mirror of https://github.com/vitalif/dimple
Fixed Ordering Rule
parent
61965f6ae2
commit
1d720360d2
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@ -688,7 +688,7 @@ var dimple = {
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key,
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storyCat = "",
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orderedStoryboardArray = [],
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seriesCat = "",
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seriesCat = [],
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orderedSeriesArray = [],
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xCat = "",
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xSortArray = [],
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@ -738,6 +738,7 @@ var dimple = {
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sortedData.sort(function (a, b) {
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var returnValue = 0,
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cats,
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comp,
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p,
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q,
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aMatch,
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@ -751,15 +752,16 @@ var dimple = {
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if (yCat !== "" && returnValue === 0) {
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returnValue = ySortArray.indexOf(a[yCat]) - ySortArray.indexOf(b[yCat]);
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}
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if (seriesCat !== null && seriesCat !== undefined && seriesCat.length > 0) {
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if (seriesCat && seriesCat.length > 0 && returnValue === 0) {
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cats = [].concat(seriesCat);
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returnValue = 0;
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for (p = 0; p < orderedSeriesArray.length; p += 1) {
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comp = [].concat(orderedSeriesArray[p]);
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aMatch = true;
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bMatch = true;
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for (q = 0; q < cats.length; q += 1) {
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aMatch = aMatch && (a[cats[q]] === orderedSeriesArray[p][q]);
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bMatch = bMatch && (b[cats[q]] === orderedSeriesArray[p][q]);
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aMatch = aMatch && (a[cats[q]] === comp[q]);
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bMatch = bMatch && (b[cats[q]] === comp[q]);
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}
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if (aMatch && bMatch) {
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returnValue = 0;
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@ -2602,6 +2604,202 @@ var dimple = {
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// License: "https://github.com/PMSI-AlignAlytics/dimple/blob/master/MIT-LICENSE.txt"
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// Source: /src/objects/plot/area.js
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dimple.plot.area = {
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// By default the values are stacked
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stacked: true,
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// The axis positions affecting the area series
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supportedAxes: ["x", "y", "c"],
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// Draw the axis
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draw: function (chart, series, duration) {
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// Get the position data
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var data = series._positionData,
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areaData = [],
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theseShapes = null,
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className = "dimple-series-" + chart.series.indexOf(series),
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firstAgg = (series.x._hasCategories() || series.y._hasCategories() ? 0 : 1),
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interpolation,
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graded = false,
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i,
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k,
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key,
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keyString,
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rowIndex,
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updated,
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removed,
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orderedSeriesArray,
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dataClone,
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onEnter = function (e, shape, chart, series) {
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d3.select(shape).style("opacity", 1);
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dimple._showPointTooltip(e, shape, chart, series);
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},
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onLeave = function (e, shape, chart, series) {
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d3.select(shape).style("opacity", (series.lineMarkers ? dimple._helpers.opacity(e, chart, series) : 0));
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dimple._removeTooltip(e, shape, chart, series);
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},
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drawMarkers = function (d) {
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dimple._drawMarkers(d, chart, series, duration, className, graded, onEnter, onLeave);
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},
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coord = function (position, datum) {
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var val;
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if (series.interpolation === "step" && series[position]._hasCategories()) {
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series.barGap = 0;
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series.clusterBarGap = 0;
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val = dimple._helpers[position](datum, chart, series) + (position === "y" ? dimple._helpers.height(datum, chart, series) : 0);
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} else {
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val = dimple._helpers["c" + position](datum, chart, series);
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}
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return val;
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},
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getArea = function (inter, originProperty) {
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return d3.svg.line()
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.x(function (d) { return (series.x._hasCategories() || !originProperty ? coord("x", d) : series.x[originProperty]); })
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.y(function (d) { return (series.y._hasCategories() || !originProperty ? coord("y", d) : series.y[originProperty]); })
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.interpolate(inter);
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};
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// Handle the special interpolation handling for step
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interpolation = (series.interpolation === "step" ? "step-after" : series.interpolation);
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// Get the array of ordered values
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orderedSeriesArray = dimple._getSeriesOrder(series.data || chart.data, series);
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if (series.c && ((series.x._hasCategories() && series.y._hasMeasure()) || (series.y._hasCategories() && series.x._hasMeasure()))) {
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graded = true;
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}
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// Create a set of area data grouped by the aggregation field
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for (i = 0; i < data.length; i += 1) {
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key = [];
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rowIndex = -1;
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// Skip the first category unless there is a category axis on x or y
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for (k = firstAgg; k < data[i].aggField.length; k += 1) {
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key.push(data[i].aggField[k]);
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}
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// Find the corresponding row in the areaData
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keyString = dimple._createClass(key);
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for (k = 0; k < areaData.length; k += 1) {
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if (areaData[k].keyString === keyString) {
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rowIndex = k;
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break;
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}
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}
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// Add a row to the area data if none was found
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if (rowIndex === -1) {
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rowIndex = areaData.length;
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areaData.push({
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key: key,
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keyString: keyString,
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color: "white",
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data: [],
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area: {},
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entryExit: {}
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});
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}
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// Add this row to the relevant data
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areaData[rowIndex].data.push(data[i]);
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}
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// Sort the area data itself based on the order series array - this matters for stacked areas and default color
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// consistency with colors usually awarded in terms of prominence
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if (orderedSeriesArray) {
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areaData.sort(function (a, b) {
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return dimple._arrayIndexCompare(orderedSeriesArray, a.key, b.key);
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});
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}
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// Create a set of area data grouped by the aggregation field
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for (i = 0; i < areaData.length; i += 1) {
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// Sort the points so that areas are connected in the correct order
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areaData[i].data.sort(dimple._getSeriesSortPredicate(chart, series, orderedSeriesArray));
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// If this should have colour gradients, add them
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if (graded) {
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dimple._addGradient(areaData[i].key, "fill-area-gradient-" + areaData[i].keyString, (series.x._hasCategories() ? series.x : series.y), data, chart, duration, "fill");
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}
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// Clone the data before adding elements
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dataClone = [].concat(areaData[i].data);
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// If this is a custom dimple step area duplicate the last datum so that the final step is completed
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if (series.interpolation === "step") {
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if (series.x._hasCategories()) {
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// Clone the last row and duplicate it.
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dataClone = dataClone.concat(JSON.parse(JSON.stringify(dataClone[dataClone.length - 1])));
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dataClone[dataClone.length - 1].cx = "";
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dataClone[dataClone.length - 1].x = "";
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}
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if (series.y._hasCategories()) {
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// Clone the last row and duplicate it.
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dataClone = [JSON.parse(JSON.stringify(dataClone[0]))].concat(dataClone);
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dataClone[0].cy = "";
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dataClone[0].y = "";
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}
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}
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// Get the points that this area will appear
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areaData[i].entry = getArea(interpolation, "_previousOrigin")(dataClone);
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areaData[i].update = getArea(interpolation)(dataClone);
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areaData[i].exit = getArea(interpolation, "_origin")(dataClone);
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// Add the color in this loop, it can't be done during initialisation of the row because
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// the areas should be ordered first (to ensure standard distribution of colors
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areaData[i].color = chart.getColor(areaData[i].key.length > 0 ? areaData[i].key[areaData[i].key.length - 1] : "All");
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}
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if (chart._tooltipGroup !== null && chart._tooltipGroup !== undefined) {
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chart._tooltipGroup.remove();
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}
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if (series.shapes === null || series.shapes === undefined) {
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theseShapes = chart._group.selectAll("." + className).data(areaData);
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} else {
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theseShapes = series.shapes.data(areaData, function (d) { return d.key; });
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}
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// Add
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theseShapes
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.enter()
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.append("path")
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.attr("id", function (d) { return d.key; })
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.attr("class", function (d) {
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return className + " dimple-line " + d.keyString;
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})
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.attr("d", function (d) {
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return d.entry;
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})
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.call(function () {
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// Apply formats optionally
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if (!chart.noFormats) {
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this.attr("opacity", function (d) { return (graded ? 1 : d.color.opacity); })
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.attr("fill", "none")
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.attr("stroke", function (d) { return (graded ? "url(#fill-line-gradient-" + d.keyString + ")" : d.color.stroke); })
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.attr("stroke-width", series.lineWeight);
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}
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})
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.each(drawMarkers);
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// Update
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updated = dimple._handleTransition(theseShapes, duration)
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.attr("d", function (d) { return d.update; })
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.each(drawMarkers);
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// Remove
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removed = dimple._handleTransition(theseShapes.exit(), duration)
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.attr("d", function (d) { return d.exit; })
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.each(drawMarkers);
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dimple._postDrawHandling(series, updated, removed, duration);
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// Save the shapes to the series array
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series.shapes = theseShapes;
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}
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};
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// Copyright: 2014 PMSI-AlignAlytics
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// License: "https://github.com/PMSI-AlignAlytics/dimple/blob/master/MIT-LICENSE.txt"
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// Source: /src/objects/plot/area.js
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dimple.plot.area_old = {
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stacked: true,
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supportedAxes: ["x", "y", "c"],
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@ -3288,7 +3486,7 @@ var dimple = {
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// Source: /src/objects/plot/line.js
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dimple.plot.line = {
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// By default the bubble values are not stacked
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// By default the values are not stacked
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stacked: false,
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// The axis positions affecting the line series
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@ -3344,7 +3542,7 @@ var dimple = {
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// Handle the special interpolation handling for step
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interpolation = (series.interpolation === "step" ? "step-after" : series.interpolation);
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//
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// Get the array of ordered values
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orderedSeriesArray = dimple._getSeriesOrder(series.data || chart.data, series);
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@ -3423,7 +3621,7 @@ var dimple = {
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lineData[i].update = getLine(interpolation)(dataClone);
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lineData[i].exit = getLine(interpolation, "_origin")(dataClone);
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// Add the color in this loop, it can't be done during initialisation of the row becase
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// Add the color in this loop, it can't be done during initialisation of the row because
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// the lines should be ordered first (to ensure standard distribution of colors
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lineData[i].color = chart.getColor(lineData[i].key.length > 0 ? lineData[i].key[lineData[i].key.length - 1] : "All");
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}
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File diff suppressed because one or more lines are too long
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@ -40,7 +40,7 @@
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key,
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storyCat = "",
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orderedStoryboardArray = [],
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seriesCat = "",
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seriesCat = [],
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orderedSeriesArray = [],
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xCat = "",
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xSortArray = [],
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@ -90,6 +90,7 @@
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sortedData.sort(function (a, b) {
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var returnValue = 0,
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cats,
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comp,
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p,
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q,
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aMatch,
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@ -103,15 +104,16 @@
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if (yCat !== "" && returnValue === 0) {
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returnValue = ySortArray.indexOf(a[yCat]) - ySortArray.indexOf(b[yCat]);
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}
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if (seriesCat !== null && seriesCat !== undefined && seriesCat.length > 0) {
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if (seriesCat && seriesCat.length > 0 && returnValue === 0) {
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cats = [].concat(seriesCat);
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returnValue = 0;
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for (p = 0; p < orderedSeriesArray.length; p += 1) {
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comp = [].concat(orderedSeriesArray[p]);
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aMatch = true;
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bMatch = true;
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for (q = 0; q < cats.length; q += 1) {
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aMatch = aMatch && (a[cats[q]] === orderedSeriesArray[p][q]);
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bMatch = bMatch && (b[cats[q]] === orderedSeriesArray[p][q]);
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aMatch = aMatch && (a[cats[q]] === comp[q]);
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bMatch = bMatch && (b[cats[q]] === comp[q]);
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}
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if (aMatch && bMatch) {
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returnValue = 0;
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@ -0,0 +1,481 @@
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// Copyright: 2014 PMSI-AlignAlytics
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// License: "https://github.com/PMSI-AlignAlytics/dimple/blob/master/MIT-LICENSE.txt"
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// Source: /src/objects/plot/area.js
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dimple.plot.area = {
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stacked: true,
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supportedAxes: ["x", "y", "c"],
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draw: function (chart, series, duration) {
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// Get self pointer for inner functions
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var self = this,
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data = series._positionData,
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uniqueValues = [],
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firstAgg = 1,
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graded = false,
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seriesClass = "series" + chart.series.indexOf(series),
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line,
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catPoints = {},
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markers,
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markerBacks;
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if (chart._tooltipGroup !== null && chart._tooltipGroup !== undefined) {
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chart._tooltipGroup.remove();
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}
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// If there is a category axis we should draw a line for each aggField. Otherwise
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// the first aggField defines the points and the others define the line
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if (series.x._hasCategories() || series.y._hasCategories()) {
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firstAgg = 0;
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}
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data.forEach(function (d) {
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var filter = [],
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match = false,
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k;
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for (k = firstAgg; k < d.aggField.length; k += 1) {
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filter.push(d.aggField[k]);
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}
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uniqueValues.forEach(function (e) {
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match = match || (e === filter.join("/"));
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}, this);
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if (!match) {
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uniqueValues.push(filter.join("/"));
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}
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}, this);
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if (series.c !== null && series.c !== undefined && ((series.x._hasCategories() && series.y._hasMeasure()) || (series.y._hasCategories() && series.x._hasMeasure()))) {
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graded = true;
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uniqueValues.forEach(function (seriesValue) {
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dimple._addGradient(seriesValue, "fill-area-gradient-" + seriesValue.join("_").replace(" ", ""), (series.x._hasCategories() ? series.x : series.y), data, chart, duration, "fill");
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dimple._addGradient(seriesValue, "stroke-area-gradient-" + seriesValue.join("_").replace(" ", ""), (series.x._hasCategories() ? series.x : series.y), data, chart, duration, "stroke");
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}, this);
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}
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line = d3.svg.line()
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.x(function (d) { return dimple._helpers.cx(d, chart, series); })
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.y(function (d) { return dimple._helpers.cy(d, chart, series); });
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if (series.shapes === null || series.shapes === undefined) {
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series.shapes = chart._group.selectAll(".area." + seriesClass)
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.data(uniqueValues)
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.enter()
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.append("svg:path")
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.attr("opacity", function(d) { return chart.getColor(d).opacity; });
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}
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series.shapes
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.data(uniqueValues)
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.transition()
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.duration(duration)
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.attr("class", function (d) { return seriesClass + " series area " + d.split(" ").join("_"); })
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.attr("d", function (d) {
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var seriesData,
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baseline = [],
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max = 0,
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row,
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newObj,
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j,
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k,
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m,
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q,
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r;
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seriesData = dimple.filterData(data, "aggField", d);
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seriesData.sort(function (a, b) {
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var sortValue = 0;
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if (series.x._hasCategories()) {
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sortValue = (dimple._helpers.cx(a, chart, series) < dimple._helpers.cx(b, chart, series) ? -1 : 1);
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} else if (series.y._hasCategories()) {
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sortValue = (dimple._helpers.cy(a, chart, series) < dimple._helpers.cy(b, chart, series) ? -1 : 1);
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}
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return sortValue;
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});
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for (j = seriesData.length - 1; j >= 0; j -= 1) {
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row = seriesData[j];
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newObj = { cx: 0, cy: 0, height: 0, width: 0, xOffset: 0, yOffset: 0 };
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if (series.x._hasCategories()) {
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// Fix the x properties
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newObj.cx = row.cx;
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newObj.width = row.width;
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newObj.xOffset = row.xOffset;
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// Find the largest value for the xField less than this value
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if (catPoints[row.xField] === undefined) {
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catPoints[row.xField] = [];
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} else {
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max = 0;
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for (k = 0; k <= catPoints[row.xField].length; k += 1) {
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q = catPoints[row.xField][k];
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if ((row.cy >= 0 && q >= 0) || (row.cy <= 0 && q <= 0)) {
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if (Math.abs(q) <= Math.abs(row.cy) && Math.abs(q) > Math.abs(max)) {
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max = q;
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}
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}
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}
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newObj.cy = max;
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}
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baseline.push(newObj);
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catPoints[row.xField].push(row.cy);
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} else if (series.y._hasCategories()) {
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// Fix the y properties
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newObj.cy = row.cy;
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newObj.height = row.height;
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newObj.yOffset = row.yOffset;
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// Find the largest value for the xField less than this value
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if (catPoints[row.yField] === undefined) {
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catPoints[row.yField] = [];
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} else {
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max = 0;
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for (m = 0; m <= catPoints[row.yField].length; m += 1) {
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r = catPoints[row.yField][m];
|
||||
if ((row.cx >= 0 && r >= 0) || (row.cx <= 0 && r <= 0)) {
|
||||
if (Math.abs(r) <= Math.abs(row.cx) && Math.abs(r) > Math.abs(max)) {
|
||||
max = r;
|
||||
}
|
||||
}
|
||||
}
|
||||
newObj.cx = max;
|
||||
}
|
||||
baseline.push(newObj);
|
||||
catPoints[row.yField].push(row.cx);
|
||||
}
|
||||
}
|
||||
//return line(startPoint.concat(seriesData).concat(endPoint));
|
||||
return line(seriesData.concat(baseline).concat(seriesData[0]));
|
||||
})
|
||||
.call(function () {
|
||||
if (!chart.noFormats) {
|
||||
this.attr("fill", function (d) { return (graded ? "url(#fill-area-gradient-" + d.join("_").replace(" ", "") + ")" : chart.getColor(d).fill); })
|
||||
.attr("stroke", function (d) { return (graded ? "url(#stroke-area-gradient-" + d.join("_").replace(" ", "") + ")" : chart.getColor(d).stroke); })
|
||||
.attr("stroke-width", series.lineWeight);
|
||||
}
|
||||
});
|
||||
|
||||
if (series.lineMarkers) {
|
||||
if (series._markerBacks === null || series._markerBacks === undefined) {
|
||||
markerBacks = chart._group.selectAll(".markerBacks." + seriesClass).data(data);
|
||||
} else {
|
||||
markerBacks = series._markerBacks.data(data, function (d) { return d.key; });
|
||||
}
|
||||
// Add
|
||||
markerBacks
|
||||
.enter()
|
||||
.append("circle")
|
||||
.attr("id", function (d) { return d.key; })
|
||||
.attr("class", "markerBacks " + seriesClass)
|
||||
.attr("cx", function (d) { return dimple._helpers.cx(d, chart, series); })
|
||||
.attr("cy", function (d) { return dimple._helpers.cy(d, chart, series); })
|
||||
.attr("r", 0)
|
||||
.attr("fill", "white")
|
||||
.attr("stroke", "none");
|
||||
|
||||
// Update
|
||||
markerBacks
|
||||
.transition().duration(duration)
|
||||
.attr("cx", function (d) { return dimple._helpers.cx(d, chart, series); })
|
||||
.attr("cy", function (d) { return dimple._helpers.cy(d, chart, series); })
|
||||
.attr("r", 2 + series.lineWeight);
|
||||
// Remove
|
||||
markerBacks
|
||||
.exit()
|
||||
.transition().duration(duration)
|
||||
.attr("r", 0)
|
||||
.each("end", function () {
|
||||
d3.select(this).remove();
|
||||
});
|
||||
series._markerBacks = markerBacks;
|
||||
}
|
||||
|
||||
// Deal with markers in the same way as main series to fix #28
|
||||
if (series._markers === null || series._markers === undefined) {
|
||||
markers = chart._group.selectAll(".markers." + seriesClass).data(data);
|
||||
} else {
|
||||
markers = series._markers.data(data, function (d) { return d.key; });
|
||||
}
|
||||
|
||||
|
||||
// Add the actual marker. We need to do this even if we aren't displaying them because they
|
||||
// catch hover events
|
||||
markers
|
||||
.enter()
|
||||
.append("circle")
|
||||
.attr("id", function (d) { return d.key; })
|
||||
.attr("class", "markers " + seriesClass)
|
||||
.on("mouseover", function (e) {
|
||||
self.enterEventHandler(e, this, chart, series);
|
||||
})
|
||||
.on("mouseleave", function (e) {
|
||||
self.leaveEventHandler(e, this, chart, series);
|
||||
})
|
||||
.attr("cx", function (d) { return dimple._helpers.cx(d, chart, series); })
|
||||
.attr("cy", function (d) { return dimple._helpers.cy(d, chart, series); })
|
||||
.attr("r", 0)
|
||||
.attr("opacity", function (d) { return (series.lineMarkers ? chart.getColor(d).opacity : 0); })
|
||||
.call(function () {
|
||||
if (!chart.noFormats) {
|
||||
this.attr("fill", "white")
|
||||
.style("stroke-width", series.lineWeight)
|
||||
.attr("stroke", function (d) {
|
||||
return (graded ? dimple._helpers.fill(d, chart, series) : chart.getColor(d.aggField[d.aggField.length - 1]).stroke);
|
||||
});
|
||||
}
|
||||
});
|
||||
|
||||
markers
|
||||
.transition().duration(duration)
|
||||
.attr("cx", function (d) { return dimple._helpers.cx(d, chart, series); })
|
||||
.attr("cy", function (d) { return dimple._helpers.cy(d, chart, series); })
|
||||
.attr("r", 2 + series.lineWeight)
|
||||
.call(function () {
|
||||
if (!chart.noFormats) {
|
||||
this.attr("fill", "white")
|
||||
.style("stroke-width", series.lineWeight)
|
||||
.attr("stroke", function (d) {
|
||||
return (graded ? dimple._helpers.fill(d, chart, series) : chart.getColor(d.aggField[d.aggField.length - 1]).stroke);
|
||||
});
|
||||
}
|
||||
});
|
||||
|
||||
markers
|
||||
.exit()
|
||||
.transition().duration(duration)
|
||||
.attr("r", 0)
|
||||
.each("end", function () {
|
||||
d3.select(this).remove();
|
||||
});
|
||||
|
||||
// Save the shapes to the series array
|
||||
series._markers = markers;
|
||||
},
|
||||
|
||||
// Handle the mouse enter event
|
||||
enterEventHandler: function (e, shape, chart, series) {
|
||||
|
||||
// The margin between the text and the box
|
||||
var textMargin = 5,
|
||||
// The margin between the ring and the popup
|
||||
popupMargin = 10,
|
||||
// The popup animation duration in ms
|
||||
animDuration = 750,
|
||||
// Collect some facts about the highlighted bubble
|
||||
selectedShape = d3.select(shape),
|
||||
cx = parseFloat(selectedShape.attr("cx")),
|
||||
cy = parseFloat(selectedShape.attr("cy")),
|
||||
r = parseFloat(selectedShape.attr("r")),
|
||||
opacity = dimple._helpers.opacity(e, chart, series),
|
||||
fill = dimple._helpers.fill(e, chart, series),
|
||||
dropDest = series._dropLineOrigin(),
|
||||
// Fade the popup stroke mixing the shape fill with 60% white
|
||||
popupStrokeColor = d3.rgb(
|
||||
d3.rgb(fill).r + 0.6 * (255 - d3.rgb(fill).r),
|
||||
d3.rgb(fill).g + 0.6 * (255 - d3.rgb(fill).g),
|
||||
d3.rgb(fill).b + 0.6 * (255 - d3.rgb(fill).b)
|
||||
),
|
||||
// Fade the popup fill mixing the shape fill with 80% white
|
||||
popupFillColor = d3.rgb(
|
||||
d3.rgb(fill).r + 0.8 * (255 - d3.rgb(fill).r),
|
||||
d3.rgb(fill).g + 0.8 * (255 - d3.rgb(fill).g),
|
||||
d3.rgb(fill).b + 0.8 * (255 - d3.rgb(fill).b)
|
||||
),
|
||||
t,
|
||||
y = 0,
|
||||
w = 0,
|
||||
h = 0,
|
||||
box,
|
||||
overlap,
|
||||
rows = [];
|
||||
|
||||
if (chart._tooltipGroup !== null && chart._tooltipGroup !== undefined) {
|
||||
chart._tooltipGroup.remove();
|
||||
}
|
||||
chart._tooltipGroup = chart.svg.append("g");
|
||||
|
||||
// On hover make the line marker visible immediately
|
||||
selectedShape.style("opacity", 1);
|
||||
// Add a ring around the data point
|
||||
chart._tooltipGroup.append("circle")
|
||||
.attr("cx", cx)
|
||||
.attr("cy", cy)
|
||||
.attr("r", r)
|
||||
.attr("opacity", 0)
|
||||
.style("fill", "none")
|
||||
.style("stroke", fill)
|
||||
.style("stroke-width", 1)
|
||||
.transition()
|
||||
.duration(animDuration / 2)
|
||||
.ease("linear")
|
||||
.attr("opacity", 1)
|
||||
.attr("r", r + 4)
|
||||
.style("stroke-width", 2);
|
||||
|
||||
// Add a drop line to the x axis
|
||||
if (dropDest.y !== null) {
|
||||
chart._tooltipGroup.append("line")
|
||||
.attr("x1", cx)
|
||||
.attr("y1", (cy < dropDest.y ? cy + r + 4 : cy - r - 4))
|
||||
.attr("x2", cx)
|
||||
.attr("y2", (cy < dropDest.y ? cy + r + 4 : cy - r - 4))
|
||||
.style("fill", "none")
|
||||
.style("stroke", fill)
|
||||
.style("stroke-width", 2)
|
||||
.style("stroke-dasharray", ("3, 3"))
|
||||
.style("opacity", opacity)
|
||||
.transition()
|
||||
.delay(animDuration / 2)
|
||||
.duration(animDuration / 2)
|
||||
.ease("linear")
|
||||
// Added 1px offset to cater for svg issue where a transparent
|
||||
// group overlapping a line can sometimes hide it in some browsers
|
||||
// Issue #10
|
||||
.attr("y2", (cy < dropDest.y ? dropDest.y - 1 : dropDest.y + 1));
|
||||
}
|
||||
|
||||
// Add a drop line to the y axis
|
||||
if (dropDest.x !== null) {
|
||||
chart._tooltipGroup.append("line")
|
||||
.attr("x1", (cx < dropDest.x ? cx + r + 4 : cx - r - 4))
|
||||
.attr("y1", cy)
|
||||
.attr("x2", (cx < dropDest.x ? cx + r + 4 : cx - r - 4))
|
||||
.attr("y2", cy)
|
||||
.style("fill", "none")
|
||||
.style("stroke", fill)
|
||||
.style("stroke-width", 2)
|
||||
.style("stroke-dasharray", ("3, 3"))
|
||||
.style("opacity", opacity)
|
||||
.transition()
|
||||
.delay(animDuration / 2)
|
||||
.duration(animDuration / 2)
|
||||
.ease("linear")
|
||||
// Added 1px offset to cater for svg issue where a transparent
|
||||
// group overlapping a line can sometimes hide it in some browsers
|
||||
// Issue #10
|
||||
.attr("x2", (cx < dropDest.x ? dropDest.x - 1 : dropDest.x + 1));
|
||||
}
|
||||
|
||||
// Add a group for text
|
||||
t = chart._tooltipGroup.append("g");
|
||||
// Create a box for the popup in the text group
|
||||
box = t.append("rect")
|
||||
.attr("class", "chartTooltip");
|
||||
|
||||
// Add the series categories
|
||||
if (series.categoryFields !== null && series.categoryFields !== undefined && series.categoryFields.length > 0) {
|
||||
series.categoryFields.forEach(function (c, i) {
|
||||
if (c !== null && c !== undefined && e.aggField[i] !== null && e.aggField[i] !== undefined) {
|
||||
// If the category name and value match don't display the category name
|
||||
rows.push(c + (e.aggField[i] !== c ? ": " + e.aggField[i] : ""));
|
||||
}
|
||||
}, this);
|
||||
}
|
||||
|
||||
if (series.x._hasTimeField()) {
|
||||
if (e.xField[0] !== null && e.xField[0] !== undefined) {
|
||||
rows.push(series.x.timeField + ": " + series.x._getFormat()(e.xField[0]));
|
||||
}
|
||||
} else if (series.x._hasCategories()) {
|
||||
// Add the x axis categories
|
||||
series.x.categoryFields.forEach(function (c, i) {
|
||||
if (c !== null && c !== undefined && e.xField[i] !== null && e.xField[i] !== undefined) {
|
||||
// If the category name and value match don't display the category name
|
||||
rows.push(c + (e.xField[i] !== c ? ": " + e.xField[i] : ""));
|
||||
}
|
||||
}, this);
|
||||
} else {
|
||||
// Add the axis measure value
|
||||
if (series.x.measure !== null && series.x.measure !== undefined && e.width !== null && e.width !== undefined) {
|
||||
rows.push(series.x.measure + ": " + series.x._getFormat()(e.width));
|
||||
}
|
||||
}
|
||||
|
||||
if (series.y._hasTimeField()) {
|
||||
if (e.yField[0] !== null && e.yField[0] !== undefined) {
|
||||
rows.push(series.y.timeField + ": " + series.y._getFormat()(e.yField[0]));
|
||||
}
|
||||
} else if (series.y._hasCategories()) {
|
||||
// Add the y axis categories
|
||||
series.y.categoryFields.forEach(function (c, i) {
|
||||
if (c !== null && c !== undefined && e.yField[i] !== null && e.yField[i] !== undefined) {
|
||||
rows.push(c + (e.yField[i] !== c ? ": " + e.yField[i] : ""));
|
||||
}
|
||||
}, this);
|
||||
} else {
|
||||
// Add the axis measure value
|
||||
if (series.y.measure !== null && series.y.measure !== undefined && e.height !== null && e.height !== undefined) {
|
||||
rows.push(series.y.measure + ": " + series.y._getFormat()(e.height));
|
||||
}
|
||||
}
|
||||
|
||||
if (series.z !== null && series.z !== undefined) {
|
||||
// Add the axis measure value
|
||||
if (series.z.measure !== null && series.z.measure !== undefined && e.zValue !== null && e.zValue !== undefined) {
|
||||
rows.push(series.z.measure + ": " + series.z._getFormat()(e.zValue));
|
||||
}
|
||||
}
|
||||
|
||||
if (series.c !== null && series.c !== undefined) {
|
||||
// Add the axis measure value
|
||||
if (series.c.measure !== null && series.c.measure !== undefined && e.cValue !== null && e.cValue !== undefined) {
|
||||
rows.push(series.c.measure + ": " + series.c._getFormat()(e.cValue));
|
||||
}
|
||||
}
|
||||
|
||||
// Get distinct text rows to deal with cases where 2 axes have the same dimensionality
|
||||
rows = rows.filter(function(elem, pos) {
|
||||
return rows.indexOf(elem) === pos;
|
||||
});
|
||||
|
||||
// Create a text object for every row in the popup
|
||||
t.selectAll(".textHoverShapes").data(rows).enter()
|
||||
.append("text")
|
||||
.attr("class", "chartTooltip")
|
||||
.text(function (d) { return d; })
|
||||
.style("font-family", "sans-serif")
|
||||
.style("font-size", "10px");
|
||||
|
||||
// Get the max height and width of the text items
|
||||
t.each(function () {
|
||||
w = (this.getBBox().width > w ? this.getBBox().width : w);
|
||||
h = (this.getBBox().width > h ? this.getBBox().height : h);
|
||||
});
|
||||
|
||||
// Position the text relative to the bubble, the absolute positioning
|
||||
// will be done by translating the group
|
||||
t.selectAll("text")
|
||||
.attr("x", 0)
|
||||
.attr("y", function () {
|
||||
// Increment the y position
|
||||
y += this.getBBox().height;
|
||||
// Position the text at the centre point
|
||||
return y - (this.getBBox().height / 2);
|
||||
});
|
||||
|
||||
// Draw the box with a margin around the text
|
||||
box.attr("x", -textMargin)
|
||||
.attr("y", -textMargin)
|
||||
.attr("height", Math.floor(y + textMargin) - 0.5)
|
||||
.attr("width", w + 2 * textMargin)
|
||||
.attr("rx", 5)
|
||||
.attr("ry", 5)
|
||||
.style("fill", popupFillColor)
|
||||
.style("stroke", popupStrokeColor)
|
||||
.style("stroke-width", 2)
|
||||
.style("opacity", 0.95);
|
||||
|
||||
// Shift the ring margin left or right depending on whether it will overlap the edge
|
||||
overlap = cx + r + textMargin + popupMargin + w > parseFloat(chart.svg.node().getBBox().width);
|
||||
|
||||
// Translate the shapes to the x position of the bubble (the x position of the shapes is handled)
|
||||
t.attr("transform", "translate(" +
|
||||
(overlap ? cx - (r + textMargin + popupMargin + w) : cx + r + textMargin + popupMargin) + " , " +
|
||||
(cy - ((y - (h - textMargin)) / 2)) +
|
||||
")");
|
||||
},
|
||||
|
||||
// Handle the mouse leave event
|
||||
leaveEventHandler: function (e, shape, chart, series) {
|
||||
// Return the opacity of the marker
|
||||
d3.select(shape).style("opacity", (series.lineMarkers ? dimple._helpers.opacity(e, chart, series) : 0));
|
||||
if (chart._tooltipGroup !== null && chart._tooltipGroup !== undefined) {
|
||||
chart._tooltipGroup.remove();
|
||||
}
|
||||
}
|
||||
};
|
||||
|
212
tmp/dimple.js
212
tmp/dimple.js
|
@ -688,7 +688,7 @@ var dimple = {
|
|||
key,
|
||||
storyCat = "",
|
||||
orderedStoryboardArray = [],
|
||||
seriesCat = "",
|
||||
seriesCat = [],
|
||||
orderedSeriesArray = [],
|
||||
xCat = "",
|
||||
xSortArray = [],
|
||||
|
@ -738,6 +738,7 @@ var dimple = {
|
|||
sortedData.sort(function (a, b) {
|
||||
var returnValue = 0,
|
||||
cats,
|
||||
comp,
|
||||
p,
|
||||
q,
|
||||
aMatch,
|
||||
|
@ -751,15 +752,16 @@ var dimple = {
|
|||
if (yCat !== "" && returnValue === 0) {
|
||||
returnValue = ySortArray.indexOf(a[yCat]) - ySortArray.indexOf(b[yCat]);
|
||||
}
|
||||
if (seriesCat !== null && seriesCat !== undefined && seriesCat.length > 0) {
|
||||
if (seriesCat && seriesCat.length > 0 && returnValue === 0) {
|
||||
cats = [].concat(seriesCat);
|
||||
returnValue = 0;
|
||||
for (p = 0; p < orderedSeriesArray.length; p += 1) {
|
||||
comp = [].concat(orderedSeriesArray[p]);
|
||||
aMatch = true;
|
||||
bMatch = true;
|
||||
for (q = 0; q < cats.length; q += 1) {
|
||||
aMatch = aMatch && (a[cats[q]] === orderedSeriesArray[p][q]);
|
||||
bMatch = bMatch && (b[cats[q]] === orderedSeriesArray[p][q]);
|
||||
aMatch = aMatch && (a[cats[q]] === comp[q]);
|
||||
bMatch = bMatch && (b[cats[q]] === comp[q]);
|
||||
}
|
||||
if (aMatch && bMatch) {
|
||||
returnValue = 0;
|
||||
|
@ -2602,6 +2604,202 @@ var dimple = {
|
|||
// License: "https://github.com/PMSI-AlignAlytics/dimple/blob/master/MIT-LICENSE.txt"
|
||||
// Source: /src/objects/plot/area.js
|
||||
dimple.plot.area = {
|
||||
|
||||
// By default the values are stacked
|
||||
stacked: true,
|
||||
|
||||
// The axis positions affecting the area series
|
||||
supportedAxes: ["x", "y", "c"],
|
||||
|
||||
// Draw the axis
|
||||
draw: function (chart, series, duration) {
|
||||
// Get the position data
|
||||
var data = series._positionData,
|
||||
areaData = [],
|
||||
theseShapes = null,
|
||||
className = "dimple-series-" + chart.series.indexOf(series),
|
||||
firstAgg = (series.x._hasCategories() || series.y._hasCategories() ? 0 : 1),
|
||||
interpolation,
|
||||
graded = false,
|
||||
i,
|
||||
k,
|
||||
key,
|
||||
keyString,
|
||||
rowIndex,
|
||||
updated,
|
||||
removed,
|
||||
orderedSeriesArray,
|
||||
dataClone,
|
||||
onEnter = function (e, shape, chart, series) {
|
||||
d3.select(shape).style("opacity", 1);
|
||||
dimple._showPointTooltip(e, shape, chart, series);
|
||||
},
|
||||
onLeave = function (e, shape, chart, series) {
|
||||
d3.select(shape).style("opacity", (series.lineMarkers ? dimple._helpers.opacity(e, chart, series) : 0));
|
||||
dimple._removeTooltip(e, shape, chart, series);
|
||||
},
|
||||
drawMarkers = function (d) {
|
||||
dimple._drawMarkers(d, chart, series, duration, className, graded, onEnter, onLeave);
|
||||
},
|
||||
coord = function (position, datum) {
|
||||
var val;
|
||||
if (series.interpolation === "step" && series[position]._hasCategories()) {
|
||||
series.barGap = 0;
|
||||
series.clusterBarGap = 0;
|
||||
val = dimple._helpers[position](datum, chart, series) + (position === "y" ? dimple._helpers.height(datum, chart, series) : 0);
|
||||
} else {
|
||||
val = dimple._helpers["c" + position](datum, chart, series);
|
||||
}
|
||||
return val;
|
||||
},
|
||||
getArea = function (inter, originProperty) {
|
||||
return d3.svg.line()
|
||||
.x(function (d) { return (series.x._hasCategories() || !originProperty ? coord("x", d) : series.x[originProperty]); })
|
||||
.y(function (d) { return (series.y._hasCategories() || !originProperty ? coord("y", d) : series.y[originProperty]); })
|
||||
.interpolate(inter);
|
||||
};
|
||||
|
||||
// Handle the special interpolation handling for step
|
||||
interpolation = (series.interpolation === "step" ? "step-after" : series.interpolation);
|
||||
|
||||
// Get the array of ordered values
|
||||
orderedSeriesArray = dimple._getSeriesOrder(series.data || chart.data, series);
|
||||
|
||||
if (series.c && ((series.x._hasCategories() && series.y._hasMeasure()) || (series.y._hasCategories() && series.x._hasMeasure()))) {
|
||||
graded = true;
|
||||
}
|
||||
|
||||
// Create a set of area data grouped by the aggregation field
|
||||
for (i = 0; i < data.length; i += 1) {
|
||||
key = [];
|
||||
rowIndex = -1;
|
||||
// Skip the first category unless there is a category axis on x or y
|
||||
for (k = firstAgg; k < data[i].aggField.length; k += 1) {
|
||||
key.push(data[i].aggField[k]);
|
||||
}
|
||||
// Find the corresponding row in the areaData
|
||||
keyString = dimple._createClass(key);
|
||||
for (k = 0; k < areaData.length; k += 1) {
|
||||
if (areaData[k].keyString === keyString) {
|
||||
rowIndex = k;
|
||||
break;
|
||||
}
|
||||
}
|
||||
// Add a row to the area data if none was found
|
||||
if (rowIndex === -1) {
|
||||
rowIndex = areaData.length;
|
||||
areaData.push({
|
||||
key: key,
|
||||
keyString: keyString,
|
||||
color: "white",
|
||||
data: [],
|
||||
area: {},
|
||||
entryExit: {}
|
||||
});
|
||||
}
|
||||
// Add this row to the relevant data
|
||||
areaData[rowIndex].data.push(data[i]);
|
||||
}
|
||||
|
||||
// Sort the area data itself based on the order series array - this matters for stacked areas and default color
|
||||
// consistency with colors usually awarded in terms of prominence
|
||||
if (orderedSeriesArray) {
|
||||
areaData.sort(function (a, b) {
|
||||
return dimple._arrayIndexCompare(orderedSeriesArray, a.key, b.key);
|
||||
});
|
||||
}
|
||||
|
||||
// Create a set of area data grouped by the aggregation field
|
||||
for (i = 0; i < areaData.length; i += 1) {
|
||||
// Sort the points so that areas are connected in the correct order
|
||||
areaData[i].data.sort(dimple._getSeriesSortPredicate(chart, series, orderedSeriesArray));
|
||||
// If this should have colour gradients, add them
|
||||
if (graded) {
|
||||
dimple._addGradient(areaData[i].key, "fill-area-gradient-" + areaData[i].keyString, (series.x._hasCategories() ? series.x : series.y), data, chart, duration, "fill");
|
||||
}
|
||||
// Clone the data before adding elements
|
||||
dataClone = [].concat(areaData[i].data);
|
||||
// If this is a custom dimple step area duplicate the last datum so that the final step is completed
|
||||
if (series.interpolation === "step") {
|
||||
if (series.x._hasCategories()) {
|
||||
// Clone the last row and duplicate it.
|
||||
dataClone = dataClone.concat(JSON.parse(JSON.stringify(dataClone[dataClone.length - 1])));
|
||||
dataClone[dataClone.length - 1].cx = "";
|
||||
dataClone[dataClone.length - 1].x = "";
|
||||
}
|
||||
if (series.y._hasCategories()) {
|
||||
// Clone the last row and duplicate it.
|
||||
dataClone = [JSON.parse(JSON.stringify(dataClone[0]))].concat(dataClone);
|
||||
dataClone[0].cy = "";
|
||||
dataClone[0].y = "";
|
||||
}
|
||||
}
|
||||
|
||||
// Get the points that this area will appear
|
||||
areaData[i].entry = getArea(interpolation, "_previousOrigin")(dataClone);
|
||||
areaData[i].update = getArea(interpolation)(dataClone);
|
||||
areaData[i].exit = getArea(interpolation, "_origin")(dataClone);
|
||||
|
||||
// Add the color in this loop, it can't be done during initialisation of the row because
|
||||
// the areas should be ordered first (to ensure standard distribution of colors
|
||||
areaData[i].color = chart.getColor(areaData[i].key.length > 0 ? areaData[i].key[areaData[i].key.length - 1] : "All");
|
||||
}
|
||||
|
||||
if (chart._tooltipGroup !== null && chart._tooltipGroup !== undefined) {
|
||||
chart._tooltipGroup.remove();
|
||||
}
|
||||
|
||||
if (series.shapes === null || series.shapes === undefined) {
|
||||
theseShapes = chart._group.selectAll("." + className).data(areaData);
|
||||
} else {
|
||||
theseShapes = series.shapes.data(areaData, function (d) { return d.key; });
|
||||
}
|
||||
|
||||
// Add
|
||||
theseShapes
|
||||
.enter()
|
||||
.append("path")
|
||||
.attr("id", function (d) { return d.key; })
|
||||
.attr("class", function (d) {
|
||||
return className + " dimple-line " + d.keyString;
|
||||
})
|
||||
.attr("d", function (d) {
|
||||
return d.entry;
|
||||
})
|
||||
.call(function () {
|
||||
// Apply formats optionally
|
||||
if (!chart.noFormats) {
|
||||
this.attr("opacity", function (d) { return (graded ? 1 : d.color.opacity); })
|
||||
.attr("fill", "none")
|
||||
.attr("stroke", function (d) { return (graded ? "url(#fill-line-gradient-" + d.keyString + ")" : d.color.stroke); })
|
||||
.attr("stroke-width", series.lineWeight);
|
||||
}
|
||||
})
|
||||
.each(drawMarkers);
|
||||
|
||||
// Update
|
||||
updated = dimple._handleTransition(theseShapes, duration)
|
||||
.attr("d", function (d) { return d.update; })
|
||||
.each(drawMarkers);
|
||||
|
||||
// Remove
|
||||
removed = dimple._handleTransition(theseShapes.exit(), duration)
|
||||
.attr("d", function (d) { return d.exit; })
|
||||
.each(drawMarkers);
|
||||
|
||||
dimple._postDrawHandling(series, updated, removed, duration);
|
||||
|
||||
// Save the shapes to the series array
|
||||
series.shapes = theseShapes;
|
||||
|
||||
}
|
||||
};
|
||||
|
||||
|
||||
// Copyright: 2014 PMSI-AlignAlytics
|
||||
// License: "https://github.com/PMSI-AlignAlytics/dimple/blob/master/MIT-LICENSE.txt"
|
||||
// Source: /src/objects/plot/area.js
|
||||
dimple.plot.area_old = {
|
||||
stacked: true,
|
||||
|
||||
supportedAxes: ["x", "y", "c"],
|
||||
|
@ -3288,7 +3486,7 @@ var dimple = {
|
|||
// Source: /src/objects/plot/line.js
|
||||
dimple.plot.line = {
|
||||
|
||||
// By default the bubble values are not stacked
|
||||
// By default the values are not stacked
|
||||
stacked: false,
|
||||
|
||||
// The axis positions affecting the line series
|
||||
|
@ -3344,7 +3542,7 @@ var dimple = {
|
|||
|
||||
// Handle the special interpolation handling for step
|
||||
interpolation = (series.interpolation === "step" ? "step-after" : series.interpolation);
|
||||
//
|
||||
|
||||
// Get the array of ordered values
|
||||
orderedSeriesArray = dimple._getSeriesOrder(series.data || chart.data, series);
|
||||
|
||||
|
@ -3423,7 +3621,7 @@ var dimple = {
|
|||
lineData[i].update = getLine(interpolation)(dataClone);
|
||||
lineData[i].exit = getLine(interpolation, "_origin")(dataClone);
|
||||
|
||||
// Add the color in this loop, it can't be done during initialisation of the row becase
|
||||
// Add the color in this loop, it can't be done during initialisation of the row because
|
||||
// the lines should be ordered first (to ensure standard distribution of colors
|
||||
lineData[i].color = chart.getColor(lineData[i].key.length > 0 ? lineData[i].key[lineData[i].key.length - 1] : "All");
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue