// http://geoexamples.com/d3-composite-projections/ Version 1.1.1. Copyright 2017 Roger Veciana i Rovira. (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('d3-geo'), require('d3-path')) : typeof define === 'function' && define.amd ? define(['exports', 'd3-geo', 'd3-path'], factory) : (factory((global.d3 = global.d3 || {}),global.d3,global.d3)); }(this, function (exports,d3Geo,d3Path) { 'use strict'; var epsilon = 1e-6; function noop() {} var x0 = Infinity; var y0 = x0; var x1 = -x0; var y1 = x1; var boundsStream = { point: boundsPoint, lineStart: noop, lineEnd: noop, polygonStart: noop, polygonEnd: noop, result: function() { var bounds = [[x0, y0], [x1, y1]]; x1 = y1 = -(y0 = x0 = Infinity); return bounds; } }; function boundsPoint(x, y) { if (x < x0) x0 = x; if (x > x1) x1 = x; if (y < y0) y0 = y; if (y > y1) y1 = y; } function fitExtent(projection, extent, object) { var w = extent[1][0] - extent[0][0], h = extent[1][1] - extent[0][1], clip = projection.clipExtent && projection.clipExtent(); projection .scale(150) .translate([0, 0]); if (clip != null) projection.clipExtent(null); d3Geo.geoStream(object, projection.stream(boundsStream)); var b = boundsStream.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) projection.clipExtent(clip); return projection .scale(k * 150) .translate([x, y]); } function fitSize(projection, size, object) { return fitExtent(projection, [[0, 0], size], object); } // 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 = d3Geo.geoAlbers(), lower48Point, alaska = d3Geo.geoConicEqualArea().rotate([154, 0]).center([-2, 58.5]).parallels([55, 65]), alaskaPoint, // EPSG:3338 hawaii = d3Geo.geoConicEqualArea().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 reset(); }; 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, y + 0.120 * k + epsilon], [x - 0.214 * k - epsilon, y + 0.234 * k - epsilon]]) .stream(pointStream); hawaiiPoint = hawaii .translate([x - 0.205 * k, y + 0.212 * k]) .clipExtent([[x - 0.214 * k + epsilon, y + 0.166 * k + epsilon], [x - 0.115 * k - epsilon, y + 0.234 * k - epsilon]]) .stream(pointStream); return reset(); }; albersUsa.fitExtent = function(extent, object) { return fitExtent(albersUsa, extent, object); }; albersUsa.fitSize = function(size, object) { return fitSize(albersUsa, size, object); }; function reset() { cache = cacheStream = null; return albersUsa; } albersUsa.drawCompositionBorders = function(context) { var hawaii1 = lower48([-102.91, 26.3]); var hawaii2 = lower48([-104.0, 27.5]); var hawaii3 = lower48([-108.0, 29.1]); var hawaii4 = lower48([-110.0, 29.1]); var alaska1 = lower48([-110.0, 26.7]); var alaska2 = lower48([-112.8, 27.6]); var alaska3 = lower48([-114.3, 30.6]); var alaska4 = lower48([-119.3, 30.1]); context.moveTo(hawaii1[0], hawaii1[1]); context.lineTo(hawaii2[0], hawaii2[1]); context.lineTo(hawaii3[0], hawaii3[1]); context.lineTo(hawaii4[0], hawaii4[1]); context.moveTo(alaska1[0], alaska1[1]); context.lineTo(alaska2[0], alaska2[1]); context.lineTo(alaska3[0], alaska3[1]); context.lineTo(alaska4[0], alaska4[1]); }; albersUsa.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return albersUsa.scale(1070); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$1(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. Also works quite well at 960×600 with scale 1285. 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 albersUsaTerritories() { var cache, cacheStream, lower48 = d3Geo.geoAlbers(), lower48Point, alaska = d3Geo.geoConicEqualArea().rotate([154, 0]).center([-2, 58.5]).parallels([55, 65]), alaskaPoint, // EPSG:3338 hawaii = d3Geo.geoConicEqualArea().rotate([157, 0]).center([-3, 19.9]).parallels([8, 18]), hawaiiPoint, // ESRI:102007 puertoRico = d3Geo.geoConicEqualArea().rotate([66, 0]).center([0, 18]).parallels([8, 18]), puertoRicoPoint, //Taken from https://bl.ocks.org/mbostock/5629120 samoa = d3Geo.geoEquirectangular().rotate([173, 14]), samoaPoint, // EPSG:4169 guam = d3Geo.geoEquirectangular().rotate([-145, -16.8]), guamPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var puertoRicoBbox = [[-68.3, 19], [-63.9, 17]]; var samoaBbox = [[-171, -14], [-168, -14.8]]; var guamBbox = [[144, 20.8], [146.5, 12.7]]; */ 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) || (puertoRicoPoint.point(x, y), point) || (samoaPoint.point(x, y), point) || (guamPoint.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; /* //How are the return values calculated: console.info("******"); var c0 = puertoRico(puertoRicoBbox[0]); var x0 = (c0[0] - t[0]) / k; var y0 = (c0[1] - t[1]) / k; console.info("p0 puertoRico", x0 + ' - ' + y0); var c1 = puertoRico(puertoRicoBbox[1]); var x1 = (c1[0] - t[0]) / k; var y1 = (c1[1] - t[1]) / k; console.info("p1 puertoRico", x1 + ' - ' + y1); c0 = samoa(samoaBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 samoa", x0 + ' - ' + y0); c1 = samoa(samoaBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 samoa", x1 + ' - ' + y1); c0 = guam(guamBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 guam", x0 + ' - ' + y0); c1 = guam(guamBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 guam", x1 + ' - ' + y1); */ 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 : y >= 0.2064 && y < 0.2413 && x >= 0.312 && x < 0.385 ? puertoRico : y >= 0.09 && y < 0.1197 && x >= -0.4243 && x < -0.3232 ? samoa : y >= -0.0518 && y < 0.0895 && x >= -0.4243 && x < -0.3824 ? guam : lower48).invert(coordinates); }; albersUsa.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$1([lower48.stream(cacheStream = stream), alaska.stream(stream), hawaii.stream(stream), puertoRico.stream(stream), samoa.stream(stream), guam.stream(stream)]); }; albersUsa.precision = function(_) { if (!arguments.length) {return lower48.precision();} lower48.precision(_); alaska.precision(_); hawaii.precision(_); puertoRico.precision(_); samoa.precision(_); guam.precision(_); return reset(); }; albersUsa.scale = function(_) { if (!arguments.length) {return lower48.scale();} lower48.scale(_); alaska.scale(_ * 0.35); hawaii.scale(_); puertoRico.scale(_); samoa.scale(_* 2); guam.scale(_); return albersUsa.translate(lower48.translate()); }; albersUsa.translate = function(_) { if (!arguments.length) {return lower48.translate();} var k = lower48.scale(), x = +_[0], y = +_[1]; /* var c0 = puertoRico.translate([x + 0.350 * k, y + 0.224 * k])(puertoRicoBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = puertoRico.translate([x + 0.350 * k, y + 0.224 * k])(puertoRicoBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('puertoRico: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = samoa.translate([x - 0.492 * k, y + 0.09 * k])(samoaBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = samoa.translate([x - 0.492 * k, y + 0.09 * k])(samoaBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('samoa: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = guam.translate([x - 0.408 * k, y + 0.018 * k])(guamBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = guam.translate([x - 0.408 * k, y + 0.018 * k])(guamBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('guam: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); */ 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, y + 0.120 * k + epsilon], [x - 0.214 * k - epsilon, y + 0.233 * k - epsilon]]) .stream(pointStream); hawaiiPoint = hawaii .translate([x - 0.205 * k, y + 0.212 * k]) .clipExtent([[x - 0.214 * k + epsilon, y + 0.166 * k + epsilon], [x - 0.115 * k - epsilon, y + 0.233 * k - epsilon]]) .stream(pointStream); puertoRicoPoint = puertoRico .translate([x + 0.350 * k, y + 0.224 * k]) .clipExtent([[x + 0.312 * k + epsilon, y + 0.2064 * k + epsilon],[x + 0.385 * k - epsilon, y + 0.233 * k - epsilon]]) .stream(pointStream); samoaPoint = samoa .translate([x - 0.492 * k, y + 0.09 * k]) .clipExtent([[x - 0.4243 * k + epsilon, y + 0.0903 * k + epsilon],[x - 0.3233 * k - epsilon, y + 0.1197 * k - epsilon]]) .stream(pointStream); guamPoint = guam .translate([x - 0.408 * k, y + 0.018 * k]) .clipExtent([[x - 0.4244 * k + epsilon, y - 0.0519 * k + epsilon],[x - 0.3824 * k - epsilon, y + 0.0895 * k - epsilon]]) .stream(pointStream); return reset(); }; albersUsa.fitExtent = function(extent, object) { return fitExtent(albersUsa, extent, object); }; albersUsa.fitSize = function(size, object) { return fitSize(albersUsa, size, object); }; function reset() { cache = cacheStream = null; return albersUsa; } albersUsa.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT hawaii: ", hawaii.clipExtent()); console.info("UL BBOX:", lower48.invert([hawaii.clipExtent()[0][0], hawaii.clipExtent()[0][1]])); console.info("UR BBOX:", lower48.invert([hawaii.clipExtent()[1][0], hawaii.clipExtent()[0][1]])); console.info("LD BBOX:", lower48.invert([hawaii.clipExtent()[1][0], hawaii.clipExtent()[1][1]])); console.info("LL BBOX:", lower48.invert([hawaii.clipExtent()[0][0], hawaii.clipExtent()[1][1]])); console.info("CLIP EXTENT alaska: ", alaska.clipExtent()); console.info("UL BBOX:", lower48.invert([alaska.clipExtent()[0][0], alaska.clipExtent()[0][1]])); console.info("UR BBOX:", lower48.invert([alaska.clipExtent()[1][0], alaska.clipExtent()[0][1]])); console.info("LD BBOX:", lower48.invert([alaska.clipExtent()[1][0], alaska.clipExtent()[1][1]])); console.info("LL BBOX:", lower48.invert([alaska.clipExtent()[0][0], alaska.clipExtent()[1][1]])); console.info("CLIP EXTENT puertoRico: ", puertoRico.clipExtent()); console.info("UL BBOX:", lower48.invert([puertoRico.clipExtent()[0][0], puertoRico.clipExtent()[0][1]])); console.info("UR BBOX:", lower48.invert([puertoRico.clipExtent()[1][0], puertoRico.clipExtent()[0][1]])); console.info("LD BBOX:", lower48.invert([puertoRico.clipExtent()[1][0], puertoRico.clipExtent()[1][1]])); console.info("LL BBOX:", lower48.invert([puertoRico.clipExtent()[0][0], puertoRico.clipExtent()[1][1]])); console.info("CLIP EXTENT samoa: ", samoa.clipExtent()); console.info("UL BBOX:", lower48.invert([samoa.clipExtent()[0][0], samoa.clipExtent()[0][1]])); console.info("UR BBOX:", lower48.invert([samoa.clipExtent()[1][0], samoa.clipExtent()[0][1]])); console.info("LD BBOX:", lower48.invert([samoa.clipExtent()[1][0], samoa.clipExtent()[1][1]])); console.info("LL BBOX:", lower48.invert([samoa.clipExtent()[0][0], samoa.clipExtent()[1][1]])); console.info("CLIP EXTENT guam: ", guam.clipExtent()); console.info("UL BBOX:", lower48.invert([guam.clipExtent()[0][0], guam.clipExtent()[0][1]])); console.info("UR BBOX:", lower48.invert([guam.clipExtent()[1][0], guam.clipExtent()[0][1]])); console.info("LD BBOX:", lower48.invert([guam.clipExtent()[1][0], guam.clipExtent()[1][1]])); console.info("LL BBOX:", lower48.invert([guam.clipExtent()[0][0], guam.clipExtent()[1][1]])); */ var ulhawaii = lower48([-110.4641, 28.2805]); var urhawaii = lower48([-104.0597, 28.9528]); var ldhawaii = lower48([-103.7049, 25.1031]); var llhawaii = lower48([-109.8337, 24.4531]); var ulalaska = lower48([ -124.4745, 28.1407]); var uralaska = lower48([ -110.931, 30.8844]); var ldalaska = lower48([-109.8337, 24.4531]); var llalaska = lower48([-122.4628, 21.8562]); var ulpuertoRico = lower48([-76.8579, 25.1544]); var urpuertoRico = lower48([-72.429, 24.2097]); var ldpuertoRico = lower48([-72.8265, 22.7056]); var llpuertoRico = lower48([-77.1852, 23.6392]); var ulsamoa = lower48([-125.0093, 29.7791]); var ursamoa = lower48([-118.5193, 31.3262]); var ldsamoa = lower48([-118.064, 29.6912]); var llsamoa = lower48([-124.4369, 28.169]); var ulguam = lower48([-128.1314, 37.4582]); var urguam = lower48([-125.2132, 38.214]); var ldguam = lower48([-122.3616, 30.5115]); var llguam = lower48([-125.0315, 29.8211]); context.moveTo(ulhawaii[0], ulhawaii[1]); context.lineTo(urhawaii[0], urhawaii[1]); context.lineTo(ldhawaii[0], ldhawaii[1]); context.lineTo(ldhawaii[0], ldhawaii[1]); context.lineTo(llhawaii[0], llhawaii[1]); context.closePath(); context.moveTo(ulalaska[0], ulalaska[1]); context.lineTo(uralaska[0], uralaska[1]); context.lineTo(ldalaska[0], ldalaska[1]); context.lineTo(ldalaska[0], ldalaska[1]); context.lineTo(llalaska[0], llalaska[1]); context.closePath(); context.moveTo(ulpuertoRico[0], ulpuertoRico[1]); context.lineTo(urpuertoRico[0], urpuertoRico[1]); context.lineTo(ldpuertoRico[0], ldpuertoRico[1]); context.lineTo(ldpuertoRico[0], ldpuertoRico[1]); context.lineTo(llpuertoRico[0], llpuertoRico[1]); context.closePath(); context.moveTo(ulsamoa[0], ulsamoa[1]); context.lineTo(ursamoa[0], ursamoa[1]); context.lineTo(ldsamoa[0], ldsamoa[1]); context.lineTo(ldsamoa[0], ldsamoa[1]); context.lineTo(llsamoa[0], llsamoa[1]); context.closePath(); context.moveTo(ulguam[0], ulguam[1]); context.lineTo(urguam[0], urguam[1]); context.lineTo(ldguam[0], ldguam[1]); context.lineTo(ldguam[0], ldguam[1]); context.lineTo(llguam[0], llguam[1]); context.closePath(); }; albersUsa.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return albersUsa.scale(1070); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$2(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 Spain, configured by default for 960×500. function conicConformalSpain() { var cache, cacheStream, iberianPeninsule = d3Geo.geoConicConformal().rotate([5, -38.6]).parallels([0,60]), iberianPeninsulePoint, canaryIslands = d3Geo.geoConicConformal().rotate([5, -38.6]).parallels([0,60]), canaryIslandsPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var iberianPeninsuleBbox = [[-11, 46], [4, 35]]; var canaryIslandsBbox = [[-19.0, 28.85], [-12.7, 28.1]]; */ function conicConformalSpain(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (iberianPeninsulePoint.point(x, y), point) || (canaryIslandsPoint.point(x, y), point); } conicConformalSpain.invert = function(coordinates) { var k = iberianPeninsule.scale(), t = iberianPeninsule.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; return (y >= 0.05346 && y< 0.0897 && x >= -0.13388 && x < -0.0322 ? canaryIslands : iberianPeninsule).invert(coordinates); }; conicConformalSpain.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$2([iberianPeninsule.stream(cacheStream = stream), canaryIslands.stream(stream)]); }; conicConformalSpain.precision = function(_) { if (!arguments.length) {return iberianPeninsule.precision();} iberianPeninsule.precision(_); canaryIslands.precision(_); return reset(); }; conicConformalSpain.scale = function(_) { if (!arguments.length) {return iberianPeninsule.scale();} iberianPeninsule.scale(_); canaryIslands.scale(_); return conicConformalSpain.translate(iberianPeninsule.translate()); }; conicConformalSpain.translate = function(_) { if (!arguments.length) {return iberianPeninsule.translate();} var k = iberianPeninsule.scale(), x = +_[0], y = +_[1]; /* var c0 = iberianPeninsule(iberianPeninsuleBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = iberianPeninsule(iberianPeninsuleBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('Iberian Peninsula: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); c0 = canaryIslands.translate([x + 0.1 * k, y - 0.094 * k])(canaryIslandsBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = canaryIslands.translate([x + 0.1 * k, y - 0.094 * k])(canaryIslandsBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('Canry Islands: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); */ iberianPeninsulePoint = iberianPeninsule .translate(_) .clipExtent([[x - 0.06857 * k, y - 0.1288 * k],[x + 0.13249 * k, y + 0.06 * k]]) .stream(pointStream); canaryIslandsPoint = canaryIslands .translate([x + 0.1 * k, y - 0.094 * k]) .clipExtent([[x - 0.1331 * k + epsilon, y + 0.053457 * k + epsilon],[x - 0.0354 * k - epsilon, y + 0.08969 * k - epsilon]]) .stream(pointStream); return reset(); }; conicConformalSpain.fitExtent = function(extent, object) { return fitExtent(conicConformalSpain, extent, object); }; conicConformalSpain.fitSize = function(size, object) { return fitSize(conicConformalSpain, size, object); }; function reset() { cache = cacheStream = null; return conicConformalSpain; } conicConformalSpain.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT: ", canaryIslands.clipExtent()); console.info("UL BBOX:", iberianPeninsule.invert([canaryIslands.clipExtent()[0][0], canaryIslands.clipExtent()[0][1]])); console.info("UR BBOX:", iberianPeninsule.invert([canaryIslands.clipExtent()[1][0], canaryIslands.clipExtent()[0][1]])); console.info("LD BBOX:", iberianPeninsule.invert([canaryIslands.clipExtent()[1][0], canaryIslands.clipExtent()[1][1]])); */ var ulCanaryIslands = iberianPeninsule([-14.0346750, 34.965007]); var urCanaryIslands = iberianPeninsule([-7.4208899, 35.536988]); var ldCanaryIslands = iberianPeninsule([-7.3148275, 33.54359]); context.moveTo(ulCanaryIslands[0], ulCanaryIslands[1]); context.lineTo(urCanaryIslands[0], urCanaryIslands[1]); context.lineTo(ldCanaryIslands[0], ldCanaryIslands[1]); }; conicConformalSpain.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return conicConformalSpain.scale(2700); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$3(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 Portugal, configured by default for 960×500. function conicConformalPortugal() { var cache, cacheStream, iberianPeninsule = d3Geo.geoConicConformal().rotate([10, -39.3]).parallels([0, 60]), iberianPeninsulePoint, madeira = d3Geo.geoConicConformal().rotate([17, -32.7]).parallels([0, 60]), madeiraPoint, azores = d3Geo.geoConicConformal().rotate([27.8, -38.6]).parallels([0, 60]), azoresPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var iberianPeninsuleBbox = [[-11, 46], [4, 34]]; var madeiraBbox = [[-17.85, 33.6], [-16, 32.02]]; var azoresBbox = [[-32, 40.529], [-23.98, 35.75]]; */ function conicConformalPortugal(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (iberianPeninsulePoint.point(x, y), point) || (madeiraPoint.point(x, y), point) || (azoresPoint.point(x, y), point); } conicConformalPortugal.invert = function(coordinates) { var k = iberianPeninsule.scale(), t = iberianPeninsule.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; /* //How are the return values calculated: console.info("******"); var c0 = madeira(madeiraBbox[0]); var x0 = (c0[0] - t[0]) / k; var y0 = (c0[1] - t[1]) / k; console.info("p0 madeira", x0 + ' - ' + y0); var c1 = madeira(madeiraBbox[1]); var x1 = (c1[0] - t[0]) / k; var y1 = (c1[1] - t[1]) / k; console.info("p1 madeira", x1 + ' - ' + y1); c0 = azores(azoresBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 azores", x0 + ' - ' + y0); c1 = azores(azoresBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 azores", x1 + ' - ' + y1); */ return (y >= 0.0093 && y< 0.03678 && x >= -0.03875 && x < -0.0116 ? madeira : y >= -0.0412 && y< 0.0091 && x >= -0.07782 && x < -0.01166 ? azores : iberianPeninsule).invert(coordinates); }; conicConformalPortugal.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$3([iberianPeninsule.stream(cacheStream = stream), madeira.stream(stream), azores.stream(stream)]); }; conicConformalPortugal.precision = function(_) { if (!arguments.length) {return iberianPeninsule.precision();} iberianPeninsule.precision(_); madeira.precision(_); azores.precision(_); return reset(); }; conicConformalPortugal.scale = function(_) { if (!arguments.length) {return iberianPeninsule.scale();} iberianPeninsule.scale(_); madeira.scale(_); azores.scale(_ * 0.6); return conicConformalPortugal.translate(iberianPeninsule.translate()); }; conicConformalPortugal.translate = function(_) { if (!arguments.length) {return iberianPeninsule.translate();} var k = iberianPeninsule.scale(), x = +_[0], y = +_[1]; /* var c0 = iberianPeninsule(iberianPeninsuleBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = iberianPeninsule(iberianPeninsuleBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('Iberian Peninsula: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k]])'); c0 = madeira.translate([x - 0.0265 * k, y + 0.025 * k])(madeiraBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = madeira.translate([x - 0.0265 * k, y + 0.025 * k])(madeiraBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('Madeira: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = azores.translate([x - 0.045 * k, y + -0.02 * k])(azoresBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = azores.translate([x - 0.045 * k, y + -0.02 * k])(azoresBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('Azores: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); */ iberianPeninsulePoint = iberianPeninsule .translate(_) .clipExtent([[x - 0.0115 * k, y - 0.1138 * k],[x +0.2105 * k, y +0.0673 * k]]) .stream(pointStream); madeiraPoint = madeira .translate([x - 0.0265 * k, y + 0.025 * k]) .clipExtent([[x - 0.0388 * k + epsilon, y + 0.0093 * k + epsilon],[x - 0.0116 * k - epsilon, y + 0.0368 * k - epsilon]]) .stream(pointStream); azoresPoint = azores .translate([x - 0.045 * k, y + -0.02 * k]) .clipExtent([[x - 0.0778 * k + epsilon, y - 0.0413 * k + epsilon],[x - 0.0117 * k - epsilon, y + 0.0091 * k - epsilon]]) .stream(pointStream); return reset(); }; conicConformalPortugal.fitExtent = function(extent, object) { return fitExtent(conicConformalPortugal, extent, object); }; conicConformalPortugal.fitSize = function(size, object) { return fitSize(conicConformalPortugal, size, object); }; function reset() { cache = cacheStream = null; return conicConformalPortugal; } conicConformalPortugal.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT MADEIRA: ", madeira.clipExtent()); console.info("UL BBOX:", iberianPeninsule.invert([madeira.clipExtent()[0][0], madeira.clipExtent()[0][1]])); console.info("UR BBOX:", iberianPeninsule.invert([madeira.clipExtent()[1][0], madeira.clipExtent()[0][1]])); console.info("LD BBOX:", iberianPeninsule.invert([madeira.clipExtent()[1][0], madeira.clipExtent()[1][1]])); console.info("LL BBOX:", iberianPeninsule.invert([madeira.clipExtent()[0][0], madeira.clipExtent()[1][1]])); console.info("CLIP EXTENT AZORES: ", azores.clipExtent()); console.info("UL BBOX:", iberianPeninsule.invert([azores.clipExtent()[0][0], azores.clipExtent()[0][1]])); console.info("UR BBOX:", iberianPeninsule.invert([azores.clipExtent()[1][0], azores.clipExtent()[0][1]])); console.info("LD BBOX:", iberianPeninsule.invert([azores.clipExtent()[1][0], azores.clipExtent()[1][1]])); console.info("LL BBOX:", iberianPeninsule.invert([azores.clipExtent()[0][0], azores.clipExtent()[1][1]])); */ var ulmadeira = iberianPeninsule([-12.8351, 38.7113]); var urmadeira = iberianPeninsule([-10.8482, 38.7633]); var ldmadeira = iberianPeninsule([-10.8181, 37.2072]); var llmadeira = iberianPeninsule([-12.7345, 37.1573]); var ulazores = iberianPeninsule([-16.0753, 41.4436]); var urazores = iberianPeninsule([-10.9168, 41.6861]); var ldazores = iberianPeninsule([-10.8557, 38.7747]); var llazores = iberianPeninsule([-15.6728, 38.5505]); context.moveTo(ulmadeira[0], ulmadeira[1]); context.lineTo(urmadeira[0], urmadeira[1]); context.lineTo(ldmadeira[0], ldmadeira[1]); context.lineTo(ldmadeira[0], ldmadeira[1]); context.lineTo(llmadeira[0], llmadeira[1]); context.closePath(); context.moveTo(ulazores[0], ulazores[1]); context.lineTo(urazores[0], urazores[1]); context.lineTo(ldazores[0], ldazores[1]); context.lineTo(ldazores[0], ldazores[1]); context.lineTo(llazores[0], llazores[1]); context.closePath(); }; conicConformalPortugal.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return conicConformalPortugal.scale(4200); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$4(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 Ecuador, configured by default for 960×500. function mercatorEcuador() { var cache, cacheStream, mainland = d3Geo.geoMercator().rotate([80, 1.5]), mainlandPoint, galapagos = d3Geo.geoMercator().rotate([90.73, 1]), galapagosPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var mainlandBbox = [[-81.5, 2.7], [-70.0, -6.0]]; var galapagosBbox = [[-92.2, 0.58], [-88.8, -1.8]]; */ function mercatorEcuador(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (mainlandPoint.point(x, y), point) || (galapagosPoint.point(x, y), point); } mercatorEcuador.invert = function(coordinates) { var k = mainland.scale(), t = mainland.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; /* //How are the return values calculated: var c0 = galapagos(galapagosBbox[0]); var x0 = (c0[0] - t[0]) / k; var y0 = (c0[1] - t[1]) / k; console.info("p0 galapagos", x0 + ' - ' + y0); var c1 = galapagos(galapagosBbox[1]); var x1 = (c1[0] - t[0]) / k; var y1 = (c1[1] - t[1]) / k; console.info("p1 galapagos", x1 + ' - ' + y1); */ return (y >= -0.0676 && y< -0.026 && x >= -0.0857 && x < -0.0263 ? galapagos : mainland).invert(coordinates); }; mercatorEcuador.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$4([mainland.stream(cacheStream = stream), galapagos.stream(stream)]); }; mercatorEcuador.precision = function(_) { if (!arguments.length) {return mainland.precision();} mainland.precision(_); galapagos.precision(_); return reset(); }; mercatorEcuador.scale = function(_) { if (!arguments.length) {return mainland.scale();} mainland.scale(_); galapagos.scale(_); return mercatorEcuador.translate(mainland.translate()); }; mercatorEcuador.translate = function(_) { if (!arguments.length) {return mainland.translate();} var k = mainland.scale(), x = +_[0], y = +_[1]; /* var c0 = mainland(mainlandBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = mainland(mainlandBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('mainland: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k]])'); c0 = galapagos.translate([x - 0.06 * k, y - 0.04 * k])(galapagosBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = galapagos.translate([x - 0.06 * k, y - 0.04 * k])(galapagosBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('galapagos: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])');*/ mainlandPoint = mainland .translate(_) .clipExtent([[x - 0.0262 * k, y - 0.0734 * k],[x + 0.1741 * k, y + 0.079 * k]]) .stream(pointStream); galapagosPoint = galapagos .translate([x - 0.06 * k, y - 0.04 * k]) .clipExtent([[x - 0.0857 * k + epsilon, y - 0.0676 * k + epsilon],[x - 0.0263 * k - epsilon, y - 0.026 * k - epsilon]]) .stream(pointStream); return reset(); }; mercatorEcuador.fitExtent = function(extent, object) { return fitExtent(mercatorEcuador, extent, object); }; mercatorEcuador.fitSize = function(size, object) { return fitSize(mercatorEcuador, size, object); }; function reset() { cache = cacheStream = null; return mercatorEcuador; } mercatorEcuador.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT: ", galapagos.clipExtent()); console.info("UL BBOX:", mainland.invert([galapagos.clipExtent()[0][0], galapagos.clipExtent()[0][1]])); console.info("UR BBOX:", mainland.invert([galapagos.clipExtent()[1][0], galapagos.clipExtent()[0][1]])); console.info("LD BBOX:", mainland.invert([galapagos.clipExtent()[1][0], galapagos.clipExtent()[1][1]])); console.info("LL BBOX:", mainland.invert([galapagos.clipExtent()[0][0], galapagos.clipExtent()[1][1]])); */ var ulgalapagos = mainland([-84.9032, 2.3757]); var urgalapagos = mainland([-81.5047, 2.3708]); var ldgalapagos = mainland([-81.5063, -0.01]); var llgalapagos = mainland([-84.9086, -0.005]); context.moveTo(ulgalapagos[0], ulgalapagos[1]); context.lineTo(urgalapagos[0], urgalapagos[1]); context.lineTo(ldgalapagos[0], ldgalapagos[1]); context.lineTo(llgalapagos[0], llgalapagos[1]); context.closePath(); }; mercatorEcuador.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return mercatorEcuador.scale(3500); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$5(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 Chile, configured by default for 960×500. function transverseMercatorChile() { var cache, cacheStream, mainland = d3Geo.geoTransverseMercator().rotate([72, 37]), mainlandPoint, antarctic = d3Geo.geoStereographic().rotate([72, 0]), antarcticPoint, juanFernandez = d3Geo.geoMercator().rotate([80, 33.5]), juanFernandezPoint, pascua = d3Geo.geoMercator().rotate([110, 25]), pascuaPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var mainlandBbox = [[-75.5, -15.0], [-32, -49.0]]; var antarcticBbox = [[-91.0, -60.0], [-43.0, -90.0]]; var juanFernandezBbox = [[-81.0, -33.0], [-78.5, -34.0]]; var pascuaBbox = [[-110, -26.6], [-108.7, -27.5]]; */ function transverseMercatorChile(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (mainlandPoint.point(x, y), point) || (antarcticPoint.point(x, y), point) || (juanFernandezPoint.point(x, y), point) || (pascuaPoint.point(x, y), point); } transverseMercatorChile.invert = function(coordinates) { var k = mainland.scale(), t = mainland.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; /* //How are the return values calculated: console.info("******"); var c0 = antarctic(antarcticBbox[0]); var x0 = (c0[0] - t[0]) / k; var y0 = (c0[1] - t[1]) / k; console.info("p0 antarctic", x0 + ' - ' + y0); var c1 = antarctic(antarcticBbox[1]); var x1 = (c1[0] - t[0]) / k; var y1 = (c1[1] - t[1]) / k; console.info("p1 antarctic", x1 + ' - ' + y1); c0 = juanFernandez(juanFernandezBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 juanFernandez", x0 + ' - ' + y0); c1 = juanFernandez(juanFernandezBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 juanFernandez", x1 + ' - ' + y1); c0 = pascua(pascuaBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 pascua", x0 + ' - ' + y0); c1 = pascua(pascuaBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 pascua", x1 + ' - ' + y1); */ return (y >= 0.2582 && y< 0.32 && x >= -0.1036 && x < -0.087 ? antarctic : y >= -0.01298 && y< 0.0133 && x >= -0.11396 && x < -0.05944 ? juanFernandez : y >= 0.01539 && y< 0.03911 && x >= -0.089 && x < -0.0588 ? pascua : mainland).invert(coordinates); }; transverseMercatorChile.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$5([mainland.stream(cacheStream = stream), antarctic.stream(stream), juanFernandez.stream(stream), pascua.stream(stream)]); }; transverseMercatorChile.precision = function(_) { if (!arguments.length) {return mainland.precision();} mainland.precision(_); antarctic.precision(_); juanFernandez.precision(_); pascua.precision(_); return reset(); }; transverseMercatorChile.scale = function(_) { if (!arguments.length) {return mainland.scale();} mainland.scale(_); antarctic.scale(_ * 0.15); juanFernandez.scale(_ * 1.5); pascua.scale(_ * 1.5); return transverseMercatorChile.translate(mainland.translate()); }; transverseMercatorChile.translate = function(_) { if (!arguments.length) {return mainland.translate();} var k = mainland.scale(), x = +_[0], y = +_[1]; /* var c0 = mainland(mainlandBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = mainland(mainlandBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('Mainland: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k]])'); c0 = antarctic.translate([x - 0.1 * k, y + 0.17 * k])(antarcticBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = antarctic.translate([x - 0.1 * k, y + 0.17 * k])(antarcticBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('antarctic: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('Doesn t work due to -90 latitude!' + '.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = juanFernandez.translate([x - 0.092 * k, y -0 * k])(juanFernandezBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = juanFernandez.translate([x - 0.092 * k, y -0 * k])(juanFernandezBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('juanFernandez: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = pascua.translate([x - 0.089 * k, y -0.0265 * k])(pascuaBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = pascua.translate([x - 0.089 * k, y -0.0265 * k])(pascuaBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('pascua: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); */ mainlandPoint = mainland .translate(_) .clipExtent([[x - 0.059 * k, y - 0.3835 * k],[x + 0.4498 * k, y + 0.3375 * k]]) .stream(pointStream); antarcticPoint = antarctic .translate([x - 0.087 * k, y + 0.17 * k]) .clipExtent([[x - 0.1166 * k + epsilon, y + 0.2582 * k + epsilon],[x - 0.06 * k - epsilon, y + 0.32 * k - epsilon]]) .stream(pointStream); juanFernandezPoint = juanFernandez .translate([x - 0.092 * k, y - 0 * k]) .clipExtent([[x - 0.114 * k + epsilon, y - 0.013 * k + epsilon],[x - 0.0594 * k - epsilon, y + 0.0133 * k - epsilon]]) .stream(pointStream); pascuaPoint = pascua .translate([x - 0.089 * k, y - 0.0265 * k]) .clipExtent([[x - 0.089 * k + epsilon, y + 0.0154 * k + epsilon],[x - 0.0588 * k - epsilon, y + 0.0391 * k - epsilon]]) .stream(pointStream); return reset(); }; transverseMercatorChile.fitExtent = function(extent, object) { return fitExtent(transverseMercatorChile, extent, object); }; transverseMercatorChile.fitSize = function(size, object) { return fitSize(transverseMercatorChile, size, object); }; function reset() { cache = cacheStream = null; return transverseMercatorChile; } transverseMercatorChile.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT antarctic: ", antarctic.clipExtent()); console.info("UL BBOX:", mainland.invert([antarctic.clipExtent()[0][0], antarctic.clipExtent()[0][1]])); console.info("UR BBOX:", mainland.invert([antarctic.clipExtent()[1][0], antarctic.clipExtent()[0][1]])); console.info("LD BBOX:", mainland.invert([antarctic.clipExtent()[1][0], antarctic.clipExtent()[1][1]])); console.info("LL BBOX:", mainland.invert([antarctic.clipExtent()[0][0], antarctic.clipExtent()[1][1]])); console.info("CLIP EXTENT juanFernandez: ", juanFernandez.clipExtent()); console.info("UL BBOX:", mainland.invert([juanFernandez.clipExtent()[0][0], juanFernandez.clipExtent()[0][1]])); console.info("UR BBOX:", mainland.invert([juanFernandez.clipExtent()[1][0], juanFernandez.clipExtent()[0][1]])); console.info("LD BBOX:", mainland.invert([juanFernandez.clipExtent()[1][0], juanFernandez.clipExtent()[1][1]])); console.info("LL BBOX:", mainland.invert([juanFernandez.clipExtent()[0][0], juanFernandez.clipExtent()[1][1]])); console.info("CLIP EXTENT pascua: ", pascua.clipExtent()); console.info("UL BBOX:", mainland.invert([pascua.clipExtent()[0][0], pascua.clipExtent()[0][1]])); console.info("UR BBOX:", mainland.invert([pascua.clipExtent()[1][0], pascua.clipExtent()[0][1]])); console.info("LD BBOX:", mainland.invert([pascua.clipExtent()[1][0], pascua.clipExtent()[1][1]])); console.info("LL BBOX:", mainland.invert([pascua.clipExtent()[0][0], pascua.clipExtent()[1][1]])); */ var ulantarctic = mainland([-82.6999, -51.3043]); var urantarctic = mainland([-77.5442, -51.6631]); var ldantarctic = mainland([-78.0254, -55.1860]); var llantarctic = mainland([-83.6106, -54.7785]); var uljuanFernandez = mainland([-80.0638, -35.9840]); var urjuanFernandez = mainland([-76.2153, -36.1811]); var ldjuanFernandez = mainland([-76.2994, -37.6839]); var lljuanFernandez = mainland([-80.2231, -37.4757]); var ulpascua = mainland([-78.442, -37.706]); var urpascua = mainland([-76.263, -37.8054]); var ldpascua = mainland([-76.344, -39.1595]); var llpascua = mainland([-78.5638, -39.0559]); context.moveTo(ulantarctic[0], ulantarctic[1]); context.lineTo(urantarctic[0], urantarctic[1]); context.lineTo(ldantarctic[0], ldantarctic[1]); context.lineTo(ldantarctic[0], ldantarctic[1]); context.lineTo(llantarctic[0], llantarctic[1]); context.closePath(); context.moveTo(uljuanFernandez[0], uljuanFernandez[1]); context.lineTo(urjuanFernandez[0], urjuanFernandez[1]); context.lineTo(ldjuanFernandez[0], ldjuanFernandez[1]); context.lineTo(ldjuanFernandez[0], ldjuanFernandez[1]); context.lineTo(lljuanFernandez[0], lljuanFernandez[1]); context.closePath(); context.moveTo(ulpascua[0], ulpascua[1]); context.lineTo(urpascua[0], urpascua[1]); context.lineTo(ldpascua[0], ldpascua[1]); context.lineTo(ldpascua[0], ldpascua[1]); context.lineTo(llpascua[0], llpascua[1]); context.closePath(); }; transverseMercatorChile.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return transverseMercatorChile.scale(700); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$6(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 Portugal, configured by default for 960×500. function conicEquidistantJapan() { var cache, cacheStream, mainland = d3Geo.geoConicEquidistant().rotate([-136, -22]).parallels([40, 34]), mainlandPoint, //gis.stackexchange.com/a/73135 hokkaido = d3Geo.geoConicEquidistant().rotate([-146, -26]).parallels([40, 34]), hokkaidoPoint, okinawa = d3Geo.geoConicEquidistant().rotate([-126, -19]).parallels([40, 34]), okinawaPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var mainlandBbox = [[126.0, 41.606], [142.97, 29.97]]; var hokkaidoBbox = [[138.7, 45.61], [146.2, 41.2]]; var okinawaBbox = [[122.6, 29.0], [130, 23.7]]; */ function conicEquidistantJapan(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (mainlandPoint.point(x, y), point) || (hokkaidoPoint.point(x, y), point) || (okinawaPoint.point(x, y), point); } conicEquidistantJapan.invert = function(coordinates) { var k = mainland.scale(), t = mainland.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; /* //How are the return values calculated: console.info("******"); var c0 = hokkaido(hokkaidoBbox[0]); var x0 = (c0[0] - t[0]) / k; var y0 = (c0[1] - t[1]) / k; console.info("p0 hokkaido", x0 + ' - ' + y0); var c1 = hokkaido(hokkaidoBbox[1]); var x1 = (c1[0] - t[0]) / k; var y1 = (c1[1] - t[1]) / k; console.info("p1 hokkaido", x1 + ' - ' + y1); c0 = okinawa(okinawaBbox[0]); x0 = (c0[0] - t[0]) / k; y0 = (c0[1] - t[1]) / k; console.info("p0 okinawa", x0 + ' - ' + y0); c1 = okinawa(okinawaBbox[1]); x1 = (c1[0] - t[0]) / k; y1 = (c1[1] - t[1]) / k; console.info("p1 okinawa", x1 + ' - ' + y1); */ return (y >= -0.10925 && y< -0.02701 && x >= -0.135 && x < -0.0397 ? hokkaido : y >= 0.04713 && y< 0.11138 && x >= -0.03986 && x < 0.051 ? okinawa : mainland).invert(coordinates); }; conicEquidistantJapan.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$6([mainland.stream(cacheStream = stream), hokkaido.stream(stream), okinawa.stream(stream)]); }; conicEquidistantJapan.precision = function(_) { if (!arguments.length) {return mainland.precision();} mainland.precision(_); hokkaido.precision(_); okinawa.precision(_); return reset(); }; conicEquidistantJapan.scale = function(_) { if (!arguments.length) {return mainland.scale();} mainland.scale(_); hokkaido.scale(_); okinawa.scale(_ * 0.7); return conicEquidistantJapan.translate(mainland.translate()); }; conicEquidistantJapan.translate = function(_) { if (!arguments.length) {return mainland.translate();} var k = mainland.scale(), x = +_[0], y = +_[1]; /* var c0 = mainland(mainlandBbox[0]); var x0 = (x - c0[0]) / k; var y0 = (y - c0[1]) / k; var c1 = mainland(mainlandBbox[1]); var x1 = (x - c1[0]) / k; var y1 = (y - c1[1]) / k; console.info('Main: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k]])'); c0 = hokkaido.translate([x - 0.0425 * k, y - 0.005 * k])(hokkaidoBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = hokkaido.translate([x - 0.0425 * k, y - 0.005 * k])(hokkaidoBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('hokkaido: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); c0 = okinawa.translate([x - 0 * k, y + 0 * k])(okinawaBbox[0]); x0 = (x - c0[0]) / k; y0 = (y - c0[1]) / k; c1 = okinawa.translate([x - 0 * k, y + 0 * k])(okinawaBbox[1]); x1 = (x - c1[0]) / k; y1 = (y - c1[1]) / k; console.info('okinawa: p0: ' + x0 + ', ' + y0 + ' , p1: ' + x1 + ' - ' + y1); console.info('.clipExtent([[x '+ (x0<0?'+ ':'- ') + Math.abs(x0.toFixed(4))+ ' * k + epsilon, y '+ (y0<0?'+ ':'- ') + Math.abs(y0.toFixed(4))+ ' * k + epsilon],[x '+ (x1<0?'+ ':'- ') + Math.abs(x1.toFixed(4))+ ' * k - epsilon, y '+ (y1<0?'+ ':'- ') + Math.abs(y1.toFixed(4))+ ' * k - epsilon]])'); */ mainlandPoint = mainland .translate(_) .clipExtent([[x - 0.1352 * k, y - 0.1091 * k],[x + 0.117 * k, y + 0.098 * k]]) .stream(pointStream); hokkaidoPoint = hokkaido .translate([x - 0.0425 * k, y - 0.005 * k]) .clipExtent([[x - 0.135 * k + epsilon, y - 0.1093 * k + epsilon],[x - 0.0397 * k - epsilon, y - 0.027 * k - epsilon]]) .stream(pointStream); okinawaPoint = okinawa .translate(_) .clipExtent([[x - 0.0399 * k + epsilon, y + 0.0471 * k + epsilon],[x + 0.051 * k - epsilon, y + 0.1114 * k - epsilon]]) .stream(pointStream); return reset(); }; conicEquidistantJapan.fitExtent = function(extent, object) { return fitExtent(conicEquidistantJapan, extent, object); }; conicEquidistantJapan.fitSize = function(size, object) { return fitSize(conicEquidistantJapan, size, object); }; function reset() { cache = cacheStream = null; return conicEquidistantJapan; } conicEquidistantJapan.drawCompositionBorders = function(context) { /* console.info("CLIP EXTENT hokkaido: ", hokkaido.clipExtent()); console.info("UL BBOX:", mainland.invert([hokkaido.clipExtent()[0][0], hokkaido.clipExtent()[0][1]])); console.info("UR BBOX:", mainland.invert([hokkaido.clipExtent()[1][0], hokkaido.clipExtent()[0][1]])); console.info("LD BBOX:", mainland.invert([hokkaido.clipExtent()[1][0], hokkaido.clipExtent()[1][1]])); console.info("LL BBOX:", mainland.invert([hokkaido.clipExtent()[0][0], hokkaido.clipExtent()[1][1]])); */ var ulhokkaido = mainland([ 126.01320483689143, 41.621090310215585 ]); var urhokkaido = mainland([ 133.04304387025903, 42.15087523707186 ]); var ldhokkaido = mainland([ 133.3021766080688, 37.43975444725098 ]); var llhokkaido = mainland([ 126.87889168628224, 36.95488945159779 ]); var llokinawa = mainland([132.9, 29.8]); var lmokinawa = mainland([134, 33]); var lrokinawa = mainland([139.3, 33.2]); var llrokinawa = mainland([139.16, 30.5]); context.moveTo(ulhokkaido[0], ulhokkaido[1]); context.lineTo(urhokkaido[0], urhokkaido[1]); context.lineTo(ldhokkaido[0], ldhokkaido[1]); context.lineTo(llhokkaido[0], llhokkaido[1]); context.closePath(); context.moveTo(llokinawa[0], llokinawa[1]); context.lineTo(lmokinawa[0], lmokinawa[1]); context.lineTo(lrokinawa[0], lrokinawa[1]); context.lineTo(llrokinawa[0], llrokinawa[1]); }; conicEquidistantJapan.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return conicEquidistantJapan.scale(2200); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$7(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 France, configured by default for 960×500. function conicConformalFrance() { var cache, cacheStream, europe = d3Geo.geoConicConformal().rotate([-3, -46.2]).parallels([0, 60]), europePoint, guyane = d3Geo.geoMercator().center([-53.2, 3.9]), guyanePoint, martinique = d3Geo.geoMercator().center([-61.03, 14.67]), martiniquePoint, guadeloupe = d3Geo.geoMercator().center([-61.46, 16.14]), guadeloupePoint, saintBarthelemy = d3Geo.geoMercator().center([-62.85, 17.92]), saintBarthelemyPoint, stPierreMiquelon = d3Geo.geoMercator().center([-56.23, 46.93]), stPierreMiquelonPoint, mayotte = d3Geo.geoMercator().center([45.16, -12.8]), mayottePoint, reunion = d3Geo.geoMercator().center([55.52, -21.13]), reunionPoint, nouvelleCaledonie = d3Geo.geoMercator().center([165.8, -21.07]), nouvelleCaledoniePoint, wallisFutuna = d3Geo.geoMercator().center([-178.1, -14.3]), wallisFutunaPoint, polynesie = d3Geo.geoMercator().center([-150.55, -17.11]), polynesiePoint, polynesie2 = d3Geo.geoMercator().center([-150.55, -17.11]), polynesie2Point, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var europeBbox = [[-6.5, 51], [10, 41]]; var guyaneBbox = [[-54.5, 6.29], [-50.9, 1.48]]; */ function conicConformalFrance(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (europePoint.point(x, y), point) || (guyanePoint.point(x, y), point) || (martiniquePoint.point(x, y), point) || (guadeloupePoint.point(x, y), point) || (saintBarthelemyPoint.point(x, y), point) || (stPierreMiquelonPoint.point(x, y), point) || (mayottePoint.point(x, y), point) || (reunionPoint.point(x, y), point) || (nouvelleCaledoniePoint.point(x, y), point) || (wallisFutunaPoint.point(x, y), point) || (polynesiePoint.point(x, y), point) || (polynesie2Point.point(x, y), point); } conicConformalFrance.invert = function(coordinates) { var k = europe.scale(), t = europe.translate(), x = (coordinates[0] - t[0]) / k, y = (coordinates[1] - t[1]) / k; return (y >= 0.029 && y< 0.0864 && x >= -0.14 && x < -0.0996 ? guyane : y >= 0 && y< 0.029 && x >= -0.14 && x < -0.0996 ? martinique : y >= -0.032 && y< 0 && x >= -0.14 && x < -0.0996 ? guadeloupe : y >= -0.052 && y< -0.032 && x >= -0.14 && x < -0.0996 ? saintBarthelemy : y >= -0.076 && y< 0.052 && x >= -0.14 && x < -0.0996 ? stPierreMiquelon : y >= -0.076 && y< -0.052 && x >= 0.0967 && x < 0.1371 ? mayotte : y >= -0.052 && y< -0.02 && x >= 0.0967 && x < 0.1371 ? reunion : y >= -0.02 && y< 0.012 && x >= 0.0967 && x < 0.1371 ? nouvelleCaledonie : y >= 0.012 && y< 0.033 && x >= 0.0967 && x < 0.1371 ? wallisFutuna : y >= 0.033 && y< 0.0864 && x >= 0.0967 && x < 0.1371 ? polynesie : europe).invert(coordinates); }; conicConformalFrance.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$7([europe.stream(cacheStream = stream), guyane.stream(stream), martinique.stream(stream), guadeloupe.stream(stream), saintBarthelemy.stream(stream), stPierreMiquelon.stream(stream), mayotte.stream(stream), reunion.stream(stream), nouvelleCaledonie.stream(stream), wallisFutuna.stream(stream), polynesie.stream(stream), polynesie2.stream(stream)]); }; conicConformalFrance.precision = function(_) { if (!arguments.length) {return europe.precision();} europe.precision(_); guyane.precision(_); martinique.precision(_); guadeloupe.precision(_); saintBarthelemy.precision(_); stPierreMiquelon.precision(_); mayotte.precision(_); reunion.precision(_); nouvelleCaledonie.precision(_); wallisFutuna.precision(_); polynesie.precision(_); polynesie2.precision(_); return reset(); }; conicConformalFrance.scale = function(_) { if (!arguments.length) {return europe.scale();} europe.scale(_); guyane.scale(_ * 0.6); martinique.scale(_ * 1.6); guadeloupe.scale(_ * 1.4); saintBarthelemy.scale(_ * 5); stPierreMiquelon.scale(_ * 1.3); mayotte.scale(_ * 1.6); reunion.scale(_ * 1.2); nouvelleCaledonie.scale(_ * 0.3); wallisFutuna.scale(_ * 2.7); polynesie.scale(_ * 0.5); polynesie2.scale(_ * 0.06); return conicConformalFrance.translate(europe.translate()); }; conicConformalFrance.translate = function(_) { if (!arguments.length) {return europe.translate();} var k = europe.scale(), x = +_[0], y = +_[1]; europePoint = europe .translate(_) .clipExtent([[x - 0.0996 * k, y - 0.0908 * k],[x + 0.0967 * k, y + 0.0864 * k]]) .stream(pointStream); guyanePoint = guyane .translate([x - 0.12 * k, y + 0.0575 * k]) .clipExtent([[x - 0.14 * k + epsilon, y + 0.029 * k + epsilon],[x - 0.0996 * k - epsilon, y + 0.0864 * k - epsilon]]) .stream(pointStream); martiniquePoint = martinique .translate([x - 0.12 * k, y + 0.013 * k]) .clipExtent([[x - 0.14 * k + epsilon, y + 0 * k + epsilon],[x - 0.0996 * k - epsilon, y + 0.029 * k - epsilon]]) .stream(pointStream); guadeloupePoint = guadeloupe .translate([x - 0.12 * k, y -0.014 * k]) .clipExtent([[x - 0.14 * k + epsilon, y - 0.032 * k + epsilon],[x - 0.0996 * k - epsilon, y + 0 * k - epsilon]]) .stream(pointStream); saintBarthelemyPoint = saintBarthelemy .translate([x - 0.12 * k, y - 0.044 * k]) .clipExtent([[x - 0.14 * k + epsilon, y - 0.052 * k + epsilon],[x - 0.0996 * k - epsilon, y - 0.032 * k - epsilon]]) .stream(pointStream); stPierreMiquelonPoint = stPierreMiquelon .translate([x - 0.12 * k, y - 0.065 * k]) .clipExtent([[x - 0.14 * k + epsilon, y - 0.076 * k + epsilon],[x - 0.0996 * k - epsilon, y - 0.052 * k - epsilon]]) .stream(pointStream); mayottePoint = mayotte .translate([x + 0.117 * k, y - 0.064 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y - 0.076 * k + epsilon],[x + 0.1371 * k - epsilon, y - 0.052 * k - epsilon]]) .stream(pointStream); reunionPoint = reunion .translate([x + 0.116 * k, y - 0.0355 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y - 0.052 * k + epsilon],[x + 0.1371 * k - epsilon, y - 0.02 * k - epsilon]]) .stream(pointStream); nouvelleCaledoniePoint = nouvelleCaledonie .translate([x + 0.116 * k, y - 0.0048 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y - 0.02 * k + epsilon],[x + 0.1371 * k - epsilon, y + 0.012 * k - epsilon]]) .stream(pointStream); wallisFutunaPoint = wallisFutuna .translate([x + 0.116 * k, y + 0.022 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y + 0.012 * k + epsilon],[x + 0.1371 * k - epsilon, y + 0.033 * k - epsilon]]) .stream(pointStream); polynesie2Point = polynesie2 .translate([x + 0.11 * k, y + 0.045 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y + 0.033 * k + epsilon],[x + 0.1371 * k - epsilon, y + 0.06 * k - epsilon]]) .stream(pointStream); polynesiePoint = polynesie .translate([x + 0.115 * k, y + 0.075 * k]) .clipExtent([[x + 0.0967 * k + epsilon, y + 0.06 * k + epsilon],[x + 0.1371 * k - epsilon, y + 0.0864 * k - epsilon]]) .stream(pointStream); return reset(); }; conicConformalFrance.fitExtent = function(extent, object) { return fitExtent(conicConformalFrance, extent, object); }; conicConformalFrance.fitSize = function(size, object) { return fitSize(conicConformalFrance, size, object); }; function reset() { cache = cacheStream = null; return conicConformalFrance; } conicConformalFrance.drawCompositionBorders = function(context) { /* console.log("var ul, ur, ld, ll;"); var projs = [guyane, martinique, guadeloupe, saintBarthelemy, stPierreMiquelon, mayotte, reunion, nouvelleCaledonie, wallisFutuna, polynesie, polynesie2]; for (var i in projs){ var ul = europe.invert([projs[i].clipExtent()[0][0], projs[i].clipExtent()[0][1]]); var ur = europe.invert([projs[i].clipExtent()[1][0], projs[i].clipExtent()[0][1]]); var ld = europe.invert([projs[i].clipExtent()[1][0], projs[i].clipExtent()[1][1]]); var ll = europe.invert([projs[i].clipExtent()[0][0], projs[i].clipExtent()[1][1]]); console.log("ul = europe(["+ul+"]);"); console.log("ur = europe(["+ur+"]);"); console.log("ld = europe(["+ld+"]);"); console.log("ll = europe(["+ll+"]);"); console.log("context.moveTo(ul[0], ul[1]);"); console.log("context.lineTo(ur[0], ur[1]);"); console.log("context.lineTo(ld[0], ld[1]);"); console.log("context.lineTo(ll[0], ll[1]);"); console.log("context.closePath();"); }*/ var ul, ur, ld, ll; ul = europe([-7.938886725111036,43.7219460918835]); ur = europe([-4.832080896458295,44.12930268549372]); ld = europe([-4.205299743793263,40.98096346967365]); ll = europe([-7.071796453126152,40.610037319181444]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([-8.42751373617692,45.32889452553031]); ur = europe([-5.18599305777107,45.7566442062976]); ld = europe([-4.832080905154431,44.129302726751426]); ll = europe([-7.938886737126192,43.72194613263854]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([-9.012656899657046,47.127733821030176]); ur = europe([-5.6105244772793155,47.579777861410626]); ld = europe([-5.185993067168585,45.756644248170346]); ll = europe([-8.427513749141811,45.32889456686326]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([-9.405747558985553,48.26506375557457]); ur = europe([-5.896175018439575,48.733352850851624]); ld = europe([-5.610524487556043,47.57977790393761]); ll = europe([-9.012656913808351,47.127733862971255]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([-9.908436061346974,49.642448789505856]); ur = europe([-6.262026716233124,50.131426841787174]); ld = europe([-5.896175029331232,48.73335289377258]); ll = europe([-9.40574757396393,48.26506379787767]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([11.996907706504462,50.16039028163579]); ur = europe([15.649907879773343,49.68279246765253]); ld = europe([15.156712840526632,48.30371557625831]); ll = europe([11.64122661754411,48.761078240546816]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([11.641226606955788,48.7610781975889]); ur = europe([15.156712825832164,48.30371553390465]); ld = europe([14.549932166241172,46.4866532486199]); ll = europe([11.204443787952183,46.91899233914248]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([11.204443778297161,46.918992296823646]); ur = europe([14.549932152815039,46.486653206856396]); ld = europe([13.994409796764009,44.695833444323256]); ll = europe([10.805306599253848,45.105133870684924]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([10.805306590412085,45.10513382903308]); ur = europe([13.99440978444733,44.695833403183606]); ld = europe([13.654633799024392,43.53552468558152]); ll = europe([10.561516803980956,43.930671459798624]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([10.561516795617383,43.93067141859757]); ur = europe([13.654633787361952,43.5355246448671]); ld = europe([12.867691604239901,40.640701985019405]); ll = europe([9.997809515987688,41.00288343254471]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([10.8,42.4]); ur = europe([12.8,42.13]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); }; conicConformalFrance.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return conicConformalFrance.scale(2700); } // The projections must have mutually exclusive clip regions on the sphere, // as this will avoid emitting interleaving lines and polygons. function multiplex$8(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 Portugal, configured by default for 960×500. function conicConformalEurope() { var cache, cacheStream, europe = d3Geo.geoConicConformal().rotate([-10, -53]).parallels([0, 60]), europePoint, guadeloupe = d3Geo.geoMercator().center([-61.46, 16.14]), guadeloupePoint, guyane = d3Geo.geoMercator().center([-53.2, 3.9]), guyanePoint, azores = d3Geo.geoConicConformal().rotate([27.8, -38.9]).parallels([0, 60]), azoresPoint, azores2 = d3Geo.geoConicConformal().rotate([25.43, -37.398]).parallels([0, 60]), azores2Point, azores3 = d3Geo.geoConicConformal().rotate([31.17, -39.539]).parallels([0, 60]), azores3Point, madeira = d3Geo.geoConicConformal().rotate([17, -32.7]).parallels([0, 60]), madeiraPoint, canaryIslands = d3Geo.geoConicConformal().rotate([16, -28.5]).parallels([0,60]), canaryIslandsPoint, martinique = d3Geo.geoMercator().center([-61.03, 14.67]), martiniquePoint, mayotte = d3Geo.geoMercator().center([45.16, -12.8]), mayottePoint, reunion = d3Geo.geoMercator().center([55.52, -21.13]), reunionPoint, malta = d3Geo.geoConicConformal().rotate([-14.4, -35.95]).parallels([0, 60]), maltaPoint, point, pointStream = {point: function(x, y) { point = [x, y]; }}; /* var europeBbox = [[-6.5, 51], [10, 41]]; var guyaneBbox = [[-54.5, 6.29], [-50.9, 1.48]]; */ function conicConformalEurope(coordinates) { var x = coordinates[0], y = coordinates[1]; return point = null, (europePoint.point(x, y), point) || (guyanePoint.point(x, y), point) || (martiniquePoint.point(x, y), point) || (guadeloupePoint.point(x, y), point) || (canaryIslandsPoint.point(x, y), point) || (madeiraPoint.point(x, y), point) || (mayottePoint.point(x, y), point) || (reunionPoint.point(x, y), point) || (maltaPoint.point(x, y), point) || (azoresPoint.point(x, y), point) || (azores2Point.point(x, y), point) || (azores3Point.point(x, y), point); } conicConformalEurope.invert = function(coordinates) { var k = europe.scale(), t = europe.translate(), x = (coordinates[0] - (t[0] + 0.08 * k)) / k, y = (coordinates[1] - t[1]) / k; return (y >= -0.31 && y< -0.24 && x >= 0.14 && x < 0.24 ? guadeloupe : y >= -0.24 && y< -0.17 && x >= 0.14 && x < 0.24 ? guyane : y >= -0.17 && y< -0.12 && x >= 0.21 && x < 0.24 ? azores2 : y >= -0.17 && y< -0.14 && x >= 0.14 && x < 0.165 ? azores3 : y >= -0.17 && y< -0.1 && x >= 0.14 && x < 0.24 ? azores : y >= -0.1 && y< -0.03 && x >= 0.14 && x < 0.24 ? madeira : y >= -0.03 && y< 0.04 && x >= 0.14 && x < 0.24 ? canaryIslands : y >= -0.31 && y< -0.24 && x >= 0.24 && x < 0.34 ? martinique : y >= -0.24 && y< -0.17 && x >= 0.24 && x < 0.34 ? mayotte : y >= -0.17 && y< -0.1 && x >= 0.24 && x < 0.34 ? reunion : y >= -0.1 && y< -0.03 && x >= 0.24 && x < 0.34 ? malta : europe).invert(coordinates); }; conicConformalEurope.stream = function(stream) { return cache && cacheStream === stream ? cache : cache = multiplex$8([europe.stream(cacheStream = stream), guyane.stream(stream), martinique.stream(stream), guadeloupe.stream(stream), canaryIslands.stream(stream), madeira.stream(stream), mayotte.stream(stream), reunion.stream(stream), malta.stream(stream), azores.stream(stream), azores2.stream(stream), azores3.stream(stream)]); }; conicConformalEurope.precision = function(_) { if (!arguments.length) {return europe.precision();} europe.precision(_); guyane.precision(_); martinique.precision(_); guadeloupe.precision(_); canaryIslands.precision(_); madeira.precision(_); mayotte.precision(_); reunion.precision(_); malta.precision(_); azores.precision(_); azores2.precision(_); azores3.precision(_); return reset(); }; conicConformalEurope.scale = function(_) { if (!arguments.length) {return europe.scale();} europe.scale(_); guadeloupe.scale(_ * 3); guyane.scale(_ * 0.8); martinique.scale(_ * 3.5); reunion.scale(_ * 2.7); azores.scale(_ * 2); azores2.scale(_ * 2); azores3.scale(_ * 2); madeira.scale(_ * 3); canaryIslands.scale(_); mayotte.scale(_ * 5.5); malta.scale(_ * 6); return conicConformalEurope.translate(europe.translate()); }; conicConformalEurope.translate = function(_) { if (!arguments.length) {return europe.translate();} var k = europe.scale(), x = +_[0], y = +_[1]; europePoint = europe .translate([x - 0.08 * k, y]) .clipExtent([[x - 0.51 * k, y - 0.33 * k],[x + 0.5 * k, y + 0.33 * k]]) .stream(pointStream); guadeloupePoint = guadeloupe .translate([x + 0.19 * k, y - 0.275 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.31 * k + epsilon],[x + 0.24 * k - epsilon, y - 0.24 * k - epsilon]]) .stream(pointStream); guyanePoint = guyane .translate([x + 0.19 * k, y - 0.205 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.24 * k + epsilon],[x + 0.24 * k - epsilon, y - 0.17 * k - epsilon]]) .stream(pointStream); azoresPoint = azores .translate([x + 0.19 * k, y - 0.135 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.17 * k + epsilon],[x + 0.24 * k - epsilon, y - 0.1 * k - epsilon]]) .stream(pointStream); azores2Point = azores2 .translate([x + 0.225 * k, y - 0.147 * k]) .clipExtent([[x + 0.21 * k + epsilon, y - 0.17 * k + epsilon],[x + 0.24 * k - epsilon, y - 0.12 * k - epsilon]]) .stream(pointStream); azores3Point = azores3 .translate([x + 0.153 * k, y - 0.15 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.17 * k + epsilon],[x + 0.165 * k - epsilon, y - 0.14 * k - epsilon]]) .stream(pointStream); madeiraPoint = madeira .translate([x + 0.19 * k, y - 0.065 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.1 * k + epsilon],[x + 0.24 * k - epsilon, y - 0.03 * k - epsilon]]) .stream(pointStream); canaryIslandsPoint = canaryIslands .translate([x + 0.19 * k, y + 0.005 * k]) .clipExtent([[x + 0.14 * k + epsilon, y - 0.03 * k + epsilon],[x + 0.24 * k - epsilon, y + 0.04 * k - epsilon]]) .stream(pointStream); martiniquePoint = martinique .translate([x + 0.29 * k, y - 0.275 * k]) .clipExtent([[x + 0.24 * k + epsilon, y - 0.31 * k + epsilon],[x + 0.34 * k - epsilon, y - 0.24 * k - epsilon]]) .stream(pointStream); mayottePoint = mayotte .translate([x + 0.29 * k, y - 0.205 * k]) .clipExtent([[x + 0.24 * k + epsilon, y - 0.24 * k + epsilon],[x + 0.34 * k - epsilon, y - 0.17 * k - epsilon]]) .stream(pointStream); reunionPoint = reunion .translate([x + 0.29 * k, y - 0.135 * k]) .clipExtent([[x + 0.24 * k + epsilon, y - 0.17 * k + epsilon],[x + 0.34 * k - epsilon, y - 0.1 * k - epsilon]]) .stream(pointStream); maltaPoint = malta .translate([x + 0.29 * k, y - 0.065 * k]) .clipExtent([[x + 0.24 * k + epsilon, y - 0.1 * k + epsilon],[x + 0.34 * k - epsilon, y - 0.03 * k - epsilon]]) .stream(pointStream); return reset(); }; conicConformalEurope.fitExtent = function(extent, object) { return fitExtent(conicConformalEurope, extent, object); }; conicConformalEurope.fitSize = function(size, object) { return fitSize(conicConformalEurope, size, object); }; function reset() { cache = cacheStream = null; return conicConformalEurope; } conicConformalEurope.drawCompositionBorders = function(context) { /* console.log("var ul, ur, ld, ll;"); var projs = [guyane, martinique, guadeloupe, canaryIslands, madeira, mayotte, reunion, malta, azores, azores2, azores3]; for (var i in projs){ var ul = europe.invert([projs[i].clipExtent()[0][0], projs[i].clipExtent()[0][1]]); var ur = europe.invert([projs[i].clipExtent()[1][0], projs[i].clipExtent()[0][1]]); var ld = europe.invert([projs[i].clipExtent()[1][0], projs[i].clipExtent()[1][1]]); var ll = europe.invert([projs[i].clipExtent()[0][0], projs[i].clipExtent()[1][1]]); console.log("ul = europe(["+ul+"]);"); console.log("ur = europe(["+ur+"]);"); console.log("ld = europe(["+ld+"]);"); console.log("ll = europe(["+ll+"]);"); console.log("context.moveTo(ul[0], ul[1]);"); console.log("context.lineTo(ur[0], ur[1]);"); console.log("context.lineTo(ld[0], ld[1]);"); console.log("context.lineTo(ll[0], ll[1]);"); console.log("context.closePath();"); }*/ var ul, ur, ld, ll; ul = europe([42.45755610828648,63.343658547914934]); ur = europe([52.65837266667029,59.35045080290929]); ld = europe([47.19754502247785,56.12653496548117]); ll = europe([37.673034273363044,59.61638268506111]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([59.41110754003403,62.35069727399336]); ur = europe([66.75050228640794,57.11797303636038]); ld = europe([60.236065725110436,54.63331433818992]); ll = europe([52.65837313153311,59.350450804599355]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([48.81091130080243,66.93353402634641]); ur = europe([59.41110730654679,62.35069740653086]); ld = europe([52.6583728974441,59.3504509222445]); ll = europe([42.45755631675751,63.34365868805821]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([31.054198418446475,52.1080673766184]); ur = europe([39.09869284884117,49.400700047190554]); ld = europe([36.0580811499175,46.02944174908498]); ll = europe([28.690508588835726,48.433126979386415]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([33.977877745912025,55.849945501331]); ur = europe([42.75328432167726,52.78455122462353]); ld = europe([39.09869297540224,49.400700176148625]); ll = europe([31.05419851807008,52.10806751810923]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([52.658372900759296,59.35045068526415]); ur = europe([60.23606549583304,54.63331423800264]); ld = europe([54.6756370953122,51.892298789399455]); ll = europe([47.19754524788189,56.126534861222794]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([47.19754506082455,56.126534735591456]); ur = europe([54.675636900123514,51.892298681337095]); ld = europe([49.94448648951486,48.98775484983285]); ll = europe([42.75328468716108,52.78455126060818]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([42.75328453416769,52.78455113209101]); ur = europe([49.94448632339758,48.98775473706457]); ld = europe([45.912339990394315,45.99361784987003]); ll = europe([39.09869317356607,49.40070009378711]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([37.673034114296634,59.61638254183119]); ur = europe([47.197544835420544,56.126534839849846]); ld = europe([42.75328447467064,52.78455135314068]); ll = europe([33.977877870363905,55.849945644671145]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([44.56748486446032,57.26489367845818]); ld = europe([43.9335791193588,53.746540942601726]); ll = europe([43,56]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); ul = europe([37.673034114296634,59.61638254183119]); ur = europe([40.25902691953466,58.83002044222639]); ld = europe([38.458270492742024,57.26232178028002]); ll = europe([35.97754948030156,58.00266637992386]); context.moveTo(ul[0], ul[1]); context.lineTo(ur[0], ur[1]); context.lineTo(ld[0], ld[1]); context.lineTo(ll[0], ll[1]); context.closePath(); }; conicConformalEurope.getCompositionBorders = function() { var context = d3Path.path(); this.drawCompositionBorders(context); return context.toString(); }; return conicConformalEurope.scale(750); } exports.geoAlbersUsa = albersUsa; exports.geoAlbersUsaTerritories = albersUsaTerritories; exports.geoConicConformalSpain = conicConformalSpain; exports.geoConicConformalPortugal = conicConformalPortugal; exports.geoMercatorEcuador = mercatorEcuador; exports.geoTransverseMercatorChile = transverseMercatorChile; exports.geoConicEquidistantJapan = conicEquidistantJapan; exports.geoConicConformalFrance = conicConformalFrance; exports.geoConicConformalEurope = conicConformalEurope; Object.defineProperty(exports, '__esModule', { value: true }); }));