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/** * o-------------------------------------------------------------------------------o * | This file is part of the RGraph package. RGraph is Free software, licensed | * | under the MIT license - so it's free to use for all purposes. Extended | * | support is available if required and donations are always welcome! You can | * | read more here: | * | http://www.rgraph.net/support | * o-------------------------------------------------------------------------------o */ if (typeof(RGraph) == 'undefined') RGraph = {}; /** * The bi-polar/age frequency constructor. * * @param string id The id of the canvas * @param array left The left set of data points * @param array right The right set of data points * * REMEMBER If ymin is implemented you need to update the .getValue() method */ RGraph.Bipolar = function (id, left, right) { // Get the canvas and context objects this.id = id; this.canvas = document.getElementById(typeof id === 'object' ? id.id : id); this.context = this.canvas.getContext('2d'); this.canvas.__object__ = this; this.type = 'bipolar'; this.coords = []; this.coordsLeft = []; this.coordsRight = []; this.max = 0; this.isRGraph = true; this.uid = RGraph.CreateUID(); this.canvas.uid = this.canvas.uid ? this.canvas.uid : RGraph.CreateUID(); this.coordsText = []; /** * Compatibility with older browsers */ RGraph.OldBrowserCompat(this.context); // The left and right data respectively this.left = left; this.right = right; this.data = [left, right]; this.properties = { 'chart.margin': 2, 'chart.xtickinterval': null, 'chart.labels': [], 'chart.labels.above': false, 'chart.text.size': 10, 'chart.text.color': 'black', // (Simple) gradients are not supported 'chart.text.font': 'Arial', 'chart.title.left': '', 'chart.title.right': '', 'chart.gutter.center': 60, 'chart.gutter.left': 25, 'chart.gutter.right': 25, 'chart.gutter.top': 25, 'chart.gutter.bottom': 25, 'chart.title': '', 'chart.title.background': null, 'chart.title.hpos': null, 'chart.title.vpos': null, 'chart.title.bold': true, 'chart.title.font': null, 'chart.title.x': null, 'chart.title.y': null, 'chart.title.halign': null, 'chart.title.valign': null, 'chart.colors': ['#0f0'], 'chart.contextmenu': null, 'chart.tooltips': null, 'chart.tooltips.effect': 'fade', 'chart.tooltips.css.class': 'RGraph_tooltip', 'chart.tooltips.highlight': true, 'chart.tooltips.event': 'onclick', 'chart.highlight.stroke': 'rgba(0,0,0,0)', 'chart.highlight.fill': 'rgba(255,255,255,0.7)', 'chart.units.pre': '', 'chart.units.post': '', 'chart.shadow': false, 'chart.shadow.color': '#666', 'chart.shadow.offsetx': 3, 'chart.shadow.offsety': 3, 'chart.shadow.blur': 3, 'chart.annotatable': false, 'chart.annotate.color': 'black', 'chart.xmax': null, 'chart.xmin': 0, 'chart.scale.decimals': null, 'chart.scale.point': '.', 'chart.scale.thousand': ',', 'chart.axis.color': 'black', 'chart.zoom.factor': 1.5, 'chart.zoom.fade.in': true, 'chart.zoom.fade.out': true, 'chart.zoom.hdir': 'right', 'chart.zoom.vdir': 'down', 'chart.zoom.frames': 25, 'chart.zoom.delay': 16.666, 'chart.zoom.shadow': true, 'chart.zoom.background': true, 'chart.zoom.action': 'zoom', 'chart.resizable': false, 'chart.resize.handle.background': null, 'chart.strokestyle': 'rgba(0,0,0,0)', 'chart.events.mousemove': null, 'chart.events.click': null, 'chart.linewidth': 1, 'chart.noaxes': false, 'chart.xlabels': true, 'chart.numyticks': null, 'chart.numxticks': 5, 'chart.axis.linewidth': 1, 'chart.labels.count': 5 } // Pad the arrays so they're the same size while (this.left.length < this.right.length) this.left.push(0); while (this.left.length > this.right.length) this.right.push(0); /** * Set the default for the number of Y tickmarks */ this.properties['chart.numyticks'] = this.left.length; /** * Create the dollar objects so that functions can be added to them */ var linear_data = RGraph.array_linearize(this.left, this.right); for (var i=0; i<linear_data.length; ++i) { this['$' + i] = {}; } /** * Translate half a pixel for antialiasing purposes - but only if it hasn't beeen * done already */ if (!this.canvas.__rgraph_aa_translated__) { this.context.translate(0.5,0.5); this.canvas.__rgraph_aa_translated__ = true; } ///////////////////////////////// SHORT PROPERTIES ///////////////////////////////// var RG = RGraph; var ca = this.canvas; var co = ca.getContext('2d'); var prop = this.properties; //var $jq = jQuery; //////////////////////////////////// METHODS /////////////////////////////////////// /** * The setter * * @param name string The name of the parameter to set * @param value mixed The value of the paraneter */ this.Set = function (name, value) { name = name.toLowerCase(); /** * This should be done first - prepend the propertyy name with "chart." if necessary */ if (name.substr(0,6) != 'chart.') { name = 'chart.' + name; } prop[name] = value; return this; } /** * The getter * * @param name string The name of the parameter to get */ this.Get = function (name) { /** * This should be done first - prepend the property name with "chart." if necessary */ if (name.substr(0,6) != 'chart.') { name = 'chart.' + name; } return this.properties[name.toLowerCase()]; } /** * Draws the graph */ this.Draw = function () { /** * Fire the onbeforedraw event */ RG.FireCustomEvent(this, 'onbeforedraw'); /** * Parse the colors. This allows for simple gradient syntax */ if (!this.colorsParsed) { this.parseColors(); // Don't want to do this again this.colorsParsed = true; } /** * This is new in May 2011 and facilitates indiviual gutter settings, * eg chart.gutter.left */ this.gutterLeft = prop['chart.gutter.left']; this.gutterRight = prop['chart.gutter.right']; this.gutterTop = prop['chart.gutter.top']; this.gutterBottom = prop['chart.gutter.bottom']; // Reset the data to what was initially supplied this.left = this.data[0]; this.right = this.data[1]; // Sequential color index this.sequentialColorIndex = 0; /** * Reset the coords array */ this.coords = []; this.GetMax(); this.DrawAxes(); this.DrawTicks(); this.DrawLeftBars(); this.DrawRightBars(); // Redraw the bars so that shadows on not on top this.RedrawBars(); this.DrawAxes(); this.DrawLabels(); this.DrawTitles(); /** * Setup the context menu if required */ if (prop['chart.contextmenu']) { RG.ShowContext(this); } /** * This function enables resizing */ if (prop['chart.resizable']) { RG.AllowResizing(this); } /** * This installs the event listeners */ RG.InstallEventListeners(this); /** * Fire the RGraph ondraw event */ RG.FireCustomEvent(this, 'ondraw'); return this; } /** * Draws the axes */ this.DrawAxes = function () { // Set the linewidth co.lineWidth = prop['chart.axis.linewidth'] + 0.001; // Draw the left set of axes co.beginPath(); co.strokeStyle = prop['chart.axis.color']; this.axisWidth = (ca.width - prop['chart.gutter.center'] - this.gutterLeft - this.gutterRight) / 2; this.axisHeight = ca.height - this.gutterTop - this.gutterBottom; // This must be here so that the two above variables are calculated if (prop['chart.noaxes']) { return; } co.moveTo(this.gutterLeft, Math.round( ca.height - this.gutterBottom)); co.lineTo(this.gutterLeft + this.axisWidth, Math.round( ca.height - this.gutterBottom)); co.moveTo(Math.round( this.gutterLeft + this.axisWidth), ca.height - this.gutterBottom); co.lineTo(Math.round( this.gutterLeft + this.axisWidth), this.gutterTop); co.stroke(); // Draw the right set of axes co.beginPath(); var x = this.gutterLeft + this.axisWidth + prop['chart.gutter.center']; co.moveTo(Math.round( x), this.gutterTop); co.lineTo(Math.round( x), ca.height - this.gutterBottom); co.moveTo(Math.round( x), Math.round( ca.height - this.gutterBottom)); co.lineTo(ca.width - this.gutterRight, Math.round( ca.height - this.gutterBottom)); co.stroke(); } /** * Draws the tick marks on the axes */ this.DrawTicks = function () { // Set the linewidth co.lineWidth = prop['chart.axis.linewidth'] + 0.001; var numDataPoints = this.left.length; var barHeight = ( (ca.height - this.gutterTop - this.gutterBottom)- (this.left.length * (prop['chart.margin'] * 2) )) / numDataPoints; // Store this for later this.barHeight = barHeight; // If no axes - no tickmarks if (prop['chart.noaxes']) { return; } // Draw the left Y tick marks if (prop['chart.numyticks'] > 0) { co.beginPath(); for (var i=0; i<prop['chart.numyticks']; ++i) { var y = prop['chart.gutter.top'] + (((ca.height - this.gutterTop - this.gutterBottom) / prop['chart.numyticks']) * i); co.moveTo(this.gutterLeft + this.axisWidth , y); co.lineTo(this.gutterLeft + this.axisWidth + 3, y); } co.stroke(); //Draw the right axis Y tick marks co.beginPath(); for (var i=0; i<prop['chart.numyticks']; ++i) { var y = prop['chart.gutter.top'] + (((ca.height - this.gutterTop - this.gutterBottom) / prop['chart.numyticks']) * i); co.moveTo(this.gutterLeft + this.axisWidth + prop['chart.gutter.center'], y); co.lineTo(this.gutterLeft + this.axisWidth + prop['chart.gutter.center'] - 3, y); } co.stroke(); } /** * X tickmarks */ if (prop['chart.numxticks'] > 0) { var xInterval = this.axisWidth / prop['chart.numxticks']; // Is chart.xtickinterval specified ? If so, use that. if (typeof(prop['chart.xtickinterval']) == 'number') { xInterval = prop['chart.xtickinterval']; } // Draw the left sides X tick marks for (i=this.gutterLeft; i<(this.gutterLeft + this.axisWidth); i+=xInterval) { co.beginPath(); co.moveTo(Math.round( i), ca.height - this.gutterBottom); co.lineTo(Math.round( i), (ca.height - this.gutterBottom) + 4); co.closePath(); co.stroke(); } // Draw the right sides X tick marks var stoppingPoint = ca.width - this.gutterRight; for (i=(this.gutterLeft + this.axisWidth + prop['chart.gutter.center'] + xInterval); i<=stoppingPoint; i+=xInterval) { co.beginPath(); co.moveTo(Math.round(i), ca.height - this.gutterBottom); co.lineTo(Math.round(i), (ca.height - this.gutterBottom) + 4); co.closePath(); co.stroke(); } } } /** * Figures out the maximum value, or if defined, uses xmax */ this.GetMax = function() { var dec = prop['chart.scale.decimals']; // chart.xmax defined if (prop['chart.xmax']) { var max = prop['chart.xmax']; var min = prop['chart.xmin']; this.scale2 = RG.getScale2(this, { 'max':max, 'min':min, 'strict': true, 'scale.thousand':prop['chart.scale.thousand'], 'scale.point':prop['chart.scale.point'], 'scale.decimals':prop['chart.scale.decimals'], 'ylabels.count':prop['chart.labels.count'], 'scale.round':prop['chart.scale.round'], 'units.pre': prop['chart.units.pre'], 'units.post': prop['chart.units.post'] }); this.max = this.scale2.max; this.min = this.scale2.min; /** * Generate the scale ourselves */ } else { var max = Math.max(RG.array_max(this.left), RG.array_max(this.right)); this.scale2 = RG.getScale2(this, { 'max':max, //'strict': true, 'min':prop['chart.xmin'], 'scale.thousand':prop['chart.scale.thousand'], 'scale.point':prop['chart.scale.point'], 'scale.decimals':prop['chart.scale.decimals'], 'ylabels.count':prop['chart.labels.count'], 'scale.round':prop['chart.scale.round'], 'units.pre': prop['chart.units.pre'], 'units.post': prop['chart.units.post'] }); this.max = this.scale2.max; this.min = this.scale2.min; } // Don't need to return it as it is stored in this.max } /** * Function to draw the left hand bars */ this.DrawLeftBars = function () { // Set the stroke colour co.strokeStyle = prop['chart.strokestyle']; // Set the linewidth co.lineWidth = prop['chart.linewidth']; for (i=0; i<this.left.length; ++i) { /** * Turn on a shadow if requested */ if (prop['chart.shadow']) { co.shadowColor = prop['chart.shadow.color']; co.shadowBlur = prop['chart.shadow.blur']; co.shadowOffsetX = prop['chart.shadow.offsetx']; co.shadowOffsetY = prop['chart.shadow.offsety']; } co.beginPath(); // If chart.colors.sequential is specified - handle that if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][this.sequentialColorIndex]; this.sequentialColorIndex++; } else { co.fillStyle = prop['chart.colors'][0]; } /** * Work out the coordinates */ var width = (( (this.left[i] - this.min) / (this.max - this.min)) * this.axisWidth); var coords = [Math.round( this.gutterLeft + this.axisWidth - width), Math.round( this.gutterTop + (i * ( this.axisHeight / this.left.length)) + prop['chart.margin']), width, this.barHeight]; // Draw the IE shadow if necessary if (ISOLD && prop['chart.shadow']) { this.DrawIEShadow(coords); } if (this.left[i]) { co.strokeRect(coords[0], coords[1], coords[2], coords[3]); co.fillRect(coords[0], coords[1], coords[2], coords[3]); } co.stroke(); co.fill(); /** * Add the coordinates to the coords array */ this.coords.push([coords[0],coords[1],coords[2],coords[3]]); this.coordsLeft.push([coords[0],coords[1],coords[2],coords[3]]); } /** * Turn off any shadow */ RG.NoShadow(this); // Reset the linewidth co.lineWidth = 1; } /** * Function to draw the right hand bars */ this.DrawRightBars = function () { // Set the stroke colour co.strokeStyle = prop['chart.strokestyle']; // Set the linewidth co.lineWidth = prop['chart.linewidth']; /** * Turn on a shadow if requested */ if (prop['chart.shadow']) { co.shadowColor = prop['chart.shadow.color']; co.shadowBlur = prop['chart.shadow.blur']; co.shadowOffsetX = prop['chart.shadow.offsetx']; co.shadowOffsetY = prop['chart.shadow.offsety']; } for (var i=0; i<this.right.length; ++i) { co.beginPath(); // If chart.colors.sequential is specified - handle that if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][this.sequentialColorIndex++]; } else { co.fillStyle = prop['chart.colors'][0]; } var width = (((this.right[i] - this.min) / (this.max - this.min)) * this.axisWidth); var coords = [ Math.round( this.gutterLeft + this.axisWidth + prop['chart.gutter.center']), Math.round( prop['chart.margin'] + (i * (this.axisHeight / this.right.length)) + this.gutterTop), width, this.barHeight ]; // Draw the IE shadow if necessary if (ISOLD && prop['chart.shadow']) { this.DrawIEShadow(coords); } if (this.right[i]) { co.strokeRect(Math.round( coords[0]), Math.round( coords[1]), coords[2], coords[3]); co.fillRect(Math.round( coords[0]), Math.round( coords[1]), coords[2], coords[3]); } co.closePath(); /** * Add the coordinates to the coords array */ this.coords.push([coords[0],coords[1],coords[2],coords[3]]); this.coordsRight.push([coords[0],coords[1],coords[2],coords[3]]); } co.stroke(); /** * Turn off any shadow */ RG.NoShadow(this); // Reset the linewidth co.lineWidth = 1; } /** * Draws the titles */ this.DrawLabels = function () { co.fillStyle = prop['chart.text.color']; //var labelPoints = new Array(); var font = prop['chart.text.font']; var size = prop['chart.text.size']; var labels = prop['chart.labels']; var barAreaHeight = ca.height - this.gutterTop - this.gutterBottom; for (var i=0,len=labels.length; i<len; i+=1) { RG.Text2(this, {'font':font, 'size':size, 'x':this.gutterLeft + this.axisWidth + (prop['chart.gutter.center'] / 2), 'y':this.gutterTop + ((barAreaHeight / labels.length) * (i)) + ((barAreaHeight / labels.length) / 2), 'text':String(labels[i] ? String(labels[i]) : ''), 'halign':'center', 'valign':'center', 'marker':false, 'tag': 'labels' }); } /* * OLD STYLE LABELS * var max = Math.max(this.left.length, this.right.length); for (i=0; i<max; ++i) { var barAreaHeight = ca.height - this.gutterTop - this.gutterBottom; var barHeight = barAreaHeight / this.left.length; var yPos = (i * barAreaHeight) + this.gutterTop; labelPoints.push(this.gutterTop + (i * barHeight) + (barHeight / 2) + 5); } for (i=0; i<labelPoints.length; ++i) { RG.Text2(this, {'font':prop['chart.text.font'], 'size':prop['chart.text.size'], 'x':this.gutterLeft + this.axisWidth + (prop['chart.gutter.center'] / 2), 'y':labelPoints[i], 'text':String(prop['chart.labels'][i] ? prop['chart.labels'][i] : ''), 'halign':'center', 'tag': 'labels' }); } */ if (prop['chart.xlabels']) { var grapharea = (ca.width - prop['chart.gutter.center'] - this.gutterLeft - this.gutterRight) / 2; // Now draw the X labels for the left hand side for (var i=0; i<this.scale2.labels.length; ++i) { RG.Text2(this, {'font':font, 'size':size, 'x':this.gutterLeft + ((grapharea / this.scale2.labels.length) * i), 'y':ca.height - this.gutterBottom + 3, 'text':this.scale2.labels[this.scale2.labels.length - i - 1], 'valign':'top', 'halign':'center', 'tag': 'scale' }); // Draw the scale for the right hand side RG.Text2(this, {'font':font, 'size':size, 'x':this.gutterLeft+ grapharea + prop['chart.gutter.center'] + ((grapharea / this.scale2.labels.length) * (i + 1)), 'y':ca.height - this.gutterBottom + 3, 'text':this.scale2.labels[i], 'valign':'top', 'halign':'center', 'tag': 'scale' }); } } /** * Draw above labels */ if (prop['chart.labels.above']) { // Draw the left sides above labels for (var i=0; i<this.coordsLeft.length; ++i) { if (typeof(this.left[i]) != 'number') { continue; } var coords = this.coordsLeft[i]; RG.Text2(this, {'font':font, 'size':size, 'x':coords[0] - 5, 'y':coords[1] + (coords[3] / 2), 'text':RG.number_format(this, this.left[i], prop['chart.units.pre'], prop['chart.units.post']), 'valign':'center', 'halign':'right', 'tag':'labels.above' }); } // Draw the right sides above labels for (i=0; i<this.coordsRight.length; ++i) { if (typeof(this.right[i]) != 'number') { continue; } var coords = this.coordsRight[i]; RG.Text2(this, {'font':font, 'size':size, 'x':coords[0] + coords[2] + 5, 'y':coords[1] + (coords[3] / 2), 'text':RG.number_format(this, this.right[i], prop['chart.units.pre'], prop['chart.units.post']), 'valign':'center', 'halign':'left', 'tag': 'labels.above' }); } } } /** * Draws the titles */ this.DrawTitles = function () { RG.Text2(this, {'font':prop['chart.text.font'], 'size':prop['chart.text.size'], 'x':this.gutterLeft + 5, 'y':this.gutterTop - 5, 'text':String(prop['chart.title.left']), 'halign':'left', 'valign':'bottom', 'tag': 'title.left' }); RG.Text2(this, {'font':prop['chart.text.font'], 'size':prop['chart.text.size'], 'x': ca.width - this.gutterRight - 5, 'y':this.gutterTop - 5, 'text':String(prop['chart.title.right']), 'halign':'right', 'valign':'bottom', 'tag': 'title.right' }); // Draw the main title for the whole chart RG.DrawTitle(this, prop['chart.title'], this.gutterTop, null, prop['chart.title.size'] ? prop['chart.title.size'] : null); } /** * This function is used by MSIE only to manually draw the shadow * * @param array coords The coords for the bar */ this.DrawIEShadow = function (coords) { var prevFillStyle = co.fillStyle; var offsetx = prop['chart.shadow.offsetx']; var offsety = prop['chart.shadow.offsety']; co.lineWidth = prop['chart.linewidth']; co.fillStyle = prop['chart.shadow.color']; co.beginPath(); // Draw shadow here co.fillRect(coords[0] + offsetx, coords[1] + offsety, coords[2],coords[3]); co.fill(); // Change the fillstyle back to what it was co.fillStyle = prevFillStyle; } /** * Returns the appropriate focussed bar coordinates * * @param e object The event object */ this.getShape = this.getBar = function (e) { var canvas = this.canvas; var context = this.context; var mouseCoords = RG.getMouseXY(e); /** * Loop through the bars determining if the mouse is over a bar */ for (var i=0; i<this.coords.length; i++) { var mouseX = mouseCoords[0]; var mouseY = mouseCoords[1]; var left = this.coords[i][0]; var top = this.coords[i][1]; var width = this.coords[i][2]; var height = this.coords[i][3]; if (mouseX >= left && mouseX <= (left + width) && mouseY >= top && mouseY <= (top + height) ) { var tooltip = RG.parseTooltipText(prop['chart.tooltips'], i); return { 0: this,1: left,2: top,3: width,4: height,5: i, 'object': this, 'x': left, 'y': top, 'width': width, 'height': height, 'index': i, 'tooltip': tooltip }; } } return null; } /** * Each object type has its own Highlight() function which highlights the appropriate shape * * @param object shape The shape to highlight */ this.Highlight = function (shape) { // Add the new highlight RG.Highlight.Rect(this, shape); } /** * When you click on the canvas, this will return the relevant value (if any) * * REMEMBER This function will need updating if the Bipolar ever gets chart.ymin * * @param object e The event object */ this.getValue = function (e) { var obj = e.target.__object__; var mouseXY = RG.getMouseXY(e); var mouseX = mouseXY[0]; /** * Left hand side */ if (mouseX > this.gutterLeft && mouseX < ( (ca.width / 2) - (prop['chart.gutter.center'] / 2) )) { var value = (mouseX - prop['chart.gutter.left']) / this.axisWidth; value = this.max - (value * this.max); } /** * Right hand side */ if (mouseX < (ca.width - this.gutterRight) && mouseX > ( (ca.width / 2) + (prop['chart.gutter.center'] / 2) )) { var value = (mouseX - prop['chart.gutter.left'] - this.axisWidth - prop['chart.gutter.center']) / this.axisWidth; value = (value * this.max); } return value; } /** * The getObjectByXY() worker method. Don't call this call: * * RGraph.ObjectRegistry.getObjectByXY(e) * * @param object e The event object */ this.getObjectByXY = function (e) { var mouseXY = RG.getMouseXY(e); if ( mouseXY[0] > prop['chart.gutter.left'] && mouseXY[0] < (ca.width - prop['chart.gutter.right']) && mouseXY[1] > prop['chart.gutter.top'] && mouseXY[1] < (ca.height - prop['chart.gutter.bottom']) ) { return this; } } /** * This function positions a tooltip when it is displayed * * @param obj object The chart object * @param int x The X coordinate specified for the tooltip * @param int y The Y coordinate specified for the tooltip * @param objec tooltip The tooltips DIV element */ this.positionTooltip = function (obj, x, y, tooltip, idx) { var coordX = obj.coords[tooltip.__index__][0]; var coordY = obj.coords[tooltip.__index__][1]; var coordW = obj.coords[tooltip.__index__][2]; var coordH = obj.coords[tooltip.__index__][3]; var canvasXY = RG.getCanvasXY(obj.canvas); var gutterLeft = obj.Get('chart.gutter.left'); var gutterTop = obj.Get('chart.gutter.top'); var width = tooltip.offsetWidth; var height = tooltip.offsetHeight; // Set the top position tooltip.style.left = 0; tooltip.style.top = canvasXY[1] + coordY - height - 7 + 'px'; // By default any overflow is hidden tooltip.style.overflow = ''; // The arrow var img = new Image(); img.src = 'data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABEAAAAFCAYAAACjKgd3AAAARUlEQVQYV2NkQAN79+797+RkhC4M5+/bd47B2dmZEVkBCgcmgcsgbAaA9GA1BCSBbhAuA/AagmwQPgMIGgIzCD0M0AMMAEFVIAa6UQgcAAAAAElFTkSuQmCC'; img.style.position = 'absolute'; img.id = '__rgraph_tooltip_pointer__'; img.style.top = (tooltip.offsetHeight - 2) + 'px'; tooltip.appendChild(img); // Reposition the tooltip if at the edges: // LEFT edge if ((canvasXY[0] + coordX + (coordW / 2)- (width / 2)) < 0) { tooltip.style.left = (canvasXY[0] + coordX - (width * 0.1)) + (coordW / 2) + 'px'; img.style.left = ((width * 0.1) - 8.5) + 'px'; // RIGHT edge } else if ((canvasXY[0] + coordX + width) > document.body.offsetWidth) { tooltip.style.left = canvasXY[0] + coordX - (width * 0.9) + (coordW / 2) + 'px'; img.style.left = ((width * 0.9) - 8.5) + 'px'; // Default positioning - CENTERED } else { tooltip.style.left = (canvasXY[0] + coordX + (coordW / 2) - (width * 0.5)) + 'px'; img.style.left = ((width * 0.5) - 8.5) + 'px'; } } /** * Redraw the bar so that the shadow is NOT on top */ this.RedrawBars = function () { var coords = this.coords; var len = coords.length; // Reset the sequentail color index this.sequentialColorIndex = 0; co.beginPath(); // Turn off shadow RG.NoShadow(this); // Set the stroke color co.strokeStyle = prop['chart.strokestyle']; // Set the linewidth co.lineWidth = prop['chart.linewidth']; for (var i=0; i<len; ++i) { // No redrawing occurs if there is no value if (coords[i][2] > 0) { if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][this.sequentialColorIndex++]; } else { co.fillStyle = prop['chart.colors'][0]; } // Draw the bar itself co.strokeRect(coords[i][0], coords[i][1], coords[i][2], coords[i][3]); co.fillRect(coords[i][0], coords[i][1], coords[i][2], coords[i][3]); } else { // Even if there's no redrawing - the color index needs incrementing this.sequentialColorIndex++ } } co.stroke(); co.fill(); } /** * Returns the X coords for a value. Returns two coords because there are... two scales. * * @param number value The value to get the coord for */ this.getXCoord = function (value) { if (value > this.max || value < 0) { return null; } var ret = []; // The offset into the graph area var offset = ((value / this.max) * this.axisWidth); // Get the coords (one fo each side) ret[0] = (this.gutterLeft + this.axisWidth) - offset; ret[1] = (ca.width - this.gutterRight - this.axisWidth) + offset; return ret; } /** * This allows for easy specification of gradients */ this.parseColors = function () { var props = this.properties; var colors = props['chart.colors']; for (var i=0; i<colors.length; ++i) { colors[i] = this.parseSingleColorForGradient(colors[i]); } props['chart.highlight.stroke'] = this.parseSingleColorForGradient(props['chart.highlight.stroke']); props['chart.highlight.fill'] = this.parseSingleColorForGradient(props['chart.highlight.fill']); props['chart.axis.color'] = this.parseSingleColorForGradient(props['chart.axis.color']); props['chart.strokestyle'] = this.parseSingleColorForGradient(props['chart.strokestyle']); } /** * This parses a single color value */ this.parseSingleColorForGradient = function (color) { if (!color || typeof(color) != 'string') { return color; } if (color.match(/^gradient\((.*)\)$/i)) { var parts = RegExp.$1.split(':'); // Create the gradient var grad = co.createLinearGradient(prop['chart.gutter.left'],0,ca.width - prop['chart.gutter.right'],0); var diff = 1 / (parts.length - 1); grad.addColorStop(0, RG.trim(parts[0])); for (var j=1; j<parts.length; ++j) { grad.addColorStop(j * diff, RG.trim(parts[j])); } } return grad ? grad : color; } /** * Objects are now always registered so that when RGraph.Redraw() * is called this chart will be redrawn. */ RG.Register(this); }