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<!DOCTYPE html> <html lang="en"> <head> <meta charset="utf-8"> <title>D3: Drawing with iris data</title> <script src="https://d3js.org/d3.v4.min.js"></script> <style type="text/css"> /* No style rules here yet */ </style> </head> <body> <script type="text/javascript"> var margin = { top: 20, right: 20, bottom: 50, left: 70 }; var w = 1000 - margin.left - margin.right ; var h = 500 - margin.top - margin.bottom; //Upload Data var dataset; d3.csv("iris3.csv", function(data) { dataset = data; data.forEach( function(d){ d["sepallength"] = +d["sepallength"]; }); data.forEach( function(d){ d["sepalwidth"] = +d["sepalwidth"]; }); //Create scale functions var xScale = d3.scaleLinear() .domain([d3.min(dataset, function(d) { return d["sepallength"]; }), d3.max(dataset, function(d) { return d["sepallength"]; })]) .range([0, w]); var yScale = d3.scaleLinear() .domain([d3.min(dataset, function(d) { return d["sepalwidth"]; }), d3.max(dataset, function(d) { return d["sepalwidth"]; })]) .range([h, 0]); //Create SVG element var svg = d3.select("body") .append("svg") .attr("width", w + margin.left + margin.right ) .attr("height", h + margin.top + margin.bottom ) .append("g") // moves the 'group' element to the top left margin svg.attr("transform", "translate(" + margin.left + "," + margin.top + ")"); //Add the points svg.selectAll(".point") .data(dataset) .enter() .append("path") .attr("class", "point") .attr("d", d3.symbol().type( function(d) { if (d["species"] == "setosa") {return d3.symbolTriangle} else if (d["species"] == "virginica") { return d3.symbolCross} else { return d3.symbolStar } ;})) .attr("fill", function(d) { if (d["species"] == "setosa") {return "red"} else if (d["species"] == "virginica") { return "orange"} else { return "blue" } ;}) .attr("transform", function(d) { return "translate(" + xScale(d["sepallength"]) + "," + yScale(d["sepalwidth"]) + ")"; }); // Add the x Axis svg.append("g") .attr("transform", "translate(0," + h + ")") .call(d3.axisBottom(xScale)); // text label for the x axis svg.append("text") .attr("transform", "translate(" + (w/2) + " ," + (h + margin.top + 20 ) + ")") .style("text-anchor", "middle") .text("Sepal Lenght "); // Add the y Axis svg.append("g") .call(d3.axisLeft(yScale)); // text label for the y axis svg.append("text") .attr("transform", "rotate(-90)") .attr("y", 0 - margin.left) .attr("x",0 - (h / 2)) .attr("dy", "1em") .style("text-anchor", "middle") .text("Sepal Widht"); //Limits of the domain xmin = d3.min(dataset, function(d) { return d["sepallength"]; }); xmax = d3.max(dataset, function(d) { return d["sepallength"]; }); // Regression for Setosa var XaxisDataS = []; var YaxisDataS = []; dataset.forEach( function(d) { if (d["species"] == "setosa") { XaxisDataS.push(d["sepallength"]) YaxisDataS.push(d["sepalwidth"]) }; }); regressionS = leastSquaresequation(XaxisDataS,YaxisDataS); svg.append("line") .style("stroke", "red") .attr("x1", xScale(xmin) ) .attr("y1" , yScale(regressionS(xmin))) .attr("x2", xScale(xmax) ) .attr("y2", yScale(regressionS(xmax))); //Regression for Virginica var XaxisDataV = []; var YaxisDataV = []; dataset.forEach( function(d) { if (d["species"] == "virginica") { XaxisDataV.push(d["sepallength"]) YaxisDataV.push(d["sepalwidth"]) }; }); regressionV = leastSquaresequation(XaxisDataV,YaxisDataV); svg.append("line") .style("stroke", "orange") .attr("x1", xScale(xmin) ) .attr("y1" , yScale(regressionV(xmin))) .attr("x2", xScale(xmax) ) .attr("y2", yScale(regressionV(xmax))); //Regression for Versicolor var XaxisDataC = []; var YaxisDataC = []; dataset.forEach( function(d) { if (d["species"] == "versicolor") { XaxisDataC.push(d["sepallength"]) YaxisDataC.push(d["sepalwidth"]) }; }); regressionC = leastSquaresequation(XaxisDataC,YaxisDataC); svg.append("line") .style("stroke", "blue") .attr("x1", xScale(xmin) ) .attr("y1" , yScale(regressionC(xmin))) .attr("x2", xScale(xmax) ) .attr("y2", yScale(regressionC(xmax))); }); function leastSquaresequation(XaxisData, YaxisData) { var ReduceAddition = function(prev, cur) { return prev + cur; }; //console.log(XaxisData) //console.log(YaxisData) // finding the mean of Xaxis and Yaxis data var xBar = XaxisData.reduce(ReduceAddition) * 1.0 / XaxisData.length; var yBar = YaxisData.reduce(ReduceAddition) * 1.0 / YaxisData.length; console.log(XaxisData.reduce(ReduceAddition)) var SquareXX = XaxisData.map(function(d) { return Math.pow(d - xBar, 2); }) .reduce(ReduceAddition); var ssYY = YaxisData.map(function(d) { return Math.pow(d - yBar, 2); }) .reduce(ReduceAddition); var MeanDiffXY = XaxisData.map(function(d, i) { return (d - xBar) * (YaxisData[i] - yBar); }) .reduce(ReduceAddition); var slope = MeanDiffXY / SquareXX; var intercept = yBar - (xBar * slope); // returning regression function return function(x){ return x*slope+intercept } } </script> </body>
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