355 lines
8.9 KiB
HTML
355 lines
8.9 KiB
HTML
<!DOCTYPE html>
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<meta charset="utf-8">
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<link href="../src/nv.d3.css" rel="stylesheet" type="text/css">
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<link href="teststyle.css" rel="stylesheet" type='text/css'>
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<body>
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<h3>Line chart test cases - feel free to add more tests</h3>
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<div style='position:relative;'>
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<div class='navigation'>
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Tests:
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<a href="lineChartTest.html">Line Chart</a>
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<a href="stackedAreaChartTest.html">Stacked Area</a>
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<a href="../examples/cumulativeLineChart.html">Cumulative Line</a>
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<a href="ScatterChartTest.html">Scatter</a>
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<a href="interactiveBisectTest.html">nv.interactiveBisect unit tests</a>
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</div>
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<div class='chart full' id='chart1'>
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Example of chart with many series', and new interactive guideline plus tooltip.
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<svg></svg>
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</div>
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<div class='chart half with-transitions' id='chart2'>
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Chart with old tooltip style (with-transitions).
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<svg></svg>
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</div>
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<div class='chart half' id='chart3'>
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Chart with three data points.
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<svg></svg>
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</div>
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<div class='chart third' id='chart4'>
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Chart where two series have different number of points.
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<svg></svg>
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</div>
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<div class='chart third' id='chart5'>
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Chart with one point.
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<svg></svg>
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</div>
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<div class='chart third' id='chart6'>
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Chart with 1000 points.
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<svg></svg>
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</div>
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<div class='chart third' id='chart7'>
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Chart with no data.
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<svg></svg>
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</div>
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<div class='chart third' id='chart8'>
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All points random. No order.
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<svg></svg>
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</div>
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<div class='chart third' id='chart9'>
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Points do not increase linearly.
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<svg></svg>
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</div>
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<div class='chart third' id='chart10'>
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Chart with 15 series'
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<svg></svg>
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</div>
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<div class='chart third' id='chart11'>
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Data points go backwards
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<svg></svg>
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</div>
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<div class='chart third' id='chart12'>
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Duplicate X coordinate points.
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<svg></svg>
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</div>
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<div class='chart third' id='chart13'>
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What if there are null, Infinity and NaN values in points?
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<svg></svg>
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</div>
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</div>
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<script src="../lib/d3.v3.js"></script>
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<script src="../nv.d3.js"></script>
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<script src="../src/tooltip.js"></script>
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<script src="../src/utils.js"></script>
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<script src="../src/interactiveLayer.js"></script>
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<script src="../src/models/legend.js"></script>
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<script src="../src/models/axis.js"></script>
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<script src="../src/models/scatter.js"></script>
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<script src="../src/models/line.js"></script>
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<script src="../src/models/lineChart.js"></script>
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<script>
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//------------ CHART 1
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defaultChartConfig("chart1", sinAndCos(),true, true);
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//-------------- CHART 2 --- Chart without the interactive guideline.
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nv.addGraph(function() {
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var chart;
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chart = nv.models.lineChart().useInteractiveGuideline(false);
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chart
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.x(function(d,i) { return d.x });
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chart.xAxis // chart sub-models (ie. xAxis, yAxis, etc) when accessed directly, return themselves, not the parent chart, so need to chain separately
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.tickFormat(d3.format(',.1f'));
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chart.yAxis
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.axisLabel('Voltage (v)')
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.tickFormat(d3.format(',.4f'));
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chart.showXAxis(true).showYAxis(true).rightAlignYAxis(true).margin({right: 90});
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d3.select('#chart2 svg')
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//.datum([]) //for testing noData
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.datum(hyperbole())
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.transition().duration(500)
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.call(chart);
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nv.utils.windowResize(chart.update);
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return chart;
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});
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defaultChartConfig("chart3", smallDataSet(3));
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defaultChartConfig("chart4", badDataSet());
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defaultChartConfig("chart5", smallDataSet(1));
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defaultChartConfig("chart6", normalDist());
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defaultChartConfig("chart7", smallDataSet(0));
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defaultChartConfig("chart8", allRandom(),false);
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defaultChartConfig("chart9", fibonacci());
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defaultChartConfig("chart10", lotsofSeries());
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defaultChartConfig("chart11", backwards(),false);
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defaultChartConfig("chart12", duplicateX(),false);
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defaultChartConfig("chart13", withNaNs());
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function defaultChartConfig(containerid, data, guideline, useDates) {
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if (guideline === undefined) guideline = true;
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nv.addGraph(function() {
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var chart;
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chart = nv.models.lineChart().useInteractiveGuideline(guideline);
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chart
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.x(function(d,i) {
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return d.x;
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});
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var formatter;
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if (useDates !== undefined) {
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formatter = function(d,i) {
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var now = (new Date()).getTime() - 86400 * 1000 * 365;
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now = new Date(now + d * 86400 * 1000);
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return d3.time.format('%b %d %Y')(now );
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}
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}
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else {
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formatter = d3.format(",.1f");
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}
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chart.margin({right: 40});
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chart.xAxis // chart sub-models (ie. xAxis, yAxis, etc) when accessed directly, return themselves, not the parent chart, so need to chain separately
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.tickFormat(
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formatter
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);
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chart.yAxis
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.axisLabel('Voltage (v)')
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.tickFormat(d3.format(',.2f'));
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d3.select('#' + containerid + ' svg')
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.datum(data)
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.transition().duration(500)
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.call(chart);
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nv.utils.windowResize(chart.update);
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return chart;
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});
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}
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function sinAndCos() {
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var sin = [],
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cos = [],
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rand = [],
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rand2 = []
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;
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var now = (new Date()).getTime();
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for (var i = 0; i < 100; i++) {
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sin.push({x: i, y: i % 10 == 5 ? null : Math.sin(i/10) }); //the nulls are to show how defined works
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cos.push({x: i, y: .5 * Math.cos(i/10)});
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rand.push({x:i, y: Math.random() / 10});
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rand2.push({x: i, y: Math.cos(i/10) + Math.random() / 10 })
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}
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return [
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{
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area: true,
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values: sin,
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key: "Sine Wave",
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color: "#ff7f0e"
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},
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{
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values: cos,
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key: "Cosine Wave",
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color: "#2ca02c"
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},
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{
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values: rand,
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key: "Random Points",
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color: "#2222ff"
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}
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,
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{
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values: rand2,
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key: "Random Cosine",
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color: "#667711"
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}
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];
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}
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function hyperbole() {
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var series1 = [], series2 = [], series3 = [];
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for(var i = 1; i < 100; i++) {
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series1.push({x: i, y: 1 / i});
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series2.push({x: i, y: 5 / i});
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series3.push({x: i, y: -8 / i});
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}
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return [
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{values: series1, key: "Series 1"},
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{values: series2, key: "Series 2"},
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{values: series3, key: "Series 3"}
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];
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}
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function smallDataSet(n) {
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var series = [];
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for(var i = 0; i < n; i++) {
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series.push({x: i, y: i * 0.3 + 2})
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}
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return [
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{values: series, key: "Line 1"}
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];
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}
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function badDataSet() {
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var series1 = [], series2 = [];
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for(var i =0; i < 30; i++) {
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series1.push({x:i, y: i*0.3 + 12});
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}
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for(i = 0; i < 30; i += 5) {
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series2.push({x:i, y: i*0.7 + 8});
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}
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return [
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{values: series1, key:"Series 1"},
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{values: series2, key:"Series 2"}
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];
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}
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function normalDist() {
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var series1 = [], series2 = [];
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for(var i = -500; i < 500; i += 1) {
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var x = i / 100;
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var y = 0.3989 * Math.pow(2.71, -0.5*x*x);
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series1.push({x:i, y:y});
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series2.push({x:i, y:y*2});
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}
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return [
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{values: series1, key:"Normal 1", area:true},
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{values: series2, key:"Normal 2"}];
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}
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function allRandom() {
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var series = [];
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for(var i = 0; i < 20; i++) {
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series.push({x: Math.floor(Math.random()*20), y: Math.floor(Math.random()*20) });
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}
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return [{values: series,area:true, key: "Total Chaos"}];
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}
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function fibonacci() {
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var series = [
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{x:1, y:1},
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{x:2, y:2.5},
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{x:3, y:4},
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{x:5, y:6.7},
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{x:8, y:10.1},
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{x:13, y:20.1},
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{x:21, y:35.1},
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{x:34, y:60.0},
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{x:55, y:70.9},
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{x:89, y:100.3}
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];
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return [{values: series,area:true,color: "#22fb88", key: "Fibonacci"}];
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}
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function lotsofSeries() {
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var rval = [];
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for(var n = 0; n < 15; n++) {
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var values = [];
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var slope = Math.random() * 5;
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for(var i =0; i < 30; i++) {
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values.push(
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{x: i,
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y: i * slope + Math.random()*5}
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);
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}
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var isArea = (Math.random() > 0.5);
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rval.push({key: "Series " + n, area: isArea, values: values});
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}
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return rval;
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}
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function backwards() {
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var series = [];
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for(var i = 30; i >= 1; i--) {
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series.push({x: i, y: Math.sqrt(i) });
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}
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return [{values: series, key: "Backwards series", area:true}];
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}
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function duplicateX() {
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return [
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{key: "Duplicate X",
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area: true,
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values: [
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{x: 4, y: 10},
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{x: 4, y: 11},
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{x: 4, y: 12},
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{x: 4, y: 13}
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]
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}
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];
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}
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function withNaNs() {
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return [
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{key: "NaN Points",
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values: [
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{x: 1, y: NaN},
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{x: 2, y: undefined},
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{x: 3, y: false},
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{x: 4, y: null},
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{x: 5, y: "Hello"},
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{x: NaN, y: NaN},
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{x: null, y: null},
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{x: undefined, y: undefined},
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{x: "Hello", y: "World"},
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{x: Infinity, y: Infinity}
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]
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}
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]
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}
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</script>
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