(function(){ var nv = { version: '0.0.1a', dev: true //set false when in production }; window.nv = nv; nv.tooltip = {}; // For the tooltip system nv.utils = {}; // Utility subsystem nv.models = {}; //stores all the possible models/components nv.charts = {}; //stores all the ready to use charts nv.graphs = []; //stores all the graphs currently on the page nv.log = {}; //stores some statistics and potential error messages nv.dispatch = d3.dispatch('render_start', 'render_end'); // ******************************************** // Public Core NV functions nv.dispatch.on('render_start', function(e) { nv.log.startTime = +new Date; }); nv.dispatch.on('render_end', function(e) { nv.log.endTime = +new Date; nv.log.totalTime = nv.log.endTime - nv.log.startTime; if (nv.dev && console.log) console.log('total', nv.log.totalTime); //used for development, to keep track of graph generation times }); // ******************************************** // Public Core NV functions nv.render = function render(step) { step = step || 1; // number of graphs to generate in each timout loop render.active = true; nv.dispatch.render_start(); setTimeout(function(){ var chart; for (var i = 0; i < step && (graph = render.queue[i]); i++) { chart = graph.generate(); if (typeof graph.callback === 'function') graph.callback(chart); nv.graphs.push(chart); } render.queue.splice(0, i); if (render.queue.length) setTimeout(arguments.callee, 0); else { nv.render.active = false; nv.dispatch.render_end(); } }, 0); }; nv.render.queue = []; nv.addGraph = function(obj) { if (typeof arguments[0] === 'function') obj = {generate: arguments[0], callback: arguments[1]}; nv.render.queue.push(obj); if (!nv.render.active) nv.render(); }; nv.identity = function(d) { return d }; nv.strip = function(s) { return s.replace(/(\s|&)/g,''); } /* An ugly implementation to get month end axis dates * Will hopefully refactor sooner than later */ function daysInMonth(month,year) { var m = [31,28,31,30,31,30,31,31,30,31,30,31]; if (month != 2) return m[month - 1]; if (year%4 != 0) return m[1]; if (year%100 == 0 && year%400 != 0) return m[1]; return m[1] + 1; } function d3_time_range(floor, step, number) { return function(t0, t1, dt) { var time = floor(t0), times = []; if (time < t0) step(time); if (dt > 1) { while (time < t1) { var date = new Date(+time); if (!(number(date) % dt)) times.push(date); step(time); } } else { while (time < t1) times.push(new Date(+time)), step(time); } return times; }; } d3.time.monthEnd = function(date) { return new Date(date.getFullYear(), date.getMonth(), 0); }; d3.time.monthEnds = d3_time_range(d3.time.monthEnd, function(date) { date.setUTCDate(date.getUTCDate() + 1); date.setDate(daysInMonth(date.getMonth() + 1, date.getFullYear())); }, function(date) { return date.getMonth(); } ); /***** * A no frills tooltip implementation. *****/ (function() { var nvtooltip = window.nv.tooltip = {}; nvtooltip.show = function(pos, content, gravity, dist) { var container = document.createElement("div"); container.className = "nvtooltip"; gravity = gravity || 's'; dist = dist || 20; var body = document.getElementsByTagName("body")[0]; container.innerHTML = content; container.style.left = 1; container.style.top = 1; container.style.opacity = 0; body.appendChild(container); var height = parseInt(container.offsetHeight), width = parseInt(container.offsetWidth), windowWidth = nv.utils.windowSize().width, windowHeight = nv.utils.windowSize().height, scrollTop = body.scrollTop, scrollLeft = body.scrollLeft, left, top; switch (gravity) { case 'e': left = pos[0] - width - dist; top = pos[1] - (height / 2); if (left < scrollLeft) left = pos[0] + dist; if (top < scrollTop) top = scrollTop + 5; if (top + height > scrollTop + windowHeight) top = scrollTop - height - 5; break; case 'w': left = pos[0] + dist; top = pos[1] - (height / 2); if (left + width > windowWidth) left = pos[0] - width - dist; if (top < scrollTop) top = scrollTop + 5; if (top + height > scrollTop + windowHeight) top = scrollTop - height - 5; break; case 'n': left = pos[0] - (width / 2); top = pos[1] + dist; if (left < scrollLeft) left = scrollLeft + 5; if (left + width > windowWidth) left = windowWidth - width - 5; if (top + height > scrollTop + windowHeight) top = pos[1] - height - dist; break; case 's': left = pos[0] - (width / 2); top = pos[1] - height - dist; if (left < scrollLeft) left = scrollLeft + 5; if (left + width > windowWidth) left = windowWidth - width - 5; if (scrollTop > top) top = pos[1] + 20; break; } container.style.left = left+"px"; container.style.top = top+"px"; container.style.opacity = 1; return container; }; nvtooltip.cleanup = function() { // Find the tooltips, mark them for removal by this class (so others cleanups won't find it) var tooltips = document.getElementsByClassName('nvtooltip'); var purging = []; while(tooltips.length) { purging.push(tooltips[0]); tooltips[0].style.transitionDelay = "0 !important"; tooltips[0].style.opacity = 0; tooltips[0].className = "nvtooltip-pending-removal"; } setTimeout(function() { while (purging.length) { var removeMe = purging.pop(); removeMe.parentNode.removeChild(removeMe); } }, 500); }; })(); nv.utils.windowSize = function() { // Sane defaults var size = {width: 640, height: 480}; // Earlier IE uses Doc.body if (document.body && document.body.offsetWidth) { size.width = document.body.offsetWidth; size.height = document.body.offsetHeight; } // IE can use depending on mode it is in if (document.compatMode=='CSS1Compat' && document.documentElement && document.documentElement.offsetWidth ) { size.width = document.documentElement.offsetWidth; size.height = document.documentElement.offsetHeight; } // Most recent browsers use if (window.innerWidth && window.innerHeight) { size.width = window.innerWidth; size.height = window.innerHeight; } return (size); }; // Easy way to bind multiple functions to window.onresize // TODO: give a way to remove a function after its bound, other than removing alkl of them nv.utils.windowResize = function(fun){ var oldresize = window.onresize; window.onresize = function(e) { if (typeof oldresize == 'function') oldresize(e); fun(e); } } nv.models.axis = function() { //Default Settings var scale = d3.scale.linear(), axisLabelText = null, highlightZero = true; //TODO: considering adding margin var axis = d3.svg.axis() .scale(scale) .orient('bottom') .tickFormat(function(d) { return d }); //TODO: decide if we want to keep this function chart(selection) { selection.each(function(data) { if (axis.orient() == 'top' || axis.orient() == 'bottom') axis.ticks(Math.abs(scale.range()[1] - scale.range()[0]) / 100); //TODO: consider calculating height based on whether or not label is added, for reference in charts using this component var axisLabel = d3.select(this).selectAll('text.axislabel') .data([axisLabelText || null]); axisLabel.exit().remove(); switch (axis.orient()) { case 'top': axisLabel.enter().append('text').attr('class', 'axislabel') .attr('text-anchor', 'middle') .attr('y', 0); axisLabel .attr('x', scale.range()[1] / 2); break; case 'right': axisLabel.enter().append('text').attr('class', 'axislabel') .attr('transform', 'rotate(90)') .attr('y', -40); //TODO: consider calculating this based on largest tick width... OR at least expose this on chart axisLabel .attr('x', -scale.range()[0] / 2); break; case 'bottom': axisLabel.enter().append('text').attr('class', 'axislabel') .attr('text-anchor', 'middle') .attr('y', 25); axisLabel .attr('x', scale.range()[1] / 2); break; case 'left': axisLabel.enter().append('text').attr('class', 'axislabel') .attr('transform', 'rotate(-90)') .attr('y', -40); //TODO: consider calculating this based on largest tick width... OR at least expose this on chart axisLabel .attr('x', -scale.range()[0] / 2); break; } axisLabel .text(function(d) { return d }); d3.transition(d3.select(this)) .call(axis); //highlight zero line ... Maybe should not be an option and should just be in CSS? if (highlightZero) d3.select(this) .selectAll('line.tick') .filter(function(d) { return !parseFloat(Math.round(d*100000)/1000000) }) //this is because sometimes the 0 tick is a very small fraction, TODO: think of cleaner technique .classed('zero', true); }); return chart; } d3.rebind(chart, axis, 'orient', 'ticks', 'tickValues', 'tickSubdivide', 'tickSize', 'tickPadding', 'tickFormat'); d3.rebind(chart, scale, 'domain', 'range', 'rangeBand', 'rangeBands'); //these are also accessible by chart.scale(), but added common ones directly for ease of use chart.axisLabel = function(_) { if (!arguments.length) return axisLabelText; axisLabelText = _; return chart; } chart.highlightZero = function(_) { if (!arguments.length) return highlightZero; highlightZero = _; return chart; } chart.scale = function(_) { if (!arguments.length) return scale; scale = _; axis.scale(scale); d3.rebind(chart, scale, 'domain', 'range', 'rangeBand', 'rangeBands'); return chart; } return chart; } nv.models.bar = function() { var margin = {top: 20, right: 10, bottom: 80, left: 60}, width = 960, height = 500, animate = 500, label ='label', rotatedLabel = true, showLabels = true, id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one color = d3.scale.category20(), field ='y', title = ''; var x = d3.scale.ordinal(), y = d3.scale.linear(), xAxis = d3.svg.axis().scale(x).orient('bottom'), yAxis = d3.svg.axis().scale(y).orient('left'), dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'tooltipShow', 'tooltipHide'); function chart(selection) { selection.each(function(data) { x .domain(data.map(function(d,i) { return d[label]; })) .rangeRoundBands([0, width - margin.left - margin.right], .1); var min = d3.min(data, function(d) { return d[field] }); var max = d3.max(data, function(d) { return d[field] }); var x0 = Math.max(-min, max); var x1 = -x0; // If we have no negative values, then lets stack this with just positive bars if (min >= 0) x1 = 0; y .domain([x1, x0]) .range([height - margin.top - margin.bottom, 0]) .nice(); xAxis.ticks( width / 100 ); yAxis.ticks( height / 36 ).tickSize(-(width - margin.right - margin.left), 0); var parent = d3.select(this) .on("click", function(d,i) { dispatch.chartClick({ data: d, index: i, pos: d3.event, id: id }); }); var wrap = parent.selectAll('g.wrap').data([data]); var gEnter = wrap.enter(); gEnter.append("text") .attr("class", "title") .attr("dy", ".91em") .attr("text-anchor", "start") .text(title); gEnter = gEnter.append('g').attr('class', 'nvd3 wrap').attr('id','wrap-'+id).append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'bars'); wrap.attr('width', width) .attr('height', height); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var bars = wrap.select('.bars').selectAll('.bar') .data(function(d) { return d; }); bars.exit().remove(); var barsEnter = bars.enter().append('svg:rect') .attr('class', function(d) { return d[field] < 0 ? "bar negative" : "bar positive"}) .attr("fill", function(d, i) { return color(i); }) .attr('x', 0 ) .on('mouseover', function(d,i){ d3.select(this).classed('hover', true); dispatch.tooltipShow({ label: d[label], value: d[field], data: d, index: i, // TODO: Calculate the center to the bar pos: [d3.event.pageX, d3.event.pageY], id: id }); }) .on('mouseout', function(d,i){ d3.select(this).classed('hover', false); dispatch.tooltipHide({ label: d[label], value: d[field], data: d, index: i, id: id }); }) .on('click', function(d,i) { dispatch.elementClick({ label: d[label], value: d[field], data: d, index: i, pos: d3.event, id: id }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ label: d[label], value: d[field], data: d, index: i, pos: d3.event, id: id }); d3.event.stopPropagation(); }); bars .attr('class', function(d) { return d[field] < 0 ? "bar negative" : "bar positive"}) .attr('transform', function(d,i) { return 'translate(' + x(d[label]) + ',0)'; }) .attr('width', x.rangeBand ) .order() .transition() .duration(animate) .attr('y', function(d) { return y(Math.max(0, d[field])); }) .attr('height', function(d) { return Math.abs(y(d[field]) - y(0)); }); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')') .call(xAxis); if (rotatedLabel) { g.select('.x.axis').selectAll('text').attr('text-anchor','start').attr("transform", function(d) { return "rotate(35)translate(" + this.getBBox().height/2 + "," + '0' + ")"; }); } if (!showLabels) { g.select('.x.axis').selectAll('text').attr('fill', 'rgba(0,0,0,0)'); g.select('.x.axis').selectAll('line').attr('style', 'opacity: 0'); } /*else { g.select('.x.axis').selectAll('text').attr('fill', 'rgba(0,0,0,1)'); g.select('.x.axis').selectAll('line').attr('style', 'opacity: 1'); }*/ g.select('.y.axis') .call(yAxis); }); return chart; } chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; if (margin.left + margin.right + 20 > _) width = margin.left + margin.right + 20; // Min width else width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; if (margin.top + margin.bottom + 20 > _) height = margin.top + margin.bottom + 20; // Min height else height = _; return chart; }; chart.animate = function(_) { if (!arguments.length) return animate; animate = _; return chart; }; chart.labelField = function(_) { if (!arguments.length) return (label); label = _; return chart; }; chart.dataField = function(_) { if (!arguments.length) return (field); field = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.rotatedLabel = function(_) { if (!arguments.length) return rotatedLabel; rotatedLabel = _; return chart; }; chart.showLabels = function(_) { if (!arguments.length) return (showLabels); showLabels = _; return chart; }; chart.title = function(_) { if (!arguments.length) return (title); title = _; return chart; }; chart.xaxis = {}; // Expose the x-axis' tickFormat method. d3.rebind(chart.xaxis, xAxis, 'tickFormat'); chart.yaxis = {}; // Expose the y-axis' tickFormat method. d3.rebind(chart.yaxis, yAxis, 'tickFormat'); chart.dispatch = dispatch; return chart; } /*** * multiBar will likely be used instead of this, wherever this would have been useful, * multiBar lets you view 1 or more bars per an x value, either grouped (side by side) * or stacked (layered on top of each other). */ nv.models.historicalBar = function() { var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one getX = function(d) { return d.x }, getY = function(d) { return d.y }, forceX = [], forceY = [], clipEdge = true, color = d3.scale.category20().range(), xDomain, yDomain; var x = d3.scale.linear(), y = d3.scale.linear(), xAxis = d3.svg.axis().scale(x).orient('bottom'), yAxis = d3.svg.axis().scale(y).orient('left'), dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'elementMouseover', 'elementMouseout'); function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; x .domain(xDomain || d3.extent(data[0].values, getX )) .range([0, availableWidth]); y .domain(yDomain || d3.extent(data[0].values, getY )) //Should 0 always be forced in bar charts? .range([availableHeight, 0]); //.nice(); // remove for consistency? var parent = d3.select(this) .on('click', function(d,i) { dispatch.chartClick({ data: d, index: i, pos: d3.event, id: id }); }); var wrap = d3.select(this).selectAll('g.wrap.bar').data([data[0].values]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 bar'); var gEnter = wrapEnter.append('g'); gEnter.append('g').attr('class', 'bars'); wrap.attr('width', width) .attr('height', height); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); wrapEnter.append('defs').append('clipPath') .attr('id', 'chart-clip-path-' + id) .append('rect'); wrap.select('#chart-clip-path-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); gEnter .attr('clip-path', clipEdge ? 'url(#chart-clip-path-' + id + ')' : ''); var shiftWrap = gEnter.append('g').attr('class', 'shiftWrap'); var bars = wrap.select('.bars').selectAll('.bar') .data(function(d) { return d }); bars.exit().remove(); var barsEnter = bars.enter().append('svg:rect') .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('fill', function(d,i) { return color[0]; }) .attr('x', 0 ) .attr('y', function(d,i) { return y(Math.max(0, getY(d,i))) }) .attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }) .on('mouseover', function(d,i) { d3.select(this).classed('hover', true); dispatch.elementMouseover({ point: d, series: data[0], pos: [x(getX(d,i)), y(getY(d,i))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: 0, e: d3.event }); }) .on('mouseout', function(d,i) { d3.select(this).classed('hover', false); dispatch.elementMouseout({ point: d, series: data[0], pointIndex: i, seriesIndex: 0, e: d3.event }); }) .on('click', function(d,i) { dispatch.elementClick({ //label: d[label], value: getY(d,i), data: d, index: i, pos: [x(getX(d,i)), y(getY(d,i))], e: d3.event, id: id }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ //label: d[label], value: getY(d,i), data: d, index: i, pos: [x(getX(d,i)), y(getY(d,i))], e: d3.event, id: id }); d3.event.stopPropagation(); }); bars .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('transform', function(d,i) { return 'translate(' + (x(getX(d,i)) - x(.5)) + ',0)'; }) //TODO: this assumes that each bar is an integer apart, it shouldn't .attr('width', x(.9) ) //TODO: this assumes that each bar is an integar apart d3.transition(bars) .attr('y', function(d,i) { return y(Math.max(0, getY(d,i))) }) .attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }); //.order(); // not sure if this makes any sense for this model }); return chart; } chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; if (margin.left + margin.right + 20 > _) width = margin.left + margin.right + 20; // Min width.... while this is a good idea, I may move this somewhere else.. OR need to implement in all other logical spots else width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; if (margin.top + margin.bottom + 20 > _) height = margin.top + margin.bottom + 20; // Min height else height = _; return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.forceX = function(_) { if (!arguments.length) return forceX; forceX = _; return chart; }; chart.forceY = function(_) { if (!arguments.length) return forceY; forceY = _; return chart; }; chart.clipEdge = function(_) { if (!arguments.length) return clipEdge; clipEdge = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; return chart; } // Chart design based on the recommendations of Stephen Few. Implementation // based on the work of Clint Ivy, Jamie Love, and Jason Davies. // http://projects.instantcognition.com/protovis/bulletchart/ nv.models.bullet = function() { var orient = "left", // TODO top & bottom reverse = false, duration = 0, ranges = function(d) { return d.ranges }, markers = function(d) { return d.markers }, measures = function(d) { return d.measures }, width = 380, height = 30, tickFormat = null; var dispatch = d3.dispatch('elementMouseover', 'elementMouseout'); // For each small multiple… function bullet(g) { g.each(function(d, i) { var rangez = ranges.call(this, d, i).slice().sort(d3.descending), markerz = markers.call(this, d, i).slice().sort(d3.descending), measurez = measures.call(this, d, i).slice().sort(d3.descending), g = d3.select(this); // Compute the new x-scale. var x1 = d3.scale.linear() .domain([0, Math.max(rangez[0], markerz[0], measurez[0])]) // TODO: need to allow forceX and forceY, and xDomain, yDomain .range(reverse ? [width, 0] : [0, width]); // 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; /* // Derive width-scales from the x-scales. var w0 = bulletWidth(x0), w1 = bulletWidth(x1); function bulletWidth(x) { var x0 = x(0); return function(d) { return Math.abs(x(d) - x(0)); }; } function bulletTranslate(x) { return function(d) { return "translate(" + x(d) + ",0)"; }; } */ var w0 = function(d) { return Math.abs(x0(d) - x0(0)) }, // TODO: could optimize by precalculating x0(0) and x1(0) w1 = function(d) { return Math.abs(x1(d) - x1(0)) }; // Update the range rects. var range = g.selectAll("rect.range") .data(rangez); range.enter().append("rect") .attr("class", function(d, i) { return "range s" + i; }) .attr("width", w0) .attr("height", height) .attr("x", reverse ? x0 : 0) .on('mouseover', function(d,i) { dispatch.elementMouseover({ value: d, label: (i <= 0) ? 'Maximum' : (i > 1) ? 'Minimum' : 'Mean', //TODO: make these labels a variable pos: [x1(d), height/2] }) }) .on('mouseout', function(d,i) { dispatch.elementMouseout({ value: d, label: (i <= 0) ? 'Minimum' : (i >=1) ? 'Maximum' : 'Mean', //TODO: make these labels a variable }) }) .transition() .duration(duration) .attr("width", w1) .attr("x", reverse ? x1 : 0); range.transition() .duration(duration) .attr("x", reverse ? x1 : 0) .attr("width", w1) .attr("height", height); // Update the measure rects. var measure = g.selectAll("rect.measure") .data(measurez); measure.enter().append("rect") .attr("class", function(d, i) { return "measure s" + i; }) .attr("width", w0) .attr("height", height / 3) .attr("x", reverse ? x0 : 0) .attr("y", height / 3) .on('mouseover', function(d) { dispatch.elementMouseover({ value: d, label: 'Current', //TODO: make these labels a variable pos: [x1(d), height/2] }) }) .on('mouseout', function(d) { dispatch.elementMouseout({ value: d, label: 'Current' //TODO: make these labels a variable }) }) .transition() .duration(duration) .attr("width", w1) .attr("x", reverse ? x1 : 0) measure.transition() .duration(duration) .attr("width", w1) .attr("height", height / 3) .attr("x", reverse ? x1 : 0) .attr("y", height / 3); // Update the marker lines. var marker = g.selectAll("path.markerTriangle") .data(markerz); var h3 = height / 6; marker.enter().append("path") .attr("class", "markerTriangle") .attr('transform', function(d) { return 'translate(' + x0(d) + ',' + (height / 2) + ')' }) .attr('d', 'M0,' + h3 + 'L' + h3 + ',' + (-h3) + ' ' + (-h3) + ',' + (-h3) + 'Z') .on('mouseover', function(d,i) { dispatch.elementMouseover({ value: d, label: 'Previous', pos: [x1(d), height/2] }) }) .on('mouseout', function(d,i) { dispatch.elementMouseout({ value: d, label: 'Previous' }) }); marker.transition().duration(duration) .attr('transform', function(d) { return 'translate(' + x1(d) + ',' + (height / 2) + ')' }); marker.exit().remove(); /* marker.enter().append("line") .attr("class", "marker") .attr("x1", x0) .attr("x2", x0) .attr("y1", height / 6) .attr("y2", height * 5 / 6) .transition() .duration(duration) .attr("x1", x1) .attr("x2", x1); marker.transition( .duration(duration) .attr("x1", x1) .attr("x2", x1) .attr("y1", height / 6) .attr("y2", height * 5 / 6); */ // Compute the tick format. var format = tickFormat || x1.tickFormat(8); // Update the tick groups. var tick = g.selectAll("g.tick") .data(x1.ticks(8), function(d) { return this.textContent || format(d); }); // Initialize the ticks with the old scale, x0. var tickEnter = tick.enter().append("g") .attr("class", "tick") .attr("transform", function(d) { return "translate(" + x0(d) + ",0)" }) .style("opacity", 1e-6); tickEnter.append("line") .attr("y1", height) .attr("y2", height * 7 / 6); tickEnter.append("text") .attr("text-anchor", "middle") .attr("dy", "1em") .attr("y", height * 7 / 6) .text(format); // Transition the entering ticks to the new scale, x1. tickEnter.transition() .duration(duration) .attr("transform", function(d) { return "translate(" + x1(d) + ",0)" }) .style("opacity", 1); // Transition the updating ticks to the new scale, x1. var tickUpdate = tick.transition() .duration(duration) .attr("transform", function(d) { return "translate(" + x1(d) + ",0)" }) .style("opacity", 1); tickUpdate.select("line") .attr("y1", height) .attr("y2", height * 7 / 6); tickUpdate.select("text") .attr("y", height * 7 / 6); // Transition the exiting ticks to the new scale, x1. tick.exit().transition() .duration(duration) .attr("transform", function(d) { return "translate(" + x1(d) + ",0)" }) .style("opacity", 1e-6) .remove(); }); d3.timer.flush(); } bullet.dispatch = dispatch; // left, right, top, bottom bullet.orient = function(x) { if (!arguments.length) return orient; orient = x; reverse = orient == "right" || orient == "bottom"; return bullet; }; // ranges (bad, satisfactory, good) bullet.ranges = function(x) { if (!arguments.length) return ranges; ranges = x; return bullet; }; // markers (previous, goal) bullet.markers = function(x) { if (!arguments.length) return markers; markers = x; return bullet; }; // measures (actual, forecast) bullet.measures = function(x) { if (!arguments.length) return measures; measures = x; return bullet; }; bullet.width = function(x) { if (!arguments.length) return width; width = x; return bullet; }; bullet.height = function(x) { if (!arguments.length) return height; height = x; return bullet; }; bullet.tickFormat = function(x) { if (!arguments.length) return tickFormat; tickFormat = x; return bullet; }; bullet.duration = function(x) { if (!arguments.length) return duration; duration = x; return bullet; }; return bullet; }; nv.models.cumulativeLine = function() { var margin = {top: 30, right: 20, bottom: 30, left: 60}, getWidth = function() { return 960 }, getHeight = function() { return 500 }, color = d3.scale.category20().range(), dotRadius = function() { return 2.5 }, getX = function(d) { return d.x }, getY = function(d) { return d.y }, id = Math.floor(Math.random() * 10000), //Create semi-unique ID incase user doesn't select one showRescaleToggle = true, rescaleY = true; var x = d3.scale.linear(), dx = d3.scale.linear(), y = d3.scale.linear(), xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis = nv.models.axis().scale(y).orient('left'), legend = nv.models.legend().height(30), controls = nv.models.legend().height(30), lines = nv.models.line(), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'), index = {i: 0, x: 0}; //TODO: let user select default var controlsData = [ { key: 'Re-scale y-axis' } ]; var indexDrag = d3.behavior.drag() .on('dragstart', dragStart) .on('drag', dragMove) .on('dragend', dragEnd); function dragStart(d,i) {} function dragMove(d,i) { d.x += d3.event.dx; d.i = Math.round(dx.invert(d.x)); //d3.transition(d3.select('.chart-' + id)).call(chart); d3.select(this).attr("transform", "translate(" + dx(d.i) + ",0)"); } function dragEnd(d,i) { d3.transition(d3.select('.chart-' + id)).call(chart); } function chart(selection) { selection.each(function(data) { var width = getWidth(), height = getHeight(), availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; var series = indexify(index.i, data); var seriesData = series .filter(function(d) { return !rescaleY || !d.disabled }) // only filter out if rescaling y axis .map(function(d) { return d.values }); x .domain(d3.extent(d3.merge(seriesData), function(d) { return d.x } )) .range([0, availableWidth]); dx .domain([0, data[0].values.length - 1]) //Assumes all series have same length .range([0, availableWidth]) .clamp(true); y .domain(d3.extent(d3.merge(seriesData), function(d) { return d.y } )) .range([availableHeight, 0]); lines .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })) var wrap = d3.select(this).classed('chart-' + id, true).selectAll('g.wrap').data([series]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 cumulativeLine').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'controlsWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(width/2 - margin.right); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (width/2 - margin.left) + ',' + (-margin.top) +')') .call(legend); if (showRescaleToggle) { controls.width(140).color(['#444', '#444', '#444']); g.select('.controlsWrap') .datum(controlsData) .attr('transform', 'translate(0,' + (-margin.top) +')') .call(controls); } var linesWrap = g.select('.linesWrap') .datum(series.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(lines); var indexLine = linesWrap.selectAll('.indexLine') .data([index]); indexLine.enter().append('rect').attr('class', 'indexLine') .attr('width', 3) .attr('x', -2) .attr('fill', 'red') .attr('fill-opacity', .5) .call(indexDrag) indexLine .attr("transform", function(d) { return "translate(" + dx(d.i) + ",0)" }) .attr('height', availableHeight) xAxis .domain(x.domain()) .range(x.range()) .ticks( width / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .domain(y.domain()) .range(y.range()) .ticks( height / 36 ) .tickSize(-availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); // ********** EVENT LISTENERS ********** legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); /* legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ controls.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; rescaleY = !d.disabled; //console.log(d,i,arguments); selection.transition().call(chart); }); lines.dispatch.on('elementMouseover.tooltip', function(e) { dispatch.tooltipShow({ point: e.point, series: e.series, pos: [e.pos[0] + margin.left, e.pos[1] + margin.top], seriesIndex: e.seriesIndex, pointIndex: e.pointIndex }); }); lines.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); }); return chart; } // ********** FUNCTIONS ********** /* Normalize the data according to an index point. */ function indexify(idx, data) { return data.map(function(line, i) { var v = getY(line.values[idx], idx); return { key: line.key, values: line.values.map(function(point, pointIndex) { return {'x': getX(point, pointIndex), 'y': (getY(point, pointIndex) - v) / (1 + v) }; }), disabled: line.disabled, hover: line.hover /* if (v < -.9) { //if a series loses more than 100%, calculations fail.. anything close can cause major distortion (but is mathematically currect till it hits 100) } */ }; }); }; // ********** PUBLIC ACCESSORS ********** chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; //lines.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; //lines.y(_); return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; /* chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; */ chart.width = function(_) { if (!arguments.length) return getWidth; getWidth = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return getHeight; getHeight = d3.functor(_); return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; legend.color(_); return chart; }; chart.dotRadius = function(_) { if (!arguments.length) return dotRadius; dotRadius = d3.functor(_); lines.dotRadius = _; return chart; }; chart.showRescaleToggle = function(_) { if (!arguments.length) return showRescaleToggle; showRescaleToggle = _; return chart; }; // Expose the x-axis' tickFormat method. //chart.xAxis = {}; //d3.rebind(chart.xAxis, xAxis, 'tickFormat'); chart.xAxis = xAxis; // Expose the y-axis' tickFormat method. //chart.yAxis = {}; //d3.rebind(chart.yAxis, yAxis, 'tickFormat'); chart.yAxis = yAxis; return chart; } nv.models.discreteBar = function() { var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one x = d3.scale.ordinal(), y = d3.scale.linear(), getX = function(d) { return d.x }, getY = function(d) { return d.y }, forceY = [0], // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove color = d3.scale.category20().range(), showValues = false, valueFormat = d3.format(',.2f'), xDomain, yDomain, x0, y0; var dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'elementMouseover', 'elementMouseout'); //TODO: remove all the code taht deals with multiple series function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; //store old scales if they exist x0 = x0 || x; y0 = y0 || y; //add series index to each data point for reference data = data.map(function(series, i) { series.values = series.values.map(function(point) { point.series = i; return point; }); return series; }); var seriesData = (xDomain && yDomain) ? [] : // if we know xDomain and yDomain, no need to calculate data.map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i), y0: d.y0 } }) }); x .domain(xDomain || d3.merge(seriesData).map(function(d) { return d.x })) .rangeBands([0, availableWidth], .1); y .domain(yDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.y }).concat(forceY))) //.range([availableHeight, 0]); if (showValues) y.range([availableHeight - (y.domain()[0] < 0 ? 12 : 0), y.domain()[1] < 0 ? 0 : 12]); else y.range([availableHeight, 0]); var wrap = d3.select(this).selectAll('g.wrap.discretebar').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 discretebar'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); gEnter.append('g').attr('class', 'groups'); var g = wrap.select('g') wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); //TODO: by definiteion, the discrete bar should not have multiple groups, will modify/remove later var groups = wrap.select('.groups').selectAll('.group') .data(function(d) { return d }, function(d) { return d.key }); groups.enter().append('g') .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) d3.transition(groups.exit()) .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) .remove(); groups .attr('class', function(d,i) { return 'group series-' + i }) .classed('hover', function(d) { return d.hover }) d3.transition(groups) .style('stroke-opacity', 1) .style('fill-opacity', .75); var bars = groups.selectAll('g.bar') .data(function(d) { return d.values }); bars.exit().remove(); var barsEnter = bars.enter().append('g') .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('transform', function(d,i,j) { return 'translate(' + x(getX(d,i)) + ', ' + y(0) + ')' }) .on('mouseover', function(d,i) { //TODO: figure out why j works above, but not here d3.select(this).classed('hover', true); dispatch.elementMouseover({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (d.series + .5) / data.length), y(getY(d,i))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('mouseout', function(d,i) { d3.select(this).classed('hover', false); dispatch.elementMouseout({ value: getY(d,i), point: d, series: data[d.series], pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('click', function(d,i) { dispatch.elementClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (d.series + .5) / data.length), y(getY(d,i))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (d.series + .5) / data.length), y(getY(d,i))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }); barsEnter.append('rect') .attr('height', 0) .attr('width', x.rangeBand() / data.length ) .style('fill', function(d,i){ return d.color || color[i % 10] }) //this is a 'hack' to allow multiple colors in a single series... will need to rethink this methodology .style('stroke', function(d,i){ return d.color || color[i % 10] }) if (showValues) { barsEnter.append('text') .attr('text-anchor', 'middle') bars.selectAll('text') .attr('dx', x.rangeBand() / 2) .attr('dy', function(d,i) { return getY(d,i) < 0 ? y(getY(d,i)) - y(0) + 12 : -4 }) .text(function(d,i) { return valueFormat(getY(d,i)) }) } bars .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) //.attr('transform', function(d,i) { return 'translate(' + x(getX(d,i)) + ',0)'; }) d3.transition(bars) //.delay(function(d,i) { return i * 1200 / data[0].values.length }) .attr('transform', function(d,i) { return 'translate(' + x(getX(d,i)) + ', ' + (getY(d,i) < 0 ? y(0) : y(getY(d,i))) + ')' }) .selectAll('rect') .attr('width', x.rangeBand() / data.length) .attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }); //TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection) chart.update = function() { selection.transition().call(chart); } //store old scales for use in transitions on update, to animate from old to new positions, and sizes x0 = x.copy(); y0 = y.copy(); }); return chart; } chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.xScale = function(_) { if (!arguments.length) return x; x = _; return chart; }; chart.yScale = function(_) { if (!arguments.length) return y; y = _; return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.forceY = function(_) { if (!arguments.length) return forceY; forceY = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.showValues = function(_) { if (!arguments.length) return showValues; showValues = _; return chart; }; chart.valuesFormat= function(_) { if (!arguments.length) return valueFormat; valueFormat = _; return chart; }; return chart; } nv.models.discreteBarChart = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = null, height = null, color = d3.scale.category20().range(), staggerLabels = false, tooltips = true, tooltip = function(key, x, y, e, graph) { return '

' + x + '

' + '

' + y + '

' }; var discretebar = nv.models.discreteBar(), x = discretebar.xScale(), y = discretebar.yScale(), xAxis = nv.models.axis().scale(x).orient('bottom').highlightZero(false), yAxis = nv.models.axis().scale(y).orient('left'), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); xAxis.tickFormat(function(d) { return d }); yAxis.tickFormat(d3.format(',.1f')); var showTooltip = function(e, offsetElement) { //console.log('left: ' + offsetElement.offsetLeft); //console.log('top: ' + offsetElement.offsetLeft); //TODO: FIX offsetLeft and offSet top do not work if container is shifted anywhere //var offsetElement = document.getElementById(selector.substr(1)), var left = e.pos[0] + ( offsetElement.offsetLeft || 0 ), top = e.pos[1] + ( offsetElement.offsetTop || 0), x = xAxis.tickFormat()(discretebar.x()(e.point)), y = yAxis.tickFormat()(discretebar.y()(e.point)), content = tooltip(e.series.key, x, y, e, chart); nv.tooltip.show([left, top], content, e.value < 0 ? 'n' : 's'); }; //TODO: let user select default var controlsData = [ { key: 'Grouped' }, { key: 'Stacked', disabled: true } ]; function chart(selection) { selection.each(function(data) { var container = d3.select(this); var availableWidth = (width || parseInt(container.style('width')) || 960) - margin.left - margin.right, availableHeight = (height || parseInt(container.style('height')) || 400) - margin.top - margin.bottom; discretebar .width(availableWidth) .height(availableHeight); var wrap = container.selectAll('g.wrap.discreteBarWithAxes').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 discreteBarWithAxes').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'barsWrap'); var g = wrap.select('g'); g.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var barsWrap = g.select('.barsWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(barsWrap).call(discretebar); xAxis .scale(x) .ticks( availableWidth / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + (y.range()[0] + (discretebar.showValues() ? 16 : 0)) + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); var xTicks = g.select('.x.axis').selectAll('g'); if (staggerLabels) xTicks .selectAll('text') .attr('transform', function(d,i,j) { return 'translate(0,' + (j % 2 == 0 ? '0' : '12') + ')' }) yAxis .scale(y) .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); discretebar.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); if (tooltips) dispatch.on('tooltipShow', function(e) { showTooltip(e, container[0][0]) } ); // TODO: maybe merge with above? discretebar.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); if (tooltips) dispatch.on('tooltipHide', nv.tooltip.cleanup); }); return chart; } chart.dispatch = dispatch; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, discretebar, 'x', 'y', 'xDomain', 'yDomain', 'forceX', 'forceY', 'id', 'showValues', 'valueFormat'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; discretebar.color(_); return chart; }; chart.staggerLabels = function(_) { if (!arguments.length) return staggerLabels; staggerLabels = _; return chart; }; chart.tooltips = function(_) { if (!arguments.length) return tooltips; tooltips = _; return chart; }; chart.tooltipContent = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; return chart; } nv.models.discreteBarWithAxes = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = function() { return 960 }, height = function() { return 500 }, color = d3.scale.category20().range(), staggerLabels = false; var discretebar = nv.models.discreteBar(), x = discretebar.xScale(), y = discretebar.yScale(), xAxis = nv.models.axis().scale(x).orient('bottom').highlightZero(false), yAxis = nv.models.axis().scale(y).orient('left'), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); //TODO: let user select default var controlsData = [ { key: 'Grouped' }, { key: 'Stacked', disabled: true } ]; function chart(selection) { selection.each(function(data) { var availableWidth = width() - margin.left - margin.right, availableHeight = height() - margin.top - margin.bottom; var seriesData = data.filter(function(d) { return !d.disabled }) .map(function(d) { return d.values.map(function(d,i) { return { x: discretebar.x()(d,i), y: discretebar.y()(d,i) } }) }); discretebar .width(availableWidth) .height(availableHeight); var wrap = d3.select(this).selectAll('g.wrap.discreteBarWithAxes').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 discreteBarWithAxes').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'barsWrap'); var g = wrap.select('g'); g.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var barsWrap = g.select('.barsWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(barsWrap).call(discretebar); xAxis .scale(x) .ticks( availableWidth / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); var xTicks = g.select('.x.axis').selectAll('g'); if (staggerLabels) xTicks .selectAll('text') .attr('transform', function(d,i,j) { return 'translate(0,' + (j % 2 == 0 ? '0' : '12') + ')' }) /* xTicks.filter(function(d,i) { return i % Math.ceil(data[0].values.length / (availableWidth / 100)) !== 0; }) .selectAll('line, text') .style('opacity', 0) */ yAxis .scale(y) .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); discretebar.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); discretebar.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); }); return chart; } chart.dispatch = dispatch; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, discretebar, 'x', 'y', 'xDomain', 'yDomain', 'forceX', 'forceY', 'clipEdge', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; discretebar.color(_); return chart; }; chart.staggerLabels = function(_) { if (!arguments.length) return staggerLabels; staggerLabels = _; return chart; }; return chart; } nv.models.legend = function() { var margin = {top: 5, right: 0, bottom: 5, left: 10}, width = 400, height = 20, color = d3.scale.category20().range(); var dispatch = d3.dispatch('legendClick', 'legendMouseover', 'legendMouseout'); function chart(selection) { selection.each(function(data) { var wrap = d3.select(this).selectAll('g.legend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'nvd3 legend').append('g'); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var series = g.selectAll('.series') .data(function(d) { return d }); var seriesEnter = series.enter().append('g').attr('class', 'series') .on('mouseover', function(d,i) { dispatch.legendMouseover(d,i); //TODO: Make consistent with other event objects }) .on('mouseout', function(d,i) { dispatch.legendMouseout(d,i); }) .on('click', function(d,i) { dispatch.legendClick(d,i); }); seriesEnter.append('circle') .style('fill', function(d,i) { return d.color || color[i % 20] }) .style('stroke', function(d,i) { return d.color || color[i % 20] }) .style('stroke-width', 2) .attr('r', 5); seriesEnter.append('text') .text(function(d) { return d.key }) .attr('text-anchor', 'start') .attr('dy', '.32em') .attr('dx', '8'); series.classed('disabled', function(d) { return d.disabled }); series.exit().remove(); var ypos = 5, newxpos = 5, maxwidth = 0, xpos; series .attr('transform', function(d, i) { var length = d3.select(this).select('text').node().getComputedTextLength() + 28; xpos = newxpos; if (width < margin.left + margin.right + xpos + length) { newxpos = xpos = 5; ypos += 20; } newxpos += length; if (newxpos > maxwidth) maxwidth = newxpos; return 'translate(' + xpos + ',' + ypos + ')'; }); //position legend as far right as possible within the total width g.attr('transform', 'translate(' + (width - margin.right - maxwidth) + ',' + margin.top + ')'); //update height value if calculated larger than current //Asuming legend is always horizontal for now, removing if clause because this does not let legend shrink after expanding //TODO: allow legend to be horizontal or vertical, instead of definign height/width define one, and maybe call it maxHeight/maxWidth //if (height < margin.top + margin.bottom + ypos + 15) height = margin.top + margin.bottom + ypos + 15; }); return chart; } chart.dispatch = dispatch; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; return chart; } nv.models.line = function() { //Default Settings var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, color = d3.scale.category20().range(), // array of colors to be used in order id = Math.floor(Math.random() * 10000), //Create semi-unique ID incase user doesn't select one getX = function(d) { return d.x }, // accessor to get the x value from a data point getY = function(d) { return d.y }, // accessor to get the y value from a data point clipEdge = false; // if true, masks lines within x and y scale var scatter = nv.models.scatter() .id(id) .size(2.5) // default size .sizeDomain([2.5]), //set to speed up calculation, needs to be unset if there is a cstom size accessor x = scatter.xScale(), y = scatter.yScale(), x0 = x, y0 = y, timeoutID; function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; var wrap = d3.select(this).selectAll('g.wrap.line').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 line'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); var g = wrap.select('g') wrapEnter.append('g').attr('class', 'scatterWrap'); var scatterWrap = wrap.select('.scatterWrap').datum(data); gEnter.append('g').attr('class', 'groups'); scatter .width(availableWidth) .height(availableHeight) d3.transition(scatterWrap).call(scatter); wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); defsEnter.append('clipPath') .attr('id', 'edge-clip-' + id) .append('rect'); wrap.select('#edge-clip-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); g .attr('clip-path', clipEdge ? 'url(#edge-clip-' + id + ')' : ''); scatterWrap .attr('clip-path', clipEdge ? 'url(#edge-clip-' + id + ')' : ''); var groups = wrap.select('.groups').selectAll('.group') .data(function(d) { return d }, function(d) { return d.key }); groups.enter().append('g') .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6); d3.transition(groups.exit()) .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) .remove(); groups .attr('class', function(d,i) { return 'group series-' + i }) .classed('hover', function(d) { return d.hover }) .style('fill', function(d,i){ return color[i % 20] }) .style('stroke', function(d,i){ return color[i % 20] }) d3.transition(groups) .style('stroke-opacity', 1) .style('fill-opacity', .5) var paths = groups.selectAll('path') .data(function(d, i) { return [d.values] }); paths.enter().append('path') .attr('d', d3.svg.line() .x(function(d,i) { return x0(getX(d,i)) }) .y(function(d,i) { return y0(getY(d,i)) }) ); d3.transition(groups.exit().selectAll('path')) .attr('d', d3.svg.line() .x(function(d,i) { return x(getX(d,i)) }) .y(function(d,i) { return y(getY(d,i)) }) ) .remove(); // redundant? line is already being removed d3.transition(paths) .attr('d', d3.svg.line() .x(function(d,i) { return x(getX(d,i)) }) .y(function(d,i) { return y(getY(d,i)) }) ); //store old scales for use in transitions on update, to animate from old to new positions x0 = x.copy(); y0 = y.copy(); }); return chart; } chart.dispatch = scatter.dispatch; d3.rebind(chart, scatter, 'interactive', 'size', 'xScale', 'yScale', 'zScale', 'xDomain', 'yDomain', 'sizeDomain', 'forceX', 'forceY', 'forceSize', 'clipVoronoi', 'clipRadius'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.x = function(_) { if (!arguments.length) return getX; getX = _; scatter.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; scatter.y(_); return chart; }; chart.clipEdge = function(_) { if (!arguments.length) return clipEdge; clipEdge = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; scatter.color(_); return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; return chart; } nv.models.lineChart = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, color = d3.scale.category20().range(), width = null, height = null, tooltip = function(key, x, y, e, graph) { return '

' + key + '

' + '

' + y + ' at ' + x + '

' }; var lines = nv.models.line(), x = lines.xScale(), y = lines.yScale(), xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis = nv.models.axis().scale(y).orient('left'), legend = nv.models.legend().height(30), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); var showTooltip = function(e, offsetElement) { //console.log('left: ' + offsetElement.offsetLeft); //console.log('top: ' + offsetElement.offsetLeft); //TODO: FIX offsetLeft and offSet top do not work if container is shifted anywhere //var offsetElement = document.getElementById(selector.substr(1)), var left = e.pos[0] + ( offsetElement.offsetLeft || 0 ), top = e.pos[1] + ( offsetElement.offsetTop || 0), x = xAxis.tickFormat()(lines.x()(e.point)), y = yAxis.tickFormat()(lines.y()(e.point)), content = tooltip(e.series.key, x, y, e, chart); nv.tooltip.show([left, top], content); }; function chart(selection) { selection.each(function(data) { var container = d3.select(this); var availableWidth = (width || parseInt(container.style('width')) || 960) - margin.left - margin.right, availableHeight = (height || parseInt(container.style('height')) || 400) - margin.top - margin.bottom; lines .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })); var wrap = container.selectAll('g.wrap.lineWithLegend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 lineWithLegend').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(availableWidth / 2); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(lines); xAxis .scale(x) .ticks( availableWidth / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .scale(y) .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); /* // legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ lines.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); dispatch.on('tooltipShow', function(e) { showTooltip(e, container[0][0]) } ); // TODO: maybe merge with above? lines.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); dispatch.on('tooltipHide', nv.tooltip.cleanup); }); /* // If the legend changed the margin's height, need to recalc positions... should think of a better way to prevent duplicate work if (margin.top != legend.height()) chart(selection); */ //TODO: decide if this is a good idea, and if it should be in all models chart.update = function() { chart(selection) }; return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, lines, 'x', 'y', 'size', 'xDomain', 'yDomain', 'forceX', 'forceY', 'interactive', 'clipEdge', 'clipVoronoi', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; //width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; //height = d3.functor(_); return chart; }; return chart; } nv.models.linePlusBar = function() { var margin = {top: 30, right: 60, bottom: 50, left: 60}, getWidth = function() { return 960 }, getHeight = function() { return 500 }, dotRadius = function() { return 2.5 }, getX = function(d) { return d.x }, getY = function(d) { return d.y }, color = d3.scale.category20().range(), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); var x = d3.scale.linear(), y1 = d3.scale.linear(), y2 = d3.scale.linear(), xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis1 = nv.models.axis().scale(y1).orient('left'), yAxis2 = nv.models.axis().scale(y2).orient('right'), legend = nv.models.legend().height(30), lines = nv.models.line(), bars = nv.models.historicalBar(); function chart(selection) { selection.each(function(data) { var width = getWidth(), height = getHeight(), availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; var series1 = data.filter(function(d) { return !d.disabled && d.bar }) .map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i) } }) }); var series2 = data.filter(function(d) { return !d.disabled && !d.bar }) .map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i) } }) }); x .domain(d3.extent(d3.merge(series1.concat(series2)), function(d) { return d.x } )) .range([0, availableWidth]); y1 .domain(d3.extent(d3.merge(series1), function(d) { return d.y } )) .range([availableHeight, 0]); y2 .domain(d3.extent(d3.merge(series2), function(d) { return d.y } )) .range([availableHeight, 0]); lines .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled && !data[i].bar })) bars .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled && data[i].bar })) var wrap = d3.select(this).selectAll('g.wrap.linePlusBar').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 linePlusBar').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y1 axis'); gEnter.append('g').attr('class', 'y2 axis'); gEnter.append('g').attr('class', 'barsWrap'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); lines.dispatch.on('elementMouseover.tooltip', function(e) { dispatch.tooltipShow({ point: e.point, series: e.series, pos: [e.pos[0] + margin.left, e.pos[1] + margin.top], seriesIndex: e.seriesIndex, pointIndex: e.pointIndex }); }); lines.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); bars.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); bars.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(width/2 - margin.right); g.select('.legendWrap') .datum(data.map(function(series) { series.key = series.key + (series.bar ? ' (left axis)' : ' (right axis)'); return series; })) .attr('transform', 'translate(' + (width/2 - margin.left) + ',' + (-margin.top) +')') .call(legend); var barsData = data.filter(function(d) { return !d.disabled && d.bar }); var barsWrap = g.select('.barsWrap') .datum(barsData.length ? barsData : [{values:[]}]) //.datum(data.filter(function(d) { return !d.disabled && d.bar })) var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled && !d.bar })) d3.transition(barsWrap).call(bars); d3.transition(linesWrap).call(lines); xAxis .domain(x.domain()) .range(x.range()) .ticks( width / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y1.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis1 .domain(y1.domain()) .range(y1.range()) .ticks( height / 36 ) .tickSize(-availableWidth, 0); d3.transition(g.select('.y1.axis')) .call(yAxis1); yAxis2 .domain(y2.domain()) .range(y2.range()) .ticks( height / 36 ) .tickSize(series1.length ? 0 : -availableWidth, 0); // Show the y2 rules only if y1 has none g.select('.y2.axis') .attr('transform', 'translate(' + x.range()[1] + ',0)'); d3.transition(g.select('.y2.axis')) .call(yAxis2); }); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.lines = lines; chart.bars = bars; chart.xAxis = xAxis; chart.yAxis1 = yAxis1; chart.yAxis2 = yAxis2; //d3.rebind(chart, lines, 'interactive'); //consider rebinding x and y as well chart.x = function(_) { if (!arguments.length) return getX; getX = _; lines.x(_); bars.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; lines.y(_); bars.y(_); return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return getWidth; getWidth = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return getHeight; getHeight = d3.functor(_); return chart; }; chart.dotRadius = function(_) { if (!arguments.length) return dotRadius; dotRadius = d3.functor(_); lines.dotRadius = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; legend.color(_); return chart; }; return chart; } nv.models.lineWithFocus = function() { var margin = {top: 30, right: 20, bottom: 30, left: 60}, margin2 = {top: 0, right: 20, bottom: 20, left: 60}, width = 960, height = 500, height1 = 400, height2 = 100, color = d3.scale.category20().range(), getX = function(d) { return d.x }, getY = function(d) { return d.y }, id = Math.floor(Math.random() * 10000); //Create semi-unique ID incase user doesn't select one var x = d3.scale.linear(), y = d3.scale.linear(), x2 = d3.scale.linear(), y2 = d3.scale.linear(), xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis = nv.models.axis().scale(y).orient('left'), xAxis2 = nv.models.axis().scale(x2).orient('bottom'), yAxis2 = nv.models.axis().scale(y2).orient('left'), legend = nv.models.legend().height(30), focus = nv.models.line().clipEdge(true), context = nv.models.line().interactive(false), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'), brush = d3.svg.brush() .x(x2); //var wrap, gEnter, g, focus, focusLines, contextWrap, focusWrap, contextLines; //brought all variables to this scope for use within brush function... is this a bad idea? //var seriesData; //Temporarily bringing this data to this scope.... may be bad idea (same with above).. may need to rethink brushing function chart(selection) { selection.each(function(data) { var seriesData = data.filter(function(d) { return !d.disabled }) .map(function(d) { return d.values }), availableWidth = width - margin.left - margin.right, availableHeight1 = height1 - margin.top - margin.bottom, availableHeight2 = height2 - margin2.top - margin2.bottom; x2 .domain(d3.extent(d3.merge(seriesData), getX )) .range([0, availableWidth]); y2 .domain(d3.extent(d3.merge(seriesData), getY )) .range([availableHeight2, 0]); x .domain(brush.empty() ? x2.domain() : brush.extent()) .range([0, availableWidth]); y .domain(y2.domain()) .range([availableHeight1, 0]); brush.on('brush', onBrush); focus .width(availableWidth) .height(availableHeight1) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })) context .width(availableWidth) .height(availableHeight2) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })) updateFocus(); var wrap = d3.select(this).selectAll('g.wrap').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 lineWithFocus').append('g'); gEnter.append('g').attr('class', 'focus'); gEnter.append('g').attr('class', 'context'); gEnter.append('g').attr('class', 'legendWrap'); var g = wrap.select('g') //.attr('transform', 'translate(0,0)'); // ********** LEGEND ********** legend.width(width/2 - margin.right); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',0)') .call(legend); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); // ********** FOCUS ********** var focusWrap = g.select('.focus') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); gEnter.select('.focus').append('g').attr('class', 'x axis'); gEnter.select('.focus').append('g').attr('class', 'y axis'); gEnter.select('.focus').append('g').attr('class', 'focusLines'); var focusLines = focusWrap.select('.focusLines') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(focusLines).call(focus); xAxis .domain(x.domain()) .range(x.range()) .ticks( width / 100 ) .tickSize(-(availableHeight1), 0); focusWrap.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .domain(y.domain()) .range(y.range()) .ticks( height / 36 ) .tickSize(-(availableWidth), 0); d3.transition(g.select('.y.axis')) .call(yAxis); // ********** CONTEXT ********** var contextWrap = g.select('.context') .attr('transform', 'translate(' + margin2.left + ',' + height1 + ')'); gEnter.select('.context').append('g').attr('class', 'x2 axis'); gEnter.select('.context').append('g').attr('class', 'y2 axis'); gEnter.select('.context').append('g').attr('class', 'contextLines'); gEnter.select('.context').append('g').attr('class', 'x brush') .attr('class', 'x brush') .call(brush) .selectAll('rect') .attr('y', -5) .attr('height', height2 + 4); var contextLines = contextWrap.select('.contextLines') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(contextLines).call(context); xAxis2 .domain(x2.domain()) .range(x2.range()) .ticks( width / 100 ) .tickSize(-(availableHeight2), 0); contextWrap.select('.x2.axis') .attr('transform', 'translate(0,' + y2.range()[0] + ')'); d3.transition(contextWrap.select('.x2.axis')) .call(xAxis2); yAxis2 .domain(y2.domain()) .range(y2.range()) .ticks( availableHeight2 / 24 ) .tickSize(-(availableWidth), 0); contextWrap.select('.y2.axis'); d3.transition(contextWrap.select('.y2.axis')) .call(yAxis2); // ********** EVENT LISTENERS ********** legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); /* legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ focus.dispatch.on('elementMouseover.tooltip', function(e) { dispatch.tooltipShow({ point: e.point, series: e.series, pos: [e.pos[0] + margin.left, e.pos[1] + margin.top], seriesIndex: e.seriesIndex, pointIndex: e.pointIndex }); }); focus.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); function onBrush() { updateFocus(); focusLines.call(focus) wrap.select('.x.axis').call(xAxis); wrap.select('.y.axis').call(yAxis); } function updateFocus() { var yDomain = brush.empty() ? y2.domain() : d3.extent(d3.merge(seriesData).filter(function(d) { return getX(d) >= brush.extent()[0] && getX(d) <= brush.extent()[1]; }), getY); //This doesn't account for the 1 point before and the 1 point after the domain. Would fix, but likely need to change entire methodology here if (typeof yDomain[0] == 'undefined') yDomain = y2.domain(); //incase the brush doesn't cover a single point x.domain(brush.empty() ? x2.domain() : brush.extent()); y.domain(yDomain); //TODO: Rethink this... performance is horrible, likely need to cut off focus data to within the range // If I limit the data for focusLines would want to include 1 point before and after the extent, // Need to figure out an optimized way to accomplish this. // ***One concern is to try not to make the assumption that all lines are of the same length, and // points with the same index have the same x value (while this is true in our test cases, may // not always be) focus.xDomain(x.domain()); focus.yDomain(y.domain()); } }); return chart; } // ********** FUNCTIONS ********** // ********** PUBLIC ACCESSORS ********** chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; focus.x(_); context.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; focus.y(_); context.y(_); return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; height1 = _ - height2; return chart; }; chart.contextHeight = function(_) { if (!arguments.length) return height2; height2 = _; height1 = height - _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; // Chart has multiple similar Axes, to prevent code duplication, probably need to link all axis functions manually like below chart.xTickFormat = function(_) { if (!arguments.length) return x.tickFormat(); xAxis.tickFormat(_); xAxis2.tickFormat(_); return chart; }; chart.yTickFormat = function(_) { if (!arguments.length) return y.tickFormat(); yAxis.tickFormat(_); yAxis2.tickFormat(_); return chart; }; //TODO: allow for both focus and context axes to be linked chart.xAxis = xAxis; chart.yAxis = yAxis; return chart; } nv.models.lineWithLegend = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, color = d3.scale.category20().range(), width, height; var lines = nv.models.line(), //x = d3.scale.linear(), //y = d3.scale.linear(), x = lines.xScale(), y = lines.yScale(), xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis = nv.models.axis().scale(y).orient('left'), legend = nv.models.legend().height(30), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); function chart(selection) { selection.each(function(data) { var availableWidth = (width || parseInt(d3.select(this).style('width')) || 960) - margin.left - margin.right, availableHeight = (height || parseInt(d3.select(this).style('height')) || 400) - margin.top - margin.bottom; lines .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })); var wrap = d3.select(this).selectAll('g.wrap.lineWithLegend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 lineWithLegend').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(availableWidth / 2); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(lines); xAxis .domain(x.domain()) .range(x.range()) .ticks( availableWidth / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .domain(y.domain()) .range(y.range()) .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); /* // legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ lines.dispatch.on('elementMouseover.tooltip', function(e) { dispatch.tooltipShow({ point: e.point, series: e.series, pos: [e.pos[0] + margin.left, e.pos[1] + margin.top], seriesIndex: e.seriesIndex, pointIndex: e.pointIndex }); }); lines.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); }); // If the legend changed the margin's height, need to recalc positions... should think of a better way to prevent duplicate work if (margin.top != legend.height()) chart(selection); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, lines, 'x', 'y', 'size', 'xDomain', 'yDomain', 'forceX', 'forceY', 'interactive', 'clipEdge', 'clipVoronoi', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; //width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; //height = d3.functor(_); return chart; }; return chart; } nv.models.multiBar = function() { var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one getX = function(d) { return d.x }, getY = function(d) { return d.y }, forceY = [0], // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove clipEdge = true, stacked = false, color = d3.scale.category20().range(), xDomain, yDomain, x0, y0; //var x = d3.scale.linear(), var x = d3.scale.ordinal(), y = d3.scale.linear(), dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'elementMouseover', 'elementMouseout'); function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; //store old scales if they exist x0 = x0 || x; y0 = y0 || y; if (stacked) { //var stackedData = d3.layout.stack() data = d3.layout.stack() .offset('zero') .values(function(d){ return d.values }) .y(getY) (data); } //add series index to each data point for reference data = data.map(function(series, i) { series.values = series.values.map(function(point) { point.series = i; return point; }); return series; }); var seriesData = (xDomain && yDomain) ? [] : // if we know xDomain and yDomain, no need to calculate data.map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i), y0: d.y0 } }) }); x .domain(d3.merge(seriesData).map(function(d) { return d.x })) .rangeBands([0, availableWidth], .1); y .domain(yDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.y + (stacked ? d.y0 : 0) }).concat(forceY))) .range([availableHeight, 0]); var wrap = d3.select(this).selectAll('g.wrap.multibar').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 multibar'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); gEnter.append('g').attr('class', 'groups'); var g = wrap.select('g') wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); defsEnter.append('clipPath') .attr('id', 'edge-clip-' + id) .append('rect'); wrap.select('#edge-clip-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); g .attr('clip-path', clipEdge ? 'url(#edge-clip-' + id + ')' : ''); var groups = wrap.select('.groups').selectAll('.group') .data(function(d) { return d }, function(d) { return d.key }); groups.enter().append('g') .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) /* .attr('transform', function(d,i) { return stacked ? 'translate(0,0)' : 'translate(' + (i * x.rangeBand() / data.length ) + ',0)' }); */ d3.transition(groups.exit()) .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) .remove(); groups .attr('class', function(d,i) { return 'group series-' + i }) .classed('hover', function(d) { return d.hover }) .style('fill', function(d,i){ return color[i % 10] }) .style('stroke', function(d,i){ return color[i % 10] }); d3.transition(groups) /* .attr('transform', function(d,i) { return stacked ? 'translate(0,0)' : 'translate(' + (i * x.rangeBand() / data.length ) + ',0)' }) */ .style('stroke-opacity', 1) .style('fill-opacity', .75); var bars = groups.selectAll('rect.bar') .data(function(d) { return d.values }); bars.exit().remove(); var barsEnter = bars.enter().append('rect') .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) //.attr('fill', function(d,i) { return color[0]; }) .attr('x', function(d,i,j) { return stacked ? 0 : (j * x.rangeBand() / data.length ) }) //.attr('y', function(d,i) { return y(Math.max(0, getY(d,i))) }) //.attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }) .attr('y', function(d) { return y0(stacked ? d.y0 : 0) }) .attr('height', 0) .attr('width', x.rangeBand() / (stacked ? 1 : data.length) ) .on('mouseover', function(d,i) { //TODO: figure out why j works above, but not here d3.select(this).classed('hover', true); dispatch.elementMouseover({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length), y(getY(d,i) + (stacked ? d.y0 : 0))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('mouseout', function(d,i) { d3.select(this).classed('hover', false); dispatch.elementMouseout({ value: getY(d,i), point: d, series: data[d.series], pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('click', function(d,i) { dispatch.elementClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length), y(getY(d,i) + (stacked ? d.y0 : 0))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length), y(getY(d,i) + (stacked ? d.y0 : 0))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }); bars .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('transform', function(d,i) { return 'translate(' + x(getX(d,i)) + ',0)'; }) if (stacked) d3.transition(bars) .delay(function(d,i) { return i * 1000 / data[0].values.length }) .attr('y', function(d,i) { return y(getY(d,i) + (stacked ? d.y0 : 0)); }) .attr('height', function(d,i) { return Math.abs(y(d.y + (stacked ? d.y0 : 0)) - y((stacked ? d.y0 : 0))) }) .each('end', function() { d3.transition(d3.select(this)) .attr('x', function(d,i) { return stacked ? 0 : (d.series * x.rangeBand() / data.length ) }) .attr('width', x.rangeBand() / (stacked ? 1 : data.length) ); }) else d3.transition(bars) .delay(function(d,i) { return i * 1200 / data[0].values.length }) .attr('x', function(d,i) { return d.series * x.rangeBand() / data.length }) .attr('width', x.rangeBand() / data.length) .each('end', function() { d3.transition(d3.select(this)) .attr('y', function(d,i) { return getY(d,i) < 0 ? y(0) : y(getY(d,i)) }) .attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }); }) //TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection) chart.update = function() { selection.transition().call(chart); } //store old scales for use in transitions on update, to animate from old to new positions, and sizes x0 = x.copy(); y0 = y.copy(); }); return chart; } chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.forceY = function(_) { if (!arguments.length) return forceY; forceY = _; return chart; }; chart.stacked = function(_) { if (!arguments.length) return stacked; stacked = _; return chart; }; chart.clipEdge = function(_) { if (!arguments.length) return clipEdge; clipEdge = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; return chart; } nv.models.multiBarWithLegend = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = function() { return 960 }, height = function() { return 500 }, color = d3.scale.category20().range(), showControls = true, showLegend = true; //var x = d3.scale.linear(), var x = d3.scale.ordinal(), y = d3.scale.linear(), xAxis = nv.models.axis().scale(x).orient('bottom').highlightZero(false), yAxis = nv.models.axis().scale(y).orient('left'), legend = nv.models.legend().height(30), controls = nv.models.legend().height(30), multibar = nv.models.multiBar().stacked(false), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); //TODO: let user select default var controlsData = [ { key: 'Grouped' }, { key: 'Stacked', disabled: true } ]; function chart(selection) { selection.each(function(data) { var availableWidth = width() - margin.left - margin.right, availableHeight = height() - margin.top - margin.bottom, seriesData; if (multibar.stacked()) { seriesData = data.filter(function(d) { return !d.disabled }) .reduce(function(prev, curr, index) { //sum up all the y's curr.values.forEach(function(d,i) { if (!index) prev[i] = {x: multibar.x()(d,i), y:0}; prev[i].y += multibar.y()(d,i); }); return prev; }, []); } else { seriesData = data.filter(function(d) { return !d.disabled }) .map(function(d) { return d.values.map(function(d,i) { return { x: multibar.x()(d,i), y: multibar.y()(d,i) } }) }); } //x .domain(d3.extent(d3.merge(seriesData).map(function(d) { return d.x }).concat(multibar.forceX) )) //.range([0, availableWidth]); x .domain(d3.merge(seriesData).map(function(d) { return d.x })) .rangeBands([0, availableWidth], .1); //.rangeRoundBands([0, availableWidth], .1); y .domain(d3.extent(d3.merge(seriesData).map(function(d) { return d.y }).concat(multibar.forceY) )) .range([availableHeight, 0]); multibar .width(availableWidth) .height(availableHeight) //.xDomain(x.domain()) //.yDomain(y.domain()) .color(data.map(function(d,i) { return d.color || color[i % 20]; }).filter(function(d,i) { return !data[i].disabled })) var wrap = d3.select(this).selectAll('g.wrap.multiBarWithLegend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 multiBarWithLegend').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'controlsWrap'); var g = wrap.select('g'); if (showLegend) { //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); legend.width(availableWidth / 2); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); } if (showControls) { controls.width(180).color(['#444', '#444', '#444']); g.select('.controlsWrap') .datum(controlsData) .attr('transform', 'translate(0,' + (-margin.top) +')') .call(controls); } g.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(multibar); xAxis .scale(x) //.domain(x.domain()) //.range(x.range()) .ticks( availableWidth / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); var xTicks = g.select('.x.axis').selectAll('g'); xTicks .selectAll('line, text') .style('opacity', 1) xTicks.filter(function(d,i) { return i % Math.ceil(data[0].values.length / (availableWidth / 100)) !== 0; }) .selectAll('line, text') .style('opacity', 0) yAxis .domain(y.domain()) .range(y.range()) .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); controls.dispatch.on('legendClick', function(d,i) { if (!d.disabled) return; controlsData = controlsData.map(function(s) { s.disabled = true; return s; }); d.disabled = false; switch (d.key) { case 'Grouped': multibar.stacked(false); break; case 'Stacked': multibar.stacked(true); break; } selection.transition().call(chart); }); multibar.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); multibar.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); }); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, multibar, 'x', 'y', 'xDomain', 'yDomain', 'forceX', 'forceY', 'clipEdge', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.showControls = function(_) { if (!arguments.length) return showControls; showControls = _; return chart; }; chart.showLegend = function(_) { if (!arguments.length) return showLegend; showLegend = _; return chart; }; return chart; } nv.models.multiBarHorizontal = function() { var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one x = d3.scale.ordinal(), y = d3.scale.linear(), getX = function(d) { return d.x }, getY = function(d) { return d.y }, forceY = [0], // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove color = d3.scale.category20().range(), stacked = false, showValues = false, valueFormat = d3.format(',.2f'), xDomain, yDomain, x0, y0; var dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'elementMouseover', 'elementMouseout'); function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; //store old scales if they exist x0 = x0 || x; y0 = y0 || y; if (stacked) data = d3.layout.stack() .offset('zero') .values(function(d){ return d.values }) .y(getY) (data); //add series index to each data point for reference data = data.map(function(series, i) { series.values = series.values.map(function(point) { point.series = i; return point; }); return series; }); var seriesData = (xDomain && yDomain) ? [] : // if we know xDomain and yDomain, no need to calculate data.map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i), y0: d.y0 } }) }); x .domain(xDomain || d3.merge(seriesData).map(function(d) { return d.x })) .rangeBands([0, availableHeight], .1); y .domain(yDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.y + (stacked ? d.y0 : 0) }).concat(forceY))) .range([0, availableWidth]); var wrap = d3.select(this).selectAll('g.wrap.multibar').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 multibar'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); gEnter.append('g').attr('class', 'groups'); var g = wrap.select('g') wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); var groups = wrap.select('.groups').selectAll('.group') .data(function(d) { return d }, function(d) { return d.key }); groups.enter().append('g') .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6); d3.transition(groups.exit()) .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) .remove(); groups .attr('class', function(d,i) { return 'group series-' + i }) .classed('hover', function(d) { return d.hover }) .style('fill', function(d,i){ return color[i % 10] }) .style('stroke', function(d,i){ return color[i % 10] }); d3.transition(groups) .style('stroke-opacity', 1) .style('fill-opacity', .75); var bars = groups.selectAll('rect.bar') .data(function(d) { return d.values }); bars.exit().remove(); var barsEnter = bars.enter().append('rect') .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('y', function(d,i,j) { return stacked ? 0 : (j * x.rangeBand() / data.length ) }) .attr('x', function(d) { return y0(stacked ? d.y0 : 0) }) .attr('width', 0) .attr('height', x.rangeBand() / (stacked ? 1 : data.length) ) .on('mouseover', function(d,i) { //TODO: figure out why j works above, but not here d3.select(this).classed('hover', true); dispatch.elementMouseover({ value: getY(d,i), point: d, series: data[d.series], pos: [ y(getY(d,i) + (stacked ? d.y0 : 0)), x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length) ], pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('mouseout', function(d,i) { d3.select(this).classed('hover', false); dispatch.elementMouseout({ value: getY(d,i), point: d, series: data[d.series], pointIndex: i, seriesIndex: d.series, e: d3.event }); }) .on('click', function(d,i) { dispatch.elementClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length), y(getY(d,i) + (stacked ? d.y0 : 0))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ value: getY(d,i), point: d, series: data[d.series], pos: [x(getX(d,i)) + (x.rangeBand() * (stacked ? data.length / 2 : d.series + .5) / data.length), y(getY(d,i) + (stacked ? d.y0 : 0))], // TODO: Figure out why the value appears to be shifted pointIndex: i, seriesIndex: d.series, e: d3.event }); d3.event.stopPropagation(); }); bars .attr('class', function(d,i) { return getY(d,i) < 0 ? 'bar negative' : 'bar positive'}) .attr('transform', function(d,i) { return 'translate(0,' + x(getX(d,i)) + ')'; }) if (stacked) d3.transition(bars) .delay(function(d,i) { return i * 1000 / data[0].values.length }) .attr('x', function(d,i) { return y(d.y0); }) .attr('width', function(d,i) { return Math.abs(y(getY(d,i) + d.y0) - y(d.y0)) }) .each('end', function() { d3.transition(d3.select(this)) .attr('y', function(d,i) { return 0 }) .attr('height', x.rangeBand() ); }) else d3.transition(bars) .delay(function(d,i) { return i * 1200 / data[0].values.length }) .attr('y', function(d,i) { return d.series * x.rangeBand() / data.length }) .attr('height', x.rangeBand() / data.length ) .each('end', function() { d3.transition(d3.select(this)) .attr('x', function(d,i) { return getY(d,i) < 0 ? //TODO: stacked must be all positive or all negative, not both? y(getY(d,i)) : y(0) }) .attr('width', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) }); }) //TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection) chart.update = function() { selection.transition().call(chart); } //store old scales for use in transitions on update, to animate from old to new positions, and sizes x0 = x.copy(); y0 = y.copy(); }); return chart; } chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = _; return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = _; return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.xScale = function(_) { if (!arguments.length) return x; x = _; return chart; }; chart.yScale = function(_) { if (!arguments.length) return y; y = _; return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.forceY = function(_) { if (!arguments.length) return forceY; forceY = _; return chart; }; chart.stacked = function(_) { if (!arguments.length) return stacked; stacked = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.showValues = function(_) { if (!arguments.length) return showValues; showValues = _; return chart; }; chart.valuesFormat= function(_) { if (!arguments.length) return valueFormat; valueFormat = _; return chart; }; return chart; } nv.models.multiBarHorizontalChart = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = null, height = null, color = d3.scale.category20().range(), showControls = true, tooltips = true, tooltip = function(key, x, y, e, graph) { return '

' + x + '

' + '

' + y + '

' }; var multibar = nv.models.multiBarHorizontal().stacked(false), x = multibar.xScale(), y = multibar.yScale(), xAxis = nv.models.axis().scale(x).orient('left').highlightZero(false), yAxis = nv.models.axis().scale(y).orient('bottom'), legend = nv.models.legend().height(30), controls = nv.models.legend().height(30), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); xAxis.tickFormat(function(d) { return d }); yAxis.tickFormat(d3.format(',.1f')); var showTooltip = function(e, offsetElement) { //console.log('left: ' + offsetElement.offsetLeft); //console.log('top: ' + offsetElement.offsetLeft); //TODO: FIX offsetLeft and offSet top do not work if container is shifted anywhere //var offsetElement = document.getElementById(selector.substr(1)), var left = e.pos[0] + ( offsetElement.offsetLeft || 0 ), top = e.pos[1] + ( offsetElement.offsetTop || 0), x = xAxis.tickFormat()(multibar.x()(e.point)), y = yAxis.tickFormat()(multibar.y()(e.point)), content = tooltip(e.series.key, x, y, e, chart); nv.tooltip.show([left, top], content, e.value < 0 ? 'e' : 'w'); }; //TODO: let user select default var controlsData = [ { key: 'Grouped' }, { key: 'Stacked', disabled: true }, ]; function chart(selection) { selection.each(function(data) { var container = d3.select(this); var availableWidth = (width || parseInt(container.style('width')) || 960) - margin.left - margin.right, availableHeight = (height || parseInt(container.style('height')) || 400) - margin.top - margin.bottom; multibar .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })) var wrap = container.selectAll('g.wrap.multiBarHorizontalChart').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 multiBarHorizontalChart').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'controlsWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(availableWidth / 2); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); if (showControls) { controls.width(180).color(['#444', '#444', '#444']); g.select('.controlsWrap') .datum(controlsData) .attr('transform', 'translate(0,' + (-margin.top) +')') .call(controls); } var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(multibar); xAxis .scale(x) .ticks( availableHeight / 24 ) .tickSize(-availableWidth, 0); d3.transition(g.select('.x.axis')) .call(xAxis); var xTicks = g.select('.x.axis').selectAll('g'); xTicks .selectAll('line, text') .style('opacity', 1) xTicks.filter(function(d,i) { return i % Math.ceil(data[0].values.length / (availableWidth / 100)) !== 0; }) .selectAll('line, text') .style('opacity', 0) yAxis .domain(y.domain()) .range(y.range()) .ticks( availableWidth / 100 ) .tickSize( -availableHeight, 0); g.select('.y.axis') .attr('transform', 'translate(0,' + availableHeight + ')'); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); controls.dispatch.on('legendClick', function(d,i) { if (!d.disabled) return; controlsData = controlsData.map(function(s) { s.disabled = true; return s; }); d.disabled = false; switch (d.key) { case 'Grouped': multibar.stacked(false); break; case 'Stacked': multibar.stacked(true); break; } selection.transition().call(chart); }); multibar.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); if (tooltips) dispatch.on('tooltipShow', function(e) { showTooltip(e, container[0][0]) } ); // TODO: maybe merge with above? multibar.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); if (tooltips) dispatch.on('tooltipHide', nv.tooltip.cleanup); }); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, multibar, 'x', 'y', 'xDomain', 'yDomain', 'forceX', 'forceY', 'clipEdge', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.showControls = function(_) { if (!arguments.length) return showControls; showControls = _; return chart; }; chart.tooltips = function(_) { if (!arguments.length) return tooltips; tooltips = _; return chart; }; chart.tooltipContent = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; return chart; } nv.models.multiBarHorizontalWithLegend = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = function() { return 960 }, height = function() { return 500 }, color = d3.scale.category20().range(), showControls = true; //var x = d3.scale.linear(), var x = d3.scale.ordinal(), y = d3.scale.linear(), xAxis = nv.models.axis().scale(x).orient('left').highlightZero(false), yAxis = nv.models.axis().scale(y).orient('bottom'), legend = nv.models.legend().height(30), controls = nv.models.legend().height(30), multibar = nv.models.multiBarHorizontal().stacked(false), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); //TODO: let user select default var controlsData = [ { key: 'Grouped' }, { key: 'Stacked', disabled: true }, ]; function chart(selection) { selection.each(function(data) { var availableWidth = width() - margin.left - margin.right, availableHeight = height() - margin.top - margin.bottom, seriesData; if (multibar.stacked()) { seriesData = data.filter(function(d) { return !d.disabled }) .reduce(function(prev, curr, index) { //sum up all the y's curr.values.forEach(function(d,i) { if (!index) prev[i] = {x: multibar.x()(d,i), y:0}; prev[i].y += multibar.y()(d,i); }); return prev; }, []); } else { seriesData = data.filter(function(d) { return !d.disabled }) .map(function(d) { return d.values.map(function(d,i) { return { x: multibar.x()(d,i), y: multibar.y()(d,i) } }) }); } x .domain(d3.merge(seriesData).map(function(d) { return d.x })) .rangeBands([0, availableHeight], .1); y .domain(d3.extent(d3.merge(seriesData).map(function(d) { return d.y }).concat(multibar.forceY) )) .range([0, availableWidth]); multibar .width(availableWidth) .height(availableHeight) .color(data.map(function(d,i) { return d.color || color[i % 10]; }).filter(function(d,i) { return !data[i].disabled })) var wrap = d3.select(this).selectAll('g.wrap').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 multiBarHorizontalWithLegend').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'linesWrap'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'controlsWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(availableWidth / 2); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); if (showControls) { controls.width(180).color(['#444', '#444', '#444']); g.select('.controlsWrap') .datum(controlsData) .attr('transform', 'translate(0,' + (-margin.top) +')') .call(controls); } var linesWrap = g.select('.linesWrap') .datum(data.filter(function(d) { return !d.disabled })) d3.transition(linesWrap).call(multibar); xAxis .scale(x) .ticks( availableHeight / 24 ) .tickSize(-availableWidth, 0); //g.select('.x.axis') //.attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); var xTicks = g.select('.x.axis').selectAll('g'); xTicks .selectAll('line, text') .style('opacity', 1) xTicks.filter(function(d,i) { return i % Math.ceil(data[0].values.length / (availableWidth / 100)) !== 0; }) .selectAll('line, text') .style('opacity', 0) yAxis .domain(y.domain()) .range(y.range()) .ticks( availableWidth / 100 ) .tickSize( -availableHeight, 0); g.select('.y.axis') .attr('transform', 'translate(0,' + availableHeight + ')'); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart); }); controls.dispatch.on('legendClick', function(d,i) { if (!d.disabled) return; controlsData = controlsData.map(function(s) { s.disabled = true; return s; }); d.disabled = false; switch (d.key) { case 'Grouped': multibar.stacked(false); break; case 'Stacked': multibar.stacked(true); break; } selection.transition().call(chart); }); multibar.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top]; dispatch.tooltipShow(e); }); multibar.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); }); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, multibar, 'x', 'y', 'xDomain', 'yDomain', 'forceX', 'forceY', 'clipEdge', 'id'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.showControls = function(_) { if (!arguments.length) return showControls; showControls = _; return chart; }; return chart; } nv.models.pie = function() { var margin = {top: 20, right: 20, bottom: 20, left: 20}, width = 500, height = 500, animate = 2000, radius = Math.min(width-(margin.right+margin.left), height-(margin.top+margin.bottom)) / 2, label ='label', field ='y', id = Math.floor(Math.random() * 10000), //Create semi-unique ID in case user doesn't select one color = d3.scale.category20(), showLabels = true, donut = false, title = ''; var lastWidth = 0, lastHeight = 0; var dispatch = d3.dispatch('chartClick', 'elementClick', 'elementDblClick', 'tooltipShow', 'tooltipHide'); function chart(selection) { selection.each(function(data) { var svg = d3.select(this) .on("click", function(d,i) { dispatch.chartClick({ data: d, index: i, pos: d3.event, id: id }); }); var background = svg.selectAll('svg.margin').data([data]); var parent = background.enter(); parent.append("text") .attr("class", "title") .attr("dy", ".91em") .attr("text-anchor", "start") .text(title); parent.append('svg') .attr('class','margin') .attr('x', margin.left) .attr('y', margin.top) .style('overflow','visible'); var wrap = background.selectAll('g.wrap').data([data]); wrap.exit().remove(); var wEnter = wrap.enter(); wEnter .append('g') .attr('class', 'wrap') .attr('id','wrap-'+id) .append('g') .attr('class', 'pie'); wrap .attr('width', width) //-(margin.left+margin.right)) .attr('height', height) //-(margin.top+margin.bottom)) .attr("transform", "translate(" + radius + "," + radius + ")"); var arc = d3.svg.arc() .outerRadius((radius-(radius / 5))); if (donut) arc.innerRadius(radius / 2); // Setup the Pie chart and choose the data element var pie = d3.layout.pie() .value(function (d) { return d[field]; }); var slices = background.select('.pie').selectAll(".slice") .data(pie); slices.exit().remove(); var ae = slices.enter().append("svg:g") .attr("class", "slice") .on('mouseover', function(d,i){ d3.select(this).classed('hover', true); dispatch.tooltipShow({ label: d.data[label], value: d.data[field], data: d.data, index: i, pos: [d3.event.pageX, d3.event.pageY], id: id }); }) .on('mouseout', function(d,i){ d3.select(this).classed('hover', false); dispatch.tooltipHide({ label: d.data[label], value: d.data[field], data: d.data, index: i, id: id }); }) .on('click', function(d,i) { dispatch.elementClick({ label: d.data[label], value: d.data[field], data: d.data, index: i, pos: d3.event, id: id }); d3.event.stopPropagation(); }) .on('dblclick', function(d,i) { dispatch.elementDblClick({ label: d.data[label], value: d.data[field], data: d.data, index: i, pos: d3.event, id: id }); d3.event.stopPropagation(); }); var paths = ae.append("svg:path") .attr('class','path') .attr("fill", function(d, i) { return color(i); }); //.attr('d', arc); slices.select('.path') .attr('d', arc) .transition() .ease("bounce") .duration(animate) .attrTween("d", tweenPie); if (showLabels) { // This does the normal label ae.append("text"); slices.select("text") .transition() .duration(animate) .ease('bounce') .attr("transform", function(d) { d.outerRadius = radius + 10; // Set Outer Coordinate d.innerRadius = radius + 15; // Set Inner Coordinate return "translate(" + arc.centroid(d) + ")"; }) .attr("text-anchor", "middle") //center the text on it's origin .style("font", "bold 12px Arial") .text(function(d, i) { return d.data[label]; }); } // Computes the angle of an arc, converting from radians to degrees. function angle(d) { var a = (d.startAngle + d.endAngle) * 90 / Math.PI - 90; return a > 90 ? a - 180 : a; } function tweenPie(b) { b.innerRadius = 0; var i = d3.interpolate({startAngle: 0, endAngle: 0}, b); return function(t) { return arc(i(t)); }; } }); return chart; } chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; if (margin.left + margin.right + 20 > _) { width = margin.left + margin.right + 20; // Min width } else { width = _; } radius = Math.min(width-(margin.left+margin.right), height-(margin.top+margin.bottom)) / 2; return chart; }; chart.height = function(_) { if (!arguments.length) return height; if (margin.top + margin.bottom + 20 > _) { height = margin.top + margin.bottom + 20; // Min height } else { height = _; } radius = Math.min(width-(margin.left+margin.right), height-(margin.top+margin.bottom)) / 2; return chart; }; chart.animate = function(_) { if (!arguments.length) return animate; animate = _; return chart; }; chart.labelField = function(_) { if (!arguments.length) return (label); label = _; return chart; }; chart.dataField = function(_) { if (!arguments.length) return (field); field = _; return chart; }; chart.showLabels = function(_) { if (!arguments.length) return (showLabels); showLabels = _; return chart; }; chart.donut = function(_) { if (!arguments.length) return (donut); donut = _; return chart; }; chart.title = function(_) { if (!arguments.length) return (title); title = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.dispatch = dispatch; return chart; } nv.models.scatter = function() { //Default Settings var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, color = d3.scale.category20().range(), // array of colors to be used in order id = Math.floor(Math.random() * 100000), //Create semi-unique ID incase user doesn't selet one x = d3.scale.linear(), y = d3.scale.linear(), z = d3.scale.sqrt(), //sqrt because point size is done by area, not radius getX = function(d) { return d.x }, // accessor to get the x value from a data point getY = function(d) { return d.y }, // accessor to get the y value from a data point getSize = function(d) { return d.size }, // accessor to get the point radius from a data point //TODO: consider renamig size to z forceX = [], // List of numbers to Force into the X scale (ie. 0, or a max / min, etc.) forceY = [], // List of numbers to Force into the Y scale forceSize = [], // List of numbers to Force into the Size scale interactive = true, // If true, plots a voronoi overlay for advanced point interection clipEdge = false, // if true, masks lines within x and y scale clipVoronoi = true, // if true, masks each point with a circle... can turn off to slightly increase performance clipRadius = function() { return 25 }, // function to get the radius for point clips xDomain, yDomain, sizeDomain; // Used to manually set the x and y domain, good to save time if calculation has already been made var dispatch = d3.dispatch('elementClick', 'elementMouseover', 'elementMouseout'),//TODO: consider renaming to elementMouseove and elementMouseout for consistency x0, y0, z0, timeoutID; function chart(selection) { selection.each(function(data) { //var seriesData = data.map(function(d) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; //store old scales if they exist x0 = x0 || x; y0 = y0 || y; z0 = z0 || z; //add series index to each data point for reference data = data.map(function(series, i) { series.values = series.values.map(function(point) { point.series = i; return point; }); return series; }); // slight remap of the data for use in calculating the scales domains var seriesData = (xDomain && yDomain && sizeDomain) ? [] : // if we know xDomain and yDomain and sizeDomain, no need to calculate.... if Size is constant remember to set sizeDomain to speed up performance data.map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i), size: getSize(d,i) } }) }); //TODO: figure out the best way to deal with scales with equal MIN and MAX //TODO: think of a good way to re-use scales x .domain(xDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.x }).concat(forceX))) .range([0, availableWidth]); y .domain(yDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.y }).concat(forceY))) .range([availableHeight, 0]); z .domain(sizeDomain || d3.extent(d3.merge(seriesData).map(function(d) { return d.size }).concat(forceSize))) .range([2, 10]); var wrap = d3.select(this).selectAll('g.wrap.scatter').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 scatter'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); var g = wrap.select('g') gEnter.append('g').attr('class', 'groups'); wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); defsEnter.append('clipPath') .attr('id', 'edge-clip-' + id) .append('rect'); wrap.select('#edge-clip-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); g .attr('clip-path', clipEdge ? 'url(#edge-clip-' + id + ')' : ''); function updateInteractiveLayer() { if (!interactive) { wrap.select('#points-clip-' + id).remove(); wrap.select('.point-paths').remove(); return false; } gEnter.append('g').attr('class', 'point-paths'); var vertices = d3.merge(data.map(function(group, groupIndex) { return group.values.map(function(point, pointIndex) { // Adding noise to make duplicates very unlikely // Inject series and point index for reference return [x(getX(point,pointIndex)) * (Math.random() / 1e12 + 1) , y(getY(point,pointIndex)) * (Math.random() / 1e12 + 1), groupIndex, pointIndex]; //temp hack to add noise untill I think of a better way so there are no duplicates }) }) ); if (clipVoronoi) { defsEnter.append('clipPath').attr('id', 'points-clip-' + id); var pointClips = wrap.select('#points-clip-' + id).selectAll('circle') .data(vertices); pointClips.enter().append('circle') .attr('r', clipRadius); pointClips.exit().remove(); pointClips .attr('cx', function(d) { return d[0] }) .attr('cy', function(d) { return d[1] }); wrap.select('.point-paths') .attr('clip-path', 'url(#points-clip-' + id + ')'); } //inject series and point index for reference into voronoi // considering adding a removeZeros option, may be useful for the stacked chart and maybe others var voronoi = d3.geom.voronoi(vertices).map(function(d, i) { return { 'data': d, 'series': vertices[i][2], 'point': vertices[i][3] } }); var pointPaths = wrap.select('.point-paths').selectAll('path') .data(voronoi); pointPaths.enter().append('path') .attr('class', function(d,i) { return 'path-'+i; }); pointPaths.exit().remove(); pointPaths .attr('d', function(d) { return 'M' + d.data.join(',') + 'Z'; }) .on('click', function(d) { var series = data[d.series], point = series.values[d.point]; dispatch.elementClick({ point: point, series:series, pos: [x(getX(point, d.point)) + margin.left, y(getY(point, d.point)) + margin.top], seriesIndex: d.series, pointIndex: d.point }); }) .on('mouseover', function(d) { var series = data[d.series], point = series.values[d.point]; dispatch.elementMouseover({ point: point, series:series, pos: [x(getX(point, d.point)) + margin.left, y(getY(point, d.point)) + margin.top], seriesIndex: d.series, pointIndex: d.point }); }) .on('mouseout', function(d, i) { dispatch.elementMouseout({ point: data[d.series].values[d.point], series: data[d.series], seriesIndex: d.series, pointIndex: d.point }); }); dispatch.on('elementMouseover.point', function(d) { wrap.select('.series-' + d.seriesIndex + ' .point-' + d.pointIndex) .classed('hover', true); }); dispatch.on('elementMouseout.point', function(d) { wrap.select('.series-' + d.seriesIndex + ' circle.point-' + d.pointIndex) .classed('hover', false); }); } var groups = wrap.select('.groups').selectAll('.group') .data(function(d) { return d }, function(d) { return d.key }); groups.enter().append('g') .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6); d3.transition(groups.exit()) .style('stroke-opacity', 1e-6) .style('fill-opacity', 1e-6) .remove(); groups .attr('class', function(d,i) { return 'group series-' + i }) .classed('hover', function(d) { return d.hover }); d3.transition(groups) .style('fill', function(d,i) { return color[i % 20] }) .style('stroke', function(d,i) { return color[i % 20] }) .style('stroke-opacity', 1) .style('fill-opacity', .5); var points = groups.selectAll('circle.point') .data(function(d) { return d.values }); points.enter().append('circle') .attr('cx', function(d,i) { return x0(getX(d,i)) }) .attr('cy', function(d,i) { return y0(getY(d,i)) }) .attr('r', function(d,i) { return z0(getSize(d,i)) }); //d3.transition(points.exit()) d3.transition(groups.exit().selectAll('circle.point')) .attr('cx', function(d,i) { return x(getX(d,i)) }) .attr('cy', function(d,i) { return y(getY(d,i)) }) .attr('r', function(d,i) { return z(getSize(d,i)) }) .remove(); points.attr('class', function(d,i) { return 'point point-' + i }); d3.transition(points) .attr('cx', function(d,i) { return x(getX(d,i)) }) .attr('cy', function(d,i) { return y(getY(d,i)) }) .attr('r', function(d,i) { return z(getSize(d,i)) }); clearTimeout(timeoutID); timeoutID = setTimeout(updateInteractiveLayer, 750); //store old scales for use in transitions on update, to animate from old to new positions, and sizes x0 = x.copy(); y0 = y.copy(); z0 = z.copy(); }); return chart; } chart.dispatch = dispatch; chart.x = function(_) { if (!arguments.length) return getX; getX = d3.functor(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = d3.functor(_); return chart; }; chart.size = function(_) { if (!arguments.length) return getSize; getSize = d3.functor(_); return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.xScale = function(_) { if (!arguments.length) return x; x = _; return chart; }; chart.yScale = function(_) { if (!arguments.length) return y; y = _; return chart; }; chart.zScale = function(_) { if (!arguments.length) return z; z = _; return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.sizeDomain = function(_) { if (!arguments.length) return sizeDomain; sizeDomain = _; return chart; }; chart.forceX = function(_) { if (!arguments.length) return forceX; forceX = _; return chart; }; chart.forceY = function(_) { if (!arguments.length) return forceY; forceY = _; return chart; }; chart.forceSize = function(_) { if (!arguments.length) return forceSize; forceSize = _; return chart; }; chart.interactive = function(_) { if (!arguments.length) return interactive; interactive = _; return chart; }; chart.clipEdge = function(_) { if (!arguments.length) return clipEdge; clipEdge = _; return chart; }; chart.clipVoronoi= function(_) { if (!arguments.length) return clipVoronoi; clipVoronoi = _; return chart; }; chart.clipRadius = function(_) { if (!arguments.length) return clipRadius; clipRadius = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; return chart; } nv.models.scatterWithLegend = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, width = function() { return 960 }, //TODO: should probably make this consistent... or maybe constant in the models, closure in the charts height = function() { return 500 }, xAxisLabelText = false, yAxisLabelText = false, showDistX = false, showDistY = false, color = d3.scale.category20().range(); var xAxis = nv.models.axis().orient('bottom').tickPadding(10), yAxis = nv.models.axis().orient('left').tickPadding(10), legend = nv.models.legend().height(30), scatter = nv.models.scatter(), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'), x, y, x0, y0; function chart(selection) { selection.each(function(data) { var availableWidth = width() - margin.left - margin.right, availableHeight = height() - margin.top - margin.bottom; x0 = x0 || scatter.xScale(); y0 = y0 || scatter.yScale(); var wrap = d3.select(this).selectAll('g.wrap.scatterWithLegend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 scatterWithLegend').append('g'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'scatterWrap'); //gEnter.append('g').attr('class', 'distWrap'); scatter .width(availableWidth) .height(availableHeight) //.xDomain(x.domain()) //.yDomain(y.domain()) .color(data.map(function(d,i) { return d.color || color[i % 20]; }).filter(function(d,i) { return !data[i].disabled })) var scatterWrap = wrap.select('.scatterWrap') .datum(data.filter(function(d) { return !d.disabled })); d3.transition(scatterWrap).call(scatter); x = scatter.xScale(); y = scatter.yScale(); xAxis.scale(x); yAxis.scale(y); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend //TODO: Fix height issue on first render if legend height is larger than margin.top, NEED TO FIX EVERY MODEL WITH A LEGEND margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend.width(availableWidth / 2); wrap.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (availableWidth / 2) + ',' + (-margin.top) +')') .call(legend); if ( showDistX || showDistY) { var distWrap = scatterWrap.selectAll('g.distribution') .data(function(d) { return d }, function(d) { return d.key }); distWrap.enter().append('g').attr('class', function(d,i) { return 'distribution series-' + i }) distWrap.style('stroke', function(d,i) { return color.filter(function(d,i) { return data[i] && !data[i].disabled })[i % 10] }) } if (showDistX) { var distX = distWrap.selectAll('line.distX') .data(function(d) { return d.values }) distX.enter().append('line') .attr('x1', function(d,i) { return x0(scatter.x()(d,i)) }) .attr('x2', function(d,i) { return x0(scatter.x()(d,i)) }) //d3.transition(distX.exit()) d3.transition(distWrap.exit().selectAll('line.distX')) .attr('x1', function(d,i) { return x(scatter.x()(d,i)) }) .attr('x2', function(d,i) { return x(scatter.x()(d,i)) }) .remove(); distX .attr('class', function(d,i) { return 'distX distX-' + i }) .attr('y1', y.range()[0]) .attr('y2', y.range()[0] + 8); d3.transition(distX) .attr('x1', function(d,i) { return x(scatter.x()(d,i)) }) .attr('x2', function(d,i) { return x(scatter.x()(d,i)) }) } if (showDistY) { var distY = distWrap.selectAll('line.distY') .data(function(d) { return d.values }) distY.enter().append('line') .attr('y1', function(d,i) { return y0(scatter.y()(d,i)) }) .attr('y2', function(d,i) { return y0(scatter.y()(d,i)) }); //d3.transition(distY.exit()) d3.transition(distWrap.exit().selectAll('line.distY')) .attr('y1', function(d,i) { return y(scatter.y()(d,i)) }) .attr('y2', function(d,i) { return y(scatter.y()(d,i)) }) .remove(); distY .attr('class', function(d,i) { return 'distY distY-' + i }) .attr('x1', x.range()[0]) .attr('x2', x.range()[0] - 8) d3.transition(distY) .attr('y1', function(d,i) { return y(scatter.y()(d,i)) }) .attr('y2', function(d,i) { return y(scatter.y()(d,i)) }); } xAxis .ticks( availableWidth / 100 ) .tickSize( -availableHeight , 0); g.select('.x.axis') .attr('transform', 'translate(0,' + y.range()[0] + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .ticks( availableHeight / 36 ) .tickSize( -availableWidth, 0); d3.transition(g.select('.y.axis')) .call(yAxis); legend.dispatch.on('legendClick', function(d,i, that) { d.disabled = !d.disabled; if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; wrap.selectAll('.series').classed('disabled', false); return d; }); } selection.transition().call(chart) }); /* legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ scatter.dispatch.on('elementMouseover.tooltip', function(e) { dispatch.tooltipShow({ point: e.point, series: e.series, pos: [e.pos[0] + margin.left, e.pos[1] + margin.top], seriesIndex: e.seriesIndex, pointIndex: e.pointIndex }); scatterWrap.select('.series-' + e.seriesIndex + ' .distX-' + e.pointIndex) .attr('y1', e.pos[1]); scatterWrap.select('.series-' + e.seriesIndex + ' .distY-' + e.pointIndex) .attr('x1', e.pos[0]); }); scatter.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); scatterWrap.select('.series-' + e.seriesIndex + ' .distX-' + e.pointIndex) .attr('y1', y.range()[0]); scatterWrap.select('.series-' + e.seriesIndex + ' .distY-' + e.pointIndex) .attr('x1', x.range()[0]); }); //store old scales for use in transitions on update, to animate from old to new positions, and sizes x0 = x.copy(); y0 = y.copy(); }); return chart; } chart.dispatch = dispatch; chart.legend = legend; chart.xAxis = xAxis; chart.yAxis = yAxis; d3.rebind(chart, scatter, 'interactive', 'size', 'xScale', 'yScale', 'zScale', 'xDomain', 'yDomain', 'sizeDomain', 'forceX', 'forceY', 'forceSize', 'clipVoronoi', 'clipRadius'); chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = d3.functor(_); return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; legend.color(_); return chart; }; chart.showDistX = function(_) { if (!arguments.length) return showDistX; showDistX = _; return chart; }; chart.showDistY = function(_) { if (!arguments.length) return showDistY; showDistY = _; return chart; }; return chart; } nv.models.sparkline = function() { var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 400, height = 32, animate = true, getX = function(d) { return d.x }, getY = function(d) { return d.y }, color = d3.scale.category20().range(), xDomain, yDomain; var x = d3.scale.linear(), y = d3.scale.linear(); function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; x .domain(xDomain || d3.extent(data, getX )) .range([0, availableWidth]); y .domain(yDomain || d3.extent(data,getY )) .range([availableHeight, 0]); var wrap = d3.select(this).selectAll('g.sparkline').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'nvd3 sparkline'); //var gEnter = svg.enter().append('svg').append('g'); //gEnter.append('g').attr('class', 'sparkline') gEnter .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')') //.style('fill', function(d, i){ return d.color || color[i * 2 % 20] }) .style('stroke', function(d,i) { return d.color || color[i * 2 % 20] }); /* d3.select(this) .attr('width', width) .attr('height', height); */ //var paths = gEnter.select('.sparkline').selectAll('path') var paths = gEnter.selectAll('path') .data(function(d) { return [d] }); paths.enter().append('path'); paths.exit().remove(); paths .attr('d', d3.svg.line() .x(function(d,i) { return x(getX(d,i)) }) .y(function(d,i) { return y(getY(d,i)) }) ); // TODO: Add CURRENT data point (Need Min, Mac, Current / Most recent) var points = gEnter.selectAll('circle.point') .data(function(d) { return d.filter(function(p,i) { return y.domain().indexOf(getY(p,i)) != -1 || getX(p,i) == x.domain()[1] }) }); points.enter().append('circle').attr('class', 'point'); points.exit().remove(); points .attr('cx', function(d,i) { return x(getX(d,i)) }) .attr('cy', function(d,i) { return y(getY(d,i)) }) .attr('r', 2) .style('stroke', function(d,i) { return d.x == x.domain()[1] ? '#444' : d.y == y.domain()[0] ? '#d62728' : '#2ca02c' }) .style('fill', function(d,i) { return d.x == x.domain()[1] ? '#444' : d.y == y.domain()[0] ? '#d62728' : '#2ca02c' }); }); return chart; } chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.x = function(_) { if (!arguments.length) return getX; getX = d3.functor(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = d3.functor(_); return chart; }; chart.xDomain = function(_) { if (!arguments.length) return xDomain; xDomain = _; return chart; }; chart.yDomain = function(_) { if (!arguments.length) return yDomain; yDomain = _; return chart; }; chart.animate = function(_) { if (!arguments.length) return animate; animate = _; return chart; }; return chart; } nv.models.sparklinePlus = function() { var margin = {top: 15, right: 40, bottom: 3, left: 40}, width = 400, height = 50, animate = true, getX = function(d) { return d.x }, getY = function(d) { return d.y }, color = d3.scale.category20().range(), id = Math.floor(Math.random() * 100000), //Create semi-unique ID incase user doesn't selet one xTickFormat = d3.format(',r'), yTickFormat = d3.format(',.2f'); var x = d3.scale.linear(), y = d3.scale.linear(), sparkline = nv.models.sparkline(); function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; x .domain(d3.extent(data, getX )) .range([0, availableWidth]); y .domain(d3.extent(data, getY )) .range([availableHeight, 0]); var wrap = d3.select(this).selectAll('g.sparklineplus').data([data]); var gEnter = wrap.enter().append('g') //var gEnter = svg.enter().append('svg').append('g'); var sparklineWrap = gEnter.append('g').attr('class', 'nvd3 sparklineplus') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')') //.style('fill', function(d, i){ return d.color || color[i % 10] }) .style('stroke', function(d, i){ return d.color || color[i % 10] }); sparkline .xDomain(x.domain()) .yDomain(y.domain()); sparklineWrap //.attr('width', width) //.attr('height', height) .call(sparkline); var hoverValue = sparklineWrap.append('g').attr('class', 'hoverValue'); var hoverArea = sparklineWrap.append('g').attr('class', 'hoverArea'); hoverValue.attr('transform', function(d) { return 'translate(' + x(d) + ',0)' }); var hoverLine = hoverValue.append('line') .attr('x1', x.range()[1]) .attr('y1', -margin.top) .attr('x2', x.range()[1]) .attr('y2', height) var hoverX = hoverValue.append('text').attr('class', 'xValue') .attr('text-anchor', 'end') .attr('dy', '.9em') var hoverY = hoverValue.append('text').attr('class', 'yValue') //.attr('transform', function(d) { return 'translate(' + x(d) + ',0)' }) .attr('text-anchor', 'start') .attr('dy', '.9em') hoverArea.append('rect') .attr('width', availableWidth) .attr('height', availableHeight) .on('mousemove', sparklineHover); function sparklineHover() { var pos = d3.event.offsetX - margin.left; hoverLine .attr('x1', pos) .attr('x2', pos); hoverX .attr('transform', function(d) { return 'translate(' + (pos - 6) + ',' + (-margin.top) + ')' }) //.text(xTickFormat(pos)); .text(xTickFormat(Math.round(x.invert(pos)))); //TODO: refactor this line hoverY .attr('transform', function(d) { return 'translate(' + (pos + 6) + ',' + (-margin.top) + ')' }) //.text(data[pos] && yTickFormat(data[pos].y)); .text(yTickFormat(getY(data[Math.round(x.invert(pos))]))); //TODO: refactor this line } }); return chart; } chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; sparkline.width(_ - margin.left - margin.right); return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; sparkline.height(_ - margin.top - margin.bottom); return chart; }; chart.x = function(_) { if (!arguments.length) return getX; getX = d3.functor(_); sparkline.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = d3.functor(_); sparkline.y(_); return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.animate = function(_) { if (!arguments.length) return animate; animate = _; return chart; }; return chart; } nv.models.stackedArea = function() { //Default Settings var margin = {top: 0, right: 0, bottom: 0, left: 0}, width = 960, height = 500, color = d3.scale.category20().range(), // array of colors to be used in order id = Math.floor(Math.random() * 100000), //Create semi-unique ID incase user doesn't selet one getX = function(d) { return d.x }, // accessor to get the x value from a data point getY = function(d) { return d.y }, // accessor to get the y value from a data point style = 'stack', offset = 'zero', order = 'default', clipEdge = false; // if true, masks lines within x and y scale /************************************ * offset: * 'wiggle' (stream) * 'zero' (stacked) * 'expand' (normalize to 100%) * 'silhouette' (simple centered) * * order: * 'inside-out' (stream) * 'default' (input order) ************************************/ var scatter= nv.models.scatter() .size(2.2) // default size .sizeDomain([2.5]), //set to speed up calculation, needs to be unset if there is a cstom size accessor x = scatter.xScale(), y = scatter.yScale(), dispatch = d3.dispatch('tooltipShow', 'tooltipHide', 'areaClick', 'areaMouseover', 'areaMouseout'); function chart(selection) { selection.each(function(data) { // Need to leave data alone to switch between stacked, stream, and expanded var dataCopy = JSON.parse(JSON.stringify(data)), availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; //TODO: deal with negative stacked charts //compute the data based on offset and order (calc's y0 for every point) dataCopy = d3.layout.stack() .offset(offset) .order(order) .values(function(d){ return d.values }) .y(getY) (dataCopy); var wrap = d3.select(this).selectAll('g.wrap.stackedarea').data([dataCopy]); var wrapEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 stackedarea'); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); var g = wrap.select('g'); gEnter.append('g').attr('class', 'areaWrap'); scatter .width(availableWidth) .height(availableHeight) //.x(getX) .y(function(d) { return d.y + d.y0 }) // TODO: allow for getY to be other than d.y .forceY([0]) .color(dataCopy.map(function(d,i) { return d.color || color[i % 20]; }).filter(function(d,i) { return !dataCopy[i].disabled })); gEnter.append('g').attr('class', 'scatterWrap'); var scatterWrap= g.select('.scatterWrap') .datum(dataCopy.filter(function(d) { return !d.disabled })) d3.transition(scatterWrap).call(scatter); wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); defsEnter.append('clipPath') .attr('id', 'edge-clip-' + id) .append('rect'); wrap.select('#edge-clip-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); g .attr('clip-path', clipEdge ? 'url(#edge-clip-' + id + ')' : ''); var area = d3.svg.area() .x(function(d,i) { return x(getX(d,i)) }) .y0(function(d) { return y(d.y0) }) .y1(function(d) { return y(d.y + d.y0) }); var zeroArea = d3.svg.area() .x(function(d,i) { return x(getX(d,i)) }) .y0(function(d) { return y(d.y0) }) .y1(function(d) { return y(d.y0) }); var path = g.select('.areaWrap').selectAll('path.area') .data(function(d) { return d }); path.enter().append('path').attr('class', function(d,i) { return 'area area-' + i }) .on('mouseover', function(d,i) { d3.select(this).classed('hover', true); dispatch.areaMouseover({ point: d, series: d.key, //pos: [x(getX(point, d.point)) + margin.left, y(getY(point, d.point)) + margin.top], pos: [d3.event.pageX, d3.event.pageY], seriesIndex: i //pointIndex: d.point }); }) .on('mouseout', function(d,i) { d3.select(this).classed('hover', false); dispatch.areaMouseout({ point: d, series: d.key, //pos: [x(getX(point, d.point)) + margin.left, y(getY(point, d.point)) + margin.top], pos: [d3.event.pageX, d3.event.pageY], seriesIndex: i //pointIndex: d.point }); }) .on('click', function(d,i) { d3.select(this).classed('hover', false); dispatch.areaClick({ point: d, series: d.key, //pos: [x(getX(point, d.point)) + margin.left, y(getY(point, d.point)) + margin.top], pos: [d3.event.pageX, d3.event.pageY], seriesIndex: i //pointIndex: d.point }); }) d3.transition(path.exit()) .attr('d', function(d,i) { return zeroArea(d.values,i) }) .remove(); path .style('fill', function(d,i){ return color[i % 20] }) .style('stroke', function(d,i){ return color[i % 20] }); d3.transition(path) .attr('d', function(d,i) { return area(d.values,i) }) //TODO: these disptach handlers don't need to be called everytime the chart // is called, but 'g' is only in this scope... so need to rethink. scatter.dispatch.on('elementClick.area', function(e) { dispatch.areaClick(e); }) scatter.dispatch.on('elementMouseover.area', function(e) { g.select('.area-' + e.seriesIndex).classed('hover', true); }); scatter.dispatch.on('elementMouseout.area', function(e) { g.select('.area-' + e.seriesIndex).classed('hover', false); }); }); return chart; } chart.dispatch = dispatch; chart.scatter = scatter; d3.rebind(chart, scatter, 'interactive', 'size', 'xScale', 'yScale', 'zScale', 'xDomain', 'yDomain', 'sizeDomain', 'forceX', 'forceY', 'forceSize', 'clipVoronoi', 'clipRadius'); chart.x = function(_) { if (!arguments.length) return getX; getX = d3.functor(_); scatter.x(_); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = d3.functor(_); //scatter.y(_); return chart; } chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return width; width = _; return chart; }; chart.height = function(_) { if (!arguments.length) return height; height = _; return chart; }; chart.clipEdge = function(_) { if (!arguments.length) return clipEdge; clipEdge = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = _; return chart; }; chart.offset = function(_) { if (!arguments.length) return offset; offset = _; return chart; }; chart.order = function(_) { if (!arguments.length) return order; order = _; return chart; }; //shortcut for offset + order chart.style = function(_) { if (!arguments.length) return style; style = _; switch (style) { case 'stack': offset = 'zero'; order = 'default'; break; case 'stream': offset = 'wiggle'; order = 'inside-out'; break; case 'expand': offset = 'expand'; order = 'default'; break; } return chart; }; scatter.dispatch.on('elementMouseover.tooltip', function(e) { e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top], dispatch.tooltipShow(e); }); scatter.dispatch.on('elementMouseout.tooltip', function(e) { dispatch.tooltipHide(e); }); return chart; } nv.models.stackedAreaWithLegend = function() { var margin = {top: 30, right: 20, bottom: 50, left: 60}, getWidth = function() { return 960 }, getHeight = function() { return 500 }, color = d3.scale.category20().range(); var x = d3.scale.linear(), y = d3.scale.linear(), getX = function(d) { return d.x }, getY = function(d) { return d.y }, xAxis = nv.models.axis().scale(x).orient('bottom'), yAxis = nv.models.axis().scale(y).orient('left'), legend = nv.models.legend().height(30), controls = nv.models.legend().height(30), stacked = nv.models.stackedArea(), dispatch = d3.dispatch('tooltipShow', 'tooltipHide'); //TODO: let user select default var controlsData = [ { key: 'Stacked' }, { key: 'Stream', disabled: true }, { key: 'Expanded', disabled: true } ]; function chart(selection) { selection.each(function(data) { var width = getWidth(), height = getHeight(), availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom; var seriesData = data.filter(function(d) { return !d.disabled }) .reduce(function(prev, curr, index) { //sum up all the y's curr.values.forEach(function(d,i) { if (!index) prev[i] = {x: getX(d,i), y:0}; prev[i].y += getY(d,i); }); return prev; }, []); x .domain(d3.extent(d3.merge(seriesData), function(d) { return d.x } )) .range([0, availableWidth]); y .domain(stacked.offset() == 'zero' ? [0, d3.max(seriesData, function(d) { return d.y } )] : [0, 1] // 0 - 100% ) .range([availableHeight, 0]); stacked .width(availableWidth) .height(availableHeight) .color(color) var wrap = d3.select(this).selectAll('g.wrap.stackedAreaWithLegend').data([data]); var gEnter = wrap.enter().append('g').attr('class', 'wrap nvd3 stackedAreaWithLegend').append('g'); gEnter.append('g').attr('class', 'x axis'); gEnter.append('g').attr('class', 'y axis'); gEnter.append('g').attr('class', 'stackedWrap'); gEnter.append('g').attr('class', 'legendWrap'); gEnter.append('g').attr('class', 'controlsWrap'); //TODO: margins should be adjusted based on what components are used: axes, axis labels, legend margin.top = legend.height(); var g = wrap.select('g') .attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); legend .width(width/2 - margin.right) .color(color); g.select('.legendWrap') .datum(data) .attr('transform', 'translate(' + (width/2 - margin.left) + ',' + (-margin.top) +')') .call(legend); controls.width(280).color(['#444', '#444', '#444']); g.select('.controlsWrap') .datum(controlsData) .attr('transform', 'translate(0,' + (-margin.top) +')') .call(controls); var stackedWrap = g.select('.stackedWrap') .datum(data); d3.transition(stackedWrap).call(stacked); xAxis .domain(x.domain()) .range(x.range()) .ticks( width / 100 ) .tickSize(-availableHeight, 0); g.select('.x.axis') .attr('transform', 'translate(0,' + availableHeight + ')'); d3.transition(g.select('.x.axis')) .call(xAxis); yAxis .domain(y.domain()) .range(y.range()) .ticks(stacked.offset() == 'wiggle' ? 0 : height / 36) .tickSize(-availableWidth, 0) .tickFormat(stacked.offset() == 'zero' ? d3.format(',.2f') : d3.format('%')); //TODO: stacked format should be set by caller d3.transition(g.select('.y.axis')) .call(yAxis); //TODO: FIX Logic error, screws up when series are disabled by clicking legend, then series are desiabled by clicking the area stacked.dispatch.on('areaClick.toggle', function(e) { if (data.filter(function(d) { return !d.disabled }).length === 1) data = data.map(function(d) { if (d.disabled) d.values.map(function(p) { p.y = p._y || p.y; return p }); // .... d.disabled = false; return d }); else data = data.map(function(d,i) { if (!d.disabled && i !== e.seriesIndex) d.values.map(function(p) { p._y = p.y; p.y = 0; return p }); //TODO: need to use value from getY, not always d.y if (d.disabled && i === e.seriesIndex) d.values.map(function(p) { p.y = p._y || p.y; return p }); // .... d.disabled = (i != e.seriesIndex); return d }); selection.transition().call(chart); }); legend.dispatch.on('legendClick', function(d,i) { d.disabled = !d.disabled; if (d.disabled) d.values.map(function(p) { p._y = p.y; p.y = 0; return p }); //TODO: need to use value from getY, not always d.y else d.values.map(function(p) { p.y = p._y; return p }); // .... if (!data.filter(function(d) { return !d.disabled }).length) { data.map(function(d) { d.disabled = false; d.values.map(function(p) { p.y = p._y; return p }); // .... return d; }); } selection.transition().call(chart); }); controls.dispatch.on('legendClick', function(d,i) { if (!d.disabled) return; controlsData = controlsData.map(function(s) { s.disabled = true; return s; }); d.disabled = false; switch (d.key) { case 'Stacked': stacked.style('stack'); break; case 'Stream': stacked.style('stream'); break; case 'Expanded': stacked.style('expand'); break; } selection.transition().call(chart); }); /* legend.dispatch.on('legendMouseover', function(d, i) { d.hover = true; selection.transition().call(chart) }); legend.dispatch.on('legendMouseout', function(d, i) { d.hover = false; selection.transition().call(chart) }); */ stacked.dispatch.on('tooltipShow', function(e) { //disable tooltips when value ~= 0 //// TODO: consider removing points from voronoi that have 0 value instead of this hack if (!Math.round(getY(e.point) * 100)) { // 100 will not be good for very small numbers... will have to think about making this valu dynamic, based on data range setTimeout(function() { d3.selectAll('.point.hover').classed('hover', false) }, 0); return false; } e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top], dispatch.tooltipShow(e); }); stacked.dispatch.on('tooltipHide', function(e) { dispatch.tooltipHide(e); }); }); /* // If the legend changed the margin's height, need to recalc positions... should think of a better way to prevent duplicate work if (margin.top != legend.height()) chart(selection); */ return chart; } chart.dispatch = dispatch; d3.rebind(chart, stacked, 'interactive', 'clipEdge', 'size'); chart.x = function(_) { if (!arguments.length) return getX; getX = d3.functor(_); //not used locally, so could jsut be a rebind stacked.x(getX); return chart; }; chart.y = function(_) { if (!arguments.length) return getY; getY = d3.functor(_); stacked.y(getY); return chart; }; chart.margin = function(_) { if (!arguments.length) return margin; margin = _; return chart; }; chart.width = function(_) { if (!arguments.length) return getWidth; getWidth = d3.functor(_); return chart; }; chart.height = function(_) { if (!arguments.length) return getHeight; getHeight = d3.functor(_); return chart; }; chart.stacked = stacked; chart.xAxis = xAxis; chart.yAxis = yAxis; return chart; } // This technique works AS IS for month end data points // In fact, this works for any series where each value is evenly spaced, // and every series starts at the same value and is 1 to 1 // In other words, values at the same index, need to have the same x value // for all series // // TODO: now that tooltips don't use jquery, could likely get rid of the charts // collection by simply adding some optional functionality to the model nv.charts.cumulativeLineChartDaily = function() { var selector = null, data = [], duration = 500, tooltip = function(key, x, y, e, graph) { return '

' + key + '

' + '

' + y + ' at ' + x + '

' }; var graph = nv.models.cumulativeLine() .x(function(d,i) { return i }) .color(d3.scale.category10().range()), showTooltip = function(e) { var offsetElement = document.getElementById(selector.substr(1)), left = e.pos[0] + offsetElement.offsetLeft, top = e.pos[1] + offsetElement.offsetTop, formatX = graph.xAxis.tickFormat(), formatY = graph.yAxis.tickFormat(), x = formatX(graph.x()(e, e.pointIndex)), //x = formatX(graph.x()(e.point)), y = formatY(graph.y()(e.point)), content = tooltip(e.series.key, x, y, e, graph); nv.tooltip.show([left, top], content); }; //setting component defaults //graph.xAxis.tickFormat(d3.format(',r')); graph.xAxis.tickFormat(function(d) { //return d3.time.format('%x')(new Date(d)) return d3.time.format('%x')(new Date(data[0].values[d].x)) }); //graph.yAxis.tickFormat(d3.format(',.2f')); graph.yAxis.tickFormat(d3.format(',.2%')); //TODO: consider a method more similar to how the models are built function chart() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); //consider using transition chaining like in the models return chart; } // This should always only be called once, then update should be used after, // in which case should consider the 'd3 way' and merge this with update, // but simply do this on enter... will try another example the d3 way chart.build = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with nv.addGraph({ generate: function() { var container = d3.select(selector), width = function() { return parseInt(container.style('width')) }, height = function() { return parseInt(container.style('height')) }, svg = container.append('svg'); graph .width(width) .height(height); svg .attr('width', width()) .attr('height', height()) .datum(data) .transition().duration(duration).call(graph); return graph; }, callback: function(graph) { graph.dispatch.on('tooltipShow', showTooltip); graph.dispatch.on('tooltipHide', nv.tooltip.cleanup); //TODO: fix issue of multiple graphs failing on resize //TODO: create resize queue and have nv core handle resize instead of binding all to window resize window.onresize = function() { // now that width and height are functions, should be automatic..of course you can always override them d3.select(selector + ' svg') .attr('width', graph.width()()) //need to set SVG dimensions, chart is not aware of the SVG component .attr('height', graph.height()()) .call(graph); }; } }); return chart; }; /* // moved to chart() chart.update = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); return chart; }; */ chart.data = function(_) { if (!arguments.length) return data; data = _; return chart; }; chart.selector = function(_) { if (!arguments.length) return selector; selector = _; return chart; }; chart.duration = function(_) { if (!arguments.length) return duration; duration = _; return chart; }; chart.tooltip = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; chart.xTickFormat = function(_) { if (!arguments.length) return graph.xAxis.tickFormat(); graph.xAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.yTickFormat = function(_) { if (!arguments.length) return graph.yAxis.tickFormat(); graph.yAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.xAxisLabel = function(_) { if (!arguments.length) return graph.xAxis.axisLabel(); graph.xAxis.axisLabel(_); return chart; }; chart.yAxisLabel = function(_) { if (!arguments.length) return graph.yAxis.axisLabel(); graph.yAxis.axisLabel(_); return chart; }; d3.rebind(chart, graph, 'x', 'y'); chart.graph = graph; // Give direct access for getter/setters, and dispatchers return chart; }; // This is an attempt to make an extremely easy to use chart that is ready to go, // basically the chart models with the extra glue... Queuing, tooltips, automatic resize, etc. // I may make these more specific, like 'time series line with month end data points', etc. // or may make yet another layer of abstraction... common settings. nv.charts.line = function() { var selector = null, data = [], duration = 500, tooltip = function(key, x, y, e, graph) { return '

' + key + '

' + '

' + y + ' at ' + x + '

' }; var graph = nv.models.lineWithLegend(), showTooltip = function(e) { var offsetElement = document.getElementById(selector.substr(1)), left = e.pos[0] + offsetElement.offsetLeft, top = e.pos[1] + offsetElement.offsetTop, formatX = graph.xAxis.tickFormat(), formatY = graph.yAxis.tickFormat(), x = formatX(graph.x()(e.point)), y = formatY(graph.y()(e.point)), content = tooltip(e.series.key, x, y, e, graph); nv.tooltip.show([left, top], content); }; //setting component defaults graph.xAxis.tickFormat(d3.format(',r')); graph.yAxis.tickFormat(d3.format(',.2f')); //TODO: consider a method more similar to how the models are built function chart() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); //consider using transition chaining like in the models return chart; } // This should always only be called once, then update should be used after, // in which case should consider the 'd3 way' and merge this with update, // but simply do this on enter... should try anoter example that way chart.build = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with nv.addGraph({ generate: function() { var container = d3.select(selector), width = function() { return parseInt(container.style('width')) }, height = function() { return parseInt(container.style('height')) }, svg = container.append('svg'); graph .width(width) .height(height); svg .attr('width', width()) .attr('height', height()) .datum(data) .transition().duration(duration).call(graph); return graph; }, callback: function(graph) { graph.dispatch.on('tooltipShow', showTooltip); graph.dispatch.on('tooltipHide', nv.tooltip.cleanup); //TODO: create resize queue and have nv core handle resize instead of binding all to window resize window.onresize = function() { // now that width and height are functions, should be automatic..of course you can always override them d3.select(selector + ' svg') .attr('width', graph.width()()) //need to set SVG dimensions, chart is not aware of the SVG component .attr('height', graph.height()()) .call(graph); }; } }); return chart; }; /* // moved to chart() chart.update = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); return chart; }; */ chart.data = function(_) { if (!arguments.length) return data; data = _; return chart; }; chart.selector = function(_) { if (!arguments.length) return selector; selector = _; return chart; }; chart.duration = function(_) { if (!arguments.length) return duration; duration = _; return chart; }; chart.tooltip = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; chart.xTickFormat = function(_) { if (!arguments.length) return graph.xAxis.tickFormat(); graph.xAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.yTickFormat = function(_) { if (!arguments.length) return graph.yAxis.tickFormat(); graph.yAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.xAxisLabel = function(_) { if (!arguments.length) return graph.xAxis.axisLabel(); graph.xAxis.axisLabel(_); return chart; }; chart.yAxisLabel = function(_) { if (!arguments.length) return graph.yAxis.axisLabel(); graph.yAxis.axisLabel(_); return chart; }; d3.rebind(chart, graph, 'x', 'y'); chart.graph = graph; // Give direct access for getter/setters, and dispatchers return chart; }; // This is an attempt to make an extremely easy to use chart that is ready to go, // basically the chart models with the extra glue... Queuing, tooltips, automatic resize, etc. // I may make these more specific, like 'time series line with month end data points', etc. // or may make yet another layer of abstraction... common settings. nv.charts.lineChartDaily = function() { var selector = null, data = [], duration = 500, tooltip = function(key, x, y, e, graph) { return '

' + key + '

' + '

' + y + ' at ' + x + '

' }; var graph = nv.models.lineWithLegend() .x(function(d,i) { return i }), showTooltip = function(e) { var offsetElement = document.getElementById(selector.substr(1)), left = e.pos[0] + offsetElement.offsetLeft, top = e.pos[1] + offsetElement.offsetTop, formatX = graph.xAxis.tickFormat(), formatY = graph.yAxis.tickFormat(), x = formatX(graph.x()(e, e.pointIndex)), //x = formatX(graph.x()(e.point)), y = formatY(graph.y()(e.point)), content = tooltip(e.series.key, x, y, e, graph); nv.tooltip.show([left, top], content); }; //setting component defaults //graph.xAxis.tickFormat(d3.format(',r')); graph.xAxis.tickFormat(function(d) { //return d3.time.format('%x')(new Date(d)) //log(d, data[0].values[d]); return d3.time.format('%x')(new Date(data[0].values[d].x)) }); //graph.yAxis.tickFormat(d3.format(',.2f')); graph.yAxis.tickFormat(d3.format(',.2%')); //TODO: consider a method more similar to how the models are built function chart() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); //consider using transition chaining like in the models return chart; } // This should always only be called once, then update should be used after, // in which case should consider the 'd3 way' and merge this with update, // but simply do this on enter... should try anoter example that way chart.build = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with nv.addGraph({ generate: function() { var container = d3.select(selector), width = function() { return parseInt(container.style('width')) }, height = function() { return parseInt(container.style('height')) }, svg = container.append('svg'); graph .width(width) .height(height); svg .attr('width', width()) .attr('height', height()) .datum(data) .transition().duration(duration).call(graph); return graph; }, callback: function(graph) { graph.dispatch.on('tooltipShow', showTooltip); graph.dispatch.on('tooltipHide', nv.tooltip.cleanup); //TODO: create resize queue and have nv core handle resize instead of binding all to window resize window.onresize = function() { // now that width and height are functions, should be automatic..of course you can always override them d3.select(selector + ' svg') .attr('width', graph.width()()) //need to set SVG dimensions, chart is not aware of the SVG component .attr('height', graph.height()()) .call(graph); }; } }); return chart; }; /* // moved to chart() chart.update = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); return chart; }; */ chart.data = function(_) { if (!arguments.length) return data; data = _; return chart; }; chart.selector = function(_) { if (!arguments.length) return selector; selector = _; return chart; }; chart.duration = function(_) { if (!arguments.length) return duration; duration = _; return chart; }; chart.tooltip = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; chart.xTickFormat = function(_) { if (!arguments.length) return graph.xAxis.tickFormat(); graph.xAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.yTickFormat = function(_) { if (!arguments.length) return graph.yAxis.tickFormat(); graph.yAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.xAxisLabel = function(_) { if (!arguments.length) return graph.xAxis.axisLabel(); graph.xAxis.axisLabel(_); return chart; }; chart.yAxisLabel = function(_) { if (!arguments.length) return graph.yAxis.axisLabel(); graph.yAxis.axisLabel(_); return chart; }; d3.rebind(chart, graph, 'x', 'y'); chart.graph = graph; // Give direct access for getter/setters, and dispatchers return chart; }; /*** * This chart treats the X position as the INDEX, not the value * Each series at the same index MUST be the same x value for a valid representation * This is needed specifically for daily data where the gap between Friday and Monday * should be equal to the gap from Monday to Tuesday. (and of course, holidays can be * omitted without issue, as long as ALL series omit the same days). * An intentional side effect is that ALL ticks will land on actual data points, * so this visualization can also be used for Month End data points, showing Month End * ticks on the X axis ***/ nv.charts.stackedAreaChart = function() { var selector = null, data = [], duration = 500, tooltip = function(key, x, y, e, graph) { return '

' + key + '

' + '

' + y + ' at ' + x + '

' }; var graph = nv.models.stackedAreaWithLegend() .x(function(d,i) { return i }), showTooltip = function(e) { var offsetElement = document.getElementById(selector.substr(1)), left = e.pos[0] + offsetElement.offsetLeft, top = e.pos[1] + offsetElement.offsetTop, formatX = graph.xAxis.tickFormat(), formatY = graph.yAxis.tickFormat(), x = formatX(graph.x()(e, e.pointIndex)), //x = formatX(graph.x()(e.point)), y = formatY(graph.y()(e.point)), content = tooltip(e.series.key, x, y, e, graph); nv.tooltip.show([left, top], content); }; //setting component defaults //graph.xAxis.tickFormat(d3.format(',r')); graph.xAxis.tickFormat(function(d) { //return d3.time.format('%x')(new Date(d)) //log(d, data[0].values[d]); return d3.time.format('%x')(new Date(data[0].values[d].x)) }); //graph.yAxis.tickFormat(d3.format(',.2f')); graph.yAxis.tickFormat(d3.format(',.2%')); //TODO: consider a method more similar to how the models are built function chart() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration) .call(graph); //consider using transition chaining like in the models return chart; } // This should always only be called once, then update should be used after, // in which case should consider the 'd3 way' and merge this with update, // but simply do this on enter... should try anoter example that way chart.build = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with nv.addGraph({ generate: function() { var container = d3.select(selector), width = function() { return parseInt(container.style('width')) }, height = function() { return parseInt(container.style('height')) }, svg = container.append('svg'); graph .width(width) .height(height); svg .attr('width', width()) .attr('height', height()) .datum(data) .transition().duration(duration) .call(graph); return graph; }, callback: function(graph) { graph.dispatch.on('tooltipShow', showTooltip); graph.dispatch.on('tooltipHide', nv.tooltip.cleanup); //TODO: create resize queue and have nv core handle resize instead of binding all to window resize window.onresize = function() { // now that width and height are functions, should be automatic..of course you can always override them d3.select(selector + ' svg') .attr('width', graph.width()()) //need to set SVG dimensions, chart is not aware of the SVG component .attr('height', graph.height()()) .call(graph); }; } }); return chart; }; /* // moved to chart() chart.update = function() { if (!selector || !data.length) return chart; //do nothing if you have nothing to work with d3.select(selector).select('svg') .datum(data) .transition().duration(duration).call(graph); return chart; }; */ chart.data = function(_) { if (!arguments.length) return data; data = _; return chart; }; chart.selector = function(_) { if (!arguments.length) return selector; selector = _; return chart; }; chart.duration = function(_) { if (!arguments.length) return duration; duration = _; return chart; }; chart.tooltip = function(_) { if (!arguments.length) return tooltip; tooltip = _; return chart; }; chart.xTickFormat = function(_) { if (!arguments.length) return graph.xAxis.tickFormat(); graph.xAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.yTickFormat = function(_) { if (!arguments.length) return graph.yAxis.tickFormat(); graph.yAxis.tickFormat(typeof _ === 'function' ? _ : d3.format(_)); return chart; }; chart.xAxisLabel = function(_) { if (!arguments.length) return graph.xAxis.axisLabel(); graph.xAxis.axisLabel(_); return chart; }; chart.yAxisLabel = function(_) { if (!arguments.length) return graph.yAxis.axisLabel(); graph.yAxis.axisLabel(_); return chart; }; d3.rebind(chart, graph, 'x', 'y'); chart.graph = graph; // Give direct access for getter/setters, and dispatchers return chart; }; })();