//Define the global Chart Variable as a class. window.Chart = function(context){ var chart = this; //Easing functions adapted from Robert Penner's easing equations //http://www.robertpenner.com/easing/ var animationOptions = { linear : function (t){ return t; }, easeInQuad: function (t) { return t*t; }, easeOutQuad: function (t) { return -1 *t*(t-2); }, easeInOutQuad: function (t) { if ((t/=1/2) < 1) return 1/2*t*t; return -1/2 * ((--t)*(t-2) - 1); }, easeInCubic: function (t) { return t*t*t; }, easeOutCubic: function (t) { return 1*((t=t/1-1)*t*t + 1); }, easeInOutCubic: function (t) { if ((t/=1/2) < 1) return 1/2*t*t*t; return 1/2*((t-=2)*t*t + 2); }, easeInQuart: function (t) { return t*t*t*t; }, easeOutQuart: function (t) { return -1 * ((t=t/1-1)*t*t*t - 1); }, easeInOutQuart: function (t) { if ((t/=1/2) < 1) return 1/2*t*t*t*t; return -1/2 * ((t-=2)*t*t*t - 2); }, easeInQuint: function (t) { return 1*(t/=1)*t*t*t*t; }, easeOutQuint: function (t) { return 1*((t=t/1-1)*t*t*t*t + 1); }, easeInOutQuint: function (t) { if ((t/=1/2) < 1) return 1/2*t*t*t*t*t; return 1/2*((t-=2)*t*t*t*t + 2); }, easeInSine: function (t) { return -1 * Math.cos(t/1 * (Math.PI/2)) + 1; }, easeOutSine: function (t) { return 1 * Math.sin(t/1 * (Math.PI/2)); }, easeInOutSine: function (t) { return -1/2 * (Math.cos(Math.PI*t/1) - 1); }, easeInExpo: function (t) { return (t==0) ? 1 : 1 * Math.pow(2, 10 * (t/1 - 1)); }, easeOutExpo: function (t) { return (t==1) ? 1 : 1 * (-Math.pow(2, -10 * t/1) + 1); }, easeInOutExpo: function (t) { if (t==0) return 0; if (t==1) return 1; if ((t/=1/2) < 1) return 1/2 * Math.pow(2, 10 * (t - 1)); return 1/2 * (-Math.pow(2, -10 * --t) + 2); }, easeInCirc: function (t) { if (t>=1) return t; return -1 * (Math.sqrt(1 - (t/=1)*t) - 1); }, easeOutCirc: function (t) { return 1 * Math.sqrt(1 - (t=t/1-1)*t); }, easeInOutCirc: function (t) { if ((t/=1/2) < 1) return -1/2 * (Math.sqrt(1 - t*t) - 1); return 1/2 * (Math.sqrt(1 - (t-=2)*t) + 1); }, easeInElastic: function (t) { var s=1.70158;var p=0;var a=1; if (t==0) return 0; if ((t/=1)==1) return 1; if (!p) p=1*.3; if (a < Math.abs(1)) { a=1; var s=p/4; } else var s = p/(2*Math.PI) * Math.asin (1/a); return -(a*Math.pow(2,10*(t-=1)) * Math.sin( (t*1-s)*(2*Math.PI)/p )); }, easeOutElastic: function (t) { var s=1.70158;var p=0;var a=1; if (t==0) return 0; if ((t/=1)==1) return 1; if (!p) p=1*.3; if (a < Math.abs(1)) { a=1; var s=p/4; } else var s = p/(2*Math.PI) * Math.asin (1/a); return a*Math.pow(2,-10*t) * Math.sin( (t*1-s)*(2*Math.PI)/p ) + 1; }, easeInOutElastic: function (t) { var s=1.70158;var p=0;var a=1; if (t==0) return 0; if ((t/=1/2)==2) return 1; if (!p) p=1*(.3*1.5); if (a < Math.abs(1)) { a=1; var s=p/4; } else var s = p/(2*Math.PI) * Math.asin (1/a); if (t < 1) return -.5*(a*Math.pow(2,10*(t-=1)) * Math.sin( (t*1-s)*(2*Math.PI)/p )); return a*Math.pow(2,-10*(t-=1)) * Math.sin( (t*1-s)*(2*Math.PI)/p )*.5 + 1; }, easeInBack: function (t) { var s = 1.70158; return 1*(t/=1)*t*((s+1)*t - s); }, easeOutBack: function (t) { var s = 1.70158; return 1*((t=t/1-1)*t*((s+1)*t + s) + 1); }, easeInOutBack: function (t) { var s = 1.70158; if ((t/=1/2) < 1) return 1/2*(t*t*(((s*=(1.525))+1)*t - s)); return 1/2*((t-=2)*t*(((s*=(1.525))+1)*t + s) + 2); }, easeInBounce: function (t) { return 1 - animationOptions.easeOutBounce (1-t); }, easeOutBounce: function (t) { if ((t/=1) < (1/2.75)) { return 1*(7.5625*t*t); } else if (t < (2/2.75)) { return 1*(7.5625*(t-=(1.5/2.75))*t + .75); } else if (t < (2.5/2.75)) { return 1*(7.5625*(t-=(2.25/2.75))*t + .9375); } else { return 1*(7.5625*(t-=(2.625/2.75))*t + .984375); } }, easeInOutBounce: function (t) { if (t < 1/2) return animationOptions.easeInBounce (t*2) * .5; return animationOptions.easeOutBounce (t*2-1) * .5 + 1*.5; } }; //Variables global to the chart var width = context.canvas.width; var height = context.canvas.height; //High pixel density displays - multiply the size of the canvas height/width by the device pixel ratio, then scale. if (window.devicePixelRatio) { context.canvas.style.width = width + "px"; context.canvas.style.height = height + "px"; context.canvas.height = height * window.devicePixelRatio; context.canvas.width = width * window.devicePixelRatio; context.scale(window.devicePixelRatio, window.devicePixelRatio); } this.PolarArea = function(data,options){ chart.PolarArea.defaults = { scaleOverlay : true, scaleOverride : false, scaleSteps : null, scaleStepWidth : null, scaleStartValue : null, scaleShowLine : true, scaleLineColor : "rgba(0,0,0,.1)", scaleLineWidth : 1, scaleShowLabels : true, scaleLabel : "<%=value%>", scaleFontFamily : "'Arial'", scaleFontSize : 12, scaleFontStyle : "normal", scaleFontColor : "#666", scaleShowLabelBackdrop : true, scaleBackdropColor : "rgba(255,255,255,0.75)", scaleBackdropPaddingY : 2, scaleBackdropPaddingX : 2, segmentShowStroke : true, segmentStrokeColor : "#fff", segmentStrokeWidth : 2, animation : true, animationSteps : 100, animationEasing : "easeOutBounce", animateRotate : true, animateScale : false, onAnimationComplete : null }; var config = (options)? mergeChartConfig(chart.PolarArea.defaults,options) : chart.PolarArea.defaults; return new PolarArea(data,config,context); }; this.Radar = function(data,options){ chart.Radar.defaults = { scaleOverlay : false, scaleOverride : false, scaleSteps : null, scaleStepWidth : null, scaleStartValue : null, scaleShowLine : true, scaleLineColor : "rgba(0,0,0,.1)", scaleLineWidth : 1, scaleShowLabels : false, scaleLabel : "<%=value%>", scaleFontFamily : "'Arial'", scaleFontSize : 12, scaleFontStyle : "normal", scaleFontColor : "#666", scaleShowLabelBackdrop : true, scaleBackdropColor : "rgba(255,255,255,0.75)", scaleBackdropPaddingY : 2, scaleBackdropPaddingX : 2, angleShowLineOut : true, angleLineColor : "rgba(0,0,0,.1)", angleLineWidth : 1, pointLabelFontFamily : "'Arial'", pointLabelFontStyle : "normal", pointLabelFontSize : 12, pointLabelFontColor : "#666", pointDot : true, pointDotRadius : 3, pointDotStrokeWidth : 1, datasetStroke : true, datasetStrokeWidth : 2, datasetFill : true, animation : true, animationSteps : 60, animationEasing : "easeOutQuart", onAnimationComplete : null }; var config = (options)? mergeChartConfig(chart.Radar.defaults,options) : chart.Radar.defaults; return new Radar(data,config,context); }; this.Pie = function(data,options){ chart.Pie.defaults = { segmentShowStroke : true, segmentStrokeColor : "#fff", segmentStrokeWidth : 2, animation : true, animationSteps : 100, animationEasing : "easeOutBounce", animateRotate : true, animateScale : false, onAnimationComplete : null }; var config = (options)? mergeChartConfig(chart.Pie.defaults,options) : chart.Pie.defaults; return new Pie(data,config,context); }; this.Doughnut = function(data,options){ chart.Doughnut.defaults = { segmentShowStroke : true, segmentStrokeColor : "#2c3e50", segmentStrokeWidth : 1, percentageInnerCutout : 90, animation : true, animationSteps : 100, animationEasing : "easeOutBounce", animateRotate : true, animateScale : false, onAnimationComplete : null }; var config = (options)? mergeChartConfig(chart.Doughnut.defaults,options) : chart.Doughnut.defaults; return new Doughnut(data,config,context); }; this.Line = function(data,options){ chart.Line.defaults = { scaleOverlay : false, scaleOverride : false, scaleSteps : null, scaleStepWidth : null, scaleStartValue : null, scaleLineColor : "rgba(0,0,0,.1)", scaleLineWidth : 1, scaleShowLabels : true, scaleLabel : "<%=value%>", scaleFontFamily : "'Arial'", scaleFontSize : 12, scaleFontStyle : "normal", scaleFontColor : "#666", scaleShowGridLines : true, scaleGridLineColor : "rgba(0,0,0,.05)", scaleGridLineWidth : 1, bezierCurve : true, pointDot : true, pointDotRadius : 4, pointDotStrokeWidth : 2, datasetStroke : true, datasetStrokeWidth : 2, datasetFill : true, animation : true, animationSteps : 60, animationEasing : "easeOutQuart", onAnimationComplete : null }; var config = (options) ? mergeChartConfig(chart.Line.defaults,options) : chart.Line.defaults; return new Line(data,config,context); } this.Bar = function(data,options){ chart.Bar.defaults = { scaleOverlay : false, scaleOverride : false, scaleSteps : null, scaleStepWidth : null, scaleStartValue : null, scaleLineColor : "rgba(0,0,0,.1)", scaleLineWidth : 1, scaleShowLabels : true, scaleLabel : "<%=value%>", scaleFontFamily : "'Arial'", scaleFontSize : 12, scaleFontStyle : "normal", scaleFontColor : "#666", scaleShowGridLines : true, scaleGridLineColor : "rgba(0,0,0,.05)", scaleGridLineWidth : 1, barShowStroke : true, barStrokeWidth : 2, barValueSpacing : 5, barDatasetSpacing : 1, animation : true, animationSteps : 60, animationEasing : "easeOutQuart", onAnimationComplete : null }; var config = (options) ? mergeChartConfig(chart.Bar.defaults,options) : chart.Bar.defaults; return new Bar(data,config,context); } var clear = function(c){ c.clearRect(0, 0, width, height); }; var PolarArea = function(data,config,ctx){ var maxSize, scaleHop, calculatedScale, labelHeight, scaleHeight, valueBounds, labelTemplateString; calculateDrawingSizes(); valueBounds = getValueBounds(); labelTemplateString = (config.scaleShowLabels)? config.scaleLabel : null; //Check and set the scale if (!config.scaleOverride){ calculatedScale = calculateScale(scaleHeight,valueBounds.maxSteps,valueBounds.minSteps,valueBounds.maxValue,valueBounds.minValue,labelTemplateString); } else { calculatedScale = { steps : config.scaleSteps, stepValue : config.scaleStepWidth, graphMin : config.scaleStartValue, labels : [] } populateLabels(labelTemplateString, calculatedScale.labels,calculatedScale.steps,config.scaleStartValue,config.scaleStepWidth); } scaleHop = maxSize/(calculatedScale.steps); //Wrap in an animation loop wrapper animationLoop(config,drawScale,drawAllSegments,ctx); function calculateDrawingSizes(){ maxSize = (Min([width,height])/2); //Remove whatever is larger - the font size or line width. maxSize -= Max([config.scaleFontSize*0.5,config.scaleLineWidth*0.5]); labelHeight = config.scaleFontSize*2; //If we're drawing the backdrop - add the Y padding to the label height and remove from drawing region. if (config.scaleShowLabelBackdrop){ labelHeight += (2 * config.scaleBackdropPaddingY); maxSize -= config.scaleBackdropPaddingY*1.5; } scaleHeight = maxSize; //If the label height is less than 5, set it to 5 so we don't have lines on top of each other. labelHeight = Default(labelHeight,5); } function drawScale(){ for (var i=0; i upperValue) {upperValue = data[i].value;} if (data[i].value < lowerValue) {lowerValue = data[i].value;} }; var maxSteps = Math.floor((scaleHeight / (labelHeight*0.66))); var minSteps = Math.floor((scaleHeight / labelHeight*0.5)); return { maxValue : upperValue, minValue : lowerValue, maxSteps : maxSteps, minSteps : minSteps }; } } var Radar = function (data,config,ctx) { var maxSize, scaleHop, calculatedScale, labelHeight, scaleHeight, valueBounds, labelTemplateString; //If no labels are defined set to an empty array, so referencing length for looping doesn't blow up. if (!data.labels) data.labels = []; calculateDrawingSizes(); var valueBounds = getValueBounds(); labelTemplateString = (config.scaleShowLabels)? config.scaleLabel : null; //Check and set the scale if (!config.scaleOverride){ calculatedScale = calculateScale(scaleHeight,valueBounds.maxSteps,valueBounds.minSteps,valueBounds.maxValue,valueBounds.minValue,labelTemplateString); } else { calculatedScale = { steps : config.scaleSteps, stepValue : config.scaleStepWidth, graphMin : config.scaleStartValue, labels : [] } populateLabels(labelTemplateString, calculatedScale.labels,calculatedScale.steps,config.scaleStartValue,config.scaleStepWidth); } scaleHop = maxSize/(calculatedScale.steps); animationLoop(config,drawScale,drawAllDataPoints,ctx); //Radar specific functions. function drawAllDataPoints(animationDecimal){ var rotationDegree = (2*Math.PI)/data.datasets[0].data.length; ctx.save(); //translate to the centre of the canvas. ctx.translate(width/2,height/2); //We accept multiple data sets for radar charts, so show loop through each set for (var i=0; i Math.PI){ ctx.textAlign = "right"; } else{ ctx.textAlign = "left"; } ctx.textBaseline = "middle"; ctx.fillText(data.labels[k],opposite,-adjacent); } ctx.restore(); }; function calculateDrawingSizes(){ maxSize = (Min([width,height])/2); labelHeight = config.scaleFontSize*2; var labelLength = 0; for (var i=0; ilabelLength) labelLength = textMeasurement; } //Figure out whats the largest - the height of the text or the width of what's there, and minus it from the maximum usable size. maxSize -= Max([labelLength,((config.pointLabelFontSize/2)*1.5)]); maxSize -= config.pointLabelFontSize; maxSize = CapValue(maxSize, null, 0); scaleHeight = maxSize; //If the label height is less than 5, set it to 5 so we don't have lines on top of each other. labelHeight = Default(labelHeight,5); }; function getValueBounds() { var upperValue = Number.MIN_VALUE; var lowerValue = Number.MAX_VALUE; for (var i=0; i upperValue){upperValue = data.datasets[i].data[j]} if (data.datasets[i].data[j] < lowerValue){lowerValue = data.datasets[i].data[j]} } } var maxSteps = Math.floor((scaleHeight / (labelHeight*0.66))); var minSteps = Math.floor((scaleHeight / labelHeight*0.5)); return { maxValue : upperValue, minValue : lowerValue, maxSteps : maxSteps, minSteps : minSteps }; } } var Pie = function(data,config,ctx){ var segmentTotal = 0; //In case we have a canvas that is not a square. Minus 5 pixels as padding round the edge. var pieRadius = Min([height/2,width/2]) - 5; for (var i=0; i 0){ ctx.save(); ctx.textAlign = "right"; } else{ ctx.textAlign = "center"; } ctx.fillStyle = config.scaleFontColor; for (var i=0; i 0){ ctx.translate(yAxisPosX + i*valueHop,xAxisPosY + config.scaleFontSize); ctx.rotate(-(rotateLabels * (Math.PI/180))); ctx.fillText(data.labels[i], 0,0); ctx.restore(); } else{ ctx.fillText(data.labels[i], yAxisPosX + i*valueHop,xAxisPosY + config.scaleFontSize+3); } ctx.beginPath(); ctx.moveTo(yAxisPosX + i * valueHop, xAxisPosY+3); //Check i isnt 0, so we dont go over the Y axis twice. if(config.scaleShowGridLines && i>0){ ctx.lineWidth = config.scaleGridLineWidth; ctx.strokeStyle = config.scaleGridLineColor; ctx.lineTo(yAxisPosX + i * valueHop, 5); } else{ ctx.lineTo(yAxisPosX + i * valueHop, xAxisPosY+3); } ctx.stroke(); } //Y axis ctx.lineWidth = config.scaleLineWidth; ctx.strokeStyle = config.scaleLineColor; ctx.beginPath(); ctx.moveTo(yAxisPosX,xAxisPosY+5); ctx.lineTo(yAxisPosX,5); ctx.stroke(); ctx.textAlign = "right"; ctx.textBaseline = "middle"; for (var j=0; j longestText)? measuredText : longestText; } //Add a little extra padding from the y axis longestText +=10; } xAxisLength = width - longestText - widestXLabel; valueHop = Math.floor(xAxisLength/(data.labels.length-1)); yAxisPosX = width-widestXLabel/2-xAxisLength; xAxisPosY = scaleHeight + config.scaleFontSize/2; } function calculateDrawingSizes(){ maxSize = height; //Need to check the X axis first - measure the length of each text metric, and figure out if we need to rotate by 45 degrees. ctx.font = config.scaleFontStyle + " " + config.scaleFontSize+"px " + config.scaleFontFamily; widestXLabel = 1; for (var i=0; i widestXLabel)? textLength : widestXLabel; } if (width/data.labels.length < widestXLabel){ rotateLabels = 45; if (width/data.labels.length < Math.cos(rotateLabels) * widestXLabel){ rotateLabels = 90; maxSize -= widestXLabel; } else{ maxSize -= Math.sin(rotateLabels) * widestXLabel; } } else{ maxSize -= config.scaleFontSize; } //Add a little padding between the x line and the text maxSize -= 5; labelHeight = config.scaleFontSize; maxSize -= labelHeight; //Set 5 pixels greater than the font size to allow for a little padding from the X axis. scaleHeight = maxSize; //Then get the area above we can safely draw on. } function getValueBounds() { var upperValue = Number.MIN_VALUE; var lowerValue = Number.MAX_VALUE; for (var i=0; i upperValue) { upperValue = data.datasets[i].data[j] }; if ( data.datasets[i].data[j] < lowerValue) { lowerValue = data.datasets[i].data[j] }; } }; var maxSteps = Math.floor((scaleHeight / (labelHeight*0.66))); var minSteps = Math.floor((scaleHeight / labelHeight*0.5)); return { maxValue : upperValue, minValue : lowerValue, maxSteps : maxSteps, minSteps : minSteps }; } } var Bar = function(data,config,ctx){ var maxSize, scaleHop, calculatedScale, labelHeight, scaleHeight, valueBounds, labelTemplateString, valueHop,widestXLabel, xAxisLength,yAxisPosX,xAxisPosY,barWidth, rotateLabels = 0; calculateDrawingSizes(); valueBounds = getValueBounds(); //Check and set the scale labelTemplateString = (config.scaleShowLabels)? config.scaleLabel : ""; if (!config.scaleOverride){ calculatedScale = calculateScale(scaleHeight,valueBounds.maxSteps,valueBounds.minSteps,valueBounds.maxValue,valueBounds.minValue,labelTemplateString); } else { calculatedScale = { steps : config.scaleSteps, stepValue : config.scaleStepWidth, graphMin : config.scaleStartValue, labels : [] } populateLabels(labelTemplateString, calculatedScale.labels,calculatedScale.steps,config.scaleStartValue,config.scaleStepWidth); } scaleHop = Math.floor(scaleHeight/calculatedScale.steps); calculateXAxisSize(); animationLoop(config,drawScale,drawBars,ctx); function drawBars(animPc){ ctx.lineWidth = config.barStrokeWidth; for (var i=0; i 0){ ctx.save(); ctx.textAlign = "right"; } else{ ctx.textAlign = "center"; } ctx.fillStyle = config.scaleFontColor; for (var i=0; i 0){ ctx.translate(yAxisPosX + i*valueHop,xAxisPosY + config.scaleFontSize); ctx.rotate(-(rotateLabels * (Math.PI/180))); ctx.fillText(data.labels[i], 0,0); ctx.restore(); } else{ ctx.fillText(data.labels[i], yAxisPosX + i*valueHop + valueHop/2,xAxisPosY + config.scaleFontSize+3); } ctx.beginPath(); ctx.moveTo(yAxisPosX + (i+1) * valueHop, xAxisPosY+3); //Check i isnt 0, so we dont go over the Y axis twice. ctx.lineWidth = config.scaleGridLineWidth; ctx.strokeStyle = config.scaleGridLineColor; ctx.lineTo(yAxisPosX + (i+1) * valueHop, 5); ctx.stroke(); } //Y axis ctx.lineWidth = config.scaleLineWidth; ctx.strokeStyle = config.scaleLineColor; ctx.beginPath(); ctx.moveTo(yAxisPosX,xAxisPosY+5); ctx.lineTo(yAxisPosX,5); ctx.stroke(); ctx.textAlign = "right"; ctx.textBaseline = "middle"; for (var j=0; j longestText)? measuredText : longestText; } //Add a little extra padding from the y axis longestText +=10; } xAxisLength = width - longestText - widestXLabel; valueHop = Math.floor(xAxisLength/(data.labels.length)); barWidth = (valueHop - config.scaleGridLineWidth*2 - (config.barValueSpacing*2) - (config.barDatasetSpacing*data.datasets.length-1) - ((config.barStrokeWidth/2)*data.datasets.length-1))/data.datasets.length; yAxisPosX = width-widestXLabel/2-xAxisLength; xAxisPosY = scaleHeight + config.scaleFontSize/2; } function calculateDrawingSizes(){ maxSize = height; //Need to check the X axis first - measure the length of each text metric, and figure out if we need to rotate by 45 degrees. ctx.font = config.scaleFontStyle + " " + config.scaleFontSize+"px " + config.scaleFontFamily; widestXLabel = 1; for (var i=0; i widestXLabel)? textLength : widestXLabel; } if (width/data.labels.length < widestXLabel){ rotateLabels = 45; if (width/data.labels.length < Math.cos(rotateLabels) * widestXLabel){ rotateLabels = 90; maxSize -= widestXLabel; } else{ maxSize -= Math.sin(rotateLabels) * widestXLabel; } } else{ maxSize -= config.scaleFontSize; } //Add a little padding between the x line and the text maxSize -= 5; labelHeight = config.scaleFontSize; maxSize -= labelHeight; //Set 5 pixels greater than the font size to allow for a little padding from the X axis. scaleHeight = maxSize; //Then get the area above we can safely draw on. } function getValueBounds() { var upperValue = Number.MIN_VALUE; var lowerValue = Number.MAX_VALUE; for (var i=0; i upperValue) { upperValue = data.datasets[i].data[j] }; if ( data.datasets[i].data[j] < lowerValue) { lowerValue = data.datasets[i].data[j] }; } }; var maxSteps = Math.floor((scaleHeight / (labelHeight*0.66))); var minSteps = Math.floor((scaleHeight / labelHeight*0.5)); return { maxValue : upperValue, minValue : lowerValue, maxSteps : maxSteps, minSteps : minSteps }; } } function calculateOffset(val,calculatedScale,scaleHop){ var outerValue = calculatedScale.steps * calculatedScale.stepValue; var adjustedValue = val - calculatedScale.graphMin; var scalingFactor = CapValue(adjustedValue/outerValue,1,0); return (scaleHop*calculatedScale.steps) * scalingFactor; } function animationLoop(config,drawScale,drawData,ctx){ var animFrameAmount = (config.animation)? 1/CapValue(config.animationSteps,Number.MAX_VALUE,1) : 1, easingFunction = animationOptions[config.animationEasing], percentAnimComplete =(config.animation)? 0 : 1; if (typeof drawScale !== "function") drawScale = function(){}; requestAnimFrame(animLoop); function animateFrame(){ var easeAdjustedAnimationPercent =(config.animation)? CapValue(easingFunction(percentAnimComplete),null,0) : 1; clear(ctx); if(config.scaleOverlay){ drawData(easeAdjustedAnimationPercent); drawScale(); } else { drawScale(); drawData(easeAdjustedAnimationPercent); } } function animLoop(){ //We need to check if the animation is incomplete (less than 1), or complete (1). percentAnimComplete += animFrameAmount; animateFrame(); //Stop the loop continuing forever if (percentAnimComplete <= 1){ requestAnimFrame(animLoop); } else{ if (typeof config.onAnimationComplete == "function") config.onAnimationComplete(); } } } //Declare global functions to be called within this namespace here. // shim layer with setTimeout fallback var requestAnimFrame = (function(){ return window.requestAnimationFrame || window.webkitRequestAnimationFrame || window.mozRequestAnimationFrame || window.oRequestAnimationFrame || window.msRequestAnimationFrame || function(callback) { window.setTimeout(callback, 1000 / 60); }; })(); function calculateScale(drawingHeight,maxSteps,minSteps,maxValue,minValue,labelTemplateString){ var graphMin,graphMax,graphRange,stepValue,numberOfSteps,valueRange,rangeOrderOfMagnitude,decimalNum; valueRange = maxValue - minValue; rangeOrderOfMagnitude = calculateOrderOfMagnitude(valueRange); graphMin = Math.floor(minValue / (1 * Math.pow(10, rangeOrderOfMagnitude))) * Math.pow(10, rangeOrderOfMagnitude); graphMax = Math.ceil(maxValue / (1 * Math.pow(10, rangeOrderOfMagnitude))) * Math.pow(10, rangeOrderOfMagnitude); graphRange = graphMax - graphMin; stepValue = Math.pow(10, rangeOrderOfMagnitude); numberOfSteps = Math.round(graphRange / stepValue); //Compare number of steps to the max and min for that size graph, and add in half steps if need be. while(numberOfSteps < minSteps || numberOfSteps > maxSteps) { if (numberOfSteps < minSteps){ stepValue /= 2; numberOfSteps = Math.round(graphRange/stepValue); } else{ stepValue *=2; numberOfSteps = Math.round(graphRange/stepValue); } }; var labels = []; populateLabels(labelTemplateString, labels, numberOfSteps, graphMin, stepValue); return { steps : numberOfSteps, stepValue : stepValue, graphMin : graphMin, labels : labels } function calculateOrderOfMagnitude(val){ return Math.floor(Math.log(val) / Math.LN10); } } //Populate an array of all the labels by interpolating the string. function populateLabels(labelTemplateString, labels, numberOfSteps, graphMin, stepValue) { if (labelTemplateString) { //Fix floating point errors by setting to fixed the on the same decimal as the stepValue. for (var i = 1; i < numberOfSteps + 1; i++) { labels.push(tmpl(labelTemplateString, {value: (graphMin + (stepValue * i)).toFixed(getDecimalPlaces(stepValue))})); } } } //Max value from array function Max( array ){ return Math.max.apply( Math, array ); }; //Min value from array function Min( array ){ return Math.min.apply( Math, array ); }; //Default if undefined function Default(userDeclared,valueIfFalse){ if(!userDeclared){ return valueIfFalse; } else { return userDeclared; } }; //Is a number function function isNumber(n) { return !isNaN(parseFloat(n)) && isFinite(n); } //Apply cap a value at a high or low number function CapValue(valueToCap, maxValue, minValue){ if(isNumber(maxValue)) { if( valueToCap > maxValue ) { return maxValue; } } if(isNumber(minValue)){ if ( valueToCap < minValue ){ return minValue; } } return valueToCap; } function getDecimalPlaces (num){ var numberOfDecimalPlaces; if (num%1!=0){ return num.toString().split(".")[1].length } else{ return 0; } } function mergeChartConfig(defaults,userDefined){ var returnObj = {}; for (var attrname in defaults) { returnObj[attrname] = defaults[attrname]; } for (var attrname in userDefined) { returnObj[attrname] = userDefined[attrname]; } return returnObj; } //Javascript micro templating by John Resig - source at http://ejohn.org/blog/javascript-micro-templating/ var cache = {}; function tmpl(str, data){ // Figure out if we're getting a template, or if we need to // load the template - and be sure to cache the result. var fn = !/\W/.test(str) ? cache[str] = cache[str] || tmpl(document.getElementById(str).innerHTML) : // Generate a reusable function that will serve as a template // generator (and which will be cached). new Function("obj", "var p=[],print=function(){p.push.apply(p,arguments);};" + // Introduce the data as local variables using with(){} "with(obj){p.push('" + // Convert the template into pure JavaScript str .replace(/[\r\t\n]/g, " ") .split("<%").join("\t") .replace(/((^|%>)[^\t]*)'/g, "$1\r") .replace(/\t=(.*?)%>/g, "',$1,'") .split("\t").join("');") .split("%>").join("p.push('") .split("\r").join("\\'") + "');}return p.join('');"); // Provide some basic currying to the user return data ? fn( data ) : fn; }; }