticule .extentMajor([[-180, -90 + epsilon$4], [180, 90 - epsilon$4]]) .extentMinor([[-180, -80 - epsilon$4], [180, 80 + epsilon$4]]); } function interpolate$2(a, b) { var x0 = a[0] * radians, y0 = a[1] * radians, x1 = b[0] * radians, y1 = b[1] * radians, cy0 = cos$1(y0), sy0 = sin$1(y0), cy1 = cos$1(y1), sy1 = sin$1(y1), kx0 = cy0 * cos$1(x0), ky0 = cy0 * sin$1(x0), kx1 = cy1 * cos$1(x1), ky1 = cy1 * sin$1(x1), d = 2 * asin$1(sqrt$1(haversin(y1 - y0) + cy0 * cy1 * haversin(x1 - x0))), k = sin$1(d); var interpolate = d ? function(t) { var B = sin$1(t *= d) / k, A = sin$1(d - t) / k, x = A * kx0 + B * kx1, y = A * ky0 + B * ky1, z = A * sy0 + B * sy1; return [ atan2(y, x) * degrees$1, atan2(z, sqrt$1(x * x + y * y)) * degrees$1 ]; } : function() { return [x0 * degrees$1, y0 * degrees$1]; }; interpolate.distance = d; return interpolate; } function identity$7(x) { return x; } var areaSum$1 = adder(); var areaRingSum$1 = adder(); var x00; var y00; var x0$1; var y0$1; var areaStream$1 = { point: noop$2, lineStart: noop$2, lineEnd: noop$2, polygonStart: function() { areaStream$1.lineStart = areaRingStart$1; areaStream$1.lineEnd = areaRingEnd$1; }, polygonEnd: function() { areaStream$1.lineStart = areaStream$1.lineEnd = areaStream$1.point = noop$2; areaSum$1.add(abs(areaRingSum$1)); areaRingSum$1.reset(); }, result: function() { var area = areaSum$1 / 2; areaSum$1.reset(); return area; } }; function areaRingStart$1() { areaStream$1.point = areaPointFirst$1; } function areaPointFirst$1(x, y) { areaStream$1.point = areaPoint$1; x00 = x0$1 = x, y00 = y0$1 = y; } function areaPoint$1(x, y) { areaRingSum$1.add(y0$1 * x - x0$1 * y); x0$1 = x, y0$1 = y; } function areaRingEnd$1() { areaPoint$1(x00, y00); } var x0$2 = Infinity; var y0$2 = x0$2; var x1 = -x0$2; var y1 = x1; var boundsStream$1 = { point: boundsPoint$1, lineStart: noop$2, lineEnd: noop$2, polygonStart: noop$2, polygonEnd: noop$2, result: function() { var bounds = [[x0$2, y0$2], [x1, y1]]; x1 = y1 = -(y0$2 = x0$2 = Infinity); return bounds; } }; function boundsPoint$1(x, y) { if (x < x0$2) x0$2 = x; if (x > x1) x1 = x; if (y < y0$2) y0$2 = y; if (y > y1) y1 = y; } var X0$1 = 0; var Y0$1 = 0; var Z0$1 = 0; var X1$1 = 0; var Y1$1 = 0; var Z1$1 = 0; var X2$1 = 0; var Y2$1 = 0; var Z2$1 = 0; var x00$1; var y00$1; var x0$3; var y0$3; var centroidStream$1 = { point: centroidPoint$1, lineStart: centroidLineStart$1, lineEnd: centroidLineEnd$1, polygonStart: function() { centroidStream$1.lineStart = centroidRingStart$1; centroidStream$1.lineEnd = centroidRingEnd$1; }, polygonEnd: function() { centroidStream$1.point = centroidPoint$1; centroidStream$1.lineStart = centroidLineStart$1; centroidStream$1.lineEnd = centroidLineEnd$1; }, result: function() { var centroid = Z2$1 ? [X2$1 / Z2$1, Y2$1 / Z2$1] : Z1$1 ? [X1$1 / Z1$1, Y1$1 / Z1$1] : Z0$1 ? [X0$1 / Z0$1, Y0$1 / Z0$1] : [NaN, NaN]; X0$1 = Y0$1 = Z0$1 = X1$1 = Y1$1 = Z1$1 = X2$1 = Y2$1 = Z2$1 = 0; return centroid; } }; function centroidPoint$1(x, y) { X0$1 += x; Y0$1 += y; ++Z0$1; } function centroidLineStart$1() { centroidStream$1.point = centroidPointFirstLine; } function centroidPointFirstLine(x, y) { centroidStream$1.point = centroidPointLine; centroidPoint$1(x0$3 = x, y0$3 = y); } function centroidPointLine(x, y) { var dx = x - x0$3, dy = y - y0$3, z = sqrt$1(dx * dx + dy * dy); X1$1 += z * (x0$3 + x) / 2; Y1$1 += z * (y0$3 + y) / 2; Z1$1 += z; centroidPoint$1(x0$3 = x, y0$3 = y); } function centroidLineEnd$1() { centroidStream$1.point = centroidPoint$1; } function centroidRingStart$1() { centroidStream$1.point = centroidPointFirstRing; } function centroidRingEnd$1() { centroidPointRing(x00$1, y00$1); } function centroidPointFirstRing(x, y) { centroidStream$1.point = centroidPointRing; centroidPoint$1(x00$1 = x0$3 = x, y00$1 = y0$3 = y); } function centroidPointRing(x, y) { var dx = x - x0$3, dy = y - y0$3, z = sqrt$1(dx * dx + dy * dy); X1$1 += z * (x0$3 + x) / 2; Y1$1 += z * (y0$3 + y) / 2; Z1$1 += z; z = y0$3 * x - x0$3 * y; X2$1 += z * (x0$3 + x); Y2$1 += z * (y0$3 + y); Z2$1 += z * 3; centroidPoint$1(x0$3 = x, y0$3 = y); } function PathContext(context) { var pointRadius = 4.5; var stream = { point: point, // While inside a line, override point to moveTo then lineTo. lineStart: function() { stream.point = pointLineStart; }, lineEnd: lineEnd, // While inside a polygon, override lineEnd to closePath. polygonStart: function() { stream.lineEnd = lineEndPolygon; }, polygonEnd: function() { stream.lineEnd = lineEnd; stream.point = point; }, pointRadius: function(_) { pointRadius = _; return stream; }, result: noop$2 }; function point(x, y) { context.moveTo(x + pointRadius, y); context.arc(x, y, pointRadius, 0, tau$4); } function pointLineStart(x, y) { context.moveTo(x, y); stream.point = pointLine; } function pointLine(x, y) { context.lineTo(x, y); } function lineEnd() { stream.point = point; } function lineEndPolygon() { context.closePath(); } return stream; } function PathString() { var pointCircle = circle$2(4.5), string = []; var stream = { point: point, lineStart: lineStart, lineEnd: lineEnd, polygonStart: function() { stream.lineEnd = lineEndPolygon; }, polygonEnd: function() { stream.lineEnd = lineEnd; stream.point = point; }, pointRadius: function(_) { pointCircle = circle$2(_); return stream; }, result: function() { if (string.length) { var result = string.join(""); string = []; return result; } } }; function point(x, y) { string.push("M", x, ",", y, pointCircle); } function pointLineStart(x, y) { string.push("M", x, ",", y); stream.point = pointLine; } function pointLine(x, y) { string.push("L", x, ",", y); } function lineStart() { stream.point = pointLineStart; } function lineEnd() { stream.point = point; } function lineEndPolygon() { string.push("Z"); } return stream; } function circle$2(radius) { return "m0," + radius + "a" + radius + "," + radius + " 0 1,1 0," + -2 * radius + "a" + radius + "," + radius + " 0 1,1 0," + 2 * radius + "z"; } function index$3() { var pointRadius = 4.5, projection, projectionStream, context, contextStream; function path(object) { if (object) { if (typeof pointRadius === "function") contextStream.pointRadius(+pointRadius.apply(this, arguments)); geoStream(object, projectionStream(contextStream)); } return contextStream.result(); } path.area = function(object) { geoStream(object, projectionStream(areaStream$1)); return areaStream$1.result(); }; path.bounds = function(object) { geoStream(object, projectionStream(boundsStream$1)); return boundsStream$1.result(); }; path.centroid = function(object) { geoStream(object, projectionStream(centroidStream$1)); return centroidStream$1.result(); }; path.projection = function(_) { return arguments.length ? (projectionStream = (projection = _) == null ? identity$7 : _.stream, path) : projection; }; path.context = function(_) { if (!arguments.length) return context; contextStream = (context = _) == null ? new PathString : new PathContext(_); if (typeof pointRadius !== "function") contextStream.pointRadius(pointRadius); return path; }; path.pointRadius = function(_) { if (!arguments.length) return pointRadius; pointRadius = typeof _ === "function" ? _ : (contextStream.pointRadius(+_), +_); return path; }; return path.projection(null).context(null); } var sum$2 = adder(); function polygonContains(polygon, point) { var lambda = point[0], phi = point[1], normal = [sin$1(lambda), -cos$1(lambda), 0], angle = 0, winding = 0; sum$2.reset(); for (var i = 0, n = polygon.length; i < n; ++i) { if (!(m = (ring = polygon[i]).length)) continue; var ring, m, point0 = ring[m - 1], lambda0 = point0[0], phi0 = point0[1] / 2 + quarterPi, sinPhi0 = sin$1(phi0), cosPhi0 = cos$1(phi0); for (var j = 0; j < m; ++j, lambda0 = lambda1, sinPhi0 = sinPhi1, cosPhi0 = cosPhi1, point0 = point1) { var point1 = ring[j], lambda1 = point1[0], phi1 = point1[1] / 2 + quarterPi, sinPhi1 = sin$1(phi1), cosPhi1 = cos$1(phi1), delta = lambda1 - lambda0, sign = delta >= 0 ? 1 : -1, absDelta = sign * delta, antimeridian = absDelta > pi$4, k = sinPhi0 * sinPhi1; sum$2.add(atan2(k * sign * sin$1(absDelta), cosPhi0 * cosPhi1 + k * cos$1(absDelta))); angle += antimeridian ? delta + sign * tau$4 : delta; // Are the longitudes either side of the point’s meridian (lambda), // and are the latitudes smaller than the parallel (phi)? if (antimeridian ^ lambda0 >= lambda ^ lambda1 >= lambda) { var arc = cartesianCross(cartesian(point0), cartesian(point1)); cartesianNormalizeInPlace(arc); var intersection = cartesianCross(normal, arc); cartesianNormalizeInPlace(intersection); var phiArc = (antimeridian ^ delta >= 0 ? -1 : 1) * asin$1(intersection[2]); if (phi > phiArc || phi === phiArc && (arc[0] || arc[1])) { winding += antimeridian ^ delta >= 0 ? 1 : -1; } } } } // First, determine whether the South pole is inside or outside: // // It is inside if: // * the polygon winds around it in a clockwise direction. // * the polygon does not (cumulatively) wind around it, but has a negative // (counter-clockwise) area. // // Second, count the (signed) number of times a segment crosses a lambda // from the point to the South pole. If it is zero, then the point is the // same side as the South pole. return (angle < -epsilon$4 || angle < epsilon$4 && sum$2 < -epsilon$4) ^ (winding & 1); } function clip(pointVisible, clipLine, interpolate, start) { return function(rotate, sink) { var line = clipLine(sink), rotatedStart = rotate.invert(start[0], start[1]), ringBuffer = clipBuffer(), ringSink = clipLine(ringBuffer), polygonStarted = false, polygon, segments, ring; var clip = { point: point, lineStart: lineStart, lineEnd: lineEnd, polygonStart: function() { clip.point = pointRing; clip.lineStart = ringStart; clip.lineEnd = ringEnd; segments = []; polygon = []; }, polygonEnd: function() { clip.point = point; clip.lineStart = lineStart; clip.lineEnd = lineEnd; segments = merge(segments); var startInside = polygonContains(polygon, rotatedStart); if (segments.length) { if (!polygonStarted) sink.polygonStart(), polygonStarted = true; clipPolygon(segments, compareIntersection, startInside, interpolate, sink); } else if (startInside) { if (!polygonStarted) sink.polygonStart(), polygonStarted = true; sink.lineStart(); interpolate(null, null, 1, sink); sink.lineEnd(); } if (polygonStarted) sink.polygonEnd(), polygonStarted = false; segments = polygon = null; }, sphere: function() { sink.polygonStart(); sink.lineStart(); interpolate(null, null, 1, sink); sink.lineEnd(); sink.polygonEnd(); } }; function point(lambda, phi) { var point = rotate(lambda, phi); if (pointVisible(lambda = point[0], phi = point[1])) sink.point(lambda, phi); } function pointLine(lambda, phi) { var point = rotate(lambda, phi); line.point(point[0], point[1]); } function lineStart() { clip.point = pointLine; line.lineStart(); } function lineEnd() { clip.point = point; line.lineEnd(); } function pointRing(lambda, phi) { ring.push([lambda, phi]); var point = rotate(lambda, phi); ringSink.point(point[0], point[1]); } function ringStart() { ringSink.lineStart(); ring = []; } function ringEnd() { pointRing(ring[0][0], ring[0][1]); ringSink.lineEnd(); var clean = ringSink.clean(), ringSegments = ringBuffer.result(), i, n = ringSegments.length, m, segment, point; ring.pop(); polygon.push(ring); ring = null; if (!n) return; // No intersections. if (clean & 1) { segment = ringSegments[0]; if ((m = segment.length - 1) > 0) { if (!polygonStarted) sink.polygonStart(), polygonStarted = true; sink.lineStart(); for (i = 0; i < m; ++i) sink.point((point = segment[i])[0], point[1]); sink.lineEnd(); } return; } // Rejoin connected segments. // TODO reuse ringBuffer.rejoin()? if (n > 1 && clean & 2) ringSegments.push(ringSegments.pop().concat(ringSegments.shift())); segments.push(ringSegments.filter(validSegment)); } return clip; }; } function validSegment(segment) { return segment.length > 1; } // Intersections are sorted along the clip edge. For both antimeridian cutting // and circle clipping, the same comparison is used. function compareIntersection(a, b) { return ((a = a.x)[0] < 0 ? a[1] - halfPi$3 - epsilon$4 : halfPi$3 - a[1]) - ((b = b.x)[0] < 0 ? b[1] - halfPi$3 - epsilon$4 : halfPi$3 - b[1]); } var clipAntimeridian = clip( function() { return true; }, clipAntimeridianLine, clipAntimeridianInterpolate, [-pi$4, -halfPi$3] ); // Takes a line and cuts into visible segments. Return values: 0 - there were // intersections or the line was empty; 1 - no intersections; 2 - there were // intersections, and the first and last segments should be rejoined. function clipAntimeridianLine(stream) { var lambda0 = NaN, phi0 = NaN, sign0 = NaN, clean; // no intersections return { lineStart: function() { stream.lineStart(); clean = 1; }, point: function(lambda1, phi1) { var sign1 = lambda1 > 0 ? pi$4 : -pi$4, delta = abs(lambda1 - lambda0); if (abs(delta - pi$4) < epsilon$4) { // line crosses a pole stream.point(lambda0, phi0 = (phi0 + phi1) / 2 > 0 ? halfPi$3 : -halfPi$3); stream.point(sign0, phi0); stream.lineEnd(); stream.lineStart(); stream.point(sign1, phi0); stream.point(lambda1, phi0); clean = 0; } else if (sign0 !== sign1 && delta >= pi$4) { // line crosses antimeridian if (abs(lambda0 - sign0) < epsilon$4) lambda0 -= sign0 * epsilon$4; // handle degeneracies if (abs(lambda1 - sign1) < epsilon$4) lambda1 -= sign1 * epsilon$4; phi0 = clipAntimeridianIntersect(lambda0, phi0, lambda1, phi1); stream.point(sign0, phi0); stream.lineEnd(); stream.lineStart(); stream.point(sign1, phi0); clean = 0; } stream.point(lambda0 = lambda1, phi0 = phi1); sign0 = sign1; }, lineEnd: function() { stream.lineEnd(); lambda0 = phi0 = NaN; }, clean: function() { return 2 - clean; // if intersections, rejoin first and last segments } }; } function clipAntimeridianIntersect(lambda0, phi0, lambda1, phi1) { var cosPhi0, cosPhi1, sinLambda0Lambda1 = sin$1(lambda0 - lambda1); return abs(sinLambda0Lambda1) > epsilon$4 ? atan((sin$1(phi0) * (cosPhi1 = cos$1(phi1)) * sin$1(lambda1) - sin$1(phi1) * (cosPhi0 = cos$1(phi0)) * sin$1(lambda0)) / (cosPhi0 * cosPhi1 * sinLambda0Lambda1)) : (phi0 + phi1) / 2; } function clipAntimeridianInterpolate(from, to, direction, stream) { var phi; if (from == null) { phi = direction * halfPi$3; stream.point(-pi$4, phi); stream.point(0, phi); stream.point(pi$4, phi); stream.point(pi$4, 0); stream.point(pi$4, -phi); stream.point(0, -phi); stream.point(-pi$4, -phi); stream.point(-pi$4, 0); stream.point(-pi$4, phi); } else if (abs(from[0] - to[0]) > epsilon$4) { var lambda = from[0] < to[0] ? pi$4 : -pi$4; phi = direction * lambda / 2; stream.point(-lambda, phi); stream.point(0, phi); stream.point(lambda, phi); } else { stream.point(to[0], to[1]); } } function clipCircle(radius, delta) { var cr = cos$1(radius), smallRadius = cr > 0, notHemisphere = abs(cr) > epsilon$4; // TODO optimise for this common case function interpolate(from, to, direction, stream) { circleStream(stream, radius, delta, direction, from, to); } function visible(lambda, phi) { return cos$1(lambda) * cos$1(phi) > cr; } // Takes a line and cuts into visible segments. Return values used for polygon // clipping: 0 - there were intersections or the line was empty; 1 - no // intersections 2 - there were intersections, and the first and last segments // should be rejoined. function clipLine(stream) { var point0, // previous point c0, // code for previous point v0, // visibility of previous point v00, // visibility of first point clean; // no intersections return { lineStart: function() { v00 = v0 = false; clean = 1; }, point: function(lambda, phi) { var point1 = [lambda, phi], point2, v = visible(lambda, phi), c = smallRadius ? v ? 0 : code(lambda, phi) : v ? code(lambda + (lambda < 0 ? pi$4 : -pi$4), phi) : 0; if (!point0 && (v00 = v0 = v)) stream.lineStart(); // Handle degeneracies. // TODO ignore if not clipping polygons. if (v !== v0) { point2 = intersect(point0, point1); if (pointEqual(point0, point2) || pointEqual(point1, point2)) { point1[0] += epsilon$4; point1[1] += epsilon$4; v = visible(point1[0], point1[1]); } } if (v !== v0) { clean = 0; if (v) { // outside going in stream.lineStart(); point2 = intersect(point1, point0); stream.point(point2[0], point2[1]); } else { // inside going out point2 = intersect(point0, point1); stream.point(point2[0], point2[1]); stream.lineEnd(); } point0 = point2; } else if (notHemisphere && point0 && smallRadius ^ v) { var t; // If the codes for two points are different, or are both zero, // and there this segment intersects with the small circle. if (!(c & c0) && (t = intersect(point1, point0, true))) { clean = 0; if (smallRadius) { stream.lineStart(); stream.point(t[0][0], t[0][1]); stream.point(t[1][0], t[1][1]); stream.lineEnd(); } else { stream.point(t[1][0], t[1][1]); stream.lineEnd(); stream.lineStart(); stream.point(t[0][0], t[0][1]); } } } if (v && (!point0 || !pointEqual(point0, point1))) { stream.point(point1[0], point1[1]); } point0 = point1, v0 = v, c0 = c; }, lineEnd: function() { if (v0) stream.lineEnd(); point0 = null; }, // Rejoin first and last segments if there were intersections and the first // and last points were visible. clean: function() { return clean | ((v00 && v0) << 1); } }; } // Intersects the great circle between a and b with the clip circle. function intersect(a, b, two) { var pa = cartesian(a), pb = cartesian(b); // We have two planes, n1.p = d1 and n2.p = d2. // Find intersection line p(t) = c1 n1 + c2 n2 + t (n1 ⨯ n2). var n1 = [1, 0, 0], // normal n2 = cartesianCross(pa, pb), n2n2 = cartesianDot(n2, n2), n1n2 = n2[0], // cartesianDot(n1, n2), determinant = n2n2 - n1n2 * n1n2; // Two polar points. if (!determinant) return !two && a; var c1 = cr * n2n2 / determinant, c2 = -cr * n1n2 / determinant, n1xn2 = cartesianCross(n1, n2), A = cartesianScale(n1, c1), B = cartesianScale(n2, c2); cartesianAddInPlace(A, B); // Solve |p(t)|^2 = 1. var u = n1xn2, w = cartesianDot(A, u), uu = cartesianDot(u, u), t2 = w * w - uu * (cartesianDot(A, A) - 1); if (t2 < 0) return; var t = sqrt$1(t2), q = cartesianScale(u, (-w - t) / uu); cartesianAddInPlace(q, A); q = spherical(q); if (!two) return q; // Two intersection points. var lambda0 = a[0], lambda1 = b[0], phi0 = a[1], phi1 = b[1], z; if (lambda1 < lambda0) z = lambda0, lambda0 = lambda1, lambda1 = z; var delta = lambda1 - lambda0, polar = abs(delta - pi$4) < epsilon$4, meridian = polar || delta < epsilon$4; if (!polar && phi1 < phi0) z = phi0, phi0 = phi1, phi1 = z; // Check that the first point is between a and b. if (meridian ? polar ? phi0 + phi1 > 0 ^ q[1] < (abs(q[0] - lambda0) < epsilon$4 ? phi0 : phi1) : phi0 <= q[1] && q[1] <= phi1 : delta > pi$4 ^ (lambda0 <= q[0] && q[0] <= lambda1)) { var q1 = cartesianScale(u, (-w + t) / uu); cartesianAddInPlace(q1, A); return [q, spherical(q1)]; } } // Generates a 4-bit vector representing the location of a point relative to // the small circle's bounding box. function code(lambda, phi) { var r = smallRadius ? radius : pi$4 - radius, code = 0; if (lambda < -r) code |= 1; // left else if (lambda > r) code |= 2; // right if (phi < -r) code |= 4; // below else if (phi > r) code |= 8; // above return code; } return clip(visible, clipLine, interpolate, smallRadius ? [0, -radius] : [-pi$4, radius - pi$4]); } function transform$1(prototype) { return { stream: transform$2(prototype) }; } function transform$2(prototype) { function T() {} var p = T.prototype = Object.create(Transform$1.prototype); for (var k in prototype) p[k] = prototype[k]; return function(stream) { var t = new T; t.stream = stream; return t; }; } function Transform$1() {} Transform$1.prototype = { point: function(x, y) { this.stream.point(x, y); }, sphere: function() { this.stream.sphere(); }, lineStart: function() { this.stream.lineStart(); }, lineEnd: function() { this.stream.lineEnd(); }, polygonStart: function() { this.stream.polygonStart(); }, polygonEnd: function() { this.stream.polygonEnd(); } }; function fit(project, extent, object) { var w = extent[1][0] - extent[0][0], h = extent[1][1] - extent[0][1], clip = project.clipExtent && project.clipExtent(); project .scale(150) .translate([0, 0]); if (clip != null) project.clipExtent(null); geoStream(object, project.stream(boundsStream$1)); var b = boundsStream$1.result(), k = Math.min(w / (b[1][0] - b[0][0]), h / (b[1][1] - b[0][1])), x = +extent[0][0] + (w - k * (b[1][0] + b[0][0])) / 2, y = +extent[0][1] + (h - k * (b[1][1] + b[0][1])) / 2; if (clip != null) project.clipExtent(clip); return project .scale(k * 150) .translate([x, y]); } function fitSize(project) { return function(size, object) { return fit(project, [[0, 0], size], object); }; } function fitExtent(project) { return function(extent, object) { return fit(project, extent, object); }; } var maxDepth = 16; var cosMinDistance = cos$1(30 * radians); // cos(minimum angular distance) function resample(project, delta2) { return +delta2 ? resample$1(project, delta2) : resampleNone(project); } function resampleNone(project) { return transform$2({ point: function(x, y) { x = project(x, y); this.stream.point(x[0], x[1]); } }); } function resample$1(project, delta2) { function resampleLineTo(x0, y0, lambda0, a0, b0, c0, x1, y1, lambda1, a1, b1, c1, depth, stream) { var dx = x1 - x0, dy = y1 - y0, d2 = dx * dx + dy * dy; if (d2 > 4 * delta2 && depth--) { var a = a0 + a1, b = b0 + b1, c = c0 + c1, m = sqrt$1(a * a + b * b + c * c), phi2 = asin$1(c /= m), lambda2 = abs(abs(c) - 1) < epsilon$4 || abs(lambda0 - lambda1) < epsilon$4 ? (lambda0 + lambda1) / 2 : atan2(b, a), p = project(lambda2, phi2), x2 = p[0], y2 = p[1], dx2 = x2 - x0, dy2 = y2 - y0, dz = dy * dx2 - dx * dy2; if (dz * dz / d2 > delta2 // perpendicular projected distance || abs((dx * dx2 + dy * dy2) / d2 - 0.5) > 0.3 // midpoint close to an end || a0 * a1 + b0 * b1 + c0 * c1 < cosMinDistance) { // angular distance resampleLineTo(x0, y0, lambda0, a0, b0, c0, x2, y2, lambda2, a /= m, b /= m, c, depth, stream); stream.point(x2, y2); resampleLineTo(x2, y2, lambda2, a, b, c, x1, y1, lambda1, a1, b1, c1, depth, stream); } } } return function(stream) { var lambda00, x00, y00, a00, b00, c00, // first point lambda0, x0, y0, a0, b0, c0; // previous point var resampleStream = { point: point, lineStart: lineStart, lineEnd: lineEnd, polygonStart: function() { stream.polygonStart(); resampleStream.lineStart = ringStart; }, polygonEnd: function() { stream.polygonEnd(); resampleStream.lineStart = lineStart; } }; function point(x, y) { x = project(x, y); stream.point(x[0], x[1]); } function lineStart() { x0 = NaN; resampleStream.point = linePoint; stream.lineStart(); } function linePoint(lambda, phi) { var c = cartesian([lambda, phi]), p = project(lambda, phi); resampleLineTo(x0, y0, lambda0, a0, b0, c0, x0 = p[0], y0 = p[1], lambda0 = lambda, a0 = c[0], b0 = c[1], c0 = c[2], maxDepth, stream); stream.point(x0, y0); } function lineEnd() { resampleStream.point = point; stream.lineEnd(); } function ringStart() { lineStart(); resampleStream.point = ringPoint; resampleStream.lineEnd = ringEnd; } function ringPoint(lambda, phi) { linePoint(lambda00 = lambda, phi), x00 = x0, y00 = y0, a00 = a0, b00 = b0, c00 = c0; resampleStream.point = linePoint; } function ringEnd() { resampleLineTo(x0, y0, lambda0, a0, b0, c0, x00, y00, lambda00, a00, b00, c00, maxDepth, stream); resampleStream.lineEnd = lineEnd; lineEnd(); } return resampleStream; }; } var transformRadians = transform$2({ point: function(x, y) { this.stream.point(x * radians, y * radians); } }); function projection(project) { return projectionMutator(function() { return project; })(); } function projectionMutator(projectAt) { var project, k = 150, // scale x = 480, y = 250, // translate dx, dy, lambda = 0, phi = 0, // center deltaLambda = 0, deltaPhi = 0, deltaGamma = 0, rotate, projectRotate, // rotate theta = null, preclip = clipAntimeridian, // clip angle x0 = null, y0, x1, y1, postclip = identity$7, // clip extent delta2 = 0.5, projectResample = resample(projectTransform, delta2), // precision cache, cacheStream; function projection(point) { point = projectRotate(point[0] * radians, point[1] * radians); return [point[0] * k + dx, dy - point[1] * k]; } function invert(point) { point = projectRotate.invert((point[0] - dx) / k, (dy - point[1]) / k); return point && [point[0] * degrees$1, point[1] * degrees$1]; } function projectTransform(x, y) { return x = project(x, y), [x[0] * k + dx, dy - x[1] * k]; } projection.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = transformRadians(preclip(rotate, projectResample(postclip(cacheStream = stream)))); }; projection.clipAngle = function(_) { return arguments.length ? (preclip = +_ ? clipCircle(theta = _ * radians, 6 * radians) : (theta = null, clipAntimeridian), reset()) : theta * degrees$1; }; projection.clipExtent = function(_) { return arguments.length ? (postclip = _ == null ? (x0 = y0 = x1 = y1 = null, identity$7) : clipExtent(x0 = +_[0][0], y0 = +_[0][1], x1 = +_[1][0], y1 = +_[1][1]), reset()) : x0 == null ? null : [[x0, y0], [x1, y1]]; }; projection.scale = function(_) { return arguments.length ? (k = +_, recenter()) : k; }; projection.translate = function(_) { return arguments.length ? (x = +_[0], y = +_[1], recenter()) : [x, y]; }; projection.center = function(_) { return arguments.length ? (lambda = _[0] % 360 * radians, phi = _[1] % 360 * radians, recenter()) : [lambda * degrees$1, phi * degrees$1]; }; projection.rotate = function(_) { return arguments.length ? (deltaLambda = _[0] % 360 * radians, deltaPhi = _[1] % 360 * radians, deltaGamma = _.length > 2 ? _[2] % 360 * radians : 0, recenter()) : [deltaLambda * degrees$1, deltaPhi * degrees$1, deltaGamma * degrees$1]; }; projection.precision = function(_) { return arguments.length ? (projectResample = resample(projectTransform, delta2 = _ * _), reset()) : sqrt$1(delta2); }; projection.fitExtent = fitExtent(projection); projection.fitSize = fitSize(projection); function recenter() { projectRotate = compose(rotate = rotateRadians(deltaLambda, deltaPhi, deltaGamma), project); var center = project(lambda, phi); dx = x - center[0] * k; dy = y + center[1] * k; return reset(); } function reset() { cache = cacheStream = null; return projection; } return function() { project = projectAt.apply(this, arguments); projection.invert = project.invert && invert; return recenter(); }; } function conicProjection(projectAt) { var phi0 = 0, phi1 = pi$4 / 3, m = projectionMutator(projectAt), p = m(phi0, phi1); p.parallels = function(_) { return arguments.length ? m(phi0 = _[0] * radians, phi1 = _[1] * radians) : [phi0 * degrees$1, phi1 * degrees$1]; }; return p; } function conicEqualAreaRaw(y0, y1) { var sy0 = sin$1(y0), n = (sy0 + sin$1(y1)) / 2, c = 1 + sy0 * (2 * n - sy0), r0 = sqrt$1(c) / n; function project(x, y) { var r = sqrt$1(c - 2 * n * sin$1(y)) / n; return [r * sin$1(x *= n), r0 - r * cos$1(x)]; } project.invert = function(x, y) { var r0y = r0 - y; return [atan2(x, r0y) / n, asin$1((c - (x * x + r0y * r0y) * n * n) / (2 * n))]; }; return project; } function conicEqualArea() { return conicProjection(conicEqualAreaRaw) .scale(155.424) .center([0, 33.6442]); } function albers() { return conicEqualArea() .parallels([29.5, 45.5]) .scale(1070) .translate([480, 250]) .rotate([96, 0]) .center([-0.6, 38.7]); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex(streams) { var n = streams.length; return { point: function(x, y) { var i = -1; while (++i < n) streams[i].point(x, y); }, sphere: function() { var i = -1; while (++i < n) streams[i].sphere(); }, lineStart: function() { var i = -1; while (++i < n) streams[i].lineStart(); }, lineEnd: function() { var i = -1; while (++i < n) streams[i].lineEnd(); }, polygonStart: function() { var i = -1; while (++i < n) streams[i].polygonStart(); }, polygonEnd: function() { var i = -1; while (++i < n) streams[i].polygonEnd(); } }; } // A composite projection for the United States, configured by default for // 960×500. The projection also works quite well at 960×600 if you change the // scale to 1285 and adjust the translate accordingly. The set of standard // parallels for each region comes from USGS, which is published here: // http://egsc.usgs.gov/isb/pubs/MapProjections/projections.html#albers function albersUsa() { var cache, cacheStream, lower48 = albers(), lower48Point, alaska = conicEqualArea().rotate([154, 0]).center([-2, 58.5]).parallels([55, 65]), alaskaPoint, // EPSG:3338 hawaii = conicEqualArea().rotate([157, 0]).center([-3, 19.9]).parallels([8, 18]), hawaiiPoint, // ESRI:102007 point, pointStream = {point: function(x, y) { point = [x, y]; }}; function albersUsa(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (lower48Point.point(x, y), point) || (alaskaPoint.point(x, y), point) || (hawaiiPoint.point(x, y), point); } albersUsa.invert = function(coordinates) { var k = lower48.scale(), t = lower48.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; return (y >= 0.120 && y < 0.234 && x >= -0.425 && x < -0.214 ? alaska : y >= 0.166 && y < 0.234 && x >= -0.214 && x < -0.115 ? hawaii : lower48).invert(coordinates); }; albersUsa.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex([lower48.stream(cacheStream = stream), alaska.stream(stream), hawaii.stream(stream)]); }; albersUsa.precision = function(_) { if (!arguments.length) return lower48.precision(); lower48.precision(_), alaska.precision(_), hawaii.precision(_); return albersUsa; }; albersUsa.scale = function(_) { if (!arguments.length) return lower48.scale(); lower48.scale(_), alaska.scale(_ * 0.35), hawaii.scale(_); return albersUsa.translate(lower48.translate()); }; albersUsa.translate = function(_) { if (!arguments.length) return lower48.translate(); var k = lower48.scale(), x = +_[0], y = +_[1]; lower48Point = lower48 .translate(_) .clipExtent([[x - 0.455 * k, y - 0.238 * k], [x + 0.455 * k, y + 0.238 * k]]) .stream(pointStream); alaskaPoint = alaska .translate([x - 0.307 * k, y + 0.201 * k]) .clipExtent([[x - 0.425 * k + epsilon$4, y + 0.120 * k + epsilon$4], [x - 0.214 * k - epsilon$4, y + 0.234 * k - epsilon$4]]) .stream(pointStream); hawaiiPoint = hawaii .translate([x - 0.205 * k, y + 0.212 * k]) .clipExtent([[x - 0.214 * k + epsilon$4, y + 0.166 * k + epsilon$4], [x - 0.115 * k - epsilon$4, y + 0.234 * k - epsilon$4]]) .stream(pointStream); return albersUsa; }; albersUsa.fitExtent = fitExtent(albersUsa); albersUsa.fitSize = fitSize(albersUsa); return albersUsa.scale(1070); } function azimuthalRaw(scale) { return function(x, y) { var cx = cos$1(x), cy = cos$1(y), k = scale(cx * cy); return [ k * cy * sin$1(x), k * sin$1(y) ]; } } function azimuthalInvert(angle) { return function(x, y) { var z = sqrt$1(x * x + y * y), c = angle(z), sc = sin$1(c), cc = cos$1(c); return [ atan2(x * sc, z * cc), asin$1(z && y * sc / z) ]; } } var azimuthalEqualAreaRaw = azimuthalRaw(function(cxcy) { return sqrt$1(2 / (1 + cxcy)); }); azimuthalEqualAreaRaw.invert = azimuthalInvert(function(z) { return 2 * asin$1(z / 2); }); function azimuthalEqualArea() { return projection(azimuthalEqualAreaRaw) .scale(124.75) .clipAngle(180 - 1e-3); } var azimuthalEquidistantRaw = azimuthalRaw(function(c) { return (c = acos(c)) && c / sin$1(c); }); azimuthalEquidistantRaw.invert = azimuthalInvert(function(z) { return z; }); function azimuthalEquidistant() { return projection(azimuthalEquidistantRaw) .scale(79.4188) .clipAngle(180 - 1e-3); } function mercatorRaw(lambda, phi) { return [lambda, log$1(tan((halfPi$3 + phi) / 2))]; } mercatorRaw.invert = function(x, y) { return [x, 2 * atan(exp(y)) - halfPi$3]; }; function mercator() { return mercatorProjection(mercatorRaw) .scale(961 / tau$4); } function mercatorProjection(project) { var m = projection(project), scale = m.scale, translate = m.translate, clipExtent = m.clipExtent, clipAuto; m.scale = function(_) { return arguments.length ? (scale(_), clipAuto && m.clipExtent(null), m) : scale(); }; m.translate = function(_) { return arguments.length ? (translate(_), clipAuto && m.clipExtent(null), m) : translate(); }; m.clipExtent = function(_) { if (!arguments.length) return clipAuto ? null : clipExtent(); if (clipAuto = _ == null) { var k = pi$4 * scale(), t = translate(); _ = [[t[0] - k, t[1] - k], [t[0] + k, t[1] + k]]; } clipExtent(_); return m; }; return m.clipExtent(null); } function tany(y) { return tan((halfPi$3 + y) / 2); } function conicConformalRaw(y0, y1) { var cy0 = cos$1(y0), n = y0 === y1 ? sin$1(y0) : log$1(cy0 / cos$1(y1)) / log$1(tany(y1) / tany(y0)), f = cy0 * pow$1(tany(y0), n) / n; if (!n) return mercatorRaw; function project(x, y) { if (f > 0) { if (y < -halfPi$3 + epsilon$4) y = -halfPi$3 + epsilon$4; } else { if (y > halfPi$3 - epsilon$4) y = halfPi$3 - epsilon$4; } var r = f / pow$1(tany(y), n); return [r * sin$1(n * x), f - r * cos$1(n * x)]; } project.invert = function(x, y) { var fy = f - y, r = sign$1(n) * sqrt$1(x * x + fy * fy); return [atan2(x, fy) / n, 2 * atan(pow$1(f / r, 1 / n)) - halfPi$3]; }; return project; } function conicConformal() { return conicProjection(conicConformalRaw) .scale(109.5) .parallels([30, 30]); } function equirectangularRaw(lambda, phi) { return [lambda, phi]; } equirectangularRaw.invert = equirectangularRaw; function equirectangular() { return projection(equirectangularRaw) .scale(152.63); } function conicEquidistantRaw(y0, y1) { var cy0 = cos$1(y0), n = y0 === y1 ? sin$1(y0) : (cy0 - cos$1(y1)) / (y1 - y0), g = cy0 / n + y0; if (abs(n) < epsilon$4) return equirectangularRaw; function project(x, y) { var gy = g - y, nx = n * x; return [gy * sin$1(nx), g - gy * cos$1(nx)]; } project.invert = function(x, y) { var gy = g - y; return [atan2(x, gy) / n, g - sign$1(n) * sqrt$1(x * x + gy * gy)]; }; return project; } function conicEquidistant() { return conicProjection(conicEquidistantRaw) .scale(131.154) .center([0, 13.9389]); } function gnomonicRaw(x, y) { var cy = cos$1(y), k = cos$1(x) * cy; return [cy * sin$1(x) / k, sin$1(y) / k]; } gnomonicRaw.invert = azimuthalInvert(atan); function gnomonic() { return projection(gnomonicRaw) .scale(144.049) .clipAngle(60); } function orthographicRaw(x, y) { return [cos$1(y) * sin$1(x), sin$1(y)]; } orthographicRaw.invert = azimuthalInvert(asin$1); function orthographic() { return projection(orthographicRaw) .scale(249.5) .clipAngle(90 + epsilon$4); } function stereographicRaw(x, y) { var cy = cos$1(y), k = 1 + cos$1(x) * cy; return [cy * sin$1(x) / k, sin$1(y) / k]; } stereographicRaw.invert = azimuthalInvert(function(z) { return 2 * atan(z); }); function stereographic() { return projection(stereographicRaw) .scale(250) .clipAngle(142); } function transverseMercatorRaw(lambda, phi) { return [log$1(tan((halfPi$3 + phi) / 2)), -lambda]; } transverseMercatorRaw.invert = function(x, y) { return [-y, 2 * atan(exp(x)) - halfPi$3]; }; function transverseMercator() { var m = mercatorProjection(transverseMercatorRaw), center = m.center, rotate = m.rotate; m.center = function(_) { return arguments.length ? center([-_[1], _[0]]) : (_ = center(), [_[1], -_[0]]); }; m.rotate = function(_) { return arguments.length ? rotate([_[0], _[1], _.length > 2 ? _[2] + 90 : 90]) : (_ = rotate(), [_[0], _[1], _[2] - 90]); }; return rotate([0, 0, 90]) .scale(159.155); } exports.version = version; exports.bisect = bisectRight; exports.bisectRight = bisectRight; exports.bisectLeft = bisectLeft; exports.ascending = ascending; exports.bisector = bisector; exports.descending = descending; exports.deviation = deviation; exports.extent = extent; exports.histogram = histogram; exports.thresholdFreedmanDiaconis = freedmanDiaconis; exports.thresholdScott = scott; exports.thresholdSturges = sturges; exports.max = max; exports.mean = mean; exports.median = median; exports.merge = merge; exports.min = min; exports.pairs = pairs; exports.permute = permute; exports.quantile = threshold; exports.range = range; exports.scan = scan; exports.shuffle = shuffle; exports.sum = sum; exports.ticks = ticks; exports.tickStep = tickStep; exports.transpose = transpose; exports.variance = variance; exports.zip = zip; exports.entries = entries; exports.keys = keys; exports.values = values; exports.map = map$1; exports.set = set; exports.nest = nest; exports.randomUniform = uniform; exports.randomNormal = normal; exports.randomLogNormal = logNormal; exports.randomBates = bates; exports.randomIrwinHall = irwinHall; exports.randomExponential = exponential; exports.easeLinear = linear; exports.easeQuad = quadInOut; exports.easeQuadIn = quadIn; exports.easeQuadOut = quadOut; exports.easeQuadInOut = quadInOut; exports.easeCubic = easeCubicInOut; exports.easeCubicIn = cubicIn; exports.easeCubicOut = cubicOut; exports.easeCubicInOut = easeCubicInOut; exports.easePoly = polyInOut; exports.easePolyIn = polyIn; exports.easePolyOut = polyOut; exports.easePolyInOut = polyInOut; exports.easeSin = sinInOut; exports.easeSinIn = sinIn; exports.easeSinOut = sinOut; exports.easeSinInOut = sinInOut; exports.easeExp = expInOut; exports.easeExpIn = expIn; exports.easeExpOut = expOut; exports.easeExpInOut = expInOut; exports.easeCircle = circleInOut; exports.easeCircleIn = circleIn; exports.easeCircleOut = circleOut; exports.easeCircleInOut = circleInOut; exports.easeBounce = bounceOut; exports.easeBounceIn = bounceIn; exports.easeBounceOut = bounceOut; exports.easeBounceInOut = bounceInOut; exports.easeBack = backInOut; exports.easeBackIn = backIn; exports.easeBackOut = backOut; exports.easeBackInOut = backInOut; exports.easeElastic = elasticOut; exports.easeElasticIn = elasticIn; exports.easeElasticOut = elasticOut; exports.easeElasticInOut = elasticInOut; exports.polygonArea = area; exports.polygonCentroid = centroid; exports.polygonHull = hull; exports.polygonContains = contains; exports.polygonLength = length$1; exports.path = path; exports.quadtree = quadtree; exports.queue = queue; exports.arc = arc; exports.area = area$1; exports.line = line; exports.pie = pie; exports.radialArea = radialArea; exports.radialLine = radialLine$1; exports.symbol = symbol; exports.symbols = symbols; exports.symbolCircle = circle; exports.symbolCross = cross$1; exports.symbolDiamond = diamond; exports.symbolSquare = square; exports.symbolStar = star; exports.symbolTriangle = triangle; exports.symbolWye = wye; exports.curveBasisClosed = basisClosed; exports.curveBasisOpen = basisOpen; exports.curveBasis = basis; exports.curveBundle = bundle; exports.curveCardinalClosed = cardinalClosed; exports.curveCardinalOpen = cardinalOpen; exports.curveCardinal = cardinal; exports.curveCatmullRomClosed = catmullRomClosed; exports.curveCatmullRomOpen = catmullRomOpen; exports.curveCatmullRom = catmullRom; exports.curveLinearClosed = linearClosed; exports.curveLinear = curveLinear; exports.curveMonotoneX = monotoneX; exports.curveMonotoneY = monotoneY; exports.curveNatural = natural; exports.curveStep = step; exports.curveStepAfter = stepAfter; exports.curveStepBefore = stepBefore; exports.stack = stack; exports.stackOffsetExpand = expand; exports.stackOffsetNone = none; exports.stackOffsetSilhouette = silhouette; exports.stackOffsetWiggle = wiggle; exports.stackOrderAscending = ascending$1; exports.stackOrderDescending = descending$2; exports.stackOrderInsideOut = insideOut; exports.stackOrderNone = none$1; exports.stackOrderReverse = reverse; exports.color = color; exports.rgb = colorRgb; exports.hsl = colorHsl; exports.lab = lab; exports.hcl = colorHcl; exports.cubehelix = cubehelix; exports.interpolate = interpolate; exports.interpolateArray = array$1; exports.interpolateDate = date; exports.interpolateNumber = interpolateNumber; exports.interpolateObject = object; exports.interpolateRound = interpolateRound; exports.interpolateString = interpolateString; exports.interpolateTransformCss = interpolateTransform$1; exports.interpolateTransformSvg = interpolateTransform$2; exports.interpolateZoom = interpolateZoom; exports.interpolateRgb = interpolateRgb; exports.interpolateRgbBasis = rgbBasis; exports.interpolateRgbBasisClosed = rgbBasisClosed; exports.interpolateHsl = hsl$1; exports.interpolateHslLong = hslLong; exports.interpolateLab = lab$1; exports.interpolateHcl = hcl$1; exports.interpolateHclLong = hclLong; exports.interpolateCubehelix = cubehelix$2; exports.interpolateCubehelixLong = interpolateCubehelixLong; exports.interpolateBasis = basis$2; exports.interpolateBasisClosed = basisClosed$1; exports.quantize = quantize; exports.dispatch = dispatch; exports.dsvFormat = dsv; exports.csvParse = csvParse; exports.csvParseRows = csvParseRows; exports.csvFormat = csvFormat; exports.csvFormatRows = csvFormatRows; exports.tsvParse = tsvParse; exports.tsvParseRows = tsvParseRows; exports.tsvFormat = tsvFormat; exports.tsvFormatRows = tsvFormatRows; exports.request = request; exports.html = html; exports.json = json; exports.text = text; exports.xml = xml; exports.csv = csv$1; exports.tsv = tsv$1; exports.now = now; exports.timer = timer; exports.timerFlush = timerFlush; exports.timeout = timeout$1; exports.interval = interval$1; exports.timeInterval = newInterval; exports.timeMillisecond = millisecond; exports.timeMilliseconds = milliseconds; exports.timeSecond = second; exports.timeSeconds = seconds; exports.timeMinute = minute; exports.timeMinutes = minutes; exports.timeHour = hour; exports.timeHours = hours; exports.timeDay = day; exports.timeDays = days; exports.timeWeek = timeWeek; exports.timeWeeks = sundays; exports.timeSunday = timeWeek; exports.timeSundays = sundays; exports.timeMonday = timeMonday; exports.timeMondays = mondays; exports.timeTuesday = tuesday; exports.timeTuesdays = tuesdays; exports.timeWednesday = wednesday; exports.timeWednesdays = wednesdays; exports.timeThursday = thursday; exports.timeThursdays = thursdays; exports.timeFriday = friday; exports.timeFridays = fridays; exports.timeSaturday = saturday; exports.timeSaturdays = saturdays; exports.timeMonth = month; exports.timeMonths = months; exports.timeYear = year; exports.timeYears = years; exports.utcMillisecond = millisecond; exports.utcMilliseconds = milliseconds; exports.utcSecond = second; exports.utcSeconds = seconds; exports.utcMinute = utcMinute; exports.utcMinutes = utcMinutes; exports.utcHour = utcHour; exports.utcHours = utcHours; exports.utcDay = utcDay; exports.utcDays = utcDays; exports.utcWeek = utcWeek; exports.utcWeeks = utcSundays; exports.utcSunday = utcWeek; exports.utcSundays = utcSundays; exports.utcMonday = utcMonday; exports.utcMondays = utcMondays; exports.utcTuesday = utcTuesday; exports.utcTuesdays = utcTuesdays; exports.utcWednesday = utcWednesday; exports.utcWednesdays = utcWednesdays; exports.utcThursday = utcThursday; exports.utcThursdays = utcThursdays; exports.utcFriday = utcFriday; exports.utcFridays = utcFridays; exports.utcSaturday = utcSaturday; exports.utcSaturdays = utcSaturdays; exports.utcMonth = utcMonth; exports.utcMonths = utcMonths; exports.utcYear = utcYear; exports.utcYears = utcYears; exports.formatLocale = formatLocale; exports.formatDefaultLocale = defaultLocale; exports.formatSpecifier = formatSpecifier; exports.precisionFixed = precisionFixed; exports.precisionPrefix = precisionPrefix; exports.precisionRound = precisionRound; exports.isoFormat = formatIso; exports.isoParse = parseIso; exports.timeFormatLocale = formatLocale$1; exports.timeFormatDefaultLocale = defaultLocale$1; exports.scaleBand = band; exports.scalePoint = point$4; exports.scaleIdentity = identity$4; exports.scaleLinear = linear$2; exports.scaleLog = log; exports.scaleOrdinal = ordinal; exports.scaleImplicit = implicit; exports.scalePow = pow; exports.scaleSqrt = sqrt; exports.scaleQuantile = quantile; exports.scaleQuantize = quantize$1; exports.scaleThreshold = threshold$1; exports.scaleTime = time; exports.scaleUtc = utcTime; exports.schemeCategory10 = category10; exports.schemeCategory20b = category20b; exports.schemeCategory20c = category20c; exports.schemeCategory20 = category20; exports.scaleSequential = sequential; exports.interpolateCubehelixDefault = cubehelix$3; exports.interpolateRainbow = rainbow$1; exports.interpolateWarm = warm; exports.interpolateCool = cool; exports.interpolateViridis = viridis; exports.interpolateMagma = magma; exports.interpolateInferno = inferno; exports.interpolatePlasma = plasma; exports.creator = creator; exports.customEvent = customEvent; exports.local = local; exports.matcher = matcher$1; exports.mouse = mouse; exports.namespace = namespace; exports.namespaces = namespaces; exports.select = select; exports.selectAll = selectAll; exports.selection = selection; exports.selector = selector; exports.selectorAll = selectorAll; exports.touch = touch; exports.touches = touches; exports.window = window; exports.active = active; exports.interrupt = interrupt; exports.transition = transition; exports.axisTop = axisTop; exports.axisRight = axisRight; exports.axisBottom = axisBottom; exports.axisLeft = axisLeft; exports.cluster = cluster; exports.hierarchy = hierarchy; exports.pack = index; exports.packSiblings = siblings; exports.packEnclose = enclose; exports.partition = partition; exports.stratify = stratify; exports.tree = tree; exports.treemap = index$1; exports.treemapBinary = binary; exports.treemapDice = treemapDice; exports.treemapSlice = treemapSlice; exports.treemapSliceDice = sliceDice; exports.treemapSquarify = squarify; exports.treemapResquarify = resquarify; exports.forceCenter = center$1; exports.forceCollide = collide; exports.forceLink = link; exports.forceManyBody = manyBody; exports.forceSimulation = simulation; exports.forceX = x$3; exports.forceY = y$3; exports.drag = drag; exports.dragDisable = dragDisable; exports.dragEnable = dragEnable; exports.voronoi = voronoi; exports.zoom = zoom; exports.zoomIdentity = identity$6; exports.zoomTransform = transform; exports.brush = brush; exports.brushX = brushX; exports.brushY = brushY; exports.brushSelection = brushSelection; exports.chord = chord; exports.ribbon = ribbon; exports.geoAlbers = albers; exports.geoAlbersUsa = albersUsa; exports.geoArea = area$2; exports.geoAzimuthalEqualArea = azimuthalEqualArea; exports.geoAzimuthalEqualAreaRaw = azimuthalEqualAreaRaw; exports.geoAzimuthalEquidistant = azimuthalEquidistant; exports.geoAzimuthalEquidistantRaw = azimuthalEquidistantRaw; exports.geoBounds = bounds; exports.geoCentroid = centroid$1; exports.geoCircle = circle$1; exports.geoClipExtent = extent$1; exports.geoConicConformal = conicConformal; exports.geoConicConformalRaw = conicConformalRaw; exports.geoConicEqualArea = conicEqualArea; exports.geoConicEqualAreaRaw = conicEqualAreaRaw; exports.geoConicEquidistant = conicEquidistant; exports.geoConicEquidistantRaw = conicEquidistantRaw; exports.geoDistance = distance; exports.geoEquirectangular = equirectangular; exports.geoEquirectangularRaw = equirectangularRaw; exports.geoGnomonic = gnomonic; exports.geoGnomonicRaw = gnomonicRaw; exports.geoGraticule = graticule; exports.geoInterpolate = interpolate$2; exports.geoLength = length$2; exports.geoMercator = mercator; exports.geoMercatorRaw = mercatorRaw; exports.geoOrthographic = orthographic; exports.geoOrthographicRaw = orthographicRaw; exports.geoPath = index$3; exports.geoProjection = projection; exports.geoProjectionMutator = projectionMutator; exports.geoRotation = rotation; exports.geoStereographic = stereographic; exports.geoStereographicRaw = stereographicRaw; exports.geoStream = geoStream; exports.geoTransform = transform$1; exports.geoTransverseMercator = transverseMercator; exports.geoTransverseMercatorRaw = transverseMercatorRaw; Object.defineProperty(exports, '__esModule', { value: true }); }))); })(); }); require.register("ieee754/index.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "ieee754"); (function() { exports.read = function (buffer, offset, isLE, mLen, nBytes) { var e, m var eLen = nBytes * 8 - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var nBits = -7 var i = isLE ? (nBytes - 1) : 0 var d = isLE ? -1 : 1 var s = buffer[offset + i] i += d e = s & ((1 << (-nBits)) - 1) s >>= (-nBits) nBits += eLen for (; nBits > 0; e = e * 256 + buffer[offset + i], i += d, nBits -= 8) {} m = e & ((1 << (-nBits)) - 1) e >>= (-nBits) nBits += mLen for (; nBits > 0; m = m * 256 + buffer[offset + i], i += d, nBits -= 8) {} if (e === 0) { e = 1 - eBias } else if (e === eMax) { return m ? NaN : ((s ? -1 : 1) * Infinity) } else { m = m + Math.pow(2, mLen) e = e - eBias } return (s ? -1 : 1) * m * Math.pow(2, e - mLen) } exports.write = function (buffer, value, offset, isLE, mLen, nBytes) { var e, m, c var eLen = nBytes * 8 - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0) var i = isLE ? 0 : (nBytes - 1) var d = isLE ? 1 : -1 var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0 value = Math.abs(value) if (isNaN(value) || value === Infinity) { m = isNaN(value) ? 1 : 0 e = eMax } else { e = Math.floor(Math.log(value) / Math.LN2) if (value * (c = Math.pow(2, -e)) < 1) { e-- c *= 2 } if (e + eBias >= 1) { value += rt / c } else { value += rt * Math.pow(2, 1 - eBias) } if (value * c >= 2) { e++ c /= 2 } if (e + eBias >= eMax) { m = 0 e = eMax } else if (e + eBias >= 1) { m = (value * c - 1) * Math.pow(2, mLen) e = e + eBias } else { m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen) e = 0 } } for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {} e = (e << mLen) | m eLen += mLen for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {} buffer[offset + i - d] |= s * 128 } })(); }); require.register("isarray/index.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "isarray"); (function() { var toString = {}.toString; module.exports = Array.isArray || function (arr) { return toString.call(arr) == '[object Array]'; }; })(); }); require.register("kohonen/dist/Kohonen.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen"); (function() { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); var _createClass = function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; }(); // lodash/fp random has a fixed arity of 2, without the last (and useful) param var _d3Scale = require('d3-scale'); var _d3Array = require('d3-array'); var _fp = require('lodash/fp'); var _fp2 = _interopRequireDefault(_fp); var _mlPca = require('ml-pca'); var _mlPca2 = _interopRequireDefault(_mlPca); var _vector = require('./vector'); var _random = require('lodash/random'); var _random2 = _interopRequireDefault(_random); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } // A basic implementation of Kohonen map // The main class // // var Kohonen = function () { // The constructor needs two params : // * neurons : an already built neurons grid as an array // * data : data set to consider // * maxStep : the max step that will be clamped in scaleStepLearningCoef and // scaleStepNeighborhood // * maxLearningCoef // * minLearningCoef // * maxNeighborhood // * minNeighborhood // // each neuron should provide a 2D vector pos, // which refer to the grid position // // You should use an hexagon grid as it is the easier case // to deal with neighborhood. // // You also should normalized your neighborhood in such a way that 2 neighbors // got an euclidian distance of 1 between each other. function Kohonen(_ref) { var neurons = _ref.neurons; var data = _ref.data; var _ref$maxStep = _ref.maxStep; var maxStep = _ref$maxStep === undefined ? 10000 : _ref$maxStep; var _ref$maxLearningCoef = _ref.maxLearningCoef; var maxLearningCoef = _ref$maxLearningCoef === undefined ? 1 : _ref$maxLearningCoef; var _ref$minLearningCoef = _ref.minLearningCoef; var minLearningCoef = _ref$minLearningCoef === undefined ? .3 : _ref$minLearningCoef; var _ref$maxNeighborhood = _ref.maxNeighborhood; var maxNeighborhood = _ref$maxNeighborhood === undefined ? 1 : _ref$maxNeighborhood; var _ref$minNeighborhood = _ref.minNeighborhood; var minNeighborhood = _ref$minNeighborhood === undefined ? .3 : _ref$minNeighborhood; _classCallCheck(this, Kohonen); this.size = data[0].length; this.step = 0; this.maxStep = maxStep; // generate scaleStepLearningCoef, // as the learning coef decreases with time this.scaleStepLearningCoef = (0, _d3Scale.scaleLinear)().clamp(true).domain([0, maxStep]).range([maxLearningCoef, minLearningCoef]); // decrease neighborhood with time this.scaleStepNeighborhood = (0, _d3Scale.scaleLinear)().clamp(true).domain([0, maxStep]).range([maxNeighborhood, minNeighborhood]); // retrive min and max for each feature var unnormalizedExtents = _fp2.default.flow(_fp2.default.unzip, _fp2.default.map(_d3Array.extent))(data); // build scales for data normalization var scales = unnormalizedExtents.map(function (extent) { return (0, _d3Scale.scaleLinear)().domain(extent).range([0, 1]); }); // build normalized data this.data = this.normalize(data, scales); // then we store means and deviations for normalized datas this.means = _fp2.default.flow(_fp2.default.unzip, _fp2.default.map(_d3Array.mean))(this.data); this.deviations = _fp2.default.flow(_fp2.default.unzip, _fp2.default.map(_d3Array.deviation))(this.data); // On each neuron, generate a random vector v // of dimension var randomInitialVectors = this.generateInitialVectors(neurons.length); this.neurons = neurons.map(function (n, i) { return Object.assign({}, n, { v: randomInitialVectors[i] }); }); } _createClass(Kohonen, [{ key: 'normalize', value: function normalize(data, scales) { return data.map(function (v) { return v.map(function (s, i) { return scales[i](s); }); }); } // learn and return corresponding neurons for the dataset }, { key: 'training', value: function training() { var log = arguments.length <= 0 || arguments[0] === undefined ? function () {} : arguments[0]; for (var i = 0; i < this.maxStep; i++) { // generate a random vector this.learn(this.generateLearningVector()); log(this.neurons, this.step); } } }, { key: 'mapping', value: function mapping() { return _fp2.default.flow(_fp2.default.map(this.findBestMatchingUnit.bind(this)), _fp2.default.map(function (n) { return n.pos; }))(this.data); } // The U-Matrix value of a particular node // is the average distance between the node's weight vector and that of its closest neighbors. }, { key: 'umatrix', value: function umatrix() { var _this = this; var roundToTwo = function roundToTwo(num) { return +(Math.round(num + "e+2") + "e-2"); }; var findNeighors = function findNeighors(cn) { return _fp2.default.filter(function (n) { return roundToTwo((0, _vector.dist)(n.pos, cn.pos)) === 1; }, _this.neurons); }; return _fp2.default.map(function (n) { return (0, _d3Array.mean)(findNeighors(n).map(function (nb) { return (0, _vector.dist)(nb.v, n.v); })); }, this.neurons); } // pick a random vector among data }, { key: 'generateLearningVector', value: function generateLearningVector() { return this.data[_fp2.default.random(0, this.data.length - 1)]; } }, { key: 'generateInitialVectors', value: function generateInitialVectors(dataSize) { var _this2 = this; // principal component analysis // standardize to false as we already standardize ours var pca = new _mlPca2.default(this.data, { standardize: false }); // centered covariance eigenvectors var eigenvectors = pca.getEigenvectors(); // eigenvalues var eigenvalues = pca.getEigenvalues(); // scale eigenvectors to the square root of eigenvalues // we'll only keep the 2 largest eigenvectors var scaledEigenvectors = _fp2.default.take(2, eigenvectors.map(function (v, i) { return (0, _vector.mult)(v, Math.sqrt(eigenvalues[i])); })); // function to generate random vectors into eigenvectors space var generateRandomVecWithinEigenvectorsSpace = function generateRandomVecWithinEigenvectorsSpace() { return (0, _vector.add)((0, _vector.mult)(scaledEigenvectors[0], (0, _random2.default)(-1, 1, true)), (0, _vector.mult)(scaledEigenvectors[1], (0, _random2.default)(-1, 1, true))); }; // we generate all random vectors and uncentered them by adding means vector return _fp2.default.map(function () { return (0, _vector.add)(generateRandomVecWithinEigenvectorsSpace(), _this2.means); }, _fp2.default.range(0, dataSize)); } }, { key: 'learn', value: function learn(v) { var _this3 = this; // find bmu var bmu = this.findBestMatchingUnit(v); // compute current learning coef var currentLearningCoef = this.scaleStepLearningCoef(this.step); this.neurons.forEach(function (n) { // compute neighborhood var currentNeighborhood = _this3.neighborhood({ bmu: bmu, n: n }); // compute delta for the current neuron var delta = (0, _vector.mult)((0, _vector.diff)(n.v, v), currentNeighborhood * currentLearningCoef); // update current vector n.v = (0, _vector.add)(n.v, delta); }); this.step += 1; } // Find closer neuron }, { key: 'findBestMatchingUnit', value: function findBestMatchingUnit(v) { return _fp2.default.flow(_fp2.default.sortBy(function (n) { return (0, _vector.dist)(v, n.v); }), _fp2.default.first)(this.neurons); } // http://en.wikipedia.org/wiki/Gaussian_function#Two-dimensional_Gaussian_function // // http://mathworld.wolfram.com/GaussianFunction.html // // neighborhood function made with a gaussian }, { key: 'neighborhood', value: function neighborhood(_ref2) { var bmu = _ref2.bmu; var n = _ref2.n; var a = 1; var sigmaX = 1; var sigmaY = 1; return a * Math.exp(-(Math.pow(n.pos[0] - bmu.pos[0], 2) / 2 * Math.pow(sigmaX, 2) + Math.pow(n.pos[1] - bmu.pos[1], 2) / 2 * Math.pow(sigmaY, 2))) * this.scaleStepNeighborhood(this.step); } }]); return Kohonen; }(); exports.default = Kohonen; })(); }); require.register("kohonen/dist/hexagon.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen"); (function() { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.generateGrid = undefined; var _fp = require('lodash/fp'); var _fp2 = _interopRequireDefault(_fp); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // generate a rectangular grid of sizeX * sizeY hexagonal neurons // with normalized euclidian distance of 1 between each neighbor var generateGrid = exports.generateGrid = function generateGrid(sizeX, sizeY) { var margin = 1; var stepX = 1; // Pythagoras to the rescue var stepY = Math.sqrt(Math.pow(stepX, 2) - Math.pow(stepX / 2, 2)); var getHexagon = function getHexagon(x, y) { return { pos: [x, y] }; }; var generateRow = function generateRow(y, i) { return _fp2.default.range(0, sizeX).map(function (x) { return x + margin; }).map(function (x) { return x + (i % 2 === 0 ? 0 : stepX / 2); }).map(function (x) { return getHexagon(x, y); }); }; return _fp2.default.flatten(_fp2.default.range(0, sizeY).map(function (y) { return y * stepY; }).map(function (y) { return y + margin; }).map(function (y, i) { return generateRow(y, i); })); }; })(); }); require.register("kohonen/dist/index.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen"); (function() { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.vectorHelper = exports.hexagonHelper = undefined; var _hexagon = require('./hexagon'); var hexagonHelper = _interopRequireWildcard(_hexagon); var _Kohonen = require('./Kohonen'); var _Kohonen2 = _interopRequireDefault(_Kohonen); var _vector = require('./vector'); var vectorHelper = _interopRequireWildcard(_vector); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) newObj[key] = obj[key]; } } newObj.default = obj; return newObj; } } exports.default = _Kohonen2.default; exports.hexagonHelper = hexagonHelper; exports.vectorHelper = vectorHelper; })(); }); require.register("kohonen/dist/vector.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen"); (function() { 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.norm = exports.random = exports.add = exports.diff = exports.mult = exports.dist = undefined; var _fp = require('lodash/fp'); var _fp2 = _interopRequireDefault(_fp); var _d3Random = require('d3-random'); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // euclidian distance of 2 vectors var dist = exports.dist = function dist(v1, v2) { return Math.sqrt(v1.reduce(function (seed, cur, ind) { return seed + Math.pow(v2[ind] - cur, 2); }, 0)); }; // scalar mult of a vector var mult = exports.mult = function mult(v, coef) { return v.map(function (val) { return val * coef; }); }; // scalar diff of a vector var diff = exports.diff = function diff(v1, v2) { return v1.map(function (val, i) { return v2[i] - val; }); }; // scalar addition of a vector var add = exports.add = function add(v1, v2) { return v1.map(function (val, i) { return v2[i] + val; }); }; // For a given size, return an array of `size` with random values // within the gaussian normalization // // https://github.com/mbostock/d3/wiki/Math var random = exports.random = function random(size) { var mean = arguments.length <= 1 || arguments[1] === undefined ? 0.0 : arguments[1]; var deviation = arguments.length <= 2 || arguments[2] === undefined ? 1.0 : arguments[2]; return _fp2.default.map(function (i) { return (0, _d3Random.randomNormal)(mean, deviation)(); }, _fp2.default.range(0, size)); }; var norm = exports.norm = function norm(v) { return dist(v, v.map(function (s) { return 0; })); }; })(); }); require.register("kohonen/node_modules/d3-array/build/d3-array.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-array"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_array = {}))); }(this, function (exports) { 'use strict'; function ascending(a, b) { return a < b ? -1 : a > b ? 1 : a >= b ? 0 : NaN; } function bisector(compare) { if (compare.length === 1) compare = ascendingComparator(compare); return { left: function(a, x, lo, hi) { if (lo == null) lo = 0; if (hi == null) hi = a.length; while (lo < hi) { var mid = lo + hi >>> 1; if (compare(a[mid], x) < 0) lo = mid + 1; else hi = mid; } return lo; }, right: function(a, x, lo, hi) { if (lo == null) lo = 0; if (hi == null) hi = a.length; while (lo < hi) { var mid = lo + hi >>> 1; if (compare(a[mid], x) > 0) hi = mid; else lo = mid + 1; } return lo; } }; } function ascendingComparator(f) { return function(d, x) { return ascending(f(d), x); }; } var ascendingBisect = bisector(ascending); var bisectRight = ascendingBisect.right; var bisectLeft = ascendingBisect.left; function descending(a, b) { return b < a ? -1 : b > a ? 1 : b >= a ? 0 : NaN; } function number$1(x) { return x === null ? NaN : +x; } function variance(array, f) { var n = array.length, m = 0, a, d, s = 0, i = -1, j = 0; if (f == null) { while (++i < n) { if (!isNaN(a = number$1(array[i]))) { d = a - m; m += d / ++j; s += d * (a - m); } } } else { while (++i < n) { if (!isNaN(a = number$1(f(array[i], i, array)))) { d = a - m; m += d / ++j; s += d * (a - m); } } } if (j > 1) return s / (j - 1); } function deviation(array, f) { var v = variance(array, f); return v ? Math.sqrt(v) : v; } function extent(array, f) { var i = -1, n = array.length, a, b, c; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = c = b; break; } while (++i < n) if ((b = array[i]) != null) { if (a > b) a = b; if (c < b) c = b; } } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = c = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null) { if (a > b) a = b; if (c < b) c = b; } } return [a, c]; } function constant(x) { return function() { return x; }; } function identity(x) { return x; } function range(start, stop, step) { start = +start, stop = +stop, step = (n = arguments.length) < 2 ? (stop = start, start = 0, 1) : n < 3 ? 1 : +step; var i = -1, n = Math.max(0, Math.ceil((stop - start) / step)) | 0, range = new Array(n); while (++i < n) { range[i] = start + i * step; } return range; } var e10 = Math.sqrt(50); var e5 = Math.sqrt(10); var e2 = Math.sqrt(2); function ticks(start, stop, count) { var step = tickStep(start, stop, count); return range( Math.ceil(start / step) * step, Math.floor(stop / step) * step + step / 2, // inclusive step ); } function tickStep(start, stop, count) { var step0 = Math.abs(stop - start) / Math.max(0, count), step1 = Math.pow(10, Math.floor(Math.log(step0) / Math.LN10)), error = step0 / step1; if (error >= e10) step1 *= 10; else if (error >= e5) step1 *= 5; else if (error >= e2) step1 *= 2; return stop < start ? -step1 : step1; } function sturges(values) { return Math.ceil(Math.log(values.length) / Math.LN2) + 1; } function number(x) { return +x; } function histogram() { var value = identity, domain = extent, threshold = sturges; function histogram(data) { var i, n = data.length, x, values = new Array(n); // Coerce values to numbers. for (i = 0; i < n; ++i) { values[i] = +value(data[i], i, data); } var xz = domain(values), x0 = +xz[0], x1 = +xz[1], tz = threshold(values, x0, x1); // Convert number of thresholds into uniform thresholds. if (!Array.isArray(tz)) tz = ticks(x0, x1, +tz); // Coerce thresholds to numbers, ignoring any outside the domain. var m = tz.length; for (i = 0; i < m; ++i) tz[i] = +tz[i]; while (tz[0] <= x0) tz.shift(), --m; while (tz[m - 1] >= x1) tz.pop(), --m; var bins = new Array(m + 1), bin; // Initialize bins. for (i = 0; i <= m; ++i) { bin = bins[i] = []; bin.x0 = i > 0 ? tz[i - 1] : x0; bin.x1 = i < m ? tz[i] : x1; } // Assign data to bins by value, ignoring any outside the domain. for (i = 0; i < n; ++i) { x = values[i]; if (x0 <= x && x <= x1) { bins[bisectRight(tz, x, 0, m)].push(data[i]); } } return bins; } histogram.value = function(_) { return arguments.length ? (value = typeof _ === "function" ? _ : constant(+_), histogram) : value; }; histogram.domain = function(_) { return arguments.length ? (domain = typeof _ === "function" ? _ : constant([+_[0], +_[1]]), histogram) : domain; }; histogram.thresholds = function(_) { if (!arguments.length) return threshold; threshold = typeof _ === "function" ? _ : Array.isArray(_) ? constant(Array.prototype.map.call(_, number)) : constant(+_); return histogram; }; return histogram; } function quantile(array, p, f) { if (f == null) f = number$1; if (!(n = array.length)) return; if ((p = +p) <= 0 || n < 2) return +f(array[0], 0, array); if (p >= 1) return +f(array[n - 1], n - 1, array); var n, h = (n - 1) * p, i = Math.floor(h), a = +f(array[i], i, array), b = +f(array[i + 1], i + 1, array); return a + (b - a) * (h - i); } function freedmanDiaconis(values, min, max) { values.sort(ascending); return Math.ceil((max - min) / (2 * (quantile(values, 0.75) - quantile(values, 0.25)) * Math.pow(values.length, -1 / 3))); } function scott(values, min, max) { return Math.ceil((max - min) / (3.5 * deviation(values) * Math.pow(values.length, -1 / 3))); } function max(array, f) { var i = -1, n = array.length, a, b; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = b; break; } while (++i < n) if ((b = array[i]) != null && b > a) a = b; } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null && b > a) a = b; } return a; } function mean(array, f) { var s = 0, n = array.length, a, i = -1, j = n; if (f == null) { while (++i < n) if (!isNaN(a = number$1(array[i]))) s += a; else --j; } else { while (++i < n) if (!isNaN(a = number$1(f(array[i], i, array)))) s += a; else --j; } if (j) return s / j; } function median(array, f) { var numbers = [], n = array.length, a, i = -1; if (f == null) { while (++i < n) if (!isNaN(a = number$1(array[i]))) numbers.push(a); } else { while (++i < n) if (!isNaN(a = number$1(f(array[i], i, array)))) numbers.push(a); } return quantile(numbers.sort(ascending), 0.5); } function merge(arrays) { var n = arrays.length, m, i = -1, j = 0, merged, array; while (++i < n) j += arrays[i].length; merged = new Array(j); while (--n >= 0) { array = arrays[n]; m = array.length; while (--m >= 0) { merged[--j] = array[m]; } } return merged; } function min(array, f) { var i = -1, n = array.length, a, b; if (f == null) { while (++i < n) if ((b = array[i]) != null && b >= b) { a = b; break; } while (++i < n) if ((b = array[i]) != null && a > b) a = b; } else { while (++i < n) if ((b = f(array[i], i, array)) != null && b >= b) { a = b; break; } while (++i < n) if ((b = f(array[i], i, array)) != null && a > b) a = b; } return a; } function pairs(array) { var i = 0, n = array.length - 1, p = array[0], pairs = new Array(n < 0 ? 0 : n); while (i < n) pairs[i] = [p, p = array[++i]]; return pairs; } function permute(array, indexes) { var i = indexes.length, permutes = new Array(i); while (i--) permutes[i] = array[indexes[i]]; return permutes; } function scan(array, compare) { if (!(n = array.length)) return; var i = 0, n, j = 0, xi, xj = array[j]; if (!compare) compare = ascending; while (++i < n) if (compare(xi = array[i], xj) < 0 || compare(xj, xj) !== 0) xj = xi, j = i; if (compare(xj, xj) === 0) return j; } function shuffle(array, i0, i1) { var m = (i1 == null ? array.length : i1) - (i0 = i0 == null ? 0 : +i0), t, i; while (m) { i = Math.random() * m-- | 0; t = array[m + i0]; array[m + i0] = array[i + i0]; array[i + i0] = t; } return array; } function sum(array, f) { var s = 0, n = array.length, a, i = -1; if (f == null) { while (++i < n) if (a = +array[i]) s += a; // Note: zero and null are equivalent. } else { while (++i < n) if (a = +f(array[i], i, array)) s += a; } return s; } function transpose(matrix) { if (!(n = matrix.length)) return []; for (var i = -1, m = min(matrix, length), transpose = new Array(m); ++i < m;) { for (var j = -1, n, row = transpose[i] = new Array(n); ++j < n;) { row[j] = matrix[j][i]; } } return transpose; } function length(d) { return d.length; } function zip() { return transpose(arguments); } var version = "0.7.1"; exports.version = version; exports.bisect = bisectRight; exports.bisectRight = bisectRight; exports.bisectLeft = bisectLeft; exports.ascending = ascending; exports.bisector = bisector; exports.descending = descending; exports.deviation = deviation; exports.extent = extent; exports.histogram = histogram; exports.thresholdFreedmanDiaconis = freedmanDiaconis; exports.thresholdScott = scott; exports.thresholdSturges = sturges; exports.max = max; exports.mean = mean; exports.median = median; exports.merge = merge; exports.min = min; exports.pairs = pairs; exports.permute = permute; exports.quantile = quantile; exports.range = range; exports.scan = scan; exports.shuffle = shuffle; exports.sum = sum; exports.ticks = ticks; exports.tickStep = tickStep; exports.transpose = transpose; exports.variance = variance; exports.zip = zip; })); })(); }); require.register("kohonen/node_modules/d3-collection/build/d3-collection.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-collection"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_collection = global.d3_collection || {}))); }(this, function (exports) { 'use strict'; var prefix = "$"; function Map() {} Map.prototype = map.prototype = { constructor: Map, has: function(key) { return (prefix + key) in this; }, get: function(key) { return this[prefix + key]; }, set: function(key, value) { this[prefix + key] = value; return this; }, remove: function(key) { var property = prefix + key; return property in this && delete this[property]; }, clear: function() { for (var property in this) if (property[0] === prefix) delete this[property]; }, keys: function() { var keys = []; for (var property in this) if (property[0] === prefix) keys.push(property.slice(1)); return keys; }, values: function() { var values = []; for (var property in this) if (property[0] === prefix) values.push(this[property]); return values; }, entries: function() { var entries = []; for (var property in this) if (property[0] === prefix) entries.push({key: property.slice(1), value: this[property]}); return entries; }, size: function() { var size = 0; for (var property in this) if (property[0] === prefix) ++size; return size; }, empty: function() { for (var property in this) if (property[0] === prefix) return false; return true; }, each: function(f) { for (var property in this) if (property[0] === prefix) f(this[property], property.slice(1), this); } }; function map(object, f) { var map = new Map; // Copy constructor. if (object instanceof Map) object.each(function(value, key) { map.set(key, value); }); // Index array by numeric index or specified key function. else if (Array.isArray(object)) { var i = -1, n = object.length, o; if (f == null) while (++i < n) map.set(i, object[i]); else while (++i < n) map.set(f(o = object[i], i, object), o); } // Convert object to map. else if (object) for (var key in object) map.set(key, object[key]); return map; } function nest() { var keys = [], sortKeys = [], sortValues, rollup, nest; function apply(array, depth, createResult, setResult) { if (depth >= keys.length) return rollup ? rollup(array) : (sortValues ? array.sort(sortValues) : array); var i = -1, n = array.length, key = keys[depth++], keyValue, value, valuesByKey = map(), values, result = createResult(); while (++i < n) { if (values = valuesByKey.get(keyValue = key(value = array[i]) + "")) { values.push(value); } else { valuesByKey.set(keyValue, [value]); } } valuesByKey.each(function(values, key) { setResult(result, key, apply(values, depth, createResult, setResult)); }); return result; } function entries(map, depth) { if (depth >= keys.length) return map; var array = [], sortKey = sortKeys[depth++]; map.each(function(value, key) { array.push({key: key, values: entries(value, depth)}); }); return sortKey ? array.sort(function(a, b) { return sortKey(a.key, b.key); }) : array; } return nest = { object: function(array) { return apply(array, 0, createObject, setObject); }, map: function(array) { return apply(array, 0, createMap, setMap); }, entries: function(array) { return entries(apply(array, 0, createMap, setMap), 0); }, key: function(d) { keys.push(d); return nest; }, sortKeys: function(order) { sortKeys[keys.length - 1] = order; return nest; }, sortValues: function(order) { sortValues = order; return nest; }, rollup: function(f) { rollup = f; return nest; } }; } function createObject() { return {}; } function setObject(object, key, value) { object[key] = value; } function createMap() { return map(); } function setMap(map, key, value) { map.set(key, value); } function Set() {} var proto = map.prototype; Set.prototype = set.prototype = { constructor: Set, has: proto.has, add: function(value) { value += ""; this[prefix + value] = value; return this; }, remove: proto.remove, clear: proto.clear, values: proto.keys, size: proto.size, empty: proto.empty, each: proto.each }; function set(object, f) { var set = new Set; // Copy constructor. if (object instanceof Set) object.each(function(value) { set.add(value); }); // Otherwise, assume it’s an array. else if (object) { var i = -1, n = object.length; if (f == null) while (++i < n) set.add(object[i]); else while (++i < n) set.add(f(object[i], i, object)); } return set; } function keys(map) { var keys = []; for (var key in map) keys.push(key); return keys; } function values(map) { var values = []; for (var key in map) values.push(map[key]); return values; } function entries(map) { var entries = []; for (var key in map) entries.push({key: key, value: map[key]}); return entries; } var version = "0.1.2"; exports.version = version; exports.nest = nest; exports.set = set; exports.map = map; exports.keys = keys; exports.values = values; exports.entries = entries; })); })(); }); require.register("kohonen/node_modules/d3-color/build/d3-color.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-color"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_color = global.d3_color || {}))); }(this, function (exports) { 'use strict'; function define(constructor, factory, prototype) { constructor.prototype = factory.prototype = prototype; prototype.constructor = constructor; } function extend(parent, definition) { var prototype = Object.create(parent.prototype); for (var key in definition) prototype[key] = definition[key]; return prototype; } function Color() {} var darker = 0.7; var brighter = 1 / darker; var reHex3 = /^#([0-9a-f]{3})$/; var reHex6 = /^#([0-9a-f]{6})$/; var reRgbInteger = /^rgb\(\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*\)$/; var reRgbPercent = /^rgb\(\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*\)$/; var reRgbaInteger = /^rgba\(\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+)\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var reRgbaPercent = /^rgba\(\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var reHslPercent = /^hsl\(\s*([-+]?\d+(?:\.\d+)?)\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*\)$/; var reHslaPercent = /^hsla\(\s*([-+]?\d+(?:\.\d+)?)\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)%\s*,\s*([-+]?\d+(?:\.\d+)?)\s*\)$/; var named = { aliceblue: 0xf0f8ff, antiquewhite: 0xfaebd7, aqua: 0x00ffff, aquamarine: 0x7fffd4, azure: 0xf0ffff, beige: 0xf5f5dc, bisque: 0xffe4c4, black: 0x000000, blanchedalmond: 0xffebcd, blue: 0x0000ff, blueviolet: 0x8a2be2, brown: 0xa52a2a, burlywood: 0xdeb887, cadetblue: 0x5f9ea0, chartreuse: 0x7fff00, chocolate: 0xd2691e, coral: 0xff7f50, cornflowerblue: 0x6495ed, cornsilk: 0xfff8dc, crimson: 0xdc143c, cyan: 0x00ffff, darkblue: 0x00008b, darkcyan: 0x008b8b, darkgoldenrod: 0xb8860b, darkgray: 0xa9a9a9, darkgreen: 0x006400, darkgrey: 0xa9a9a9, darkkhaki: 0xbdb76b, darkmagenta: 0x8b008b, darkolivegreen: 0x556b2f, darkorange: 0xff8c00, darkorchid: 0x9932cc, darkred: 0x8b0000, darksalmon: 0xe9967a, darkseagreen: 0x8fbc8f, darkslateblue: 0x483d8b, darkslategray: 0x2f4f4f, darkslategrey: 0x2f4f4f, darkturquoise: 0x00ced1, darkviolet: 0x9400d3, deeppink: 0xff1493, deepskyblue: 0x00bfff, dimgray: 0x696969, dimgrey: 0x696969, dodgerblue: 0x1e90ff, firebrick: 0xb22222, floralwhite: 0xfffaf0, forestgreen: 0x228b22, fuchsia: 0xff00ff, gainsboro: 0xdcdcdc, ghostwhite: 0xf8f8ff, gold: 0xffd700, goldenrod: 0xdaa520, gray: 0x808080, green: 0x008000, greenyellow: 0xadff2f, grey: 0x808080, honeydew: 0xf0fff0, hotpink: 0xff69b4, indianred: 0xcd5c5c, indigo: 0x4b0082, ivory: 0xfffff0, khaki: 0xf0e68c, lavender: 0xe6e6fa, lavenderblush: 0xfff0f5, lawngreen: 0x7cfc00, lemonchiffon: 0xfffacd, lightblue: 0xadd8e6, lightcoral: 0xf08080, lightcyan: 0xe0ffff, lightgoldenrodyellow: 0xfafad2, lightgray: 0xd3d3d3, lightgreen: 0x90ee90, lightgrey: 0xd3d3d3, lightpink: 0xffb6c1, lightsalmon: 0xffa07a, lightseagreen: 0x20b2aa, lightskyblue: 0x87cefa, lightslategray: 0x778899, lightslategrey: 0x778899, lightsteelblue: 0xb0c4de, lightyellow: 0xffffe0, lime: 0x00ff00, limegreen: 0x32cd32, linen: 0xfaf0e6, magenta: 0xff00ff, maroon: 0x800000, mediumaquamarine: 0x66cdaa, mediumblue: 0x0000cd, mediumorchid: 0xba55d3, mediumpurple: 0x9370db, mediumseagreen: 0x3cb371, mediumslateblue: 0x7b68ee, mediumspringgreen: 0x00fa9a, mediumturquoise: 0x48d1cc, mediumvioletred: 0xc71585, midnightblue: 0x191970, mintcream: 0xf5fffa, mistyrose: 0xffe4e1, moccasin: 0xffe4b5, navajowhite: 0xffdead, navy: 0x000080, oldlace: 0xfdf5e6, olive: 0x808000, olivedrab: 0x6b8e23, orange: 0xffa500, orangered: 0xff4500, orchid: 0xda70d6, palegoldenrod: 0xeee8aa, palegreen: 0x98fb98, paleturquoise: 0xafeeee, palevioletred: 0xdb7093, papayawhip: 0xffefd5, peachpuff: 0xffdab9, peru: 0xcd853f, pink: 0xffc0cb, plum: 0xdda0dd, powderblue: 0xb0e0e6, purple: 0x800080, rebeccapurple: 0x663399, red: 0xff0000, rosybrown: 0xbc8f8f, royalblue: 0x4169e1, saddlebrown: 0x8b4513, salmon: 0xfa8072, sandybrown: 0xf4a460, seagreen: 0x2e8b57, seashell: 0xfff5ee, sienna: 0xa0522d, silver: 0xc0c0c0, skyblue: 0x87ceeb, slateblue: 0x6a5acd, slategray: 0x708090, slategrey: 0x708090, snow: 0xfffafa, springgreen: 0x00ff7f, steelblue: 0x4682b4, tan: 0xd2b48c, teal: 0x008080, thistle: 0xd8bfd8, tomato: 0xff6347, turquoise: 0x40e0d0, violet: 0xee82ee, wheat: 0xf5deb3, white: 0xffffff, whitesmoke: 0xf5f5f5, yellow: 0xffff00, yellowgreen: 0x9acd32 }; define(Color, color, { displayable: function() { return this.rgb().displayable(); }, toString: function() { return this.rgb() + ""; } }); function color(format) { var m; format = (format + "").trim().toLowerCase(); return (m = reHex3.exec(format)) ? (m = parseInt(m[1], 16), new Rgb((m >> 8 & 0xf) | (m >> 4 & 0x0f0), (m >> 4 & 0xf) | (m & 0xf0), ((m & 0xf) << 4) | (m & 0xf), 1)) // #f00 : (m = reHex6.exec(format)) ? rgbn(parseInt(m[1], 16)) // #ff0000 : (m = reRgbInteger.exec(format)) ? new Rgb(m[1], m[2], m[3], 1) // rgb(255, 0, 0) : (m = reRgbPercent.exec(format)) ? new Rgb(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, 1) // rgb(100%, 0%, 0%) : (m = reRgbaInteger.exec(format)) ? rgba(m[1], m[2], m[3], m[4]) // rgba(255, 0, 0, 1) : (m = reRgbaPercent.exec(format)) ? rgba(m[1] * 255 / 100, m[2] * 255 / 100, m[3] * 255 / 100, m[4]) // rgb(100%, 0%, 0%, 1) : (m = reHslPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, 1) // hsl(120, 50%, 50%) : (m = reHslaPercent.exec(format)) ? hsla(m[1], m[2] / 100, m[3] / 100, m[4]) // hsla(120, 50%, 50%, 1) : named.hasOwnProperty(format) ? rgbn(named[format]) : format === "transparent" ? new Rgb(NaN, NaN, NaN, 0) : null; } function rgbn(n) { return new Rgb(n >> 16 & 0xff, n >> 8 & 0xff, n & 0xff, 1); } function rgba(r, g, b, a) { if (a <= 0) r = g = b = NaN; return new Rgb(r, g, b, a); } function rgbConvert(o) { if (!(o instanceof Color)) o = color(o); if (!o) return new Rgb; o = o.rgb(); return new Rgb(o.r, o.g, o.b, o.opacity); } function rgb(r, g, b, opacity) { return arguments.length === 1 ? rgbConvert(r) : new Rgb(r, g, b, opacity == null ? 1 : opacity); } function Rgb(r, g, b, opacity) { this.r = +r; this.g = +g; this.b = +b; this.opacity = +opacity; } define(Rgb, rgb, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Rgb(this.r * k, this.g * k, this.b * k, this.opacity); }, rgb: function() { return this; }, displayable: function() { return (0 <= this.r && this.r <= 255) && (0 <= this.g && this.g <= 255) && (0 <= this.b && this.b <= 255) && (0 <= this.opacity && this.opacity <= 1); }, toString: function() { var a = this.opacity; a = isNaN(a) ? 1 : Math.max(0, Math.min(1, a)); return (a === 1 ? "rgb(" : "rgba(") + Math.max(0, Math.min(255, Math.round(this.r) || 0)) + ", " + Math.max(0, Math.min(255, Math.round(this.g) || 0)) + ", " + Math.max(0, Math.min(255, Math.round(this.b) || 0)) + (a === 1 ? ")" : ", " + a + ")"); } })); function hsla(h, s, l, a) { if (a <= 0) h = s = l = NaN; else if (l <= 0 || l >= 1) h = s = NaN; else if (s <= 0) h = NaN; return new Hsl(h, s, l, a); } function hslConvert(o) { if (o instanceof Hsl) return new Hsl(o.h, o.s, o.l, o.opacity); if (!(o instanceof Color)) o = color(o); if (!o) return new Hsl; if (o instanceof Hsl) return o; o = o.rgb(); var r = o.r / 255, g = o.g / 255, b = o.b / 255, min = Math.min(r, g, b), max = Math.max(r, g, b), h = NaN, s = max - min, l = (max + min) / 2; if (s) { if (r === max) h = (g - b) / s + (g < b) * 6; else if (g === max) h = (b - r) / s + 2; else h = (r - g) / s + 4; s /= l < 0.5 ? max + min : 2 - max - min; h *= 60; } else { s = l > 0 && l < 1 ? 0 : h; } return new Hsl(h, s, l, o.opacity); } function hsl(h, s, l, opacity) { return arguments.length === 1 ? hslConvert(h) : new Hsl(h, s, l, opacity == null ? 1 : opacity); } function Hsl(h, s, l, opacity) { this.h = +h; this.s = +s; this.l = +l; this.opacity = +opacity; } define(Hsl, hsl, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Hsl(this.h, this.s, this.l * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Hsl(this.h, this.s, this.l * k, this.opacity); }, rgb: function() { var h = this.h % 360 + (this.h < 0) * 360, s = isNaN(h) || isNaN(this.s) ? 0 : this.s, l = this.l, m2 = l + (l < 0.5 ? l : 1 - l) * s, m1 = 2 * l - m2; return new Rgb( hsl2rgb(h >= 240 ? h - 240 : h + 120, m1, m2), hsl2rgb(h, m1, m2), hsl2rgb(h < 120 ? h + 240 : h - 120, m1, m2), this.opacity ); }, displayable: function() { return (0 <= this.s && this.s <= 1 || isNaN(this.s)) && (0 <= this.l && this.l <= 1) && (0 <= this.opacity && this.opacity <= 1); } })); /* From FvD 13.37, CSS Color Module Level 3 */ function hsl2rgb(h, m1, m2) { return (h < 60 ? m1 + (m2 - m1) * h / 60 : h < 180 ? m2 : h < 240 ? m1 + (m2 - m1) * (240 - h) / 60 : m1) * 255; } var deg2rad = Math.PI / 180; var rad2deg = 180 / Math.PI; var Kn = 18; var Xn = 0.950470; var Yn = 1; var Zn = 1.088830; var t0 = 4 / 29; var t1 = 6 / 29; var t2 = 3 * t1 * t1; var t3 = t1 * t1 * t1; function labConvert(o) { if (o instanceof Lab) return new Lab(o.l, o.a, o.b, o.opacity); if (o instanceof Hcl) { var h = o.h * deg2rad; return new Lab(o.l, Math.cos(h) * o.c, Math.sin(h) * o.c, o.opacity); } if (!(o instanceof Rgb)) o = rgbConvert(o); var b = rgb2xyz(o.r), a = rgb2xyz(o.g), l = rgb2xyz(o.b), x = xyz2lab((0.4124564 * b + 0.3575761 * a + 0.1804375 * l) / Xn), y = xyz2lab((0.2126729 * b + 0.7151522 * a + 0.0721750 * l) / Yn), z = xyz2lab((0.0193339 * b + 0.1191920 * a + 0.9503041 * l) / Zn); return new Lab(116 * y - 16, 500 * (x - y), 200 * (y - z), o.opacity); } function lab(l, a, b, opacity) { return arguments.length === 1 ? labConvert(l) : new Lab(l, a, b, opacity == null ? 1 : opacity); } function Lab(l, a, b, opacity) { this.l = +l; this.a = +a; this.b = +b; this.opacity = +opacity; } define(Lab, lab, extend(Color, { brighter: function(k) { return new Lab(this.l + Kn * (k == null ? 1 : k), this.a, this.b, this.opacity); }, darker: function(k) { return new Lab(this.l - Kn * (k == null ? 1 : k), this.a, this.b, this.opacity); }, rgb: function() { var y = (this.l + 16) / 116, x = isNaN(this.a) ? y : y + this.a / 500, z = isNaN(this.b) ? y : y - this.b / 200; y = Yn * lab2xyz(y); x = Xn * lab2xyz(x); z = Zn * lab2xyz(z); return new Rgb( xyz2rgb( 3.2404542 * x - 1.5371385 * y - 0.4985314 * z), // D65 -> sRGB xyz2rgb(-0.9692660 * x + 1.8760108 * y + 0.0415560 * z), xyz2rgb( 0.0556434 * x - 0.2040259 * y + 1.0572252 * z), this.opacity ); } })); function xyz2lab(t) { return t > t3 ? Math.pow(t, 1 / 3) : t / t2 + t0; } function lab2xyz(t) { return t > t1 ? t * t * t : t2 * (t - t0); } function xyz2rgb(x) { return 255 * (x <= 0.0031308 ? 12.92 * x : 1.055 * Math.pow(x, 1 / 2.4) - 0.055); } function rgb2xyz(x) { return (x /= 255) <= 0.04045 ? x / 12.92 : Math.pow((x + 0.055) / 1.055, 2.4); } function hclConvert(o) { if (o instanceof Hcl) return new Hcl(o.h, o.c, o.l, o.opacity); if (!(o instanceof Lab)) o = labConvert(o); var h = Math.atan2(o.b, o.a) * rad2deg; return new Hcl(h < 0 ? h + 360 : h, Math.sqrt(o.a * o.a + o.b * o.b), o.l, o.opacity); } function hcl(h, c, l, opacity) { return arguments.length === 1 ? hclConvert(h) : new Hcl(h, c, l, opacity == null ? 1 : opacity); } function Hcl(h, c, l, opacity) { this.h = +h; this.c = +c; this.l = +l; this.opacity = +opacity; } define(Hcl, hcl, extend(Color, { brighter: function(k) { return new Hcl(this.h, this.c, this.l + Kn * (k == null ? 1 : k), this.opacity); }, darker: function(k) { return new Hcl(this.h, this.c, this.l - Kn * (k == null ? 1 : k), this.opacity); }, rgb: function() { return labConvert(this).rgb(); } })); var A = -0.14861; var B = +1.78277; var C = -0.29227; var D = -0.90649; var E = +1.97294; var ED = E * D; var EB = E * B; var BC_DA = B * C - D * A; function cubehelixConvert(o) { if (o instanceof Cubehelix) return new Cubehelix(o.h, o.s, o.l, o.opacity); if (!(o instanceof Rgb)) o = rgbConvert(o); var r = o.r / 255, g = o.g / 255, b = o.b / 255, l = (BC_DA * b + ED * r - EB * g) / (BC_DA + ED - EB), bl = b - l, k = (E * (g - l) - C * bl) / D, s = Math.sqrt(k * k + bl * bl) / (E * l * (1 - l)), // NaN if l=0 or l=1 h = s ? Math.atan2(k, bl) * rad2deg - 120 : NaN; return new Cubehelix(h < 0 ? h + 360 : h, s, l, o.opacity); } function cubehelix(h, s, l, opacity) { return arguments.length === 1 ? cubehelixConvert(h) : new Cubehelix(h, s, l, opacity == null ? 1 : opacity); } function Cubehelix(h, s, l, opacity) { this.h = +h; this.s = +s; this.l = +l; this.opacity = +opacity; } define(Cubehelix, cubehelix, extend(Color, { brighter: function(k) { k = k == null ? brighter : Math.pow(brighter, k); return new Cubehelix(this.h, this.s, this.l * k, this.opacity); }, darker: function(k) { k = k == null ? darker : Math.pow(darker, k); return new Cubehelix(this.h, this.s, this.l * k, this.opacity); }, rgb: function() { var h = isNaN(this.h) ? 0 : (this.h + 120) * deg2rad, l = +this.l, a = isNaN(this.s) ? 0 : this.s * l * (1 - l), cosh = Math.cos(h), sinh = Math.sin(h); return new Rgb( 255 * (l + a * (A * cosh + B * sinh)), 255 * (l + a * (C * cosh + D * sinh)), 255 * (l + a * (E * cosh)), this.opacity ); } })); var version = "0.4.2"; exports.version = version; exports.color = color; exports.rgb = rgb; exports.hsl = hsl; exports.lab = lab; exports.hcl = hcl; exports.cubehelix = cubehelix; })); })(); }); require.register("kohonen/node_modules/d3-format/build/d3-format.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-format"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_format = {}))); }(this, function (exports) { 'use strict'; // Computes the decimal coefficient and exponent of the specified number x with // significant digits p, where x is positive and p is in [1, 21] or undefined. // For example, formatDecimal(1.23) returns ["123", 0]. function formatDecimal(x, p) { if ((i = (x = p ? x.toExponential(p - 1) : x.toExponential()).indexOf("e")) < 0) return null; // NaN, ±Infinity var i, coefficient = x.slice(0, i); // The string returned by toExponential either has the form \d\.\d+e[-+]\d+ // (e.g., 1.2e+3) or the form \de[-+]\d+ (e.g., 1e+3). return [ coefficient.length > 1 ? coefficient[0] + coefficient.slice(2) : coefficient, +x.slice(i + 1) ]; } function exponent(x) { return x = formatDecimal(Math.abs(x)), x ? x[1] : NaN; } function formatGroup(grouping, thousands) { return function(value, width) { var i = value.length, t = [], j = 0, g = grouping[0], length = 0; while (i > 0 && g > 0) { if (length + g + 1 > width) g = Math.max(1, width - length); t.push(value.substring(i -= g, i + g)); if ((length += g + 1) > width) break; g = grouping[j = (j + 1) % grouping.length]; } return t.reverse().join(thousands); }; } function formatDefault(x, p) { x = x.toPrecision(p); out: for (var n = x.length, i = 1, i0 = -1, i1; i < n; ++i) { switch (x[i]) { case ".": i0 = i1 = i; break; case "0": if (i0 === 0) i0 = i; i1 = i; break; case "e": break out; default: if (i0 > 0) i0 = 0; break; } } return i0 > 0 ? x.slice(0, i0) + x.slice(i1 + 1) : x; } var prefixExponent; function formatPrefixAuto(x, p) { var d = formatDecimal(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1], i = exponent - (prefixExponent = Math.max(-8, Math.min(8, Math.floor(exponent / 3))) * 3) + 1, n = coefficient.length; return i === n ? coefficient : i > n ? coefficient + new Array(i - n + 1).join("0") : i > 0 ? coefficient.slice(0, i) + "." + coefficient.slice(i) : "0." + new Array(1 - i).join("0") + formatDecimal(x, Math.max(0, p + i - 1))[0]; // less than 1y! } function formatRounded(x, p) { var d = formatDecimal(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1]; return exponent < 0 ? "0." + new Array(-exponent).join("0") + coefficient : coefficient.length > exponent + 1 ? coefficient.slice(0, exponent + 1) + "." + coefficient.slice(exponent + 1) : coefficient + new Array(exponent - coefficient.length + 2).join("0"); } var formatTypes = { "": formatDefault, "%": function(x, p) { return (x * 100).toFixed(p); }, "b": function(x) { return Math.round(x).toString(2); }, "c": function(x) { return x + ""; }, "d": function(x) { return Math.round(x).toString(10); }, "e": function(x, p) { return x.toExponential(p); }, "f": function(x, p) { return x.toFixed(p); }, "g": function(x, p) { return x.toPrecision(p); }, "o": function(x) { return Math.round(x).toString(8); }, "p": function(x, p) { return formatRounded(x * 100, p); }, "r": formatRounded, "s": formatPrefixAuto, "X": function(x) { return Math.round(x).toString(16).toUpperCase(); }, "x": function(x) { return Math.round(x).toString(16); } }; // [[fill]align][sign][symbol][0][width][,][.precision][type] var re = /^(?:(.)?([<>=^]))?([+\-\( ])?([$#])?(0)?(\d+)?(,)?(\.\d+)?([a-z%])?$/i; function formatSpecifier(specifier) { return new FormatSpecifier(specifier); } function FormatSpecifier(specifier) { if (!(match = re.exec(specifier))) throw new Error("invalid format: " + specifier); var match, fill = match[1] || " ", align = match[2] || ">", sign = match[3] || "-", symbol = match[4] || "", zero = !!match[5], width = match[6] && +match[6], comma = !!match[7], precision = match[8] && +match[8].slice(1), type = match[9] || ""; // The "n" type is an alias for ",g". if (type === "n") comma = true, type = "g"; // Map invalid types to the default format. else if (!formatTypes[type]) type = ""; // If zero fill is specified, padding goes after sign and before digits. if (zero || (fill === "0" && align === "=")) zero = true, fill = "0", align = "="; this.fill = fill; this.align = align; this.sign = sign; this.symbol = symbol; this.zero = zero; this.width = width; this.comma = comma; this.precision = precision; this.type = type; } FormatSpecifier.prototype.toString = function() { return this.fill + this.align + this.sign + this.symbol + (this.zero ? "0" : "") + (this.width == null ? "" : Math.max(1, this.width | 0)) + (this.comma ? "," : "") + (this.precision == null ? "" : "." + Math.max(0, this.precision | 0)) + this.type; }; var prefixes = ["y","z","a","f","p","n","µ","m","","k","M","G","T","P","E","Z","Y"]; function identity(x) { return x; } function locale(locale) { var group = locale.grouping && locale.thousands ? formatGroup(locale.grouping, locale.thousands) : identity, currency = locale.currency, decimal = locale.decimal; function newFormat(specifier) { specifier = formatSpecifier(specifier); var fill = specifier.fill, align = specifier.align, sign = specifier.sign, symbol = specifier.symbol, zero = specifier.zero, width = specifier.width, comma = specifier.comma, precision = specifier.precision, type = specifier.type; // Compute the prefix and suffix. // For SI-prefix, the suffix is lazily computed. var prefix = symbol === "$" ? currency[0] : symbol === "#" && /[boxX]/.test(type) ? "0" + type.toLowerCase() : "", suffix = symbol === "$" ? currency[1] : /[%p]/.test(type) ? "%" : ""; // What format function should we use? // Is this an integer type? // Can this type generate exponential notation? var formatType = formatTypes[type], maybeSuffix = !type || /[defgprs%]/.test(type); // Set the default precision if not specified, // or clamp the specified precision to the supported range. // For significant precision, it must be in [1, 21]. // For fixed precision, it must be in [0, 20]. precision = precision == null ? (type ? 6 : 12) : /[gprs]/.test(type) ? Math.max(1, Math.min(21, precision)) : Math.max(0, Math.min(20, precision)); function format(value) { var valuePrefix = prefix, valueSuffix = suffix, i, n, c; if (type === "c") { valueSuffix = formatType(value) + valueSuffix; value = ""; } else { value = +value; // Convert negative to positive, and compute the prefix. // Note that -0 is not less than 0, but 1 / -0 is! var valueNegative = (value < 0 || 1 / value < 0) && (value *= -1, true); // Perform the initial formatting. value = formatType(value, precision); // If the original value was negative, it may be rounded to zero during // formatting; treat this as (positive) zero. if (valueNegative) { i = -1, n = value.length; valueNegative = false; while (++i < n) { if (c = value.charCodeAt(i), (48 < c && c < 58) || (type === "x" && 96 < c && c < 103) || (type === "X" && 64 < c && c < 71)) { valueNegative = true; break; } } } // Compute the prefix and suffix. valuePrefix = (valueNegative ? (sign === "(" ? sign : "-") : sign === "-" || sign === "(" ? "" : sign) + valuePrefix; valueSuffix = valueSuffix + (type === "s" ? prefixes[8 + prefixExponent / 3] : "") + (valueNegative && sign === "(" ? ")" : ""); // Break the formatted value into the integer “value” part that can be // grouped, and fractional or exponential “suffix” part that is not. if (maybeSuffix) { i = -1, n = value.length; while (++i < n) { if (c = value.charCodeAt(i), 48 > c || c > 57) { valueSuffix = (c === 46 ? decimal + value.slice(i + 1) : value.slice(i)) + valueSuffix; value = value.slice(0, i); break; } } } } // If the fill character is not "0", grouping is applied before padding. if (comma && !zero) value = group(value, Infinity); // Compute the padding. var length = valuePrefix.length + value.length + valueSuffix.length, padding = length < width ? new Array(width - length + 1).join(fill) : ""; // If the fill character is "0", grouping is applied after padding. if (comma && zero) value = group(padding + value, padding.length ? width - valueSuffix.length : Infinity), padding = ""; // Reconstruct the final output based on the desired alignment. switch (align) { case "<": return valuePrefix + value + valueSuffix + padding; case "=": return valuePrefix + padding + value + valueSuffix; case "^": return padding.slice(0, length = padding.length >> 1) + valuePrefix + value + valueSuffix + padding.slice(length); } return padding + valuePrefix + value + valueSuffix; } format.toString = function() { return specifier + ""; }; return format; } function formatPrefix(specifier, value) { var f = newFormat((specifier = formatSpecifier(specifier), specifier.type = "f", specifier)), e = Math.max(-8, Math.min(8, Math.floor(exponent(value) / 3))) * 3, k = Math.pow(10, -e), prefix = prefixes[8 + e / 3]; return function(value) { return f(k * value) + prefix; }; } return { format: newFormat, formatPrefix: formatPrefix }; } var defaultLocale = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["$", ""] }); var caES = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "\xa0€"] }); var csCZ = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "\xa0Kč"] }); var deCH = locale({ decimal: ",", thousands: "'", grouping: [3], currency: ["", "\xa0CHF"] }); var deDE = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "\xa0€"] }); var enCA = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["$", ""] }); var enGB = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["£", ""] }); var esES = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "\xa0€"] }); var fiFI = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "\xa0€"] }); var frCA = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "$"] }); var frFR = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "\xa0€"] }); var heIL = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["₪", ""] }); var huHU = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "\xa0Ft"] }); var itIT = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["€", ""] }); var jaJP = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["", "円"] }); var koKR = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["₩", ""] }); var mkMK = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "\xa0ден."] }); var nlNL = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["€\xa0", ""] }); var plPL = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["", "zł"] }); var ptBR = locale({ decimal: ",", thousands: ".", grouping: [3], currency: ["R$", ""] }); var ruRU = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "\xa0руб."] }); var svSE = locale({ decimal: ",", thousands: "\xa0", grouping: [3], currency: ["", "SEK"] }); var zhCN = locale({ decimal: ".", thousands: ",", grouping: [3], currency: ["¥", ""] }); function precisionFixed(step) { return Math.max(0, -exponent(Math.abs(step))); } function precisionPrefix(step, value) { return Math.max(0, Math.max(-8, Math.min(8, Math.floor(exponent(value) / 3))) * 3 - exponent(Math.abs(step))); } function precisionRound(step, max) { step = Math.abs(step), max = Math.abs(max) - step; return Math.max(0, exponent(max) - exponent(step)) + 1; } var format = defaultLocale.format; var formatPrefix = defaultLocale.formatPrefix; var version = "0.5.1"; exports.version = version; exports.format = format; exports.formatPrefix = formatPrefix; exports.formatLocale = locale; exports.formatCaEs = caES; exports.formatCsCz = csCZ; exports.formatDeCh = deCH; exports.formatDeDe = deDE; exports.formatEnCa = enCA; exports.formatEnGb = enGB; exports.formatEnUs = defaultLocale; exports.formatEsEs = esES; exports.formatFiFi = fiFI; exports.formatFrCa = frCA; exports.formatFrFr = frFR; exports.formatHeIl = heIL; exports.formatHuHu = huHU; exports.formatItIt = itIT; exports.formatJaJp = jaJP; exports.formatKoKr = koKR; exports.formatMkMk = mkMK; exports.formatNlNl = nlNL; exports.formatPlPl = plPL; exports.formatPtBr = ptBR; exports.formatRuRu = ruRU; exports.formatSvSe = svSE; exports.formatZhCn = zhCN; exports.formatSpecifier = formatSpecifier; exports.precisionFixed = precisionFixed; exports.precisionPrefix = precisionPrefix; exports.precisionRound = precisionRound; })); })(); }); require.register("kohonen/node_modules/d3-interpolate/build/d3-interpolate.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-interpolate"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('d3-color')) : typeof define === 'function' && define.amd ? define(['exports', 'd3-color'], factory) : (factory((global.d3_interpolate = global.d3_interpolate || {}),global.d3_color)); }(this, function (exports,d3Color) { 'use strict'; function constant(x) { return function() { return x; }; } function linear(a, d) { return function(t) { return a + t * d; }; } function exponential(a, b, y) { return a = Math.pow(a, y), b = Math.pow(b, y) - a, y = 1 / y, function(t) { return Math.pow(a + t * b, y); }; } function interpolateHue(a, b) { var d = b - a; return d ? linear(a, d > 180 || d < -180 ? d - 360 * Math.round(d / 360) : d) : constant(isNaN(a) ? b : a); } function gamma(y) { return (y = +y) === 1 ? nogamma : function(a, b) { return b - a ? exponential(a, b, y) : constant(isNaN(a) ? b : a); }; } function nogamma(a, b) { var d = b - a; return d ? linear(a, d) : constant(isNaN(a) ? b : a); } var rgb$1 = (function gamma$$(y) { var interpolateColor = gamma(y); function interpolateRgb(start, end) { var r = interpolateColor((start = d3Color.rgb(start)).r, (end = d3Color.rgb(end)).r), g = interpolateColor(start.g, end.g), b = interpolateColor(start.b, end.b), opacity = interpolateColor(start.opacity, end.opacity); return function(t) { start.r = r(t); start.g = g(t); start.b = b(t); start.opacity = opacity(t); return start + ""; }; } interpolateRgb.gamma = gamma$$; return interpolateRgb; })(1); // TODO sparse arrays? function array(a, b) { var x = [], c = [], na = a ? a.length : 0, nb = b ? b.length : 0, n0 = Math.min(na, nb), i; for (i = 0; i < n0; ++i) x.push(value(a[i], b[i])); for (; i < na; ++i) c[i] = a[i]; for (; i < nb; ++i) c[i] = b[i]; return function(t) { for (i = 0; i < n0; ++i) c[i] = x[i](t); return c; }; } function number(a, b) { return a = +a, b -= a, function(t) { return a + b * t; }; } function object(a, b) { var i = {}, c = {}, k; if (a === null || typeof a !== "object") a = {}; if (b === null || typeof b !== "object") b = {}; for (k in a) { if (k in b) { i[k] = value(a[k], b[k]); } else { c[k] = a[k]; } } for (k in b) { if (!(k in a)) { c[k] = b[k]; } } return function(t) { for (k in i) c[k] = i[k](t); return c; }; } var reA = /[-+]?(?:\d+\.?\d*|\.?\d+)(?:[eE][-+]?\d+)?/g; var reB = new RegExp(reA.source, "g"); function zero(b) { return function() { return b; }; } function one(b) { return function(t) { return b(t) + ""; }; } function string(a, b) { var bi = reA.lastIndex = reB.lastIndex = 0, // scan index for next number in b am, // current match in a bm, // current match in b bs, // string preceding current number in b, if any i = -1, // index in s s = [], // string constants and placeholders q = []; // number interpolators // Coerce inputs to strings. a = a + "", b = b + ""; // Interpolate pairs of numbers in a & b. while ((am = reA.exec(a)) && (bm = reB.exec(b))) { if ((bs = bm.index) > bi) { // a string precedes the next number in b bs = b.slice(bi, bs); if (s[i]) s[i] += bs; // coalesce with previous string else s[++i] = bs; } if ((am = am[0]) === (bm = bm[0])) { // numbers in a & b match if (s[i]) s[i] += bm; // coalesce with previous string else s[++i] = bm; } else { // interpolate non-matching numbers s[++i] = null; q.push({i: i, x: number(am, bm)}); } bi = reB.lastIndex; } // Add remains of b. if (bi < b.length) { bs = b.slice(bi); if (s[i]) s[i] += bs; // coalesce with previous string else s[++i] = bs; } // Special optimization for only a single match. // Otherwise, interpolate each of the numbers and rejoin the string. return s.length < 2 ? (q[0] ? one(q[0].x) : zero(b)) : (b = q.length, function(t) { for (var i = 0, o; i < b; ++i) s[(o = q[i]).i] = o.x(t); return s.join(""); }); } function value(a, b) { var t = typeof b, c; return b == null || t === "boolean" ? constant(b) : (t === "number" ? number : t === "string" ? ((c = d3Color.color(b)) ? (b = c, rgb$1) : string) : b instanceof d3Color.color ? rgb$1 : Array.isArray(b) ? array : object)(a, b); } function round(a, b) { return a = +a, b -= a, function(t) { return Math.round(a + b * t); }; } var rad2deg = 180 / Math.PI; var identity = { translateX: 0, translateY: 0, rotate: 0, skewX: 0, scaleX: 1, scaleY: 1 }; function decompose(a, b, c, d, e, f) { if (a * d === b * c) return null; var scaleX = Math.sqrt(a * a + b * b); a /= scaleX, b /= scaleX; var skewX = a * c + b * d; c -= a * skewX, d -= b * skewX; var scaleY = Math.sqrt(c * c + d * d); c /= scaleY, d /= scaleY, skewX /= scaleY; if (a * d < b * c) a = -a, b = -b, skewX = -skewX, scaleX = -scaleX; return { translateX: e, translateY: f, rotate: Math.atan2(b, a) * rad2deg, skewX: Math.atan(skewX) * rad2deg, scaleX: scaleX, scaleY: scaleY }; } var cssNode; var cssRoot; var cssView; var svgNode; function parseCss(value) { if (value === "none") return identity; if (!cssNode) cssNode = document.createElement("DIV"), cssRoot = document.documentElement, cssView = document.defaultView; cssNode.style.transform = value; value = cssView.getComputedStyle(cssRoot.appendChild(cssNode), null).getPropertyValue("transform"); cssRoot.removeChild(cssNode); var m = value.slice(7, -1).split(","); return decompose(+m[0], +m[1], +m[2], +m[3], +m[4], +m[5]); } function parseSvg(value) { if (!svgNode) svgNode = document.createElementNS("http://www.w3.org/2000/svg", "g"); svgNode.setAttribute("transform", value == null ? "" : value); var m = svgNode.transform.baseVal.consolidate().matrix; return decompose(m.a, m.b, m.c, m.d, m.e, m.f); } function interpolateTransform(parse, pxComma, pxParen, degParen) { function pop(s) { return s.length ? s.pop() + " " : ""; } function translate(xa, ya, xb, yb, s, q) { if (xa !== xb || ya !== yb) { var i = s.push("translate(", null, pxComma, null, pxParen); q.push({i: i - 4, x: number(xa, xb)}, {i: i - 2, x: number(ya, yb)}); } else if (xb || yb) { s.push("translate(" + xb + pxComma + yb + pxParen); } } function rotate(a, b, s, q) { if (a !== b) { if (a - b > 180) b += 360; else if (b - a > 180) a += 360; // shortest path q.push({i: s.push(pop(s) + "rotate(", null, degParen) - 2, x: number(a, b)}); } else if (b) { s.push(pop(s) + "rotate(" + b + degParen); } } function skewX(a, b, s, q) { if (a !== b) { q.push({i: s.push(pop(s) + "skewX(", null, degParen) - 2, x: number(a, b)}); } else if (b) { s.push(pop(s) + "skewX(" + b + degParen); } } function scale(xa, ya, xb, yb, s, q) { if (xa !== xb || ya !== yb) { var i = s.push(pop(s) + "scale(", null, ",", null, ")"); q.push({i: i - 4, x: number(xa, xb)}, {i: i - 2, x: number(ya, yb)}); } else if (xb !== 1 || yb !== 1) { s.push(pop(s) + "scale(" + xb + "," + yb + ")"); } } return function(a, b) { var s = [], // string constants and placeholders q = []; // number interpolators a = parse(a), b = parse(b); translate(a.translateX, a.translateY, b.translateX, b.translateY, s, q); rotate(a.rotate, b.rotate, s, q); skewX(a.skewX, b.skewX, s, q); scale(a.scaleX, a.scaleY, b.scaleX, b.scaleY, s, q); a = b = null; // gc return function(t) { var i = -1, n = q.length, o; while (++i < n) s[(o = q[i]).i] = o.x(t); return s.join(""); }; }; } var interpolateTransformCss = interpolateTransform(parseCss, "px, ", "px)", "deg)"); var interpolateTransformSvg = interpolateTransform(parseSvg, ", ", ")", ")"); var rho = Math.SQRT2; var rho2 = 2; var rho4 = 4; var epsilon2 = 1e-12; function cosh(x) { return ((x = Math.exp(x)) + 1 / x) / 2; } function sinh(x) { return ((x = Math.exp(x)) - 1 / x) / 2; } function tanh(x) { return ((x = Math.exp(2 * x)) - 1) / (x + 1); } // p0 = [ux0, uy0, w0] // p1 = [ux1, uy1, w1] function zoom(p0, p1) { var ux0 = p0[0], uy0 = p0[1], w0 = p0[2], ux1 = p1[0], uy1 = p1[1], w1 = p1[2], dx = ux1 - ux0, dy = uy1 - uy0, d2 = dx * dx + dy * dy, i, S; // Special case for u0 ≅ u1. if (d2 < epsilon2) { S = Math.log(w1 / w0) / rho; i = function(t) { return [ ux0 + t * dx, uy0 + t * dy, w0 * Math.exp(rho * t * S) ]; } } // General case. else { var d1 = Math.sqrt(d2), b0 = (w1 * w1 - w0 * w0 + rho4 * d2) / (2 * w0 * rho2 * d1), b1 = (w1 * w1 - w0 * w0 - rho4 * d2) / (2 * w1 * rho2 * d1), r0 = Math.log(Math.sqrt(b0 * b0 + 1) - b0), r1 = Math.log(Math.sqrt(b1 * b1 + 1) - b1); S = (r1 - r0) / rho; i = function(t) { var s = t * S, coshr0 = cosh(r0), u = w0 / (rho2 * d1) * (coshr0 * tanh(rho * s + r0) - sinh(r0)); return [ ux0 + u * dx, uy0 + u * dy, w0 * coshr0 / cosh(rho * s + r0) ]; } } i.duration = S * 1000; return i; } function interpolateHsl(start, end) { var h = interpolateHue((start = d3Color.hsl(start)).h, (end = d3Color.hsl(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } function interpolateHslLong(start, end) { var h = nogamma((start = d3Color.hsl(start)).h, (end = d3Color.hsl(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } function interpolateLab(start, end) { var l = nogamma((start = d3Color.lab(start)).l, (end = d3Color.lab(end)).l), a = nogamma(start.a, end.a), b = nogamma(start.b, end.b), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.l = l(t); start.a = a(t); start.b = b(t); start.opacity = opacity(t); return start + ""; }; } function interpolateHcl(start, end) { var h = interpolateHue((start = d3Color.hcl(start)).h, (end = d3Color.hcl(end)).h), c = nogamma(start.c, end.c), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.c = c(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } function interpolateHclLong(start, end) { var h = nogamma((start = d3Color.hcl(start)).h, (end = d3Color.hcl(end)).h), c = nogamma(start.c, end.c), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.c = c(t); start.l = l(t); start.opacity = opacity(t); return start + ""; }; } var cubehelix$1 = (function gamma(y) { y = +y; function interpolateCubehelix(start, end) { var h = interpolateHue((start = d3Color.cubehelix(start)).h, (end = d3Color.cubehelix(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(Math.pow(t, y)); start.opacity = opacity(t); return start + ""; }; } interpolateCubehelix.gamma = gamma; return interpolateCubehelix; })(1); var cubehelixLong = (function gamma(y) { y = +y; function interpolateCubehelixLong(start, end) { var h = nogamma((start = d3Color.cubehelix(start)).h, (end = d3Color.cubehelix(end)).h), s = nogamma(start.s, end.s), l = nogamma(start.l, end.l), opacity = nogamma(start.opacity, end.opacity); return function(t) { start.h = h(t); start.s = s(t); start.l = l(Math.pow(t, y)); start.opacity = opacity(t); return start + ""; }; } interpolateCubehelixLong.gamma = gamma; return interpolateCubehelixLong; })(1); var version = "0.7.0"; exports.version = version; exports.interpolate = value; exports.interpolateArray = array; exports.interpolateNumber = number; exports.interpolateObject = object; exports.interpolateRound = round; exports.interpolateString = string; exports.interpolateTransformCss = interpolateTransformCss; exports.interpolateTransformSvg = interpolateTransformSvg; exports.interpolateZoom = zoom; exports.interpolateRgb = rgb$1; exports.interpolateHsl = interpolateHsl; exports.interpolateHslLong = interpolateHslLong; exports.interpolateLab = interpolateLab; exports.interpolateHcl = interpolateHcl; exports.interpolateHclLong = interpolateHclLong; exports.interpolateCubehelix = cubehelix$1; exports.interpolateCubehelixLong = cubehelixLong; })); })(); }); require.register("kohonen/node_modules/d3-random/build/d3-random.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-random"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_random = {}))); }(this, function (exports) { 'use strict'; function uniform(min, max) { min = min == null ? 0 : +min; max = max == null ? 1 : +max; if (arguments.length === 1) max = min, min = 0; else max -= min; return function() { return Math.random() * max + min; }; } function normal(mu, sigma) { var x, r; mu = mu == null ? 0 : +mu; sigma = sigma == null ? 1 : +sigma; return function() { var y; // If available, use the second previously-generated uniform random. if (x != null) y = x, x = null; // Otherwise, generate a new x and y. else do { x = Math.random() * 2 - 1; y = Math.random() * 2 - 1; r = x * x + y * y; } while (!r || r > 1); return mu + sigma * y * Math.sqrt(-2 * Math.log(r) / r); }; } function logNormal() { var randomNormal = normal.apply(this, arguments); return function() { return Math.exp(randomNormal()); }; } function irwinHall(n) { return function() { for (var sum = 0, i = 0; i < n; ++i) sum += Math.random(); return sum; }; } function bates(n) { var randomIrwinHall = irwinHall(n); return function() { return randomIrwinHall() / n; }; } function exponential(lambda) { return function() { return -Math.log(1 - Math.random()) / lambda; }; } var version = "0.2.1"; exports.version = version; exports.randomUniform = uniform; exports.randomNormal = normal; exports.randomLogNormal = logNormal; exports.randomBates = bates; exports.randomIrwinHall = irwinHall; exports.randomExponential = exponential; })); })(); }); require.register("kohonen/node_modules/d3-scale/build/d3-scale.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-scale"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('d3-array'), require('d3-collection'), require('d3-interpolate'), require('d3-format'), require('d3-time'), require('d3-time-format'), require('d3-color')) : typeof define === 'function' && define.amd ? define(['exports', 'd3-array', 'd3-collection', 'd3-interpolate', 'd3-format', 'd3-time', 'd3-time-format', 'd3-color'], factory) : (factory((global.d3_scale = global.d3_scale || {}),global.d3_array,global.d3_collection,global.d3_interpolate,global.d3_format,global.d3_time,global.d3_time_format,global.d3_color)); }(this, function (exports,d3Array,d3Collection,d3Interpolate,d3Format,d3Time,d3TimeFormat,d3Color) { 'use strict'; var array = Array.prototype; var map$1 = array.map; var slice = array.slice; var implicit = {name: "implicit"}; function ordinal() { var index = d3Collection.map(), domain = [], range = [], unknown = implicit; function scale(d) { var key = d + "", i = index.get(key); if (!i) { if (unknown !== implicit) return unknown; index.set(key, i = domain.push(d)); } return range[(i - 1) % range.length]; } scale.domain = function(_) { if (!arguments.length) return domain.slice(); domain = [], index = d3Collection.map(); var i = -1, n = _.length, d, key; while (++i < n) if (!index.has(key = (d = _[i]) + "")) index.set(key, domain.push(d)); return scale; }; scale.range = function(_) { return arguments.length ? (range = slice.call(_), scale) : range.slice(); }; scale.unknown = function(_) { return arguments.length ? (unknown = _, scale) : unknown; }; scale.copy = function() { return ordinal() .domain(domain) .range(range) .unknown(unknown); }; return scale; } function band() { var scale = ordinal().unknown(undefined), domain = scale.domain, ordinalRange = scale.range, range = [0, 1], step, bandwidth, round = false, paddingInner = 0, paddingOuter = 0, align = 0.5; delete scale.unknown; function rescale() { var n = domain().length, reverse = range[1] < range[0], start = range[reverse - 0], stop = range[1 - reverse]; step = (stop - start) / Math.max(1, n - paddingInner + paddingOuter * 2); if (round) step = Math.floor(step); start += (stop - start - step * (n - paddingInner)) * align; bandwidth = step * (1 - paddingInner); if (round) start = Math.round(start), bandwidth = Math.round(bandwidth); var values = d3Array.range(n).map(function(i) { return start + step * i; }); return ordinalRange(reverse ? values.reverse() : values); } scale.domain = function(_) { return arguments.length ? (domain(_), rescale()) : domain(); }; scale.range = function(_) { return arguments.length ? (range = [+_[0], +_[1]], rescale()) : range.slice(); }; scale.rangeRound = function(_) { return range = [+_[0], +_[1]], round = true, rescale(); }; scale.bandwidth = function() { return bandwidth; }; scale.step = function() { return step; }; scale.round = function(_) { return arguments.length ? (round = !!_, rescale()) : round; }; scale.padding = function(_) { return arguments.length ? (paddingInner = paddingOuter = Math.max(0, Math.min(1, _)), rescale()) : paddingInner; }; scale.paddingInner = function(_) { return arguments.length ? (paddingInner = Math.max(0, Math.min(1, _)), rescale()) : paddingInner; }; scale.paddingOuter = function(_) { return arguments.length ? (paddingOuter = Math.max(0, Math.min(1, _)), rescale()) : paddingOuter; }; scale.align = function(_) { return arguments.length ? (align = Math.max(0, Math.min(1, _)), rescale()) : align; }; scale.copy = function() { return band() .domain(domain()) .range(range) .round(round) .paddingInner(paddingInner) .paddingOuter(paddingOuter) .align(align); }; return rescale(); } function pointish(scale) { var copy = scale.copy; scale.padding = scale.paddingOuter; delete scale.paddingInner; delete scale.paddingOuter; scale.copy = function() { return pointish(copy()); }; return scale; } function point() { return pointish(band().paddingInner(1)); } function constant(x) { return function() { return x; }; } function number(x) { return +x; } var unit = [0, 1]; function deinterpolate(a, b) { return (b -= (a = +a)) ? function(x) { return (x - a) / b; } : constant(b); } function deinterpolateClamp(deinterpolate) { return function(a, b) { var d = deinterpolate(a = +a, b = +b); return function(x) { return x <= a ? 0 : x >= b ? 1 : d(x); }; }; } function reinterpolateClamp(reinterpolate) { return function(a, b) { var r = reinterpolate(a = +a, b = +b); return function(t) { return t <= 0 ? a : t >= 1 ? b : r(t); }; }; } function bimap(domain, range, deinterpolate, reinterpolate) { var d0 = domain[0], d1 = domain[1], r0 = range[0], r1 = range[1]; if (d1 < d0) d0 = deinterpolate(d1, d0), r0 = reinterpolate(r1, r0); else d0 = deinterpolate(d0, d1), r0 = reinterpolate(r0, r1); return function(x) { return r0(d0(x)); }; } function polymap(domain, range, deinterpolate, reinterpolate) { var j = Math.min(domain.length, range.length) - 1, d = new Array(j), r = new Array(j), i = -1; // Reverse descending domains. if (domain[j] < domain[0]) { domain = domain.slice().reverse(); range = range.slice().reverse(); } while (++i < j) { d[i] = deinterpolate(domain[i], domain[i + 1]); r[i] = reinterpolate(range[i], range[i + 1]); } return function(x) { var i = d3Array.bisect(domain, x, 1, j) - 1; return r[i](d[i](x)); }; } function copy(source, target) { return target .domain(source.domain()) .range(source.range()) .interpolate(source.interpolate()) .clamp(source.clamp()); } // deinterpolate(a, b)(x) takes a domain value x in [a,b] and returns the corresponding parameter t in [0,1]. // reinterpolate(a, b)(t) takes a parameter t in [0,1] and returns the corresponding domain value x in [a,b]. function continuous(deinterpolate$$, reinterpolate) { var domain = unit, range = unit, interpolate = d3Interpolate.interpolate, clamp = false, output, input; function rescale() { var map = Math.min(domain.length, range.length) > 2 ? polymap : bimap; output = map(domain, range, clamp ? deinterpolateClamp(deinterpolate$$) : deinterpolate$$, interpolate); input = map(range, domain, deinterpolate, clamp ? reinterpolateClamp(reinterpolate) : reinterpolate); return scale; } function scale(x) { return output(+x); } scale.invert = function(y) { return input(+y); }; scale.domain = function(_) { return arguments.length ? (domain = map$1.call(_, number), rescale()) : domain.slice(); }; scale.range = function(_) { return arguments.length ? (range = slice.call(_), rescale()) : range.slice(); }; scale.rangeRound = function(_) { return range = slice.call(_), interpolate = d3Interpolate.interpolateRound, rescale(); }; scale.clamp = function(_) { return arguments.length ? (clamp = !!_, rescale()) : clamp; }; scale.interpolate = function(_) { return arguments.length ? (interpolate = _, rescale()) : interpolate; }; return rescale(); } function tickFormat(domain, count, specifier) { var start = domain[0], stop = domain[domain.length - 1], step = d3Array.tickStep(start, stop, count == null ? 10 : count), precision; specifier = d3Format.formatSpecifier(specifier == null ? ",f" : specifier); switch (specifier.type) { case "s": { var value = Math.max(Math.abs(start), Math.abs(stop)); if (specifier.precision == null && !isNaN(precision = d3Format.precisionPrefix(step, value))) specifier.precision = precision; return d3Format.formatPrefix(specifier, value); } case "": case "e": case "g": case "p": case "r": { if (specifier.precision == null && !isNaN(precision = d3Format.precisionRound(step, Math.max(Math.abs(start), Math.abs(stop))))) specifier.precision = precision - (specifier.type === "e"); break; } case "f": case "%": { if (specifier.precision == null && !isNaN(precision = d3Format.precisionFixed(step))) specifier.precision = precision - (specifier.type === "%") * 2; break; } } return d3Format.format(specifier); } function linearish(scale) { var domain = scale.domain; scale.ticks = function(count) { var d = domain(); return d3Array.ticks(d[0], d[d.length - 1], count == null ? 10 : count); }; scale.tickFormat = function(count, specifier) { return tickFormat(domain(), count, specifier); }; scale.nice = function(count) { var d = domain(), i = d.length - 1, n = count == null ? 10 : count, start = d[0], stop = d[i], step = d3Array.tickStep(start, stop, n); if (step) { step = d3Array.tickStep(Math.floor(start / step) * step, Math.ceil(stop / step) * step, n); d[0] = Math.floor(start / step) * step; d[i] = Math.ceil(stop / step) * step; domain(d); } return scale; }; return scale; } function linear() { var scale = continuous(deinterpolate, d3Interpolate.interpolateNumber); scale.copy = function() { return copy(scale, linear()); }; return linearish(scale); } function identity() { var domain = [0, 1]; function scale(x) { return +x; } scale.invert = scale; scale.domain = scale.range = function(_) { return arguments.length ? (domain = map$1.call(_, number), scale) : domain.slice(); }; scale.copy = function() { return identity().domain(domain); }; return linearish(scale); } function nice(domain, interval) { domain = domain.slice(); var i0 = 0, i1 = domain.length - 1, x0 = domain[i0], x1 = domain[i1], t; if (x1 < x0) { t = i0, i0 = i1, i1 = t; t = x0, x0 = x1, x1 = t; } domain[i0] = interval.floor(x0); domain[i1] = interval.ceil(x1); return domain; } function deinterpolate$1(a, b) { return (b = Math.log(b / a)) ? function(x) { return Math.log(x / a) / b; } : constant(b); } function reinterpolate(a, b) { return a < 0 ? function(t) { return -Math.pow(-b, t) * Math.pow(-a, 1 - t); } : function(t) { return Math.pow(b, t) * Math.pow(a, 1 - t); }; } function pow10(x) { return isFinite(x) ? +("1e" + x) : x < 0 ? 0 : x; } function powp(base) { return base === 10 ? pow10 : base === Math.E ? Math.exp : function(x) { return Math.pow(base, x); }; } function logp(base) { return base === Math.E ? Math.log : base === 10 && Math.log10 || base === 2 && Math.log2 || (base = Math.log(base), function(x) { return Math.log(x) / base; }); } function reflect(f) { return function(x) { return -f(-x); }; } function log() { var scale = continuous(deinterpolate$1, reinterpolate).domain([1, 10]), domain = scale.domain, base = 10, logs = logp(10), pows = powp(10); function rescale() { logs = logp(base), pows = powp(base); if (domain()[0] < 0) logs = reflect(logs), pows = reflect(pows); return scale; } scale.base = function(_) { return arguments.length ? (base = +_, rescale()) : base; }; scale.domain = function(_) { return arguments.length ? (domain(_), rescale()) : domain(); }; scale.ticks = function(count) { var d = domain(), u = d[0], v = d[d.length - 1], r; if (r = v < u) i = u, u = v, v = i; var i = logs(u), j = logs(v), p, k, t, n = count == null ? 10 : +count, z = []; if (!(base % 1) && j - i < n) { i = Math.round(i) - 1, j = Math.round(j) + 1; if (u > 0) for (; i < j; ++i) { for (k = 1, p = pows(i); k < base; ++k) { t = p * k; if (t < u) continue; if (t > v) break; z.push(t); } } else for (; i < j; ++i) { for (k = base - 1, p = pows(i); k >= 1; --k) { t = p * k; if (t < u) continue; if (t > v) break; z.push(t); } } if (r) z.reverse(); } else { z = d3Array.ticks(i, j, Math.min(j - i, n)).map(pows); } return z; }; scale.tickFormat = function(count, specifier) { if (specifier == null) specifier = base === 10 ? ".0e" : ","; if (typeof specifier !== "function") specifier = d3Format.format(specifier); if (count === Infinity) return specifier; if (count == null) count = 10; var k = Math.max(1, base * count / scale.ticks().length); // TODO fast estimate? return function(d) { var i = d / pows(Math.round(logs(d))); if (i * base < base - 0.5) i *= base; return i <= k ? specifier(d) : ""; }; }; scale.nice = function() { return domain(nice(domain(), { floor: function(x) { return pows(Math.floor(logs(x))); }, ceil: function(x) { return pows(Math.ceil(logs(x))); } })); }; scale.copy = function() { return copy(scale, log().base(base)); }; return scale; } function raise(x, exponent) { return x < 0 ? -Math.pow(-x, exponent) : Math.pow(x, exponent); } function pow() { var exponent = 1, scale = continuous(deinterpolate, reinterpolate), domain = scale.domain; function deinterpolate(a, b) { return (b = raise(b, exponent) - (a = raise(a, exponent))) ? function(x) { return (raise(x, exponent) - a) / b; } : constant(b); } function reinterpolate(a, b) { b = raise(b, exponent) - (a = raise(a, exponent)); return function(t) { return raise(a + b * t, 1 / exponent); }; } scale.exponent = function(_) { return arguments.length ? (exponent = +_, domain(domain())) : exponent; }; scale.copy = function() { return copy(scale, pow().exponent(exponent)); }; return linearish(scale); } function sqrt() { return pow().exponent(0.5); } function quantile$1() { var domain = [], range = [], thresholds = []; function rescale() { var i = 0, n = Math.max(1, range.length); thresholds = new Array(n - 1); while (++i < n) thresholds[i - 1] = d3Array.quantile(domain, i / n); return scale; } function scale(x) { if (!isNaN(x = +x)) return range[d3Array.bisect(thresholds, x)]; } scale.invertExtent = function(y) { var i = range.indexOf(y); return i < 0 ? [NaN, NaN] : [ i > 0 ? thresholds[i - 1] : domain[0], i < thresholds.length ? thresholds[i] : domain[domain.length - 1] ]; }; scale.domain = function(_) { if (!arguments.length) return domain.slice(); domain = []; for (var i = 0, n = _.length, d; i < n; ++i) if (d = _[i], d != null && !isNaN(d = +d)) domain.push(d); domain.sort(d3Array.ascending); return rescale(); }; scale.range = function(_) { return arguments.length ? (range = slice.call(_), rescale()) : range.slice(); }; scale.quantiles = function() { return thresholds.slice(); }; scale.copy = function() { return quantile$1() .domain(domain) .range(range); }; return scale; } function quantize() { var x0 = 0, x1 = 1, n = 1, domain = [0.5], range = [0, 1]; function scale(x) { if (x <= x) return range[d3Array.bisect(domain, x, 0, n)]; } function rescale() { var i = -1; domain = new Array(n); while (++i < n) domain[i] = ((i + 1) * x1 - (i - n) * x0) / (n + 1); return scale; } scale.domain = function(_) { return arguments.length ? (x0 = +_[0], x1 = +_[1], rescale()) : [x0, x1]; }; scale.range = function(_) { return arguments.length ? (n = (range = slice.call(_)).length - 1, rescale()) : range.slice(); }; scale.invertExtent = function(y) { var i = range.indexOf(y); return i < 0 ? [NaN, NaN] : i < 1 ? [x0, domain[0]] : i >= n ? [domain[n - 1], x1] : [domain[i - 1], domain[i]]; }; scale.copy = function() { return quantize() .domain([x0, x1]) .range(range); }; return linearish(scale); } function threshold() { var domain = [0.5], range = [0, 1], n = 1; function scale(x) { if (x <= x) return range[d3Array.bisect(domain, x, 0, n)]; } scale.domain = function(_) { return arguments.length ? (domain = slice.call(_), n = Math.min(domain.length, range.length - 1), scale) : domain.slice(); }; scale.range = function(_) { return arguments.length ? (range = slice.call(_), n = Math.min(domain.length, range.length - 1), scale) : range.slice(); }; scale.invertExtent = function(y) { var i = range.indexOf(y); return [domain[i - 1], domain[i]]; }; scale.copy = function() { return threshold() .domain(domain) .range(range); }; return scale; } var durationSecond = 1000; var durationMinute = durationSecond * 60; var durationHour = durationMinute * 60; var durationDay = durationHour * 24; var durationWeek = durationDay * 7; var durationMonth = durationDay * 30; var durationYear = durationDay * 365; function newDate(t) { return new Date(t); } function calendar(year, month, week, day, hour, minute, second, millisecond, format) { var scale = continuous(deinterpolate, d3Interpolate.interpolateNumber), invert = scale.invert, domain = scale.domain; var formatMillisecond = format(".%L"), formatSecond = format(":%S"), formatMinute = format("%I:%M"), formatHour = format("%I %p"), formatDay = format("%a %d"), formatWeek = format("%b %d"), formatMonth = format("%B"), formatYear = format("%Y"); var tickIntervals = [ [second, 1, durationSecond], [second, 5, 5 * durationSecond], [second, 15, 15 * durationSecond], [second, 30, 30 * durationSecond], [minute, 1, durationMinute], [minute, 5, 5 * durationMinute], [minute, 15, 15 * durationMinute], [minute, 30, 30 * durationMinute], [ hour, 1, durationHour ], [ hour, 3, 3 * durationHour ], [ hour, 6, 6 * durationHour ], [ hour, 12, 12 * durationHour ], [ day, 1, durationDay ], [ day, 2, 2 * durationDay ], [ week, 1, durationWeek ], [ month, 1, durationMonth ], [ month, 3, 3 * durationMonth ], [ year, 1, durationYear ] ]; function tickFormat(date) { return (second(date) < date ? formatMillisecond : minute(date) < date ? formatSecond : hour(date) < date ? formatMinute : day(date) < date ? formatHour : month(date) < date ? (week(date) < date ? formatDay : formatWeek) : year(date) < date ? formatMonth : formatYear)(date); } function tickInterval(interval, start, stop, step) { if (interval == null) interval = 10; // If a desired tick count is specified, pick a reasonable tick interval // based on the extent of the domain and a rough estimate of tick size. // Otherwise, assume interval is already a time interval and use it. if (typeof interval === "number") { var target = Math.abs(stop - start) / interval, i = d3Array.bisector(function(i) { return i[2]; }).right(tickIntervals, target); if (i === tickIntervals.length) { step = d3Array.tickStep(start / durationYear, stop / durationYear, interval); interval = year; } else if (i) { i = tickIntervals[target / tickIntervals[i - 1][2] < tickIntervals[i][2] / target ? i - 1 : i]; step = i[1]; interval = i[0]; } else { step = d3Array.tickStep(start, stop, interval); interval = millisecond; } } return step == null ? interval : interval.every(step); } scale.invert = function(y) { return new Date(invert(y)); }; scale.domain = function(_) { return arguments.length ? domain(_) : domain().map(newDate); }; scale.ticks = function(interval, step) { var d = domain(), t0 = d[0], t1 = d[d.length - 1], r = t1 < t0, t; if (r) t = t0, t0 = t1, t1 = t; t = tickInterval(interval, t0, t1, step); t = t ? t.range(t0, t1 + 1) : []; // inclusive stop return r ? t.reverse() : t; }; scale.tickFormat = function(specifier) { return specifier == null ? tickFormat : format(specifier); }; scale.nice = function(interval, step) { var d = domain(); return (interval = tickInterval(interval, d[0], d[d.length - 1], step)) ? domain(nice(d, interval)) : scale; }; scale.copy = function() { return copy(scale, calendar(year, month, week, day, hour, minute, second, millisecond, format)); }; return scale; } function time() { return calendar(d3Time.timeYear, d3Time.timeMonth, d3Time.timeWeek, d3Time.timeDay, d3Time.timeHour, d3Time.timeMinute, d3Time.timeSecond, d3Time.timeMillisecond, d3TimeFormat.timeFormat).domain([new Date(2000, 0, 1), new Date(2000, 0, 2)]); } function utcTime() { return calendar(d3Time.utcYear, d3Time.utcMonth, d3Time.utcWeek, d3Time.utcDay, d3Time.utcHour, d3Time.utcMinute, d3Time.utcSecond, d3Time.utcMillisecond, d3TimeFormat.utcFormat).domain([Date.UTC(2000, 0, 1), Date.UTC(2000, 0, 2)]); } function colors(s) { return s.match(/.{6}/g).map(function(x) { return "#" + x; }); } var colors10 = colors("1f77b4ff7f0e2ca02cd627289467bd8c564be377c27f7f7fbcbd2217becf"); function category10() { return ordinal().range(colors10); } var colors20b = colors("393b795254a36b6ecf9c9ede6379398ca252b5cf6bcedb9c8c6d31bd9e39e7ba52e7cb94843c39ad494ad6616be7969c7b4173a55194ce6dbdde9ed6"); function category20b() { return ordinal().range(colors20b); } var colors20c = colors("3182bd6baed69ecae1c6dbefe6550dfd8d3cfdae6bfdd0a231a35474c476a1d99bc7e9c0756bb19e9ac8bcbddcdadaeb636363969696bdbdbdd9d9d9"); function category20c() { return ordinal().range(colors20c); } var colors20 = colors("1f77b4aec7e8ff7f0effbb782ca02c98df8ad62728ff98969467bdc5b0d58c564bc49c94e377c2f7b6d27f7f7fc7c7c7bcbd22dbdb8d17becf9edae5"); function category20() { return ordinal().range(colors20); } function cubehelix$1() { return linear() .interpolate(d3Interpolate.interpolateCubehelixLong) .range([d3Color.cubehelix(300, 0.5, 0.0), d3Color.cubehelix(-240, 0.5, 1.0)]); } function sequential(interpolate) { var x0 = 0, x1 = 1, clamp = false; function scale(x) { var t = (x - x0) / (x1 - x0); return interpolate(clamp ? Math.max(0, Math.min(1, t)) : t); } scale.domain = function(_) { return arguments.length ? (x0 = +_[0], x1 = +_[1], scale) : [x0, x1]; }; scale.clamp = function(_) { return arguments.length ? (clamp = !!_, scale) : clamp; }; scale.copy = function() { return sequential(interpolate).domain([x0, x1]).clamp(clamp); }; return linearish(scale); } function warm() { return sequential(d3Interpolate.interpolateCubehelixLong(d3Color.cubehelix(-100, 0.75, 0.35), d3Color.cubehelix(80, 1.50, 0.8))); } function cool() { return sequential(d3Interpolate.interpolateCubehelixLong(d3Color.cubehelix(260, 0.75, 0.35), d3Color.cubehelix(80, 1.50, 0.8))); } function rainbow() { var rainbow = d3Color.cubehelix(); return sequential(function(t) { if (t < 0 || t > 1) t -= Math.floor(t); var ts = Math.abs(t - 0.5); rainbow.h = 360 * t - 100; rainbow.s = 1.5 - 1.5 * ts; rainbow.l = 0.8 - 0.9 * ts; return rainbow + ""; }); } var rangeViridis = colors("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"); var rangeMagma = colors("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"); var rangeInferno = colors("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"); var rangePlasma = colors("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"); function ramp(range) { var s = sequential(function(t) { return range[Math.round(t * range.length - t)]; }).clamp(true); delete s.clamp; return s; } function viridis() { return ramp(rangeViridis); } function magma() { return ramp(rangeMagma); } function inferno() { return ramp(rangeInferno); } function plasma() { return ramp(rangePlasma); } var version = "0.6.4"; exports.version = version; exports.scaleBand = band; exports.scalePoint = point; exports.scaleIdentity = identity; exports.scaleLinear = linear; exports.scaleLog = log; exports.scaleOrdinal = ordinal; exports.scaleImplicit = implicit; exports.scalePow = pow; exports.scaleSqrt = sqrt; exports.scaleQuantile = quantile$1; exports.scaleQuantize = quantize; exports.scaleThreshold = threshold; exports.scaleTime = time; exports.scaleUtc = utcTime; exports.scaleCategory10 = category10; exports.scaleCategory20b = category20b; exports.scaleCategory20c = category20c; exports.scaleCategory20 = category20; exports.scaleCubehelix = cubehelix$1; exports.scaleRainbow = rainbow; exports.scaleWarm = warm; exports.scaleCool = cool; exports.scaleViridis = viridis; exports.scaleMagma = magma; exports.scaleInferno = inferno; exports.scalePlasma = plasma; })); })(); }); require.register("kohonen/node_modules/d3-time-format/build/d3-time-format.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-time-format"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('d3-time')) : typeof define === 'function' && define.amd ? define(['exports', 'd3-time'], factory) : (factory((global.d3_time_format = global.d3_time_format || {}),global.d3_time)); }(this, function (exports,d3Time) { 'use strict'; var version = "0.3.2"; function localDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(-1, d.m, d.d, d.H, d.M, d.S, d.L); date.setFullYear(d.y); return date; } return new Date(d.y, d.m, d.d, d.H, d.M, d.S, d.L); } function utcDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(Date.UTC(-1, d.m, d.d, d.H, d.M, d.S, d.L)); date.setUTCFullYear(d.y); return date; } return new Date(Date.UTC(d.y, d.m, d.d, d.H, d.M, d.S, d.L)); } function newYear(y) { return {y: y, m: 0, d: 1, H: 0, M: 0, S: 0, L: 0}; } function locale$1(locale) { var locale_dateTime = locale.dateTime, locale_date = locale.date, locale_time = locale.time, locale_periods = locale.periods, locale_weekdays = locale.days, locale_shortWeekdays = locale.shortDays, locale_months = locale.months, locale_shortMonths = locale.shortMonths; var periodRe = formatRe(locale_periods), periodLookup = formatLookup(locale_periods), weekdayRe = formatRe(locale_weekdays), weekdayLookup = formatLookup(locale_weekdays), shortWeekdayRe = formatRe(locale_shortWeekdays), shortWeekdayLookup = formatLookup(locale_shortWeekdays), monthRe = formatRe(locale_months), monthLookup = formatLookup(locale_months), shortMonthRe = formatRe(locale_shortMonths), shortMonthLookup = formatLookup(locale_shortMonths); var formats = { "a": formatShortWeekday, "A": formatWeekday, "b": formatShortMonth, "B": formatMonth, "c": null, "d": formatDayOfMonth, "e": formatDayOfMonth, "H": formatHour24, "I": formatHour12, "j": formatDayOfYear, "L": formatMilliseconds, "m": formatMonthNumber, "M": formatMinutes, "p": formatPeriod, "S": formatSeconds, "U": formatWeekNumberSunday, "w": formatWeekdayNumber, "W": formatWeekNumberMonday, "x": null, "X": null, "y": formatYear, "Y": formatFullYear, "Z": formatZone, "%": formatLiteralPercent }; var utcFormats = { "a": formatUTCShortWeekday, "A": formatUTCWeekday, "b": formatUTCShortMonth, "B": formatUTCMonth, "c": null, "d": formatUTCDayOfMonth, "e": formatUTCDayOfMonth, "H": formatUTCHour24, "I": formatUTCHour12, "j": formatUTCDayOfYear, "L": formatUTCMilliseconds, "m": formatUTCMonthNumber, "M": formatUTCMinutes, "p": formatUTCPeriod, "S": formatUTCSeconds, "U": formatUTCWeekNumberSunday, "w": formatUTCWeekdayNumber, "W": formatUTCWeekNumberMonday, "x": null, "X": null, "y": formatUTCYear, "Y": formatUTCFullYear, "Z": formatUTCZone, "%": formatLiteralPercent }; var parses = { "a": parseShortWeekday, "A": parseWeekday, "b": parseShortMonth, "B": parseMonth, "c": parseLocaleDateTime, "d": parseDayOfMonth, "e": parseDayOfMonth, "H": parseHour24, "I": parseHour24, "j": parseDayOfYear, "L": parseMilliseconds, "m": parseMonthNumber, "M": parseMinutes, "p": parsePeriod, "S": parseSeconds, "U": parseWeekNumberSunday, "w": parseWeekdayNumber, "W": parseWeekNumberMonday, "x": parseLocaleDate, "X": parseLocaleTime, "y": parseYear, "Y": parseFullYear, "Z": parseZone, "%": parseLiteralPercent }; // These recursive directive definitions must be deferred. formats.x = newFormat(locale_date, formats); formats.X = newFormat(locale_time, formats); formats.c = newFormat(locale_dateTime, formats); utcFormats.x = newFormat(locale_date, utcFormats); utcFormats.X = newFormat(locale_time, utcFormats); utcFormats.c = newFormat(locale_dateTime, utcFormats); function newFormat(specifier, formats) { return function(date) { var string = [], i = -1, j = 0, n = specifier.length, c, pad, format; if (!(date instanceof Date)) date = new Date(+date); while (++i < n) { if (specifier.charCodeAt(i) === 37) { string.push(specifier.slice(j, i)); if ((pad = pads[c = specifier.charAt(++i)]) != null) c = specifier.charAt(++i); else pad = c === "e" ? " " : "0"; if (format = formats[c]) c = format(date, pad); string.push(c); j = i + 1; } } string.push(specifier.slice(j, i)); return string.join(""); }; } function newParse(specifier, newDate) { return function(string) { var d = newYear(1900), i = parseSpecifier(d, specifier, string += "", 0); if (i != string.length) return null; // The am-pm flag is 0 for AM, and 1 for PM. if ("p" in d) d.H = d.H % 12 + d.p * 12; // Convert day-of-week and week-of-year to day-of-year. if ("W" in d || "U" in d) { if (!("w" in d)) d.w = "W" in d ? 1 : 0; var day = "Z" in d ? utcDate(newYear(d.y)).getUTCDay() : newDate(newYear(d.y)).getDay(); d.m = 0; d.d = "W" in d ? (d.w + 6) % 7 + d.W * 7 - (day + 5) % 7 : d.w + d.U * 7 - (day + 6) % 7; } // If a time zone is specified, all fields are interpreted as UTC and then // offset according to the specified time zone. if ("Z" in d) { d.H += d.Z / 100 | 0; d.M += d.Z % 100; return utcDate(d); } // Otherwise, all fields are in local time. return newDate(d); }; } function parseSpecifier(d, specifier, string, j) { var i = 0, n = specifier.length, m = string.length, c, parse; while (i < n) { if (j >= m) return -1; c = specifier.charCodeAt(i++); if (c === 37) { c = specifier.charAt(i++); parse = parses[c in pads ? specifier.charAt(i++) : c]; if (!parse || ((j = parse(d, string, j)) < 0)) return -1; } else if (c != string.charCodeAt(j++)) { return -1; } } return j; } function parsePeriod(d, string, i) { var n = periodRe.exec(string.slice(i)); return n ? (d.p = periodLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortWeekday(d, string, i) { var n = shortWeekdayRe.exec(string.slice(i)); return n ? (d.w = shortWeekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseWeekday(d, string, i) { var n = weekdayRe.exec(string.slice(i)); return n ? (d.w = weekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortMonth(d, string, i) { var n = shortMonthRe.exec(string.slice(i)); return n ? (d.m = shortMonthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseMonth(d, string, i) { var n = monthRe.exec(string.slice(i)); return n ? (d.m = monthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseLocaleDateTime(d, string, i) { return parseSpecifier(d, locale_dateTime, string, i); } function parseLocaleDate(d, string, i) { return parseSpecifier(d, locale_date, string, i); } function parseLocaleTime(d, string, i) { return parseSpecifier(d, locale_time, string, i); } function formatShortWeekday(d) { return locale_shortWeekdays[d.getDay()]; } function formatWeekday(d) { return locale_weekdays[d.getDay()]; } function formatShortMonth(d) { return locale_shortMonths[d.getMonth()]; } function formatMonth(d) { return locale_months[d.getMonth()]; } function formatPeriod(d) { return locale_periods[+(d.getHours() >= 12)]; } function formatUTCShortWeekday(d) { return locale_shortWeekdays[d.getUTCDay()]; } function formatUTCWeekday(d) { return locale_weekdays[d.getUTCDay()]; } function formatUTCShortMonth(d) { return locale_shortMonths[d.getUTCMonth()]; } function formatUTCMonth(d) { return locale_months[d.getUTCMonth()]; } function formatUTCPeriod(d) { return locale_periods[+(d.getUTCHours() >= 12)]; } return { format: function(specifier) { var f = newFormat(specifier += "", formats); f.toString = function() { return specifier; }; return f; }, parse: function(specifier) { var p = newParse(specifier += "", localDate); p.toString = function() { return specifier; }; return p; }, utcFormat: function(specifier) { var f = newFormat(specifier += "", utcFormats); f.toString = function() { return specifier; }; return f; }, utcParse: function(specifier) { var p = newParse(specifier, utcDate); p.toString = function() { return specifier; }; return p; } }; } var pads = {"-": "", "_": " ", "0": "0"}; var numberRe = /^\s*\d+/; var percentRe = /^%/; var requoteRe = /[\\\^\$\*\+\?\|\[\]\(\)\.\{\}]/g; function pad(value, fill, width) { var sign = value < 0 ? "-" : "", string = (sign ? -value : value) + "", length = string.length; return sign + (length < width ? new Array(width - length + 1).join(fill) + string : string); } function requote(s) { return s.replace(requoteRe, "\\$&"); } function formatRe(names) { return new RegExp("^(?:" + names.map(requote).join("|") + ")", "i"); } function formatLookup(names) { var map = {}, i = -1, n = names.length; while (++i < n) map[names[i].toLowerCase()] = i; return map; } function parseWeekdayNumber(d, string, i) { var n = numberRe.exec(string.slice(i, i + 1)); return n ? (d.w = +n[0], i + n[0].length) : -1; } function parseWeekNumberSunday(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.U = +n[0], i + n[0].length) : -1; } function parseWeekNumberMonday(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.W = +n[0], i + n[0].length) : -1; } function parseFullYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 4)); return n ? (d.y = +n[0], i + n[0].length) : -1; } function parseYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.y = +n[0] + (+n[0] > 68 ? 1900 : 2000), i + n[0].length) : -1; } function parseZone(d, string, i) { var n = /^(Z)|([+-]\d\d)(?:\:?(\d\d))?/.exec(string.slice(i, i + 6)); return n ? (d.Z = n[1] ? 0 : -(n[2] + (n[3] || "00")), i + n[0].length) : -1; } function parseMonthNumber(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.m = n[0] - 1, i + n[0].length) : -1; } function parseDayOfMonth(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.d = +n[0], i + n[0].length) : -1; } function parseDayOfYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.m = 0, d.d = +n[0], i + n[0].length) : -1; } function parseHour24(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.H = +n[0], i + n[0].length) : -1; } function parseMinutes(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.M = +n[0], i + n[0].length) : -1; } function parseSeconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.S = +n[0], i + n[0].length) : -1; } function parseMilliseconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.L = +n[0], i + n[0].length) : -1; } function parseLiteralPercent(d, string, i) { var n = percentRe.exec(string.slice(i, i + 1)); return n ? i + n[0].length : -1; } function formatDayOfMonth(d, p) { return pad(d.getDate(), p, 2); } function formatHour24(d, p) { return pad(d.getHours(), p, 2); } function formatHour12(d, p) { return pad(d.getHours() % 12 || 12, p, 2); } function formatDayOfYear(d, p) { return pad(1 + d3Time.timeDay.count(d3Time.timeYear(d), d), p, 3); } function formatMilliseconds(d, p) { return pad(d.getMilliseconds(), p, 3); } function formatMonthNumber(d, p) { return pad(d.getMonth() + 1, p, 2); } function formatMinutes(d, p) { return pad(d.getMinutes(), p, 2); } function formatSeconds(d, p) { return pad(d.getSeconds(), p, 2); } function formatWeekNumberSunday(d, p) { return pad(d3Time.timeSunday.count(d3Time.timeYear(d), d), p, 2); } function formatWeekdayNumber(d) { return d.getDay(); } function formatWeekNumberMonday(d, p) { return pad(d3Time.timeMonday.count(d3Time.timeYear(d), d), p, 2); } function formatYear(d, p) { return pad(d.getFullYear() % 100, p, 2); } function formatFullYear(d, p) { return pad(d.getFullYear() % 10000, p, 4); } function formatZone(d) { var z = d.getTimezoneOffset(); return (z > 0 ? "-" : (z *= -1, "+")) + pad(z / 60 | 0, "0", 2) + pad(z % 60, "0", 2); } function formatUTCDayOfMonth(d, p) { return pad(d.getUTCDate(), p, 2); } function formatUTCHour24(d, p) { return pad(d.getUTCHours(), p, 2); } function formatUTCHour12(d, p) { return pad(d.getUTCHours() % 12 || 12, p, 2); } function formatUTCDayOfYear(d, p) { return pad(1 + d3Time.utcDay.count(d3Time.utcYear(d), d), p, 3); } function formatUTCMilliseconds(d, p) { return pad(d.getUTCMilliseconds(), p, 3); } function formatUTCMonthNumber(d, p) { return pad(d.getUTCMonth() + 1, p, 2); } function formatUTCMinutes(d, p) { return pad(d.getUTCMinutes(), p, 2); } function formatUTCSeconds(d, p) { return pad(d.getUTCSeconds(), p, 2); } function formatUTCWeekNumberSunday(d, p) { return pad(d3Time.utcSunday.count(d3Time.utcYear(d), d), p, 2); } function formatUTCWeekdayNumber(d) { return d.getUTCDay(); } function formatUTCWeekNumberMonday(d, p) { return pad(d3Time.utcMonday.count(d3Time.utcYear(d), d), p, 2); } function formatUTCYear(d, p) { return pad(d.getUTCFullYear() % 100, p, 2); } function formatUTCFullYear(d, p) { return pad(d.getUTCFullYear() % 10000, p, 4); } function formatUTCZone() { return "+0000"; } function formatLiteralPercent() { return "%"; } var locale = locale$1({ dateTime: "%a %b %e %X %Y", date: "%m/%d/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], shortDays: ["Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"], months: ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] }); var caES = locale$1({ dateTime: "%A, %e de %B de %Y, %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["diumenge", "dilluns", "dimarts", "dimecres", "dijous", "divendres", "dissabte"], shortDays: ["dg.", "dl.", "dt.", "dc.", "dj.", "dv.", "ds."], months: ["gener", "febrer", "març", "abril", "maig", "juny", "juliol", "agost", "setembre", "octubre", "novembre", "desembre"], shortMonths: ["gen.", "febr.", "març", "abr.", "maig", "juny", "jul.", "ag.", "set.", "oct.", "nov.", "des."] }); var deCH = locale$1({ dateTime: "%A, der %e. %B %Y, %X", date: "%d.%m.%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["Sonntag", "Montag", "Dienstag", "Mittwoch", "Donnerstag", "Freitag", "Samstag"], shortDays: ["So", "Mo", "Di", "Mi", "Do", "Fr", "Sa"], months: ["Januar", "Februar", "März", "April", "Mai", "Juni", "Juli", "August", "September", "Oktober", "November", "Dezember"], shortMonths: ["Jan", "Feb", "Mrz", "Apr", "Mai", "Jun", "Jul", "Aug", "Sep", "Okt", "Nov", "Dez"] }); var deDE = locale$1({ dateTime: "%A, der %e. %B %Y, %X", date: "%d.%m.%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["Sonntag", "Montag", "Dienstag", "Mittwoch", "Donnerstag", "Freitag", "Samstag"], shortDays: ["So", "Mo", "Di", "Mi", "Do", "Fr", "Sa"], months: ["Januar", "Februar", "März", "April", "Mai", "Juni", "Juli", "August", "September", "Oktober", "November", "Dezember"], shortMonths: ["Jan", "Feb", "Mrz", "Apr", "Mai", "Jun", "Jul", "Aug", "Sep", "Okt", "Nov", "Dez"] }); var enCA = locale$1({ dateTime: "%a %b %e %X %Y", date: "%Y-%m-%d", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], shortDays: ["Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"], months: ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] }); var enGB = locale$1({ dateTime: "%a %e %b %X %Y", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], shortDays: ["Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"], months: ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] }); var esES = locale$1({ dateTime: "%A, %e de %B de %Y, %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["domingo", "lunes", "martes", "miércoles", "jueves", "viernes", "sábado"], shortDays: ["dom", "lun", "mar", "mié", "jue", "vie", "sáb"], months: ["enero", "febrero", "marzo", "abril", "mayo", "junio", "julio", "agosto", "septiembre", "octubre", "noviembre", "diciembre"], shortMonths: ["ene", "feb", "mar", "abr", "may", "jun", "jul", "ago", "sep", "oct", "nov", "dic"] }); var fiFI = locale$1({ dateTime: "%A, %-d. %Bta %Y klo %X", date: "%-d.%-m.%Y", time: "%H:%M:%S", periods: ["a.m.", "p.m."], days: ["sunnuntai", "maanantai", "tiistai", "keskiviikko", "torstai", "perjantai", "lauantai"], shortDays: ["Su", "Ma", "Ti", "Ke", "To", "Pe", "La"], months: ["tammikuu", "helmikuu", "maaliskuu", "huhtikuu", "toukokuu", "kesäkuu", "heinäkuu", "elokuu", "syyskuu", "lokakuu", "marraskuu", "joulukuu"], shortMonths: ["Tammi", "Helmi", "Maalis", "Huhti", "Touko", "Kesä", "Heinä", "Elo", "Syys", "Loka", "Marras", "Joulu"] }); var frCA = locale$1({ dateTime: "%a %e %b %Y %X", date: "%Y-%m-%d", time: "%H:%M:%S", periods: ["", ""], days: ["dimanche", "lundi", "mardi", "mercredi", "jeudi", "vendredi", "samedi"], shortDays: ["dim", "lun", "mar", "mer", "jeu", "ven", "sam"], months: ["janvier", "février", "mars", "avril", "mai", "juin", "juillet", "août", "septembre", "octobre", "novembre", "décembre"], shortMonths: ["jan", "fév", "mar", "avr", "mai", "jui", "jul", "aoû", "sep", "oct", "nov", "déc"] }); var frFR = locale$1({ dateTime: "%A, le %e %B %Y, %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["dimanche", "lundi", "mardi", "mercredi", "jeudi", "vendredi", "samedi"], shortDays: ["dim.", "lun.", "mar.", "mer.", "jeu.", "ven.", "sam."], months: ["janvier", "février", "mars", "avril", "mai", "juin", "juillet", "août", "septembre", "octobre", "novembre", "décembre"], shortMonths: ["janv.", "févr.", "mars", "avr.", "mai", "juin", "juil.", "août", "sept.", "oct.", "nov.", "déc."] }); var heIL = locale$1({ dateTime: "%A, %e ב%B %Y %X", date: "%d.%m.%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["ראשון", "שני", "שלישי", "רביעי", "חמישי", "שישי", "שבת"], shortDays: ["א׳", "ב׳", "ג׳", "ד׳", "ה׳", "ו׳", "ש׳"], months: ["ינואר", "פברואר", "מרץ", "אפריל", "מאי", "יוני", "יולי", "אוגוסט", "ספטמבר", "אוקטובר", "נובמבר", "דצמבר"], shortMonths: ["ינו׳", "פבר׳", "מרץ", "אפר׳", "מאי", "יוני", "יולי", "אוג׳", "ספט׳", "אוק׳", "נוב׳", "דצמ׳"] }); var huHU = locale$1({ dateTime: "%Y. %B %-e., %A %X", date: "%Y. %m. %d.", time: "%H:%M:%S", periods: ["de.", "du."], // unused days: ["vasárnap", "hétfő", "kedd", "szerda", "csütörtök", "péntek", "szombat"], shortDays: ["V", "H", "K", "Sze", "Cs", "P", "Szo"], months: ["január", "február", "március", "április", "május", "június", "július", "augusztus", "szeptember", "október", "november", "december"], shortMonths: ["jan.", "feb.", "már.", "ápr.", "máj.", "jún.", "júl.", "aug.", "szept.", "okt.", "nov.", "dec."] }); var itIT = locale$1({ dateTime: "%A %e %B %Y, %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["Domenica", "Lunedì", "Martedì", "Mercoledì", "Giovedì", "Venerdì", "Sabato"], shortDays: ["Dom", "Lun", "Mar", "Mer", "Gio", "Ven", "Sab"], months: ["Gennaio", "Febbraio", "Marzo", "Aprile", "Maggio", "Giugno", "Luglio", "Agosto", "Settembre", "Ottobre", "Novembre", "Dicembre"], shortMonths: ["Gen", "Feb", "Mar", "Apr", "Mag", "Giu", "Lug", "Ago", "Set", "Ott", "Nov", "Dic"] }); var jaJP = locale$1({ dateTime: "%Y %b %e %a %X", date: "%Y/%m/%d", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["日曜日", "月曜日", "火曜日", "水曜日", "木曜日", "金曜日", "土曜日"], shortDays: ["日", "月", "火", "水", "木", "金", "土"], months: ["睦月", "如月", "弥生", "卯月", "皐月", "水無月", "文月", "葉月", "長月", "神無月", "霜月", "師走"], shortMonths: ["1月", "2月", "3月", "4月", "5月", "6月", "7月", "8月", "9月", "10月", "11月", "12月"] }); var koKR = locale$1({ dateTime: "%Y/%m/%d %a %X", date: "%Y/%m/%d", time: "%H:%M:%S", periods: ["오전", "오후"], days: ["일요일", "월요일", "화요일", "수요일", "목요일", "금요일", "토요일"], shortDays: ["일", "월", "화", "수", "목", "금", "토"], months: ["1월", "2월", "3월", "4월", "5월", "6월", "7월", "8월", "9월", "10월", "11월", "12월"], shortMonths: ["1월", "2월", "3월", "4월", "5월", "6월", "7월", "8월", "9월", "10월", "11월", "12월"] }); var mkMK = locale$1({ dateTime: "%A, %e %B %Y г. %X", date: "%d.%m.%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["недела", "понеделник", "вторник", "среда", "четврток", "петок", "сабота"], shortDays: ["нед", "пон", "вто", "сре", "чет", "пет", "саб"], months: ["јануари", "февруари", "март", "април", "мај", "јуни", "јули", "август", "септември", "октомври", "ноември", "декември"], shortMonths: ["јан", "фев", "мар", "апр", "мај", "јун", "јул", "авг", "сеп", "окт", "ное", "дек"] }); var nlNL = locale$1({ dateTime: "%a %e %B %Y %T", date: "%d-%m-%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["zondag", "maandag", "dinsdag", "woensdag", "donderdag", "vrijdag", "zaterdag"], shortDays: ["zo", "ma", "di", "wo", "do", "vr", "za"], months: ["januari", "februari", "maart", "april", "mei", "juni", "juli", "augustus", "september", "oktober", "november", "december"], shortMonths: ["jan", "feb", "mrt", "apr", "mei", "jun", "jul", "aug", "sep", "okt", "nov", "dec"] }); var plPL = locale$1({ dateTime: "%A, %e %B %Y, %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], // unused days: ["Niedziela", "Poniedziałek", "Wtorek", "Środa", "Czwartek", "Piątek", "Sobota"], shortDays: ["Niedz.", "Pon.", "Wt.", "Śr.", "Czw.", "Pt.", "Sob."], months: ["Styczeń", "Luty", "Marzec", "Kwiecień", "Maj", "Czerwiec", "Lipiec", "Sierpień", "Wrzesień", "Październik", "Listopad", "Grudzień"], shortMonths: ["Stycz.", "Luty", "Marz.", "Kwie.", "Maj", "Czerw.", "Lipc.", "Sierp.", "Wrz.", "Paźdz.", "Listop.", "Grudz."]/* In Polish language abbraviated months are not commonly used so there is a dispute about the proper abbraviations. */ }); var ptBR = locale$1({ dateTime: "%A, %e de %B de %Y. %X", date: "%d/%m/%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["Domingo", "Segunda", "Terça", "Quarta", "Quinta", "Sexta", "Sábado"], shortDays: ["Dom", "Seg", "Ter", "Qua", "Qui", "Sex", "Sáb"], months: ["Janeiro", "Fevereiro", "Março", "Abril", "Maio", "Junho", "Julho", "Agosto", "Setembro", "Outubro", "Novembro", "Dezembro"], shortMonths: ["Jan", "Fev", "Mar", "Abr", "Mai", "Jun", "Jul", "Ago", "Set", "Out", "Nov", "Dez"] }); var ruRU = locale$1({ dateTime: "%A, %e %B %Y г. %X", date: "%d.%m.%Y", time: "%H:%M:%S", periods: ["AM", "PM"], days: ["воскресенье", "понедельник", "вторник", "среда", "четверг", "пятница", "суббота"], shortDays: ["вс", "пн", "вт", "ср", "чт", "пт", "сб"], months: ["января", "февраля", "марта", "апреля", "мая", "июня", "июля", "августа", "сентября", "октября", "ноября", "декабря"], shortMonths: ["янв", "фев", "мар", "апр", "май", "июн", "июл", "авг", "сен", "окт", "ноя", "дек"] }); var svSE = locale$1({ dateTime: "%A den %d %B %Y %X", date: "%Y-%m-%d", time: "%H:%M:%S", periods: ["fm", "em"], days: ["Söndag", "Måndag", "Tisdag", "Onsdag", "Torsdag", "Fredag", "Lördag"], shortDays: ["Sön", "Mån", "Tis", "Ons", "Tor", "Fre", "Lör"], months: ["Januari", "Februari", "Mars", "April", "Maj", "Juni", "Juli", "Augusti", "September", "Oktober", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "Maj", "Jun", "Jul", "Aug", "Sep", "Okt", "Nov", "Dec"] }); var zhCN = locale$1({ dateTime: "%x %A %X", date: "%Y年%-m月%-d日", time: "%H:%M:%S", periods: ["上午", "下午"], days: ["星期日", "星期一", "星期二", "星期三", "星期四", "星期五", "星期六"], shortDays: ["周日", "周一", "周二", "周三", "周四", "周五", "周六"], months: ["一月", "二月", "三月", "四月", "五月", "六月", "七月", "八月", "九月", "十月", "十一月", "十二月"], shortMonths: ["一月", "二月", "三月", "四月", "五月", "六月", "七月", "八月", "九月", "十月", "十一月", "十二月"] }); var isoSpecifier = "%Y-%m-%dT%H:%M:%S.%LZ"; function formatIsoNative(date) { return date.toISOString(); } var formatIso = Date.prototype.toISOString ? formatIsoNative : locale.utcFormat(isoSpecifier); function parseIsoNative(string) { var date = new Date(string); return isNaN(date) ? null : date; } var parseIso = +new Date("2000-01-01T00:00:00.000Z") ? parseIsoNative : locale.utcParse(isoSpecifier); var timeFormat = locale.format; var timeParse = locale.parse; var utcFormat = locale.utcFormat; var utcParse = locale.utcParse; exports.timeFormat = timeFormat; exports.timeParse = timeParse; exports.utcFormat = utcFormat; exports.utcParse = utcParse; exports.version = version; exports.timeFormatLocale = locale$1; exports.timeFormatCaEs = caES; exports.timeFormatDeCh = deCH; exports.timeFormatDeDe = deDE; exports.timeFormatEnCa = enCA; exports.timeFormatEnGb = enGB; exports.timeFormatEnUs = locale; exports.timeFormatEsEs = esES; exports.timeFormatFiFi = fiFI; exports.timeFormatFrCa = frCA; exports.timeFormatFrFr = frFR; exports.timeFormatHeIl = heIL; exports.timeFormatHuHu = huHU; exports.timeFormatItIt = itIT; exports.timeFormatJaJp = jaJP; exports.timeFormatKoKr = koKR; exports.timeFormatMkMk = mkMK; exports.timeFormatNlNl = nlNL; exports.timeFormatPlPl = plPL; exports.timeFormatPtBr = ptBR; exports.timeFormatRuRu = ruRU; exports.timeFormatSvSe = svSE; exports.timeFormatZhCn = zhCN; exports.isoFormat = formatIso; exports.isoParse = parseIso; })); })(); }); require.register("kohonen/node_modules/d3-time/build/d3-time.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/d3-time"); (function() { (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (factory((global.d3_time = global.d3_time || {}))); }(this, function (exports) { 'use strict'; var version = "0.2.6"; var t0 = new Date; var t1 = new Date; function newInterval(floori, offseti, count, field) { function interval(date) { return floori(date = new Date(+date)), date; } interval.floor = interval; interval.ceil = function(date) { return floori(date = new Date(date - 1)), offseti(date, 1), floori(date), date; }; interval.round = function(date) { var d0 = interval(date), d1 = interval.ceil(date); return date - d0 < d1 - date ? d0 : d1; }; interval.offset = function(date, step) { return offseti(date = new Date(+date), step == null ? 1 : Math.floor(step)), date; }; interval.range = function(start, stop, step) { var range = []; start = interval.ceil(start); step = step == null ? 1 : Math.floor(step); if (!(start < stop) || !(step > 0)) return range; // also handles Invalid Date do range.push(new Date(+start)); while (offseti(start, step), floori(start), start < stop) return range; }; interval.filter = function(test) { return newInterval(function(date) { while (floori(date), !test(date)) date.setTime(date - 1); }, function(date, step) { while (--step >= 0) while (offseti(date, 1), !test(date)); }); }; if (count) { interval.count = function(start, end) { t0.setTime(+start), t1.setTime(+end); floori(t0), floori(t1); return Math.floor(count(t0, t1)); }; interval.every = function(step) { step = Math.floor(step); return !isFinite(step) || !(step > 0) ? null : !(step > 1) ? interval : interval.filter(field ? function(d) { return field(d) % step === 0; } : function(d) { return interval.count(0, d) % step === 0; }); }; } return interval; } var millisecond = newInterval(function() { // noop }, function(date, step) { date.setTime(+date + step); }, function(start, end) { return end - start; }); // An optimized implementation for this simple case. millisecond.every = function(k) { k = Math.floor(k); if (!isFinite(k) || !(k > 0)) return null; if (!(k > 1)) return millisecond; return newInterval(function(date) { date.setTime(Math.floor(date / k) * k); }, function(date, step) { date.setTime(+date + step * k); }, function(start, end) { return (end - start) / k; }); }; var second$1 = 1e3; var minute = 6e4; var hour = 36e5; var day = 864e5; var week = 6048e5; var second = newInterval(function(date) { date.setTime(Math.floor(date / second$1) * second$1); }, function(date, step) { date.setTime(+date + step * second$1); }, function(start, end) { return (end - start) / second$1; }, function(date) { return date.getUTCSeconds(); }); var minute$1 = newInterval(function(date) { date.setTime(Math.floor(date / minute) * minute); }, function(date, step) { date.setTime(+date + step * minute); }, function(start, end) { return (end - start) / minute; }, function(date) { return date.getMinutes(); }); var hour$1 = newInterval(function(date) { var offset = date.getTimezoneOffset() * minute % hour; if (offset < 0) offset += hour; date.setTime(Math.floor((+date - offset) / hour) * hour + offset); }, function(date, step) { date.setTime(+date + step * hour); }, function(start, end) { return (end - start) / hour; }, function(date) { return date.getHours(); }); var day$1 = newInterval(function(date) { date.setHours(0, 0, 0, 0); }, function(date, step) { date.setDate(date.getDate() + step); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * minute) / day; }, function(date) { return date.getDate() - 1; }); function weekday(i) { return newInterval(function(date) { date.setHours(0, 0, 0, 0); date.setDate(date.getDate() - (date.getDay() + 7 - i) % 7); }, function(date, step) { date.setDate(date.getDate() + step * 7); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * minute) / week; }); } var sunday = weekday(0); var monday = weekday(1); var tuesday = weekday(2); var wednesday = weekday(3); var thursday = weekday(4); var friday = weekday(5); var saturday = weekday(6); var month = newInterval(function(date) { date.setHours(0, 0, 0, 0); date.setDate(1); }, function(date, step) { date.setMonth(date.getMonth() + step); }, function(start, end) { return end.getMonth() - start.getMonth() + (end.getFullYear() - start.getFullYear()) * 12; }, function(date) { return date.getMonth(); }); var year = newInterval(function(date) { date.setHours(0, 0, 0, 0); date.setMonth(0, 1); }, function(date, step) { date.setFullYear(date.getFullYear() + step); }, function(start, end) { return end.getFullYear() - start.getFullYear(); }, function(date) { return date.getFullYear(); }); var utcMinute = newInterval(function(date) { date.setUTCSeconds(0, 0); }, function(date, step) { date.setTime(+date + step * minute); }, function(start, end) { return (end - start) / minute; }, function(date) { return date.getUTCMinutes(); }); var utcHour = newInterval(function(date) { date.setUTCMinutes(0, 0, 0); }, function(date, step) { date.setTime(+date + step * hour); }, function(start, end) { return (end - start) / hour; }, function(date) { return date.getUTCHours(); }); var utcDay = newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step); }, function(start, end) { return (end - start) / day; }, function(date) { return date.getUTCDate() - 1; }); function utcWeekday(i) { return newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); date.setUTCDate(date.getUTCDate() - (date.getUTCDay() + 7 - i) % 7); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step * 7); }, function(start, end) { return (end - start) / week; }); } var utcSunday = utcWeekday(0); var utcMonday = utcWeekday(1); var utcTuesday = utcWeekday(2); var utcWednesday = utcWeekday(3); var utcThursday = utcWeekday(4); var utcFriday = utcWeekday(5); var utcSaturday = utcWeekday(6); var utcMonth = newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); date.setUTCDate(1); }, function(date, step) { date.setUTCMonth(date.getUTCMonth() + step); }, function(start, end) { return end.getUTCMonth() - start.getUTCMonth() + (end.getUTCFullYear() - start.getUTCFullYear()) * 12; }, function(date) { return date.getUTCMonth(); }); var utcYear = newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); date.setUTCMonth(0, 1); }, function(date, step) { date.setUTCFullYear(date.getUTCFullYear() + step); }, function(start, end) { return end.getUTCFullYear() - start.getUTCFullYear(); }, function(date) { return date.getUTCFullYear(); }); var timeMilliseconds = millisecond.range; var timeSeconds = second.range; var timeMinutes = minute$1.range; var timeHours = hour$1.range; var timeDays = day$1.range; var timeSundays = sunday.range; var timeMondays = monday.range; var timeTuesdays = tuesday.range; var timeWednesdays = wednesday.range; var timeThursdays = thursday.range; var timeFridays = friday.range; var timeSaturdays = saturday.range; var timeWeeks = sunday.range; var timeMonths = month.range; var timeYears = year.range; var utcMilliseconds = timeMilliseconds; var utcSeconds = timeSeconds; var utcMinutes = utcMinute.range; var utcHours = utcHour.range; var utcDays = utcDay.range; var utcSundays = utcSunday.range; var utcMondays = utcMonday.range; var utcTuesdays = utcTuesday.range; var utcWednesdays = utcWednesday.range; var utcThursdays = utcThursday.range; var utcFridays = utcFriday.range; var utcSaturdays = utcSaturday.range; var utcWeeks = utcSunday.range; var utcMonths = utcMonth.range; var utcYears = utcYear.range; exports.timeMilliseconds = timeMilliseconds; exports.timeSeconds = timeSeconds; exports.timeMinutes = timeMinutes; exports.timeHours = timeHours; exports.timeDays = timeDays; exports.timeSundays = timeSundays; exports.timeMondays = timeMondays; exports.timeTuesdays = timeTuesdays; exports.timeWednesdays = timeWednesdays; exports.timeThursdays = timeThursdays; exports.timeFridays = timeFridays; exports.timeSaturdays = timeSaturdays; exports.timeWeeks = timeWeeks; exports.timeMonths = timeMonths; exports.timeYears = timeYears; exports.utcMilliseconds = utcMilliseconds; exports.utcSeconds = utcSeconds; exports.utcMinutes = utcMinutes; exports.utcHours = utcHours; exports.utcDays = utcDays; exports.utcSundays = utcSundays; exports.utcMondays = utcMondays; exports.utcTuesdays = utcTuesdays; exports.utcWednesdays = utcWednesdays; exports.utcThursdays = utcThursdays; exports.utcFridays = utcFridays; exports.utcSaturdays = utcSaturdays; exports.utcWeeks = utcWeeks; exports.utcMonths = utcMonths; exports.utcYears = utcYears; exports.timeMillisecond = millisecond; exports.timeSecond = second; exports.timeMinute = minute$1; exports.timeHour = hour$1; exports.timeDay = day$1; exports.timeSunday = sunday; exports.timeMonday = monday; exports.timeTuesday = tuesday; exports.timeWednesday = wednesday; exports.timeThursday = thursday; exports.timeFriday = friday; exports.timeSaturday = saturday; exports.timeWeek = sunday; exports.timeMonth = month; exports.timeYear = year; exports.utcMillisecond = millisecond; exports.utcSecond = second; exports.utcMinute = utcMinute; exports.utcHour = utcHour; exports.utcDay = utcDay; exports.utcSunday = utcSunday; exports.utcMonday = utcMonday; exports.utcTuesday = utcTuesday; exports.utcWednesday = utcWednesday; exports.utcThursday = utcThursday; exports.utcFriday = utcFriday; exports.utcSaturday = utcSaturday; exports.utcWeek = utcSunday; exports.utcMonth = utcMonth; exports.utcYear = utcYear; exports.version = version; exports.timeInterval = newInterval; Object.defineProperty(exports, '__esModule', { value: true }); })); })(); }); require.register("kohonen/node_modules/lodash/_Hash.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var nativeCreate = require('./_nativeCreate'); /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Creates an hash object. * * @private * @returns {Object} Returns the new hash object. */ function Hash() {} // Avoid inheriting from `Object.prototype` when possible. Hash.prototype = nativeCreate ? nativeCreate(null) : objectProto; module.exports = Hash; })(); }); require.register("kohonen/node_modules/lodash/_LazyWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseCreate = require('./_baseCreate'), baseLodash = require('./_baseLodash'); /** Used as references for the maximum length and index of an array. */ var MAX_ARRAY_LENGTH = 4294967295; /** * Creates a lazy wrapper object which wraps `value` to enable lazy evaluation. * * @private * @param {*} value The value to wrap. */ function LazyWrapper(value) { this.__wrapped__ = value; this.__actions__ = []; this.__dir__ = 1; this.__filtered__ = false; this.__iteratees__ = []; this.__takeCount__ = MAX_ARRAY_LENGTH; this.__views__ = []; } LazyWrapper.prototype = baseCreate(baseLodash.prototype); LazyWrapper.prototype.constructor = LazyWrapper; module.exports = LazyWrapper; })(); }); require.register("kohonen/node_modules/lodash/_LodashWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseCreate = require('./_baseCreate'), baseLodash = require('./_baseLodash'); /** * The base constructor for creating `lodash` wrapper objects. * * @private * @param {*} value The value to wrap. * @param {boolean} [chainAll] Enable chaining for all wrapper methods. */ function LodashWrapper(value, chainAll) { this.__wrapped__ = value; this.__actions__ = []; this.__chain__ = !!chainAll; this.__index__ = 0; this.__values__ = undefined; } LodashWrapper.prototype = baseCreate(baseLodash.prototype); LodashWrapper.prototype.constructor = LodashWrapper; module.exports = LodashWrapper; })(); }); require.register("kohonen/node_modules/lodash/_Map.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var getNative = require('./_getNative'), root = require('./_root'); /* Built-in method references that are verified to be native. */ var Map = getNative(root, 'Map'); module.exports = Map; })(); }); require.register("kohonen/node_modules/lodash/_MapCache.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var mapClear = require('./_mapClear'), mapDelete = require('./_mapDelete'), mapGet = require('./_mapGet'), mapHas = require('./_mapHas'), mapSet = require('./_mapSet'); /** * Creates a map cache object to store key-value pairs. * * @private * @param {Array} [values] The values to cache. */ function MapCache(values) { var index = -1, length = values ? values.length : 0; this.clear(); while (++index < length) { var entry = values[index]; this.set(entry[0], entry[1]); } } // Add functions to the `MapCache`. MapCache.prototype.clear = mapClear; MapCache.prototype['delete'] = mapDelete; MapCache.prototype.get = mapGet; MapCache.prototype.has = mapHas; MapCache.prototype.set = mapSet; module.exports = MapCache; })(); }); require.register("kohonen/node_modules/lodash/_Set.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var getNative = require('./_getNative'), root = require('./_root'); /* Built-in method references that are verified to be native. */ var Set = getNative(root, 'Set'); module.exports = Set; })(); }); require.register("kohonen/node_modules/lodash/_Stack.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var stackClear = require('./_stackClear'), stackDelete = require('./_stackDelete'), stackGet = require('./_stackGet'), stackHas = require('./_stackHas'), stackSet = require('./_stackSet'); /** * Creates a stack cache object to store key-value pairs. * * @private * @param {Array} [values] The values to cache. */ function Stack(values) { var index = -1, length = values ? values.length : 0; this.clear(); while (++index < length) { var entry = values[index]; this.set(entry[0], entry[1]); } } // Add functions to the `Stack` cache. Stack.prototype.clear = stackClear; Stack.prototype['delete'] = stackDelete; Stack.prototype.get = stackGet; Stack.prototype.has = stackHas; Stack.prototype.set = stackSet; module.exports = Stack; })(); }); require.register("kohonen/node_modules/lodash/_Symbol.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var root = require('./_root'); /** Built-in value references. */ var Symbol = root.Symbol; module.exports = Symbol; })(); }); require.register("kohonen/node_modules/lodash/_Uint8Array.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var root = require('./_root'); /** Built-in value references. */ var Uint8Array = root.Uint8Array; module.exports = Uint8Array; })(); }); require.register("kohonen/node_modules/lodash/_WeakMap.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var getNative = require('./_getNative'), root = require('./_root'); /* Built-in method references that are verified to be native. */ var WeakMap = getNative(root, 'WeakMap'); module.exports = WeakMap; })(); }); require.register("kohonen/node_modules/lodash/_addMapEntry.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Adds the key-value `pair` to `map`. * * @private * @param {Object} map The map to modify. * @param {Array} pair The key-value pair to add. * @returns {Object} Returns `map`. */ function addMapEntry(map, pair) { map.set(pair[0], pair[1]); return map; } module.exports = addMapEntry; })(); }); require.register("kohonen/node_modules/lodash/_addSetEntry.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Adds `value` to `set`. * * @private * @param {Object} set The set to modify. * @param {*} value The value to add. * @returns {Object} Returns `set`. */ function addSetEntry(set, value) { set.add(value); return set; } module.exports = addSetEntry; })(); }); require.register("kohonen/node_modules/lodash/_apply.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * A faster alternative to `Function#apply`, this function invokes `func` * with the `this` binding of `thisArg` and the arguments of `args`. * * @private * @param {Function} func The function to invoke. * @param {*} thisArg The `this` binding of `func`. * @param {...*} args The arguments to invoke `func` with. * @returns {*} Returns the result of `func`. */ function apply(func, thisArg, args) { var length = args.length; switch (length) { case 0: return func.call(thisArg); case 1: return func.call(thisArg, args[0]); case 2: return func.call(thisArg, args[0], args[1]); case 3: return func.call(thisArg, args[0], args[1], args[2]); } return func.apply(thisArg, args); } module.exports = apply; })(); }); require.register("kohonen/node_modules/lodash/_arrayEach.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * A specialized version of `_.forEach` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns `array`. */ function arrayEach(array, iteratee) { var index = -1, length = array.length; while (++index < length) { if (iteratee(array[index], index, array) === false) { break; } } return array; } module.exports = arrayEach; })(); }); require.register("kohonen/node_modules/lodash/_arrayMap.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * A specialized version of `_.map` for arrays without support for iteratee * shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the new mapped array. */ function arrayMap(array, iteratee) { var index = -1, length = array.length, result = Array(length); while (++index < length) { result[index] = iteratee(array[index], index, array); } return result; } module.exports = arrayMap; })(); }); require.register("kohonen/node_modules/lodash/_arrayPush.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Appends the elements of `values` to `array`. * * @private * @param {Array} array The array to modify. * @param {Array} values The values to append. * @returns {Array} Returns `array`. */ function arrayPush(array, values) { var index = -1, length = values.length, offset = array.length; while (++index < length) { array[offset + index] = values[index]; } return array; } module.exports = arrayPush; })(); }); require.register("kohonen/node_modules/lodash/_arrayReduce.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * A specialized version of `_.reduce` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {*} [accumulator] The initial value. * @param {boolean} [initAccum] Specify using the first element of `array` as the initial value. * @returns {*} Returns the accumulated value. */ function arrayReduce(array, iteratee, accumulator, initAccum) { var index = -1, length = array.length; if (initAccum && length) { accumulator = array[++index]; } while (++index < length) { accumulator = iteratee(accumulator, array[index], index, array); } return accumulator; } module.exports = arrayReduce; })(); }); require.register("kohonen/node_modules/lodash/_arraySome.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * A specialized version of `_.some` for arrays without support for iteratee * shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if any element passes the predicate check, else `false`. */ function arraySome(array, predicate) { var index = -1, length = array.length; while (++index < length) { if (predicate(array[index], index, array)) { return true; } } return false; } module.exports = arraySome; })(); }); require.register("kohonen/node_modules/lodash/_assignValue.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var eq = require('./eq'); /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Assigns `value` to `key` of `object` if the existing value is not equivalent * using [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @private * @param {Object} object The object to modify. * @param {string} key The key of the property to assign. * @param {*} value The value to assign. */ function assignValue(object, key, value) { var objValue = object[key]; if ((!eq(objValue, value) || (eq(objValue, objectProto[key]) && !hasOwnProperty.call(object, key))) || (value === undefined && !(key in object))) { object[key] = value; } } module.exports = assignValue; })(); }); require.register("kohonen/node_modules/lodash/_assocDelete.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocIndexOf = require('./_assocIndexOf'); /** Used for built-in method references. */ var arrayProto = Array.prototype; /** Built-in value references. */ var splice = arrayProto.splice; /** * Removes `key` and its value from the associative array. * * @private * @param {Array} array The array to query. * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function assocDelete(array, key) { var index = assocIndexOf(array, key); if (index < 0) { return false; } var lastIndex = array.length - 1; if (index == lastIndex) { array.pop(); } else { splice.call(array, index, 1); } return true; } module.exports = assocDelete; })(); }); require.register("kohonen/node_modules/lodash/_assocGet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocIndexOf = require('./_assocIndexOf'); /** * Gets the associative array value for `key`. * * @private * @param {Array} array The array to query. * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function assocGet(array, key) { var index = assocIndexOf(array, key); return index < 0 ? undefined : array[index][1]; } module.exports = assocGet; })(); }); require.register("kohonen/node_modules/lodash/_assocHas.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocIndexOf = require('./_assocIndexOf'); /** * Checks if an associative array value for `key` exists. * * @private * @param {Array} array The array to query. * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function assocHas(array, key) { return assocIndexOf(array, key) > -1; } module.exports = assocHas; })(); }); require.register("kohonen/node_modules/lodash/_assocIndexOf.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var eq = require('./eq'); /** * Gets the index at which the first occurrence of `key` is found in `array` * of key-value pairs. * * @private * @param {Array} array The array to search. * @param {*} key The key to search for. * @returns {number} Returns the index of the matched value, else `-1`. */ function assocIndexOf(array, key) { var length = array.length; while (length--) { if (eq(array[length][0], key)) { return length; } } return -1; } module.exports = assocIndexOf; })(); }); require.register("kohonen/node_modules/lodash/_assocSet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocIndexOf = require('./_assocIndexOf'); /** * Sets the associative array `key` to `value`. * * @private * @param {Array} array The array to modify. * @param {string} key The key of the value to set. * @param {*} value The value to set. */ function assocSet(array, key, value) { var index = assocIndexOf(array, key); if (index < 0) { array.push([key, value]); } else { array[index][1] = value; } } module.exports = assocSet; })(); }); require.register("kohonen/node_modules/lodash/_baseAssign.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var copyObject = require('./_copyObject'), keys = require('./keys'); /** * The base implementation of `_.assign` without support for multiple sources * or `customizer` functions. * * @private * @param {Object} object The destination object. * @param {Object} source The source object. * @returns {Object} Returns `object`. */ function baseAssign(object, source) { return object && copyObject(source, keys(source), object); } module.exports = baseAssign; })(); }); require.register("kohonen/node_modules/lodash/_baseClone.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Stack = require('./_Stack'), arrayEach = require('./_arrayEach'), assignValue = require('./_assignValue'), baseAssign = require('./_baseAssign'), baseForOwn = require('./_baseForOwn'), cloneBuffer = require('./_cloneBuffer'), copyArray = require('./_copyArray'), copySymbols = require('./_copySymbols'), getTag = require('./_getTag'), initCloneArray = require('./_initCloneArray'), initCloneByTag = require('./_initCloneByTag'), initCloneObject = require('./_initCloneObject'), isArray = require('./isArray'), isBuffer = require('./isBuffer'), isHostObject = require('./_isHostObject'), isObject = require('./isObject'); /** `Object#toString` result references. */ var argsTag = '[object Arguments]', arrayTag = '[object Array]', boolTag = '[object Boolean]', dateTag = '[object Date]', errorTag = '[object Error]', funcTag = '[object Function]', genTag = '[object GeneratorFunction]', mapTag = '[object Map]', numberTag = '[object Number]', objectTag = '[object Object]', regexpTag = '[object RegExp]', setTag = '[object Set]', stringTag = '[object String]', symbolTag = '[object Symbol]', weakMapTag = '[object WeakMap]'; var arrayBufferTag = '[object ArrayBuffer]', float32Tag = '[object Float32Array]', float64Tag = '[object Float64Array]', int8Tag = '[object Int8Array]', int16Tag = '[object Int16Array]', int32Tag = '[object Int32Array]', uint8Tag = '[object Uint8Array]', uint8ClampedTag = '[object Uint8ClampedArray]', uint16Tag = '[object Uint16Array]', uint32Tag = '[object Uint32Array]'; /** Used to identify `toStringTag` values supported by `_.clone`. */ var cloneableTags = {}; cloneableTags[argsTag] = cloneableTags[arrayTag] = cloneableTags[arrayBufferTag] = cloneableTags[boolTag] = cloneableTags[dateTag] = cloneableTags[float32Tag] = cloneableTags[float64Tag] = cloneableTags[int8Tag] = cloneableTags[int16Tag] = cloneableTags[int32Tag] = cloneableTags[mapTag] = cloneableTags[numberTag] = cloneableTags[objectTag] = cloneableTags[regexpTag] = cloneableTags[setTag] = cloneableTags[stringTag] = cloneableTags[symbolTag] = cloneableTags[uint8Tag] = cloneableTags[uint8ClampedTag] = cloneableTags[uint16Tag] = cloneableTags[uint32Tag] = true; cloneableTags[errorTag] = cloneableTags[funcTag] = cloneableTags[weakMapTag] = false; /** * The base implementation of `_.clone` and `_.cloneDeep` which tracks * traversed objects. * * @private * @param {*} value The value to clone. * @param {boolean} [isDeep] Specify a deep clone. * @param {Function} [customizer] The function to customize cloning. * @param {string} [key] The key of `value`. * @param {Object} [object] The parent object of `value`. * @param {Object} [stack] Tracks traversed objects and their clone counterparts. * @returns {*} Returns the cloned value. */ function baseClone(value, isDeep, customizer, key, object, stack) { var result; if (customizer) { result = object ? customizer(value, key, object, stack) : customizer(value); } if (result !== undefined) { return result; } if (!isObject(value)) { return value; } var isArr = isArray(value); if (isArr) { result = initCloneArray(value); if (!isDeep) { return copyArray(value, result); } } else { var tag = getTag(value), isFunc = tag == funcTag || tag == genTag; if (isBuffer(value)) { return cloneBuffer(value, isDeep); } if (tag == objectTag || tag == argsTag || (isFunc && !object)) { if (isHostObject(value)) { return object ? value : {}; } result = initCloneObject(isFunc ? {} : value); if (!isDeep) { return copySymbols(value, baseAssign(result, value)); } } else { return cloneableTags[tag] ? initCloneByTag(value, tag, isDeep) : (object ? value : {}); } } // Check for circular references and return its corresponding clone. stack || (stack = new Stack); var stacked = stack.get(value); if (stacked) { return stacked; } stack.set(value, result); // Recursively populate clone (susceptible to call stack limits). (isArr ? arrayEach : baseForOwn)(value, function(subValue, key) { assignValue(result, key, baseClone(subValue, isDeep, customizer, key, value, stack)); }); return isArr ? result : copySymbols(value, result); } module.exports = baseClone; })(); }); require.register("kohonen/node_modules/lodash/_baseCreate.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isObject = require('./isObject'); /** * The base implementation of `_.create` without support for assigning * properties to the created object. * * @private * @param {Object} prototype The object to inherit from. * @returns {Object} Returns the new object. */ var baseCreate = (function() { function object() {} return function(prototype) { if (isObject(prototype)) { object.prototype = prototype; var result = new object; object.prototype = undefined; } return result || {}; }; }()); module.exports = baseCreate; })(); }); require.register("kohonen/node_modules/lodash/_baseFlatten.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var arrayPush = require('./_arrayPush'), isArguments = require('./isArguments'), isArray = require('./isArray'), isArrayLikeObject = require('./isArrayLikeObject'); /** * The base implementation of `_.flatten` with support for restricting flattening. * * @private * @param {Array} array The array to flatten. * @param {boolean} [isDeep] Specify a deep flatten. * @param {boolean} [isStrict] Restrict flattening to arrays-like objects. * @param {Array} [result=[]] The initial result value. * @returns {Array} Returns the new flattened array. */ function baseFlatten(array, isDeep, isStrict, result) { result || (result = []); var index = -1, length = array.length; while (++index < length) { var value = array[index]; if (isArrayLikeObject(value) && (isStrict || isArray(value) || isArguments(value))) { if (isDeep) { // Recursively flatten arrays (susceptible to call stack limits). baseFlatten(value, isDeep, isStrict, result); } else { arrayPush(result, value); } } else if (!isStrict) { result[result.length] = value; } } return result; } module.exports = baseFlatten; })(); }); require.register("kohonen/node_modules/lodash/_baseFor.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var createBaseFor = require('./_createBaseFor'); /** * The base implementation of `baseForIn` and `baseForOwn` which iterates * over `object` properties returned by `keysFunc` invoking `iteratee` for * each property. Iteratee functions may exit iteration early by explicitly * returning `false`. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {Function} keysFunc The function to get the keys of `object`. * @returns {Object} Returns `object`. */ var baseFor = createBaseFor(); module.exports = baseFor; })(); }); require.register("kohonen/node_modules/lodash/_baseForOwn.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseFor = require('./_baseFor'), keys = require('./keys'); /** * The base implementation of `_.forOwn` without support for iteratee shorthands. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Object} Returns `object`. */ function baseForOwn(object, iteratee) { return object && baseFor(object, iteratee, keys); } module.exports = baseForOwn; })(); }); require.register("kohonen/node_modules/lodash/_baseGet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseToPath = require('./_baseToPath'), isKey = require('./_isKey'); /** * The base implementation of `_.get` without support for default values. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @returns {*} Returns the resolved value. */ function baseGet(object, path) { path = isKey(path, object) ? [path + ''] : baseToPath(path); var index = 0, length = path.length; while (object != null && index < length) { object = object[path[index++]]; } return (index && index == length) ? object : undefined; } module.exports = baseGet; })(); }); require.register("kohonen/node_modules/lodash/_baseHas.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** Built-in value references. */ var getPrototypeOf = Object.getPrototypeOf; /** * The base implementation of `_.has` without support for deep paths. * * @private * @param {Object} object The object to query. * @param {Array|string} key The key to check. * @returns {boolean} Returns `true` if `key` exists, else `false`. */ function baseHas(object, key) { // Avoid a bug in IE 10-11 where objects with a [[Prototype]] of `null`, // that are composed entirely of index properties, return `false` for // `hasOwnProperty` checks of them. return hasOwnProperty.call(object, key) || (typeof object == 'object' && key in object && getPrototypeOf(object) === null); } module.exports = baseHas; })(); }); require.register("kohonen/node_modules/lodash/_baseHasIn.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * The base implementation of `_.hasIn` without support for deep paths. * * @private * @param {Object} object The object to query. * @param {Array|string} key The key to check. * @returns {boolean} Returns `true` if `key` exists, else `false`. */ function baseHasIn(object, key) { return key in Object(object); } module.exports = baseHasIn; })(); }); require.register("kohonen/node_modules/lodash/_baseIsEqual.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseIsEqualDeep = require('./_baseIsEqualDeep'), isObject = require('./isObject'), isObjectLike = require('./isObjectLike'); /** * The base implementation of `_.isEqual` which supports partial comparisons * and tracks traversed objects. * * @private * @param {*} value The value to compare. * @param {*} other The other value to compare. * @param {Function} [customizer] The function to customize comparisons. * @param {boolean} [bitmask] The bitmask of comparison flags. * The bitmask may be composed of the following flags: * 1 - Unordered comparison * 2 - Partial comparison * @param {Object} [stack] Tracks traversed `value` and `other` objects. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. */ function baseIsEqual(value, other, customizer, bitmask, stack) { if (value === other) { return true; } if (value == null || other == null || (!isObject(value) && !isObjectLike(other))) { return value !== value && other !== other; } return baseIsEqualDeep(value, other, baseIsEqual, customizer, bitmask, stack); } module.exports = baseIsEqual; })(); }); require.register("kohonen/node_modules/lodash/_baseIsEqualDeep.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Stack = require('./_Stack'), equalArrays = require('./_equalArrays'), equalByTag = require('./_equalByTag'), equalObjects = require('./_equalObjects'), getTag = require('./_getTag'), isArray = require('./isArray'), isHostObject = require('./_isHostObject'), isTypedArray = require('./isTypedArray'); /** Used to compose bitmasks for comparison styles. */ var PARTIAL_COMPARE_FLAG = 2; /** `Object#toString` result references. */ var argsTag = '[object Arguments]', arrayTag = '[object Array]', objectTag = '[object Object]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * A specialized version of `baseIsEqual` for arrays and objects which performs * deep comparisons and tracks traversed objects enabling objects with circular * references to be compared. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function baseIsEqualDeep(object, other, equalFunc, customizer, bitmask, stack) { var objIsArr = isArray(object), othIsArr = isArray(other), objTag = arrayTag, othTag = arrayTag; if (!objIsArr) { objTag = getTag(object); if (objTag == argsTag) { objTag = objectTag; } else if (objTag != objectTag) { objIsArr = isTypedArray(object); } } if (!othIsArr) { othTag = getTag(other); if (othTag == argsTag) { othTag = objectTag; } else if (othTag != objectTag) { othIsArr = isTypedArray(other); } } var objIsObj = objTag == objectTag && !isHostObject(object), othIsObj = othTag == objectTag && !isHostObject(other), isSameTag = objTag == othTag; if (isSameTag && !(objIsArr || objIsObj)) { return equalByTag(object, other, objTag, equalFunc, customizer, bitmask); } var isPartial = bitmask & PARTIAL_COMPARE_FLAG; if (!isPartial) { var objIsWrapped = objIsObj && hasOwnProperty.call(object, '__wrapped__'), othIsWrapped = othIsObj && hasOwnProperty.call(other, '__wrapped__'); if (objIsWrapped || othIsWrapped) { return equalFunc(objIsWrapped ? object.value() : object, othIsWrapped ? other.value() : other, customizer, bitmask, stack); } } if (!isSameTag) { return false; } stack || (stack = new Stack); return (objIsArr ? equalArrays : equalObjects)(object, other, equalFunc, customizer, bitmask, stack); } module.exports = baseIsEqualDeep; })(); }); require.register("kohonen/node_modules/lodash/_baseIsMatch.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Stack = require('./_Stack'), baseIsEqual = require('./_baseIsEqual'); /** Used to compose bitmasks for comparison styles. */ var UNORDERED_COMPARE_FLAG = 1, PARTIAL_COMPARE_FLAG = 2; /** * The base implementation of `_.isMatch` without support for iteratee shorthands. * * @private * @param {Object} object The object to inspect. * @param {Object} source The object of property values to match. * @param {Array} matchData The property names, values, and compare flags to match. * @param {Function} [customizer] The function to customize comparisons. * @returns {boolean} Returns `true` if `object` is a match, else `false`. */ function baseIsMatch(object, source, matchData, customizer) { var index = matchData.length, length = index, noCustomizer = !customizer; if (object == null) { return !length; } object = Object(object); while (index--) { var data = matchData[index]; if ((noCustomizer && data[2]) ? data[1] !== object[data[0]] : !(data[0] in object) ) { return false; } } while (++index < length) { data = matchData[index]; var key = data[0], objValue = object[key], srcValue = data[1]; if (noCustomizer && data[2]) { if (objValue === undefined && !(key in object)) { return false; } } else { var stack = new Stack, result = customizer ? customizer(objValue, srcValue, key, object, source, stack) : undefined; if (!(result === undefined ? baseIsEqual(srcValue, objValue, customizer, UNORDERED_COMPARE_FLAG | PARTIAL_COMPARE_FLAG, stack) : result )) { return false; } } } return true; } module.exports = baseIsMatch; })(); }); require.register("kohonen/node_modules/lodash/_baseIteratee.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseMatches = require('./_baseMatches'), baseMatchesProperty = require('./_baseMatchesProperty'), identity = require('./identity'), isArray = require('./isArray'), property = require('./property'); /** * The base implementation of `_.iteratee`. * * @private * @param {*} [value=_.identity] The value to convert to an iteratee. * @returns {Function} Returns the iteratee. */ function baseIteratee(value) { var type = typeof value; if (type == 'function') { return value; } if (value == null) { return identity; } if (type == 'object') { return isArray(value) ? baseMatchesProperty(value[0], value[1]) : baseMatches(value); } return property(value); } module.exports = baseIteratee; })(); }); require.register("kohonen/node_modules/lodash/_baseKeys.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeKeys = Object.keys; /** * The base implementation of `_.keys` which doesn't skip the constructor * property of prototypes or treat sparse arrays as dense. * * @private * @type Function * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. */ function baseKeys(object) { return nativeKeys(Object(object)); } module.exports = baseKeys; })(); }); require.register("kohonen/node_modules/lodash/_baseLodash.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * The function whose prototype all chaining wrappers inherit from. * * @private */ function baseLodash() { // No operation performed. } module.exports = baseLodash; })(); }); require.register("kohonen/node_modules/lodash/_baseMatches.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseIsMatch = require('./_baseIsMatch'), getMatchData = require('./_getMatchData'); /** * The base implementation of `_.matches` which doesn't clone `source`. * * @private * @param {Object} source The object of property values to match. * @returns {Function} Returns the new function. */ function baseMatches(source) { var matchData = getMatchData(source); if (matchData.length == 1 && matchData[0][2]) { var key = matchData[0][0], value = matchData[0][1]; return function(object) { if (object == null) { return false; } return object[key] === value && (value !== undefined || (key in Object(object))); }; } return function(object) { return object === source || baseIsMatch(object, source, matchData); }; } module.exports = baseMatches; })(); }); require.register("kohonen/node_modules/lodash/_baseMatchesProperty.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseIsEqual = require('./_baseIsEqual'), get = require('./get'), hasIn = require('./hasIn'); /** Used to compose bitmasks for comparison styles. */ var UNORDERED_COMPARE_FLAG = 1, PARTIAL_COMPARE_FLAG = 2; /** * The base implementation of `_.matchesProperty` which doesn't clone `srcValue`. * * @private * @param {string} path The path of the property to get. * @param {*} srcValue The value to match. * @returns {Function} Returns the new function. */ function baseMatchesProperty(path, srcValue) { return function(object) { var objValue = get(object, path); return (objValue === undefined && objValue === srcValue) ? hasIn(object, path) : baseIsEqual(srcValue, objValue, undefined, UNORDERED_COMPARE_FLAG | PARTIAL_COMPARE_FLAG); }; } module.exports = baseMatchesProperty; })(); }); require.register("kohonen/node_modules/lodash/_baseProperty.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * The base implementation of `_.property` without support for deep paths. * * @private * @param {string} key The key of the property to get. * @returns {Function} Returns the new function. */ function baseProperty(key) { return function(object) { return object == null ? undefined : object[key]; }; } module.exports = baseProperty; })(); }); require.register("kohonen/node_modules/lodash/_basePropertyDeep.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseGet = require('./_baseGet'); /** * A specialized version of `baseProperty` which supports deep paths. * * @private * @param {Array|string} path The path of the property to get. * @returns {Function} Returns the new function. */ function basePropertyDeep(path) { return function(object) { return baseGet(object, path); }; } module.exports = basePropertyDeep; })(); }); require.register("kohonen/node_modules/lodash/_baseRandom.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeFloor = Math.floor, nativeRandom = Math.random; /** * The base implementation of `_.random` without support for returning * floating-point numbers. * * @private * @param {number} lower The lower bound. * @param {number} upper The upper bound. * @returns {number} Returns the random number. */ function baseRandom(lower, upper) { return lower + nativeFloor(nativeRandom() * (upper - lower + 1)); } module.exports = baseRandom; })(); }); require.register("kohonen/node_modules/lodash/_baseSetData.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var identity = require('./identity'), metaMap = require('./_metaMap'); /** * The base implementation of `setData` without support for hot loop detection. * * @private * @param {Function} func The function to associate metadata with. * @param {*} data The metadata. * @returns {Function} Returns `func`. */ var baseSetData = !metaMap ? identity : function(func, data) { metaMap.set(func, data); return func; }; module.exports = baseSetData; })(); }); require.register("kohonen/node_modules/lodash/_baseSlice.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * The base implementation of `_.slice` without an iteratee call guard. * * @private * @param {Array} array The array to slice. * @param {number} [start=0] The start position. * @param {number} [end=array.length] The end position. * @returns {Array} Returns the slice of `array`. */ function baseSlice(array, start, end) { var index = -1, length = array.length; if (start < 0) { start = -start > length ? 0 : (length + start); } end = end > length ? length : end; if (end < 0) { end += length; } length = start > end ? 0 : ((end - start) >>> 0); start >>>= 0; var result = Array(length); while (++index < length) { result[index] = array[index + start]; } return result; } module.exports = baseSlice; })(); }); require.register("kohonen/node_modules/lodash/_baseTimes.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * The base implementation of `_.times` without support for iteratee shorthands * or max array length checks. * * @private * @param {number} n The number of times to invoke `iteratee`. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the array of results. */ function baseTimes(n, iteratee) { var index = -1, result = Array(n); while (++index < n) { result[index] = iteratee(index); } return result; } module.exports = baseTimes; })(); }); require.register("kohonen/node_modules/lodash/_baseToPairs.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var arrayMap = require('./_arrayMap'); /** * The base implementation of `_.toPairs` and `_.toPairsIn` which creates an array * of key-value pairs for `object` corresponding to the property names of `props`. * * @private * @param {Object} object The object to query. * @param {Array} props The property names to get values for. * @returns {Object} Returns the new array of key-value pairs. */ function baseToPairs(object, props) { return arrayMap(props, function(key) { return [key, object[key]]; }); } module.exports = baseToPairs; })(); }); require.register("kohonen/node_modules/lodash/_baseToPath.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isArray = require('./isArray'), stringToPath = require('./_stringToPath'); /** * The base implementation of `_.toPath` which only converts `value` to a * path if it's not one. * * @private * @param {*} value The value to process. * @returns {Array} Returns the property path array. */ function baseToPath(value) { return isArray(value) ? value : stringToPath(value); } module.exports = baseToPath; })(); }); require.register("kohonen/node_modules/lodash/_checkGlobal.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is a global object. * * @private * @param {*} value The value to check. * @returns {null|Object} Returns `value` if it's a global object, else `null`. */ function checkGlobal(value) { return (value && value.Object === Object) ? value : null; } module.exports = checkGlobal; })(); }); require.register("kohonen/node_modules/lodash/_cloneArrayBuffer.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Uint8Array = require('./_Uint8Array'); /** * Creates a clone of `arrayBuffer`. * * @private * @param {ArrayBuffer} arrayBuffer The array buffer to clone. * @returns {ArrayBuffer} Returns the cloned array buffer. */ function cloneArrayBuffer(arrayBuffer) { var Ctor = arrayBuffer.constructor, result = new Ctor(arrayBuffer.byteLength), view = new Uint8Array(result); view.set(new Uint8Array(arrayBuffer)); return result; } module.exports = cloneArrayBuffer; })(); }); require.register("kohonen/node_modules/lodash/_cloneBuffer.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Creates a clone of `buffer`. * * @private * @param {Buffer} buffer The buffer to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Buffer} Returns the cloned buffer. */ function cloneBuffer(buffer, isDeep) { if (isDeep) { return buffer.slice(); } var Ctor = buffer.constructor, result = new Ctor(buffer.length); buffer.copy(result); return result; } module.exports = cloneBuffer; })(); }); require.register("kohonen/node_modules/lodash/_cloneMap.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var addMapEntry = require('./_addMapEntry'), arrayReduce = require('./_arrayReduce'), mapToArray = require('./_mapToArray'); /** * Creates a clone of `map`. * * @private * @param {Object} map The map to clone. * @returns {Object} Returns the cloned map. */ function cloneMap(map) { var Ctor = map.constructor; return arrayReduce(mapToArray(map), addMapEntry, new Ctor); } module.exports = cloneMap; })(); }); require.register("kohonen/node_modules/lodash/_cloneRegExp.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used to match `RegExp` flags from their coerced string values. */ var reFlags = /\w*$/; /** * Creates a clone of `regexp`. * * @private * @param {Object} regexp The regexp to clone. * @returns {Object} Returns the cloned regexp. */ function cloneRegExp(regexp) { var Ctor = regexp.constructor, result = new Ctor(regexp.source, reFlags.exec(regexp)); result.lastIndex = regexp.lastIndex; return result; } module.exports = cloneRegExp; })(); }); require.register("kohonen/node_modules/lodash/_cloneSet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var addSetEntry = require('./_addSetEntry'), arrayReduce = require('./_arrayReduce'), setToArray = require('./_setToArray'); /** * Creates a clone of `set`. * * @private * @param {Object} set The set to clone. * @returns {Object} Returns the cloned set. */ function cloneSet(set) { var Ctor = set.constructor; return arrayReduce(setToArray(set), addSetEntry, new Ctor); } module.exports = cloneSet; })(); }); require.register("kohonen/node_modules/lodash/_cloneSymbol.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Symbol = require('./_Symbol'); /** Used to convert symbols to primitives and strings. */ var symbolProto = Symbol ? Symbol.prototype : undefined, symbolValueOf = Symbol ? symbolProto.valueOf : undefined; /** * Creates a clone of the `symbol` object. * * @private * @param {Object} symbol The symbol object to clone. * @returns {Object} Returns the cloned symbol object. */ function cloneSymbol(symbol) { return Symbol ? Object(symbolValueOf.call(symbol)) : {}; } module.exports = cloneSymbol; })(); }); require.register("kohonen/node_modules/lodash/_cloneTypedArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var cloneArrayBuffer = require('./_cloneArrayBuffer'); /** * Creates a clone of `typedArray`. * * @private * @param {Object} typedArray The typed array to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Object} Returns the cloned typed array. */ function cloneTypedArray(typedArray, isDeep) { var buffer = typedArray.buffer, Ctor = typedArray.constructor; return new Ctor(isDeep ? cloneArrayBuffer(buffer) : buffer, typedArray.byteOffset, typedArray.length); } module.exports = cloneTypedArray; })(); }); require.register("kohonen/node_modules/lodash/_composeArgs.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeMax = Math.max; /** * Creates an array that is the composition of partially applied arguments, * placeholders, and provided arguments into a single array of arguments. * * @private * @param {Array|Object} args The provided arguments. * @param {Array} partials The arguments to prepend to those provided. * @param {Array} holders The `partials` placeholder indexes. * @returns {Array} Returns the new array of composed arguments. */ function composeArgs(args, partials, holders) { var holdersLength = holders.length, argsIndex = -1, argsLength = nativeMax(args.length - holdersLength, 0), leftIndex = -1, leftLength = partials.length, result = Array(leftLength + argsLength); while (++leftIndex < leftLength) { result[leftIndex] = partials[leftIndex]; } while (++argsIndex < holdersLength) { result[holders[argsIndex]] = args[argsIndex]; } while (argsLength--) { result[leftIndex++] = args[argsIndex++]; } return result; } module.exports = composeArgs; })(); }); require.register("kohonen/node_modules/lodash/_composeArgsRight.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeMax = Math.max; /** * This function is like `composeArgs` except that the arguments composition * is tailored for `_.partialRight`. * * @private * @param {Array|Object} args The provided arguments. * @param {Array} partials The arguments to append to those provided. * @param {Array} holders The `partials` placeholder indexes. * @returns {Array} Returns the new array of composed arguments. */ function composeArgsRight(args, partials, holders) { var holdersIndex = -1, holdersLength = holders.length, argsIndex = -1, argsLength = nativeMax(args.length - holdersLength, 0), rightIndex = -1, rightLength = partials.length, result = Array(argsLength + rightLength); while (++argsIndex < argsLength) { result[argsIndex] = args[argsIndex]; } var offset = argsIndex; while (++rightIndex < rightLength) { result[offset + rightIndex] = partials[rightIndex]; } while (++holdersIndex < holdersLength) { result[offset + holders[holdersIndex]] = args[argsIndex++]; } return result; } module.exports = composeArgsRight; })(); }); require.register("kohonen/node_modules/lodash/_copyArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Copies the values of `source` to `array`. * * @private * @param {Array} source The array to copy values from. * @param {Array} [array=[]] The array to copy values to. * @returns {Array} Returns `array`. */ function copyArray(source, array) { var index = -1, length = source.length; array || (array = Array(length)); while (++index < length) { array[index] = source[index]; } return array; } module.exports = copyArray; })(); }); require.register("kohonen/node_modules/lodash/_copyObject.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var copyObjectWith = require('./_copyObjectWith'); /** * Copies properties of `source` to `object`. * * @private * @param {Object} source The object to copy properties from. * @param {Array} props The property names to copy. * @param {Object} [object={}] The object to copy properties to. * @returns {Object} Returns `object`. */ function copyObject(source, props, object) { return copyObjectWith(source, props, object); } module.exports = copyObject; })(); }); require.register("kohonen/node_modules/lodash/_copyObjectWith.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assignValue = require('./_assignValue'); /** * This function is like `copyObject` except that it accepts a function to * customize copied values. * * @private * @param {Object} source The object to copy properties from. * @param {Array} props The property names to copy. * @param {Object} [object={}] The object to copy properties to. * @param {Function} [customizer] The function to customize copied values. * @returns {Object} Returns `object`. */ function copyObjectWith(source, props, object, customizer) { object || (object = {}); var index = -1, length = props.length; while (++index < length) { var key = props[index], newValue = customizer ? customizer(object[key], source[key], key, object, source) : source[key]; assignValue(object, key, newValue); } return object; } module.exports = copyObjectWith; })(); }); require.register("kohonen/node_modules/lodash/_copySymbols.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var copyObject = require('./_copyObject'), getSymbols = require('./_getSymbols'); /** * Copies own symbol properties of `source` to `object`. * * @private * @param {Object} source The object to copy symbols from. * @param {Object} [object={}] The object to copy symbols to. * @returns {Object} Returns `object`. */ function copySymbols(source, object) { return copyObject(source, getSymbols(source), object); } module.exports = copySymbols; })(); }); require.register("kohonen/node_modules/lodash/_createBaseFor.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Creates a base function for methods like `_.forIn`. * * @private * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new base function. */ function createBaseFor(fromRight) { return function(object, iteratee, keysFunc) { var index = -1, iterable = Object(object), props = keysFunc(object), length = props.length; while (length--) { var key = props[fromRight ? length : ++index]; if (iteratee(iterable[key], key, iterable) === false) { break; } } return object; }; } module.exports = createBaseFor; })(); }); require.register("kohonen/node_modules/lodash/_createBaseWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var createCtorWrapper = require('./_createCtorWrapper'), root = require('./_root'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1; /** * Creates a function that wraps `func` to invoke it with the optional `this` * binding of `thisArg`. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} [thisArg] The `this` binding of `func`. * @returns {Function} Returns the new wrapped function. */ function createBaseWrapper(func, bitmask, thisArg) { var isBind = bitmask & BIND_FLAG, Ctor = createCtorWrapper(func); function wrapper() { var fn = (this && this !== root && this instanceof wrapper) ? Ctor : func; return fn.apply(isBind ? thisArg : this, arguments); } return wrapper; } module.exports = createBaseWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createCtorWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseCreate = require('./_baseCreate'), isObject = require('./isObject'); /** * Creates a function that produces an instance of `Ctor` regardless of * whether it was invoked as part of a `new` expression or by `call` or `apply`. * * @private * @param {Function} Ctor The constructor to wrap. * @returns {Function} Returns the new wrapped function. */ function createCtorWrapper(Ctor) { return function() { // Use a `switch` statement to work with class constructors. // See http://ecma-international.org/ecma-262/6.0/#sec-ecmascript-function-objects-call-thisargument-argumentslist // for more details. var args = arguments; switch (args.length) { case 0: return new Ctor; case 1: return new Ctor(args[0]); case 2: return new Ctor(args[0], args[1]); case 3: return new Ctor(args[0], args[1], args[2]); case 4: return new Ctor(args[0], args[1], args[2], args[3]); case 5: return new Ctor(args[0], args[1], args[2], args[3], args[4]); case 6: return new Ctor(args[0], args[1], args[2], args[3], args[4], args[5]); case 7: return new Ctor(args[0], args[1], args[2], args[3], args[4], args[5], args[6]); } var thisBinding = baseCreate(Ctor.prototype), result = Ctor.apply(thisBinding, args); // Mimic the constructor's `return` behavior. // See https://es5.github.io/#x13.2.2 for more details. return isObject(result) ? result : thisBinding; }; } module.exports = createCtorWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createCurryWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var apply = require('./_apply'), createCtorWrapper = require('./_createCtorWrapper'), createHybridWrapper = require('./_createHybridWrapper'), createRecurryWrapper = require('./_createRecurryWrapper'), replaceHolders = require('./_replaceHolders'), root = require('./_root'); /** * Creates a function that wraps `func` to enable currying. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {number} arity The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createCurryWrapper(func, bitmask, arity) { var Ctor = createCtorWrapper(func); function wrapper() { var length = arguments.length, index = length, args = Array(length), fn = (this && this !== root && this instanceof wrapper) ? Ctor : func, placeholder = wrapper.placeholder; while (index--) { args[index] = arguments[index]; } var holders = (length < 3 && args[0] !== placeholder && args[length - 1] !== placeholder) ? [] : replaceHolders(args, placeholder); length -= holders.length; return length < arity ? createRecurryWrapper(func, bitmask, createHybridWrapper, placeholder, undefined, args, holders, undefined, undefined, arity - length) : apply(fn, this, args); } return wrapper; } module.exports = createCurryWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createHybridWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var composeArgs = require('./_composeArgs'), composeArgsRight = require('./_composeArgsRight'), createCtorWrapper = require('./_createCtorWrapper'), createRecurryWrapper = require('./_createRecurryWrapper'), reorder = require('./_reorder'), replaceHolders = require('./_replaceHolders'), root = require('./_root'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1, BIND_KEY_FLAG = 2, CURRY_FLAG = 8, CURRY_RIGHT_FLAG = 16, ARY_FLAG = 128, FLIP_FLAG = 512; /** * Creates a function that wraps `func` to invoke it with optional `this` * binding of `thisArg`, partial application, and currying. * * @private * @param {Function|string} func The function or method name to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to prepend to those provided to the new function. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [partialsRight] The arguments to append to those provided to the new function. * @param {Array} [holdersRight] The `partialsRight` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createHybridWrapper(func, bitmask, thisArg, partials, holders, partialsRight, holdersRight, argPos, ary, arity) { var isAry = bitmask & ARY_FLAG, isBind = bitmask & BIND_FLAG, isBindKey = bitmask & BIND_KEY_FLAG, isCurry = bitmask & CURRY_FLAG, isCurryRight = bitmask & CURRY_RIGHT_FLAG, isFlip = bitmask & FLIP_FLAG, Ctor = isBindKey ? undefined : createCtorWrapper(func); function wrapper() { var length = arguments.length, index = length, args = Array(length); while (index--) { args[index] = arguments[index]; } if (partials) { args = composeArgs(args, partials, holders); } if (partialsRight) { args = composeArgsRight(args, partialsRight, holdersRight); } if (isCurry || isCurryRight) { var placeholder = wrapper.placeholder, argsHolders = replaceHolders(args, placeholder); length -= argsHolders.length; if (length < arity) { return createRecurryWrapper(func, bitmask, createHybridWrapper, placeholder, thisArg, args, argsHolders, argPos, ary, arity - length); } } var thisBinding = isBind ? thisArg : this, fn = isBindKey ? thisBinding[func] : func; if (argPos) { args = reorder(args, argPos); } else if (isFlip && args.length > 1) { args.reverse(); } if (isAry && ary < args.length) { args.length = ary; } if (this && this !== root && this instanceof wrapper) { fn = Ctor || createCtorWrapper(fn); } return fn.apply(thisBinding, args); } return wrapper; } module.exports = createHybridWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createPartialWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var apply = require('./_apply'), createCtorWrapper = require('./_createCtorWrapper'), root = require('./_root'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1; /** * Creates a function that wraps `func` to invoke it with the optional `this` * binding of `thisArg` and the `partials` prepended to those provided to * the wrapper. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} thisArg The `this` binding of `func`. * @param {Array} partials The arguments to prepend to those provided to the new function. * @returns {Function} Returns the new wrapped function. */ function createPartialWrapper(func, bitmask, thisArg, partials) { var isBind = bitmask & BIND_FLAG, Ctor = createCtorWrapper(func); function wrapper() { var argsIndex = -1, argsLength = arguments.length, leftIndex = -1, leftLength = partials.length, args = Array(leftLength + argsLength), fn = (this && this !== root && this instanceof wrapper) ? Ctor : func; while (++leftIndex < leftLength) { args[leftIndex] = partials[leftIndex]; } while (argsLength--) { args[leftIndex++] = arguments[++argsIndex]; } return apply(fn, isBind ? thisArg : this, args); } return wrapper; } module.exports = createPartialWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createRecurryWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var copyArray = require('./_copyArray'), isLaziable = require('./_isLaziable'), setData = require('./_setData'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1, BIND_KEY_FLAG = 2, CURRY_BOUND_FLAG = 4, CURRY_FLAG = 8, PARTIAL_FLAG = 32, PARTIAL_RIGHT_FLAG = 64; /** * Creates a function that wraps `func` to continue currying. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {Function} wrapFunc The function to create the `func` wrapper. * @param {*} placeholder The placeholder to replace. * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to prepend to those provided to the new function. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createRecurryWrapper(func, bitmask, wrapFunc, placeholder, thisArg, partials, holders, argPos, ary, arity) { var isCurry = bitmask & CURRY_FLAG, newArgPos = argPos ? copyArray(argPos) : undefined, newsHolders = isCurry ? holders : undefined, newHoldersRight = isCurry ? undefined : holders, newPartials = isCurry ? partials : undefined, newPartialsRight = isCurry ? undefined : partials; bitmask |= (isCurry ? PARTIAL_FLAG : PARTIAL_RIGHT_FLAG); bitmask &= ~(isCurry ? PARTIAL_RIGHT_FLAG : PARTIAL_FLAG); if (!(bitmask & CURRY_BOUND_FLAG)) { bitmask &= ~(BIND_FLAG | BIND_KEY_FLAG); } var newData = [func, bitmask, thisArg, newPartials, newsHolders, newPartialsRight, newHoldersRight, newArgPos, ary, arity], result = wrapFunc.apply(undefined, newData); if (isLaziable(func)) { setData(result, newData); } result.placeholder = placeholder; return result; } module.exports = createRecurryWrapper; })(); }); require.register("kohonen/node_modules/lodash/_createWrapper.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseSetData = require('./_baseSetData'), createBaseWrapper = require('./_createBaseWrapper'), createCurryWrapper = require('./_createCurryWrapper'), createHybridWrapper = require('./_createHybridWrapper'), createPartialWrapper = require('./_createPartialWrapper'), getData = require('./_getData'), mergeData = require('./_mergeData'), setData = require('./_setData'), toInteger = require('./toInteger'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1, BIND_KEY_FLAG = 2, CURRY_FLAG = 8, CURRY_RIGHT_FLAG = 16, PARTIAL_FLAG = 32, PARTIAL_RIGHT_FLAG = 64; /** Used as the `TypeError` message for "Functions" methods. */ var FUNC_ERROR_TEXT = 'Expected a function'; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeMax = Math.max; /** * Creates a function that either curries or invokes `func` with optional * `this` binding and partially applied arguments. * * @private * @param {Function|string} func The function or method name to wrap. * @param {number} bitmask The bitmask of wrapper flags. * The bitmask may be composed of the following flags: * 1 - `_.bind` * 2 - `_.bindKey` * 4 - `_.curry` or `_.curryRight` of a bound function * 8 - `_.curry` * 16 - `_.curryRight` * 32 - `_.partial` * 64 - `_.partialRight` * 128 - `_.rearg` * 256 - `_.ary` * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to be partially applied. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createWrapper(func, bitmask, thisArg, partials, holders, argPos, ary, arity) { var isBindKey = bitmask & BIND_KEY_FLAG; if (!isBindKey && typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } var length = partials ? partials.length : 0; if (!length) { bitmask &= ~(PARTIAL_FLAG | PARTIAL_RIGHT_FLAG); partials = holders = undefined; } ary = ary === undefined ? ary : nativeMax(toInteger(ary), 0); arity = arity === undefined ? arity : toInteger(arity); length -= holders ? holders.length : 0; if (bitmask & PARTIAL_RIGHT_FLAG) { var partialsRight = partials, holdersRight = holders; partials = holders = undefined; } var data = isBindKey ? undefined : getData(func), newData = [func, bitmask, thisArg, partials, holders, partialsRight, holdersRight, argPos, ary, arity]; if (data) { mergeData(newData, data); } func = newData[0]; bitmask = newData[1]; thisArg = newData[2]; partials = newData[3]; holders = newData[4]; arity = newData[9] = newData[9] == null ? (isBindKey ? 0 : func.length) : nativeMax(newData[9] - length, 0); if (!arity && bitmask & (CURRY_FLAG | CURRY_RIGHT_FLAG)) { bitmask &= ~(CURRY_FLAG | CURRY_RIGHT_FLAG); } if (!bitmask || bitmask == BIND_FLAG) { var result = createBaseWrapper(func, bitmask, thisArg); } else if (bitmask == CURRY_FLAG || bitmask == CURRY_RIGHT_FLAG) { result = createCurryWrapper(func, bitmask, arity); } else if ((bitmask == PARTIAL_FLAG || bitmask == (BIND_FLAG | PARTIAL_FLAG)) && !holders.length) { result = createPartialWrapper(func, bitmask, thisArg, partials); } else { result = createHybridWrapper.apply(undefined, newData); } var setter = data ? baseSetData : setData; return setter(result, newData); } module.exports = createWrapper; })(); }); require.register("kohonen/node_modules/lodash/_equalArrays.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var arraySome = require('./_arraySome'); /** Used to compose bitmasks for comparison styles. */ var UNORDERED_COMPARE_FLAG = 1, PARTIAL_COMPARE_FLAG = 2; /** * A specialized version of `baseIsEqualDeep` for arrays with support for * partial deep comparisons. * * @private * @param {Array} array The array to compare. * @param {Array} other The other array to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `array` and `other` objects. * @returns {boolean} Returns `true` if the arrays are equivalent, else `false`. */ function equalArrays(array, other, equalFunc, customizer, bitmask, stack) { var index = -1, isPartial = bitmask & PARTIAL_COMPARE_FLAG, isUnordered = bitmask & UNORDERED_COMPARE_FLAG, arrLength = array.length, othLength = other.length; if (arrLength != othLength && !(isPartial && othLength > arrLength)) { return false; } // Assume cyclic values are equal. var stacked = stack.get(array); if (stacked) { return stacked == other; } var result = true; stack.set(array, other); // Ignore non-index properties. while (++index < arrLength) { var arrValue = array[index], othValue = other[index]; if (customizer) { var compared = isPartial ? customizer(othValue, arrValue, index, other, array, stack) : customizer(arrValue, othValue, index, array, other, stack); } if (compared !== undefined) { if (compared) { continue; } result = false; break; } // Recursively compare arrays (susceptible to call stack limits). if (isUnordered) { if (!arraySome(other, function(othValue) { return arrValue === othValue || equalFunc(arrValue, othValue, customizer, bitmask, stack); })) { result = false; break; } } else if (!(arrValue === othValue || equalFunc(arrValue, othValue, customizer, bitmask, stack))) { result = false; break; } } stack['delete'](array); return result; } module.exports = equalArrays; })(); }); require.register("kohonen/node_modules/lodash/_equalByTag.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Symbol = require('./_Symbol'), Uint8Array = require('./_Uint8Array'), mapToArray = require('./_mapToArray'), setToArray = require('./_setToArray'); /** Used to compose bitmasks for comparison styles. */ var UNORDERED_COMPARE_FLAG = 1, PARTIAL_COMPARE_FLAG = 2; /** `Object#toString` result references. */ var boolTag = '[object Boolean]', dateTag = '[object Date]', errorTag = '[object Error]', mapTag = '[object Map]', numberTag = '[object Number]', regexpTag = '[object RegExp]', setTag = '[object Set]', stringTag = '[object String]', symbolTag = '[object Symbol]'; var arrayBufferTag = '[object ArrayBuffer]'; /** Used to convert symbols to primitives and strings. */ var symbolProto = Symbol ? Symbol.prototype : undefined, symbolValueOf = Symbol ? symbolProto.valueOf : undefined; /** * A specialized version of `baseIsEqualDeep` for comparing objects of * the same `toStringTag`. * * **Note:** This function only supports comparing values with tags of * `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {string} tag The `toStringTag` of the objects to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalByTag(object, other, tag, equalFunc, customizer, bitmask) { switch (tag) { case arrayBufferTag: if ((object.byteLength != other.byteLength) || !equalFunc(new Uint8Array(object), new Uint8Array(other))) { return false; } return true; case boolTag: case dateTag: // Coerce dates and booleans to numbers, dates to milliseconds and booleans // to `1` or `0` treating invalid dates coerced to `NaN` as not equal. return +object == +other; case errorTag: return object.name == other.name && object.message == other.message; case numberTag: // Treat `NaN` vs. `NaN` as equal. return (object != +object) ? other != +other : object == +other; case regexpTag: case stringTag: // Coerce regexes to strings and treat strings primitives and string // objects as equal. See https://es5.github.io/#x15.10.6.4 for more details. return object == (other + ''); case mapTag: var convert = mapToArray; case setTag: var isPartial = bitmask & PARTIAL_COMPARE_FLAG; convert || (convert = setToArray); // Recursively compare objects (susceptible to call stack limits). return (isPartial || object.size == other.size) && equalFunc(convert(object), convert(other), customizer, bitmask | UNORDERED_COMPARE_FLAG); case symbolTag: return !!Symbol && (symbolValueOf.call(object) == symbolValueOf.call(other)); } return false; } module.exports = equalByTag; })(); }); require.register("kohonen/node_modules/lodash/_equalObjects.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseHas = require('./_baseHas'), keys = require('./keys'); /** Used to compose bitmasks for comparison styles. */ var PARTIAL_COMPARE_FLAG = 2; /** * A specialized version of `baseIsEqualDeep` for objects with support for * partial deep comparisons. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalObjects(object, other, equalFunc, customizer, bitmask, stack) { var isPartial = bitmask & PARTIAL_COMPARE_FLAG, objProps = keys(object), objLength = objProps.length, othProps = keys(other), othLength = othProps.length; if (objLength != othLength && !isPartial) { return false; } var index = objLength; while (index--) { var key = objProps[index]; if (!(isPartial ? key in other : baseHas(other, key))) { return false; } } // Assume cyclic values are equal. var stacked = stack.get(object); if (stacked) { return stacked == other; } var result = true; stack.set(object, other); var skipCtor = isPartial; while (++index < objLength) { key = objProps[index]; var objValue = object[key], othValue = other[key]; if (customizer) { var compared = isPartial ? customizer(othValue, objValue, key, other, object, stack) : customizer(objValue, othValue, key, object, other, stack); } // Recursively compare objects (susceptible to call stack limits). if (!(compared === undefined ? (objValue === othValue || equalFunc(objValue, othValue, customizer, bitmask, stack)) : compared )) { result = false; break; } skipCtor || (skipCtor = key == 'constructor'); } if (result && !skipCtor) { var objCtor = object.constructor, othCtor = other.constructor; // Non `Object` object instances with different constructors are not equal. if (objCtor != othCtor && ('constructor' in object && 'constructor' in other) && !(typeof objCtor == 'function' && objCtor instanceof objCtor && typeof othCtor == 'function' && othCtor instanceof othCtor)) { result = false; } } stack['delete'](object); return result; } module.exports = equalObjects; })(); }); require.register("kohonen/node_modules/lodash/_getData.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var metaMap = require('./_metaMap'), noop = require('./noop'); /** * Gets metadata for `func`. * * @private * @param {Function} func The function to query. * @returns {*} Returns the metadata for `func`. */ var getData = !metaMap ? noop : function(func) { return metaMap.get(func); }; module.exports = getData; })(); }); require.register("kohonen/node_modules/lodash/_getFuncName.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var realNames = require('./_realNames'); /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Gets the name of `func`. * * @private * @param {Function} func The function to query. * @returns {string} Returns the function name. */ function getFuncName(func) { var result = (func.name + ''), array = realNames[result], length = hasOwnProperty.call(realNames, result) ? array.length : 0; while (length--) { var data = array[length], otherFunc = data.func; if (otherFunc == null || otherFunc == func) { return data.name; } } return result; } module.exports = getFuncName; })(); }); require.register("kohonen/node_modules/lodash/_getLength.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseProperty = require('./_baseProperty'); /** * Gets the "length" property value of `object`. * * **Note:** This function is used to avoid a [JIT bug](https://bugs.webkit.org/show_bug.cgi?id=142792) * that affects Safari on at least iOS 8.1-8.3 ARM64. * * @private * @param {Object} object The object to query. * @returns {*} Returns the "length" value. */ var getLength = baseProperty('length'); module.exports = getLength; })(); }); require.register("kohonen/node_modules/lodash/_getMatchData.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isStrictComparable = require('./_isStrictComparable'), toPairs = require('./toPairs'); /** * Gets the property names, values, and compare flags of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the match data of `object`. */ function getMatchData(object) { var result = toPairs(object), length = result.length; while (length--) { result[length][2] = isStrictComparable(result[length][1]); } return result; } module.exports = getMatchData; })(); }); require.register("kohonen/node_modules/lodash/_getNative.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isNative = require('./isNative'); /** * Gets the native function at `key` of `object`. * * @private * @param {Object} object The object to query. * @param {string} key The key of the method to get. * @returns {*} Returns the function if it's native, else `undefined`. */ function getNative(object, key) { var value = object == null ? undefined : object[key]; return isNative(value) ? value : undefined; } module.exports = getNative; })(); }); require.register("kohonen/node_modules/lodash/_getSymbols.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Built-in value references. */ var getOwnPropertySymbols = Object.getOwnPropertySymbols; /** * Creates an array of the own symbol properties of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of symbols. */ var getSymbols = getOwnPropertySymbols || function() { return []; }; module.exports = getSymbols; })(); }); require.register("kohonen/node_modules/lodash/_getTag.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Map = require('./_Map'), Set = require('./_Set'), WeakMap = require('./_WeakMap'); /** `Object#toString` result references. */ var mapTag = '[object Map]', objectTag = '[object Object]', setTag = '[object Set]', weakMapTag = '[object WeakMap]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to resolve the decompiled source of functions. */ var funcToString = Function.prototype.toString; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** Used to detect maps, sets, and weakmaps. */ var mapCtorString = Map ? funcToString.call(Map) : '', setCtorString = Set ? funcToString.call(Set) : '', weakMapCtorString = WeakMap ? funcToString.call(WeakMap) : ''; /** * Gets the `toStringTag` of `value`. * * @private * @param {*} value The value to query. * @returns {string} Returns the `toStringTag`. */ function getTag(value) { return objectToString.call(value); } // Fallback for IE 11 providing `toStringTag` values for maps, sets, and weakmaps. if ((Map && getTag(new Map) != mapTag) || (Set && getTag(new Set) != setTag) || (WeakMap && getTag(new WeakMap) != weakMapTag)) { getTag = function(value) { var result = objectToString.call(value), Ctor = result == objectTag ? value.constructor : null, ctorString = typeof Ctor == 'function' ? funcToString.call(Ctor) : ''; if (ctorString) { switch (ctorString) { case mapCtorString: return mapTag; case setCtorString: return setTag; case weakMapCtorString: return weakMapTag; } } return result; }; } module.exports = getTag; })(); }); require.register("kohonen/node_modules/lodash/_hasPath.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseToPath = require('./_baseToPath'), isArguments = require('./isArguments'), isArray = require('./isArray'), isIndex = require('./_isIndex'), isKey = require('./_isKey'), isLength = require('./isLength'), isString = require('./isString'), last = require('./last'), parent = require('./_parent'); /** * Checks if `path` exists on `object`. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @param {Function} hasFunc The function to check properties. * @returns {boolean} Returns `true` if `path` exists, else `false`. */ function hasPath(object, path, hasFunc) { if (object == null) { return false; } var result = hasFunc(object, path); if (!result && !isKey(path)) { path = baseToPath(path); object = parent(object, path); if (object != null) { path = last(path); result = hasFunc(object, path); } } var length = object ? object.length : undefined; return result || ( !!length && isLength(length) && isIndex(path, length) && (isArray(object) || isString(object) || isArguments(object)) ); } module.exports = hasPath; })(); }); require.register("kohonen/node_modules/lodash/_hashDelete.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var hashHas = require('./_hashHas'); /** * Removes `key` and its value from the hash. * * @private * @param {Object} hash The hash to modify. * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function hashDelete(hash, key) { return hashHas(hash, key) && delete hash[key]; } module.exports = hashDelete; })(); }); require.register("kohonen/node_modules/lodash/_hashGet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var nativeCreate = require('./_nativeCreate'); /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED = '__lodash_hash_undefined__'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Gets the hash value for `key`. * * @private * @param {Object} hash The hash to query. * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function hashGet(hash, key) { if (nativeCreate) { var result = hash[key]; return result === HASH_UNDEFINED ? undefined : result; } return hasOwnProperty.call(hash, key) ? hash[key] : undefined; } module.exports = hashGet; })(); }); require.register("kohonen/node_modules/lodash/_hashHas.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var nativeCreate = require('./_nativeCreate'); /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Checks if a hash value for `key` exists. * * @private * @param {Object} hash The hash to query. * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function hashHas(hash, key) { return nativeCreate ? hash[key] !== undefined : hasOwnProperty.call(hash, key); } module.exports = hashHas; })(); }); require.register("kohonen/node_modules/lodash/_hashSet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var nativeCreate = require('./_nativeCreate'); /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED = '__lodash_hash_undefined__'; /** * Sets the hash `key` to `value`. * * @private * @param {Object} hash The hash to modify. * @param {string} key The key of the value to set. * @param {*} value The value to set. */ function hashSet(hash, key, value) { hash[key] = (nativeCreate && value === undefined) ? HASH_UNDEFINED : value; } module.exports = hashSet; })(); }); require.register("kohonen/node_modules/lodash/_indexKeys.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseTimes = require('./_baseTimes'), isArguments = require('./isArguments'), isArray = require('./isArray'), isLength = require('./isLength'), isString = require('./isString'); /** * Creates an array of index keys for `object` values of arrays, * `arguments` objects, and strings, otherwise `null` is returned. * * @private * @param {Object} object The object to query. * @returns {Array|null} Returns index keys, else `null`. */ function indexKeys(object) { var length = object ? object.length : undefined; if (isLength(length) && (isArray(object) || isString(object) || isArguments(object))) { return baseTimes(length, String); } return null; } module.exports = indexKeys; })(); }); require.register("kohonen/node_modules/lodash/_initCloneArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Initializes an array clone. * * @private * @param {Array} array The array to clone. * @returns {Array} Returns the initialized clone. */ function initCloneArray(array) { var length = array.length, result = array.constructor(length); // Add properties assigned by `RegExp#exec`. if (length && typeof array[0] == 'string' && hasOwnProperty.call(array, 'index')) { result.index = array.index; result.input = array.input; } return result; } module.exports = initCloneArray; })(); }); require.register("kohonen/node_modules/lodash/_initCloneByTag.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var cloneArrayBuffer = require('./_cloneArrayBuffer'), cloneMap = require('./_cloneMap'), cloneRegExp = require('./_cloneRegExp'), cloneSet = require('./_cloneSet'), cloneSymbol = require('./_cloneSymbol'), cloneTypedArray = require('./_cloneTypedArray'); /** `Object#toString` result references. */ var boolTag = '[object Boolean]', dateTag = '[object Date]', mapTag = '[object Map]', numberTag = '[object Number]', regexpTag = '[object RegExp]', setTag = '[object Set]', stringTag = '[object String]', symbolTag = '[object Symbol]'; var arrayBufferTag = '[object ArrayBuffer]', float32Tag = '[object Float32Array]', float64Tag = '[object Float64Array]', int8Tag = '[object Int8Array]', int16Tag = '[object Int16Array]', int32Tag = '[object Int32Array]', uint8Tag = '[object Uint8Array]', uint8ClampedTag = '[object Uint8ClampedArray]', uint16Tag = '[object Uint16Array]', uint32Tag = '[object Uint32Array]'; /** * Initializes an object clone based on its `toStringTag`. * * **Note:** This function only supports cloning values with tags of * `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`. * * @private * @param {Object} object The object to clone. * @param {string} tag The `toStringTag` of the object to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Object} Returns the initialized clone. */ function initCloneByTag(object, tag, isDeep) { var Ctor = object.constructor; switch (tag) { case arrayBufferTag: return cloneArrayBuffer(object); case boolTag: case dateTag: return new Ctor(+object); case float32Tag: case float64Tag: case int8Tag: case int16Tag: case int32Tag: case uint8Tag: case uint8ClampedTag: case uint16Tag: case uint32Tag: return cloneTypedArray(object, isDeep); case mapTag: return cloneMap(object); case numberTag: case stringTag: return new Ctor(object); case regexpTag: return cloneRegExp(object); case setTag: return cloneSet(object); case symbolTag: return cloneSymbol(object); } } module.exports = initCloneByTag; })(); }); require.register("kohonen/node_modules/lodash/_initCloneObject.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseCreate = require('./_baseCreate'), isFunction = require('./isFunction'), isPrototype = require('./_isPrototype'); /** * Initializes an object clone. * * @private * @param {Object} object The object to clone. * @returns {Object} Returns the initialized clone. */ function initCloneObject(object) { if (isPrototype(object)) { return {}; } var Ctor = object.constructor; return baseCreate(isFunction(Ctor) ? Ctor.prototype : undefined); } module.exports = initCloneObject; })(); }); require.register("kohonen/node_modules/lodash/_isHostObject.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is a host object in IE < 9. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a host object, else `false`. */ function isHostObject(value) { // Many host objects are `Object` objects that can coerce to strings // despite having improperly defined `toString` methods. var result = false; if (value != null && typeof value.toString != 'function') { try { result = !!(value + ''); } catch (e) {} } return result; } module.exports = isHostObject; })(); }); require.register("kohonen/node_modules/lodash/_isIndex.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used as references for various `Number` constants. */ var MAX_SAFE_INTEGER = 9007199254740991; /** Used to detect unsigned integer values. */ var reIsUint = /^(?:0|[1-9]\d*)$/; /** * Checks if `value` is a valid array-like index. * * @private * @param {*} value The value to check. * @param {number} [length=MAX_SAFE_INTEGER] The upper bounds of a valid index. * @returns {boolean} Returns `true` if `value` is a valid index, else `false`. */ function isIndex(value, length) { value = (typeof value == 'number' || reIsUint.test(value)) ? +value : -1; length = length == null ? MAX_SAFE_INTEGER : length; return value > -1 && value % 1 == 0 && value < length; } module.exports = isIndex; })(); }); require.register("kohonen/node_modules/lodash/_isIterateeCall.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var eq = require('./eq'), isArrayLike = require('./isArrayLike'), isIndex = require('./_isIndex'), isObject = require('./isObject'); /** * Checks if the given arguments are from an iteratee call. * * @private * @param {*} value The potential iteratee value argument. * @param {*} index The potential iteratee index or key argument. * @param {*} object The potential iteratee object argument. * @returns {boolean} Returns `true` if the arguments are from an iteratee call, else `false`. */ function isIterateeCall(value, index, object) { if (!isObject(object)) { return false; } var type = typeof index; if (type == 'number' ? (isArrayLike(object) && isIndex(index, object.length)) : (type == 'string' && index in object)) { return eq(object[index], value); } return false; } module.exports = isIterateeCall; })(); }); require.register("kohonen/node_modules/lodash/_isKey.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isArray = require('./isArray'); /** Used to match property names within property paths. */ var reIsDeepProp = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/, reIsPlainProp = /^\w*$/; /** * Checks if `value` is a property name and not a property path. * * @private * @param {*} value The value to check. * @param {Object} [object] The object to query keys on. * @returns {boolean} Returns `true` if `value` is a property name, else `false`. */ function isKey(value, object) { if (typeof value == 'number') { return true; } return !isArray(value) && (reIsPlainProp.test(value) || !reIsDeepProp.test(value) || (object != null && value in Object(object))); } module.exports = isKey; })(); }); require.register("kohonen/node_modules/lodash/_isKeyable.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is suitable for use as unique object key. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is suitable, else `false`. */ function isKeyable(value) { var type = typeof value; return type == 'number' || type == 'boolean' || (type == 'string' && value !== '__proto__') || value == null; } module.exports = isKeyable; })(); }); require.register("kohonen/node_modules/lodash/_isLaziable.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var LazyWrapper = require('./_LazyWrapper'), getData = require('./_getData'), getFuncName = require('./_getFuncName'), lodash = require('./wrapperLodash'); /** * Checks if `func` has a lazy counterpart. * * @private * @param {Function} func The function to check. * @returns {boolean} Returns `true` if `func` has a lazy counterpart, else `false`. */ function isLaziable(func) { var funcName = getFuncName(func), other = lodash[funcName]; if (typeof other != 'function' || !(funcName in LazyWrapper.prototype)) { return false; } if (func === other) { return true; } var data = getData(other); return !!data && func === data[0]; } module.exports = isLaziable; })(); }); require.register("kohonen/node_modules/lodash/_isPrototype.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Checks if `value` is likely a prototype object. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a prototype, else `false`. */ function isPrototype(value) { var Ctor = value && value.constructor, proto = (typeof Ctor == 'function' && Ctor.prototype) || objectProto; return value === proto; } module.exports = isPrototype; })(); }); require.register("kohonen/node_modules/lodash/_isStrictComparable.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isObject = require('./isObject'); /** * Checks if `value` is suitable for strict equality comparisons, i.e. `===`. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` if suitable for strict * equality comparisons, else `false`. */ function isStrictComparable(value) { return value === value && !isObject(value); } module.exports = isStrictComparable; })(); }); require.register("kohonen/node_modules/lodash/_mapClear.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Hash = require('./_Hash'), Map = require('./_Map'); /** * Removes all key-value entries from the map. * * @private * @name clear * @memberOf MapCache */ function mapClear() { this.__data__ = { 'hash': new Hash, 'map': Map ? new Map : [], 'string': new Hash }; } module.exports = mapClear; })(); }); require.register("kohonen/node_modules/lodash/_mapDelete.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Map = require('./_Map'), assocDelete = require('./_assocDelete'), hashDelete = require('./_hashDelete'), isKeyable = require('./_isKeyable'); /** * Removes `key` and its value from the map. * * @private * @name delete * @memberOf MapCache * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function mapDelete(key) { var data = this.__data__; if (isKeyable(key)) { return hashDelete(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map['delete'](key) : assocDelete(data.map, key); } module.exports = mapDelete; })(); }); require.register("kohonen/node_modules/lodash/_mapGet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Map = require('./_Map'), assocGet = require('./_assocGet'), hashGet = require('./_hashGet'), isKeyable = require('./_isKeyable'); /** * Gets the map value for `key`. * * @private * @name get * @memberOf MapCache * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function mapGet(key) { var data = this.__data__; if (isKeyable(key)) { return hashGet(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map.get(key) : assocGet(data.map, key); } module.exports = mapGet; })(); }); require.register("kohonen/node_modules/lodash/_mapHas.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Map = require('./_Map'), assocHas = require('./_assocHas'), hashHas = require('./_hashHas'), isKeyable = require('./_isKeyable'); /** * Checks if a map value for `key` exists. * * @private * @name has * @memberOf MapCache * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function mapHas(key) { var data = this.__data__; if (isKeyable(key)) { return hashHas(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map.has(key) : assocHas(data.map, key); } module.exports = mapHas; })(); }); require.register("kohonen/node_modules/lodash/_mapSet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var Map = require('./_Map'), assocSet = require('./_assocSet'), hashSet = require('./_hashSet'), isKeyable = require('./_isKeyable'); /** * Sets the map `key` to `value`. * * @private * @name set * @memberOf MapCache * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the map cache object. */ function mapSet(key, value) { var data = this.__data__; if (isKeyable(key)) { hashSet(typeof key == 'string' ? data.string : data.hash, key, value); } else if (Map) { data.map.set(key, value); } else { assocSet(data.map, key, value); } return this; } module.exports = mapSet; })(); }); require.register("kohonen/node_modules/lodash/_mapToArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Converts `map` to an array. * * @private * @param {Object} map The map to convert. * @returns {Array} Returns the converted array. */ function mapToArray(map) { var index = -1, result = Array(map.size); map.forEach(function(value, key) { result[++index] = [key, value]; }); return result; } module.exports = mapToArray; })(); }); require.register("kohonen/node_modules/lodash/_mergeData.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var composeArgs = require('./_composeArgs'), composeArgsRight = require('./_composeArgsRight'), copyArray = require('./_copyArray'), replaceHolders = require('./_replaceHolders'); /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1, BIND_KEY_FLAG = 2, CURRY_BOUND_FLAG = 4, CURRY_FLAG = 8, ARY_FLAG = 128, REARG_FLAG = 256; /** Used as the internal argument placeholder. */ var PLACEHOLDER = '__lodash_placeholder__'; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeMin = Math.min; /** * Merges the function metadata of `source` into `data`. * * Merging metadata reduces the number of wrappers used to invoke a function. * This is possible because methods like `_.bind`, `_.curry`, and `_.partial` * may be applied regardless of execution order. Methods like `_.ary` and `_.rearg` * modify function arguments, making the order in which they are executed important, * preventing the merging of metadata. However, we make an exception for a safe * combined case where curried functions have `_.ary` and or `_.rearg` applied. * * @private * @param {Array} data The destination metadata. * @param {Array} source The source metadata. * @returns {Array} Returns `data`. */ function mergeData(data, source) { var bitmask = data[1], srcBitmask = source[1], newBitmask = bitmask | srcBitmask, isCommon = newBitmask < (BIND_FLAG | BIND_KEY_FLAG | ARY_FLAG); var isCombo = (srcBitmask == ARY_FLAG && (bitmask == CURRY_FLAG)) || (srcBitmask == ARY_FLAG && (bitmask == REARG_FLAG) && (data[7].length <= source[8])) || (srcBitmask == (ARY_FLAG | REARG_FLAG) && (source[7].length <= source[8]) && (bitmask == CURRY_FLAG)); // Exit early if metadata can't be merged. if (!(isCommon || isCombo)) { return data; } // Use source `thisArg` if available. if (srcBitmask & BIND_FLAG) { data[2] = source[2]; // Set when currying a bound function. newBitmask |= (bitmask & BIND_FLAG) ? 0 : CURRY_BOUND_FLAG; } // Compose partial arguments. var value = source[3]; if (value) { var partials = data[3]; data[3] = partials ? composeArgs(partials, value, source[4]) : copyArray(value); data[4] = partials ? replaceHolders(data[3], PLACEHOLDER) : copyArray(source[4]); } // Compose partial right arguments. value = source[5]; if (value) { partials = data[5]; data[5] = partials ? composeArgsRight(partials, value, source[6]) : copyArray(value); data[6] = partials ? replaceHolders(data[5], PLACEHOLDER) : copyArray(source[6]); } // Use source `argPos` if available. value = source[7]; if (value) { data[7] = copyArray(value); } // Use source `ary` if it's smaller. if (srcBitmask & ARY_FLAG) { data[8] = data[8] == null ? source[8] : nativeMin(data[8], source[8]); } // Use source `arity` if one is not provided. if (data[9] == null) { data[9] = source[9]; } // Use source `func` and merge bitmasks. data[0] = source[0]; data[1] = newBitmask; return data; } module.exports = mergeData; })(); }); require.register("kohonen/node_modules/lodash/_metaMap.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var WeakMap = require('./_WeakMap'); /** Used to store function metadata. */ var metaMap = WeakMap && new WeakMap; module.exports = metaMap; })(); }); require.register("kohonen/node_modules/lodash/_nativeCreate.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var getNative = require('./_getNative'); /* Built-in method references that are verified to be native. */ var nativeCreate = getNative(Object, 'create'); module.exports = nativeCreate; })(); }); require.register("kohonen/node_modules/lodash/_parent.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseSlice = require('./_baseSlice'), get = require('./get'); /** * Gets the parent value at `path` of `object`. * * @private * @param {Object} object The object to query. * @param {Array} path The path to get the parent value of. * @returns {*} Returns the parent value. */ function parent(object, path) { return path.length == 1 ? object : get(object, baseSlice(path, 0, -1)); } module.exports = parent; })(); }); require.register("kohonen/node_modules/lodash/_realNames.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used to lookup unminified function names. */ var realNames = {}; module.exports = realNames; })(); }); require.register("kohonen/node_modules/lodash/_reorder.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var copyArray = require('./_copyArray'), isIndex = require('./_isIndex'); /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeMin = Math.min; /** * Reorder `array` according to the specified indexes where the element at * the first index is assigned as the first element, the element at * the second index is assigned as the second element, and so on. * * @private * @param {Array} array The array to reorder. * @param {Array} indexes The arranged array indexes. * @returns {Array} Returns `array`. */ function reorder(array, indexes) { var arrLength = array.length, length = nativeMin(indexes.length, arrLength), oldArray = copyArray(array); while (length--) { var index = indexes[length]; array[length] = isIndex(index, arrLength) ? oldArray[index] : undefined; } return array; } module.exports = reorder; })(); }); require.register("kohonen/node_modules/lodash/_replaceHolders.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used as the internal argument placeholder. */ var PLACEHOLDER = '__lodash_placeholder__'; /** * Replaces all `placeholder` elements in `array` with an internal placeholder * and returns an array of their indexes. * * @private * @param {Array} array The array to modify. * @param {*} placeholder The placeholder to replace. * @returns {Array} Returns the new array of placeholder indexes. */ function replaceHolders(array, placeholder) { var index = -1, length = array.length, resIndex = -1, result = []; while (++index < length) { if (array[index] === placeholder) { array[index] = PLACEHOLDER; result[++resIndex] = index; } } return result; } module.exports = replaceHolders; })(); }); require.register("kohonen/node_modules/lodash/_root.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var checkGlobal = require('./_checkGlobal'); /** Used to determine if values are of the language type `Object`. */ var objectTypes = { 'function': true, 'object': true }; /** Detect free variable `exports`. */ var freeExports = (objectTypes[typeof exports] && exports && !exports.nodeType) ? exports : null; /** Detect free variable `module`. */ var freeModule = (objectTypes[typeof module] && module && !module.nodeType) ? module : null; /** Detect free variable `global` from Node.js. */ var freeGlobal = checkGlobal(freeExports && freeModule && typeof global == 'object' && global); /** Detect free variable `self`. */ var freeSelf = checkGlobal(objectTypes[typeof self] && self); /** Detect free variable `window`. */ var freeWindow = checkGlobal(objectTypes[typeof window] && window); /** Detect `this` as the global object. */ var thisGlobal = checkGlobal(objectTypes[typeof this] && this); /** * Used as a reference to the global object. * * The `this` value is used if it's the global object to avoid Greasemonkey's * restricted `window` object, otherwise the `window` object is used. */ var root = freeGlobal || ((freeWindow !== (thisGlobal && thisGlobal.window)) && freeWindow) || freeSelf || thisGlobal || Function('return this')(); module.exports = root; })(); }); require.register("kohonen/node_modules/lodash/_setData.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseSetData = require('./_baseSetData'), now = require('./now'); /** Used to detect hot functions by number of calls within a span of milliseconds. */ var HOT_COUNT = 150, HOT_SPAN = 16; /** * Sets metadata for `func`. * * **Note:** If this function becomes hot, i.e. is invoked a lot in a short * period of time, it will trip its breaker and transition to an identity function * to avoid garbage collection pauses in V8. See [V8 issue 2070](https://code.google.com/p/v8/issues/detail?id=2070) * for more details. * * @private * @param {Function} func The function to associate metadata with. * @param {*} data The metadata. * @returns {Function} Returns `func`. */ var setData = (function() { var count = 0, lastCalled = 0; return function(key, value) { var stamp = now(), remaining = HOT_SPAN - (stamp - lastCalled); lastCalled = stamp; if (remaining > 0) { if (++count >= HOT_COUNT) { return key; } } else { count = 0; } return baseSetData(key, value); }; }()); module.exports = setData; })(); }); require.register("kohonen/node_modules/lodash/_setToArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Converts `set` to an array. * * @private * @param {Object} set The set to convert. * @returns {Array} Returns the converted array. */ function setToArray(set) { var index = -1, result = Array(set.size); set.forEach(function(value) { result[++index] = value; }); return result; } module.exports = setToArray; })(); }); require.register("kohonen/node_modules/lodash/_stackClear.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Removes all key-value entries from the stack. * * @private * @name clear * @memberOf Stack */ function stackClear() { this.__data__ = { 'array': [], 'map': null }; } module.exports = stackClear; })(); }); require.register("kohonen/node_modules/lodash/_stackDelete.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocDelete = require('./_assocDelete'); /** * Removes `key` and its value from the stack. * * @private * @name delete * @memberOf Stack * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function stackDelete(key) { var data = this.__data__, array = data.array; return array ? assocDelete(array, key) : data.map['delete'](key); } module.exports = stackDelete; })(); }); require.register("kohonen/node_modules/lodash/_stackGet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocGet = require('./_assocGet'); /** * Gets the stack value for `key`. * * @private * @name get * @memberOf Stack * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function stackGet(key) { var data = this.__data__, array = data.array; return array ? assocGet(array, key) : data.map.get(key); } module.exports = stackGet; })(); }); require.register("kohonen/node_modules/lodash/_stackHas.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var assocHas = require('./_assocHas'); /** * Checks if a stack value for `key` exists. * * @private * @name has * @memberOf Stack * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function stackHas(key) { var data = this.__data__, array = data.array; return array ? assocHas(array, key) : data.map.has(key); } module.exports = stackHas; })(); }); require.register("kohonen/node_modules/lodash/_stackSet.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var MapCache = require('./_MapCache'), assocSet = require('./_assocSet'); /** Used as the size to enable large array optimizations. */ var LARGE_ARRAY_SIZE = 200; /** * Sets the stack `key` to `value`. * * @private * @name set * @memberOf Stack * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the stack cache object. */ function stackSet(key, value) { var data = this.__data__, array = data.array; if (array) { if (array.length < (LARGE_ARRAY_SIZE - 1)) { assocSet(array, key, value); } else { data.array = null; data.map = new MapCache(array); } } var map = data.map; if (map) { map.set(key, value); } return this; } module.exports = stackSet; })(); }); require.register("kohonen/node_modules/lodash/_stringToPath.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var toString = require('./toString'); /** Used to match property names within property paths. */ var rePropName = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]/g; /** Used to match backslashes in property paths. */ var reEscapeChar = /\\(\\)?/g; /** * Converts `string` to a property path array. * * @private * @param {string} string The string to convert. * @returns {Array} Returns the property path array. */ function stringToPath(string) { var result = []; toString(string).replace(rePropName, function(match, number, quote, string) { result.push(quote ? string.replace(reEscapeChar, '$1') : (number || match)); }); return result; } module.exports = stringToPath; })(); }); require.register("kohonen/node_modules/lodash/_wrapperClone.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var LazyWrapper = require('./_LazyWrapper'), LodashWrapper = require('./_LodashWrapper'), copyArray = require('./_copyArray'); /** * Creates a clone of `wrapper`. * * @private * @param {Object} wrapper The wrapper to clone. * @returns {Object} Returns the cloned wrapper. */ function wrapperClone(wrapper) { if (wrapper instanceof LazyWrapper) { return wrapper.clone(); } var result = new LodashWrapper(wrapper.__wrapped__, wrapper.__chain__); result.__actions__ = copyArray(wrapper.__actions__); result.__index__ = wrapper.__index__; result.__values__ = wrapper.__values__; return result; } module.exports = wrapperClone; })(); }); require.register("kohonen/node_modules/lodash/ary.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var createWrapper = require('./_createWrapper'); /** Used to compose bitmasks for wrapper metadata. */ var ARY_FLAG = 128; /** * Creates a function that accepts up to `n` arguments, ignoring any * additional arguments. * * @static * @memberOf _ * @category Function * @param {Function} func The function to cap arguments for. * @param {number} [n=func.length] The arity cap. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the new function. * @example * * _.map(['6', '8', '10'], _.ary(parseInt, 1)); * // => [6, 8, 10] */ function ary(func, n, guard) { n = guard ? undefined : n; n = (func && n == null) ? func.length : n; return createWrapper(func, ARY_FLAG, undefined, undefined, undefined, undefined, n); } module.exports = ary; })(); }); require.register("kohonen/node_modules/lodash/cloneDeep.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseClone = require('./_baseClone'); /** * This method is like `_.clone` except that it recursively clones `value`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to recursively clone. * @returns {*} Returns the deep cloned value. * @example * * var objects = [{ 'a': 1 }, { 'b': 2 }]; * * var deep = _.cloneDeep(objects); * console.log(deep[0] === objects[0]); * // => false */ function cloneDeep(value) { return baseClone(value, true); } module.exports = cloneDeep; })(); }); require.register("kohonen/node_modules/lodash/constant.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Creates a function that returns `value`. * * @static * @memberOf _ * @category Util * @param {*} value The value to return from the new function. * @returns {Function} Returns the new function. * @example * * var object = { 'user': 'fred' }; * var getter = _.constant(object); * * getter() === object; * // => true */ function constant(value) { return function() { return value; }; } module.exports = constant; })(); }); require.register("kohonen/node_modules/lodash/curry.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var createWrapper = require('./_createWrapper'); /** Used to compose bitmasks for wrapper metadata. */ var CURRY_FLAG = 8; /** * Creates a function that accepts arguments of `func` and either invokes * `func` returning its result, if at least `arity` number of arguments have * been provided, or returns a function that accepts the remaining `func` * arguments, and so on. The arity of `func` may be specified if `func.length` * is not sufficient. * * The `_.curry.placeholder` value, which defaults to `_` in monolithic builds, * may be used as a placeholder for provided arguments. * * **Note:** This method doesn't set the "length" property of curried functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to curry. * @param {number} [arity=func.length] The arity of `func`. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the new curried function. * @example * * var abc = function(a, b, c) { * return [a, b, c]; * }; * * var curried = _.curry(abc); * * curried(1)(2)(3); * // => [1, 2, 3] * * curried(1, 2)(3); * // => [1, 2, 3] * * curried(1, 2, 3); * // => [1, 2, 3] * * // Curried with placeholders. * curried(1)(_, 3)(2); * // => [1, 2, 3] */ function curry(func, arity, guard) { arity = guard ? undefined : arity; var result = createWrapper(func, CURRY_FLAG, undefined, undefined, undefined, undefined, undefined, arity); result.placeholder = curry.placeholder; return result; } // Assign default placeholders. curry.placeholder = {}; module.exports = curry; })(); }); require.register("kohonen/node_modules/lodash/eq.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Performs a [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * comparison between two values to determine if they are equivalent. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. * @example * * var object = { 'user': 'fred' }; * var other = { 'user': 'fred' }; * * _.eq(object, object); * // => true * * _.eq(object, other); * // => false * * _.eq('a', 'a'); * // => true * * _.eq('a', Object('a')); * // => false * * _.eq(NaN, NaN); * // => true */ function eq(value, other) { return value === other || (value !== value && other !== other); } module.exports = eq; })(); }); require.register("kohonen/node_modules/lodash/fp.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var _ = require('./lodash').noConflict().runInContext(); module.exports = require('./fp/convert')(_); })(); }); require.register("kohonen/node_modules/lodash/fp/_baseConvert.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var mapping = require('./_mapping'), mutateMap = mapping.mutate, placeholder = {}; /** * The base implementation of `convert` which accepts a `util` object of methods * required to perform conversions. * * @param {Object} util The util object. * @param {string} name The name of the function to wrap. * @param {Function} func The function to wrap. * @param {Object} [options] The options object. * @param {boolean} [options.cap=true] Specify capping iteratee arguments. * @param {boolean} [options.curry=true] Specify currying. * @param {boolean} [options.fixed=true] Specify fixed arity. * @param {boolean} [options.immutable=true] Specify immutable operations. * @param {boolean} [options.rearg=true] Specify rearranging arguments. * @returns {Function|Object} Returns the converted function or object. */ function baseConvert(util, name, func, options) { options || (options = {}); if (typeof func != 'function') { func = name; name = undefined; } if (func == null) { throw new TypeError; } var config = { 'cap': 'cap' in options ? options.cap : true, 'curry': 'curry' in options ? options.curry : true, 'fixed': 'fixed' in options ? options.fixed : true, 'immutable': 'immutable' in options ? options.immutable : true, 'rearg': 'rearg' in options ? options.rearg : true }; var forceRearg = ('rearg' in options) && options.rearg; var isLib = name === undefined && typeof func.VERSION == 'string'; var _ = isLib ? func : { 'ary': util.ary, 'cloneDeep': util.cloneDeep, 'curry': util.curry, 'forEach': util.forEach, 'isFunction': util.isFunction, 'iteratee': util.iteratee, 'keys': util.keys, 'rearg': util.rearg, 'spread': util.spread }; var ary = _.ary, cloneDeep = _.cloneDeep, curry = _.curry, each = _.forEach, isFunction = _.isFunction, keys = _.keys, rearg = _.rearg, spread = _.spread; var baseArity = function(func, n) { return n == 2 ? function(a, b) { return func.apply(undefined, arguments); } : function(a) { return func.apply(undefined, arguments); }; }; var baseAry = function(func, n) { return n == 2 ? function(a, b) { return func(a, b); } : function(a) { return func(a); }; }; var cloneArray = function(array) { var length = array ? array.length : 0, result = Array(length); while (length--) { result[length] = array[length]; } return result; }; var createCloner = function(func) { return function(object) { return func({}, object); }; }; var immutWrap = function(func, cloner) { return overArg(func, cloner, true); }; var iterateeAry = function(func, n) { return overArg(func, function(func) { return baseAry(func, n); }); }; var iterateeRearg = function(func, indexes) { return overArg(func, function(func) { var n = indexes.length; return baseArity(rearg(baseAry(func, n), indexes), n); }); }; var overArg = function(func, iteratee, retArg) { return function() { var length = arguments.length, args = Array(length); while (length--) { args[length] = arguments[length]; } args[0] = iteratee(args[0]); var result = func.apply(undefined, args); return retArg ? args[0] : result; }; }; var wrappers = { 'iteratee': function(iteratee) { return function() { var func = arguments[0], arity = arguments[1]; if (!config.cap) { return iteratee(func, arity); } arity = arity > 2 ? (arity - 2) : 1; func = iteratee(func); var length = func.length; return (length && length <= arity) ? func : baseAry(func, arity); }; }, 'mixin': function(mixin) { return function(source) { var func = this; if (!isFunction(func)) { return mixin(func, Object(source)); } var methods = [], methodNames = []; each(keys(source), function(key) { var value = source[key]; if (isFunction(value)) { methodNames.push(key); methods.push(func.prototype[key]); } }); mixin(func, Object(source)); each(methodNames, function(methodName, index) { var method = methods[index]; if (isFunction(method)) { func.prototype[methodName] = method; } else { delete func.prototype[methodName]; } }); return func; }; }, 'runInContext': function(runInContext) { return function(context) { return baseConvert(util, runInContext(context), undefined, options); }; } }; var wrap = function(name, func) { name = mapping.aliasToReal[name] || name; var wrapper = wrappers[name]; if (wrapper) { return wrapper(func); } var wrapped = func; if (config.immutable) { if (mutateMap.array[name]) { wrapped = immutWrap(func, cloneArray); } else if (mutateMap.object[name]) { wrapped = immutWrap(func, createCloner(func)); } else if (mutateMap.set[name]) { wrapped = immutWrap(func, cloneDeep); } } var result; each(mapping.caps, function(cap) { each(mapping.aryMethod[cap], function(otherName) { if (name == otherName) { var aryN = !isLib && mapping.iterateeAry[name], reargIndexes = mapping.iterateeRearg[name], spreadStart = mapping.methodSpread[name]; if (config.fixed) { result = spreadStart === undefined ? ary(wrapped, cap) : spread(wrapped, spreadStart); } if (config.rearg && cap > 1 && (forceRearg || !mapping.skipRearg[name])) { result = rearg(result, mapping.methodRearg[name] || mapping.aryRearg[cap]); } if (config.cap) { if (reargIndexes) { result = iterateeRearg(result, reargIndexes); } else if (aryN) { result = iterateeAry(result, aryN); } } if (config.curry && cap > 1) { result = curry(result, cap); } return false; } }); return !result; }); result || (result = func); if (mapping.placeholder[name]) { func.placeholder = result.placeholder = placeholder; } return result; }; if (!isLib) { return wrap(name, func); } // Add placeholder. _.placeholder = placeholder; // Iterate over methods for the current ary cap. var pairs = []; each(mapping.caps, function(cap) { each(mapping.aryMethod[cap], function(key) { var func = _[mapping.rename[key] || key]; if (func) { pairs.push([key, wrap(key, func)]); } }); }); // Assign to `_` leaving `_.prototype` unchanged to allow chaining. each(pairs, function(pair) { _[pair[0]] = pair[1]; }); // Wrap the lodash method and its aliases. each(keys(_), function(key) { each(mapping.realToAlias[key] || [], function(alias) { _[alias] = _[key]; }); }); return _; } module.exports = baseConvert; })(); }); require.register("kohonen/node_modules/lodash/fp/_mapping.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used to map aliases to their real names. */ exports.aliasToReal = { '__': 'placeholder', 'all': 'some', 'allPass': 'overEvery', 'apply': 'spread', 'assoc': 'set', 'assocPath': 'set', 'compose': 'flowRight', 'contains': 'includes', 'dissoc': 'unset', 'dissocPath': 'unset', 'each': 'forEach', 'eachRight': 'forEachRight', 'equals': 'isEqual', 'extend': 'assignIn', 'extendWith': 'assignInWith', 'first': 'head', 'init': 'initial', 'mapObj': 'mapValues', 'omitAll': 'omit', 'nAry': 'ary', 'path': 'get', 'pathEq': 'matchesProperty', 'pathOr': 'getOr', 'pickAll': 'pick', 'pipe': 'flow', 'prop': 'get', 'propOf': 'propertyOf', 'propOr': 'getOr', 'somePass': 'overSome', 'unapply': 'rest', 'unnest': 'flatten', 'useWith': 'overArgs', 'whereEq': 'filter', 'zipObj': 'zipObject' }; /** Used to map ary to method names. */ exports.aryMethod = { 1: [ 'attempt', 'ceil', 'create', 'curry', 'curryRight', 'floor', 'fromPairs', 'invert', 'iteratee', 'memoize', 'method', 'methodOf', 'mixin', 'over', 'overEvery', 'overSome', 'rest', 'reverse', 'round', 'runInContext', 'spread', 'template', 'trim', 'trimEnd', 'trimStart', 'uniqueId', 'words' ], 2: [ 'add', 'after', 'ary', 'assign', 'assignIn', 'at', 'before', 'bind', 'bindKey', 'chunk', 'cloneDeepWith', 'cloneWith', 'concat', 'countBy', 'curryN', 'curryRightN', 'debounce', 'defaults', 'defaultsDeep', 'delay', 'difference', 'drop', 'dropRight', 'dropRightWhile', 'dropWhile', 'endsWith', 'eq', 'every', 'filter', 'find', 'find', 'findIndex', 'findKey', 'findLast', 'findLastIndex', 'findLastKey', 'flatMap', 'forEach', 'forEachRight', 'forIn', 'forInRight', 'forOwn', 'forOwnRight', 'get', 'groupBy', 'gt', 'gte', 'has', 'hasIn', 'includes', 'indexOf', 'intersection', 'invertBy', 'invoke', 'invokeMap', 'isEqual', 'isMatch', 'join', 'keyBy', 'lastIndexOf', 'lt', 'lte', 'map', 'mapKeys', 'mapValues', 'matchesProperty', 'maxBy', 'merge', 'minBy', 'omit', 'omitBy', 'orderBy', 'overArgs', 'pad', 'padEnd', 'padStart', 'parseInt', 'partial', 'partialRight', 'partition', 'pick', 'pickBy', 'pull', 'pullAll', 'pullAt', 'random', 'range', 'rangeRight', 'rearg', 'reject', 'remove', 'repeat', 'result', 'sampleSize', 'some', 'sortBy', 'sortedIndex', 'sortedIndexOf', 'sortedLastIndex', 'sortedLastIndexOf', 'sortedUniqBy', 'split', 'startsWith', 'subtract', 'sumBy', 'take', 'takeRight', 'takeRightWhile', 'takeWhile', 'tap', 'throttle', 'thru', 'times', 'trimChars', 'trimCharsEnd', 'trimCharsStart', 'truncate', 'union', 'uniqBy', 'uniqWith', 'unset', 'unzipWith', 'without', 'wrap', 'xor', 'zip', 'zipObject', 'zipObjectDeep' ], 3: [ 'assignInWith', 'assignWith', 'clamp', 'differenceBy', 'differenceWith', 'getOr', 'inRange', 'intersectionBy', 'intersectionWith', 'isEqualWith', 'isMatchWith', 'mergeWith', 'pullAllBy', 'reduce', 'reduceRight', 'replace', 'set', 'slice', 'sortedIndexBy', 'sortedLastIndexBy', 'transform', 'unionBy', 'unionWith', 'xorBy', 'xorWith', 'zipWith' ], 4: [ 'fill', 'setWith' ] }; /** Used to map ary to rearg configs. */ exports.aryRearg = { 2: [1, 0], 3: [2, 1, 0], 4: [3, 2, 0, 1] }; /** Used to iterate `mapping.aryMethod` keys. */ exports.caps = [1, 2, 3, 4]; /** Used to map method names to their iteratee ary. */ exports.iterateeAry = { 'assignWith': 2, 'assignInWith': 2, 'cloneDeepWith': 1, 'cloneWith': 1, 'dropRightWhile': 1, 'dropWhile': 1, 'every': 1, 'filter': 1, 'find': 1, 'findIndex': 1, 'findKey': 1, 'findLast': 1, 'findLastIndex': 1, 'findLastKey': 1, 'flatMap': 1, 'forEach': 1, 'forEachRight': 1, 'forIn': 1, 'forInRight': 1, 'forOwn': 1, 'forOwnRight': 1, 'isEqualWith': 2, 'isMatchWith': 2, 'map': 1, 'mapKeys': 1, 'mapValues': 1, 'partition': 1, 'reduce': 2, 'reduceRight': 2, 'reject': 1, 'remove': 1, 'some': 1, 'takeRightWhile': 1, 'takeWhile': 1, 'times': 1, 'transform': 2 }; /** Used to map method names to iteratee rearg configs. */ exports.iterateeRearg = { 'findKey': [1], 'findLastKey': [1], 'mapKeys': [1] }; /** Used to map method names to rearg configs. */ exports.methodRearg = { 'assignInWith': [1, 2, 0], 'assignWith': [1, 2, 0], 'clamp': [2, 0, 1], 'mergeWith': [1, 2, 0], 'reduce': [2, 0, 1], 'reduceRight': [2, 0, 1], 'set': [2, 0, 1], 'setWith': [3, 1, 2, 0], 'slice': [2, 0, 1], 'transform': [2, 0, 1] }; /** Used to map method names to spread configs. */ exports.methodSpread = { 'partial': 1, 'partialRight': 1 }; /** Used to identify methods which mutate arrays or objects. */ exports.mutate = { 'array': { 'fill': true, 'pull': true, 'pullAll': true, 'pullAllBy': true, 'pullAt': true, 'remove': true, 'reverse': true }, 'object': { 'assign': true, 'assignIn': true, 'assignInWith': true, 'assignWith': true, 'defaults': true, 'defaultsDeep': true, 'merge': true, 'mergeWith': true }, 'set': { 'set': true, 'setWith': true, 'unset': true } }; /** Used to track methods with placeholder support */ exports.placeholder = { 'bind': true, 'bindKey': true, 'curry': true, 'curryRight': true, 'partial': true, 'partialRight': true }; /** Used to map real names to their aliases. */ exports.realToAlias = (function() { var hasOwnProperty = Object.prototype.hasOwnProperty, object = exports.aliasToReal, result = {}; for (var key in object) { var value = object[key]; if (hasOwnProperty.call(result, value)) { result[value].push(key); } else { result[value] = [key]; } } return result; }()); /** Used to map method names to other names. */ exports.rename = { 'curryN': 'curry', 'curryRightN': 'curryRight', 'getOr': 'get', 'trimChars': 'trim', 'trimCharsEnd': 'trimEnd', 'trimCharsStart': 'trimStart' }; /** Used to track methods that skip `_.rearg`. */ exports.skipRearg = { 'add': true, 'assign': true, 'assignIn': true, 'concat': true, 'difference': true, 'gt': true, 'gte': true, 'lt': true, 'lte': true, 'matchesProperty': true, 'merge': true, 'partial': true, 'partialRight': true, 'random': true, 'range': true, 'rangeRight': true, 'subtract': true, 'zip': true, 'zipObject': true }; })(); }); require.register("kohonen/node_modules/lodash/fp/_util.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { module.exports = { 'ary': require('../ary'), 'cloneDeep': require('../cloneDeep'), 'curry': require('../curry'), 'forEach': require('../_arrayEach'), 'isFunction': require('../isFunction'), 'iteratee': require('../iteratee'), 'keys': require('../_baseKeys'), 'rearg': require('../rearg'), 'spread': require('../spread') }; })(); }); require.register("kohonen/node_modules/lodash/fp/convert.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseConvert = require('./_baseConvert'), util = require('./_util'); /** * Converts `func` of `name` to an immutable auto-curried iteratee-first data-last * version. If `name` is an object its methods will be converted. * * @param {string} name The name of the function to wrap. * @param {Function} [func] The function to wrap. * @param {Object} [options] The options object. See `baseConvert` for more details. * @returns {Function|Object} Returns the converted function or object. */ function convert(name, func, options) { return baseConvert(util, name, func, options); } module.exports = convert; })(); }); require.register("kohonen/node_modules/lodash/get.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseGet = require('./_baseGet'); /** * Gets the value at `path` of `object`. If the resolved value is * `undefined` the `defaultValue` is used in its place. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @param {*} [defaultValue] The value returned if the resolved value is `undefined`. * @returns {*} Returns the resolved value. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }] }; * * _.get(object, 'a[0].b.c'); * // => 3 * * _.get(object, ['a', '0', 'b', 'c']); * // => 3 * * _.get(object, 'a.b.c', 'default'); * // => 'default' */ function get(object, path, defaultValue) { var result = object == null ? undefined : baseGet(object, path); return result === undefined ? defaultValue : result; } module.exports = get; })(); }); require.register("kohonen/node_modules/lodash/hasIn.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseHasIn = require('./_baseHasIn'), hasPath = require('./_hasPath'); /** * Checks if `path` is a direct or inherited property of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @returns {boolean} Returns `true` if `path` exists, else `false`. * @example * * var object = _.create({ 'a': _.create({ 'b': _.create({ 'c': 3 }) }) }); * * _.hasIn(object, 'a'); * // => true * * _.hasIn(object, 'a.b.c'); * // => true * * _.hasIn(object, ['a', 'b', 'c']); * // => true * * _.hasIn(object, 'b'); * // => false */ function hasIn(object, path) { return hasPath(object, path, baseHasIn); } module.exports = hasIn; })(); }); require.register("kohonen/node_modules/lodash/identity.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * This method returns the first argument given to it. * * @static * @memberOf _ * @category Util * @param {*} value Any value. * @returns {*} Returns `value`. * @example * * var object = { 'user': 'fred' }; * * _.identity(object) === object; * // => true */ function identity(value) { return value; } module.exports = identity; })(); }); require.register("kohonen/node_modules/lodash/isArguments.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isArrayLikeObject = require('./isArrayLikeObject'); /** `Object#toString` result references. */ var argsTag = '[object Arguments]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** Built-in value references. */ var propertyIsEnumerable = objectProto.propertyIsEnumerable; /** * Checks if `value` is likely an `arguments` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isArguments(function() { return arguments; }()); * // => true * * _.isArguments([1, 2, 3]); * // => false */ function isArguments(value) { // Safari 8.1 incorrectly makes `arguments.callee` enumerable in strict mode. return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') && (!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag); } module.exports = isArguments; })(); }); require.register("kohonen/node_modules/lodash/isArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is classified as an `Array` object. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isArray([1, 2, 3]); * // => true * * _.isArray(document.body.children); * // => false * * _.isArray('abc'); * // => false * * _.isArray(_.noop); * // => false */ var isArray = Array.isArray; module.exports = isArray; })(); }); require.register("kohonen/node_modules/lodash/isArrayLike.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var getLength = require('./_getLength'), isFunction = require('./isFunction'), isLength = require('./isLength'); /** * Checks if `value` is array-like. A value is considered array-like if it's * not a function and has a `value.length` that's an integer greater than or * equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is array-like, else `false`. * @example * * _.isArrayLike([1, 2, 3]); * // => true * * _.isArrayLike(document.body.children); * // => true * * _.isArrayLike('abc'); * // => true * * _.isArrayLike(_.noop); * // => false */ function isArrayLike(value) { return value != null && !(typeof value == 'function' && isFunction(value)) && isLength(getLength(value)); } module.exports = isArrayLike; })(); }); require.register("kohonen/node_modules/lodash/isArrayLikeObject.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isArrayLike = require('./isArrayLike'), isObjectLike = require('./isObjectLike'); /** * This method is like `_.isArrayLike` except that it also checks if `value` * is an object. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an array-like object, else `false`. * @example * * _.isArrayLikeObject([1, 2, 3]); * // => true * * _.isArrayLikeObject(document.body.children); * // => true * * _.isArrayLikeObject('abc'); * // => false * * _.isArrayLikeObject(_.noop); * // => false */ function isArrayLikeObject(value) { return isObjectLike(value) && isArrayLike(value); } module.exports = isArrayLikeObject; })(); }); require.register("kohonen/node_modules/lodash/isBuffer.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); var _Buffer = require('buffer'); var Buffer = _Buffer && _Buffer.Buffer; (function() { var constant = require('./constant'), root = require('./_root'); /** Used to determine if values are of the language type `Object`. */ var objectTypes = { 'function': true, 'object': true }; /** Detect free variable `exports`. */ var freeExports = (objectTypes[typeof exports] && exports && !exports.nodeType) ? exports : null; /** Detect free variable `module`. */ var freeModule = (objectTypes[typeof module] && module && !module.nodeType) ? module : null; /** Detect the popular CommonJS extension `module.exports`. */ var moduleExports = (freeModule && freeModule.exports === freeExports) ? freeExports : null; /** Built-in value references. */ var Buffer = moduleExports ? root.Buffer : undefined; /** * Checks if `value` is a buffer. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a buffer, else `false`. * @example * * _.isBuffer(new Buffer(2)); * // => true * * _.isBuffer(new Uint8Array(2)); * // => false */ var isBuffer = !Buffer ? constant(false) : function(value) { return value instanceof Buffer; }; module.exports = isBuffer; })(); }); require.register("kohonen/node_modules/lodash/isFunction.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isObject = require('./isObject'); /** `Object#toString` result references. */ var funcTag = '[object Function]', genTag = '[object GeneratorFunction]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** * Checks if `value` is classified as a `Function` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isFunction(_); * // => true * * _.isFunction(/abc/); * // => false */ function isFunction(value) { // The use of `Object#toString` avoids issues with the `typeof` operator // in Safari 8 which returns 'object' for typed array constructors, and // PhantomJS 1.9 which returns 'function' for `NodeList` instances. var tag = isObject(value) ? objectToString.call(value) : ''; return tag == funcTag || tag == genTag; } module.exports = isFunction; })(); }); require.register("kohonen/node_modules/lodash/isLength.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** Used as references for various `Number` constants. */ var MAX_SAFE_INTEGER = 9007199254740991; /** * Checks if `value` is a valid array-like length. * * **Note:** This function is loosely based on [`ToLength`](http://ecma-international.org/ecma-262/6.0/#sec-tolength). * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a valid length, else `false`. * @example * * _.isLength(3); * // => true * * _.isLength(Number.MIN_VALUE); * // => false * * _.isLength(Infinity); * // => false * * _.isLength('3'); * // => false */ function isLength(value) { return typeof value == 'number' && value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER; } module.exports = isLength; })(); }); require.register("kohonen/node_modules/lodash/isNative.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isFunction = require('./isFunction'), isHostObject = require('./_isHostObject'), isObjectLike = require('./isObjectLike'); /** Used to match `RegExp` [syntax characters](http://ecma-international.org/ecma-262/6.0/#sec-patterns). */ var reRegExpChar = /[\\^$.*+?()[\]{}|]/g; /** Used to detect host constructors (Safari > 5). */ var reIsHostCtor = /^\[object .+?Constructor\]$/; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to resolve the decompiled source of functions. */ var funcToString = Function.prototype.toString; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** Used to detect if a method is native. */ var reIsNative = RegExp('^' + funcToString.call(hasOwnProperty).replace(reRegExpChar, '\\$&') .replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, '$1.*?') + '$' ); /** * Checks if `value` is a native function. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a native function, else `false`. * @example * * _.isNative(Array.prototype.push); * // => true * * _.isNative(_); * // => false */ function isNative(value) { if (value == null) { return false; } if (isFunction(value)) { return reIsNative.test(funcToString.call(value)); } return isObjectLike(value) && (isHostObject(value) ? reIsNative : reIsHostCtor).test(value); } module.exports = isNative; })(); }); require.register("kohonen/node_modules/lodash/isObject.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is the [language type](https://es5.github.io/#x8) of `Object`. * (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`) * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an object, else `false`. * @example * * _.isObject({}); * // => true * * _.isObject([1, 2, 3]); * // => true * * _.isObject(_.noop); * // => true * * _.isObject(null); * // => false */ function isObject(value) { var type = typeof value; return !!value && (type == 'object' || type == 'function'); } module.exports = isObject; })(); }); require.register("kohonen/node_modules/lodash/isObjectLike.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Checks if `value` is object-like. A value is object-like if it's not `null` * and has a `typeof` result of "object". * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is object-like, else `false`. * @example * * _.isObjectLike({}); * // => true * * _.isObjectLike([1, 2, 3]); * // => true * * _.isObjectLike(_.noop); * // => false * * _.isObjectLike(null); * // => false */ function isObjectLike(value) { return !!value && typeof value == 'object'; } module.exports = isObjectLike; })(); }); require.register("kohonen/node_modules/lodash/isString.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isArray = require('./isArray'), isObjectLike = require('./isObjectLike'); /** `Object#toString` result references. */ var stringTag = '[object String]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** * Checks if `value` is classified as a `String` primitive or object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isString('abc'); * // => true * * _.isString(1); * // => false */ function isString(value) { return typeof value == 'string' || (!isArray(value) && isObjectLike(value) && objectToString.call(value) == stringTag); } module.exports = isString; })(); }); require.register("kohonen/node_modules/lodash/isSymbol.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isObjectLike = require('./isObjectLike'); /** `Object#toString` result references. */ var symbolTag = '[object Symbol]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** * Checks if `value` is classified as a `Symbol` primitive or object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isSymbol(Symbol.iterator); * // => true * * _.isSymbol('abc'); * // => false */ function isSymbol(value) { return typeof value == 'symbol' || (isObjectLike(value) && objectToString.call(value) == symbolTag); } module.exports = isSymbol; })(); }); require.register("kohonen/node_modules/lodash/isTypedArray.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var isLength = require('./isLength'), isObjectLike = require('./isObjectLike'); /** `Object#toString` result references. */ var argsTag = '[object Arguments]', arrayTag = '[object Array]', boolTag = '[object Boolean]', dateTag = '[object Date]', errorTag = '[object Error]', funcTag = '[object Function]', mapTag = '[object Map]', numberTag = '[object Number]', objectTag = '[object Object]', regexpTag = '[object RegExp]', setTag = '[object Set]', stringTag = '[object String]', weakMapTag = '[object WeakMap]'; var arrayBufferTag = '[object ArrayBuffer]', float32Tag = '[object Float32Array]', float64Tag = '[object Float64Array]', int8Tag = '[object Int8Array]', int16Tag = '[object Int16Array]', int32Tag = '[object Int32Array]', uint8Tag = '[object Uint8Array]', uint8ClampedTag = '[object Uint8ClampedArray]', uint16Tag = '[object Uint16Array]', uint32Tag = '[object Uint32Array]'; /** Used to identify `toStringTag` values of typed arrays. */ var typedArrayTags = {}; typedArrayTags[float32Tag] = typedArrayTags[float64Tag] = typedArrayTags[int8Tag] = typedArrayTags[int16Tag] = typedArrayTags[int32Tag] = typedArrayTags[uint8Tag] = typedArrayTags[uint8ClampedTag] = typedArrayTags[uint16Tag] = typedArrayTags[uint32Tag] = true; typedArrayTags[argsTag] = typedArrayTags[arrayTag] = typedArrayTags[arrayBufferTag] = typedArrayTags[boolTag] = typedArrayTags[dateTag] = typedArrayTags[errorTag] = typedArrayTags[funcTag] = typedArrayTags[mapTag] = typedArrayTags[numberTag] = typedArrayTags[objectTag] = typedArrayTags[regexpTag] = typedArrayTags[setTag] = typedArrayTags[stringTag] = typedArrayTags[weakMapTag] = false; /** Used for built-in method references. */ var objectProto = Object.prototype; /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** * Checks if `value` is classified as a typed array. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isTypedArray(new Uint8Array); * // => true * * _.isTypedArray([]); * // => false */ function isTypedArray(value) { return isObjectLike(value) && isLength(value.length) && !!typedArrayTags[objectToString.call(value)]; } module.exports = isTypedArray; })(); }); require.register("kohonen/node_modules/lodash/iteratee.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseClone = require('./_baseClone'), baseIteratee = require('./_baseIteratee'); /** * Creates a function that invokes `func` with the arguments of the created * function. If `func` is a property name the created callback returns the * property value for a given element. If `func` is an object the created * callback returns `true` for elements that contain the equivalent object properties, otherwise it returns `false`. * * @static * @memberOf _ * @category Util * @param {*} [func=_.identity] The value to convert to a callback. * @returns {Function} Returns the callback. * @example * * var users = [ * { 'user': 'barney', 'age': 36 }, * { 'user': 'fred', 'age': 40 } * ]; * * // Create custom iteratee shorthands. * _.iteratee = _.wrap(_.iteratee, function(callback, func) { * var p = /^(\S+)\s*([<>])\s*(\S+)$/.exec(func); * return !p ? callback(func) : function(object) { * return (p[2] == '>' ? object[p[1]] > p[3] : object[p[1]] < p[3]); * }; * }); * * _.filter(users, 'age > 36'); * // => [{ 'user': 'fred', 'age': 40 }] */ function iteratee(func) { return baseIteratee(typeof func == 'function' ? func : baseClone(func, true)); } module.exports = iteratee; })(); }); require.register("kohonen/node_modules/lodash/keys.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { var baseHas = require('./_baseHas'), baseKeys = require('./_baseKeys'), indexKeys = require('./_indexKeys'), isArrayLike = require('./isArrayLike'), isIndex = require('./_isIndex'), isPrototype = require('./_isPrototype'); /** * Creates an array of the own enumerable property names of `object`. * * **Note:** Non-object values are coerced to objects. See the * [ES spec](http://ecma-international.org/ecma-262/6.0/#sec-object.keys) * for more details. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.keys(new Foo); * // => ['a', 'b'] (iteration order is not guaranteed) * * _.keys('hi'); * // => ['0', '1'] */ function keys(object) { var isProto = isPrototype(object); if (!(isProto || isArrayLike(object))) { return baseKeys(object); } var indexes = indexKeys(object), skipIndexes = !!indexes, result = indexes || [], length = result.length; for (var key in object) { if (baseHas(object, key) && !(skipIndexes && (key == 'length' || isIndex(key, length))) && !(isProto && key == 'constructor')) { result.push(key); } } return result; } module.exports = keys; })(); }); require.register("kohonen/node_modules/lodash/last.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); (function() { /** * Gets the last element of `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @returns {*} Returns the last element of `array`. * @example * * _.last([1, 2, 3]); * // => 3 */ function last(array) { var length = array ? array.length : 0; return length ? array[length - 1] : undefined; } module.exports = last; })(); }); require.register("kohonen/node_modules/lodash/lodash.js", function(exports, require, module) { require = __makeRelativeRequire(require, {}, "kohonen/node_modules/lodash"); var _Buffer = require('buffer'); var Buffer = _Buffer && _Buffer.Buffer; (function() { /** * @license * lodash 4.3.0 (Custom Build) * Build: `lodash -d -o ./foo/lodash.js` * Copyright 2012-2016 The Dojo Foundation * Based on Underscore.js 1.8.3 * Copyright 2009-2016 Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors * Available under MIT license */ ;(function() { /** Used as a safe reference for `undefined` in pre-ES5 environments. */ var undefined; /** Used as the semantic version number. */ var VERSION = '4.3.0'; /** Used to compose bitmasks for wrapper metadata. */ var BIND_FLAG = 1, BIND_KEY_FLAG = 2, CURRY_BOUND_FLAG = 4, CURRY_FLAG = 8, CURRY_RIGHT_FLAG = 16, PARTIAL_FLAG = 32, PARTIAL_RIGHT_FLAG = 64, ARY_FLAG = 128, REARG_FLAG = 256, FLIP_FLAG = 512; /** Used to compose bitmasks for comparison styles. */ var UNORDERED_COMPARE_FLAG = 1, PARTIAL_COMPARE_FLAG = 2; /** Used as default options for `_.truncate`. */ var DEFAULT_TRUNC_LENGTH = 30, DEFAULT_TRUNC_OMISSION = '...'; /** Used to detect hot functions by number of calls within a span of milliseconds. */ var HOT_COUNT = 150, HOT_SPAN = 16; /** Used as the size to enable large array optimizations. */ var LARGE_ARRAY_SIZE = 200; /** Used to indicate the type of lazy iteratees. */ var LAZY_FILTER_FLAG = 1, LAZY_MAP_FLAG = 2, LAZY_WHILE_FLAG = 3; /** Used as the `TypeError` message for "Functions" methods. */ var FUNC_ERROR_TEXT = 'Expected a function'; /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED = '__lodash_hash_undefined__'; /** Used as references for various `Number` constants. */ var INFINITY = 1 / 0, MAX_SAFE_INTEGER = 9007199254740991, MAX_INTEGER = 1.7976931348623157e+308, NAN = 0 / 0; /** Used as references for the maximum length and index of an array. */ var MAX_ARRAY_LENGTH = 4294967295, MAX_ARRAY_INDEX = MAX_ARRAY_LENGTH - 1, HALF_MAX_ARRAY_LENGTH = MAX_ARRAY_LENGTH >>> 1; /** Used as the internal argument placeholder. */ var PLACEHOLDER = '__lodash_placeholder__'; /** `Object#toString` result references. */ var argsTag = '[object Arguments]', arrayTag = '[object Array]', boolTag = '[object Boolean]', dateTag = '[object Date]', errorTag = '[object Error]', funcTag = '[object Function]', genTag = '[object GeneratorFunction]', mapTag = '[object Map]', numberTag = '[object Number]', objectTag = '[object Object]', regexpTag = '[object RegExp]', setTag = '[object Set]', stringTag = '[object String]', symbolTag = '[object Symbol]', weakMapTag = '[object WeakMap]', weakSetTag = '[object WeakSet]'; var arrayBufferTag = '[object ArrayBuffer]', float32Tag = '[object Float32Array]', float64Tag = '[object Float64Array]', int8Tag = '[object Int8Array]', int16Tag = '[object Int16Array]', int32Tag = '[object Int32Array]', uint8Tag = '[object Uint8Array]', uint8ClampedTag = '[object Uint8ClampedArray]', uint16Tag = '[object Uint16Array]', uint32Tag = '[object Uint32Array]'; /** Used to match empty string literals in compiled template source. */ var reEmptyStringLeading = /\b__p \+= '';/g, reEmptyStringMiddle = /\b(__p \+=) '' \+/g, reEmptyStringTrailing = /(__e\(.*?\)|\b__t\)) \+\n'';/g; /** Used to match HTML entities and HTML characters. */ var reEscapedHtml = /&(?:amp|lt|gt|quot|#39|#96);/g, reUnescapedHtml = /[&<>"'`]/g, reHasEscapedHtml = RegExp(reEscapedHtml.source), reHasUnescapedHtml = RegExp(reUnescapedHtml.source); /** Used to match template delimiters. */ var reEscape = /<%-([\s\S]+?)%>/g, reEvaluate = /<%([\s\S]+?)%>/g, reInterpolate = /<%=([\s\S]+?)%>/g; /** Used to match property names within property paths. */ var reIsDeepProp = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/, reIsPlainProp = /^\w*$/, rePropName = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]/g; /** Used to match `RegExp` [syntax characters](http://ecma-international.org/ecma-262/6.0/#sec-patterns). */ var reRegExpChar = /[\\^$.*+?()[\]{}|]/g, reHasRegExpChar = RegExp(reRegExpChar.source); /** Used to match leading and trailing whitespace. */ var reTrim = /^\s+|\s+$/g, reTrimStart = /^\s+/, reTrimEnd = /\s+$/; /** Used to match backslashes in property paths. */ var reEscapeChar = /\\(\\)?/g; /** Used to match [ES template delimiters](http://ecma-international.org/ecma-262/6.0/#sec-template-literal-lexical-components). */ var reEsTemplate = /\$\{([^\\}]*(?:\\.[^\\}]*)*)\}/g; /** Used to match `RegExp` flags from their coerced string values. */ var reFlags = /\w*$/; /** Used to detect hexadecimal string values. */ var reHasHexPrefix = /^0x/i; /** Used to detect bad signed hexadecimal string values. */ var reIsBadHex = /^[-+]0x[0-9a-f]+$/i; /** Used to detect binary string values. */ var reIsBinary = /^0b[01]+$/i; /** Used to detect host constructors (Safari > 5). */ var reIsHostCtor = /^\[object .+?Constructor\]$/; /** Used to detect octal string values. */ var reIsOctal = /^0o[0-7]+$/i; /** Used to detect unsigned integer values. */ var reIsUint = /^(?:0|[1-9]\d*)$/; /** Used to match latin-1 supplementary letters (excluding mathematical operators). */ var reLatin1 = /[\xc0-\xd6\xd8-\xde\xdf-\xf6\xf8-\xff]/g; /** Used to ensure capturing order of template delimiters. */ var reNoMatch = /($^)/; /** Used to match unescaped characters in compiled string literals. */ var reUnescapedString = /['\n\r\u2028\u2029\\]/g; /** Used to compose unicode character classes. */ var rsAstralRange = '\\ud800-\\udfff', rsComboMarksRange = '\\u0300-\\u036f\\ufe20-\\ufe23', rsComboSymbolsRange = '\\u20d0-\\u20f0', rsDingbatRange = '\\u2700-\\u27bf', rsLowerRange = 'a-z\\xdf-\\xf6\\xf8-\\xff', rsMathOpRange = '\\xac\\xb1\\xd7\\xf7', rsNonCharRange = '\\x00-\\x2f\\x3a-\\x40\\x5b-\\x60\\x7b-\\xbf', rsQuoteRange = '\\u2018\\u2019\\u201c\\u201d', rsSpaceRange = ' \\t\\x0b\\f\\xa0\\ufeff\\n\\r\\u2028\\u2029\\u1680\\u180e\\u2000\\u2001\\u2002\\u2003\\u2004\\u2005\\u2006\\u2007\\u2008\\u2009\\u200a\\u202f\\u205f\\u3000', rsUpperRange = 'A-Z\\xc0-\\xd6\\xd8-\\xde', rsVarRange = '\\ufe0e\\ufe0f', rsBreakRange = rsMathOpRange + rsNonCharRange + rsQuoteRange + rsSpaceRange; /** Used to compose unicode capture groups. */ var rsAstral = '[' + rsAstralRange + ']', rsBreak = '[' + rsBreakRange + ']', rsCombo = '[' + rsComboMarksRange + rsComboSymbolsRange + ']', rsDigits = '\\d+', rsDingbat = '[' + rsDingbatRange + ']', rsLower = '[' + rsLowerRange + ']', rsMisc = '[^' + rsAstralRange + rsBreakRange + rsDigits + rsDingbatRange + rsLowerRange + rsUpperRange + ']', rsFitz = '\\ud83c[\\udffb-\\udfff]', rsModifier = '(?:' + rsCombo + '|' + rsFitz + ')', rsNonAstral = '[^' + rsAstralRange + ']', rsRegional = '(?:\\ud83c[\\udde6-\\uddff]){2}', rsSurrPair = '[\\ud800-\\udbff][\\udc00-\\udfff]', rsUpper = '[' + rsUpperRange + ']', rsZWJ = '\\u200d'; /** Used to compose unicode regexes. */ var rsLowerMisc = '(?:' + rsLower + '|' + rsMisc + ')', rsUpperMisc = '(?:' + rsUpper + '|' + rsMisc + ')', reOptMod = rsModifier + '?', rsOptVar = '[' + rsVarRange + ']?', rsOptJoin = '(?:' + rsZWJ + '(?:' + [rsNonAstral, rsRegional, rsSurrPair].join('|') + ')' + rsOptVar + reOptMod + ')*', rsSeq = rsOptVar + reOptMod + rsOptJoin, rsEmoji = '(?:' + [rsDingbat, rsRegional, rsSurrPair].join('|') + ')' + rsSeq, rsSymbol = '(?:' + [rsNonAstral + rsCombo + '?', rsCombo, rsRegional, rsSurrPair, rsAstral].join('|') + ')'; /** * Used to match [combining diacritical marks](https://en.wikipedia.org/wiki/Combining_Diacritical_Marks) and * [combining diacritical marks for symbols](https://en.wikipedia.org/wiki/Combining_Diacritical_Marks_for_Symbols). */ var reComboMark = RegExp(rsCombo, 'g'); /** Used to match [string symbols](https://mathiasbynens.be/notes/javascript-unicode). */ var reComplexSymbol = RegExp(rsFitz + '(?=' + rsFitz + ')|' + rsSymbol + rsSeq, 'g'); /** Used to detect strings with [zero-width joiners or code points from the astral planes](http://eev.ee/blog/2015/09/12/dark-corners-of-unicode/). */ var reHasComplexSymbol = RegExp('[' + rsZWJ + rsAstralRange + rsComboMarksRange + rsComboSymbolsRange + rsVarRange + ']'); /** Used to match non-compound words composed of alphanumeric characters. */ var reBasicWord = /[a-zA-Z0-9]+/g; /** Used to match complex or compound words. */ var reComplexWord = RegExp([ rsUpper + '?' + rsLower + '+(?=' + [rsBreak, rsUpper, '$'].join('|') + ')', rsUpperMisc + '+(?=' + [rsBreak, rsUpper + rsLowerMisc, '$'].join('|') + ')', rsUpper + '?' + rsLowerMisc + '+', rsUpper + '+', rsDigits, rsEmoji ].join('|'), 'g'); /** Used to detect strings that need a more robust regexp to match words. */ var reHasComplexWord = /[a-z][A-Z]|[0-9][a-zA-Z]|[a-zA-Z][0-9]|[^a-zA-Z0-9 ]/; /** Used to assign default `context` object properties. */ var contextProps = [ 'Array', 'Buffer', 'Date', 'Error', 'Float32Array', 'Float64Array', 'Function', 'Int8Array', 'Int16Array', 'Int32Array', 'Map', 'Math', 'Object', 'Reflect', 'RegExp', 'Set', 'String', 'Symbol', 'TypeError', 'Uint8Array', 'Uint8ClampedArray', 'Uint16Array', 'Uint32Array', 'WeakMap', '_', 'clearTimeout', 'isFinite', 'parseInt', 'setTimeout' ]; /** Used to make template sourceURLs easier to identify. */ var templateCounter = -1; /** Used to identify `toStringTag` values of typed arrays. */ var typedArrayTags = {}; typedArrayTags[float32Tag] = typedArrayTags[float64Tag] = typedArrayTags[int8Tag] = typedArrayTags[int16Tag] = typedArrayTags[int32Tag] = typedArrayTags[uint8Tag] = typedArrayTags[uint8ClampedTag] = typedArrayTags[uint16Tag] = typedArrayTags[uint32Tag] = true; typedArrayTags[argsTag] = typedArrayTags[arrayTag] = typedArrayTags[arrayBufferTag] = typedArrayTags[boolTag] = typedArrayTags[dateTag] = typedArrayTags[errorTag] = typedArrayTags[funcTag] = typedArrayTags[mapTag] = typedArrayTags[numberTag] = typedArrayTags[objectTag] = typedArrayTags[regexpTag] = typedArrayTags[setTag] = typedArrayTags[stringTag] = typedArrayTags[weakMapTag] = false; /** Used to identify `toStringTag` values supported by `_.clone`. */ var cloneableTags = {}; cloneableTags[argsTag] = cloneableTags[arrayTag] = cloneableTags[arrayBufferTag] = cloneableTags[boolTag] = cloneableTags[dateTag] = cloneableTags[float32Tag] = cloneableTags[float64Tag] = cloneableTags[int8Tag] = cloneableTags[int16Tag] = cloneableTags[int32Tag] = cloneableTags[mapTag] = cloneableTags[numberTag] = cloneableTags[objectTag] = cloneableTags[regexpTag] = cloneableTags[setTag] = cloneableTags[stringTag] = cloneableTags[symbolTag] = cloneableTags[uint8Tag] = cloneableTags[uint8ClampedTag] = cloneableTags[uint16Tag] = cloneableTags[uint32Tag] = true; cloneableTags[errorTag] = cloneableTags[funcTag] = cloneableTags[weakMapTag] = false; /** Used to map latin-1 supplementary letters to basic latin letters. */ var deburredLetters = { '\xc0': 'A', '\xc1': 'A', '\xc2': 'A', '\xc3': 'A', '\xc4': 'A', '\xc5': 'A', '\xe0': 'a', '\xe1': 'a', '\xe2': 'a', '\xe3': 'a', '\xe4': 'a', '\xe5': 'a', '\xc7': 'C', '\xe7': 'c', '\xd0': 'D', '\xf0': 'd', '\xc8': 'E', '\xc9': 'E', '\xca': 'E', '\xcb': 'E', '\xe8': 'e', '\xe9': 'e', '\xea': 'e', '\xeb': 'e', '\xcC': 'I', '\xcd': 'I', '\xce': 'I', '\xcf': 'I', '\xeC': 'i', '\xed': 'i', '\xee': 'i', '\xef': 'i', '\xd1': 'N', '\xf1': 'n', '\xd2': 'O', '\xd3': 'O', '\xd4': 'O', '\xd5': 'O', '\xd6': 'O', '\xd8': 'O', '\xf2': 'o', '\xf3': 'o', '\xf4': 'o', '\xf5': 'o', '\xf6': 'o', '\xf8': 'o', '\xd9': 'U', '\xda': 'U', '\xdb': 'U', '\xdc': 'U', '\xf9': 'u', '\xfa': 'u', '\xfb': 'u', '\xfc': 'u', '\xdd': 'Y', '\xfd': 'y', '\xff': 'y', '\xc6': 'Ae', '\xe6': 'ae', '\xde': 'Th', '\xfe': 'th', '\xdf': 'ss' }; /** Used to map characters to HTML entities. */ var htmlEscapes = { '&': '&', '<': '<', '>': '>', '"': '"', "'": ''', '`': '`' }; /** Used to map HTML entities to characters. */ var htmlUnescapes = { '&': '&', '<': '<', '>': '>', '"': '"', ''': "'", '`': '`' }; /** Used to determine if values are of the language type `Object`. */ var objectTypes = { 'function': true, 'object': true }; /** Used to escape characters for inclusion in compiled string literals. */ var stringEscapes = { '\\': '\\', "'": "'", '\n': 'n', '\r': 'r', '\u2028': 'u2028', '\u2029': 'u2029' }; /** Built-in method references without a dependency on `root`. */ var freeParseFloat = parseFloat, freeParseInt = parseInt; /** Detect free variable `exports`. */ var freeExports = (objectTypes[typeof exports] && exports && !exports.nodeType) ? exports : null; /** Detect free variable `module`. */ var freeModule = (objectTypes[typeof module] && module && !module.nodeType) ? module : null; /** Detect free variable `global` from Node.js. */ var freeGlobal = checkGlobal(freeExports && freeModule && typeof global == 'object' && global); /** Detect free variable `self`. */ var freeSelf = checkGlobal(objectTypes[typeof self] && self); /** Detect free variable `window`. */ var freeWindow = checkGlobal(objectTypes[typeof window] && window); /** Detect the popular CommonJS extension `module.exports`. */ var moduleExports = (freeModule && freeModule.exports === freeExports) ? freeExports : null; /** Detect `this` as the global object. */ var thisGlobal = checkGlobal(objectTypes[typeof this] && this); /** * Used as a reference to the global object. * * The `this` value is used if it's the global object to avoid Greasemonkey's * restricted `window` object, otherwise the `window` object is used. */ var root = freeGlobal || ((freeWindow !== (thisGlobal && thisGlobal.window)) && freeWindow) || freeSelf || thisGlobal || Function('return this')(); /*--------------------------------------------------------------------------*/ /** * Adds the key-value `pair` to `map`. * * @private * @param {Object} map The map to modify. * @param {Array} pair The key-value pair to add. * @returns {Object} Returns `map`. */ function addMapEntry(map, pair) { map.set(pair[0], pair[1]); return map; } /** * Adds `value` to `set`. * * @private * @param {Object} set The set to modify. * @param {*} value The value to add. * @returns {Object} Returns `set`. */ function addSetEntry(set, value) { set.add(value); return set; } /** * A faster alternative to `Function#apply`, this function invokes `func` * with the `this` binding of `thisArg` and the arguments of `args`. * * @private * @param {Function} func The function to invoke. * @param {*} thisArg The `this` binding of `func`. * @param {...*} args The arguments to invoke `func` with. * @returns {*} Returns the result of `func`. */ function apply(func, thisArg, args) { var length = args.length; switch (length) { case 0: return func.call(thisArg); case 1: return func.call(thisArg, args[0]); case 2: return func.call(thisArg, args[0], args[1]); case 3: return func.call(thisArg, args[0], args[1], args[2]); } return func.apply(thisArg, args); } /** * A specialized version of `baseAggregator` for arrays. * * @private * @param {Array} array The array to iterate over. * @param {Function} setter The function to set `accumulator` values. * @param {Function} iteratee The iteratee to transform keys. * @param {Object} accumulator The initial aggregated object. * @returns {Function} Returns `accumulator`. */ function arrayAggregator(array, setter, iteratee, accumulator) { var index = -1, length = array.length; while (++index < length) { var value = array[index]; setter(accumulator, value, iteratee(value), array); } return accumulator; } /** * Creates a new array concatenating `array` with `other`. * * @private * @param {Array} array The first array to concatenate. * @param {Array} other The second array to concatenate. * @returns {Array} Returns the new concatenated array. */ function arrayConcat(array, other) { var index = -1, length = array.length, othIndex = -1, othLength = other.length, result = Array(length + othLength); while (++index < length) { result[index] = array[index]; } while (++othIndex < othLength) { result[index++] = other[othIndex]; } return result; } /** * A specialized version of `_.forEach` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns `array`. */ function arrayEach(array, iteratee) { var index = -1, length = array.length; while (++index < length) { if (iteratee(array[index], index, array) === false) { break; } } return array; } /** * A specialized version of `_.forEachRight` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns `array`. */ function arrayEachRight(array, iteratee) { var length = array.length; while (length--) { if (iteratee(array[length], length, array) === false) { break; } } return array; } /** * A specialized version of `_.every` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if all elements pass the predicate check, else `false`. */ function arrayEvery(array, predicate) { var index = -1, length = array.length; while (++index < length) { if (!predicate(array[index], index, array)) { return false; } } return true; } /** * A specialized version of `_.filter` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {Array} Returns the new filtered array. */ function arrayFilter(array, predicate) { var index = -1, length = array.length, resIndex = -1, result = []; while (++index < length) { var value = array[index]; if (predicate(value, index, array)) { result[++resIndex] = value; } } return result; } /** * A specialized version of `_.includes` for arrays without support for * specifying an index to search from. * * @private * @param {Array} array The array to search. * @param {*} target The value to search for. * @returns {boolean} Returns `true` if `target` is found, else `false`. */ function arrayIncludes(array, value) { return !!array.length && baseIndexOf(array, value, 0) > -1; } /** * A specialized version of `_.includesWith` for arrays without support for * specifying an index to search from. * * @private * @param {Array} array The array to search. * @param {*} target The value to search for. * @param {Function} comparator The comparator invoked per element. * @returns {boolean} Returns `true` if `target` is found, else `false`. */ function arrayIncludesWith(array, value, comparator) { var index = -1, length = array.length; while (++index < length) { if (comparator(value, array[index])) { return true; } } return false; } /** * A specialized version of `_.map` for arrays without support for iteratee * shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the new mapped array. */ function arrayMap(array, iteratee) { var index = -1, length = array.length, result = Array(length); while (++index < length) { result[index] = iteratee(array[index], index, array); } return result; } /** * Appends the elements of `values` to `array`. * * @private * @param {Array} array The array to modify. * @param {Array} values The values to append. * @returns {Array} Returns `array`. */ function arrayPush(array, values) { var index = -1, length = values.length, offset = array.length; while (++index < length) { array[offset + index] = values[index]; } return array; } /** * A specialized version of `_.reduce` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {*} [accumulator] The initial value. * @param {boolean} [initAccum] Specify using the first element of `array` as the initial value. * @returns {*} Returns the accumulated value. */ function arrayReduce(array, iteratee, accumulator, initAccum) { var index = -1, length = array.length; if (initAccum && length) { accumulator = array[++index]; } while (++index < length) { accumulator = iteratee(accumulator, array[index], index, array); } return accumulator; } /** * A specialized version of `_.reduceRight` for arrays without support for * iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {*} [accumulator] The initial value. * @param {boolean} [initAccum] Specify using the last element of `array` as the initial value. * @returns {*} Returns the accumulated value. */ function arrayReduceRight(array, iteratee, accumulator, initAccum) { var length = array.length; if (initAccum && length) { accumulator = array[--length]; } while (length--) { accumulator = iteratee(accumulator, array[length], length, array); } return accumulator; } /** * A specialized version of `_.some` for arrays without support for iteratee * shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if any element passes the predicate check, else `false`. */ function arraySome(array, predicate) { var index = -1, length = array.length; while (++index < length) { if (predicate(array[index], index, array)) { return true; } } return false; } /** * The base implementation of methods like `_.max` and `_.min` which accepts a * `comparator` to determine the extremum value. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The iteratee invoked per iteration. * @param {Function} comparator The comparator used to compare values. * @returns {*} Returns the extremum value. */ function baseExtremum(array, iteratee, comparator) { var index = -1, length = array.length; while (++index < length) { var value = array[index], current = iteratee(value); if (current != null && (computed === undefined ? current === current : comparator(current, computed) )) { var computed = current, result = value; } } return result; } /** * The base implementation of methods like `_.find` and `_.findKey`, without * support for iteratee shorthands, which iterates over `collection` using * `eachFunc`. * * @private * @param {Array|Object} collection The collection to search. * @param {Function} predicate The function invoked per iteration. * @param {Function} eachFunc The function to iterate over `collection`. * @param {boolean} [retKey] Specify returning the key of the found element instead of the element itself. * @returns {*} Returns the found element or its key, else `undefined`. */ function baseFind(collection, predicate, eachFunc, retKey) { var result; eachFunc(collection, function(value, key, collection) { if (predicate(value, key, collection)) { result = retKey ? key : value; return false; } }); return result; } /** * The base implementation of `_.findIndex` and `_.findLastIndex` without * support for iteratee shorthands. * * @private * @param {Array} array The array to search. * @param {Function} predicate The function invoked per iteration. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {number} Returns the index of the matched value, else `-1`. */ function baseFindIndex(array, predicate, fromRight) { var length = array.length, index = fromRight ? length : -1; while ((fromRight ? index-- : ++index < length)) { if (predicate(array[index], index, array)) { return index; } } return -1; } /** * The base implementation of `_.indexOf` without `fromIndex` bounds checks. * * @private * @param {Array} array The array to search. * @param {*} value The value to search for. * @param {number} fromIndex The index to search from. * @returns {number} Returns the index of the matched value, else `-1`. */ function baseIndexOf(array, value, fromIndex) { if (value !== value) { return indexOfNaN(array, fromIndex); } var index = fromIndex - 1, length = array.length; while (++index < length) { if (array[index] === value) { return index; } } return -1; } /** * The base implementation of `_.reduce` and `_.reduceRight`, without support * for iteratee shorthands, which iterates over `collection` using `eachFunc`. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {*} accumulator The initial value. * @param {boolean} initAccum Specify using the first or last element of `collection` as the initial value. * @param {Function} eachFunc The function to iterate over `collection`. * @returns {*} Returns the accumulated value. */ function baseReduce(collection, iteratee, accumulator, initAccum, eachFunc) { eachFunc(collection, function(value, index, collection) { accumulator = initAccum ? (initAccum = false, value) : iteratee(accumulator, value, index, collection); }); return accumulator; } /** * The base implementation of `_.sortBy` which uses `comparer` to define * the sort order of `array` and replaces criteria objects with their * corresponding values. * * @private * @param {Array} array The array to sort. * @param {Function} comparer The function to define sort order. * @returns {Array} Returns `array`. */ function baseSortBy(array, comparer) { var length = array.length; array.sort(comparer); while (length--) { array[length] = array[length].value; } return array; } /** * The base implementation of `_.sum` without support for iteratee shorthands. * * @private * @param {Array} array The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {number} Returns the sum. */ function baseSum(array, iteratee) { var result, index = -1, length = array.length; while (++index < length) { var current = iteratee(array[index]); if (current !== undefined) { result = result === undefined ? current : (result + current); } } return result; } /** * The base implementation of `_.times` without support for iteratee shorthands * or max array length checks. * * @private * @param {number} n The number of times to invoke `iteratee`. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the array of results. */ function baseTimes(n, iteratee) { var index = -1, result = Array(n); while (++index < n) { result[index] = iteratee(index); } return result; } /** * The base implementation of `_.toPairs` and `_.toPairsIn` which creates an array * of key-value pairs for `object` corresponding to the property names of `props`. * * @private * @param {Object} object The object to query. * @param {Array} props The property names to get values for. * @returns {Object} Returns the new array of key-value pairs. */ function baseToPairs(object, props) { return arrayMap(props, function(key) { return [key, object[key]]; }); } /** * The base implementation of `_.unary` without support for storing wrapper metadata. * * @private * @param {Function} func The function to cap arguments for. * @returns {Function} Returns the new function. */ function baseUnary(func) { return function(value) { return func(value); }; } /** * The base implementation of `_.values` and `_.valuesIn` which creates an * array of `object` property values corresponding to the property names * of `props`. * * @private * @param {Object} object The object to query. * @param {Array} props The property names to get values for. * @returns {Object} Returns the array of property values. */ function baseValues(object, props) { return arrayMap(props, function(key) { return object[key]; }); } /** * Used by `_.trim` and `_.trimStart` to get the index of the first string symbol * that is not found in the character symbols. * * @private * @param {Array} strSymbols The string symbols to inspect. * @param {Array} chrSymbols The character symbols to find. * @returns {number} Returns the index of the first unmatched string symbol. */ function charsStartIndex(strSymbols, chrSymbols) { var index = -1, length = strSymbols.length; while (++index < length && baseIndexOf(chrSymbols, strSymbols[index], 0) > -1) {} return index; } /** * Used by `_.trim` and `_.trimEnd` to get the index of the last string symbol * that is not found in the character symbols. * * @private * @param {Array} strSymbols The string symbols to inspect. * @param {Array} chrSymbols The character symbols to find. * @returns {number} Returns the index of the last unmatched string symbol. */ function charsEndIndex(strSymbols, chrSymbols) { var index = strSymbols.length; while (index-- && baseIndexOf(chrSymbols, strSymbols[index], 0) > -1) {} return index; } /** * Checks if `value` is a global object. * * @private * @param {*} value The value to check. * @returns {null|Object} Returns `value` if it's a global object, else `null`. */ function checkGlobal(value) { return (value && value.Object === Object) ? value : null; } /** * Compares values to sort them in ascending order. * * @private * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {number} Returns the sort order indicator for `value`. */ function compareAscending(value, other) { if (value !== other) { var valIsNull = value === null, valIsUndef = value === undefined, valIsReflexive = value === value; var othIsNull = other === null, othIsUndef = other === undefined, othIsReflexive = other === other; if ((value > other && !othIsNull) || !valIsReflexive || (valIsNull && !othIsUndef && othIsReflexive) || (valIsUndef && othIsReflexive)) { return 1; } if ((value < other && !valIsNull) || !othIsReflexive || (othIsNull && !valIsUndef && valIsReflexive) || (othIsUndef && valIsReflexive)) { return -1; } } return 0; } /** * Used by `_.orderBy` to compare multiple properties of a value to another * and stable sort them. * * If `orders` is unspecified, all values are sorted in ascending order. Otherwise, * specify an order of "desc" for descending or "asc" for ascending sort order * of corresponding values. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {boolean[]|string[]} orders The order to sort by for each property. * @returns {number} Returns the sort order indicator for `object`. */ function compareMultiple(object, other, orders) { var index = -1, objCriteria = object.criteria, othCriteria = other.criteria, length = objCriteria.length, ordersLength = orders.length; while (++index < length) { var result = compareAscending(objCriteria[index], othCriteria[index]); if (result) { if (index >= ordersLength) { return result; } var order = orders[index]; return result * (order == 'desc' ? -1 : 1); } } // Fixes an `Array#sort` bug in the JS engine embedded in Adobe applications // that causes it, under certain circumstances, to provide the same value for // `object` and `other`. See https://github.com/jashkenas/underscore/pull/1247 // for more details. // // This also ensures a stable sort in V8 and other engines. // See https://code.google.com/p/v8/issues/detail?id=90 for more details. return object.index - other.index; } /** * Used by `_.deburr` to convert latin-1 supplementary letters to basic latin letters. * * @private * @param {string} letter The matched letter to deburr. * @returns {string} Returns the deburred letter. */ function deburrLetter(letter) { return deburredLetters[letter]; } /** * Used by `_.escape` to convert characters to HTML entities. * * @private * @param {string} chr The matched character to escape. * @returns {string} Returns the escaped character. */ function escapeHtmlChar(chr) { return htmlEscapes[chr]; } /** * Used by `_.template` to escape characters for inclusion in compiled string literals. * * @private * @param {string} chr The matched character to escape. * @returns {string} Returns the escaped character. */ function escapeStringChar(chr) { return '\\' + stringEscapes[chr]; } /** * Gets the index at which the first occurrence of `NaN` is found in `array`. * * @private * @param {Array} array The array to search. * @param {number} fromIndex The index to search from. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {number} Returns the index of the matched `NaN`, else `-1`. */ function indexOfNaN(array, fromIndex, fromRight) { var length = array.length, index = fromIndex + (fromRight ? 0 : -1); while ((fromRight ? index-- : ++index < length)) { var other = array[index]; if (other !== other) { return index; } } return -1; } /** * Checks if `value` is a host object in IE < 9. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a host object, else `false`. */ function isHostObject(value) { // Many host objects are `Object` objects that can coerce to strings // despite having improperly defined `toString` methods. var result = false; if (value != null && typeof value.toString != 'function') { try { result = !!(value + ''); } catch (e) {} } return result; } /** * Checks if `value` is a valid array-like index. * * @private * @param {*} value The value to check. * @param {number} [length=MAX_SAFE_INTEGER] The upper bounds of a valid index. * @returns {boolean} Returns `true` if `value` is a valid index, else `false`. */ function isIndex(value, length) { value = (typeof value == 'number' || reIsUint.test(value)) ? +value : -1; length = length == null ? MAX_SAFE_INTEGER : length; return value > -1 && value % 1 == 0 && value < length; } /** * Converts `iterator` to an array. * * @private * @param {Object} iterator The iterator to convert. * @returns {Array} Returns the converted array. */ function iteratorToArray(iterator) { var data, result = []; while (!(data = iterator.next()).done) { result.push(data.value); } return result; } /** * Converts `map` to an array. * * @private * @param {Object} map The map to convert. * @returns {Array} Returns the converted array. */ function mapToArray(map) { var index = -1, result = Array(map.size); map.forEach(function(value, key) { result[++index] = [key, value]; }); return result; } /** * Replaces all `placeholder` elements in `array` with an internal placeholder * and returns an array of their indexes. * * @private * @param {Array} array The array to modify. * @param {*} placeholder The placeholder to replace. * @returns {Array} Returns the new array of placeholder indexes. */ function replaceHolders(array, placeholder) { var index = -1, length = array.length, resIndex = -1, result = []; while (++index < length) { if (array[index] === placeholder) { array[index] = PLACEHOLDER; result[++resIndex] = index; } } return result; } /** * Converts `set` to an array. * * @private * @param {Object} set The set to convert. * @returns {Array} Returns the converted array. */ function setToArray(set) { var index = -1, result = Array(set.size); set.forEach(function(value) { result[++index] = value; }); return result; } /** * Gets the number of symbols in `string`. * * @private * @param {string} string The string to inspect. * @returns {number} Returns the string size. */ function stringSize(string) { if (!(string && reHasComplexSymbol.test(string))) { return string.length; } var result = reComplexSymbol.lastIndex = 0; while (reComplexSymbol.test(string)) { result++; } return result; } /** * Converts `string` to an array. * * @private * @param {string} string The string to convert. * @returns {Array} Returns the converted array. */ function stringToArray(string) { return string.match(reComplexSymbol); } /** * Used by `_.unescape` to convert HTML entities to characters. * * @private * @param {string} chr The matched character to unescape. * @returns {string} Returns the unescaped character. */ function unescapeHtmlChar(chr) { return htmlUnescapes[chr]; } /*--------------------------------------------------------------------------*/ /** * Create a new pristine `lodash` function using the `context` object. * * @static * @memberOf _ * @category Util * @param {Object} [context=root] The context object. * @returns {Function} Returns a new `lodash` function. * @example * * _.mixin({ 'foo': _.constant('foo') }); * * var lodash = _.runInContext(); * lodash.mixin({ 'bar': lodash.constant('bar') }); * * _.isFunction(_.foo); * // => true * _.isFunction(_.bar); * // => false * * lodash.isFunction(lodash.foo); * // => false * lodash.isFunction(lodash.bar); * // => true * * // Use `context` to mock `Date#getTime` use in `_.now`. * var mock = _.runInContext({ * 'Date': function() { * return { 'getTime': getTimeMock }; * } * }); * * // Create a suped-up `defer` in Node.js. * var defer = _.runInContext({ 'setTimeout': setImmediate }).defer; */ function runInContext(context) { context = context ? _.defaults({}, context, _.pick(root, contextProps)) : root; /** Built-in constructor references. */ var Date = context.Date, Error = context.Error, Math = context.Math, RegExp = context.RegExp, TypeError = context.TypeError; /** Used for built-in method references. */ var arrayProto = context.Array.prototype, objectProto = context.Object.prototype; /** Used to resolve the decompiled source of functions. */ var funcToString = context.Function.prototype.toString; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** Used to generate unique IDs. */ var idCounter = 0; /** Used to infer the `Object` constructor. */ var objectCtorString = funcToString.call(Object); /** * Used to resolve the [`toStringTag`](http://ecma-international.org/ecma-262/6.0/#sec-object.prototype.tostring) * of values. */ var objectToString = objectProto.toString; /** Used to restore the original `_` reference in `_.noConflict`. */ var oldDash = root._; /** Used to detect if a method is native. */ var reIsNative = RegExp('^' + funcToString.call(hasOwnProperty).replace(reRegExpChar, '\\$&') .replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, '$1.*?') + '$' ); /** Built-in value references. */ var Buffer = moduleExports ? context.Buffer : undefined, Reflect = context.Reflect, Symbol = context.Symbol, Uint8Array = context.Uint8Array, clearTimeout = context.clearTimeout, enumerate = Reflect ? Reflect.enumerate : undefined, getPrototypeOf = Object.getPrototypeOf, getOwnPropertySymbols = Object.getOwnPropertySymbols, iteratorSymbol = typeof (iteratorSymbol = Symbol && Symbol.iterator) == 'symbol' ? iteratorSymbol : undefined, propertyIsEnumerable = objectProto.propertyIsEnumerable, setTimeout = context.setTimeout, splice = arrayProto.splice; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeCeil = Math.ceil, nativeFloor = Math.floor, nativeIsFinite = context.isFinite, nativeJoin = arrayProto.join, nativeKeys = Object.keys, nativeMax = Math.max, nativeMin = Math.min, nativeParseInt = context.parseInt, nativeRandom = Math.random, nativeReverse = arrayProto.reverse; /* Built-in method references that are verified to be native. */ var Map = getNative(context, 'Map'), Set = getNative(context, 'Set'), WeakMap = getNative(context, 'WeakMap'), nativeCreate = getNative(Object, 'create'); /** Used to store function metadata. */ var metaMap = WeakMap && new WeakMap; /** Used to detect maps, sets, and weakmaps. */ var mapCtorString = Map ? funcToString.call(Map) : '', setCtorString = Set ? funcToString.call(Set) : '', weakMapCtorString = WeakMap ? funcToString.call(WeakMap) : ''; /** Used to convert symbols to primitives and strings. */ var symbolProto = Symbol ? Symbol.prototype : undefined, symbolValueOf = Symbol ? symbolProto.valueOf : undefined, symbolToString = Symbol ? symbolProto.toString : undefined; /** Used to lookup unminified function names. */ var realNames = {}; /*------------------------------------------------------------------------*/ /** * Creates a `lodash` object which wraps `value` to enable implicit method * chaining. Methods that operate on and return arrays, collections, and * functions can be chained together. Methods that retrieve a single value or * may return a primitive value will automatically end the chain sequence and * return the unwrapped value. Otherwise, the value must be unwrapped with * `_#value`. * * Explicit chaining, which must be unwrapped with `_#value` in all cases, * may be enabled using `_.chain`. * * The execution of chained methods is lazy, that is, it's deferred until * `_#value` is implicitly or explicitly called. * * Lazy evaluation allows several methods to support shortcut fusion. Shortcut * fusion is an optimization to merge iteratee calls; this avoids the creation * of intermediate arrays and can greatly reduce the number of iteratee executions. * Sections of a chain sequence qualify for shortcut fusion if the section is * applied to an array of at least two hundred elements and any iteratees * accept only one argument. The heuristic for whether a section qualifies * for shortcut fusion is subject to change. * * Chaining is supported in custom builds as long as the `_#value` method is * directly or indirectly included in the build. * * In addition to lodash methods, wrappers have `Array` and `String` methods. * * The wrapper `Array` methods are: * `concat`, `join`, `pop`, `push`, `shift`, `sort`, `splice`, and `unshift` * * The wrapper `String` methods are: * `replace` and `split` * * The wrapper methods that support shortcut fusion are: * `at`, `compact`, `drop`, `dropRight`, `dropWhile`, `filter`, `find`, * `findLast`, `head`, `initial`, `last`, `map`, `reject`, `reverse`, `slice`, * `tail`, `take`, `takeRight`, `takeRightWhile`, `takeWhile`, and `toArray` * * The chainable wrapper methods are: * `after`, `ary`, `assign`, `assignIn`, `assignInWith`, `assignWith`, * `at`, `before`, `bind`, `bindAll`, `bindKey`, `chain`, `chunk`, `commit`, * `compact`, `concat`, `conforms`, `constant`, `countBy`, `create`, `curry`, * `debounce`, `defaults`, `defaultsDeep`, `defer`, `delay`, `difference`, * `differenceBy`, `differenceWith`, `drop`, `dropRight`, `dropRightWhile`, * `dropWhile`, `fill`, `filter`, `flatten`, `flattenDeep`, `flip`, `flow`, * `flowRight`, `fromPairs`, `functions`, `functionsIn`, `groupBy`, `initial`, * `intersection`, `intersectionBy`, `intersectionWith`, `invert`, `invertBy`, * `invokeMap`, `iteratee`, `keyBy`, `keys`, `keysIn`, `map`, `mapKeys`, * `mapValues`, `matches`, `matchesProperty`, `memoize`, `merge`, `mergeWith`, * `method`, `methodOf`, `mixin`, `negate`, `nthArg`, `omit`, `omitBy`, `once`, * `orderBy`, `over`, `overArgs`, `overEvery`, `overSome`, `partial`, * `partialRight`, `partition`, `pick`, `pickBy`, `plant`, `property`, * `propertyOf`, `pull`, `pullAll`, `pullAllBy`, `pullAt`, `push`, `range`, * `rangeRight`, `rearg`, `reject`, `remove`, `rest`, `reverse`, `sampleSize`, * `set`, `setWith`, `shuffle`, `slice`, `sort`, `sortBy`, `splice`, `spread`, * `tail`, `take`, `takeRight`, `takeRightWhile`, `takeWhile`, `tap`, `throttle`, * `thru`, `toArray`, `toPairs`, `toPairsIn`, `toPath`, `toPlainObject`, * `transform`, `unary`, `union`, `unionBy`, `unionWith`, `uniq`, `uniqBy`, * `uniqWith`, `unset`, `unshift`, `unzip`, `unzipWith`, `values`, `valuesIn`, * `without`, `wrap`, `xor`, `xorBy`, `xorWith`, `zip`, `zipObject`, * `zipObjectDeep`, and `zipWith` * * The wrapper methods that are **not** chainable by default are: * `add`, `attempt`, `camelCase`, `capitalize`, `ceil`, `clamp`, `clone`, * `cloneDeep`, `cloneDeepWith`, `cloneWith`, `deburr`, `endsWith`, `eq`, * `escape`, `escapeRegExp`, `every`, `find`, `findIndex`, `findKey`, * `findLast`, `findLastIndex`, `findLastKey`, `floor`, `forEach`, `forEachRight`, * `forIn`, `forInRight`, `forOwn`, `forOwnRight`, `get`, `gt`, `gte`, `has`, * `hasIn`, `head`, `identity`, `includes`, `indexOf`, `inRange`, `invoke`, * `isArguments`, `isArray`, `isArrayLike`, `isArrayLikeObject`, `isBoolean`, * `isDate`, `isElement`, `isEmpty`, `isEqual`, `isEqualWith`, `isError`, * `isFinite`, `isFunction`, `isInteger`, `isLength`, `isMatch`, `isMatchWith`, * `isNaN`, `isNative`, `isNil`, `isNull`, `isNumber`, `isObject`, `isObjectLike`, * `isPlainObject`, `isRegExp`, `isSafeInteger`, `isString`, `isUndefined`, * `isTypedArray`, `join`, `kebabCase`, `last`, `lastIndexOf`, `lowerCase`, * `lowerFirst`, `lt`, `lte`, `max`, `maxBy`, `mean`, `min`, `minBy`, * `noConflict`, `noop`, `now`, `pad`, `padEnd`, `padStart`, `parseInt`, * `pop`, `random`, `reduce`, `reduceRight`, `repeat`, `result`, `round`, * `runInContext`, `sample`, `shift`, `size`, `snakeCase`, `some`, `sortedIndex`, * `sortedIndexBy`, `sortedLastIndex`, `sortedLastIndexBy`, `startCase`, * `startsWith`, `subtract`, `sum`, `sumBy`, `template`, `times`, `toLower`, * `toInteger`, `toLength`, `toNumber`, `toSafeInteger`, `toString`, `toUpper`, * `trim`, `trimEnd`, `trimStart`, `truncate`, `unescape`, `uniqueId`, * `upperCase`, `upperFirst`, `value`, and `words` * * @name _ * @constructor * @category Seq * @param {*} value The value to wrap in a `lodash` instance. * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * function square(n) { * return n * n; * } * * var wrapped = _([1, 2, 3]); * * // Returns an unwrapped value. * wrapped.reduce(_.add); * // => 6 * * // Returns a wrapped value. * var squares = wrapped.map(square); * * _.isArray(squares); * // => false * * _.isArray(squares.value()); * // => true */ function lodash(value) { if (isObjectLike(value) && !isArray(value) && !(value instanceof LazyWrapper)) { if (value instanceof LodashWrapper) { return value; } if (hasOwnProperty.call(value, '__wrapped__')) { return wrapperClone(value); } } return new LodashWrapper(value); } /** * The function whose prototype all chaining wrappers inherit from. * * @private */ function baseLodash() { // No operation performed. } /** * The base constructor for creating `lodash` wrapper objects. * * @private * @param {*} value The value to wrap. * @param {boolean} [chainAll] Enable chaining for all wrapper methods. */ function LodashWrapper(value, chainAll) { this.__wrapped__ = value; this.__actions__ = []; this.__chain__ = !!chainAll; this.__index__ = 0; this.__values__ = undefined; } /** * By default, the template delimiters used by lodash are like those in * embedded Ruby (ERB). Change the following template settings to use * alternative delimiters. * * @static * @memberOf _ * @type Object */ lodash.templateSettings = { /** * Used to detect `data` property values to be HTML-escaped. * * @memberOf _.templateSettings * @type RegExp */ 'escape': reEscape, /** * Used to detect code to be evaluated. * * @memberOf _.templateSettings * @type RegExp */ 'evaluate': reEvaluate, /** * Used to detect `data` property values to inject. * * @memberOf _.templateSettings * @type RegExp */ 'interpolate': reInterpolate, /** * Used to reference the data object in the template text. * * @memberOf _.templateSettings * @type string */ 'variable': '', /** * Used to import variables into the compiled template. * * @memberOf _.templateSettings * @type Object */ 'imports': { /** * A reference to the `lodash` function. * * @memberOf _.templateSettings.imports * @type Function */ '_': lodash } }; /*------------------------------------------------------------------------*/ /** * Creates a lazy wrapper object which wraps `value` to enable lazy evaluation. * * @private * @param {*} value The value to wrap. */ function LazyWrapper(value) { this.__wrapped__ = value; this.__actions__ = []; this.__dir__ = 1; this.__filtered__ = false; this.__iteratees__ = []; this.__takeCount__ = MAX_ARRAY_LENGTH; this.__views__ = []; } /** * Creates a clone of the lazy wrapper object. * * @private * @name clone * @memberOf LazyWrapper * @returns {Object} Returns the cloned `LazyWrapper` object. */ function lazyClone() { var result = new LazyWrapper(this.__wrapped__); result.__actions__ = copyArray(this.__actions__); result.__dir__ = this.__dir__; result.__filtered__ = this.__filtered__; result.__iteratees__ = copyArray(this.__iteratees__); result.__takeCount__ = this.__takeCount__; result.__views__ = copyArray(this.__views__); return result; } /** * Reverses the direction of lazy iteration. * * @private * @name reverse * @memberOf LazyWrapper * @returns {Object} Returns the new reversed `LazyWrapper` object. */ function lazyReverse() { if (this.__filtered__) { var result = new LazyWrapper(this); result.__dir__ = -1; result.__filtered__ = true; } else { result = this.clone(); result.__dir__ *= -1; } return result; } /** * Extracts the unwrapped value from its lazy wrapper. * * @private * @name value * @memberOf LazyWrapper * @returns {*} Returns the unwrapped value. */ function lazyValue() { var array = this.__wrapped__.value(), dir = this.__dir__, isArr = isArray(array), isRight = dir < 0, arrLength = isArr ? array.length : 0, view = getView(0, arrLength, this.__views__), start = view.start, end = view.end, length = end - start, index = isRight ? end : (start - 1), iteratees = this.__iteratees__, iterLength = iteratees.length, resIndex = 0, takeCount = nativeMin(length, this.__takeCount__); if (!isArr || arrLength < LARGE_ARRAY_SIZE || (arrLength == length && takeCount == length)) { return baseWrapperValue(array, this.__actions__); } var result = []; outer: while (length-- && resIndex < takeCount) { index += dir; var iterIndex = -1, value = array[index]; while (++iterIndex < iterLength) { var data = iteratees[iterIndex], iteratee = data.iteratee, type = data.type, computed = iteratee(value); if (type == LAZY_MAP_FLAG) { value = computed; } else if (!computed) { if (type == LAZY_FILTER_FLAG) { continue outer; } else { break outer; } } } result[resIndex++] = value; } return result; } /*------------------------------------------------------------------------*/ /** * Creates an hash object. * * @private * @returns {Object} Returns the new hash object. */ function Hash() {} /** * Removes `key` and its value from the hash. * * @private * @param {Object} hash The hash to modify. * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function hashDelete(hash, key) { return hashHas(hash, key) && delete hash[key]; } /** * Gets the hash value for `key`. * * @private * @param {Object} hash The hash to query. * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function hashGet(hash, key) { if (nativeCreate) { var result = hash[key]; return result === HASH_UNDEFINED ? undefined : result; } return hasOwnProperty.call(hash, key) ? hash[key] : undefined; } /** * Checks if a hash value for `key` exists. * * @private * @param {Object} hash The hash to query. * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function hashHas(hash, key) { return nativeCreate ? hash[key] !== undefined : hasOwnProperty.call(hash, key); } /** * Sets the hash `key` to `value`. * * @private * @param {Object} hash The hash to modify. * @param {string} key The key of the value to set. * @param {*} value The value to set. */ function hashSet(hash, key, value) { hash[key] = (nativeCreate && value === undefined) ? HASH_UNDEFINED : value; } /*------------------------------------------------------------------------*/ /** * Creates a map cache object to store key-value pairs. * * @private * @param {Array} [values] The values to cache. */ function MapCache(values) { var index = -1, length = values ? values.length : 0; this.clear(); while (++index < length) { var entry = values[index]; this.set(entry[0], entry[1]); } } /** * Removes all key-value entries from the map. * * @private * @name clear * @memberOf MapCache */ function mapClear() { this.__data__ = { 'hash': new Hash, 'map': Map ? new Map : [], 'string': new Hash }; } /** * Removes `key` and its value from the map. * * @private * @name delete * @memberOf MapCache * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function mapDelete(key) { var data = this.__data__; if (isKeyable(key)) { return hashDelete(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map['delete'](key) : assocDelete(data.map, key); } /** * Gets the map value for `key`. * * @private * @name get * @memberOf MapCache * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function mapGet(key) { var data = this.__data__; if (isKeyable(key)) { return hashGet(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map.get(key) : assocGet(data.map, key); } /** * Checks if a map value for `key` exists. * * @private * @name has * @memberOf MapCache * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function mapHas(key) { var data = this.__data__; if (isKeyable(key)) { return hashHas(typeof key == 'string' ? data.string : data.hash, key); } return Map ? data.map.has(key) : assocHas(data.map, key); } /** * Sets the map `key` to `value`. * * @private * @name set * @memberOf MapCache * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the map cache object. */ function mapSet(key, value) { var data = this.__data__; if (isKeyable(key)) { hashSet(typeof key == 'string' ? data.string : data.hash, key, value); } else if (Map) { data.map.set(key, value); } else { assocSet(data.map, key, value); } return this; } /*------------------------------------------------------------------------*/ /** * * Creates a set cache object to store unique values. * * @private * @param {Array} [values] The values to cache. */ function SetCache(values) { var index = -1, length = values ? values.length : 0; this.__data__ = new MapCache; while (++index < length) { this.push(values[index]); } } /** * Checks if `value` is in `cache`. * * @private * @param {Object} cache The set cache to search. * @param {*} value The value to search for. * @returns {number} Returns `true` if `value` is found, else `false`. */ function cacheHas(cache, value) { var map = cache.__data__; if (isKeyable(value)) { var data = map.__data__, hash = typeof value == 'string' ? data.string : data.hash; return hash[value] === HASH_UNDEFINED; } return map.has(value); } /** * Adds `value` to the set cache. * * @private * @name push * @memberOf SetCache * @param {*} value The value to cache. */ function cachePush(value) { var map = this.__data__; if (isKeyable(value)) { var data = map.__data__, hash = typeof value == 'string' ? data.string : data.hash; hash[value] = HASH_UNDEFINED; } else { map.set(value, HASH_UNDEFINED); } } /*------------------------------------------------------------------------*/ /** * Creates a stack cache object to store key-value pairs. * * @private * @param {Array} [values] The values to cache. */ function Stack(values) { var index = -1, length = values ? values.length : 0; this.clear(); while (++index < length) { var entry = values[index]; this.set(entry[0], entry[1]); } } /** * Removes all key-value entries from the stack. * * @private * @name clear * @memberOf Stack */ function stackClear() { this.__data__ = { 'array': [], 'map': null }; } /** * Removes `key` and its value from the stack. * * @private * @name delete * @memberOf Stack * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function stackDelete(key) { var data = this.__data__, array = data.array; return array ? assocDelete(array, key) : data.map['delete'](key); } /** * Gets the stack value for `key`. * * @private * @name get * @memberOf Stack * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function stackGet(key) { var data = this.__data__, array = data.array; return array ? assocGet(array, key) : data.map.get(key); } /** * Checks if a stack value for `key` exists. * * @private * @name has * @memberOf Stack * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function stackHas(key) { var data = this.__data__, array = data.array; return array ? assocHas(array, key) : data.map.has(key); } /** * Sets the stack `key` to `value`. * * @private * @name set * @memberOf Stack * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the stack cache object. */ function stackSet(key, value) { var data = this.__data__, array = data.array; if (array) { if (array.length < (LARGE_ARRAY_SIZE - 1)) { assocSet(array, key, value); } else { data.array = null; data.map = new MapCache(array); } } var map = data.map; if (map) { map.set(key, value); } return this; } /*------------------------------------------------------------------------*/ /** * Removes `key` and its value from the associative array. * * @private * @param {Array} array The array to query. * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function assocDelete(array, key) { var index = assocIndexOf(array, key); if (index < 0) { return false; } var lastIndex = array.length - 1; if (index == lastIndex) { array.pop(); } else { splice.call(array, index, 1); } return true; } /** * Gets the associative array value for `key`. * * @private * @param {Array} array The array to query. * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function assocGet(array, key) { var index = assocIndexOf(array, key); return index < 0 ? undefined : array[index][1]; } /** * Checks if an associative array value for `key` exists. * * @private * @param {Array} array The array to query. * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function assocHas(array, key) { return assocIndexOf(array, key) > -1; } /** * Gets the index at which the first occurrence of `key` is found in `array` * of key-value pairs. * * @private * @param {Array} array The array to search. * @param {*} key The key to search for. * @returns {number} Returns the index of the matched value, else `-1`. */ function assocIndexOf(array, key) { var length = array.length; while (length--) { if (eq(array[length][0], key)) { return length; } } return -1; } /** * Sets the associative array `key` to `value`. * * @private * @param {Array} array The array to modify. * @param {string} key The key of the value to set. * @param {*} value The value to set. */ function assocSet(array, key, value) { var index = assocIndexOf(array, key); if (index < 0) { array.push([key, value]); } else { array[index][1] = value; } } /*------------------------------------------------------------------------*/ /** * Used by `_.defaults` to customize its `_.assignIn` use. * * @private * @param {*} objValue The destination value. * @param {*} srcValue The source value. * @param {string} key The key of the property to assign. * @param {Object} object The parent object of `objValue`. * @returns {*} Returns the value to assign. */ function assignInDefaults(objValue, srcValue, key, object) { if (objValue === undefined || (eq(objValue, objectProto[key]) && !hasOwnProperty.call(object, key))) { return srcValue; } return objValue; } /** * This function is like `assignValue` except that it doesn't assign `undefined` values. * * @private * @param {Object} object The object to modify. * @param {string} key The key of the property to assign. * @param {*} value The value to assign. */ function assignMergeValue(object, key, value) { if ((value !== undefined && !eq(object[key], value)) || (typeof key == 'number' && value === undefined && !(key in object))) { object[key] = value; } } /** * Assigns `value` to `key` of `object` if the existing value is not equivalent * using [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @private * @param {Object} object The object to modify. * @param {string} key The key of the property to assign. * @param {*} value The value to assign. */ function assignValue(object, key, value) { var objValue = object[key]; if ((!eq(objValue, value) || (eq(objValue, objectProto[key]) && !hasOwnProperty.call(object, key))) || (value === undefined && !(key in object))) { object[key] = value; } } /** * Aggregates elements of `collection` on `accumulator` with keys transformed * by `iteratee` and values set by `setter`. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} setter The function to set `accumulator` values. * @param {Function} iteratee The iteratee to transform keys. * @param {Object} accumulator The initial aggregated object. * @returns {Function} Returns `accumulator`. */ function baseAggregator(collection, setter, iteratee, accumulator) { baseEach(collection, function(value, key, collection) { setter(accumulator, value, iteratee(value), collection); }); return accumulator; } /** * The base implementation of `_.assign` without support for multiple sources * or `customizer` functions. * * @private * @param {Object} object The destination object. * @param {Object} source The source object. * @returns {Object} Returns `object`. */ function baseAssign(object, source) { return object && copyObject(source, keys(source), object); } /** * The base implementation of `_.at` without support for individual paths. * * @private * @param {Object} object The object to iterate over. * @param {string[]} paths The property paths of elements to pick. * @returns {Array} Returns the new array of picked elements. */ function baseAt(object, paths) { var index = -1, isNil = object == null, length = paths.length, result = Array(length); while (++index < length) { result[index] = isNil ? undefined : get(object, paths[index]); } return result; } /** * The base implementation of `_.clamp` which doesn't coerce arguments to numbers. * * @private * @param {number} number The number to clamp. * @param {number} [lower] The lower bound. * @param {number} upper The upper bound. * @returns {number} Returns the clamped number. */ function baseClamp(number, lower, upper) { if (number === number) { if (upper !== undefined) { number = number <= upper ? number : upper; } if (lower !== undefined) { number = number >= lower ? number : lower; } } return number; } /** * The base implementation of `_.clone` and `_.cloneDeep` which tracks * traversed objects. * * @private * @param {*} value The value to clone. * @param {boolean} [isDeep] Specify a deep clone. * @param {Function} [customizer] The function to customize cloning. * @param {string} [key] The key of `value`. * @param {Object} [object] The parent object of `value`. * @param {Object} [stack] Tracks traversed objects and their clone counterparts. * @returns {*} Returns the cloned value. */ function baseClone(value, isDeep, customizer, key, object, stack) { var result; if (customizer) { result = object ? customizer(value, key, object, stack) : customizer(value); } if (result !== undefined) { return result; } if (!isObject(value)) { return value; } var isArr = isArray(value); if (isArr) { result = initCloneArray(value); if (!isDeep) { return copyArray(value, result); } } else { var tag = getTag(value), isFunc = tag == funcTag || tag == genTag; if (isBuffer(value)) { return cloneBuffer(value, isDeep); } if (tag == objectTag || tag == argsTag || (isFunc && !object)) { if (isHostObject(value)) { return object ? value : {}; } result = initCloneObject(isFunc ? {} : value); if (!isDeep) { return copySymbols(value, baseAssign(result, value)); } } else { return cloneableTags[tag] ? initCloneByTag(value, tag, isDeep) : (object ? value : {}); } } // Check for circular references and return its corresponding clone. stack || (stack = new Stack); var stacked = stack.get(value); if (stacked) { return stacked; } stack.set(value, result); // Recursively populate clone (susceptible to call stack limits). (isArr ? arrayEach : baseForOwn)(value, function(subValue, key) { assignValue(result, key, baseClone(subValue, isDeep, customizer, key, value, stack)); }); return isArr ? result : copySymbols(value, result); } /** * The base implementation of `_.conforms` which doesn't clone `source`. * * @private * @param {Object} source The object of property predicates to conform to. * @returns {Function} Returns the new function. */ function baseConforms(source) { var props = keys(source), length = props.length; return function(object) { if (object == null) { return !length; } var index = length; while (index--) { var key = props[index], predicate = source[key], value = object[key]; if ((value === undefined && !(key in Object(object))) || !predicate(value)) { return false; } } return true; }; } /** * The base implementation of `_.create` without support for assigning * properties to the created object. * * @private * @param {Object} prototype The object to inherit from. * @returns {Object} Returns the new object. */ var baseCreate = (function() { function object() {} return function(prototype) { if (isObject(prototype)) { object.prototype = prototype; var result = new object; object.prototype = undefined; } return result || {}; }; }()); /** * The base implementation of `_.delay` and `_.defer` which accepts an array * of `func` arguments. * * @private * @param {Function} func The function to delay. * @param {number} wait The number of milliseconds to delay invocation. * @param {Object} args The arguments to provide to `func`. * @returns {number} Returns the timer id. */ function baseDelay(func, wait, args) { if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } return setTimeout(function() { func.apply(undefined, args); }, wait); } /** * The base implementation of methods like `_.difference` without support for * excluding multiple arrays or iteratee shorthands. * * @private * @param {Array} array The array to inspect. * @param {Array} values The values to exclude. * @param {Function} [iteratee] The iteratee invoked per element. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of filtered values. */ function baseDifference(array, values, iteratee, comparator) { var index = -1, includes = arrayIncludes, isCommon = true, length = array.length, result = [], valuesLength = values.length; if (!length) { return result; } if (iteratee) { values = arrayMap(values, baseUnary(iteratee)); } if (comparator) { includes = arrayIncludesWith; isCommon = false; } else if (values.length >= LARGE_ARRAY_SIZE) { includes = cacheHas; isCommon = false; values = new SetCache(values); } outer: while (++index < length) { var value = array[index], computed = iteratee ? iteratee(value) : value; if (isCommon && computed === computed) { var valuesIndex = valuesLength; while (valuesIndex--) { if (values[valuesIndex] === computed) { continue outer; } } result.push(value); } else if (!includes(values, computed, comparator)) { result.push(value); } } return result; } /** * The base implementation of `_.forEach` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array|Object} Returns `collection`. */ var baseEach = createBaseEach(baseForOwn); /** * The base implementation of `_.forEachRight` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array|Object} Returns `collection`. */ var baseEachRight = createBaseEach(baseForOwnRight, true); /** * The base implementation of `_.every` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if all elements pass the predicate check, else `false` */ function baseEvery(collection, predicate) { var result = true; baseEach(collection, function(value, index, collection) { result = !!predicate(value, index, collection); return result; }); return result; } /** * The base implementation of `_.fill` without an iteratee call guard. * * @private * @param {Array} array The array to fill. * @param {*} value The value to fill `array` with. * @param {number} [start=0] The start position. * @param {number} [end=array.length] The end position. * @returns {Array} Returns `array`. */ function baseFill(array, value, start, end) { var length = array.length; start = toInteger(start); if (start < 0) { start = -start > length ? 0 : (length + start); } end = (end === undefined || end > length) ? length : toInteger(end); if (end < 0) { end += length; } end = start > end ? 0 : toLength(end); while (start < end) { array[start++] = value; } return array; } /** * The base implementation of `_.filter` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {Array} Returns the new filtered array. */ function baseFilter(collection, predicate) { var result = []; baseEach(collection, function(value, index, collection) { if (predicate(value, index, collection)) { result.push(value); } }); return result; } /** * The base implementation of `_.flatten` with support for restricting flattening. * * @private * @param {Array} array The array to flatten. * @param {boolean} [isDeep] Specify a deep flatten. * @param {boolean} [isStrict] Restrict flattening to arrays-like objects. * @param {Array} [result=[]] The initial result value. * @returns {Array} Returns the new flattened array. */ function baseFlatten(array, isDeep, isStrict, result) { result || (result = []); var index = -1, length = array.length; while (++index < length) { var value = array[index]; if (isArrayLikeObject(value) && (isStrict || isArray(value) || isArguments(value))) { if (isDeep) { // Recursively flatten arrays (susceptible to call stack limits). baseFlatten(value, isDeep, isStrict, result); } else { arrayPush(result, value); } } else if (!isStrict) { result[result.length] = value; } } return result; } /** * The base implementation of `baseForIn` and `baseForOwn` which iterates * over `object` properties returned by `keysFunc` invoking `iteratee` for * each property. Iteratee functions may exit iteration early by explicitly * returning `false`. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {Function} keysFunc The function to get the keys of `object`. * @returns {Object} Returns `object`. */ var baseFor = createBaseFor(); /** * This function is like `baseFor` except that it iterates over properties * in the opposite order. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {Function} keysFunc The function to get the keys of `object`. * @returns {Object} Returns `object`. */ var baseForRight = createBaseFor(true); /** * The base implementation of `_.forIn` without support for iteratee shorthands. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Object} Returns `object`. */ function baseForIn(object, iteratee) { return object == null ? object : baseFor(object, iteratee, keysIn); } /** * The base implementation of `_.forOwn` without support for iteratee shorthands. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Object} Returns `object`. */ function baseForOwn(object, iteratee) { return object && baseFor(object, iteratee, keys); } /** * The base implementation of `_.forOwnRight` without support for iteratee shorthands. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Object} Returns `object`. */ function baseForOwnRight(object, iteratee) { return object && baseForRight(object, iteratee, keys); } /** * The base implementation of `_.functions` which creates an array of * `object` function property names filtered from `props`. * * @private * @param {Object} object The object to inspect. * @param {Array} props The property names to filter. * @returns {Array} Returns the new array of filtered property names. */ function baseFunctions(object, props) { return arrayFilter(props, function(key) { return isFunction(object[key]); }); } /** * The base implementation of `_.get` without support for default values. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @returns {*} Returns the resolved value. */ function baseGet(object, path) { path = isKey(path, object) ? [path + ''] : baseToPath(path); var index = 0, length = path.length; while (object != null && index < length) { object = object[path[index++]]; } return (index && index == length) ? object : undefined; } /** * The base implementation of `_.has` without support for deep paths. * * @private * @param {Object} object The object to query. * @param {Array|string} key The key to check. * @returns {boolean} Returns `true` if `key` exists, else `false`. */ function baseHas(object, key) { // Avoid a bug in IE 10-11 where objects with a [[Prototype]] of `null`, // that are composed entirely of index properties, return `false` for // `hasOwnProperty` checks of them. return hasOwnProperty.call(object, key) || (typeof object == 'object' && key in object && getPrototypeOf(object) === null); } /** * The base implementation of `_.hasIn` without support for deep paths. * * @private * @param {Object} object The object to query. * @param {Array|string} key The key to check. * @returns {boolean} Returns `true` if `key` exists, else `false`. */ function baseHasIn(object, key) { return key in Object(object); } /** * The base implementation of `_.inRange` which doesn't coerce arguments to numbers. * * @private * @param {number} number The number to check. * @param {number} start The start of the range. * @param {number} end The end of the range. * @returns {boolean} Returns `true` if `number` is in the range, else `false`. */ function baseInRange(number, start, end) { return number >= nativeMin(start, end) && number < nativeMax(start, end); } /** * The base implementation of methods like `_.intersection`, without support * for iteratee shorthands, that accepts an array of arrays to inspect. * * @private * @param {Array} arrays The arrays to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of shared values. */ function baseIntersection(arrays, iteratee, comparator) { var includes = comparator ? arrayIncludesWith : arrayIncludes, othLength = arrays.length, othIndex = othLength, caches = Array(othLength), result = []; while (othIndex--) { var array = arrays[othIndex]; if (othIndex && iteratee) { array = arrayMap(array, baseUnary(iteratee)); } caches[othIndex] = !comparator && (iteratee || array.length >= 120) ? new SetCache(othIndex && array) : undefined; } array = arrays[0]; var index = -1, length = array.length, seen = caches[0]; outer: while (++index < length) { var value = array[index], computed = iteratee ? iteratee(value) : value; if (!(seen ? cacheHas(seen, computed) : includes(result, computed, comparator))) { var othIndex = othLength; while (--othIndex) { var cache = caches[othIndex]; if (!(cache ? cacheHas(cache, computed) : includes(arrays[othIndex], computed, comparator))) { continue outer; } } if (seen) { seen.push(computed); } result.push(value); } } return result; } /** * The base implementation of `_.invert` and `_.invertBy` which inverts * `object` with values transformed by `iteratee` and set by `setter`. * * @private * @param {Object} object The object to iterate over. * @param {Function} setter The function to set `accumulator` values. * @param {Function} iteratee The iteratee to transform values. * @param {Object} accumulator The initial inverted object. * @returns {Function} Returns `accumulator`. */ function baseInverter(object, setter, iteratee, accumulator) { baseForOwn(object, function(value, key, object) { setter(accumulator, iteratee(value), key, object); }); return accumulator; } /** * The base implementation of `_.invoke` without support for individual * method arguments. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path of the method to invoke. * @param {Array} args The arguments to invoke the method with. * @returns {*} Returns the result of the invoked method. */ function baseInvoke(object, path, args) { if (!isKey(path, object)) { path = baseToPath(path); object = parent(object, path); path = last(path); } var func = object == null ? object : object[path]; return func == null ? undefined : apply(func, object, args); } /** * The base implementation of `_.isEqual` which supports partial comparisons * and tracks traversed objects. * * @private * @param {*} value The value to compare. * @param {*} other The other value to compare. * @param {Function} [customizer] The function to customize comparisons. * @param {boolean} [bitmask] The bitmask of comparison flags. * The bitmask may be composed of the following flags: * 1 - Unordered comparison * 2 - Partial comparison * @param {Object} [stack] Tracks traversed `value` and `other` objects. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. */ function baseIsEqual(value, other, customizer, bitmask, stack) { if (value === other) { return true; } if (value == null || other == null || (!isObject(value) && !isObjectLike(other))) { return value !== value && other !== other; } return baseIsEqualDeep(value, other, baseIsEqual, customizer, bitmask, stack); } /** * A specialized version of `baseIsEqual` for arrays and objects which performs * deep comparisons and tracks traversed objects enabling objects with circular * references to be compared. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function baseIsEqualDeep(object, other, equalFunc, customizer, bitmask, stack) { var objIsArr = isArray(object), othIsArr = isArray(other), objTag = arrayTag, othTag = arrayTag; if (!objIsArr) { objTag = getTag(object); if (objTag == argsTag) { objTag = objectTag; } else if (objTag != objectTag) { objIsArr = isTypedArray(object); } } if (!othIsArr) { othTag = getTag(other); if (othTag == argsTag) { othTag = objectTag; } else if (othTag != objectTag) { othIsArr = isTypedArray(other); } } var objIsObj = objTag == objectTag && !isHostObject(object), othIsObj = othTag == objectTag && !isHostObject(other), isSameTag = objTag == othTag; if (isSameTag && !(objIsArr || objIsObj)) { return equalByTag(object, other, objTag, equalFunc, customizer, bitmask); } var isPartial = bitmask & PARTIAL_COMPARE_FLAG; if (!isPartial) { var objIsWrapped = objIsObj && hasOwnProperty.call(object, '__wrapped__'), othIsWrapped = othIsObj && hasOwnProperty.call(other, '__wrapped__'); if (objIsWrapped || othIsWrapped) { return equalFunc(objIsWrapped ? object.value() : object, othIsWrapped ? other.value() : other, customizer, bitmask, stack); } } if (!isSameTag) { return false; } stack || (stack = new Stack); return (objIsArr ? equalArrays : equalObjects)(object, other, equalFunc, customizer, bitmask, stack); } /** * The base implementation of `_.isMatch` without support for iteratee shorthands. * * @private * @param {Object} object The object to inspect. * @param {Object} source The object of property values to match. * @param {Array} matchData The property names, values, and compare flags to match. * @param {Function} [customizer] The function to customize comparisons. * @returns {boolean} Returns `true` if `object` is a match, else `false`. */ function baseIsMatch(object, source, matchData, customizer) { var index = matchData.length, length = index, noCustomizer = !customizer; if (object == null) { return !length; } object = Object(object); while (index--) { var data = matchData[index]; if ((noCustomizer && data[2]) ? data[1] !== object[data[0]] : !(data[0] in object) ) { return false; } } while (++index < length) { data = matchData[index]; var key = data[0], objValue = object[key], srcValue = data[1]; if (noCustomizer && data[2]) { if (objValue === undefined && !(key in object)) { return false; } } else { var stack = new Stack, result = customizer ? customizer(objValue, srcValue, key, object, source, stack) : undefined; if (!(result === undefined ? baseIsEqual(srcValue, objValue, customizer, UNORDERED_COMPARE_FLAG | PARTIAL_COMPARE_FLAG, stack) : result )) { return false; } } } return true; } /** * The base implementation of `_.iteratee`. * * @private * @param {*} [value=_.identity] The value to convert to an iteratee. * @returns {Function} Returns the iteratee. */ function baseIteratee(value) { var type = typeof value; if (type == 'function') { return value; } if (value == null) { return identity; } if (type == 'object') { return isArray(value) ? baseMatchesProperty(value[0], value[1]) : baseMatches(value); } return property(value); } /** * The base implementation of `_.keys` which doesn't skip the constructor * property of prototypes or treat sparse arrays as dense. * * @private * @type Function * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. */ function baseKeys(object) { return nativeKeys(Object(object)); } /** * The base implementation of `_.keysIn` which doesn't skip the constructor * property of prototypes or treat sparse arrays as dense. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. */ function baseKeysIn(object) { object = object == null ? object : Object(object); var result = []; for (var key in object) { result.push(key); } return result; } // Fallback for IE < 9 with es6-shim. if (enumerate && !propertyIsEnumerable.call({ 'valueOf': 1 }, 'valueOf')) { baseKeysIn = function(object) { return iteratorToArray(enumerate(object)); }; } /** * The base implementation of `_.map` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the new mapped array. */ function baseMap(collection, iteratee) { var index = -1, result = isArrayLike(collection) ? Array(collection.length) : []; baseEach(collection, function(value, key, collection) { result[++index] = iteratee(value, key, collection); }); return result; } /** * The base implementation of `_.matches` which doesn't clone `source`. * * @private * @param {Object} source The object of property values to match. * @returns {Function} Returns the new function. */ function baseMatches(source) { var matchData = getMatchData(source); if (matchData.length == 1 && matchData[0][2]) { var key = matchData[0][0], value = matchData[0][1]; return function(object) { if (object == null) { return false; } return object[key] === value && (value !== undefined || (key in Object(object))); }; } return function(object) { return object === source || baseIsMatch(object, source, matchData); }; } /** * The base implementation of `_.matchesProperty` which doesn't clone `srcValue`. * * @private * @param {string} path The path of the property to get. * @param {*} srcValue The value to match. * @returns {Function} Returns the new function. */ function baseMatchesProperty(path, srcValue) { return function(object) { var objValue = get(object, path); return (objValue === undefined && objValue === srcValue) ? hasIn(object, path) : baseIsEqual(srcValue, objValue, undefined, UNORDERED_COMPARE_FLAG | PARTIAL_COMPARE_FLAG); }; } /** * The base implementation of `_.merge` without support for multiple sources. * * @private * @param {Object} object The destination object. * @param {Object} source The source object. * @param {number} srcIndex The index of `source`. * @param {Function} [customizer] The function to customize merged values. * @param {Object} [stack] Tracks traversed source values and their merged counterparts. */ function baseMerge(object, source, srcIndex, customizer, stack) { if (object === source) { return; } var props = (isArray(source) || isTypedArray(source)) ? undefined : keysIn(source); arrayEach(props || source, function(srcValue, key) { if (props) { key = srcValue; srcValue = source[key]; } if (isObject(srcValue)) { stack || (stack = new Stack); baseMergeDeep(object, source, key, srcIndex, baseMerge, customizer, stack); } else { var newValue = customizer ? customizer(object[key], srcValue, (key + ''), object, source, stack) : undefined; if (newValue === undefined) { newValue = srcValue; } assignMergeValue(object, key, newValue); } }); } /** * A specialized version of `baseMerge` for arrays and objects which performs * deep merges and tracks traversed objects enabling objects with circular * references to be merged. * * @private * @param {Object} object The destination object. * @param {Object} source The source object. * @param {string} key The key of the value to merge. * @param {number} srcIndex The index of `source`. * @param {Function} mergeFunc The function to merge values. * @param {Function} [customizer] The function to customize assigned values. * @param {Object} [stack] Tracks traversed source values and their merged counterparts. */ function baseMergeDeep(object, source, key, srcIndex, mergeFunc, customizer, stack) { var objValue = object[key], srcValue = source[key], stacked = stack.get(srcValue); if (stacked) { assignMergeValue(object, key, stacked); return; } var newValue = customizer ? customizer(objValue, srcValue, (key + ''), object, source, stack) : undefined, isCommon = newValue === undefined; if (isCommon) { newValue = srcValue; if (isArray(srcValue) || isTypedArray(srcValue)) { if (isArray(objValue)) { newValue = srcIndex ? copyArray(objValue) : objValue; } else if (isArrayLikeObject(objValue)) { newValue = copyArray(objValue); } else { isCommon = false; newValue = baseClone(srcValue); } } else if (isPlainObject(srcValue) || isArguments(srcValue)) { if (isArguments(objValue)) { newValue = toPlainObject(objValue); } else if (!isObject(objValue) || (srcIndex && isFunction(objValue))) { isCommon = false; newValue = baseClone(srcValue); } else { newValue = srcIndex ? baseClone(objValue) : objValue; } } else { isCommon = false; } } stack.set(srcValue, newValue); if (isCommon) { // Recursively merge objects and arrays (susceptible to call stack limits). mergeFunc(newValue, srcValue, srcIndex, customizer, stack); } assignMergeValue(object, key, newValue); } /** * The base implementation of `_.orderBy` without param guards. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function[]|Object[]|string[]} iteratees The iteratees to sort by. * @param {string[]} orders The sort orders of `iteratees`. * @returns {Array} Returns the new sorted array. */ function baseOrderBy(collection, iteratees, orders) { var index = -1, toIteratee = getIteratee(); iteratees = arrayMap(iteratees.length ? iteratees : Array(1), function(iteratee) { return toIteratee(iteratee); }); var result = baseMap(collection, function(value, key, collection) { var criteria = arrayMap(iteratees, function(iteratee) { return iteratee(value); }); return { 'criteria': criteria, 'index': ++index, 'value': value }; }); return baseSortBy(result, function(object, other) { return compareMultiple(object, other, orders); }); } /** * The base implementation of `_.pick` without support for individual * property names. * * @private * @param {Object} object The source object. * @param {string[]} props The property names to pick. * @returns {Object} Returns the new object. */ function basePick(object, props) { object = Object(object); return arrayReduce(props, function(result, key) { if (key in object) { result[key] = object[key]; } return result; }, {}); } /** * The base implementation of `_.pickBy` without support for iteratee shorthands. * * @private * @param {Object} object The source object. * @param {Function} predicate The function invoked per property. * @returns {Object} Returns the new object. */ function basePickBy(object, predicate) { var result = {}; baseForIn(object, function(value, key) { if (predicate(value, key)) { result[key] = value; } }); return result; } /** * The base implementation of `_.property` without support for deep paths. * * @private * @param {string} key The key of the property to get. * @returns {Function} Returns the new function. */ function baseProperty(key) { return function(object) { return object == null ? undefined : object[key]; }; } /** * A specialized version of `baseProperty` which supports deep paths. * * @private * @param {Array|string} path The path of the property to get. * @returns {Function} Returns the new function. */ function basePropertyDeep(path) { return function(object) { return baseGet(object, path); }; } /** * The base implementation of `_.pullAll`. * * @private * @param {Array} array The array to modify. * @param {Array} values The values to remove. * @returns {Array} Returns `array`. */ function basePullAll(array, values) { return basePullAllBy(array, values); } /** * The base implementation of `_.pullAllBy` without support for iteratee * shorthands. * * @private * @param {Array} array The array to modify. * @param {Array} values The values to remove. * @param {Function} [iteratee] The iteratee invoked per element. * @returns {Array} Returns `array`. */ function basePullAllBy(array, values, iteratee) { var index = -1, length = values.length, seen = array; if (iteratee) { seen = arrayMap(array, function(value) { return iteratee(value); }); } while (++index < length) { var fromIndex = 0, value = values[index], computed = iteratee ? iteratee(value) : value; while ((fromIndex = baseIndexOf(seen, computed, fromIndex)) > -1) { if (seen !== array) { splice.call(seen, fromIndex, 1); } splice.call(array, fromIndex, 1); } } return array; } /** * The base implementation of `_.pullAt` without support for individual * indexes or capturing the removed elements. * * @private * @param {Array} array The array to modify. * @param {number[]} indexes The indexes of elements to remove. * @returns {Array} Returns `array`. */ function basePullAt(array, indexes) { var length = array ? indexes.length : 0, lastIndex = length - 1; while (length--) { var index = indexes[length]; if (lastIndex == length || index != previous) { var previous = index; if (isIndex(index)) { splice.call(array, index, 1); } else if (!isKey(index, array)) { var path = baseToPath(index), object = parent(array, path); if (object != null) { delete object[last(path)]; } } else { delete array[index]; } } } return array; } /** * The base implementation of `_.random` without support for returning * floating-point numbers. * * @private * @param {number} lower The lower bound. * @param {number} upper The upper bound. * @returns {number} Returns the random number. */ function baseRandom(lower, upper) { return lower + nativeFloor(nativeRandom() * (upper - lower + 1)); } /** * The base implementation of `_.range` and `_.rangeRight` which doesn't * coerce arguments to numbers. * * @private * @param {number} start The start of the range. * @param {number} end The end of the range. * @param {number} step The value to increment or decrement by. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Array} Returns the new array of numbers. */ function baseRange(start, end, step, fromRight) { var index = -1, length = nativeMax(nativeCeil((end - start) / (step || 1)), 0), result = Array(length); while (length--) { result[fromRight ? length : ++index] = start; start += step; } return result; } /** * The base implementation of `_.set`. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path of the property to set. * @param {*} value The value to set. * @param {Function} [customizer] The function to customize path creation. * @returns {Object} Returns `object`. */ function baseSet(object, path, value, customizer) { path = isKey(path, object) ? [path + ''] : baseToPath(path); var index = -1, length = path.length, lastIndex = length - 1, nested = object; while (nested != null && ++index < length) { var key = path[index]; if (isObject(nested)) { var newValue = value; if (index != lastIndex) { var objValue = nested[key]; newValue = customizer ? customizer(objValue, key, nested) : undefined; if (newValue === undefined) { newValue = objValue == null ? (isIndex(path[index + 1]) ? [] : {}) : objValue; } } assignValue(nested, key, newValue); } nested = nested[key]; } return object; } /** * The base implementation of `setData` without support for hot loop detection. * * @private * @param {Function} func The function to associate metadata with. * @param {*} data The metadata. * @returns {Function} Returns `func`. */ var baseSetData = !metaMap ? identity : function(func, data) { metaMap.set(func, data); return func; }; /** * The base implementation of `_.slice` without an iteratee call guard. * * @private * @param {Array} array The array to slice. * @param {number} [start=0] The start position. * @param {number} [end=array.length] The end position. * @returns {Array} Returns the slice of `array`. */ function baseSlice(array, start, end) { var index = -1, length = array.length; if (start < 0) { start = -start > length ? 0 : (length + start); } end = end > length ? length : end; if (end < 0) { end += length; } length = start > end ? 0 : ((end - start) >>> 0); start >>>= 0; var result = Array(length); while (++index < length) { result[index] = array[index + start]; } return result; } /** * The base implementation of `_.some` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if any element passes the predicate check, else `false`. */ function baseSome(collection, predicate) { var result; baseEach(collection, function(value, index, collection) { result = predicate(value, index, collection); return !result; }); return !!result; } /** * The base implementation of `_.sortedIndex` and `_.sortedLastIndex` which * performs a binary search of `array` to determine the index at which `value` * should be inserted into `array` in order to maintain its sort order. * * @private * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @param {boolean} [retHighest] Specify returning the highest qualified index. * @returns {number} Returns the index at which `value` should be inserted * into `array`. */ function baseSortedIndex(array, value, retHighest) { var low = 0, high = array ? array.length : low; if (typeof value == 'number' && value === value && high <= HALF_MAX_ARRAY_LENGTH) { while (low < high) { var mid = (low + high) >>> 1, computed = array[mid]; if ((retHighest ? (computed <= value) : (computed < value)) && computed !== null) { low = mid + 1; } else { high = mid; } } return high; } return baseSortedIndexBy(array, value, identity, retHighest); } /** * The base implementation of `_.sortedIndexBy` and `_.sortedLastIndexBy` * which invokes `iteratee` for `value` and each element of `array` to compute * their sort ranking. The iteratee is invoked with one argument; (value). * * @private * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @param {Function} iteratee The iteratee invoked per element. * @param {boolean} [retHighest] Specify returning the highest qualified index. * @returns {number} Returns the index at which `value` should be inserted into `array`. */ function baseSortedIndexBy(array, value, iteratee, retHighest) { value = iteratee(value); var low = 0, high = array ? array.length : 0, valIsNaN = value !== value, valIsNull = value === null, valIsUndef = value === undefined; while (low < high) { var mid = nativeFloor((low + high) / 2), computed = iteratee(array[mid]), isDef = computed !== undefined, isReflexive = computed === computed; if (valIsNaN) { var setLow = isReflexive || retHighest; } else if (valIsNull) { setLow = isReflexive && isDef && (retHighest || computed != null); } else if (valIsUndef) { setLow = isReflexive && (retHighest || isDef); } else if (computed == null) { setLow = false; } else { setLow = retHighest ? (computed <= value) : (computed < value); } if (setLow) { low = mid + 1; } else { high = mid; } } return nativeMin(high, MAX_ARRAY_INDEX); } /** * The base implementation of `_.sortedUniq`. * * @private * @param {Array} array The array to inspect. * @returns {Array} Returns the new duplicate free array. */ function baseSortedUniq(array) { return baseSortedUniqBy(array); } /** * The base implementation of `_.sortedUniqBy` without support for iteratee * shorthands. * * @private * @param {Array} array The array to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @returns {Array} Returns the new duplicate free array. */ function baseSortedUniqBy(array, iteratee) { var index = 0, length = array.length, value = array[0], computed = iteratee ? iteratee(value) : value, seen = computed, resIndex = 0, result = [value]; while (++index < length) { value = array[index], computed = iteratee ? iteratee(value) : value; if (!eq(computed, seen)) { seen = computed; result[++resIndex] = value; } } return result; } /** * The base implementation of `_.toPath` which only converts `value` to a * path if it's not one. * * @private * @param {*} value The value to process. * @returns {Array} Returns the property path array. */ function baseToPath(value) { return isArray(value) ? value : stringToPath(value); } /** * The base implementation of `_.uniqBy` without support for iteratee shorthands. * * @private * @param {Array} array The array to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new duplicate free array. */ function baseUniq(array, iteratee, comparator) { var index = -1, includes = arrayIncludes, length = array.length, isCommon = true, result = [], seen = result; if (comparator) { isCommon = false; includes = arrayIncludesWith; } else if (length >= LARGE_ARRAY_SIZE) { var set = iteratee ? null : createSet(array); if (set) { return setToArray(set); } isCommon = false; includes = cacheHas; seen = new SetCache; } else { seen = iteratee ? [] : result; } outer: while (++index < length) { var value = array[index], computed = iteratee ? iteratee(value) : value; if (isCommon && computed === computed) { var seenIndex = seen.length; while (seenIndex--) { if (seen[seenIndex] === computed) { continue outer; } } if (iteratee) { seen.push(computed); } result.push(value); } else if (!includes(seen, computed, comparator)) { if (seen !== result) { seen.push(computed); } result.push(value); } } return result; } /** * The base implementation of `_.unset`. * * @private * @param {Object} object The object to modify. * @param {Array|string} path The path of the property to unset. * @returns {boolean} Returns `true` if the property is deleted, else `false`. */ function baseUnset(object, path) { path = isKey(path, object) ? [path + ''] : baseToPath(path); object = parent(object, path); var key = last(path); return (object != null && has(object, key)) ? delete object[key] : true; } /** * The base implementation of methods like `_.dropWhile` and `_.takeWhile` * without support for iteratee shorthands. * * @private * @param {Array} array The array to query. * @param {Function} predicate The function invoked per iteration. * @param {boolean} [isDrop] Specify dropping elements instead of taking them. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Array} Returns the slice of `array`. */ function baseWhile(array, predicate, isDrop, fromRight) { var length = array.length, index = fromRight ? length : -1; while ((fromRight ? index-- : ++index < length) && predicate(array[index], index, array)) {} return isDrop ? baseSlice(array, (fromRight ? 0 : index), (fromRight ? index + 1 : length)) : baseSlice(array, (fromRight ? index + 1 : 0), (fromRight ? length : index)); } /** * The base implementation of `wrapperValue` which returns the result of * performing a sequence of actions on the unwrapped `value`, where each * successive action is supplied the return value of the previous. * * @private * @param {*} value The unwrapped value. * @param {Array} actions Actions to perform to resolve the unwrapped value. * @returns {*} Returns the resolved value. */ function baseWrapperValue(value, actions) { var result = value; if (result instanceof LazyWrapper) { result = result.value(); } return arrayReduce(actions, function(result, action) { return action.func.apply(action.thisArg, arrayPush([result], action.args)); }, result); } /** * The base implementation of methods like `_.xor`, without support for * iteratee shorthands, that accepts an array of arrays to inspect. * * @private * @param {Array} arrays The arrays to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of values. */ function baseXor(arrays, iteratee, comparator) { var index = -1, length = arrays.length; while (++index < length) { var result = result ? arrayPush( baseDifference(result, arrays[index], iteratee, comparator), baseDifference(arrays[index], result, iteratee, comparator) ) : arrays[index]; } return (result && result.length) ? baseUniq(result, iteratee, comparator) : []; } /** * This base implementation of `_.zipObject` which assigns values using `assignFunc`. * * @private * @param {Array} props The property names. * @param {Array} values The property values. * @param {Function} assignFunc The function to assign values. * @returns {Object} Returns the new object. */ function baseZipObject(props, values, assignFunc) { var index = -1, length = props.length, valsLength = values.length, result = {}; while (++index < length) { assignFunc(result, props[index], index < valsLength ? values[index] : undefined); } return result; } /** * Creates a clone of `buffer`. * * @private * @param {Buffer} buffer The buffer to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Buffer} Returns the cloned buffer. */ function cloneBuffer(buffer, isDeep) { if (isDeep) { return buffer.slice(); } var Ctor = buffer.constructor, result = new Ctor(buffer.length); buffer.copy(result); return result; } /** * Creates a clone of `arrayBuffer`. * * @private * @param {ArrayBuffer} arrayBuffer The array buffer to clone. * @returns {ArrayBuffer} Returns the cloned array buffer. */ function cloneArrayBuffer(arrayBuffer) { var Ctor = arrayBuffer.constructor, result = new Ctor(arrayBuffer.byteLength), view = new Uint8Array(result); view.set(new Uint8Array(arrayBuffer)); return result; } /** * Creates a clone of `map`. * * @private * @param {Object} map The map to clone. * @returns {Object} Returns the cloned map. */ function cloneMap(map) { var Ctor = map.constructor; return arrayReduce(mapToArray(map), addMapEntry, new Ctor); } /** * Creates a clone of `regexp`. * * @private * @param {Object} regexp The regexp to clone. * @returns {Object} Returns the cloned regexp. */ function cloneRegExp(regexp) { var Ctor = regexp.constructor, result = new Ctor(regexp.source, reFlags.exec(regexp)); result.lastIndex = regexp.lastIndex; return result; } /** * Creates a clone of `set`. * * @private * @param {Object} set The set to clone. * @returns {Object} Returns the cloned set. */ function cloneSet(set) { var Ctor = set.constructor; return arrayReduce(setToArray(set), addSetEntry, new Ctor); } /** * Creates a clone of the `symbol` object. * * @private * @param {Object} symbol The symbol object to clone. * @returns {Object} Returns the cloned symbol object. */ function cloneSymbol(symbol) { return Symbol ? Object(symbolValueOf.call(symbol)) : {}; } /** * Creates a clone of `typedArray`. * * @private * @param {Object} typedArray The typed array to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Object} Returns the cloned typed array. */ function cloneTypedArray(typedArray, isDeep) { var buffer = typedArray.buffer, Ctor = typedArray.constructor; return new Ctor(isDeep ? cloneArrayBuffer(buffer) : buffer, typedArray.byteOffset, typedArray.length); } /** * Creates an array that is the composition of partially applied arguments, * placeholders, and provided arguments into a single array of arguments. * * @private * @param {Array|Object} args The provided arguments. * @param {Array} partials The arguments to prepend to those provided. * @param {Array} holders The `partials` placeholder indexes. * @returns {Array} Returns the new array of composed arguments. */ function composeArgs(args, partials, holders) { var holdersLength = holders.length, argsIndex = -1, argsLength = nativeMax(args.length - holdersLength, 0), leftIndex = -1, leftLength = partials.length, result = Array(leftLength + argsLength); while (++leftIndex < leftLength) { result[leftIndex] = partials[leftIndex]; } while (++argsIndex < holdersLength) { result[holders[argsIndex]] = args[argsIndex]; } while (argsLength--) { result[leftIndex++] = args[argsIndex++]; } return result; } /** * This function is like `composeArgs` except that the arguments composition * is tailored for `_.partialRight`. * * @private * @param {Array|Object} args The provided arguments. * @param {Array} partials The arguments to append to those provided. * @param {Array} holders The `partials` placeholder indexes. * @returns {Array} Returns the new array of composed arguments. */ function composeArgsRight(args, partials, holders) { var holdersIndex = -1, holdersLength = holders.length, argsIndex = -1, argsLength = nativeMax(args.length - holdersLength, 0), rightIndex = -1, rightLength = partials.length, result = Array(argsLength + rightLength); while (++argsIndex < argsLength) { result[argsIndex] = args[argsIndex]; } var offset = argsIndex; while (++rightIndex < rightLength) { result[offset + rightIndex] = partials[rightIndex]; } while (++holdersIndex < holdersLength) { result[offset + holders[holdersIndex]] = args[argsIndex++]; } return result; } /** * Copies the values of `source` to `array`. * * @private * @param {Array} source The array to copy values from. * @param {Array} [array=[]] The array to copy values to. * @returns {Array} Returns `array`. */ function copyArray(source, array) { var index = -1, length = source.length; array || (array = Array(length)); while (++index < length) { array[index] = source[index]; } return array; } /** * Copies properties of `source` to `object`. * * @private * @param {Object} source The object to copy properties from. * @param {Array} props The property names to copy. * @param {Object} [object={}] The object to copy properties to. * @returns {Object} Returns `object`. */ function copyObject(source, props, object) { return copyObjectWith(source, props, object); } /** * This function is like `copyObject` except that it accepts a function to * customize copied values. * * @private * @param {Object} source The object to copy properties from. * @param {Array} props The property names to copy. * @param {Object} [object={}] The object to copy properties to. * @param {Function} [customizer] The function to customize copied values. * @returns {Object} Returns `object`. */ function copyObjectWith(source, props, object, customizer) { object || (object = {}); var index = -1, length = props.length; while (++index < length) { var key = props[index], newValue = customizer ? customizer(object[key], source[key], key, object, source) : source[key]; assignValue(object, key, newValue); } return object; } /** * Copies own symbol properties of `source` to `object`. * * @private * @param {Object} source The object to copy symbols from. * @param {Object} [object={}] The object to copy symbols to. * @returns {Object} Returns `object`. */ function copySymbols(source, object) { return copyObject(source, getSymbols(source), object); } /** * Creates a function like `_.groupBy`. * * @private * @param {Function} setter The function to set accumulator values. * @param {Function} [initializer] The accumulator object initializer. * @returns {Function} Returns the new aggregator function. */ function createAggregator(setter, initializer) { return function(collection, iteratee) { var func = isArray(collection) ? arrayAggregator : baseAggregator, accumulator = initializer ? initializer() : {}; return func(collection, setter, getIteratee(iteratee), accumulator); }; } /** * Creates a function like `_.assign`. * * @private * @param {Function} assigner The function to assign values. * @returns {Function} Returns the new assigner function. */ function createAssigner(assigner) { return rest(function(object, sources) { var index = -1, length = sources.length, customizer = length > 1 ? sources[length - 1] : undefined, guard = length > 2 ? sources[2] : undefined; customizer = typeof customizer == 'function' ? (length--, customizer) : undefined; if (guard && isIterateeCall(sources[0], sources[1], guard)) { customizer = length < 3 ? undefined : customizer; length = 1; } object = Object(object); while (++index < length) { var source = sources[index]; if (source) { assigner(object, source, index, customizer); } } return object; }); } /** * Creates a `baseEach` or `baseEachRight` function. * * @private * @param {Function} eachFunc The function to iterate over a collection. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new base function. */ function createBaseEach(eachFunc, fromRight) { return function(collection, iteratee) { if (collection == null) { return collection; } if (!isArrayLike(collection)) { return eachFunc(collection, iteratee); } var length = collection.length, index = fromRight ? length : -1, iterable = Object(collection); while ((fromRight ? index-- : ++index < length)) { if (iteratee(iterable[index], index, iterable) === false) { break; } } return collection; }; } /** * Creates a base function for methods like `_.forIn`. * * @private * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new base function. */ function createBaseFor(fromRight) { return function(object, iteratee, keysFunc) { var index = -1, iterable = Object(object), props = keysFunc(object), length = props.length; while (length--) { var key = props[fromRight ? length : ++index]; if (iteratee(iterable[key], key, iterable) === false) { break; } } return object; }; } /** * Creates a function that wraps `func` to invoke it with the optional `this` * binding of `thisArg`. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} [thisArg] The `this` binding of `func`. * @returns {Function} Returns the new wrapped function. */ function createBaseWrapper(func, bitmask, thisArg) { var isBind = bitmask & BIND_FLAG, Ctor = createCtorWrapper(func); function wrapper() { var fn = (this && this !== root && this instanceof wrapper) ? Ctor : func; return fn.apply(isBind ? thisArg : this, arguments); } return wrapper; } /** * Creates a function like `_.lowerFirst`. * * @private * @param {string} methodName The name of the `String` case method to use. * @returns {Function} Returns the new function. */ function createCaseFirst(methodName) { return function(string) { string = toString(string); var strSymbols = reHasComplexSymbol.test(string) ? stringToArray(string) : undefined, chr = strSymbols ? strSymbols[0] : string.charAt(0), trailing = strSymbols ? strSymbols.slice(1).join('') : string.slice(1); return chr[methodName]() + trailing; }; } /** * Creates a function like `_.camelCase`. * * @private * @param {Function} callback The function to combine each word. * @returns {Function} Returns the new compounder function. */ function createCompounder(callback) { return function(string) { return arrayReduce(words(deburr(string)), callback, ''); }; } /** * Creates a function that produces an instance of `Ctor` regardless of * whether it was invoked as part of a `new` expression or by `call` or `apply`. * * @private * @param {Function} Ctor The constructor to wrap. * @returns {Function} Returns the new wrapped function. */ function createCtorWrapper(Ctor) { return function() { // Use a `switch` statement to work with class constructors. // See http://ecma-international.org/ecma-262/6.0/#sec-ecmascript-function-objects-call-thisargument-argumentslist // for more details. var args = arguments; switch (args.length) { case 0: return new Ctor; case 1: return new Ctor(args[0]); case 2: return new Ctor(args[0], args[1]); case 3: return new Ctor(args[0], args[1], args[2]); case 4: return new Ctor(args[0], args[1], args[2], args[3]); case 5: return new Ctor(args[0], args[1], args[2], args[3], args[4]); case 6: return new Ctor(args[0], args[1], args[2], args[3], args[4], args[5]); case 7: return new Ctor(args[0], args[1], args[2], args[3], args[4], args[5], args[6]); } var thisBinding = baseCreate(Ctor.prototype), result = Ctor.apply(thisBinding, args); // Mimic the constructor's `return` behavior. // See https://es5.github.io/#x13.2.2 for more details. return isObject(result) ? result : thisBinding; }; } /** * Creates a function that wraps `func` to enable currying. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {number} arity The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createCurryWrapper(func, bitmask, arity) { var Ctor = createCtorWrapper(func); function wrapper() { var length = arguments.length, index = length, args = Array(length), fn = (this && this !== root && this instanceof wrapper) ? Ctor : func, placeholder = lodash.placeholder || wrapper.placeholder; while (index--) { args[index] = arguments[index]; } var holders = (length < 3 && args[0] !== placeholder && args[length - 1] !== placeholder) ? [] : replaceHolders(args, placeholder); length -= holders.length; return length < arity ? createRecurryWrapper(func, bitmask, createHybridWrapper, placeholder, undefined, args, holders, undefined, undefined, arity - length) : apply(fn, this, args); } return wrapper; } /** * Creates a `_.flow` or `_.flowRight` function. * * @private * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new flow function. */ function createFlow(fromRight) { return rest(function(funcs) { funcs = baseFlatten(funcs); var length = funcs.length, index = length, prereq = LodashWrapper.prototype.thru; if (fromRight) { funcs.reverse(); } while (index--) { var func = funcs[index]; if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } if (prereq && !wrapper && getFuncName(func) == 'wrapper') { var wrapper = new LodashWrapper([], true); } } index = wrapper ? index : length; while (++index < length) { func = funcs[index]; var funcName = getFuncName(func), data = funcName == 'wrapper' ? getData(func) : undefined; if (data && isLaziable(data[0]) && data[1] == (ARY_FLAG | CURRY_FLAG | PARTIAL_FLAG | REARG_FLAG) && !data[4].length && data[9] == 1) { wrapper = wrapper[getFuncName(data[0])].apply(wrapper, data[3]); } else { wrapper = (func.length == 1 && isLaziable(func)) ? wrapper[funcName]() : wrapper.thru(func); } } return function() { var args = arguments, value = args[0]; if (wrapper && args.length == 1 && isArray(value) && value.length >= LARGE_ARRAY_SIZE) { return wrapper.plant(value).value(); } var index = 0, result = length ? funcs[index].apply(this, args) : value; while (++index < length) { result = funcs[index].call(this, result); } return result; }; }); } /** * Creates a function that wraps `func` to invoke it with optional `this` * binding of `thisArg`, partial application, and currying. * * @private * @param {Function|string} func The function or method name to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to prepend to those provided to the new function. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [partialsRight] The arguments to append to those provided to the new function. * @param {Array} [holdersRight] The `partialsRight` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createHybridWrapper(func, bitmask, thisArg, partials, holders, partialsRight, holdersRight, argPos, ary, arity) { var isAry = bitmask & ARY_FLAG, isBind = bitmask & BIND_FLAG, isBindKey = bitmask & BIND_KEY_FLAG, isCurry = bitmask & CURRY_FLAG, isCurryRight = bitmask & CURRY_RIGHT_FLAG, isFlip = bitmask & FLIP_FLAG, Ctor = isBindKey ? undefined : createCtorWrapper(func); function wrapper() { var length = arguments.length, index = length, args = Array(length); while (index--) { args[index] = arguments[index]; } if (partials) { args = composeArgs(args, partials, holders); } if (partialsRight) { args = composeArgsRight(args, partialsRight, holdersRight); } if (isCurry || isCurryRight) { var placeholder = lodash.placeholder || wrapper.placeholder, argsHolders = replaceHolders(args, placeholder); length -= argsHolders.length; if (length < arity) { return createRecurryWrapper(func, bitmask, createHybridWrapper, placeholder, thisArg, args, argsHolders, argPos, ary, arity - length); } } var thisBinding = isBind ? thisArg : this, fn = isBindKey ? thisBinding[func] : func; if (argPos) { args = reorder(args, argPos); } else if (isFlip && args.length > 1) { args.reverse(); } if (isAry && ary < args.length) { args.length = ary; } if (this && this !== root && this instanceof wrapper) { fn = Ctor || createCtorWrapper(fn); } return fn.apply(thisBinding, args); } return wrapper; } /** * Creates a function like `_.invertBy`. * * @private * @param {Function} setter The function to set accumulator values. * @param {Function} toIteratee The function to resolve iteratees. * @returns {Function} Returns the new inverter function. */ function createInverter(setter, toIteratee) { return function(object, iteratee) { return baseInverter(object, setter, toIteratee(iteratee), {}); }; } /** * Creates a function like `_.over`. * * @private * @param {Function} arrayFunc The function to iterate over iteratees. * @returns {Function} Returns the new invoker function. */ function createOver(arrayFunc) { return rest(function(iteratees) { iteratees = arrayMap(baseFlatten(iteratees), getIteratee()); return rest(function(args) { var thisArg = this; return arrayFunc(iteratees, function(iteratee) { return apply(iteratee, thisArg, args); }); }); }); } /** * Creates the padding for `string` based on `length`. The `chars` string * is truncated if the number of characters exceeds `length`. * * @private * @param {string} string The string to create padding for. * @param {number} [length=0] The padding length. * @param {string} [chars=' '] The string used as padding. * @returns {string} Returns the padding for `string`. */ function createPadding(string, length, chars) { length = toInteger(length); var strLength = stringSize(string); if (!length || strLength >= length) { return ''; } var padLength = length - strLength; chars = chars === undefined ? ' ' : (chars + ''); var result = repeat(chars, nativeCeil(padLength / stringSize(chars))); return reHasComplexSymbol.test(chars) ? stringToArray(result).slice(0, padLength).join('') : result.slice(0, padLength); } /** * Creates a function that wraps `func` to invoke it with the optional `this` * binding of `thisArg` and the `partials` prepended to those provided to * the wrapper. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {*} thisArg The `this` binding of `func`. * @param {Array} partials The arguments to prepend to those provided to the new function. * @returns {Function} Returns the new wrapped function. */ function createPartialWrapper(func, bitmask, thisArg, partials) { var isBind = bitmask & BIND_FLAG, Ctor = createCtorWrapper(func); function wrapper() { var argsIndex = -1, argsLength = arguments.length, leftIndex = -1, leftLength = partials.length, args = Array(leftLength + argsLength), fn = (this && this !== root && this instanceof wrapper) ? Ctor : func; while (++leftIndex < leftLength) { args[leftIndex] = partials[leftIndex]; } while (argsLength--) { args[leftIndex++] = arguments[++argsIndex]; } return apply(fn, isBind ? thisArg : this, args); } return wrapper; } /** * Creates a `_.range` or `_.rangeRight` function. * * @private * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new range function. */ function createRange(fromRight) { return function(start, end, step) { if (step && typeof step != 'number' && isIterateeCall(start, end, step)) { end = step = undefined; } // Ensure the sign of `-0` is preserved. start = toNumber(start); start = start === start ? start : 0; if (end === undefined) { end = start; start = 0; } else { end = toNumber(end) || 0; } step = step === undefined ? (start < end ? 1 : -1) : (toNumber(step) || 0); return baseRange(start, end, step, fromRight); }; } /** * Creates a function that wraps `func` to continue currying. * * @private * @param {Function} func The function to wrap. * @param {number} bitmask The bitmask of wrapper flags. See `createWrapper` for more details. * @param {Function} wrapFunc The function to create the `func` wrapper. * @param {*} placeholder The placeholder to replace. * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to prepend to those provided to the new function. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createRecurryWrapper(func, bitmask, wrapFunc, placeholder, thisArg, partials, holders, argPos, ary, arity) { var isCurry = bitmask & CURRY_FLAG, newArgPos = argPos ? copyArray(argPos) : undefined, newsHolders = isCurry ? holders : undefined, newHoldersRight = isCurry ? undefined : holders, newPartials = isCurry ? partials : undefined, newPartialsRight = isCurry ? undefined : partials; bitmask |= (isCurry ? PARTIAL_FLAG : PARTIAL_RIGHT_FLAG); bitmask &= ~(isCurry ? PARTIAL_RIGHT_FLAG : PARTIAL_FLAG); if (!(bitmask & CURRY_BOUND_FLAG)) { bitmask &= ~(BIND_FLAG | BIND_KEY_FLAG); } var newData = [func, bitmask, thisArg, newPartials, newsHolders, newPartialsRight, newHoldersRight, newArgPos, ary, arity], result = wrapFunc.apply(undefined, newData); if (isLaziable(func)) { setData(result, newData); } result.placeholder = placeholder; return result; } /** * Creates a function like `_.round`. * * @private * @param {string} methodName The name of the `Math` method to use when rounding. * @returns {Function} Returns the new round function. */ function createRound(methodName) { var func = Math[methodName]; return function(number, precision) { number = toNumber(number); precision = toInteger(precision); if (precision) { // Shift with exponential notation to avoid floating-point issues. // See [MDN](https://mdn.io/round#Examples) for more details. var pair = (toString(number) + 'e').split('e'), value = func(pair[0] + 'e' + (+pair[1] + precision)); pair = (toString(value) + 'e').split('e'); return +(pair[0] + 'e' + (+pair[1] - precision)); } return func(number); }; } /** * Creates a set of `values`. * * @private * @param {Array} values The values to add to the set. * @returns {Object} Returns the new set. */ var createSet = !(Set && new Set([1, 2]).size === 2) ? noop : function(values) { return new Set(values); }; /** * Creates a function that either curries or invokes `func` with optional * `this` binding and partially applied arguments. * * @private * @param {Function|string} func The function or method name to wrap. * @param {number} bitmask The bitmask of wrapper flags. * The bitmask may be composed of the following flags: * 1 - `_.bind` * 2 - `_.bindKey` * 4 - `_.curry` or `_.curryRight` of a bound function * 8 - `_.curry` * 16 - `_.curryRight` * 32 - `_.partial` * 64 - `_.partialRight` * 128 - `_.rearg` * 256 - `_.ary` * @param {*} [thisArg] The `this` binding of `func`. * @param {Array} [partials] The arguments to be partially applied. * @param {Array} [holders] The `partials` placeholder indexes. * @param {Array} [argPos] The argument positions of the new function. * @param {number} [ary] The arity cap of `func`. * @param {number} [arity] The arity of `func`. * @returns {Function} Returns the new wrapped function. */ function createWrapper(func, bitmask, thisArg, partials, holders, argPos, ary, arity) { var isBindKey = bitmask & BIND_KEY_FLAG; if (!isBindKey && typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } var length = partials ? partials.length : 0; if (!length) { bitmask &= ~(PARTIAL_FLAG | PARTIAL_RIGHT_FLAG); partials = holders = undefined; } ary = ary === undefined ? ary : nativeMax(toInteger(ary), 0); arity = arity === undefined ? arity : toInteger(arity); length -= holders ? holders.length : 0; if (bitmask & PARTIAL_RIGHT_FLAG) { var partialsRight = partials, holdersRight = holders; partials = holders = undefined; } var data = isBindKey ? undefined : getData(func), newData = [func, bitmask, thisArg, partials, holders, partialsRight, holdersRight, argPos, ary, arity]; if (data) { mergeData(newData, data); } func = newData[0]; bitmask = newData[1]; thisArg = newData[2]; partials = newData[3]; holders = newData[4]; arity = newData[9] = newData[9] == null ? (isBindKey ? 0 : func.length) : nativeMax(newData[9] - length, 0); if (!arity && bitmask & (CURRY_FLAG | CURRY_RIGHT_FLAG)) { bitmask &= ~(CURRY_FLAG | CURRY_RIGHT_FLAG); } if (!bitmask || bitmask == BIND_FLAG) { var result = createBaseWrapper(func, bitmask, thisArg); } else if (bitmask == CURRY_FLAG || bitmask == CURRY_RIGHT_FLAG) { result = createCurryWrapper(func, bitmask, arity); } else if ((bitmask == PARTIAL_FLAG || bitmask == (BIND_FLAG | PARTIAL_FLAG)) && !holders.length) { result = createPartialWrapper(func, bitmask, thisArg, partials); } else { result = createHybridWrapper.apply(undefined, newData); } var setter = data ? baseSetData : setData; return setter(result, newData); } /** * A specialized version of `baseIsEqualDeep` for arrays with support for * partial deep comparisons. * * @private * @param {Array} array The array to compare. * @param {Array} other The other array to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `array` and `other` objects. * @returns {boolean} Returns `true` if the arrays are equivalent, else `false`. */ function equalArrays(array, other, equalFunc, customizer, bitmask, stack) { var index = -1, isPartial = bitmask & PARTIAL_COMPARE_FLAG, isUnordered = bitmask & UNORDERED_COMPARE_FLAG, arrLength = array.length, othLength = other.length; if (arrLength != othLength && !(isPartial && othLength > arrLength)) { return false; } // Assume cyclic values are equal. var stacked = stack.get(array); if (stacked) { return stacked == other; } var result = true; stack.set(array, other); // Ignore non-index properties. while (++index < arrLength) { var arrValue = array[index], othValue = other[index]; if (customizer) { var compared = isPartial ? customizer(othValue, arrValue, index, other, array, stack) : customizer(arrValue, othValue, index, array, other, stack); } if (compared !== undefined) { if (compared) { continue; } result = false; break; } // Recursively compare arrays (susceptible to call stack limits). if (isUnordered) { if (!arraySome(other, function(othValue) { return arrValue === othValue || equalFunc(arrValue, othValue, customizer, bitmask, stack); })) { result = false; break; } } else if (!(arrValue === othValue || equalFunc(arrValue, othValue, customizer, bitmask, stack))) { result = false; break; } } stack['delete'](array); return result; } /** * A specialized version of `baseIsEqualDeep` for comparing objects of * the same `toStringTag`. * * **Note:** This function only supports comparing values with tags of * `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {string} tag The `toStringTag` of the objects to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalByTag(object, other, tag, equalFunc, customizer, bitmask) { switch (tag) { case arrayBufferTag: if ((object.byteLength != other.byteLength) || !equalFunc(new Uint8Array(object), new Uint8Array(other))) { return false; } return true; case boolTag: case dateTag: // Coerce dates and booleans to numbers, dates to milliseconds and booleans // to `1` or `0` treating invalid dates coerced to `NaN` as not equal. return +object == +other; case errorTag: return object.name == other.name && object.message == other.message; case numberTag: // Treat `NaN` vs. `NaN` as equal. return (object != +object) ? other != +other : object == +other; case regexpTag: case stringTag: // Coerce regexes to strings and treat strings primitives and string // objects as equal. See https://es5.github.io/#x15.10.6.4 for more details. return object == (other + ''); case mapTag: var convert = mapToArray; case setTag: var isPartial = bitmask & PARTIAL_COMPARE_FLAG; convert || (convert = setToArray); // Recursively compare objects (susceptible to call stack limits). return (isPartial || object.size == other.size) && equalFunc(convert(object), convert(other), customizer, bitmask | UNORDERED_COMPARE_FLAG); case symbolTag: return !!Symbol && (symbolValueOf.call(object) == symbolValueOf.call(other)); } return false; } /** * A specialized version of `baseIsEqualDeep` for objects with support for * partial deep comparisons. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Function} [customizer] The function to customize comparisons. * @param {number} [bitmask] The bitmask of comparison flags. See `baseIsEqual` for more details. * @param {Object} [stack] Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalObjects(object, other, equalFunc, customizer, bitmask, stack) { var isPartial = bitmask & PARTIAL_COMPARE_FLAG, objProps = keys(object), objLength = objProps.length, othProps = keys(other), othLength = othProps.length; if (objLength != othLength && !isPartial) { return false; } var index = objLength; while (index--) { var key = objProps[index]; if (!(isPartial ? key in other : baseHas(other, key))) { return false; } } // Assume cyclic values are equal. var stacked = stack.get(object); if (stacked) { return stacked == other; } var result = true; stack.set(object, other); var skipCtor = isPartial; while (++index < objLength) { key = objProps[index]; var objValue = object[key], othValue = other[key]; if (customizer) { var compared = isPartial ? customizer(othValue, objValue, key, other, object, stack) : customizer(objValue, othValue, key, object, other, stack); } // Recursively compare objects (susceptible to call stack limits). if (!(compared === undefined ? (objValue === othValue || equalFunc(objValue, othValue, customizer, bitmask, stack)) : compared )) { result = false; break; } skipCtor || (skipCtor = key == 'constructor'); } if (result && !skipCtor) { var objCtor = object.constructor, othCtor = other.constructor; // Non `Object` object instances with different constructors are not equal. if (objCtor != othCtor && ('constructor' in object && 'constructor' in other) && !(typeof objCtor == 'function' && objCtor instanceof objCtor && typeof othCtor == 'function' && othCtor instanceof othCtor)) { result = false; } } stack['delete'](object); return result; } /** * Gets metadata for `func`. * * @private * @param {Function} func The function to query. * @returns {*} Returns the metadata for `func`. */ var getData = !metaMap ? noop : function(func) { return metaMap.get(func); }; /** * Gets the name of `func`. * * @private * @param {Function} func The function to query. * @returns {string} Returns the function name. */ function getFuncName(func) { var result = (func.name + ''), array = realNames[result], length = hasOwnProperty.call(realNames, result) ? array.length : 0; while (length--) { var data = array[length], otherFunc = data.func; if (otherFunc == null || otherFunc == func) { return data.name; } } return result; } /** * Gets the appropriate "iteratee" function. If the `_.iteratee` method is * customized this function returns the custom method, otherwise it returns * `baseIteratee`. If arguments are provided the chosen function is invoked * with them and its result is returned. * * @private * @param {*} [value] The value to convert to an iteratee. * @param {number} [arity] The arity of the created iteratee. * @returns {Function} Returns the chosen function or its result. */ function getIteratee() { var result = lodash.iteratee || iteratee; result = result === iteratee ? baseIteratee : result; return arguments.length ? result(arguments[0], arguments[1]) : result; } /** * Gets the "length" property value of `object`. * * **Note:** This function is used to avoid a [JIT bug](https://bugs.webkit.org/show_bug.cgi?id=142792) * that affects Safari on at least iOS 8.1-8.3 ARM64. * * @private * @param {Object} object The object to query. * @returns {*} Returns the "length" value. */ var getLength = baseProperty('length'); /** * Gets the property names, values, and compare flags of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the match data of `object`. */ function getMatchData(object) { var result = toPairs(object), length = result.length; while (length--) { result[length][2] = isStrictComparable(result[length][1]); } return result; } /** * Gets the native function at `key` of `object`. * * @private * @param {Object} object The object to query. * @param {string} key The key of the method to get. * @returns {*} Returns the function if it's native, else `undefined`. */ function getNative(object, key) { var value = object == null ? undefined : object[key]; return isNative(value) ? value : undefined; } /** * Creates an array of the own symbol properties of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of symbols. */ var getSymbols = getOwnPropertySymbols || function() { return []; }; /** * Gets the `toStringTag` of `value`. * * @private * @param {*} value The value to query. * @returns {string} Returns the `toStringTag`. */ function getTag(value) { return objectToString.call(value); } // Fallback for IE 11 providing `toStringTag` values for maps, sets, and weakmaps. if ((Map && getTag(new Map) != mapTag) || (Set && getTag(new Set) != setTag) || (WeakMap && getTag(new WeakMap) != weakMapTag)) { getTag = function(value) { var result = objectToString.call(value), Ctor = result == objectTag ? value.constructor : null, ctorString = typeof Ctor == 'function' ? funcToString.call(Ctor) : ''; if (ctorString) { switch (ctorString) { case mapCtorString: return mapTag; case setCtorString: return setTag; case weakMapCtorString: return weakMapTag; } } return result; }; } /** * Gets the view, applying any `transforms` to the `start` and `end` positions. * * @private * @param {number} start The start of the view. * @param {number} end The end of the view. * @param {Array} transforms The transformations to apply to the view. * @returns {Object} Returns an object containing the `start` and `end` * positions of the view. */ function getView(start, end, transforms) { var index = -1, length = transforms.length; while (++index < length) { var data = transforms[index], size = data.size; switch (data.type) { case 'drop': start += size; break; case 'dropRight': end -= size; break; case 'take': end = nativeMin(end, start + size); break; case 'takeRight': start = nativeMax(start, end - size); break; } } return { 'start': start, 'end': end }; } /** * Checks if `path` exists on `object`. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @param {Function} hasFunc The function to check properties. * @returns {boolean} Returns `true` if `path` exists, else `false`. */ function hasPath(object, path, hasFunc) { if (object == null) { return false; } var result = hasFunc(object, path); if (!result && !isKey(path)) { path = baseToPath(path); object = parent(object, path); if (object != null) { path = last(path); result = hasFunc(object, path); } } var length = object ? object.length : undefined; return result || ( !!length && isLength(length) && isIndex(path, length) && (isArray(object) || isString(object) || isArguments(object)) ); } /** * Initializes an array clone. * * @private * @param {Array} array The array to clone. * @returns {Array} Returns the initialized clone. */ function initCloneArray(array) { var length = array.length, result = array.constructor(length); // Add properties assigned by `RegExp#exec`. if (length && typeof array[0] == 'string' && hasOwnProperty.call(array, 'index')) { result.index = array.index; result.input = array.input; } return result; } /** * Initializes an object clone. * * @private * @param {Object} object The object to clone. * @returns {Object} Returns the initialized clone. */ function initCloneObject(object) { if (isPrototype(object)) { return {}; } var Ctor = object.constructor; return baseCreate(isFunction(Ctor) ? Ctor.prototype : undefined); } /** * Initializes an object clone based on its `toStringTag`. * * **Note:** This function only supports cloning values with tags of * `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`. * * @private * @param {Object} object The object to clone. * @param {string} tag The `toStringTag` of the object to clone. * @param {boolean} [isDeep] Specify a deep clone. * @returns {Object} Returns the initialized clone. */ function initCloneByTag(object, tag, isDeep) { var Ctor = object.constructor; switch (tag) { case arrayBufferTag: return cloneArrayBuffer(object); case boolTag: case dateTag: return new Ctor(+object); case float32Tag: case float64Tag: case int8Tag: case int16Tag: case int32Tag: case uint8Tag: case uint8ClampedTag: case uint16Tag: case uint32Tag: return cloneTypedArray(object, isDeep); case mapTag: return cloneMap(object); case numberTag: case stringTag: return new Ctor(object); case regexpTag: return cloneRegExp(object); case setTag: return cloneSet(object); case symbolTag: return cloneSymbol(object); } } /** * Creates an array of index keys for `object` values of arrays, * `arguments` objects, and strings, otherwise `null` is returned. * * @private * @param {Object} object The object to query. * @returns {Array|null} Returns index keys, else `null`. */ function indexKeys(object) { var length = object ? object.length : undefined; if (isLength(length) && (isArray(object) || isString(object) || isArguments(object))) { return baseTimes(length, String); } return null; } /** * Checks if the given arguments are from an iteratee call. * * @private * @param {*} value The potential iteratee value argument. * @param {*} index The potential iteratee index or key argument. * @param {*} object The potential iteratee object argument. * @returns {boolean} Returns `true` if the arguments are from an iteratee call, else `false`. */ function isIterateeCall(value, index, object) { if (!isObject(object)) { return false; } var type = typeof index; if (type == 'number' ? (isArrayLike(object) && isIndex(index, object.length)) : (type == 'string' && index in object)) { return eq(object[index], value); } return false; } /** * Checks if `value` is a property name and not a property path. * * @private * @param {*} value The value to check. * @param {Object} [object] The object to query keys on. * @returns {boolean} Returns `true` if `value` is a property name, else `false`. */ function isKey(value, object) { if (typeof value == 'number') { return true; } return !isArray(value) && (reIsPlainProp.test(value) || !reIsDeepProp.test(value) || (object != null && value in Object(object))); } /** * Checks if `value` is suitable for use as unique object key. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is suitable, else `false`. */ function isKeyable(value) { var type = typeof value; return type == 'number' || type == 'boolean' || (type == 'string' && value !== '__proto__') || value == null; } /** * Checks if `func` has a lazy counterpart. * * @private * @param {Function} func The function to check. * @returns {boolean} Returns `true` if `func` has a lazy counterpart, else `false`. */ function isLaziable(func) { var funcName = getFuncName(func), other = lodash[funcName]; if (typeof other != 'function' || !(funcName in LazyWrapper.prototype)) { return false; } if (func === other) { return true; } var data = getData(other); return !!data && func === data[0]; } /** * Checks if `value` is likely a prototype object. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a prototype, else `false`. */ function isPrototype(value) { var Ctor = value && value.constructor, proto = (typeof Ctor == 'function' && Ctor.prototype) || objectProto; return value === proto; } /** * Checks if `value` is suitable for strict equality comparisons, i.e. `===`. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` if suitable for strict * equality comparisons, else `false`. */ function isStrictComparable(value) { return value === value && !isObject(value); } /** * Merges the function metadata of `source` into `data`. * * Merging metadata reduces the number of wrappers used to invoke a function. * This is possible because methods like `_.bind`, `_.curry`, and `_.partial` * may be applied regardless of execution order. Methods like `_.ary` and `_.rearg` * modify function arguments, making the order in which they are executed important, * preventing the merging of metadata. However, we make an exception for a safe * combined case where curried functions have `_.ary` and or `_.rearg` applied. * * @private * @param {Array} data The destination metadata. * @param {Array} source The source metadata. * @returns {Array} Returns `data`. */ function mergeData(data, source) { var bitmask = data[1], srcBitmask = source[1], newBitmask = bitmask | srcBitmask, isCommon = newBitmask < (BIND_FLAG | BIND_KEY_FLAG | ARY_FLAG); var isCombo = (srcBitmask == ARY_FLAG && (bitmask == CURRY_FLAG)) || (srcBitmask == ARY_FLAG && (bitmask == REARG_FLAG) && (data[7].length <= source[8])) || (srcBitmask == (ARY_FLAG | REARG_FLAG) && (source[7].length <= source[8]) && (bitmask == CURRY_FLAG)); // Exit early if metadata can't be merged. if (!(isCommon || isCombo)) { return data; } // Use source `thisArg` if available. if (srcBitmask & BIND_FLAG) { data[2] = source[2]; // Set when currying a bound function. newBitmask |= (bitmask & BIND_FLAG) ? 0 : CURRY_BOUND_FLAG; } // Compose partial arguments. var value = source[3]; if (value) { var partials = data[3]; data[3] = partials ? composeArgs(partials, value, source[4]) : copyArray(value); data[4] = partials ? replaceHolders(data[3], PLACEHOLDER) : copyArray(source[4]); } // Compose partial right arguments. value = source[5]; if (value) { partials = data[5]; data[5] = partials ? composeArgsRight(partials, value, source[6]) : copyArray(value); data[6] = partials ? replaceHolders(data[5], PLACEHOLDER) : copyArray(source[6]); } // Use source `argPos` if available. value = source[7]; if (value) { data[7] = copyArray(value); } // Use source `ary` if it's smaller. if (srcBitmask & ARY_FLAG) { data[8] = data[8] == null ? source[8] : nativeMin(data[8], source[8]); } // Use source `arity` if one is not provided. if (data[9] == null) { data[9] = source[9]; } // Use source `func` and merge bitmasks. data[0] = source[0]; data[1] = newBitmask; return data; } /** * Used by `_.defaultsDeep` to customize its `_.merge` use. * * @private * @param {*} objValue The destination value. * @param {*} srcValue The source value. * @param {string} key The key of the property to merge. * @param {Object} object The parent object of `objValue`. * @param {Object} source The parent object of `srcValue`. * @param {Object} [stack] Tracks traversed source values and their merged counterparts. * @returns {*} Returns the value to assign. */ function mergeDefaults(objValue, srcValue, key, object, source, stack) { if (isObject(objValue) && isObject(srcValue)) { stack.set(srcValue, objValue); baseMerge(objValue, srcValue, undefined, mergeDefaults, stack); } return objValue; } /** * Gets the parent value at `path` of `object`. * * @private * @param {Object} object The object to query. * @param {Array} path The path to get the parent value of. * @returns {*} Returns the parent value. */ function parent(object, path) { return path.length == 1 ? object : get(object, baseSlice(path, 0, -1)); } /** * Reorder `array` according to the specified indexes where the element at * the first index is assigned as the first element, the element at * the second index is assigned as the second element, and so on. * * @private * @param {Array} array The array to reorder. * @param {Array} indexes The arranged array indexes. * @returns {Array} Returns `array`. */ function reorder(array, indexes) { var arrLength = array.length, length = nativeMin(indexes.length, arrLength), oldArray = copyArray(array); while (length--) { var index = indexes[length]; array[length] = isIndex(index, arrLength) ? oldArray[index] : undefined; } return array; } /** * Sets metadata for `func`. * * **Note:** If this function becomes hot, i.e. is invoked a lot in a short * period of time, it will trip its breaker and transition to an identity function * to avoid garbage collection pauses in V8. See [V8 issue 2070](https://code.google.com/p/v8/issues/detail?id=2070) * for more details. * * @private * @param {Function} func The function to associate metadata with. * @param {*} data The metadata. * @returns {Function} Returns `func`. */ var setData = (function() { var count = 0, lastCalled = 0; return function(key, value) { var stamp = now(), remaining = HOT_SPAN - (stamp - lastCalled); lastCalled = stamp; if (remaining > 0) { if (++count >= HOT_COUNT) { return key; } } else { count = 0; } return baseSetData(key, value); }; }()); /** * Converts `string` to a property path array. * * @private * @param {string} string The string to convert. * @returns {Array} Returns the property path array. */ function stringToPath(string) { var result = []; toString(string).replace(rePropName, function(match, number, quote, string) { result.push(quote ? string.replace(reEscapeChar, '$1') : (number || match)); }); return result; } /** * Converts `value` to an array-like object if it's not one. * * @private * @param {*} value The value to process. * @returns {Array} Returns the array-like object. */ function toArrayLikeObject(value) { return isArrayLikeObject(value) ? value : []; } /** * Converts `value` to a function if it's not one. * * @private * @param {*} value The value to process. * @returns {Function} Returns the function. */ function toFunction(value) { return typeof value == 'function' ? value : identity; } /** * Creates a clone of `wrapper`. * * @private * @param {Object} wrapper The wrapper to clone. * @returns {Object} Returns the cloned wrapper. */ function wrapperClone(wrapper) { if (wrapper instanceof LazyWrapper) { return wrapper.clone(); } var result = new LodashWrapper(wrapper.__wrapped__, wrapper.__chain__); result.__actions__ = copyArray(wrapper.__actions__); result.__index__ = wrapper.__index__; result.__values__ = wrapper.__values__; return result; } /*------------------------------------------------------------------------*/ /** * Creates an array of elements split into groups the length of `size`. * If `array` can't be split evenly, the final chunk will be the remaining * elements. * * @static * @memberOf _ * @category Array * @param {Array} array The array to process. * @param {number} [size=0] The length of each chunk. * @returns {Array} Returns the new array containing chunks. * @example * * _.chunk(['a', 'b', 'c', 'd'], 2); * // => [['a', 'b'], ['c', 'd']] * * _.chunk(['a', 'b', 'c', 'd'], 3); * // => [['a', 'b', 'c'], ['d']] */ function chunk(array, size) { size = nativeMax(toInteger(size), 0); var length = array ? array.length : 0; if (!length || size < 1) { return []; } var index = 0, resIndex = -1, result = Array(nativeCeil(length / size)); while (index < length) { result[++resIndex] = baseSlice(array, index, (index += size)); } return result; } /** * Creates an array with all falsey values removed. The values `false`, `null`, * `0`, `""`, `undefined`, and `NaN` are falsey. * * @static * @memberOf _ * @category Array * @param {Array} array The array to compact. * @returns {Array} Returns the new array of filtered values. * @example * * _.compact([0, 1, false, 2, '', 3]); * // => [1, 2, 3] */ function compact(array) { var index = -1, length = array ? array.length : 0, resIndex = -1, result = []; while (++index < length) { var value = array[index]; if (value) { result[++resIndex] = value; } } return result; } /** * Creates a new array concatenating `array` with any additional arrays * and/or values. * * @static * @memberOf _ * @category Array * @param {Array} array The array to concatenate. * @param {...*} [values] The values to concatenate. * @returns {Array} Returns the new concatenated array. * @example * * var array = [1]; * var other = _.concat(array, 2, [3], [[4]]); * * console.log(other); * // => [1, 2, 3, [4]] * * console.log(array); * // => [1] */ var concat = rest(function(array, values) { if (!isArray(array)) { array = array == null ? [] : [Object(array)]; } values = baseFlatten(values); return arrayConcat(array, values); }); /** * Creates an array of unique `array` values not included in the other * given arrays using [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {...Array} [values] The values to exclude. * @returns {Array} Returns the new array of filtered values. * @example * * _.difference([3, 2, 1], [4, 2]); * // => [3, 1] */ var difference = rest(function(array, values) { return isArrayLikeObject(array) ? baseDifference(array, baseFlatten(values, false, true)) : []; }); /** * This method is like `_.difference` except that it accepts `iteratee` which * is invoked for each element of `array` and `values` to generate the criterion * by which uniqueness is computed. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {...Array} [values] The values to exclude. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new array of filtered values. * @example * * _.differenceBy([3.1, 2.2, 1.3], [4.4, 2.5], Math.floor); * // => [3.1, 1.3] * * // The `_.property` iteratee shorthand. * _.differenceBy([{ 'x': 2 }, { 'x': 1 }], [{ 'x': 1 }], 'x'); * // => [{ 'x': 2 }] */ var differenceBy = rest(function(array, values) { var iteratee = last(values); if (isArrayLikeObject(iteratee)) { iteratee = undefined; } return isArrayLikeObject(array) ? baseDifference(array, baseFlatten(values, false, true), getIteratee(iteratee)) : []; }); /** * This method is like `_.difference` except that it accepts `comparator` * which is invoked to compare elements of `array` to `values`. The comparator * is invoked with two arguments: (arrVal, othVal). * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {...Array} [values] The values to exclude. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of filtered values. * @example * * var objects = [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }]; * * _.differenceWith(objects, [{ 'x': 1, 'y': 2 }], _.isEqual); * // => [{ 'x': 2, 'y': 1 }] */ var differenceWith = rest(function(array, values) { var comparator = last(values); if (isArrayLikeObject(comparator)) { comparator = undefined; } return isArrayLikeObject(array) ? baseDifference(array, baseFlatten(values, false, true), undefined, comparator) : []; }); /** * Creates a slice of `array` with `n` elements dropped from the beginning. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {number} [n=1] The number of elements to drop. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Array} Returns the slice of `array`. * @example * * _.drop([1, 2, 3]); * // => [2, 3] * * _.drop([1, 2, 3], 2); * // => [3] * * _.drop([1, 2, 3], 5); * // => [] * * _.drop([1, 2, 3], 0); * // => [1, 2, 3] */ function drop(array, n, guard) { var length = array ? array.length : 0; if (!length) { return []; } n = (guard || n === undefined) ? 1 : toInteger(n); return baseSlice(array, n < 0 ? 0 : n, length); } /** * Creates a slice of `array` with `n` elements dropped from the end. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {number} [n=1] The number of elements to drop. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Array} Returns the slice of `array`. * @example * * _.dropRight([1, 2, 3]); * // => [1, 2] * * _.dropRight([1, 2, 3], 2); * // => [1] * * _.dropRight([1, 2, 3], 5); * // => [] * * _.dropRight([1, 2, 3], 0); * // => [1, 2, 3] */ function dropRight(array, n, guard) { var length = array ? array.length : 0; if (!length) { return []; } n = (guard || n === undefined) ? 1 : toInteger(n); n = length - n; return baseSlice(array, 0, n < 0 ? 0 : n); } /** * Creates a slice of `array` excluding elements dropped from the end. * Elements are dropped until `predicate` returns falsey. The predicate is * invoked with three arguments: (value, index, array). * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the slice of `array`. * @example * * var users = [ * { 'user': 'barney', 'active': true }, * { 'user': 'fred', 'active': false }, * { 'user': 'pebbles', 'active': false } * ]; * * _.dropRightWhile(users, function(o) { return !o.active; }); * // => objects for ['barney'] * * // The `_.matches` iteratee shorthand. * _.dropRightWhile(users, { 'user': 'pebbles', 'active': false }); * // => objects for ['barney', 'fred'] * * // The `_.matchesProperty` iteratee shorthand. * _.dropRightWhile(users, ['active', false]); * // => objects for ['barney'] * * // The `_.property` iteratee shorthand. * _.dropRightWhile(users, 'active'); * // => objects for ['barney', 'fred', 'pebbles'] */ function dropRightWhile(array, predicate) { return (array && array.length) ? baseWhile(array, getIteratee(predicate, 3), true, true) : []; } /** * Creates a slice of `array` excluding elements dropped from the beginning. * Elements are dropped until `predicate` returns falsey. The predicate is * invoked with three arguments: (value, index, array). * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the slice of `array`. * @example * * var users = [ * { 'user': 'barney', 'active': false }, * { 'user': 'fred', 'active': false }, * { 'user': 'pebbles', 'active': true } * ]; * * _.dropWhile(users, function(o) { return !o.active; }); * // => objects for ['pebbles'] * * // The `_.matches` iteratee shorthand. * _.dropWhile(users, { 'user': 'barney', 'active': false }); * // => objects for ['fred', 'pebbles'] * * // The `_.matchesProperty` iteratee shorthand. * _.dropWhile(users, ['active', false]); * // => objects for ['pebbles'] * * // The `_.property` iteratee shorthand. * _.dropWhile(users, 'active'); * // => objects for ['barney', 'fred', 'pebbles'] */ function dropWhile(array, predicate) { return (array && array.length) ? baseWhile(array, getIteratee(predicate, 3), true) : []; } /** * Fills elements of `array` with `value` from `start` up to, but not * including, `end`. * * **Note:** This method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to fill. * @param {*} value The value to fill `array` with. * @param {number} [start=0] The start position. * @param {number} [end=array.length] The end position. * @returns {Array} Returns `array`. * @example * * var array = [1, 2, 3]; * * _.fill(array, 'a'); * console.log(array); * // => ['a', 'a', 'a'] * * _.fill(Array(3), 2); * // => [2, 2, 2] * * _.fill([4, 6, 8, 10], '*', 1, 3); * // => [4, '*', '*', 10] */ function fill(array, value, start, end) { var length = array ? array.length : 0; if (!length) { return []; } if (start && typeof start != 'number' && isIterateeCall(array, value, start)) { start = 0; end = length; } return baseFill(array, value, start, end); } /** * This method is like `_.find` except that it returns the index of the first * element `predicate` returns truthy for instead of the element itself. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {number} Returns the index of the found element, else `-1`. * @example * * var users = [ * { 'user': 'barney', 'active': false }, * { 'user': 'fred', 'active': false }, * { 'user': 'pebbles', 'active': true } * ]; * * _.findIndex(users, function(o) { return o.user == 'barney'; }); * // => 0 * * // The `_.matches` iteratee shorthand. * _.findIndex(users, { 'user': 'fred', 'active': false }); * // => 1 * * // The `_.matchesProperty` iteratee shorthand. * _.findIndex(users, ['active', false]); * // => 0 * * // The `_.property` iteratee shorthand. * _.findIndex(users, 'active'); * // => 2 */ function findIndex(array, predicate) { return (array && array.length) ? baseFindIndex(array, getIteratee(predicate, 3)) : -1; } /** * This method is like `_.findIndex` except that it iterates over elements * of `collection` from right to left. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {number} Returns the index of the found element, else `-1`. * @example * * var users = [ * { 'user': 'barney', 'active': true }, * { 'user': 'fred', 'active': false }, * { 'user': 'pebbles', 'active': false } * ]; * * _.findLastIndex(users, function(o) { return o.user == 'pebbles'; }); * // => 2 * * // The `_.matches` iteratee shorthand. * _.findLastIndex(users, { 'user': 'barney', 'active': true }); * // => 0 * * // The `_.matchesProperty` iteratee shorthand. * _.findLastIndex(users, ['active', false]); * // => 2 * * // The `_.property` iteratee shorthand. * _.findLastIndex(users, 'active'); * // => 0 */ function findLastIndex(array, predicate) { return (array && array.length) ? baseFindIndex(array, getIteratee(predicate, 3), true) : -1; } /** * Flattens `array` a single level. * * @static * @memberOf _ * @category Array * @param {Array} array The array to flatten. * @returns {Array} Returns the new flattened array. * @example * * _.flatten([1, [2, 3, [4]]]); * // => [1, 2, 3, [4]] */ function flatten(array) { var length = array ? array.length : 0; return length ? baseFlatten(array) : []; } /** * This method is like `_.flatten` except that it recursively flattens `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to recursively flatten. * @returns {Array} Returns the new flattened array. * @example * * _.flattenDeep([1, [2, 3, [4]]]); * // => [1, 2, 3, 4] */ function flattenDeep(array) { var length = array ? array.length : 0; return length ? baseFlatten(array, true) : []; } /** * The inverse of `_.toPairs`; this method returns an object composed * from key-value `pairs`. * * @static * @memberOf _ * @category Array * @param {Array} pairs The key-value pairs. * @returns {Object} Returns the new object. * @example * * _.fromPairs([['fred', 30], ['barney', 40]]); * // => { 'fred': 30, 'barney': 40 } */ function fromPairs(pairs) { var index = -1, length = pairs ? pairs.length : 0, result = {}; while (++index < length) { var pair = pairs[index]; result[pair[0]] = pair[1]; } return result; } /** * Gets the first element of `array`. * * @static * @memberOf _ * @alias first * @category Array * @param {Array} array The array to query. * @returns {*} Returns the first element of `array`. * @example * * _.head([1, 2, 3]); * // => 1 * * _.head([]); * // => undefined */ function head(array) { return array ? array[0] : undefined; } /** * Gets the index at which the first occurrence of `value` is found in `array` * using [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. If `fromIndex` is negative, it's used as the offset * from the end of `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {*} value The value to search for. * @param {number} [fromIndex=0] The index to search from. * @returns {number} Returns the index of the matched value, else `-1`. * @example * * _.indexOf([1, 2, 1, 2], 2); * // => 1 * * // Search from the `fromIndex`. * _.indexOf([1, 2, 1, 2], 2, 2); * // => 3 */ function indexOf(array, value, fromIndex) { var length = array ? array.length : 0; if (!length) { return -1; } fromIndex = toInteger(fromIndex); if (fromIndex < 0) { fromIndex = nativeMax(length + fromIndex, 0); } return baseIndexOf(array, value, fromIndex); } /** * Gets all but the last element of `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @returns {Array} Returns the slice of `array`. * @example * * _.initial([1, 2, 3]); * // => [1, 2] */ function initial(array) { return dropRight(array, 1); } /** * Creates an array of unique values that are included in all given arrays * using [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @returns {Array} Returns the new array of shared values. * @example * * _.intersection([2, 1], [4, 2], [1, 2]); * // => [2] */ var intersection = rest(function(arrays) { var mapped = arrayMap(arrays, toArrayLikeObject); return (mapped.length && mapped[0] === arrays[0]) ? baseIntersection(mapped) : []; }); /** * This method is like `_.intersection` except that it accepts `iteratee` * which is invoked for each element of each `arrays` to generate the criterion * by which uniqueness is computed. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new array of shared values. * @example * * _.intersectionBy([2.1, 1.2], [4.3, 2.4], Math.floor); * // => [2.1] * * // The `_.property` iteratee shorthand. * _.intersectionBy([{ 'x': 1 }], [{ 'x': 2 }, { 'x': 1 }], 'x'); * // => [{ 'x': 1 }] */ var intersectionBy = rest(function(arrays) { var iteratee = last(arrays), mapped = arrayMap(arrays, toArrayLikeObject); if (iteratee === last(mapped)) { iteratee = undefined; } else { mapped.pop(); } return (mapped.length && mapped[0] === arrays[0]) ? baseIntersection(mapped, getIteratee(iteratee)) : []; }); /** * This method is like `_.intersection` except that it accepts `comparator` * which is invoked to compare elements of `arrays`. The comparator is invoked * with two arguments: (arrVal, othVal). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of shared values. * @example * * var objects = [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }]; * var others = [{ 'x': 1, 'y': 1 }, { 'x': 1, 'y': 2 }]; * * _.intersectionWith(objects, others, _.isEqual); * // => [{ 'x': 1, 'y': 2 }] */ var intersectionWith = rest(function(arrays) { var comparator = last(arrays), mapped = arrayMap(arrays, toArrayLikeObject); if (comparator === last(mapped)) { comparator = undefined; } else { mapped.pop(); } return (mapped.length && mapped[0] === arrays[0]) ? baseIntersection(mapped, undefined, comparator) : []; }); /** * Converts all elements in `array` into a string separated by `separator`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to convert. * @param {string} [separator=','] The element separator. * @returns {string} Returns the joined string. * @example * * _.join(['a', 'b', 'c'], '~'); * // => 'a~b~c' */ function join(array, separator) { return array ? nativeJoin.call(array, separator) : ''; } /** * Gets the last element of `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @returns {*} Returns the last element of `array`. * @example * * _.last([1, 2, 3]); * // => 3 */ function last(array) { var length = array ? array.length : 0; return length ? array[length - 1] : undefined; } /** * This method is like `_.indexOf` except that it iterates over elements of * `array` from right to left. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {*} value The value to search for. * @param {number} [fromIndex=array.length-1] The index to search from. * @returns {number} Returns the index of the matched value, else `-1`. * @example * * _.lastIndexOf([1, 2, 1, 2], 2); * // => 3 * * // Search from the `fromIndex`. * _.lastIndexOf([1, 2, 1, 2], 2, 2); * // => 1 */ function lastIndexOf(array, value, fromIndex) { var length = array ? array.length : 0; if (!length) { return -1; } var index = length; if (fromIndex !== undefined) { index = toInteger(fromIndex); index = (index < 0 ? nativeMax(length + index, 0) : nativeMin(index, length - 1)) + 1; } if (value !== value) { return indexOfNaN(array, index, true); } while (index--) { if (array[index] === value) { return index; } } return -1; } /** * Removes all given values from `array` using * [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * **Note:** Unlike `_.without`, this method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to modify. * @param {...*} [values] The values to remove. * @returns {Array} Returns `array`. * @example * * var array = [1, 2, 3, 1, 2, 3]; * * _.pull(array, 2, 3); * console.log(array); * // => [1, 1] */ var pull = rest(pullAll); /** * This method is like `_.pull` except that it accepts an array of values to remove. * * **Note:** Unlike `_.difference`, this method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to modify. * @param {Array} values The values to remove. * @returns {Array} Returns `array`. * @example * * var array = [1, 2, 3, 1, 2, 3]; * * _.pullAll(array, [2, 3]); * console.log(array); * // => [1, 1] */ function pullAll(array, values) { return (array && array.length && values && values.length) ? basePullAll(array, values) : array; } /** * This method is like `_.pullAll` except that it accepts `iteratee` which is * invoked for each element of `array` and `values` to generate the criterion * by which uniqueness is computed. The iteratee is invoked with one argument: (value). * * **Note:** Unlike `_.differenceBy`, this method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to modify. * @param {Array} values The values to remove. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns `array`. * @example * * var array = [{ 'x': 1 }, { 'x': 2 }, { 'x': 3 }, { 'x': 1 }]; * * _.pullAllBy(array, [{ 'x': 1 }, { 'x': 3 }], 'x'); * console.log(array); * // => [{ 'x': 2 }] */ function pullAllBy(array, values, iteratee) { return (array && array.length && values && values.length) ? basePullAllBy(array, values, getIteratee(iteratee)) : array; } /** * Removes elements from `array` corresponding to `indexes` and returns an * array of removed elements. * * **Note:** Unlike `_.at`, this method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to modify. * @param {...(number|number[])} [indexes] The indexes of elements to remove, * specified individually or in arrays. * @returns {Array} Returns the new array of removed elements. * @example * * var array = [5, 10, 15, 20]; * var evens = _.pullAt(array, 1, 3); * * console.log(array); * // => [5, 15] * * console.log(evens); * // => [10, 20] */ var pullAt = rest(function(array, indexes) { indexes = arrayMap(baseFlatten(indexes), String); var result = baseAt(array, indexes); basePullAt(array, indexes.sort(compareAscending)); return result; }); /** * Removes all elements from `array` that `predicate` returns truthy for * and returns an array of the removed elements. The predicate is invoked with * three arguments: (value, index, array). * * **Note:** Unlike `_.filter`, this method mutates `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to modify. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the new array of removed elements. * @example * * var array = [1, 2, 3, 4]; * var evens = _.remove(array, function(n) { * return n % 2 == 0; * }); * * console.log(array); * // => [1, 3] * * console.log(evens); * // => [2, 4] */ function remove(array, predicate) { var result = []; if (!(array && array.length)) { return result; } var index = -1, indexes = [], length = array.length; predicate = getIteratee(predicate, 3); while (++index < length) { var value = array[index]; if (predicate(value, index, array)) { result.push(value); indexes.push(index); } } basePullAt(array, indexes); return result; } /** * Reverses `array` so that the first element becomes the last, the second * element becomes the second to last, and so on. * * **Note:** This method mutates `array` and is based on * [`Array#reverse`](https://mdn.io/Array/reverse). * * @static * @memberOf _ * @category Array * @returns {Array} Returns `array`. * @example * * var array = [1, 2, 3]; * * _.reverse(array); * // => [3, 2, 1] * * console.log(array); * // => [3, 2, 1] */ function reverse(array) { return array ? nativeReverse.call(array) : array; } /** * Creates a slice of `array` from `start` up to, but not including, `end`. * * **Note:** This method is used instead of [`Array#slice`](https://mdn.io/Array/slice) * to ensure dense arrays are returned. * * @static * @memberOf _ * @category Array * @param {Array} array The array to slice. * @param {number} [start=0] The start position. * @param {number} [end=array.length] The end position. * @returns {Array} Returns the slice of `array`. */ function slice(array, start, end) { var length = array ? array.length : 0; if (!length) { return []; } if (end && typeof end != 'number' && isIterateeCall(array, start, end)) { start = 0; end = length; } else { start = start == null ? 0 : toInteger(start); end = end === undefined ? length : toInteger(end); } return baseSlice(array, start, end); } /** * Uses a binary search to determine the lowest index at which `value` should * be inserted into `array` in order to maintain its sort order. * * @static * @memberOf _ * @category Array * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @returns {number} Returns the index at which `value` should be inserted into `array`. * @example * * _.sortedIndex([30, 50], 40); * // => 1 * * _.sortedIndex([4, 5], 4); * // => 0 */ function sortedIndex(array, value) { return baseSortedIndex(array, value); } /** * This method is like `_.sortedIndex` except that it accepts `iteratee` * which is invoked for `value` and each element of `array` to compute their * sort ranking. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {number} Returns the index at which `value` should be inserted into `array`. * @example * * var dict = { 'thirty': 30, 'forty': 40, 'fifty': 50 }; * * _.sortedIndexBy(['thirty', 'fifty'], 'forty', _.propertyOf(dict)); * // => 1 * * // The `_.property` iteratee shorthand. * _.sortedIndexBy([{ 'x': 4 }, { 'x': 5 }], { 'x': 4 }, 'x'); * // => 0 */ function sortedIndexBy(array, value, iteratee) { return baseSortedIndexBy(array, value, getIteratee(iteratee)); } /** * This method is like `_.indexOf` except that it performs a binary * search on a sorted `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {*} value The value to search for. * @returns {number} Returns the index of the matched value, else `-1`. * @example * * _.sortedIndexOf([1, 1, 2, 2], 2); * // => 2 */ function sortedIndexOf(array, value) { var length = array ? array.length : 0; if (length) { var index = baseSortedIndex(array, value); if (index < length && eq(array[index], value)) { return index; } } return -1; } /** * This method is like `_.sortedIndex` except that it returns the highest * index at which `value` should be inserted into `array` in order to * maintain its sort order. * * @static * @memberOf _ * @category Array * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @returns {number} Returns the index at which `value` should be inserted into `array`. * @example * * _.sortedLastIndex([4, 5], 4); * // => 1 */ function sortedLastIndex(array, value) { return baseSortedIndex(array, value, true); } /** * This method is like `_.sortedLastIndex` except that it accepts `iteratee` * which is invoked for `value` and each element of `array` to compute their * sort ranking. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {Array} array The sorted array to inspect. * @param {*} value The value to evaluate. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {number} Returns the index at which `value` should be inserted into `array`. * @example * * // The `_.property` iteratee shorthand. * _.sortedLastIndexBy([{ 'x': 4 }, { 'x': 5 }], { 'x': 4 }, 'x'); * // => 1 */ function sortedLastIndexBy(array, value, iteratee) { return baseSortedIndexBy(array, value, getIteratee(iteratee), true); } /** * This method is like `_.lastIndexOf` except that it performs a binary * search on a sorted `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to search. * @param {*} value The value to search for. * @returns {number} Returns the index of the matched value, else `-1`. * @example * * _.sortedLastIndexOf([1, 1, 2, 2], 2); * // => 3 */ function sortedLastIndexOf(array, value) { var length = array ? array.length : 0; if (length) { var index = baseSortedIndex(array, value, true) - 1; if (eq(array[index], value)) { return index; } } return -1; } /** * This method is like `_.uniq` except that it's designed and optimized * for sorted arrays. * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @returns {Array} Returns the new duplicate free array. * @example * * _.sortedUniq([1, 1, 2]); * // => [1, 2] */ function sortedUniq(array) { return (array && array.length) ? baseSortedUniq(array) : []; } /** * This method is like `_.uniqBy` except that it's designed and optimized * for sorted arrays. * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @returns {Array} Returns the new duplicate free array. * @example * * _.sortedUniqBy([1.1, 1.2, 2.3, 2.4], Math.floor); * // => [1.1, 2.3] */ function sortedUniqBy(array, iteratee) { return (array && array.length) ? baseSortedUniqBy(array, getIteratee(iteratee)) : []; } /** * Gets all but the first element of `array`. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @returns {Array} Returns the slice of `array`. * @example * * _.tail([1, 2, 3]); * // => [2, 3] */ function tail(array) { return drop(array, 1); } /** * Creates a slice of `array` with `n` elements taken from the beginning. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {number} [n=1] The number of elements to take. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Array} Returns the slice of `array`. * @example * * _.take([1, 2, 3]); * // => [1] * * _.take([1, 2, 3], 2); * // => [1, 2] * * _.take([1, 2, 3], 5); * // => [1, 2, 3] * * _.take([1, 2, 3], 0); * // => [] */ function take(array, n, guard) { if (!(array && array.length)) { return []; } n = (guard || n === undefined) ? 1 : toInteger(n); return baseSlice(array, 0, n < 0 ? 0 : n); } /** * Creates a slice of `array` with `n` elements taken from the end. * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {number} [n=1] The number of elements to take. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Array} Returns the slice of `array`. * @example * * _.takeRight([1, 2, 3]); * // => [3] * * _.takeRight([1, 2, 3], 2); * // => [2, 3] * * _.takeRight([1, 2, 3], 5); * // => [1, 2, 3] * * _.takeRight([1, 2, 3], 0); * // => [] */ function takeRight(array, n, guard) { var length = array ? array.length : 0; if (!length) { return []; } n = (guard || n === undefined) ? 1 : toInteger(n); n = length - n; return baseSlice(array, n < 0 ? 0 : n, length); } /** * Creates a slice of `array` with elements taken from the end. Elements are * taken until `predicate` returns falsey. The predicate is invoked with three * arguments: (value, index, array). * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the slice of `array`. * @example * * var users = [ * { 'user': 'barney', 'active': true }, * { 'user': 'fred', 'active': false }, * { 'user': 'pebbles', 'active': false } * ]; * * _.takeRightWhile(users, function(o) { return !o.active; }); * // => objects for ['fred', 'pebbles'] * * // The `_.matches` iteratee shorthand. * _.takeRightWhile(users, { 'user': 'pebbles', 'active': false }); * // => objects for ['pebbles'] * * // The `_.matchesProperty` iteratee shorthand. * _.takeRightWhile(users, ['active', false]); * // => objects for ['fred', 'pebbles'] * * // The `_.property` iteratee shorthand. * _.takeRightWhile(users, 'active'); * // => [] */ function takeRightWhile(array, predicate) { return (array && array.length) ? baseWhile(array, getIteratee(predicate, 3), false, true) : []; } /** * Creates a slice of `array` with elements taken from the beginning. Elements * are taken until `predicate` returns falsey. The predicate is invoked with * three arguments: (value, index, array). * * @static * @memberOf _ * @category Array * @param {Array} array The array to query. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the slice of `array`. * @example * * var users = [ * { 'user': 'barney', 'active': false }, * { 'user': 'fred', 'active': false}, * { 'user': 'pebbles', 'active': true } * ]; * * _.takeWhile(users, function(o) { return !o.active; }); * // => objects for ['barney', 'fred'] * * // The `_.matches` iteratee shorthand. * _.takeWhile(users, { 'user': 'barney', 'active': false }); * // => objects for ['barney'] * * // The `_.matchesProperty` iteratee shorthand. * _.takeWhile(users, ['active', false]); * // => objects for ['barney', 'fred'] * * // The `_.property` iteratee shorthand. * _.takeWhile(users, 'active'); * // => [] */ function takeWhile(array, predicate) { return (array && array.length) ? baseWhile(array, getIteratee(predicate, 3)) : []; } /** * Creates an array of unique values, in order, from all given arrays using * [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @returns {Array} Returns the new array of combined values. * @example * * _.union([2, 1], [4, 2], [1, 2]); * // => [2, 1, 4] */ var union = rest(function(arrays) { return baseUniq(baseFlatten(arrays, false, true)); }); /** * This method is like `_.union` except that it accepts `iteratee` which is * invoked for each element of each `arrays` to generate the criterion by which * uniqueness is computed. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new array of combined values. * @example * * _.unionBy([2.1, 1.2], [4.3, 2.4], Math.floor); * // => [2.1, 1.2, 4.3] * * // The `_.property` iteratee shorthand. * _.unionBy([{ 'x': 1 }], [{ 'x': 2 }, { 'x': 1 }], 'x'); * // => [{ 'x': 1 }, { 'x': 2 }] */ var unionBy = rest(function(arrays) { var iteratee = last(arrays); if (isArrayLikeObject(iteratee)) { iteratee = undefined; } return baseUniq(baseFlatten(arrays, false, true), getIteratee(iteratee)); }); /** * This method is like `_.union` except that it accepts `comparator` which * is invoked to compare elements of `arrays`. The comparator is invoked * with two arguments: (arrVal, othVal). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of combined values. * @example * * var objects = [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }]; * var others = [{ 'x': 1, 'y': 1 }, { 'x': 1, 'y': 2 }]; * * _.unionWith(objects, others, _.isEqual); * // => [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }, { 'x': 1, 'y': 1 }] */ var unionWith = rest(function(arrays) { var comparator = last(arrays); if (isArrayLikeObject(comparator)) { comparator = undefined; } return baseUniq(baseFlatten(arrays, false, true), undefined, comparator); }); /** * Creates a duplicate-free version of an array, using * [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons, in which only the first occurrence of each element * is kept. * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @returns {Array} Returns the new duplicate free array. * @example * * _.uniq([2, 1, 2]); * // => [2, 1] */ function uniq(array) { return (array && array.length) ? baseUniq(array) : []; } /** * This method is like `_.uniq` except that it accepts `iteratee` which is * invoked for each element in `array` to generate the criterion by which * uniqueness is computed. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new duplicate free array. * @example * * _.uniqBy([2.1, 1.2, 2.3], Math.floor); * // => [2.1, 1.2] * * // The `_.property` iteratee shorthand. * _.uniqBy([{ 'x': 1 }, { 'x': 2 }, { 'x': 1 }], 'x'); * // => [{ 'x': 1 }, { 'x': 2 }] */ function uniqBy(array, iteratee) { return (array && array.length) ? baseUniq(array, getIteratee(iteratee)) : []; } /** * This method is like `_.uniq` except that it accepts `comparator` which * is invoked to compare elements of `array`. The comparator is invoked with * two arguments: (arrVal, othVal). * * @static * @memberOf _ * @category Array * @param {Array} array The array to inspect. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new duplicate free array. * @example * * var objects = [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }, { 'x': 1, 'y': 2 }]; * * _.uniqWith(objects, _.isEqual); * // => [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }] */ function uniqWith(array, comparator) { return (array && array.length) ? baseUniq(array, undefined, comparator) : []; } /** * This method is like `_.zip` except that it accepts an array of grouped * elements and creates an array regrouping the elements to their pre-zip * configuration. * * @static * @memberOf _ * @category Array * @param {Array} array The array of grouped elements to process. * @returns {Array} Returns the new array of regrouped elements. * @example * * var zipped = _.zip(['fred', 'barney'], [30, 40], [true, false]); * // => [['fred', 30, true], ['barney', 40, false]] * * _.unzip(zipped); * // => [['fred', 'barney'], [30, 40], [true, false]] */ function unzip(array) { if (!(array && array.length)) { return []; } var length = 0; array = arrayFilter(array, function(group) { if (isArrayLikeObject(group)) { length = nativeMax(group.length, length); return true; } }); return baseTimes(length, function(index) { return arrayMap(array, baseProperty(index)); }); } /** * This method is like `_.unzip` except that it accepts `iteratee` to specify * how regrouped values should be combined. The iteratee is invoked with the * elements of each group: (...group). * * @static * @memberOf _ * @category Array * @param {Array} array The array of grouped elements to process. * @param {Function} [iteratee=_.identity] The function to combine regrouped values. * @returns {Array} Returns the new array of regrouped elements. * @example * * var zipped = _.zip([1, 2], [10, 20], [100, 200]); * // => [[1, 10, 100], [2, 20, 200]] * * _.unzipWith(zipped, _.add); * // => [3, 30, 300] */ function unzipWith(array, iteratee) { if (!(array && array.length)) { return []; } var result = unzip(array); if (iteratee == null) { return result; } return arrayMap(result, function(group) { return apply(iteratee, undefined, group); }); } /** * Creates an array excluding all given values using * [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * for equality comparisons. * * @static * @memberOf _ * @category Array * @param {Array} array The array to filter. * @param {...*} [values] The values to exclude. * @returns {Array} Returns the new array of filtered values. * @example * * _.without([1, 2, 1, 3], 1, 2); * // => [3] */ var without = rest(function(array, values) { return isArrayLikeObject(array) ? baseDifference(array, values) : []; }); /** * Creates an array of unique values that is the [symmetric difference](https://en.wikipedia.org/wiki/Symmetric_difference) * of the given arrays. * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @returns {Array} Returns the new array of values. * @example * * _.xor([2, 1], [4, 2]); * // => [1, 4] */ var xor = rest(function(arrays) { return baseXor(arrayFilter(arrays, isArrayLikeObject)); }); /** * This method is like `_.xor` except that it accepts `iteratee` which is * invoked for each element of each `arrays` to generate the criterion by which * uniqueness is computed. The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new array of values. * @example * * _.xorBy([2.1, 1.2], [4.3, 2.4], Math.floor); * // => [1.2, 4.3] * * // The `_.property` iteratee shorthand. * _.xorBy([{ 'x': 1 }], [{ 'x': 2 }, { 'x': 1 }], 'x'); * // => [{ 'x': 2 }] */ var xorBy = rest(function(arrays) { var iteratee = last(arrays); if (isArrayLikeObject(iteratee)) { iteratee = undefined; } return baseXor(arrayFilter(arrays, isArrayLikeObject), getIteratee(iteratee)); }); /** * This method is like `_.xor` except that it accepts `comparator` which is * invoked to compare elements of `arrays`. The comparator is invoked with * two arguments: (arrVal, othVal). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to inspect. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new array of values. * @example * * var objects = [{ 'x': 1, 'y': 2 }, { 'x': 2, 'y': 1 }]; * var others = [{ 'x': 1, 'y': 1 }, { 'x': 1, 'y': 2 }]; * * _.xorWith(objects, others, _.isEqual); * // => [{ 'x': 2, 'y': 1 }, { 'x': 1, 'y': 1 }] */ var xorWith = rest(function(arrays) { var comparator = last(arrays); if (isArrayLikeObject(comparator)) { comparator = undefined; } return baseXor(arrayFilter(arrays, isArrayLikeObject), undefined, comparator); }); /** * Creates an array of grouped elements, the first of which contains the first * elements of the given arrays, the second of which contains the second elements * of the given arrays, and so on. * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to process. * @returns {Array} Returns the new array of grouped elements. * @example * * _.zip(['fred', 'barney'], [30, 40], [true, false]); * // => [['fred', 30, true], ['barney', 40, false]] */ var zip = rest(unzip); /** * This method is like `_.fromPairs` except that it accepts two arrays, * one of property names and one of corresponding values. * * @static * @memberOf _ * @category Array * @param {Array} [props=[]] The property names. * @param {Array} [values=[]] The property values. * @returns {Object} Returns the new object. * @example * * _.zipObject(['a', 'b'], [1, 2]); * // => { 'a': 1, 'b': 2 } */ function zipObject(props, values) { return baseZipObject(props || [], values || [], assignValue); } /** * This method is like `_.zipObject` except that it supports property paths. * * @static * @memberOf _ * @category Array * @param {Array} [props=[]] The property names. * @param {Array} [values=[]] The property values. * @returns {Object} Returns the new object. * @example * * _.zipObjectDeep(['a.b[0].c', 'a.b[1].d'], [1, 2]); * // => { 'a': { 'b': [{ 'c': 1 }, { 'd': 2 }] } } */ function zipObjectDeep(props, values) { return baseZipObject(props || [], values || [], baseSet); } /** * This method is like `_.zip` except that it accepts `iteratee` to specify * how grouped values should be combined. The iteratee is invoked with the * elements of each group: (...group). * * @static * @memberOf _ * @category Array * @param {...Array} [arrays] The arrays to process. * @param {Function} [iteratee=_.identity] The function to combine grouped values. * @returns {Array} Returns the new array of grouped elements. * @example * * _.zipWith([1, 2], [10, 20], [100, 200], function(a, b, c) { * return a + b + c; * }); * // => [111, 222] */ var zipWith = rest(function(arrays) { var length = arrays.length, iteratee = length > 1 ? arrays[length - 1] : undefined; iteratee = typeof iteratee == 'function' ? (arrays.pop(), iteratee) : undefined; return unzipWith(arrays, iteratee); }); /*------------------------------------------------------------------------*/ /** * Creates a `lodash` object that wraps `value` with explicit method chaining enabled. * The result of such method chaining must be unwrapped with `_#value`. * * @static * @memberOf _ * @category Seq * @param {*} value The value to wrap. * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * var users = [ * { 'user': 'barney', 'age': 36 }, * { 'user': 'fred', 'age': 40 }, * { 'user': 'pebbles', 'age': 1 } * ]; * * var youngest = _ * .chain(users) * .sortBy('age') * .map(function(o) { * return o.user + ' is ' + o.age; * }) * .head() * .value(); * // => 'pebbles is 1' */ function chain(value) { var result = lodash(value); result.__chain__ = true; return result; } /** * This method invokes `interceptor` and returns `value`. The interceptor * is invoked with one argument; (value). The purpose of this method is to * "tap into" a method chain in order to modify intermediate results. * * @static * @memberOf _ * @category Seq * @param {*} value The value to provide to `interceptor`. * @param {Function} interceptor The function to invoke. * @returns {*} Returns `value`. * @example * * _([1, 2, 3]) * .tap(function(array) { * // Mutate input array. * array.pop(); * }) * .reverse() * .value(); * // => [2, 1] */ function tap(value, interceptor) { interceptor(value); return value; } /** * This method is like `_.tap` except that it returns the result of `interceptor`. * The purpose of this method is to "pass thru" values replacing intermediate * results in a method chain. * * @static * @memberOf _ * @category Seq * @param {*} value The value to provide to `interceptor`. * @param {Function} interceptor The function to invoke. * @returns {*} Returns the result of `interceptor`. * @example * * _(' abc ') * .chain() * .trim() * .thru(function(value) { * return [value]; * }) * .value(); * // => ['abc'] */ function thru(value, interceptor) { return interceptor(value); } /** * This method is the wrapper version of `_.at`. * * @name at * @memberOf _ * @category Seq * @param {...(string|string[])} [paths] The property paths of elements to pick, * specified individually or in arrays. * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }, 4] }; * * _(object).at(['a[0].b.c', 'a[1]']).value(); * // => [3, 4] * * _(['a', 'b', 'c']).at(0, 2).value(); * // => ['a', 'c'] */ var wrapperAt = rest(function(paths) { paths = baseFlatten(paths); var length = paths.length, start = length ? paths[0] : 0, value = this.__wrapped__, interceptor = function(object) { return baseAt(object, paths); }; if (length > 1 || this.__actions__.length || !(value instanceof LazyWrapper) || !isIndex(start)) { return this.thru(interceptor); } value = value.slice(start, +start + (length ? 1 : 0)); value.__actions__.push({ 'func': thru, 'args': [interceptor], 'thisArg': undefined }); return new LodashWrapper(value, this.__chain__).thru(function(array) { if (length && !array.length) { array.push(undefined); } return array; }); }); /** * Enables explicit method chaining on the wrapper object. * * @name chain * @memberOf _ * @category Seq * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * var users = [ * { 'user': 'barney', 'age': 36 }, * { 'user': 'fred', 'age': 40 } * ]; * * // A sequence without explicit chaining. * _(users).head(); * // => { 'user': 'barney', 'age': 36 } * * // A sequence with explicit chaining. * _(users) * .chain() * .head() * .pick('user') * .value(); * // => { 'user': 'barney' } */ function wrapperChain() { return chain(this); } /** * Executes the chained sequence and returns the wrapped result. * * @name commit * @memberOf _ * @category Seq * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * var array = [1, 2]; * var wrapped = _(array).push(3); * * console.log(array); * // => [1, 2] * * wrapped = wrapped.commit(); * console.log(array); * // => [1, 2, 3] * * wrapped.last(); * // => 3 * * console.log(array); * // => [1, 2, 3] */ function wrapperCommit() { return new LodashWrapper(this.value(), this.__chain__); } /** * This method is the wrapper version of `_.flatMap`. * * @name flatMap * @memberOf _ * @category Seq * @param {Function|Object|string} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * function duplicate(n) { * return [n, n]; * } * * _([1, 2]).flatMap(duplicate).value(); * // => [1, 1, 2, 2] */ function wrapperFlatMap(iteratee) { return this.map(iteratee).flatten(); } /** * Gets the next value on a wrapped object following the * [iterator protocol](https://mdn.io/iteration_protocols#iterator). * * @name next * @memberOf _ * @category Seq * @returns {Object} Returns the next iterator value. * @example * * var wrapped = _([1, 2]); * * wrapped.next(); * // => { 'done': false, 'value': 1 } * * wrapped.next(); * // => { 'done': false, 'value': 2 } * * wrapped.next(); * // => { 'done': true, 'value': undefined } */ function wrapperNext() { if (this.__values__ === undefined) { this.__values__ = toArray(this.value()); } var done = this.__index__ >= this.__values__.length, value = done ? undefined : this.__values__[this.__index__++]; return { 'done': done, 'value': value }; } /** * Enables the wrapper to be iterable. * * @name Symbol.iterator * @memberOf _ * @category Seq * @returns {Object} Returns the wrapper object. * @example * * var wrapped = _([1, 2]); * * wrapped[Symbol.iterator]() === wrapped; * // => true * * Array.from(wrapped); * // => [1, 2] */ function wrapperToIterator() { return this; } /** * Creates a clone of the chained sequence planting `value` as the wrapped value. * * @name plant * @memberOf _ * @category Seq * @param {*} value The value to plant. * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * function square(n) { * return n * n; * } * * var wrapped = _([1, 2]).map(square); * var other = wrapped.plant([3, 4]); * * other.value(); * // => [9, 16] * * wrapped.value(); * // => [1, 4] */ function wrapperPlant(value) { var result, parent = this; while (parent instanceof baseLodash) { var clone = wrapperClone(parent); clone.__index__ = 0; clone.__values__ = undefined; if (result) { previous.__wrapped__ = clone; } else { result = clone; } var previous = clone; parent = parent.__wrapped__; } previous.__wrapped__ = value; return result; } /** * This method is the wrapper version of `_.reverse`. * * **Note:** This method mutates the wrapped array. * * @name reverse * @memberOf _ * @category Seq * @returns {Object} Returns the new `lodash` wrapper instance. * @example * * var array = [1, 2, 3]; * * _(array).reverse().value() * // => [3, 2, 1] * * console.log(array); * // => [3, 2, 1] */ function wrapperReverse() { var value = this.__wrapped__; if (value instanceof LazyWrapper) { var wrapped = value; if (this.__actions__.length) { wrapped = new LazyWrapper(this); } wrapped = wrapped.reverse(); wrapped.__actions__.push({ 'func': thru, 'args': [reverse], 'thisArg': undefined }); return new LodashWrapper(wrapped, this.__chain__); } return this.thru(reverse); } /** * Executes the chained sequence to extract the unwrapped value. * * @name value * @memberOf _ * @alias toJSON, valueOf * @category Seq * @returns {*} Returns the resolved unwrapped value. * @example * * _([1, 2, 3]).value(); * // => [1, 2, 3] */ function wrapperValue() { return baseWrapperValue(this.__wrapped__, this.__actions__); } /*------------------------------------------------------------------------*/ /** * Creates an object composed of keys generated from the results of running * each element of `collection` through `iteratee`. The corresponding value * of each key is the number of times the key was returned by `iteratee`. * The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The iteratee to transform keys. * @returns {Object} Returns the composed aggregate object. * @example * * _.countBy([6.1, 4.2, 6.3], Math.floor); * // => { '4': 1, '6': 2 } * * _.countBy(['one', 'two', 'three'], 'length'); * // => { '3': 2, '5': 1 } */ var countBy = createAggregator(function(result, value, key) { hasOwnProperty.call(result, key) ? ++result[key] : (result[key] = 1); }); /** * Checks if `predicate` returns truthy for **all** elements of `collection`. * Iteration is stopped once `predicate` returns falsey. The predicate is * invoked with three arguments: (value, index|key, collection). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {boolean} Returns `true` if all elements pass the predicate check, else `false`. * @example * * _.every([true, 1, null, 'yes'], Boolean); * // => false * * var users = [ * { 'user': 'barney', 'active': false }, * { 'user': 'fred', 'active': false } * ]; * * // The `_.matches` iteratee shorthand. * _.every(users, { 'user': 'barney', 'active': false }); * // => false * * // The `_.matchesProperty` iteratee shorthand. * _.every(users, ['active', false]); * // => true * * // The `_.property` iteratee shorthand. * _.every(users, 'active'); * // => false */ function every(collection, predicate, guard) { var func = isArray(collection) ? arrayEvery : baseEvery; if (guard && isIterateeCall(collection, predicate, guard)) { predicate = undefined; } return func(collection, getIteratee(predicate, 3)); } /** * Iterates over elements of `collection`, returning an array of all elements * `predicate` returns truthy for. The predicate is invoked with three arguments: * (value, index|key, collection). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the new filtered array. * @example * * var users = [ * { 'user': 'barney', 'age': 36, 'active': true }, * { 'user': 'fred', 'age': 40, 'active': false } * ]; * * _.filter(users, function(o) { return !o.active; }); * // => objects for ['fred'] * * // The `_.matches` iteratee shorthand. * _.filter(users, { 'age': 36, 'active': true }); * // => objects for ['barney'] * * // The `_.matchesProperty` iteratee shorthand. * _.filter(users, ['active', false]); * // => objects for ['fred'] * * // The `_.property` iteratee shorthand. * _.filter(users, 'active'); * // => objects for ['barney'] */ function filter(collection, predicate) { var func = isArray(collection) ? arrayFilter : baseFilter; return func(collection, getIteratee(predicate, 3)); } /** * Iterates over elements of `collection`, returning the first element * `predicate` returns truthy for. The predicate is invoked with three arguments: * (value, index|key, collection). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {*} Returns the matched element, else `undefined`. * @example * * var users = [ * { 'user': 'barney', 'age': 36, 'active': true }, * { 'user': 'fred', 'age': 40, 'active': false }, * { 'user': 'pebbles', 'age': 1, 'active': true } * ]; * * _.find(users, function(o) { return o.age < 40; }); * // => object for 'barney' * * // The `_.matches` iteratee shorthand. * _.find(users, { 'age': 1, 'active': true }); * // => object for 'pebbles' * * // The `_.matchesProperty` iteratee shorthand. * _.find(users, ['active', false]); * // => object for 'fred' * * // The `_.property` iteratee shorthand. * _.find(users, 'active'); * // => object for 'barney' */ function find(collection, predicate) { predicate = getIteratee(predicate, 3); if (isArray(collection)) { var index = baseFindIndex(collection, predicate); return index > -1 ? collection[index] : undefined; } return baseFind(collection, predicate, baseEach); } /** * This method is like `_.find` except that it iterates over elements of * `collection` from right to left. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {*} Returns the matched element, else `undefined`. * @example * * _.findLast([1, 2, 3, 4], function(n) { * return n % 2 == 1; * }); * // => 3 */ function findLast(collection, predicate) { predicate = getIteratee(predicate, 3); if (isArray(collection)) { var index = baseFindIndex(collection, predicate, true); return index > -1 ? collection[index] : undefined; } return baseFind(collection, predicate, baseEachRight); } /** * Creates an array of flattened values by running each element in `collection` * through `iteratee` and concating its result to the other mapped values. * The iteratee is invoked with three arguments: (value, index|key, collection). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The function invoked per iteration. * @returns {Array} Returns the new flattened array. * @example * * function duplicate(n) { * return [n, n]; * } * * _.flatMap([1, 2], duplicate); * // => [1, 1, 2, 2] */ function flatMap(collection, iteratee) { return baseFlatten(map(collection, iteratee)); } /** * Iterates over elements of `collection` invoking `iteratee` for each element. * The iteratee is invoked with three arguments: (value, index|key, collection). * Iteratee functions may exit iteration early by explicitly returning `false`. * * **Note:** As with other "Collections" methods, objects with a "length" property * are iterated like arrays. To avoid this behavior use `_.forIn` or `_.forOwn` * for object iteration. * * @static * @memberOf _ * @alias each * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Array|Object} Returns `collection`. * @example * * _([1, 2]).forEach(function(value) { * console.log(value); * }); * // => logs `1` then `2` * * _.forEach({ 'a': 1, 'b': 2 }, function(value, key) { * console.log(key); * }); * // => logs 'a' then 'b' (iteration order is not guaranteed) */ function forEach(collection, iteratee) { return (typeof iteratee == 'function' && isArray(collection)) ? arrayEach(collection, iteratee) : baseEach(collection, toFunction(iteratee)); } /** * This method is like `_.forEach` except that it iterates over elements of * `collection` from right to left. * * @static * @memberOf _ * @alias eachRight * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Array|Object} Returns `collection`. * @example * * _.forEachRight([1, 2], function(value) { * console.log(value); * }); * // => logs `2` then `1` */ function forEachRight(collection, iteratee) { return (typeof iteratee == 'function' && isArray(collection)) ? arrayEachRight(collection, iteratee) : baseEachRight(collection, toFunction(iteratee)); } /** * Creates an object composed of keys generated from the results of running * each element of `collection` through `iteratee`. The corresponding value * of each key is an array of elements responsible for generating the key. * The iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The iteratee to transform keys. * @returns {Object} Returns the composed aggregate object. * @example * * _.groupBy([6.1, 4.2, 6.3], Math.floor); * // => { '4': [4.2], '6': [6.1, 6.3] } * * // The `_.property` iteratee shorthand. * _.groupBy(['one', 'two', 'three'], 'length'); * // => { '3': ['one', 'two'], '5': ['three'] } */ var groupBy = createAggregator(function(result, value, key) { if (hasOwnProperty.call(result, key)) { result[key].push(value); } else { result[key] = [value]; } }); /** * Checks if `value` is in `collection`. If `collection` is a string it's checked * for a substring of `value`, otherwise [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * is used for equality comparisons. If `fromIndex` is negative, it's used as * the offset from the end of `collection`. * * @static * @memberOf _ * @category Collection * @param {Array|Object|string} collection The collection to search. * @param {*} value The value to search for. * @param {number} [fromIndex=0] The index to search from. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.reduce`. * @returns {boolean} Returns `true` if `value` is found, else `false`. * @example * * _.includes([1, 2, 3], 1); * // => true * * _.includes([1, 2, 3], 1, 2); * // => false * * _.includes({ 'user': 'fred', 'age': 40 }, 'fred'); * // => true * * _.includes('pebbles', 'eb'); * // => true */ function includes(collection, value, fromIndex, guard) { collection = isArrayLike(collection) ? collection : values(collection); fromIndex = (fromIndex && !guard) ? toInteger(fromIndex) : 0; var length = collection.length; if (fromIndex < 0) { fromIndex = nativeMax(length + fromIndex, 0); } return isString(collection) ? (fromIndex <= length && collection.indexOf(value, fromIndex) > -1) : (!!length && baseIndexOf(collection, value, fromIndex) > -1); } /** * Invokes the method at `path` of each element in `collection`, returning * an array of the results of each invoked method. Any additional arguments * are provided to each invoked method. If `methodName` is a function it's * invoked for, and `this` bound to, each element in `collection`. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Array|Function|string} path The path of the method to invoke or * the function invoked per iteration. * @param {...*} [args] The arguments to invoke each method with. * @returns {Array} Returns the array of results. * @example * * _.invokeMap([[5, 1, 7], [3, 2, 1]], 'sort'); * // => [[1, 5, 7], [1, 2, 3]] * * _.invokeMap([123, 456], String.prototype.split, ''); * // => [['1', '2', '3'], ['4', '5', '6']] */ var invokeMap = rest(function(collection, path, args) { var index = -1, isFunc = typeof path == 'function', isProp = isKey(path), result = isArrayLike(collection) ? Array(collection.length) : []; baseEach(collection, function(value) { var func = isFunc ? path : ((isProp && value != null) ? value[path] : undefined); result[++index] = func ? apply(func, value, args) : baseInvoke(value, path, args); }); return result; }); /** * Creates an object composed of keys generated from the results of running * each element of `collection` through `iteratee`. The corresponding value * of each key is the last element responsible for generating the key. The * iteratee is invoked with one argument: (value). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The iteratee to transform keys. * @returns {Object} Returns the composed aggregate object. * @example * * var array = [ * { 'dir': 'left', 'code': 97 }, * { 'dir': 'right', 'code': 100 } * ]; * * _.keyBy(array, function(o) { * return String.fromCharCode(o.code); * }); * // => { 'a': { 'dir': 'left', 'code': 97 }, 'd': { 'dir': 'right', 'code': 100 } } * * _.keyBy(array, 'dir'); * // => { 'left': { 'dir': 'left', 'code': 97 }, 'right': { 'dir': 'right', 'code': 100 } } */ var keyBy = createAggregator(function(result, value, key) { result[key] = value; }); /** * Creates an array of values by running each element in `collection` through * `iteratee`. The iteratee is invoked with three arguments: * (value, index|key, collection). * * Many lodash methods are guarded to work as iteratees for methods like * `_.every`, `_.filter`, `_.map`, `_.mapValues`, `_.reject`, and `_.some`. * * The guarded methods are: * `ary`, `curry`, `curryRight`, `drop`, `dropRight`, `every`, `fill`, * `invert`, `parseInt`, `random`, `range`, `rangeRight`, `slice`, `some`, * `sortBy`, `take`, `takeRight`, `template`, `trim`, `trimEnd`, `trimStart`, * and `words` * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The function invoked per iteration. * @returns {Array} Returns the new mapped array. * @example * * function square(n) { * return n * n; * } * * _.map([4, 8], square); * // => [16, 64] * * _.map({ 'a': 4, 'b': 8 }, square); * // => [16, 64] (iteration order is not guaranteed) * * var users = [ * { 'user': 'barney' }, * { 'user': 'fred' } * ]; * * // The `_.property` iteratee shorthand. * _.map(users, 'user'); * // => ['barney', 'fred'] */ function map(collection, iteratee) { var func = isArray(collection) ? arrayMap : baseMap; return func(collection, getIteratee(iteratee, 3)); } /** * This method is like `_.sortBy` except that it allows specifying the sort * orders of the iteratees to sort by. If `orders` is unspecified, all values * are sorted in ascending order. Otherwise, specify an order of "desc" for * descending or "asc" for ascending sort order of corresponding values. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function[]|Object[]|string[]} [iteratees=[_.identity]] The iteratees to sort by. * @param {string[]} [orders] The sort orders of `iteratees`. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.reduce`. * @returns {Array} Returns the new sorted array. * @example * * var users = [ * { 'user': 'fred', 'age': 48 }, * { 'user': 'barney', 'age': 34 }, * { 'user': 'fred', 'age': 42 }, * { 'user': 'barney', 'age': 36 } * ]; * * // Sort by `user` in ascending order and by `age` in descending order. * _.orderBy(users, ['user', 'age'], ['asc', 'desc']); * // => objects for [['barney', 36], ['barney', 34], ['fred', 48], ['fred', 42]] */ function orderBy(collection, iteratees, orders, guard) { if (collection == null) { return []; } if (!isArray(iteratees)) { iteratees = iteratees == null ? [] : [iteratees]; } orders = guard ? undefined : orders; if (!isArray(orders)) { orders = orders == null ? [] : [orders]; } return baseOrderBy(collection, iteratees, orders); } /** * Creates an array of elements split into two groups, the first of which * contains elements `predicate` returns truthy for, the second of which * contains elements `predicate` returns falsey for. The predicate is * invoked with one argument: (value). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the array of grouped elements. * @example * * var users = [ * { 'user': 'barney', 'age': 36, 'active': false }, * { 'user': 'fred', 'age': 40, 'active': true }, * { 'user': 'pebbles', 'age': 1, 'active': false } * ]; * * _.partition(users, function(o) { return o.active; }); * // => objects for [['fred'], ['barney', 'pebbles']] * * // The `_.matches` iteratee shorthand. * _.partition(users, { 'age': 1, 'active': false }); * // => objects for [['pebbles'], ['barney', 'fred']] * * // The `_.matchesProperty` iteratee shorthand. * _.partition(users, ['active', false]); * // => objects for [['barney', 'pebbles'], ['fred']] * * // The `_.property` iteratee shorthand. * _.partition(users, 'active'); * // => objects for [['fred'], ['barney', 'pebbles']] */ var partition = createAggregator(function(result, value, key) { result[key ? 0 : 1].push(value); }, function() { return [[], []]; }); /** * Reduces `collection` to a value which is the accumulated result of running * each element in `collection` through `iteratee`, where each successive * invocation is supplied the return value of the previous. If `accumulator` * is not given the first element of `collection` is used as the initial * value. The iteratee is invoked with four arguments: * (accumulator, value, index|key, collection). * * Many lodash methods are guarded to work as iteratees for methods like * `_.reduce`, `_.reduceRight`, and `_.transform`. * * The guarded methods are: * `assign`, `defaults`, `defaultsDeep`, `includes`, `merge`, `orderBy`, * and `sortBy` * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @param {*} [accumulator] The initial value. * @returns {*} Returns the accumulated value. * @example * * _.reduce([1, 2], function(sum, n) { * return sum + n; * }, 0); * // => 3 * * _.reduce({ 'a': 1, 'b': 2, 'c': 1 }, function(result, value, key) { * (result[value] || (result[value] = [])).push(key); * return result; * }, {}); * // => { '1': ['a', 'c'], '2': ['b'] } (iteration order is not guaranteed) */ function reduce(collection, iteratee, accumulator) { var func = isArray(collection) ? arrayReduce : baseReduce, initAccum = arguments.length < 3; return func(collection, getIteratee(iteratee, 4), accumulator, initAccum, baseEach); } /** * This method is like `_.reduce` except that it iterates over elements of * `collection` from right to left. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @param {*} [accumulator] The initial value. * @returns {*} Returns the accumulated value. * @example * * var array = [[0, 1], [2, 3], [4, 5]]; * * _.reduceRight(array, function(flattened, other) { * return flattened.concat(other); * }, []); * // => [4, 5, 2, 3, 0, 1] */ function reduceRight(collection, iteratee, accumulator) { var func = isArray(collection) ? arrayReduceRight : baseReduce, initAccum = arguments.length < 3; return func(collection, getIteratee(iteratee, 4), accumulator, initAccum, baseEachRight); } /** * The opposite of `_.filter`; this method returns the elements of `collection` * that `predicate` does **not** return truthy for. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the new filtered array. * @example * * var users = [ * { 'user': 'barney', 'age': 36, 'active': false }, * { 'user': 'fred', 'age': 40, 'active': true } * ]; * * _.reject(users, function(o) { return !o.active; }); * // => objects for ['fred'] * * // The `_.matches` iteratee shorthand. * _.reject(users, { 'age': 40, 'active': true }); * // => objects for ['barney'] * * // The `_.matchesProperty` iteratee shorthand. * _.reject(users, ['active', false]); * // => objects for ['fred'] * * // The `_.property` iteratee shorthand. * _.reject(users, 'active'); * // => objects for ['barney'] */ function reject(collection, predicate) { var func = isArray(collection) ? arrayFilter : baseFilter; predicate = getIteratee(predicate, 3); return func(collection, function(value, index, collection) { return !predicate(value, index, collection); }); } /** * Gets a random element from `collection`. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to sample. * @returns {*} Returns the random element. * @example * * _.sample([1, 2, 3, 4]); * // => 2 */ function sample(collection) { var array = isArrayLike(collection) ? collection : values(collection), length = array.length; return length > 0 ? array[baseRandom(0, length - 1)] : undefined; } /** * Gets `n` random elements at unique keys from `collection` up to the * size of `collection`. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to sample. * @param {number} [n=0] The number of elements to sample. * @returns {Array} Returns the random elements. * @example * * _.sampleSize([1, 2, 3], 2); * // => [3, 1] * * _.sampleSize([1, 2, 3], 4); * // => [2, 3, 1] */ function sampleSize(collection, n) { var index = -1, result = toArray(collection), length = result.length, lastIndex = length - 1; n = baseClamp(toInteger(n), 0, length); while (++index < n) { var rand = baseRandom(index, lastIndex), value = result[rand]; result[rand] = result[index]; result[index] = value; } result.length = n; return result; } /** * Creates an array of shuffled values, using a version of the * [Fisher-Yates shuffle](https://en.wikipedia.org/wiki/Fisher-Yates_shuffle). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to shuffle. * @returns {Array} Returns the new shuffled array. * @example * * _.shuffle([1, 2, 3, 4]); * // => [4, 1, 3, 2] */ function shuffle(collection) { return sampleSize(collection, MAX_ARRAY_LENGTH); } /** * Gets the size of `collection` by returning its length for array-like * values or the number of own enumerable properties for objects. * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to inspect. * @returns {number} Returns the collection size. * @example * * _.size([1, 2, 3]); * // => 3 * * _.size({ 'a': 1, 'b': 2 }); * // => 2 * * _.size('pebbles'); * // => 7 */ function size(collection) { if (collection == null) { return 0; } if (isArrayLike(collection)) { var result = collection.length; return (result && isString(collection)) ? stringSize(collection) : result; } return keys(collection).length; } /** * Checks if `predicate` returns truthy for **any** element of `collection`. * Iteration is stopped once `predicate` returns truthy. The predicate is * invoked with three arguments: (value, index|key, collection). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {boolean} Returns `true` if any element passes the predicate check, else `false`. * @example * * _.some([null, 0, 'yes', false], Boolean); * // => true * * var users = [ * { 'user': 'barney', 'active': true }, * { 'user': 'fred', 'active': false } * ]; * * // The `_.matches` iteratee shorthand. * _.some(users, { 'user': 'barney', 'active': false }); * // => false * * // The `_.matchesProperty` iteratee shorthand. * _.some(users, ['active', false]); * // => true * * // The `_.property` iteratee shorthand. * _.some(users, 'active'); * // => true */ function some(collection, predicate, guard) { var func = isArray(collection) ? arraySome : baseSome; if (guard && isIterateeCall(collection, predicate, guard)) { predicate = undefined; } return func(collection, getIteratee(predicate, 3)); } /** * Creates an array of elements, sorted in ascending order by the results of * running each element in a collection through each iteratee. This method * performs a stable sort, that is, it preserves the original sort order of * equal elements. The iteratees are invoked with one argument: (value). * * @static * @memberOf _ * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {...(Function|Function[]|Object|Object[]|string|string[])} [iteratees=[_.identity]] * The iteratees to sort by, specified individually or in arrays. * @returns {Array} Returns the new sorted array. * @example * * var users = [ * { 'user': 'fred', 'age': 48 }, * { 'user': 'barney', 'age': 36 }, * { 'user': 'fred', 'age': 42 }, * { 'user': 'barney', 'age': 34 } * ]; * * _.sortBy(users, function(o) { return o.user; }); * // => objects for [['barney', 36], ['barney', 34], ['fred', 48], ['fred', 42]] * * _.sortBy(users, ['user', 'age']); * // => objects for [['barney', 34], ['barney', 36], ['fred', 42], ['fred', 48]] * * _.sortBy(users, 'user', function(o) { * return Math.floor(o.age / 10); * }); * // => objects for [['barney', 36], ['barney', 34], ['fred', 48], ['fred', 42]] */ var sortBy = rest(function(collection, iteratees) { if (collection == null) { return []; } var length = iteratees.length; if (length > 1 && isIterateeCall(collection, iteratees[0], iteratees[1])) { iteratees = []; } else if (length > 2 && isIterateeCall(iteratees[0], iteratees[1], iteratees[2])) { iteratees.length = 1; } return baseOrderBy(collection, baseFlatten(iteratees), []); }); /*------------------------------------------------------------------------*/ /** * Gets the timestamp of the number of milliseconds that have elapsed since * the Unix epoch (1 January 1970 00:00:00 UTC). * * @static * @memberOf _ * @type Function * @category Date * @returns {number} Returns the timestamp. * @example * * _.defer(function(stamp) { * console.log(_.now() - stamp); * }, _.now()); * // => logs the number of milliseconds it took for the deferred function to be invoked */ var now = Date.now; /*------------------------------------------------------------------------*/ /** * The opposite of `_.before`; this method creates a function that invokes * `func` once it's called `n` or more times. * * @static * @memberOf _ * @category Function * @param {number} n The number of calls before `func` is invoked. * @param {Function} func The function to restrict. * @returns {Function} Returns the new restricted function. * @example * * var saves = ['profile', 'settings']; * * var done = _.after(saves.length, function() { * console.log('done saving!'); * }); * * _.forEach(saves, function(type) { * asyncSave({ 'type': type, 'complete': done }); * }); * // => logs 'done saving!' after the two async saves have completed */ function after(n, func) { if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } n = toInteger(n); return function() { if (--n < 1) { return func.apply(this, arguments); } }; } /** * Creates a function that accepts up to `n` arguments, ignoring any * additional arguments. * * @static * @memberOf _ * @category Function * @param {Function} func The function to cap arguments for. * @param {number} [n=func.length] The arity cap. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the new function. * @example * * _.map(['6', '8', '10'], _.ary(parseInt, 1)); * // => [6, 8, 10] */ function ary(func, n, guard) { n = guard ? undefined : n; n = (func && n == null) ? func.length : n; return createWrapper(func, ARY_FLAG, undefined, undefined, undefined, undefined, n); } /** * Creates a function that invokes `func`, with the `this` binding and arguments * of the created function, while it's called less than `n` times. Subsequent * calls to the created function return the result of the last `func` invocation. * * @static * @memberOf _ * @category Function * @param {number} n The number of calls at which `func` is no longer invoked. * @param {Function} func The function to restrict. * @returns {Function} Returns the new restricted function. * @example * * jQuery(element).on('click', _.before(5, addContactToList)); * // => allows adding up to 4 contacts to the list */ function before(n, func) { var result; if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } n = toInteger(n); return function() { if (--n > 0) { result = func.apply(this, arguments); } if (n <= 1) { func = undefined; } return result; }; } /** * Creates a function that invokes `func` with the `this` binding of `thisArg` * and prepends any additional `_.bind` arguments to those provided to the * bound function. * * The `_.bind.placeholder` value, which defaults to `_` in monolithic builds, * may be used as a placeholder for partially applied arguments. * * **Note:** Unlike native `Function#bind` this method doesn't set the "length" * property of bound functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to bind. * @param {*} thisArg The `this` binding of `func`. * @param {...*} [partials] The arguments to be partially applied. * @returns {Function} Returns the new bound function. * @example * * var greet = function(greeting, punctuation) { * return greeting + ' ' + this.user + punctuation; * }; * * var object = { 'user': 'fred' }; * * var bound = _.bind(greet, object, 'hi'); * bound('!'); * // => 'hi fred!' * * // Bound with placeholders. * var bound = _.bind(greet, object, _, '!'); * bound('hi'); * // => 'hi fred!' */ var bind = rest(function(func, thisArg, partials) { var bitmask = BIND_FLAG; if (partials.length) { var placeholder = lodash.placeholder || bind.placeholder, holders = replaceHolders(partials, placeholder); bitmask |= PARTIAL_FLAG; } return createWrapper(func, bitmask, thisArg, partials, holders); }); /** * Creates a function that invokes the method at `object[key]` and prepends * any additional `_.bindKey` arguments to those provided to the bound function. * * This method differs from `_.bind` by allowing bound functions to reference * methods that may be redefined or don't yet exist. * See [Peter Michaux's article](http://peter.michaux.ca/articles/lazy-function-definition-pattern) * for more details. * * The `_.bindKey.placeholder` value, which defaults to `_` in monolithic * builds, may be used as a placeholder for partially applied arguments. * * @static * @memberOf _ * @category Function * @param {Object} object The object to invoke the method on. * @param {string} key The key of the method. * @param {...*} [partials] The arguments to be partially applied. * @returns {Function} Returns the new bound function. * @example * * var object = { * 'user': 'fred', * 'greet': function(greeting, punctuation) { * return greeting + ' ' + this.user + punctuation; * } * }; * * var bound = _.bindKey(object, 'greet', 'hi'); * bound('!'); * // => 'hi fred!' * * object.greet = function(greeting, punctuation) { * return greeting + 'ya ' + this.user + punctuation; * }; * * bound('!'); * // => 'hiya fred!' * * // Bound with placeholders. * var bound = _.bindKey(object, 'greet', _, '!'); * bound('hi'); * // => 'hiya fred!' */ var bindKey = rest(function(object, key, partials) { var bitmask = BIND_FLAG | BIND_KEY_FLAG; if (partials.length) { var placeholder = lodash.placeholder || bindKey.placeholder, holders = replaceHolders(partials, placeholder); bitmask |= PARTIAL_FLAG; } return createWrapper(key, bitmask, object, partials, holders); }); /** * Creates a function that accepts arguments of `func` and either invokes * `func` returning its result, if at least `arity` number of arguments have * been provided, or returns a function that accepts the remaining `func` * arguments, and so on. The arity of `func` may be specified if `func.length` * is not sufficient. * * The `_.curry.placeholder` value, which defaults to `_` in monolithic builds, * may be used as a placeholder for provided arguments. * * **Note:** This method doesn't set the "length" property of curried functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to curry. * @param {number} [arity=func.length] The arity of `func`. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the new curried function. * @example * * var abc = function(a, b, c) { * return [a, b, c]; * }; * * var curried = _.curry(abc); * * curried(1)(2)(3); * // => [1, 2, 3] * * curried(1, 2)(3); * // => [1, 2, 3] * * curried(1, 2, 3); * // => [1, 2, 3] * * // Curried with placeholders. * curried(1)(_, 3)(2); * // => [1, 2, 3] */ function curry(func, arity, guard) { arity = guard ? undefined : arity; var result = createWrapper(func, CURRY_FLAG, undefined, undefined, undefined, undefined, undefined, arity); result.placeholder = lodash.placeholder || curry.placeholder; return result; } /** * This method is like `_.curry` except that arguments are applied to `func` * in the manner of `_.partialRight` instead of `_.partial`. * * The `_.curryRight.placeholder` value, which defaults to `_` in monolithic * builds, may be used as a placeholder for provided arguments. * * **Note:** This method doesn't set the "length" property of curried functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to curry. * @param {number} [arity=func.length] The arity of `func`. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the new curried function. * @example * * var abc = function(a, b, c) { * return [a, b, c]; * }; * * var curried = _.curryRight(abc); * * curried(3)(2)(1); * // => [1, 2, 3] * * curried(2, 3)(1); * // => [1, 2, 3] * * curried(1, 2, 3); * // => [1, 2, 3] * * // Curried with placeholders. * curried(3)(1, _)(2); * // => [1, 2, 3] */ function curryRight(func, arity, guard) { arity = guard ? undefined : arity; var result = createWrapper(func, CURRY_RIGHT_FLAG, undefined, undefined, undefined, undefined, undefined, arity); result.placeholder = lodash.placeholder || curryRight.placeholder; return result; } /** * Creates a debounced function that delays invoking `func` until after `wait` * milliseconds have elapsed since the last time the debounced function was * invoked. The debounced function comes with a `cancel` method to cancel * delayed `func` invocations and a `flush` method to immediately invoke them. * Provide an options object to indicate whether `func` should be invoked on * the leading and/or trailing edge of the `wait` timeout. The `func` is invoked * with the last arguments provided to the debounced function. Subsequent calls * to the debounced function return the result of the last `func` invocation. * * **Note:** If `leading` and `trailing` options are `true`, `func` is invoked * on the trailing edge of the timeout only if the debounced function is * invoked more than once during the `wait` timeout. * * See [David Corbacho's article](http://drupalmotion.com/article/debounce-and-throttle-visual-explanation) * for details over the differences between `_.debounce` and `_.throttle`. * * @static * @memberOf _ * @category Function * @param {Function} func The function to debounce. * @param {number} [wait=0] The number of milliseconds to delay. * @param {Object} [options] The options object. * @param {boolean} [options.leading=false] Specify invoking on the leading * edge of the timeout. * @param {number} [options.maxWait] The maximum time `func` is allowed to be * delayed before it's invoked. * @param {boolean} [options.trailing=true] Specify invoking on the trailing * edge of the timeout. * @returns {Function} Returns the new debounced function. * @example * * // Avoid costly calculations while the window size is in flux. * jQuery(window).on('resize', _.debounce(calculateLayout, 150)); * * // Invoke `sendMail` when clicked, debouncing subsequent calls. * jQuery(element).on('click', _.debounce(sendMail, 300, { * 'leading': true, * 'trailing': false * })); * * // Ensure `batchLog` is invoked once after 1 second of debounced calls. * var debounced = _.debounce(batchLog, 250, { 'maxWait': 1000 }); * var source = new EventSource('/stream'); * jQuery(source).on('message', debounced); * * // Cancel the trailing debounced invocation. * jQuery(window).on('popstate', debounced.cancel); */ function debounce(func, wait, options) { var args, maxTimeoutId, result, stamp, thisArg, timeoutId, trailingCall, lastCalled = 0, leading = false, maxWait = false, trailing = true; if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } wait = toNumber(wait) || 0; if (isObject(options)) { leading = !!options.leading; maxWait = 'maxWait' in options && nativeMax(toNumber(options.maxWait) || 0, wait); trailing = 'trailing' in options ? !!options.trailing : trailing; } function cancel() { if (timeoutId) { clearTimeout(timeoutId); } if (maxTimeoutId) { clearTimeout(maxTimeoutId); } lastCalled = 0; args = maxTimeoutId = thisArg = timeoutId = trailingCall = undefined; } function complete(isCalled, id) { if (id) { clearTimeout(id); } maxTimeoutId = timeoutId = trailingCall = undefined; if (isCalled) { lastCalled = now(); result = func.apply(thisArg, args); if (!timeoutId && !maxTimeoutId) { args = thisArg = undefined; } } } function delayed() { var remaining = wait - (now() - stamp); if (remaining <= 0 || remaining > wait) { complete(trailingCall, maxTimeoutId); } else { timeoutId = setTimeout(delayed, remaining); } } function flush() { if ((timeoutId && trailingCall) || (maxTimeoutId && trailing)) { result = func.apply(thisArg, args); } cancel(); return result; } function maxDelayed() { complete(trailing, timeoutId); } function debounced() { args = arguments; stamp = now(); thisArg = this; trailingCall = trailing && (timeoutId || !leading); if (maxWait === false) { var leadingCall = leading && !timeoutId; } else { if (!lastCalled && !maxTimeoutId && !leading) { lastCalled = stamp; } var remaining = maxWait - (stamp - lastCalled), isCalled = remaining <= 0 || remaining > maxWait; if (isCalled) { if (maxTimeoutId) { maxTimeoutId = clearTimeout(maxTimeoutId); } lastCalled = stamp; result = func.apply(thisArg, args); } else if (!maxTimeoutId) { maxTimeoutId = setTimeout(maxDelayed, remaining); } } if (isCalled && timeoutId) { timeoutId = clearTimeout(timeoutId); } else if (!timeoutId && wait !== maxWait) { timeoutId = setTimeout(delayed, wait); } if (leadingCall) { isCalled = true; result = func.apply(thisArg, args); } if (isCalled && !timeoutId && !maxTimeoutId) { args = thisArg = undefined; } return result; } debounced.cancel = cancel; debounced.flush = flush; return debounced; } /** * Defers invoking the `func` until the current call stack has cleared. Any * additional arguments are provided to `func` when it's invoked. * * @static * @memberOf _ * @category Function * @param {Function} func The function to defer. * @param {...*} [args] The arguments to invoke `func` with. * @returns {number} Returns the timer id. * @example * * _.defer(function(text) { * console.log(text); * }, 'deferred'); * // => logs 'deferred' after one or more milliseconds */ var defer = rest(function(func, args) { return baseDelay(func, 1, args); }); /** * Invokes `func` after `wait` milliseconds. Any additional arguments are * provided to `func` when it's invoked. * * @static * @memberOf _ * @category Function * @param {Function} func The function to delay. * @param {number} wait The number of milliseconds to delay invocation. * @param {...*} [args] The arguments to invoke `func` with. * @returns {number} Returns the timer id. * @example * * _.delay(function(text) { * console.log(text); * }, 1000, 'later'); * // => logs 'later' after one second */ var delay = rest(function(func, wait, args) { return baseDelay(func, toNumber(wait) || 0, args); }); /** * Creates a function that invokes `func` with arguments reversed. * * @static * @memberOf _ * @category Function * @param {Function} func The function to flip arguments for. * @returns {Function} Returns the new function. * @example * * var flipped = _.flip(function() { * return _.toArray(arguments); * }); * * flipped('a', 'b', 'c', 'd'); * // => ['d', 'c', 'b', 'a'] */ function flip(func) { return createWrapper(func, FLIP_FLAG); } /** * Creates a function that memoizes the result of `func`. If `resolver` is * provided it determines the cache key for storing the result based on the * arguments provided to the memoized function. By default, the first argument * provided to the memoized function is used as the map cache key. The `func` * is invoked with the `this` binding of the memoized function. * * **Note:** The cache is exposed as the `cache` property on the memoized * function. Its creation may be customized by replacing the `_.memoize.Cache` * constructor with one whose instances implement the [`Map`](http://ecma-international.org/ecma-262/6.0/#sec-properties-of-the-map-prototype-object) * method interface of `delete`, `get`, `has`, and `set`. * * @static * @memberOf _ * @category Function * @param {Function} func The function to have its output memoized. * @param {Function} [resolver] The function to resolve the cache key. * @returns {Function} Returns the new memoizing function. * @example * * var object = { 'a': 1, 'b': 2 }; * var other = { 'c': 3, 'd': 4 }; * * var values = _.memoize(_.values); * values(object); * // => [1, 2] * * values(other); * // => [3, 4] * * object.a = 2; * values(object); * // => [1, 2] * * // Modify the result cache. * values.cache.set(object, ['a', 'b']); * values(object); * // => ['a', 'b'] * * // Replace `_.memoize.Cache`. * _.memoize.Cache = WeakMap; */ function memoize(func, resolver) { if (typeof func != 'function' || (resolver && typeof resolver != 'function')) { throw new TypeError(FUNC_ERROR_TEXT); } var memoized = function() { var args = arguments, key = resolver ? resolver.apply(this, args) : args[0], cache = memoized.cache; if (cache.has(key)) { return cache.get(key); } var result = func.apply(this, args); memoized.cache = cache.set(key, result); return result; }; memoized.cache = new memoize.Cache; return memoized; } /** * Creates a function that negates the result of the predicate `func`. The * `func` predicate is invoked with the `this` binding and arguments of the * created function. * * @static * @memberOf _ * @category Function * @param {Function} predicate The predicate to negate. * @returns {Function} Returns the new function. * @example * * function isEven(n) { * return n % 2 == 0; * } * * _.filter([1, 2, 3, 4, 5, 6], _.negate(isEven)); * // => [1, 3, 5] */ function negate(predicate) { if (typeof predicate != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } return function() { return !predicate.apply(this, arguments); }; } /** * Creates a function that is restricted to invoking `func` once. Repeat calls * to the function return the value of the first invocation. The `func` is * invoked with the `this` binding and arguments of the created function. * * @static * @memberOf _ * @category Function * @param {Function} func The function to restrict. * @returns {Function} Returns the new restricted function. * @example * * var initialize = _.once(createApplication); * initialize(); * initialize(); * // `initialize` invokes `createApplication` once */ function once(func) { return before(2, func); } /** * Creates a function that invokes `func` with arguments transformed by * corresponding `transforms`. * * @static * @memberOf _ * @category Function * @param {Function} func The function to wrap. * @param {...(Function|Function[])} [transforms] The functions to transform * arguments, specified individually or in arrays. * @returns {Function} Returns the new function. * @example * * function doubled(n) { * return n * 2; * } * * function square(n) { * return n * n; * } * * var func = _.overArgs(function(x, y) { * return [x, y]; * }, square, doubled); * * func(9, 3); * // => [81, 6] * * func(10, 5); * // => [100, 10] */ var overArgs = rest(function(func, transforms) { transforms = arrayMap(baseFlatten(transforms), getIteratee()); var funcsLength = transforms.length; return rest(function(args) { var index = -1, length = nativeMin(args.length, funcsLength); while (++index < length) { args[index] = transforms[index].call(this, args[index]); } return apply(func, this, args); }); }); /** * Creates a function that invokes `func` with `partial` arguments prepended * to those provided to the new function. This method is like `_.bind` except * it does **not** alter the `this` binding. * * The `_.partial.placeholder` value, which defaults to `_` in monolithic * builds, may be used as a placeholder for partially applied arguments. * * **Note:** This method doesn't set the "length" property of partially * applied functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to partially apply arguments to. * @param {...*} [partials] The arguments to be partially applied. * @returns {Function} Returns the new partially applied function. * @example * * var greet = function(greeting, name) { * return greeting + ' ' + name; * }; * * var sayHelloTo = _.partial(greet, 'hello'); * sayHelloTo('fred'); * // => 'hello fred' * * // Partially applied with placeholders. * var greetFred = _.partial(greet, _, 'fred'); * greetFred('hi'); * // => 'hi fred' */ var partial = rest(function(func, partials) { var placeholder = lodash.placeholder || partial.placeholder, holders = replaceHolders(partials, placeholder); return createWrapper(func, PARTIAL_FLAG, undefined, partials, holders); }); /** * This method is like `_.partial` except that partially applied arguments * are appended to those provided to the new function. * * The `_.partialRight.placeholder` value, which defaults to `_` in monolithic * builds, may be used as a placeholder for partially applied arguments. * * **Note:** This method doesn't set the "length" property of partially * applied functions. * * @static * @memberOf _ * @category Function * @param {Function} func The function to partially apply arguments to. * @param {...*} [partials] The arguments to be partially applied. * @returns {Function} Returns the new partially applied function. * @example * * var greet = function(greeting, name) { * return greeting + ' ' + name; * }; * * var greetFred = _.partialRight(greet, 'fred'); * greetFred('hi'); * // => 'hi fred' * * // Partially applied with placeholders. * var sayHelloTo = _.partialRight(greet, 'hello', _); * sayHelloTo('fred'); * // => 'hello fred' */ var partialRight = rest(function(func, partials) { var placeholder = lodash.placeholder || partialRight.placeholder, holders = replaceHolders(partials, placeholder); return createWrapper(func, PARTIAL_RIGHT_FLAG, undefined, partials, holders); }); /** * Creates a function that invokes `func` with arguments arranged according * to the specified indexes where the argument value at the first index is * provided as the first argument, the argument value at the second index is * provided as the second argument, and so on. * * @static * @memberOf _ * @category Function * @param {Function} func The function to rearrange arguments for. * @param {...(number|number[])} indexes The arranged argument indexes, * specified individually or in arrays. * @returns {Function} Returns the new function. * @example * * var rearged = _.rearg(function(a, b, c) { * return [a, b, c]; * }, 2, 0, 1); * * rearged('b', 'c', 'a') * // => ['a', 'b', 'c'] */ var rearg = rest(function(func, indexes) { return createWrapper(func, REARG_FLAG, undefined, undefined, undefined, baseFlatten(indexes)); }); /** * Creates a function that invokes `func` with the `this` binding of the * created function and arguments from `start` and beyond provided as an array. * * **Note:** This method is based on the [rest parameter](https://mdn.io/rest_parameters). * * @static * @memberOf _ * @category Function * @param {Function} func The function to apply a rest parameter to. * @param {number} [start=func.length-1] The start position of the rest parameter. * @returns {Function} Returns the new function. * @example * * var say = _.rest(function(what, names) { * return what + ' ' + _.initial(names).join(', ') + * (_.size(names) > 1 ? ', & ' : '') + _.last(names); * }); * * say('hello', 'fred', 'barney', 'pebbles'); * // => 'hello fred, barney, & pebbles' */ function rest(func, start) { if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } start = nativeMax(start === undefined ? (func.length - 1) : toInteger(start), 0); return function() { var args = arguments, index = -1, length = nativeMax(args.length - start, 0), array = Array(length); while (++index < length) { array[index] = args[start + index]; } switch (start) { case 0: return func.call(this, array); case 1: return func.call(this, args[0], array); case 2: return func.call(this, args[0], args[1], array); } var otherArgs = Array(start + 1); index = -1; while (++index < start) { otherArgs[index] = args[index]; } otherArgs[start] = array; return apply(func, this, otherArgs); }; } /** * Creates a function that invokes `func` with the `this` binding of the created * function and an array of arguments much like [`Function#apply`](https://es5.github.io/#x15.3.4.3). * * **Note:** This method is based on the [spread operator](https://mdn.io/spread_operator). * * @static * @memberOf _ * @category Function * @param {Function} func The function to spread arguments over. * @param {number} [start=0] The start position of the spread. * @returns {Function} Returns the new function. * @example * * var say = _.spread(function(who, what) { * return who + ' says ' + what; * }); * * say(['fred', 'hello']); * // => 'fred says hello' * * var numbers = Promise.all([ * Promise.resolve(40), * Promise.resolve(36) * ]); * * numbers.then(_.spread(function(x, y) { * return x + y; * })); * // => a Promise of 76 */ function spread(func, start) { if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } start = start === undefined ? 0 : nativeMax(toInteger(start), 0); return rest(function(args) { var array = args[start], otherArgs = args.slice(0, start); if (array) { arrayPush(otherArgs, array); } return apply(func, this, otherArgs); }); } /** * Creates a throttled function that only invokes `func` at most once per * every `wait` milliseconds. The throttled function comes with a `cancel` * method to cancel delayed `func` invocations and a `flush` method to * immediately invoke them. Provide an options object to indicate whether * `func` should be invoked on the leading and/or trailing edge of the `wait` * timeout. The `func` is invoked with the last arguments provided to the * throttled function. Subsequent calls to the throttled function return the * result of the last `func` invocation. * * **Note:** If `leading` and `trailing` options are `true`, `func` is invoked * on the trailing edge of the timeout only if the throttled function is * invoked more than once during the `wait` timeout. * * See [David Corbacho's article](http://drupalmotion.com/article/debounce-and-throttle-visual-explanation) * for details over the differences between `_.throttle` and `_.debounce`. * * @static * @memberOf _ * @category Function * @param {Function} func The function to throttle. * @param {number} [wait=0] The number of milliseconds to throttle invocations to. * @param {Object} [options] The options object. * @param {boolean} [options.leading=true] Specify invoking on the leading * edge of the timeout. * @param {boolean} [options.trailing=true] Specify invoking on the trailing * edge of the timeout. * @returns {Function} Returns the new throttled function. * @example * * // Avoid excessively updating the position while scrolling. * jQuery(window).on('scroll', _.throttle(updatePosition, 100)); * * // Invoke `renewToken` when the click event is fired, but not more than once every 5 minutes. * var throttled = _.throttle(renewToken, 300000, { 'trailing': false }); * jQuery(element).on('click', throttled); * * // Cancel the trailing throttled invocation. * jQuery(window).on('popstate', throttled.cancel); */ function throttle(func, wait, options) { var leading = true, trailing = true; if (typeof func != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } if (isObject(options)) { leading = 'leading' in options ? !!options.leading : leading; trailing = 'trailing' in options ? !!options.trailing : trailing; } return debounce(func, wait, { 'leading': leading, 'maxWait': wait, 'trailing': trailing }); } /** * Creates a function that accepts up to one argument, ignoring any * additional arguments. * * @static * @memberOf _ * @category Function * @param {Function} func The function to cap arguments for. * @returns {Function} Returns the new function. * @example * * _.map(['6', '8', '10'], _.unary(parseInt)); * // => [6, 8, 10] */ function unary(func) { return ary(func, 1); } /** * Creates a function that provides `value` to the wrapper function as its * first argument. Any additional arguments provided to the function are * appended to those provided to the wrapper function. The wrapper is invoked * with the `this` binding of the created function. * * @static * @memberOf _ * @category Function * @param {*} value The value to wrap. * @param {Function} wrapper The wrapper function. * @returns {Function} Returns the new function. * @example * * var p = _.wrap(_.escape, function(func, text) { * return '

' + func(text) + '

'; * }); * * p('fred, barney, & pebbles'); * // => '

fred, barney, & pebbles

' */ function wrap(value, wrapper) { wrapper = wrapper == null ? identity : wrapper; return partial(wrapper, value); } /*------------------------------------------------------------------------*/ /** * Creates a shallow clone of `value`. * * **Note:** This method is loosely based on the * [structured clone algorithm](https://mdn.io/Structured_clone_algorithm) * and supports cloning arrays, array buffers, booleans, date objects, maps, * numbers, `Object` objects, regexes, sets, strings, symbols, and typed * arrays. The own enumerable properties of `arguments` objects are cloned * as plain objects. An empty object is returned for uncloneable values such * as error objects, functions, DOM nodes, and WeakMaps. * * @static * @memberOf _ * @category Lang * @param {*} value The value to clone. * @returns {*} Returns the cloned value. * @example * * var objects = [{ 'a': 1 }, { 'b': 2 }]; * * var shallow = _.clone(objects); * console.log(shallow[0] === objects[0]); * // => true */ function clone(value) { return baseClone(value); } /** * This method is like `_.clone` except that it accepts `customizer` which * is invoked to produce the cloned value. If `customizer` returns `undefined` * cloning is handled by the method instead. The `customizer` is invoked with * up to four arguments; (value [, index|key, object, stack]). * * @static * @memberOf _ * @category Lang * @param {*} value The value to clone. * @param {Function} [customizer] The function to customize cloning. * @returns {*} Returns the cloned value. * @example * * function customizer(value) { * if (_.isElement(value)) { * return value.cloneNode(false); * } * } * * var el = _.cloneWith(document.body, customizer); * * console.log(el === document.body); * // => false * console.log(el.nodeName); * // => 'BODY' * console.log(el.childNodes.length); * // => 0 */ function cloneWith(value, customizer) { return baseClone(value, false, customizer); } /** * This method is like `_.clone` except that it recursively clones `value`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to recursively clone. * @returns {*} Returns the deep cloned value. * @example * * var objects = [{ 'a': 1 }, { 'b': 2 }]; * * var deep = _.cloneDeep(objects); * console.log(deep[0] === objects[0]); * // => false */ function cloneDeep(value) { return baseClone(value, true); } /** * This method is like `_.cloneWith` except that it recursively clones `value`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to recursively clone. * @param {Function} [customizer] The function to customize cloning. * @returns {*} Returns the deep cloned value. * @example * * function customizer(value) { * if (_.isElement(value)) { * return value.cloneNode(true); * } * } * * var el = _.cloneDeepWith(document.body, customizer); * * console.log(el === document.body); * // => false * console.log(el.nodeName); * // => 'BODY' * console.log(el.childNodes.length); * // => 20 */ function cloneDeepWith(value, customizer) { return baseClone(value, true, customizer); } /** * Performs a [`SameValueZero`](http://ecma-international.org/ecma-262/6.0/#sec-samevaluezero) * comparison between two values to determine if they are equivalent. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. * @example * * var object = { 'user': 'fred' }; * var other = { 'user': 'fred' }; * * _.eq(object, object); * // => true * * _.eq(object, other); * // => false * * _.eq('a', 'a'); * // => true * * _.eq('a', Object('a')); * // => false * * _.eq(NaN, NaN); * // => true */ function eq(value, other) { return value === other || (value !== value && other !== other); } /** * Checks if `value` is greater than `other`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if `value` is greater than `other`, else `false`. * @example * * _.gt(3, 1); * // => true * * _.gt(3, 3); * // => false * * _.gt(1, 3); * // => false */ function gt(value, other) { return value > other; } /** * Checks if `value` is greater than or equal to `other`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if `value` is greater than or equal to `other`, else `false`. * @example * * _.gte(3, 1); * // => true * * _.gte(3, 3); * // => true * * _.gte(1, 3); * // => false */ function gte(value, other) { return value >= other; } /** * Checks if `value` is likely an `arguments` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isArguments(function() { return arguments; }()); * // => true * * _.isArguments([1, 2, 3]); * // => false */ function isArguments(value) { // Safari 8.1 incorrectly makes `arguments.callee` enumerable in strict mode. return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') && (!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag); } /** * Checks if `value` is classified as an `Array` object. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isArray([1, 2, 3]); * // => true * * _.isArray(document.body.children); * // => false * * _.isArray('abc'); * // => false * * _.isArray(_.noop); * // => false */ var isArray = Array.isArray; /** * Checks if `value` is classified as an `ArrayBuffer` object. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isArrayBuffer(new ArrayBuffer(2)); * // => true * * _.isArrayBuffer(new Array(2)); * // => false */ function isArrayBuffer(value) { return isObjectLike(value) && objectToString.call(value) == arrayBufferTag; } /** * Checks if `value` is array-like. A value is considered array-like if it's * not a function and has a `value.length` that's an integer greater than or * equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is array-like, else `false`. * @example * * _.isArrayLike([1, 2, 3]); * // => true * * _.isArrayLike(document.body.children); * // => true * * _.isArrayLike('abc'); * // => true * * _.isArrayLike(_.noop); * // => false */ function isArrayLike(value) { return value != null && !(typeof value == 'function' && isFunction(value)) && isLength(getLength(value)); } /** * This method is like `_.isArrayLike` except that it also checks if `value` * is an object. * * @static * @memberOf _ * @type Function * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an array-like object, else `false`. * @example * * _.isArrayLikeObject([1, 2, 3]); * // => true * * _.isArrayLikeObject(document.body.children); * // => true * * _.isArrayLikeObject('abc'); * // => false * * _.isArrayLikeObject(_.noop); * // => false */ function isArrayLikeObject(value) { return isObjectLike(value) && isArrayLike(value); } /** * Checks if `value` is classified as a boolean primitive or object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isBoolean(false); * // => true * * _.isBoolean(null); * // => false */ function isBoolean(value) { return value === true || value === false || (isObjectLike(value) && objectToString.call(value) == boolTag); } /** * Checks if `value` is a buffer. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a buffer, else `false`. * @example * * _.isBuffer(new Buffer(2)); * // => true * * _.isBuffer(new Uint8Array(2)); * // => false */ var isBuffer = !Buffer ? constant(false) : function(value) { return value instanceof Buffer; }; /** * Checks if `value` is classified as a `Date` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isDate(new Date); * // => true * * _.isDate('Mon April 23 2012'); * // => false */ function isDate(value) { return isObjectLike(value) && objectToString.call(value) == dateTag; } /** * Checks if `value` is likely a DOM element. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a DOM element, else `false`. * @example * * _.isElement(document.body); * // => true * * _.isElement(''); * // => false */ function isElement(value) { return !!value && value.nodeType === 1 && isObjectLike(value) && !isPlainObject(value); } /** * Checks if `value` is empty. A value is considered empty unless it's an * `arguments` object, array, string, or jQuery-like collection with a length * greater than `0` or an object with own enumerable properties. * * @static * @memberOf _ * @category Lang * @param {Array|Object|string} value The value to inspect. * @returns {boolean} Returns `true` if `value` is empty, else `false`. * @example * * _.isEmpty(null); * // => true * * _.isEmpty(true); * // => true * * _.isEmpty(1); * // => true * * _.isEmpty([1, 2, 3]); * // => false * * _.isEmpty({ 'a': 1 }); * // => false */ function isEmpty(value) { if (isArrayLike(value) && (isArray(value) || isString(value) || isFunction(value.splice) || isArguments(value))) { return !value.length; } for (var key in value) { if (hasOwnProperty.call(value, key)) { return false; } } return true; } /** * Performs a deep comparison between two values to determine if they are * equivalent. * * **Note:** This method supports comparing arrays, array buffers, booleans, * date objects, error objects, maps, numbers, `Object` objects, regexes, * sets, strings, symbols, and typed arrays. `Object` objects are compared * by their own, not inherited, enumerable properties. Functions and DOM * nodes are **not** supported. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. * @example * * var object = { 'user': 'fred' }; * var other = { 'user': 'fred' }; * * _.isEqual(object, other); * // => true * * object === other; * // => false */ function isEqual(value, other) { return baseIsEqual(value, other); } /** * This method is like `_.isEqual` except that it accepts `customizer` which is * invoked to compare values. If `customizer` returns `undefined` comparisons are * handled by the method instead. The `customizer` is invoked with up to six arguments: * (objValue, othValue [, index|key, object, other, stack]). * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @param {Function} [customizer] The function to customize comparisons. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. * @example * * function isGreeting(value) { * return /^h(?:i|ello)$/.test(value); * } * * function customizer(objValue, othValue) { * if (isGreeting(objValue) && isGreeting(othValue)) { * return true; * } * } * * var array = ['hello', 'goodbye']; * var other = ['hi', 'goodbye']; * * _.isEqualWith(array, other, customizer); * // => true */ function isEqualWith(value, other, customizer) { customizer = typeof customizer == 'function' ? customizer : undefined; var result = customizer ? customizer(value, other) : undefined; return result === undefined ? baseIsEqual(value, other, customizer) : !!result; } /** * Checks if `value` is an `Error`, `EvalError`, `RangeError`, `ReferenceError`, * `SyntaxError`, `TypeError`, or `URIError` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an error object, else `false`. * @example * * _.isError(new Error); * // => true * * _.isError(Error); * // => false */ function isError(value) { return isObjectLike(value) && typeof value.message == 'string' && objectToString.call(value) == errorTag; } /** * Checks if `value` is a finite primitive number. * * **Note:** This method is based on [`Number.isFinite`](https://mdn.io/Number/isFinite). * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a finite number, else `false`. * @example * * _.isFinite(3); * // => true * * _.isFinite(Number.MAX_VALUE); * // => true * * _.isFinite(3.14); * // => true * * _.isFinite(Infinity); * // => false */ function isFinite(value) { return typeof value == 'number' && nativeIsFinite(value); } /** * Checks if `value` is classified as a `Function` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isFunction(_); * // => true * * _.isFunction(/abc/); * // => false */ function isFunction(value) { // The use of `Object#toString` avoids issues with the `typeof` operator // in Safari 8 which returns 'object' for typed array constructors, and // PhantomJS 1.9 which returns 'function' for `NodeList` instances. var tag = isObject(value) ? objectToString.call(value) : ''; return tag == funcTag || tag == genTag; } /** * Checks if `value` is an integer. * * **Note:** This method is based on [`Number.isInteger`](https://mdn.io/Number/isInteger). * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an integer, else `false`. * @example * * _.isInteger(3); * // => true * * _.isInteger(Number.MIN_VALUE); * // => false * * _.isInteger(Infinity); * // => false * * _.isInteger('3'); * // => false */ function isInteger(value) { return typeof value == 'number' && value == toInteger(value); } /** * Checks if `value` is a valid array-like length. * * **Note:** This function is loosely based on [`ToLength`](http://ecma-international.org/ecma-262/6.0/#sec-tolength). * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a valid length, else `false`. * @example * * _.isLength(3); * // => true * * _.isLength(Number.MIN_VALUE); * // => false * * _.isLength(Infinity); * // => false * * _.isLength('3'); * // => false */ function isLength(value) { return typeof value == 'number' && value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER; } /** * Checks if `value` is the [language type](https://es5.github.io/#x8) of `Object`. * (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`) * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an object, else `false`. * @example * * _.isObject({}); * // => true * * _.isObject([1, 2, 3]); * // => true * * _.isObject(_.noop); * // => true * * _.isObject(null); * // => false */ function isObject(value) { var type = typeof value; return !!value && (type == 'object' || type == 'function'); } /** * Checks if `value` is object-like. A value is object-like if it's not `null` * and has a `typeof` result of "object". * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is object-like, else `false`. * @example * * _.isObjectLike({}); * // => true * * _.isObjectLike([1, 2, 3]); * // => true * * _.isObjectLike(_.noop); * // => false * * _.isObjectLike(null); * // => false */ function isObjectLike(value) { return !!value && typeof value == 'object'; } /** * Checks if `value` is classified as a `Map` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isMap(new Map); * // => true * * _.isMap(new WeakMap); * // => false */ function isMap(value) { return isObjectLike(value) && getTag(value) == mapTag; } /** * Performs a deep comparison between `object` and `source` to determine if * `object` contains equivalent property values. * * **Note:** This method supports comparing the same values as `_.isEqual`. * * @static * @memberOf _ * @category Lang * @param {Object} object The object to inspect. * @param {Object} source The object of property values to match. * @returns {boolean} Returns `true` if `object` is a match, else `false`. * @example * * var object = { 'user': 'fred', 'age': 40 }; * * _.isMatch(object, { 'age': 40 }); * // => true * * _.isMatch(object, { 'age': 36 }); * // => false */ function isMatch(object, source) { return object === source || baseIsMatch(object, source, getMatchData(source)); } /** * This method is like `_.isMatch` except that it accepts `customizer` which * is invoked to compare values. If `customizer` returns `undefined` comparisons * are handled by the method instead. The `customizer` is invoked with five * arguments: (objValue, srcValue, index|key, object, source). * * @static * @memberOf _ * @category Lang * @param {Object} object The object to inspect. * @param {Object} source The object of property values to match. * @param {Function} [customizer] The function to customize comparisons. * @returns {boolean} Returns `true` if `object` is a match, else `false`. * @example * * function isGreeting(value) { * return /^h(?:i|ello)$/.test(value); * } * * function customizer(objValue, srcValue) { * if (isGreeting(objValue) && isGreeting(srcValue)) { * return true; * } * } * * var object = { 'greeting': 'hello' }; * var source = { 'greeting': 'hi' }; * * _.isMatchWith(object, source, customizer); * // => true */ function isMatchWith(object, source, customizer) { customizer = typeof customizer == 'function' ? customizer : undefined; return baseIsMatch(object, source, getMatchData(source), customizer); } /** * Checks if `value` is `NaN`. * * **Note:** This method is not the same as [`isNaN`](https://es5.github.io/#x15.1.2.4) * which returns `true` for `undefined` and other non-numeric values. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is `NaN`, else `false`. * @example * * _.isNaN(NaN); * // => true * * _.isNaN(new Number(NaN)); * // => true * * isNaN(undefined); * // => true * * _.isNaN(undefined); * // => false */ function isNaN(value) { // An `NaN` primitive is the only value that is not equal to itself. // Perform the `toStringTag` check first to avoid errors with some ActiveX objects in IE. return isNumber(value) && value != +value; } /** * Checks if `value` is a native function. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a native function, else `false`. * @example * * _.isNative(Array.prototype.push); * // => true * * _.isNative(_); * // => false */ function isNative(value) { if (value == null) { return false; } if (isFunction(value)) { return reIsNative.test(funcToString.call(value)); } return isObjectLike(value) && (isHostObject(value) ? reIsNative : reIsHostCtor).test(value); } /** * Checks if `value` is `null`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is `null`, else `false`. * @example * * _.isNull(null); * // => true * * _.isNull(void 0); * // => false */ function isNull(value) { return value === null; } /** * Checks if `value` is `null` or `undefined`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is nullish, else `false`. * @example * * _.isNil(null); * // => true * * _.isNil(void 0); * // => true * * _.isNil(NaN); * // => false */ function isNil(value) { return value == null; } /** * Checks if `value` is classified as a `Number` primitive or object. * * **Note:** To exclude `Infinity`, `-Infinity`, and `NaN`, which are classified * as numbers, use the `_.isFinite` method. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isNumber(3); * // => true * * _.isNumber(Number.MIN_VALUE); * // => true * * _.isNumber(Infinity); * // => true * * _.isNumber('3'); * // => false */ function isNumber(value) { return typeof value == 'number' || (isObjectLike(value) && objectToString.call(value) == numberTag); } /** * Checks if `value` is a plain object, that is, an object created by the * `Object` constructor or one with a `[[Prototype]]` of `null`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a plain object, else `false`. * @example * * function Foo() { * this.a = 1; * } * * _.isPlainObject(new Foo); * // => false * * _.isPlainObject([1, 2, 3]); * // => false * * _.isPlainObject({ 'x': 0, 'y': 0 }); * // => true * * _.isPlainObject(Object.create(null)); * // => true */ function isPlainObject(value) { if (!isObjectLike(value) || objectToString.call(value) != objectTag || isHostObject(value)) { return false; } var proto = objectProto; if (typeof value.constructor == 'function') { proto = getPrototypeOf(value); } if (proto === null) { return true; } var Ctor = proto.constructor; return (typeof Ctor == 'function' && Ctor instanceof Ctor && funcToString.call(Ctor) == objectCtorString); } /** * Checks if `value` is classified as a `RegExp` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isRegExp(/abc/); * // => true * * _.isRegExp('/abc/'); * // => false */ function isRegExp(value) { return isObject(value) && objectToString.call(value) == regexpTag; } /** * Checks if `value` is a safe integer. An integer is safe if it's an IEEE-754 * double precision number which isn't the result of a rounded unsafe integer. * * **Note:** This method is based on [`Number.isSafeInteger`](https://mdn.io/Number/isSafeInteger). * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a safe integer, else `false`. * @example * * _.isSafeInteger(3); * // => true * * _.isSafeInteger(Number.MIN_VALUE); * // => false * * _.isSafeInteger(Infinity); * // => false * * _.isSafeInteger('3'); * // => false */ function isSafeInteger(value) { return isInteger(value) && value >= -MAX_SAFE_INTEGER && value <= MAX_SAFE_INTEGER; } /** * Checks if `value` is classified as a `Set` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isSet(new Set); * // => true * * _.isSet(new WeakSet); * // => false */ function isSet(value) { return isObjectLike(value) && getTag(value) == setTag; } /** * Checks if `value` is classified as a `String` primitive or object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isString('abc'); * // => true * * _.isString(1); * // => false */ function isString(value) { return typeof value == 'string' || (!isArray(value) && isObjectLike(value) && objectToString.call(value) == stringTag); } /** * Checks if `value` is classified as a `Symbol` primitive or object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isSymbol(Symbol.iterator); * // => true * * _.isSymbol('abc'); * // => false */ function isSymbol(value) { return typeof value == 'symbol' || (isObjectLike(value) && objectToString.call(value) == symbolTag); } /** * Checks if `value` is classified as a typed array. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isTypedArray(new Uint8Array); * // => true * * _.isTypedArray([]); * // => false */ function isTypedArray(value) { return isObjectLike(value) && isLength(value.length) && !!typedArrayTags[objectToString.call(value)]; } /** * Checks if `value` is `undefined`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is `undefined`, else `false`. * @example * * _.isUndefined(void 0); * // => true * * _.isUndefined(null); * // => false */ function isUndefined(value) { return value === undefined; } /** * Checks if `value` is classified as a `WeakMap` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isWeakMap(new WeakMap); * // => true * * _.isWeakMap(new Map); * // => false */ function isWeakMap(value) { return isObjectLike(value) && getTag(value) == weakMapTag; } /** * Checks if `value` is classified as a `WeakSet` object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is correctly classified, else `false`. * @example * * _.isWeakSet(new WeakSet); * // => true * * _.isWeakSet(new Set); * // => false */ function isWeakSet(value) { return isObjectLike(value) && objectToString.call(value) == weakSetTag; } /** * Checks if `value` is less than `other`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if `value` is less than `other`, else `false`. * @example * * _.lt(1, 3); * // => true * * _.lt(3, 3); * // => false * * _.lt(3, 1); * // => false */ function lt(value, other) { return value < other; } /** * Checks if `value` is less than or equal to `other`. * * @static * @memberOf _ * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if `value` is less than or equal to `other`, else `false`. * @example * * _.lte(1, 3); * // => true * * _.lte(3, 3); * // => true * * _.lte(3, 1); * // => false */ function lte(value, other) { return value <= other; } /** * Converts `value` to an array. * * @static * @memberOf _ * @category Lang * @param {*} value The value to convert. * @returns {Array} Returns the converted array. * @example * * _.toArray({ 'a': 1, 'b': 2 }); * // => [1, 2] * * _.toArray('abc'); * // => ['a', 'b', 'c'] * * _.toArray(1); * // => [] * * _.toArray(null); * // => [] */ function toArray(value) { if (!value) { return []; } if (isArrayLike(value)) { return isString(value) ? stringToArray(value) : copyArray(value); } if (iteratorSymbol && value[iteratorSymbol]) { return iteratorToArray(value[iteratorSymbol]()); } var tag = getTag(value), func = tag == mapTag ? mapToArray : (tag == setTag ? setToArray : values); return func(value); } /** * Converts `value` to an integer. * * **Note:** This function is loosely based on [`ToInteger`](http://www.ecma-international.org/ecma-262/6.0/#sec-tointeger). * * @static * @memberOf _ * @category Lang * @param {*} value The value to convert. * @returns {number} Returns the converted integer. * @example * * _.toInteger(3); * // => 3 * * _.toInteger(Number.MIN_VALUE); * // => 0 * * _.toInteger(Infinity); * // => 1.7976931348623157e+308 * * _.toInteger('3'); * // => 3 */ function toInteger(value) { if (!value) { return value === 0 ? value : 0; } value = toNumber(value); if (value === INFINITY || value === -INFINITY) { var sign = (value < 0 ? -1 : 1); return sign * MAX_INTEGER; } var remainder = value % 1; return value === value ? (remainder ? value - remainder : value) : 0; } /** * Converts `value` to an integer suitable for use as the length of an * array-like object. * * **Note:** This method is based on [`ToLength`](http://ecma-international.org/ecma-262/6.0/#sec-tolength). * * @static * @memberOf _ * @category Lang * @param {*} value The value to convert. * @returns {number} Returns the converted integer. * @example * * _.toLength(3); * // => 3 * * _.toLength(Number.MIN_VALUE); * // => 0 * * _.toLength(Infinity); * // => 4294967295 * * _.toLength('3'); * // => 3 */ function toLength(value) { return value ? baseClamp(toInteger(value), 0, MAX_ARRAY_LENGTH) : 0; } /** * Converts `value` to a number. * * @static * @memberOf _ * @category Lang * @param {*} value The value to process. * @returns {number} Returns the number. * @example * * _.toNumber(3); * // => 3 * * _.toNumber(Number.MIN_VALUE); * // => 5e-324 * * _.toNumber(Infinity); * // => Infinity * * _.toNumber('3'); * // => 3 */ function toNumber(value) { if (isObject(value)) { var other = isFunction(value.valueOf) ? value.valueOf() : value; value = isObject(other) ? (other + '') : other; } if (typeof value != 'string') { return value === 0 ? value : +value; } value = value.replace(reTrim, ''); var isBinary = reIsBinary.test(value); return (isBinary || reIsOctal.test(value)) ? freeParseInt(value.slice(2), isBinary ? 2 : 8) : (reIsBadHex.test(value) ? NAN : +value); } /** * Converts `value` to a plain object flattening inherited enumerable * properties of `value` to own properties of the plain object. * * @static * @memberOf _ * @category Lang * @param {*} value The value to convert. * @returns {Object} Returns the converted plain object. * @example * * function Foo() { * this.b = 2; * } * * Foo.prototype.c = 3; * * _.assign({ 'a': 1 }, new Foo); * // => { 'a': 1, 'b': 2 } * * _.assign({ 'a': 1 }, _.toPlainObject(new Foo)); * // => { 'a': 1, 'b': 2, 'c': 3 } */ function toPlainObject(value) { return copyObject(value, keysIn(value)); } /** * Converts `value` to a safe integer. A safe integer can be compared and * represented correctly. * * @static * @memberOf _ * @category Lang * @param {*} value The value to convert. * @returns {number} Returns the converted integer. * @example * * _.toSafeInteger(3); * // => 3 * * _.toSafeInteger(Number.MIN_VALUE); * // => 0 * * _.toSafeInteger(Infinity); * // => 9007199254740991 * * _.toSafeInteger('3'); * // => 3 */ function toSafeInteger(value) { return baseClamp(toInteger(value), -MAX_SAFE_INTEGER, MAX_SAFE_INTEGER); } /** * Converts `value` to a string if it's not one. An empty string is returned * for `null` and `undefined` values. The sign of `-0` is preserved. * * @static * @memberOf _ * @category Lang * @param {*} value The value to process. * @returns {string} Returns the string. * @example * * _.toString(null); * // => '' * * _.toString(-0); * // => '-0' * * _.toString([1, 2, 3]); * // => '1,2,3' */ function toString(value) { // Exit early for strings to avoid a performance hit in some environments. if (typeof value == 'string') { return value; } if (value == null) { return ''; } if (isSymbol(value)) { return Symbol ? symbolToString.call(value) : ''; } var result = (value + ''); return (result == '0' && (1 / value) == -INFINITY) ? '-0' : result; } /*------------------------------------------------------------------------*/ /** * Assigns own enumerable properties of source objects to the destination * object. Source objects are applied from left to right. Subsequent sources * overwrite property assignments of previous sources. * * **Note:** This method mutates `object` and is loosely based on * [`Object.assign`](https://mdn.io/Object/assign). * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} [sources] The source objects. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.c = 3; * } * * function Bar() { * this.e = 5; * } * * Foo.prototype.d = 4; * Bar.prototype.f = 6; * * _.assign({ 'a': 1 }, new Foo, new Bar); * // => { 'a': 1, 'c': 3, 'e': 5 } */ var assign = createAssigner(function(object, source) { copyObject(source, keys(source), object); }); /** * This method is like `_.assign` except that it iterates over own and * inherited source properties. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @alias extend * @category Object * @param {Object} object The destination object. * @param {...Object} [sources] The source objects. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.b = 2; * } * * function Bar() { * this.d = 4; * } * * Foo.prototype.c = 3; * Bar.prototype.e = 5; * * _.assignIn({ 'a': 1 }, new Foo, new Bar); * // => { 'a': 1, 'b': 2, 'c': 3, 'd': 4, 'e': 5 } */ var assignIn = createAssigner(function(object, source) { copyObject(source, keysIn(source), object); }); /** * This method is like `_.assignIn` except that it accepts `customizer` which * is invoked to produce the assigned values. If `customizer` returns `undefined` * assignment is handled by the method instead. The `customizer` is invoked * with five arguments: (objValue, srcValue, key, object, source). * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @alias extendWith * @category Object * @param {Object} object The destination object. * @param {...Object} sources The source objects. * @param {Function} [customizer] The function to customize assigned values. * @returns {Object} Returns `object`. * @example * * function customizer(objValue, srcValue) { * return _.isUndefined(objValue) ? srcValue : objValue; * } * * var defaults = _.partialRight(_.assignInWith, customizer); * * defaults({ 'a': 1 }, { 'b': 2 }, { 'a': 3 }); * // => { 'a': 1, 'b': 2 } */ var assignInWith = createAssigner(function(object, source, srcIndex, customizer) { copyObjectWith(source, keysIn(source), object, customizer); }); /** * This method is like `_.assign` except that it accepts `customizer` which * is invoked to produce the assigned values. If `customizer` returns `undefined` * assignment is handled by the method instead. The `customizer` is invoked * with five arguments: (objValue, srcValue, key, object, source). * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} sources The source objects. * @param {Function} [customizer] The function to customize assigned values. * @returns {Object} Returns `object`. * @example * * function customizer(objValue, srcValue) { * return _.isUndefined(objValue) ? srcValue : objValue; * } * * var defaults = _.partialRight(_.assignWith, customizer); * * defaults({ 'a': 1 }, { 'b': 2 }, { 'a': 3 }); * // => { 'a': 1, 'b': 2 } */ var assignWith = createAssigner(function(object, source, srcIndex, customizer) { copyObjectWith(source, keys(source), object, customizer); }); /** * Creates an array of values corresponding to `paths` of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {...(string|string[])} [paths] The property paths of elements to pick, * specified individually or in arrays. * @returns {Array} Returns the new array of picked elements. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }, 4] }; * * _.at(object, ['a[0].b.c', 'a[1]']); * // => [3, 4] * * _.at(['a', 'b', 'c'], 0, 2); * // => ['a', 'c'] */ var at = rest(function(object, paths) { return baseAt(object, baseFlatten(paths)); }); /** * Creates an object that inherits from the `prototype` object. If a `properties` * object is given its own enumerable properties are assigned to the created object. * * @static * @memberOf _ * @category Object * @param {Object} prototype The object to inherit from. * @param {Object} [properties] The properties to assign to the object. * @returns {Object} Returns the new object. * @example * * function Shape() { * this.x = 0; * this.y = 0; * } * * function Circle() { * Shape.call(this); * } * * Circle.prototype = _.create(Shape.prototype, { * 'constructor': Circle * }); * * var circle = new Circle; * circle instanceof Circle; * // => true * * circle instanceof Shape; * // => true */ function create(prototype, properties) { var result = baseCreate(prototype); return properties ? baseAssign(result, properties) : result; } /** * Assigns own and inherited enumerable properties of source objects to the * destination object for all destination properties that resolve to `undefined`. * Source objects are applied from left to right. Once a property is set, * additional values of the same property are ignored. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} [sources] The source objects. * @returns {Object} Returns `object`. * @example * * _.defaults({ 'user': 'barney' }, { 'age': 36 }, { 'user': 'fred' }); * // => { 'user': 'barney', 'age': 36 } */ var defaults = rest(function(args) { args.push(undefined, assignInDefaults); return apply(assignInWith, undefined, args); }); /** * This method is like `_.defaults` except that it recursively assigns * default properties. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} [sources] The source objects. * @returns {Object} Returns `object`. * @example * * _.defaultsDeep({ 'user': { 'name': 'barney' } }, { 'user': { 'name': 'fred', 'age': 36 } }); * // => { 'user': { 'name': 'barney', 'age': 36 } } * */ var defaultsDeep = rest(function(args) { args.push(undefined, mergeDefaults); return apply(mergeWith, undefined, args); }); /** * This method is like `_.find` except that it returns the key of the first * element `predicate` returns truthy for instead of the element itself. * * @static * @memberOf _ * @category Object * @param {Object} object The object to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {string|undefined} Returns the key of the matched element, else `undefined`. * @example * * var users = { * 'barney': { 'age': 36, 'active': true }, * 'fred': { 'age': 40, 'active': false }, * 'pebbles': { 'age': 1, 'active': true } * }; * * _.findKey(users, function(o) { return o.age < 40; }); * // => 'barney' (iteration order is not guaranteed) * * // The `_.matches` iteratee shorthand. * _.findKey(users, { 'age': 1, 'active': true }); * // => 'pebbles' * * // The `_.matchesProperty` iteratee shorthand. * _.findKey(users, ['active', false]); * // => 'fred' * * // The `_.property` iteratee shorthand. * _.findKey(users, 'active'); * // => 'barney' */ function findKey(object, predicate) { return baseFind(object, getIteratee(predicate, 3), baseForOwn, true); } /** * This method is like `_.findKey` except that it iterates over elements of * a collection in the opposite order. * * @static * @memberOf _ * @category Object * @param {Object} object The object to search. * @param {Function|Object|string} [predicate=_.identity] The function invoked per iteration. * @returns {string|undefined} Returns the key of the matched element, else `undefined`. * @example * * var users = { * 'barney': { 'age': 36, 'active': true }, * 'fred': { 'age': 40, 'active': false }, * 'pebbles': { 'age': 1, 'active': true } * }; * * _.findLastKey(users, function(o) { return o.age < 40; }); * // => returns 'pebbles' assuming `_.findKey` returns 'barney' * * // The `_.matches` iteratee shorthand. * _.findLastKey(users, { 'age': 36, 'active': true }); * // => 'barney' * * // The `_.matchesProperty` iteratee shorthand. * _.findLastKey(users, ['active', false]); * // => 'fred' * * // The `_.property` iteratee shorthand. * _.findLastKey(users, 'active'); * // => 'pebbles' */ function findLastKey(object, predicate) { return baseFind(object, getIteratee(predicate, 3), baseForOwnRight, true); } /** * Iterates over own and inherited enumerable properties of an object invoking * `iteratee` for each property. The iteratee is invoked with three arguments: * (value, key, object). Iteratee functions may exit iteration early by explicitly * returning `false`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.forIn(new Foo, function(value, key) { * console.log(key); * }); * // => logs 'a', 'b', then 'c' (iteration order is not guaranteed) */ function forIn(object, iteratee) { return object == null ? object : baseFor(object, toFunction(iteratee), keysIn); } /** * This method is like `_.forIn` except that it iterates over properties of * `object` in the opposite order. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.forInRight(new Foo, function(value, key) { * console.log(key); * }); * // => logs 'c', 'b', then 'a' assuming `_.forIn` logs 'a', 'b', then 'c' */ function forInRight(object, iteratee) { return object == null ? object : baseForRight(object, toFunction(iteratee), keysIn); } /** * Iterates over own enumerable properties of an object invoking `iteratee` * for each property. The iteratee is invoked with three arguments: * (value, key, object). Iteratee functions may exit iteration early by * explicitly returning `false`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.forOwn(new Foo, function(value, key) { * console.log(key); * }); * // => logs 'a' then 'b' (iteration order is not guaranteed) */ function forOwn(object, iteratee) { return object && baseForOwn(object, toFunction(iteratee)); } /** * This method is like `_.forOwn` except that it iterates over properties of * `object` in the opposite order. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns `object`. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.forOwnRight(new Foo, function(value, key) { * console.log(key); * }); * // => logs 'b' then 'a' assuming `_.forOwn` logs 'a' then 'b' */ function forOwnRight(object, iteratee) { return object && baseForOwnRight(object, toFunction(iteratee)); } /** * Creates an array of function property names from own enumerable properties * of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to inspect. * @returns {Array} Returns the new array of property names. * @example * * function Foo() { * this.a = _.constant('a'); * this.b = _.constant('b'); * } * * Foo.prototype.c = _.constant('c'); * * _.functions(new Foo); * // => ['a', 'b'] */ function functions(object) { return object == null ? [] : baseFunctions(object, keys(object)); } /** * Creates an array of function property names from own and inherited * enumerable properties of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to inspect. * @returns {Array} Returns the new array of property names. * @example * * function Foo() { * this.a = _.constant('a'); * this.b = _.constant('b'); * } * * Foo.prototype.c = _.constant('c'); * * _.functionsIn(new Foo); * // => ['a', 'b', 'c'] */ function functionsIn(object) { return object == null ? [] : baseFunctions(object, keysIn(object)); } /** * Gets the value at `path` of `object`. If the resolved value is * `undefined` the `defaultValue` is used in its place. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @param {*} [defaultValue] The value returned if the resolved value is `undefined`. * @returns {*} Returns the resolved value. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }] }; * * _.get(object, 'a[0].b.c'); * // => 3 * * _.get(object, ['a', '0', 'b', 'c']); * // => 3 * * _.get(object, 'a.b.c', 'default'); * // => 'default' */ function get(object, path, defaultValue) { var result = object == null ? undefined : baseGet(object, path); return result === undefined ? defaultValue : result; } /** * Checks if `path` is a direct property of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @returns {boolean} Returns `true` if `path` exists, else `false`. * @example * * var object = { 'a': { 'b': { 'c': 3 } } }; * var other = _.create({ 'a': _.create({ 'b': _.create({ 'c': 3 }) }) }); * * _.has(object, 'a'); * // => true * * _.has(object, 'a.b.c'); * // => true * * _.has(object, ['a', 'b', 'c']); * // => true * * _.has(other, 'a'); * // => false */ function has(object, path) { return hasPath(object, path, baseHas); } /** * Checks if `path` is a direct or inherited property of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @returns {boolean} Returns `true` if `path` exists, else `false`. * @example * * var object = _.create({ 'a': _.create({ 'b': _.create({ 'c': 3 }) }) }); * * _.hasIn(object, 'a'); * // => true * * _.hasIn(object, 'a.b.c'); * // => true * * _.hasIn(object, ['a', 'b', 'c']); * // => true * * _.hasIn(object, 'b'); * // => false */ function hasIn(object, path) { return hasPath(object, path, baseHasIn); } /** * Creates an object composed of the inverted keys and values of `object`. * If `object` contains duplicate values, subsequent values overwrite property * assignments of previous values. * * @static * @memberOf _ * @category Object * @param {Object} object The object to invert. * @returns {Object} Returns the new inverted object. * @example * * var object = { 'a': 1, 'b': 2, 'c': 1 }; * * _.invert(object); * // => { '1': 'c', '2': 'b' } */ var invert = createInverter(function(result, value, key) { result[value] = key; }, constant(identity)); /** * This method is like `_.invert` except that the inverted object is generated * from the results of running each element of `object` through `iteratee`. * The corresponding inverted value of each inverted key is an array of keys * responsible for generating the inverted value. The iteratee is invoked * with one argument: (value). * * @static * @memberOf _ * @category Object * @param {Object} object The object to invert. * @param {Function|Object|string} [iteratee=_.identity] The iteratee invoked per element. * @returns {Object} Returns the new inverted object. * @example * * var object = { 'a': 1, 'b': 2, 'c': 1 }; * * _.invertBy(object); * // => { '1': ['a', 'c'], '2': ['b'] } * * _.invertBy(object, function(value) { * return 'group' + value; * }); * // => { 'group1': ['a', 'c'], 'group2': ['b'] } */ var invertBy = createInverter(function(result, value, key) { if (hasOwnProperty.call(result, value)) { result[value].push(key); } else { result[value] = [key]; } }, getIteratee); /** * Invokes the method at `path` of `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path of the method to invoke. * @param {...*} [args] The arguments to invoke the method with. * @returns {*} Returns the result of the invoked method. * @example * * var object = { 'a': [{ 'b': { 'c': [1, 2, 3, 4] } }] }; * * _.invoke(object, 'a[0].b.c.slice', 1, 3); * // => [2, 3] */ var invoke = rest(baseInvoke); /** * Creates an array of the own enumerable property names of `object`. * * **Note:** Non-object values are coerced to objects. See the * [ES spec](http://ecma-international.org/ecma-262/6.0/#sec-object.keys) * for more details. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.keys(new Foo); * // => ['a', 'b'] (iteration order is not guaranteed) * * _.keys('hi'); * // => ['0', '1'] */ function keys(object) { var isProto = isPrototype(object); if (!(isProto || isArrayLike(object))) { return baseKeys(object); } var indexes = indexKeys(object), skipIndexes = !!indexes, result = indexes || [], length = result.length; for (var key in object) { if (baseHas(object, key) && !(skipIndexes && (key == 'length' || isIndex(key, length))) && !(isProto && key == 'constructor')) { result.push(key); } } return result; } /** * Creates an array of the own and inherited enumerable property names of `object`. * * **Note:** Non-object values are coerced to objects. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.keysIn(new Foo); * // => ['a', 'b', 'c'] (iteration order is not guaranteed) */ function keysIn(object) { var index = -1, isProto = isPrototype(object), props = baseKeysIn(object), propsLength = props.length, indexes = indexKeys(object), skipIndexes = !!indexes, result = indexes || [], length = result.length; while (++index < propsLength) { var key = props[index]; if (!(skipIndexes && (key == 'length' || isIndex(key, length))) && !(key == 'constructor' && (isProto || !hasOwnProperty.call(object, key)))) { result.push(key); } } return result; } /** * The opposite of `_.mapValues`; this method creates an object with the * same values as `object` and keys generated by running each own enumerable * property of `object` through `iteratee`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns the new mapped object. * @example * * _.mapKeys({ 'a': 1, 'b': 2 }, function(value, key) { * return key + value; * }); * // => { 'a1': 1, 'b2': 2 } */ function mapKeys(object, iteratee) { var result = {}; iteratee = getIteratee(iteratee, 3); baseForOwn(object, function(value, key, object) { result[iteratee(value, key, object)] = value; }); return result; } /** * Creates an object with the same keys as `object` and values generated by * running each own enumerable property of `object` through `iteratee`. The * iteratee function is invoked with three arguments: (value, key, object). * * @static * @memberOf _ * @category Object * @param {Object} object The object to iterate over. * @param {Function|Object|string} [iteratee=_.identity] The function invoked per iteration. * @returns {Object} Returns the new mapped object. * @example * * var users = { * 'fred': { 'user': 'fred', 'age': 40 }, * 'pebbles': { 'user': 'pebbles', 'age': 1 } * }; * * _.mapValues(users, function(o) { return o.age; }); * // => { 'fred': 40, 'pebbles': 1 } (iteration order is not guaranteed) * * // The `_.property` iteratee shorthand. * _.mapValues(users, 'age'); * // => { 'fred': 40, 'pebbles': 1 } (iteration order is not guaranteed) */ function mapValues(object, iteratee) { var result = {}; iteratee = getIteratee(iteratee, 3); baseForOwn(object, function(value, key, object) { result[key] = iteratee(value, key, object); }); return result; } /** * Recursively merges own and inherited enumerable properties of source * objects into the destination object, skipping source properties that resolve * to `undefined`. Array and plain object properties are merged recursively. * Other objects and value types are overridden by assignment. Source objects * are applied from left to right. Subsequent sources overwrite property * assignments of previous sources. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} [sources] The source objects. * @returns {Object} Returns `object`. * @example * * var users = { * 'data': [{ 'user': 'barney' }, { 'user': 'fred' }] * }; * * var ages = { * 'data': [{ 'age': 36 }, { 'age': 40 }] * }; * * _.merge(users, ages); * // => { 'data': [{ 'user': 'barney', 'age': 36 }, { 'user': 'fred', 'age': 40 }] } */ var merge = createAssigner(function(object, source, srcIndex) { baseMerge(object, source, srcIndex); }); /** * This method is like `_.merge` except that it accepts `customizer` which * is invoked to produce the merged values of the destination and source * properties. If `customizer` returns `undefined` merging is handled by the * method instead. The `customizer` is invoked with seven arguments: * (objValue, srcValue, key, object, source, stack). * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The destination object. * @param {...Object} sources The source objects. * @param {Function} customizer The function to customize assigned values. * @returns {Object} Returns `object`. * @example * * function customizer(objValue, srcValue) { * if (_.isArray(objValue)) { * return objValue.concat(srcValue); * } * } * * var object = { * 'fruits': ['apple'], * 'vegetables': ['beet'] * }; * * var other = { * 'fruits': ['banana'], * 'vegetables': ['carrot'] * }; * * _.mergeWith(object, other, customizer); * // => { 'fruits': ['apple', 'banana'], 'vegetables': ['beet', 'carrot'] } */ var mergeWith = createAssigner(function(object, source, srcIndex, customizer) { baseMerge(object, source, srcIndex, customizer); }); /** * The opposite of `_.pick`; this method creates an object composed of the * own and inherited enumerable properties of `object` that are not omitted. * * @static * @memberOf _ * @category Object * @param {Object} object The source object. * @param {...(string|string[])} [props] The property names to omit, specified * individually or in arrays.. * @returns {Object} Returns the new object. * @example * * var object = { 'a': 1, 'b': '2', 'c': 3 }; * * _.omit(object, ['a', 'c']); * // => { 'b': '2' } */ var omit = rest(function(object, props) { if (object == null) { return {}; } props = arrayMap(baseFlatten(props), String); return basePick(object, baseDifference(keysIn(object), props)); }); /** * The opposite of `_.pickBy`; this method creates an object composed of the * own and inherited enumerable properties of `object` that `predicate` * doesn't return truthy for. * * @static * @memberOf _ * @category Object * @param {Object} object The source object. * @param {Function|Object|string} [predicate=_.identity] The function invoked per property. * @returns {Object} Returns the new object. * @example * * var object = { 'a': 1, 'b': '2', 'c': 3 }; * * _.omitBy(object, _.isNumber); * // => { 'b': '2' } */ function omitBy(object, predicate) { predicate = getIteratee(predicate, 2); return basePickBy(object, function(value, key) { return !predicate(value, key); }); } /** * Creates an object composed of the picked `object` properties. * * @static * @memberOf _ * @category Object * @param {Object} object The source object. * @param {...(string|string[])} [props] The property names to pick, specified * individually or in arrays. * @returns {Object} Returns the new object. * @example * * var object = { 'a': 1, 'b': '2', 'c': 3 }; * * _.pick(object, ['a', 'c']); * // => { 'a': 1, 'c': 3 } */ var pick = rest(function(object, props) { return object == null ? {} : basePick(object, baseFlatten(props)); }); /** * Creates an object composed of the `object` properties `predicate` returns * truthy for. The predicate is invoked with two arguments: (value, key). * * @static * @memberOf _ * @category Object * @param {Object} object The source object. * @param {Function|Object|string} [predicate=_.identity] The function invoked per property. * @returns {Object} Returns the new object. * @example * * var object = { 'a': 1, 'b': '2', 'c': 3 }; * * _.pickBy(object, _.isNumber); * // => { 'a': 1, 'c': 3 } */ function pickBy(object, predicate) { return object == null ? {} : basePickBy(object, getIteratee(predicate, 2)); } /** * This method is like `_.get` except that if the resolved value is a function * it's invoked with the `this` binding of its parent object and its result * is returned. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path of the property to resolve. * @param {*} [defaultValue] The value returned if the resolved value is `undefined`. * @returns {*} Returns the resolved value. * @example * * var object = { 'a': [{ 'b': { 'c1': 3, 'c2': _.constant(4) } }] }; * * _.result(object, 'a[0].b.c1'); * // => 3 * * _.result(object, 'a[0].b.c2'); * // => 4 * * _.result(object, 'a[0].b.c3', 'default'); * // => 'default' * * _.result(object, 'a[0].b.c3', _.constant('default')); * // => 'default' */ function result(object, path, defaultValue) { if (!isKey(path, object)) { path = baseToPath(path); var result = get(object, path); object = parent(object, path); } else { result = object == null ? undefined : object[path]; } if (result === undefined) { result = defaultValue; } return isFunction(result) ? result.call(object) : result; } /** * Sets the value at `path` of `object`. If a portion of `path` doesn't exist * it's created. Arrays are created for missing index properties while objects * are created for all other missing properties. Use `_.setWith` to customize * `path` creation. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to modify. * @param {Array|string} path The path of the property to set. * @param {*} value The value to set. * @returns {Object} Returns `object`. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }] }; * * _.set(object, 'a[0].b.c', 4); * console.log(object.a[0].b.c); * // => 4 * * _.set(object, 'x[0].y.z', 5); * console.log(object.x[0].y.z); * // => 5 */ function set(object, path, value) { return object == null ? object : baseSet(object, path, value); } /** * This method is like `_.set` except that it accepts `customizer` which is * invoked to produce the objects of `path`. If `customizer` returns `undefined` * path creation is handled by the method instead. The `customizer` is invoked * with three arguments: (nsValue, key, nsObject). * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to modify. * @param {Array|string} path The path of the property to set. * @param {*} value The value to set. * @param {Function} [customizer] The function to customize assigned values. * @returns {Object} Returns `object`. * @example * * _.setWith({ '0': { 'length': 2 } }, '[0][1][2]', 3, Object); * // => { '0': { '1': { '2': 3 }, 'length': 2 } } */ function setWith(object, path, value, customizer) { customizer = typeof customizer == 'function' ? customizer : undefined; return object == null ? object : baseSet(object, path, value, customizer); } /** * Creates an array of own enumerable key-value pairs for `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the new array of key-value pairs. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.toPairs(new Foo); * // => [['a', 1], ['b', 2]] (iteration order is not guaranteed) */ function toPairs(object) { return baseToPairs(object, keys(object)); } /** * Creates an array of own and inherited enumerable key-value pairs for `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the new array of key-value pairs. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.toPairsIn(new Foo); * // => [['a', 1], ['b', 2], ['c', 1]] (iteration order is not guaranteed) */ function toPairsIn(object) { return baseToPairs(object, keysIn(object)); } /** * An alternative to `_.reduce`; this method transforms `object` to a new * `accumulator` object which is the result of running each of its own enumerable * properties through `iteratee`, with each invocation potentially mutating * the `accumulator` object. The iteratee is invoked with four arguments: * (accumulator, value, key, object). Iteratee functions may exit iteration * early by explicitly returning `false`. * * @static * @memberOf _ * @category Object * @param {Array|Object} object The object to iterate over. * @param {Function} [iteratee=_.identity] The function invoked per iteration. * @param {*} [accumulator] The custom accumulator value. * @returns {*} Returns the accumulated value. * @example * * _.transform([2, 3, 4], function(result, n) { * result.push(n *= n); * return n % 2 == 0; * }, []); * // => [4, 9] * * _.transform({ 'a': 1, 'b': 2, 'c': 1 }, function(result, value, key) { * (result[value] || (result[value] = [])).push(key); * }, {}); * // => { '1': ['a', 'c'], '2': ['b'] } */ function transform(object, iteratee, accumulator) { var isArr = isArray(object) || isTypedArray(object); iteratee = getIteratee(iteratee, 4); if (accumulator == null) { if (isArr || isObject(object)) { var Ctor = object.constructor; if (isArr) { accumulator = isArray(object) ? new Ctor : []; } else { accumulator = baseCreate(isFunction(Ctor) ? Ctor.prototype : undefined); } } else { accumulator = {}; } } (isArr ? arrayEach : baseForOwn)(object, function(value, index, object) { return iteratee(accumulator, value, index, object); }); return accumulator; } /** * Removes the property at `path` of `object`. * * **Note:** This method mutates `object`. * * @static * @memberOf _ * @category Object * @param {Object} object The object to modify. * @param {Array|string} path The path of the property to unset. * @returns {boolean} Returns `true` if the property is deleted, else `false`. * @example * * var object = { 'a': [{ 'b': { 'c': 7 } }] }; * _.unset(object, 'a[0].b.c'); * // => true * * console.log(object); * // => { 'a': [{ 'b': {} }] }; * * _.unset(object, 'a[0].b.c'); * // => true * * console.log(object); * // => { 'a': [{ 'b': {} }] }; */ function unset(object, path) { return object == null ? true : baseUnset(object, path); } /** * Creates an array of the own enumerable property values of `object`. * * **Note:** Non-object values are coerced to objects. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property values. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.values(new Foo); * // => [1, 2] (iteration order is not guaranteed) * * _.values('hi'); * // => ['h', 'i'] */ function values(object) { return object ? baseValues(object, keys(object)) : []; } /** * Creates an array of the own and inherited enumerable property values of `object`. * * **Note:** Non-object values are coerced to objects. * * @static * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property values. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.valuesIn(new Foo); * // => [1, 2, 3] (iteration order is not guaranteed) */ function valuesIn(object) { return object == null ? baseValues(object, keysIn(object)) : []; } /*------------------------------------------------------------------------*/ /** * Clamps `number` within the inclusive `lower` and `upper` bounds. * * @static * @memberOf _ * @category Number * @param {number} number The number to clamp. * @param {number} [lower] The lower bound. * @param {number} upper The upper bound. * @returns {number} Returns the clamped number. * @example * * _.clamp(-10, -5, 5); * // => -5 * * _.clamp(10, -5, 5); * // => 5 */ function clamp(number, lower, upper) { if (upper === undefined) { upper = lower; lower = undefined; } if (upper !== undefined) { upper = toNumber(upper); upper = upper === upper ? upper : 0; } if (lower !== undefined) { lower = toNumber(lower); lower = lower === lower ? lower : 0; } return baseClamp(toNumber(number), lower, upper); } /** * Checks if `n` is between `start` and up to but not including, `end`. If * `end` is not specified it's set to `start` with `start` then set to `0`. * If `start` is greater than `end` the params are swapped to support * negative ranges. * * @static * @memberOf _ * @category Number * @param {number} number The number to check. * @param {number} [start=0] The start of the range. * @param {number} end The end of the range. * @returns {boolean} Returns `true` if `number` is in the range, else `false`. * @example * * _.inRange(3, 2, 4); * // => true * * _.inRange(4, 8); * // => true * * _.inRange(4, 2); * // => false * * _.inRange(2, 2); * // => false * * _.inRange(1.2, 2); * // => true * * _.inRange(5.2, 4); * // => false * * _.inRange(-3, -2, -6); * // => true */ function inRange(number, start, end) { start = toNumber(start) || 0; if (end === undefined) { end = start; start = 0; } else { end = toNumber(end) || 0; } number = toNumber(number); return baseInRange(number, start, end); } /** * Produces a random number between the inclusive `lower` and `upper` bounds. * If only one argument is provided a number between `0` and the given number * is returned. If `floating` is `true`, or either `lower` or `upper` are floats, * a floating-point number is returned instead of an integer. * * **Note:** JavaScript follows the IEEE-754 standard for resolving * floating-point values which can produce unexpected results. * * @static * @memberOf _ * @category Number * @param {number} [lower=0] The lower bound. * @param {number} [upper=1] The upper bound. * @param {boolean} [floating] Specify returning a floating-point number. * @returns {number} Returns the random number. * @example * * _.random(0, 5); * // => an integer between 0 and 5 * * _.random(5); * // => also an integer between 0 and 5 * * _.random(5, true); * // => a floating-point number between 0 and 5 * * _.random(1.2, 5.2); * // => a floating-point number between 1.2 and 5.2 */ function random(lower, upper, floating) { if (floating && typeof floating != 'boolean' && isIterateeCall(lower, upper, floating)) { upper = floating = undefined; } if (floating === undefined) { if (typeof upper == 'boolean') { floating = upper; upper = undefined; } else if (typeof lower == 'boolean') { floating = lower; lower = undefined; } } if (lower === undefined && upper === undefined) { lower = 0; upper = 1; } else { lower = toNumber(lower) || 0; if (upper === undefined) { upper = lower; lower = 0; } else { upper = toNumber(upper) || 0; } } if (lower > upper) { var temp = lower; lower = upper; upper = temp; } if (floating || lower % 1 || upper % 1) { var rand = nativeRandom(); return nativeMin(lower + (rand * (upper - lower + freeParseFloat('1e-' + ((rand + '').length - 1)))), upper); } return baseRandom(lower, upper); } /*------------------------------------------------------------------------*/ /** * Converts `string` to [camel case](https://en.wikipedia.org/wiki/CamelCase). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the camel cased string. * @example * * _.camelCase('Foo Bar'); * // => 'fooBar' * * _.camelCase('--foo-bar'); * // => 'fooBar' * * _.camelCase('__foo_bar__'); * // => 'fooBar' */ var camelCase = createCompounder(function(result, word, index) { word = word.toLowerCase(); return result + (index ? capitalize(word) : word); }); /** * Converts the first character of `string` to upper case and the remaining * to lower case. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to capitalize. * @returns {string} Returns the capitalized string. * @example * * _.capitalize('FRED'); * // => 'Fred' */ function capitalize(string) { return upperFirst(toString(string).toLowerCase()); } /** * Deburrs `string` by converting [latin-1 supplementary letters](https://en.wikipedia.org/wiki/Latin-1_Supplement_(Unicode_block)#Character_table) * to basic latin letters and removing [combining diacritical marks](https://en.wikipedia.org/wiki/Combining_Diacritical_Marks). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to deburr. * @returns {string} Returns the deburred string. * @example * * _.deburr('déjà vu'); * // => 'deja vu' */ function deburr(string) { string = toString(string); return string && string.replace(reLatin1, deburrLetter).replace(reComboMark, ''); } /** * Checks if `string` ends with the given target string. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to search. * @param {string} [target] The string to search for. * @param {number} [position=string.length] The position to search from. * @returns {boolean} Returns `true` if `string` ends with `target`, else `false`. * @example * * _.endsWith('abc', 'c'); * // => true * * _.endsWith('abc', 'b'); * // => false * * _.endsWith('abc', 'b', 2); * // => true */ function endsWith(string, target, position) { string = toString(string); target = typeof target == 'string' ? target : (target + ''); var length = string.length; position = position === undefined ? length : baseClamp(toInteger(position), 0, length); position -= target.length; return position >= 0 && string.indexOf(target, position) == position; } /** * Converts the characters "&", "<", ">", '"', "'", and "\`" in `string` to * their corresponding HTML entities. * * **Note:** No other characters are escaped. To escape additional * characters use a third-party library like [_he_](https://mths.be/he). * * Though the ">" character is escaped for symmetry, characters like * ">" and "/" don't need escaping in HTML and have no special meaning * unless they're part of a tag or unquoted attribute value. * See [Mathias Bynens's article](https://mathiasbynens.be/notes/ambiguous-ampersands) * (under "semi-related fun fact") for more details. * * Backticks are escaped because in IE < 9, they can break out of * attribute values or HTML comments. See [#59](https://html5sec.org/#59), * [#102](https://html5sec.org/#102), [#108](https://html5sec.org/#108), and * [#133](https://html5sec.org/#133) of the [HTML5 Security Cheatsheet](https://html5sec.org/) * for more details. * * When working with HTML you should always [quote attribute values](http://wonko.com/post/html-escaping) * to reduce XSS vectors. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to escape. * @returns {string} Returns the escaped string. * @example * * _.escape('fred, barney, & pebbles'); * // => 'fred, barney, & pebbles' */ function escape(string) { string = toString(string); return (string && reHasUnescapedHtml.test(string)) ? string.replace(reUnescapedHtml, escapeHtmlChar) : string; } /** * Escapes the `RegExp` special characters "^", "$", "\", ".", "*", "+", * "?", "(", ")", "[", "]", "{", "}", and "|" in `string`. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to escape. * @returns {string} Returns the escaped string. * @example * * _.escapeRegExp('[lodash](https://lodash.com/)'); * // => '\[lodash\]\(https://lodash\.com/\)' */ function escapeRegExp(string) { string = toString(string); return (string && reHasRegExpChar.test(string)) ? string.replace(reRegExpChar, '\\$&') : string; } /** * Converts `string` to [kebab case](https://en.wikipedia.org/wiki/Letter_case#Special_case_styles). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the kebab cased string. * @example * * _.kebabCase('Foo Bar'); * // => 'foo-bar' * * _.kebabCase('fooBar'); * // => 'foo-bar' * * _.kebabCase('__foo_bar__'); * // => 'foo-bar' */ var kebabCase = createCompounder(function(result, word, index) { return result + (index ? '-' : '') + word.toLowerCase(); }); /** * Converts `string`, as space separated words, to lower case. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the lower cased string. * @example * * _.lowerCase('--Foo-Bar'); * // => 'foo bar' * * _.lowerCase('fooBar'); * // => 'foo bar' * * _.lowerCase('__FOO_BAR__'); * // => 'foo bar' */ var lowerCase = createCompounder(function(result, word, index) { return result + (index ? ' ' : '') + word.toLowerCase(); }); /** * Converts the first character of `string` to lower case. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the converted string. * @example * * _.lowerFirst('Fred'); * // => 'fred' * * _.lowerFirst('FRED'); * // => 'fRED' */ var lowerFirst = createCaseFirst('toLowerCase'); /** * Converts the first character of `string` to upper case. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the converted string. * @example * * _.upperFirst('fred'); * // => 'Fred' * * _.upperFirst('FRED'); * // => 'FRED' */ var upperFirst = createCaseFirst('toUpperCase'); /** * Pads `string` on the left and right sides if it's shorter than `length`. * Padding characters are truncated if they can't be evenly divided by `length`. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to pad. * @param {number} [length=0] The padding length. * @param {string} [chars=' '] The string used as padding. * @returns {string} Returns the padded string. * @example * * _.pad('abc', 8); * // => ' abc ' * * _.pad('abc', 8, '_-'); * // => '_-abc_-_' * * _.pad('abc', 3); * // => 'abc' */ function pad(string, length, chars) { string = toString(string); length = toInteger(length); var strLength = stringSize(string); if (!length || strLength >= length) { return string; } var mid = (length - strLength) / 2, leftLength = nativeFloor(mid), rightLength = nativeCeil(mid); return createPadding('', leftLength, chars) + string + createPadding('', rightLength, chars); } /** * Pads `string` on the right side if it's shorter than `length`. Padding * characters are truncated if they exceed `length`. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to pad. * @param {number} [length=0] The padding length. * @param {string} [chars=' '] The string used as padding. * @returns {string} Returns the padded string. * @example * * _.padEnd('abc', 6); * // => 'abc ' * * _.padEnd('abc', 6, '_-'); * // => 'abc_-_' * * _.padEnd('abc', 3); * // => 'abc' */ function padEnd(string, length, chars) { string = toString(string); return string + createPadding(string, length, chars); } /** * Pads `string` on the left side if it's shorter than `length`. Padding * characters are truncated if they exceed `length`. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to pad. * @param {number} [length=0] The padding length. * @param {string} [chars=' '] The string used as padding. * @returns {string} Returns the padded string. * @example * * _.padStart('abc', 6); * // => ' abc' * * _.padStart('abc', 6, '_-'); * // => '_-_abc' * * _.padStart('abc', 3); * // => 'abc' */ function padStart(string, length, chars) { string = toString(string); return createPadding(string, length, chars) + string; } /** * Converts `string` to an integer of the specified radix. If `radix` is * `undefined` or `0`, a `radix` of `10` is used unless `value` is a hexadecimal, * in which case a `radix` of `16` is used. * * **Note:** This method aligns with the [ES5 implementation](https://es5.github.io/#x15.1.2.2) * of `parseInt`. * * @static * @memberOf _ * @category String * @param {string} string The string to convert. * @param {number} [radix] The radix to interpret `value` by. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {number} Returns the converted integer. * @example * * _.parseInt('08'); * // => 8 * * _.map(['6', '08', '10'], _.parseInt); * // => [6, 8, 10] */ function parseInt(string, radix, guard) { // Chrome fails to trim leading whitespace characters. // See https://code.google.com/p/v8/issues/detail?id=3109 for more details. if (guard || radix == null) { radix = 0; } else if (radix) { radix = +radix; } string = toString(string).replace(reTrim, ''); return nativeParseInt(string, radix || (reHasHexPrefix.test(string) ? 16 : 10)); } /** * Repeats the given string `n` times. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to repeat. * @param {number} [n=0] The number of times to repeat the string. * @returns {string} Returns the repeated string. * @example * * _.repeat('*', 3); * // => '***' * * _.repeat('abc', 2); * // => 'abcabc' * * _.repeat('abc', 0); * // => '' */ function repeat(string, n) { string = toString(string); n = toInteger(n); var result = ''; if (!string || n < 1 || n > MAX_SAFE_INTEGER) { return result; } // Leverage the exponentiation by squaring algorithm for a faster repeat. // See https://en.wikipedia.org/wiki/Exponentiation_by_squaring for more details. do { if (n % 2) { result += string; } n = nativeFloor(n / 2); string += string; } while (n); return result; } /** * Replaces matches for `pattern` in `string` with `replacement`. * * **Note:** This method is based on [`String#replace`](https://mdn.io/String/replace). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to modify. * @param {RegExp|string} pattern The pattern to replace. * @param {Function|string} replacement The match replacement. * @returns {string} Returns the modified string. * @example * * _.replace('Hi Fred', 'Fred', 'Barney'); * // => 'Hi Barney' */ function replace() { var args = arguments, string = toString(args[0]); return args.length < 3 ? string : string.replace(args[1], args[2]); } /** * Converts `string` to [snake case](https://en.wikipedia.org/wiki/Snake_case). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the snake cased string. * @example * * _.snakeCase('Foo Bar'); * // => 'foo_bar' * * _.snakeCase('fooBar'); * // => 'foo_bar' * * _.snakeCase('--foo-bar'); * // => 'foo_bar' */ var snakeCase = createCompounder(function(result, word, index) { return result + (index ? '_' : '') + word.toLowerCase(); }); /** * Splits `string` by `separator`. * * **Note:** This method is based on [`String#split`](https://mdn.io/String/split). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to split. * @param {RegExp|string} separator The separator pattern to split by. * @param {number} [limit] The length to truncate results to. * @returns {Array} Returns the new array of string segments. * @example * * _.split('a-b-c', '-', 2); * // => ['a', 'b'] */ function split(string, separator, limit) { return toString(string).split(separator, limit); } /** * Converts `string` to [start case](https://en.wikipedia.org/wiki/Letter_case#Stylistic_or_specialised_usage). * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to convert. * @returns {string} Returns the start cased string. * @example * * _.startCase('--foo-bar'); * // => 'Foo Bar' * * _.startCase('fooBar'); * // => 'Foo Bar' * * _.startCase('__foo_bar__'); * // => 'Foo Bar' */ var startCase = createCompounder(function(result, word, index) { return result + (index ? ' ' : '') + capitalize(word); }); /** * Checks if `string` starts with the given target string. * * @static * @memberOf _ * @category String * @param {string} [string=''] The string to search. * @param {string} [target] The string to search for. * @param {number} [position=0] The position to search from. * @returns {boolean} Returns `true` if `string` starts with `target`, else `false`. * @example * * _.startsWith('abc', 'a'); * // => true * * _.startsWith('abc', 'b'); * // => false * * _.startsWith('abc', 'b', 1); * // => true */ function startsWith(string, target, position) { string = toString(string); position = baseClamp(toInteger(position), 0, string.length); return string.lastIndexOf(target, position) == position; } /** * Creates a compiled template function that can interpolate data properties * in "interpolate" delimiters, HTML-escape interpolated data properties in * "escape" delimiters, and execute JavaScript in "evaluate" delimiters. Data * properties may be accessed as free variables in the template. If a setting * object is given it takes precedence over `_.templateSettings` values. * * **Note:** In the development build `_.template` utilizes * [sourceURLs](http://www.html5rocks.com/en/tutorials/developertools/sourcemaps/#toc-sourceurl) * for easier debugging. * * For more information on precompiling templates see * [lodash's custom builds documentation](https://lodash.com/custom-builds). * * For more information on Chrome extension sandboxes see * [Chrome's extensions documentation](https://developer.chrome.com/extensions/sandboxingEval). * * @static * @memberOf _ * @category String * @param {string} [string=''] The template string. * @param {Object} [options] The options object. * @param {RegExp} [options.escape] The HTML "escape" delimiter. * @param {RegExp} [options.evaluate] The "evaluate" delimiter. * @param {Object} [options.imports] An object to import into the template as free variables. * @param {RegExp} [options.interpolate] The "interpolate" delimiter. * @param {string} [options.sourceURL] The sourceURL of the template's compiled source. * @param {string} [options.variable] The data object variable name. * @param- {Object} [guard] Enables use as an iteratee for functions like `_.map`. * @returns {Function} Returns the compiled template function. * @example * * // Use the "interpolate" delimiter to create a compiled template. * var compiled = _.template('hello <%= user %>!'); * compiled({ 'user': 'fred' }); * // => 'hello fred!' * * // Use the HTML "escape" delimiter to escape data property values. * var compiled = _.template('<%- value %>'); * compiled({ 'value': '