Mercurial > repos > immport-devteam > cs_overview
view js/boxplots.js @ 2:a64ece32a01a draft default tip
"planemo upload for repository https://github.com/ImmPortDB/immport-galaxy-tools/tree/master/flowtools/cs_overview commit a46097db0b6056e1125237393eb6974cfd51eb41"
| author | azomics |
|---|---|
| date | Tue, 28 Jul 2020 08:32:36 -0400 |
| parents | |
| children |
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// Copyright (c) 2016 Northrop Grumman. // All rights reserved. var displayMarkerTable = function(plotconfig){ var nbm = plotconfig.mrkrNames.length + 1; $(plotconfig.mtable).empty(); plotconfig.allMarkers.map(function(v) { $(plotconfig.mtable).append('<tr>' + '<td><span style="background-color:rgba(0,0,0,' + (v + 1 )/ nbm + ')' + '"> </span></td>' + '<td title="' + plotconfig.mrkrNames[v] + '">' + plotconfig.mrkrNames[v] + '</td>' + '<td align="center"><input type="checkbox" checked class=' + plotconfig.mrkrSelect + ' value=' + v + '/></td></tr>'); }); if (nbm > 5) { $(plotconfig.mrkrSelectAll).prop('checked', false); $(plotconfig.mrkrSelectAll).prop('disabled', true); $('#markerWarning').show(); $(plotconfig.mrkrSelectj).each(function() { var selectedMrkr = parseInt(this.value); if (selectedMrkr > 4){ this.checked = false; this.disabled = true; } else { this.checked = true; } }); } $(plotconfig.mrkrSelectAll).click(function() { var checkAll = $(plotconfig.mrkrSelectAll).prop('checked'); if (checkAll) { $(plotconfig.mrkrSelectj).prop("checked", true); } else { $(plotconfig.mrkrSelectj).prop("checked", false); } updateCSplots(plotconfig); }); $(plotconfig.mrkrSelectj).click(function() { if (nbm < 6){ if ($(plotconfig.mrkrSelectj).length == $(plotconfig.mrkrSelectCheck).length) { $(plotconfig.mrkrSelectAll).prop("checked",true); } else { $(plotconfig.mrkrSelectAll).prop("checked",false); } } else { var nbSelected = 0; $(plotconfig.mrkrSelectj).each(function() { if (this.checked) {nbSelected++} }); if (nbSelected < 5) { $(plotconfig.mrkrSelectj).prop('disabled', false); } else { $(plotconfig.mrkrSelectj).each(function() { if (!this.checked) { this.disabled = true; } }); } } updateCSplots(plotconfig); }); }; var updateBoxplot = function(plotconfig){ var margin = {top: 30, right: 10, bottom: 50, left: 60}, h = 0, w = 0, width = 0, height = 0, labels = false, // show the text labels beside individual boxplots? mfi_option = false, min = Infinity, max = -Infinity, checkLabels = $(plotconfig.displayvalues).prop("checked"), checkMFI = $(plotconfig.displayMFI).prop("checked"), dataToPlot = [], tmp = [], nbm = plotconfig.mrkrNames.length + 1, maxRange = 0, minRange = 0, domainx = [], domainx1 = []; $(plotconfig.plotdivj).empty(); h = $(window).height() - 200; $(plotconfig.plotdivj).height(h); w = $(plotconfig.plotdivj).width(); width = w - margin.left - margin.right; height = h - margin.top - margin.bottom; var svg = d3.select(plotconfig.plotdivj).append("svg") .attr("width", w) .attr("height", h) .attr("class", "box") .append("g") .attr("transform", "translate(" + margin.left + "," + margin.top + ")"); if (checkLabels) { labels = true; }; if (checkMFI) { mfi_option = true; }; /* Get the data in proper shape to feed to the boxplot function want [Object, Object, ..., Object] where Object: 'population': pop 'Data' : [Object, Object, ..., Object] where Object: 'Marker' : marker name 'outliers' : outliers */ if (plotconfig.view == 'p') { plotconfig.selectedPopulations.forEach(function(p) { tmpPlot = []; plotconfig.selectedMarkers.forEach(function(m) { var markernm = plotconfig.mrkrNames[m], qtmp = [ +plotconfig.csdata.q1[markernm][p], +plotconfig.csdata.q2[markernm][p], +plotconfig.csdata.q3[markernm][p] ], wtmp = [ +plotconfig.csdata.lower[markernm][p], +plotconfig.csdata.upper[markernm][p] ]; tmp = []; // Get min and max while we're here plotconfig.csdata.outliers[markernm][p].forEach(function(outl) { tmp.push(+outl); if (+outl > max) {max = +outl}; if (+outl < min) {min = +outl}; }); if (+plotconfig.csdata.upper[markernm][p] > max) { max = +plotconfig.csdata.upper[markernm][p]; }; if (+plotconfig.csdata.lower[markernm][p] < min) { min = +plotconfig.csdata.lower[markernm][p]; }; tmpPlot.push({ marker: markernm, outliers: tmp, quartiles: qtmp, whiskers: wtmp, config: [m,p, nbm], mfi: +plotconfig.csdata.mfi[markernm][p] }); }); dataToPlot.push({population:p, popdata: tmpPlot}); }); } else { plotconfig.selectedMarkers.forEach(function(m) { var markernm = plotconfig.mrkrNames[m]; tmpPlot = []; plotconfig.selectedPopulations.forEach(function(p) { var qtmp = [ +plotconfig.csdata.q1[markernm][p], +plotconfig.csdata.q2[markernm][p], +plotconfig.csdata.q3[markernm][p] ], wtmp = [ +plotconfig.csdata.lower[markernm][p], +plotconfig.csdata.upper[markernm][p] ]; tmp = []; // Get min and max while we're here plotconfig.csdata.outliers[markernm][p].forEach(function(outl) { tmp.push(+outl); if (+outl > max) {max = +outl}; if (+outl < min) {min = +outl}; }); if (+plotconfig.csdata.upper[markernm][p] > max) { max = +plotconfig.csdata.upper[markernm][p]; }; if (+plotconfig.csdata.lower[markernm][p] < min) { min = +plotconfig.csdata.lower[markernm][p]; }; tmpPlot.push({ population:p, outliers: tmp, quartiles: qtmp, whiskers: wtmp, config: [m,p, nbm], mfi: +plotconfig.csdata.mfi[markernm][p] }); }); dataToPlot.push({marker: markernm, popdata: tmpPlot}); }); }; maxRange = max + 30; minRange = min - 30; if (plotconfig.view == 'p') { domainx = plotconfig.selectedPopulations; domainx1 = plotconfig.selectedMarkers.map(function(d){ return plotconfig.mrkrNames[d]; }); } else { domainx1 = plotconfig.selectedPopulations; domainx = plotconfig.selectedMarkers.map(function(d){ return plotconfig.mrkrNames[d]; }); } // axes var xScale = d3.scale.ordinal() .domain(domainx) .rangeRoundBands([0 , width], 0.2, 0.02); var x1Scale = d3.scale.ordinal() .domain(domainx1) .rangeRoundBands([0, xScale.rangeBand()], 0.1); var xAxis = d3.svg.axis() .scale(xScale) .orient("bottom"); // the y-axis var yScale = d3.scale.linear() .domain([minRange, maxRange]) .range([height + margin.top, 0 + margin.top]); var yAxis = d3.svg.axis() .scale(yScale) .orient("left") .tickFormat(d3.format("d")); svg.append("g") .attr("class", "x axisbp") .attr("transform", "translate(0," + (height + margin.top) + ")") .call(xAxis); svg.append("g") .attr("class", "y axisbp") .call(yAxis) .append("text") .attr("class", "ylabel") .attr("transform", "rotate(-90)") .attr("y", 0 - margin.left) .attr("x", 0 - (height / 2)) .attr("dy", "1em") .style("text-anchor", "middle") .text("MFI values"); var boxplot = d3.box() .width(x1Scale.rangeBand()) .height(height + margin.top) .domain([minRange, maxRange]) .showLabels(labels) .showMFI(mfi_option); if (plotconfig.view == 'p'){ var group = svg.selectAll(".groups") .data(dataToPlot) .enter().append("g") .attr("class", "group") .attr("transform", function(d) { return "translate(" + xScale(d.population) + ",0)"; }); group.selectAll(".box") .data(function(d) { return d.popdata; }) .enter().append("g") .attr("transform", function(d) {return "translate(" + x1Scale(d.marker) + ",0)"; }) .call(boxplot); } else { var group = svg.selectAll(".groups") .data(dataToPlot) .enter().append("g") .attr("class", "group") .attr("transform", function(d) { return "translate(" + xScale(d.marker) + ",0)"; }); group.selectAll(".box") .data(function(d) { return d.popdata; }) .enter().append("g") .attr("transform", function(d) { return "translate(" + x1Scale(d.population) + ",0)"; }) .call(boxplot); } }; (function() { // Inspired by http://informationandvisualization.de/blog/box-plot // Modified to fit our data structure. d3.box = function() { var width = 1, height = 1, duration = 0, domain = null, value = Number, showLabels = true, // whether or not to show text labels numBars = 4, curBar = 1, showMFI = true, // display MFI ? tickFormat = null, margin = {top: 30, right: 10, bottom: 50, left: 60}; // For each small multiple… function box(g) { g.each(function(data, i) { var d = data.outliers.sort(d3.ascending), g = d3.select(this), n = d.length, min = Infinity, max = -Infinity; if (n > 0){ min = d[0], max = d[n - 1]; } // Readjust min and max with upper and lower values if (data.whiskers[0] < min) {min = data.whiskers[0]} if (data.whiskers[1] > max) {max = data.whiskers[1]} // Compute quartiles. Must return exactly 3 elements. var quartileData = data.quartiles; // Compute whiskers. Must return exactly 2 elements, or null. var whiskerData = data.whiskers; // Compute outliers. here all data in d is an outlier. // We compute the outliers as indices, so that we can join across transitions! var outlierIndices = d3.range(n); var mfiData = data.mfi; // this is the scale for ONE SET of values // Compute the new x-scale. var x1 = d3.scale.linear() .domain(domain && domain.call(this, d, i) || [min, max]) .range([height , 0 + margin.top ]); // Retrieve the old x-scale, if this is an update. var x0 = this.__chart__ || d3.scale.linear() .domain([0, Infinity]) .range(x1.range()); // Stash the new scale. this.__chart__ = x1; // Note: the box, median, and box tick elements are fixed in number, // so we only have to handle enter and update. In contrast, the outliers // and other elements are variable, so we need to exit them! Variable // elements also fade in and out. // Update center line: the vertical line spanning the whiskers. var center = g.selectAll("line.center") .data(whiskerData ? [whiskerData] : []); //vertical line center.enter().insert("line", "rect") .attr("class", "center") .attr("x1", width / 2) .attr("y1", function(d) { return x0(d[0]); }) .attr("x2", width / 2) .attr("y2", function(d) { return x0(d[1]); }) .style("opacity", 1e-6) .style("stroke", function(d) { return color_palette[0][data.config[1]][3]; }) .transition() .duration(duration) .style("opacity", 1) .attr("y1", function(d) { return x1(d[0]); }) .attr("y2", function(d) { return x1(d[1]); }); center.transition() .duration(duration) .style("opacity", 1) .attr("y1", function(d) { return x1(d[0]); }) .attr("y2", function(d) { return x1(d[1]); }); center.exit().transition() .duration(duration) .style("opacity", 1e-6) .attr("y1", function(d) { return x1(d[0]); }) .attr("y2", function(d) { return x1(d[1]); }) .remove(); // Update innerquartile box. var box = g.selectAll("rect.box") .data([quartileData]); box.enter().append("rect") .attr("class", "box") .style("fill", function(d) { var nbm = data.config[2], pop = data.config[1], mrkr = data.config[0]; var color = color_palette[0][pop][1] + (mrkr + 1 )/ nbm + ')'; return color; }) .style("stroke", function(d) { return color_palette[0][data.config[1]][3]; }) .attr("x", 0) .attr("y", function(d) { return x0(d[2]); }) .attr("width", width) .attr("height", function(d) { return x0(d[0]) - x0(d[2]); }) .transition() .duration(duration) .attr("y", function(d) { return x1(d[2]); }) .attr("height", function(d) { return x1(d[0]) - x1(d[2]); }); box.transition() .duration(duration) .attr("y", function(d) { return x1(d[2]); }) .attr("height", function(d) { return x1(d[0]) - x1(d[2]); }); // Update median line. var medianLine = g.selectAll("line.median") .data([quartileData[1]]); medianLine.enter().append("line") .attr("class", "median") .attr("x1", 0) .attr("y1", x0) .attr("x2", width) .attr("y2", x0) .style("stroke", function(d) { return color_palette[0][data.config[1]][3]; }) .transition() .duration(duration) .attr("y1", x1) .attr("y2", x1); medianLine.transition() .duration(duration) .attr("y1", x1) .attr("y2", x1); // Update MFI line. var MFILine = g.selectAll("line.mfi") .data([mfiData]); if (showMFI == true) { MFILine.enter().append("line") .attr("class", "mfi") .style("stroke", function(d){ return color_palette[0][data.config[1]][2]; }) .attr("x1", 0) .attr("y1", x0) .attr("x2", width) .attr("y2", x0) .transition() .duration(duration) .attr("y1", x1) .attr("y2", x1); MFILine.transition() .duration(duration) .attr("y1", x1) .attr("y2", x1); } // Update whiskers. var whisker = g.selectAll("line.whisker") .data(whiskerData || []); whisker.enter().insert("line", "circle, text") .attr("class", "whisker") .attr("x1", 0) .attr("y1", x0) .attr("x2", 0 + width) .attr("y2", x0) .style("opacity", 1e-6) .style("stroke", function(d) { return color_palette[0][data.config[1]][3]; }) .transition() .duration(duration) .attr("y1", x1) .attr("y2", x1) .style("opacity", 1); whisker.transition() .duration(duration) .attr("y1", x1) .attr("y2", x1) .style("opacity", 1); whisker.exit().transition() .duration(duration) .attr("y1", x1) .attr("y2", x1) .style("opacity", 1e-6) .remove(); // Update outliers. var outlier = g.selectAll("circle.outlier") .data(outlierIndices, Number); outlier.enter().insert("circle", "text") .attr("class", "outlier") .attr("r", 3) .attr("cx", function(d){ return Math.floor(Math.random() * width); }) .attr("cy", function(i) { return x0(d[i]); }) .style("opacity", 1e-6) .style("fill", function(d) { var nbm = data.config[2], pop = data.config[1], mrkr = data.config[0]; var color = color_palette[0][pop][1] + (mrkr + 1 )/ nbm + ')'; return color; }) .style("stroke", function(d) { return color_palette[0][data.config[1]][3]; }) .transition() .duration(duration) .attr("cy", function(i) { return x1(d[i]); }) .style("opacity", 1); outlier.transition() .duration(duration) .attr("cy", function(i) { return x1(d[i]); }) .style("opacity", 1); outlier.exit().transition() .duration(duration) .attr("cy", function(i) { return x1(d[i]); }) .style("opacity", 1e-6) .remove(); // Compute the tick format. var format = tickFormat || x1.tickFormat(8); // Update box ticks. var boxTick = g.selectAll("text.box") .data(quartileData); if(showLabels == true) { boxTick.enter().append("text") .attr("class", "box") .attr("dy", ".3em") .attr("dx", function(d, i) { return i & 1 ? 6 : -6 }) .attr("x", function(d, i) { return i & 1 ? + width : 0 }) .attr("y", x0) .attr("text-anchor", function(d, i) { return i & 1 ? "start" : "end"; }) .text(format) .transition() .duration(duration) .attr("y", x1); } boxTick.transition() .duration(duration) .text(format) .attr("y", x1); // Update whisker ticks. These are handled separately from the box // ticks because they may or may not exist, and we want don't want // to join box ticks pre-transition with whisker ticks post-. var whiskerTick = g.selectAll("text.whisker") .data(whiskerData || []); if(showLabels == true) { whiskerTick.enter().append("text") .attr("class", "whisker") .attr("dy", ".3em") .attr("dx", 6) .attr("x", width) .attr("y", x0) .text(format) .style("opacity", 1e-6) .transition() .duration(duration) .attr("y", x1) .style("opacity", 1); } whiskerTick.transition() .duration(duration) .text(format) .attr("y", x1) .style("opacity", 1); whiskerTick.exit().transition() .duration(duration) .attr("y", x1) .style("opacity", 1e-6) .remove(); }); d3.timer.flush(); } box.width = function(x) { if (!arguments.length) return width; width = x; return box; }; box.height = function(x) { if (!arguments.length) return height; height = x; return box; }; box.tickFormat = function(x) { if (!arguments.length) return tickFormat; tickFormat = x; return box; }; box.duration = function(x) { if (!arguments.length) return duration; duration = x; return box; }; box.domain = function(x) { if (!arguments.length) return domain; domain = x == null ? x : d3.functor(x); return box; }; box.value = function(x) { if (!arguments.length) return value; value = x; return box; }; box.showLabels = function(x) { if (!arguments.length) return showLabels; showLabels = x; return box; }; box.showMFI = function(x) { if (!arguments.length) return showMFI; showMFI = x; return box; }; return box; }; })();