nv.models.scatter = function() { //============================================================ // Public Variables with Default Settings //------------------------------------------------------------ var margin = {top: 0, right: 0, bottom: 0, left: 0} , width = 960 , height = 500 , color = nv.utils.defaultColor() // chooses color , 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.linear() //linear because d3.svg.shape.size is treated as area , getX = function(d) { return d.x } // accessor to get the x value , getY = function(d) { return d.y } // accessor to get the y value , getSize = function(d) { return d.size || 1} // accessor to get the point size , getShape = function(d) { return d.shape || 'circle' } // accessor to get point shape , onlyCircles = true // Set to false to use shapes , 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 , pointActive = function(d) { return !d.notActive } // any points that return false will be filtered out , clipEdge = false // if true, masks points 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 voronoi point clips , xDomain = null // Override x domain (skips the calculation from data) , yDomain = null // Override y domain , sizeDomain = null // Override point size domain , sizeRange = null , singlePoint = false , dispatch = d3.dispatch('elementClick', 'elementMouseover', 'elementMouseout') , useVoronoi = true ; //============================================================ //============================================================ // Private Variables //------------------------------------------------------------ var x0, y0, z0 // used to store previous scales , timeoutID , needsUpdate = false // Flag for when the points are visually updating, but the interactive layer is behind, to disable tooltips ; //============================================================ function chart(selection) { selection.each(function(data) { var availableWidth = width - margin.left - margin.right, availableHeight = height - margin.top - margin.bottom, container = d3.select(this); //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; }); //------------------------------------------------------------ // Setup Scales // remap and flatten 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 d3.merge( data.map(function(d) { return d.values.map(function(d,i) { return { x: getX(d,i), y: getY(d,i), size: getSize(d,i) } }) }) ); x .domain(xDomain || d3.extent(seriesData.map(function(d) { return d.x }).concat(forceX))) .range([0, availableWidth]); y .domain(yDomain || d3.extent(seriesData.map(function(d) { return d.y }).concat(forceY))) .range([availableHeight, 0]); z .domain(sizeDomain || d3.extent(seriesData.map(function(d) { return d.size }).concat(forceSize))) .range(sizeRange || [16, 256]); // If scale's domain don't have a range, slightly adjust to make one... so a chart can show a single data point if (x.domain()[0] === x.domain()[1] || y.domain()[0] === y.domain()[1]) singlePoint = true; if (x.domain()[0] === x.domain()[1]) x.domain()[0] ? x.domain([x.domain()[0] - x.domain()[0] * 0.01, x.domain()[1] + x.domain()[1] * 0.01]) : x.domain([-1,1]); if (y.domain()[0] === y.domain()[1]) y.domain()[0] ? y.domain([y.domain()[0] + y.domain()[0] * 0.01, y.domain()[1] - y.domain()[1] * 0.01]) : y.domain([-1,1]); x0 = x0 || x; y0 = y0 || y; z0 = z0 || z; //------------------------------------------------------------ //------------------------------------------------------------ // Setup containers and skeleton of chart var wrap = container.selectAll('g.nv-wrap.nv-scatter').data([data]); var wrapEnter = wrap.enter().append('g').attr('class', 'nvd3 nv-wrap nv-scatter nv-chart-' + id + (singlePoint ? ' nv-single-point' : '')); var defsEnter = wrapEnter.append('defs'); var gEnter = wrapEnter.append('g'); var g = wrap.select('g'); gEnter.append('g').attr('class', 'nv-groups'); gEnter.append('g').attr('class', 'nv-point-paths'); wrap.attr('transform', 'translate(' + margin.left + ',' + margin.top + ')'); //------------------------------------------------------------ defsEnter.append('clipPath') .attr('id', 'nv-edge-clip-' + id) .append('rect'); wrap.select('#nv-edge-clip-' + id + ' rect') .attr('width', availableWidth) .attr('height', availableHeight); g .attr('clip-path', clipEdge ? 'url(#nv-edge-clip-' + id + ')' : ''); function updateInteractiveLayer() { if (!interactive) return false; var eventElements; var vertices = d3.merge(data.map(function(group, groupIndex) { return group.values .map(function(point, pointIndex) { // *Adding noise to make duplicates very unlikely // **Injecting 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, point]; //temp hack to add noise untill I think of a better way so there are no duplicates }) .filter(function(pointArray, pointIndex) { return pointActive(pointArray[4], pointIndex); // Issue #237.. move filter to after map, so pointIndex is correct! }) }) ); //inject series and point index for reference into voronoi if (useVoronoi === true) { if (clipVoronoi) { var pointClipsEnter = wrap.select('defs').selectAll('.nv-point-clips') .data([id]) .enter(); pointClipsEnter.append('clipPath') .attr('class', 'nv-point-clips') .attr('id', 'nv-points-clip-' + id); var pointClips = wrap.select('#nv-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('.nv-point-paths') .attr('clip-path', 'url(#nv-points-clip-' + id + ')'); } if(vertices.length < 3) { // Issue #283 - Adding 2 dummy points to the voronoi b/c voronoi requires min 3 points to work vertices.push([x.range()[0] - 2000, y.range()[0] - 2000, null, null]); vertices.push([x.range()[1] + 2000, y.range()[1] + 2000, null, null]); vertices.push([x.range()[0] - 2000, y.range()[0] + 2000, null, null]); vertices.push([x.range()[1] + 2000, y.range()[1] - 2000, null, null]); } var voronoi = d3.geom.voronoi(vertices).map(function(d, i) { return { 'data': d.map(function(f) { //keep the voronoi paths within the svg bounding box (for IE9 support) f[0] = f[0] > width ? width : f[0]; f[0] = f[0] < 0 ? 0 : f[0]; f[1] = f[1] > height ? height : f[1]; f[1] = f[1] < 0 ? 0 : f[1]; return f; }), 'series': vertices[i][2], 'point': vertices[i][3] } }); var pointPaths = wrap.select('.nv-point-paths').selectAll('path') .data(voronoi); pointPaths.enter().append('path') .attr('class', function(d,i) { return 'nv-path-'+i; }); pointPaths.exit().remove(); pointPaths .attr('d', function(d) { return 'M' + d.data.join('L') + 'Z'; }); pointPaths .on('click', function(d) { if (needsUpdate) return 0; 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) { if (needsUpdate) return 0; 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) { if (needsUpdate) return 0; var series = data[d.series], point = series.values[d.point]; dispatch.elementMouseout({ point: point, series: series, seriesIndex: d.series, pointIndex: d.point }); }); } else { /* // bring data in form needed for click handlers var dataWithPoints = vertices.map(function(d, i) { return { 'data': d, 'series': vertices[i][2], 'point': vertices[i][3] } }); */ // add event handlers to points instead voronoi paths wrap.select('.nv-groups').selectAll('.nv-group') .selectAll('.nv-point') //.data(dataWithPoints) //.style('pointer-events', 'auto') // recativate events, disabled by css .on('click', function(d,i) { //nv.log('test', d, i); if (needsUpdate) return 0; var series = data[d.series], point = series.values[i]; dispatch.elementClick({ point: point, series: series, pos: [x(getX(point, i)) + margin.left, y(getY(point, i)) + margin.top], seriesIndex: d.series, pointIndex: i }); }) .on('mouseover', function(d,i) { if (needsUpdate) return 0; var series = data[d.series], point = series.values[i]; dispatch.elementMouseover({ point: point, series: series, pos: [x(getX(point, i)) + margin.left, y(getY(point, i)) + margin.top], seriesIndex: d.series, pointIndex: i }); }) .on('mouseout', function(d,i) { if (needsUpdate) return 0; var series = data[d.series], point = series.values[i]; dispatch.elementMouseout({ point: point, series: series, seriesIndex: d.series, pointIndex: i }); }); } needsUpdate = false; } needsUpdate = true; var groups = wrap.select('.nv-groups').selectAll('.nv-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 'nv-group nv-series-' + i }) .classed('hover', function(d) { return d.hover }); d3.transition(groups) .style('fill', function(d,i) { return color(d, i) }) .style('stroke', function(d,i) { return color(d, i) }) .style('stroke-opacity', 1) .style('fill-opacity', .5); if (onlyCircles) { var points = groups.selectAll('circle.nv-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 Math.sqrt(z(getSize(d,i))/Math.PI) }); points.exit().remove(); d3.transition(groups.exit().selectAll('path.nv-point')) .attr('cx', function(d,i) { return x(getX(d,i)) }) .attr('cy', function(d,i) { return y(getY(d,i)) }) .remove(); points.attr('class', function(d,i) { return 'nv-point nv-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 Math.sqrt(z(getSize(d,i))/Math.PI) }); } else { var points = groups.selectAll('path.nv-point') .data(function(d) { return d.values }); points.enter().append('path') .attr('transform', function(d,i) { return 'translate(' + x0(getX(d,i)) + ',' + y0(getY(d,i)) + ')' }) .attr('d', d3.svg.symbol() .type(getShape) .size(function(d,i) { return z(getSize(d,i)) }) ); points.exit().remove(); d3.transition(groups.exit().selectAll('path.nv-point')) .attr('transform', function(d,i) { return 'translate(' + x(getX(d,i)) + ',' + y(getY(d,i)) + ')' }) .remove(); points.attr('class', function(d,i) { return 'nv-point nv-point-' + i }); d3.transition(points) .attr('transform', function(d,i) { //nv.log(d,i,getX(d,i), x(getX(d,i))); return 'translate(' + x(getX(d,i)) + ',' + y(getY(d,i)) + ')' }) .attr('d', d3.svg.symbol() .type(getShape) .size(function(d,i) { return z(getSize(d,i)) }) ); } // Delay updating the invisible interactive layer for smoother animation clearTimeout(timeoutID); // stop repeat calls to updateInteractiveLayer timeoutID = setTimeout(updateInteractiveLayer, 300); //updateInteractiveLayer(); //store old scales for use in transitions on update x0 = x.copy(); y0 = y.copy(); z0 = z.copy(); }); return chart; } //============================================================ // Event Handling/Dispatching (out of chart's scope) //------------------------------------------------------------ dispatch.on('elementMouseover.point', function(d) { if (interactive) d3.select('.nv-chart-' + id + ' .nv-series-' + d.seriesIndex + ' .nv-point-' + d.pointIndex) .classed('hover', true); }); dispatch.on('elementMouseout.point', function(d) { if (interactive) d3.select('.nv-chart-' + id + ' .nv-series-' + d.seriesIndex + ' .nv-point-' + d.pointIndex) .classed('hover', false); }); //============================================================ //============================================================ // Expose Public Variables //------------------------------------------------------------ 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.top = typeof _.top != 'undefined' ? _.top : margin.top; margin.right = typeof _.right != 'undefined' ? _.right : margin.right; margin.bottom = typeof _.bottom != 'undefined' ? _.bottom : margin.bottom; margin.left = typeof _.left != 'undefined' ? _.left : margin.left; 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.sizeRange = function(_) { if (!arguments.length) return sizeRange; sizeRange = _; 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.pointActive = function(_) { if (!arguments.length) return pointActive; pointActive = _; 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.useVoronoi= function(_) { if (!arguments.length) return useVoronoi; useVoronoi = _; if (useVoronoi === false) { clipVoronoi = false; } return chart; }; chart.clipRadius = function(_) { if (!arguments.length) return clipRadius; clipRadius = _; return chart; }; chart.color = function(_) { if (!arguments.length) return color; color = nv.utils.getColor(_); return chart; }; chart.shape = function(_) { if (!arguments.length) return getShape; getShape = _; return chart; }; chart.onlyCircles = function(_) { if (!arguments.length) return onlyCircles; onlyCircles = _; return chart; }; chart.id = function(_) { if (!arguments.length) return id; id = _; return chart; }; chart.singlePoint = function(_) { if (!arguments.length) return singlePoint; singlePoint = _; return chart; }; //============================================================ return chart; }