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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 rose chart constuctor * * @param object canvas * @param array data */ RGraph.Rose = function (id, data) { this.id = id; this.canvas = document.getElementById(typeof id === 'object' ? id.id : id); this.context = this.canvas.getContext('2d'); this.data = data; this.canvas.__object__ = this; this.type = 'rose'; this.isRGraph = true; this.uid = RGraph.CreateUID(); this.canvas.uid = this.canvas.uid ? this.canvas.uid : RGraph.CreateUID(); this.colorsParsed = false; this.coordsText = []; this.original_colors = []; /** * Compatibility with older browsers */ RGraph.OldBrowserCompat(this.context); this.centerx = 0; this.centery = 0; this.radius = 0; this.max = 0; this.angles = []; this.angles2 = []; this.properties = { 'chart.background.axes': true, 'chart.background.axes.color': 'black', 'chart.background.grid': true, 'chart.background.grid.color': '#ccc', 'chart.background.grid.size': null, 'chart.background.grid.spokes': null, 'chart.background.grid.count': 5, 'chart.centerx': null, 'chart.centery': null, 'chart.radius': null, 'chart.angles.start': 0, 'chart.colors': ['rgba(255,0,0,0.5)', 'rgba(255,255,0,0.5)', 'rgba(0,255,255,0.5)', 'rgb(0,255,0)', 'gray', 'blue', 'rgb(255,128,255)','green', 'pink', 'gray', 'aqua'], 'chart.colors.sequential': false, 'chart.colors.alpha': null, 'chart.margin': 0, 'chart.strokestyle': '#aaa', '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.labels': null, 'chart.labels.position': 'center', 'chart.labels.axes': 'nsew', 'chart.labels.offset': 0, 'chart.text.color': 'black', 'chart.text.font': 'Arial', 'chart.text.size': 10, 'chart.key': null, 'chart.key.background': 'white', 'chart.key.position': 'graph', 'chart.key.halign': 'right', 'chart.key.shadow': false, 'chart.key.shadow.color': '#666', 'chart.key.shadow.blur': 3, 'chart.key.shadow.offsetx': 2, 'chart.key.shadow.offsety': 2, 'chart.key.position.gutter.boxed': false, 'chart.key.position.x': null, 'chart.key.position.y': null, 'chart.key.color.shape': 'square', 'chart.key.rounded': true, 'chart.key.linewidth': 1, 'chart.key.colors': null, 'chart.key.interactive': false, 'chart.key.interactive.highlight.chart.stroke': 'black', 'chart.key.interactive.highlight.chart.fill': 'rgba(255,255,255,0.7)', 'chart.key.interactive.highlight.label': 'rgba(255,0,0,0.2)', 'chart.key.text.color': 'black', 'chart.contextmenu': null, 'chart.tooltips': null, 'chart.tooltips.event': 'onclick', 'chart.tooltips.effect': 'fade', 'chart.tooltips.css.class': 'RGraph_tooltip', 'chart.tooltips.highlight': true, 'chart.highlight.stroke': 'rgba(0,0,0,0)', 'chart.highlight.fill': 'rgba(255,255,255,0.7)', 'chart.annotatable': false, 'chart.annotate.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.adjust': [0,0], 'chart.resize.handle.background': null, 'chart.adjustable': false, 'chart.ymax': null, 'chart.ymin': 0, 'chart.scale.decimals': null, 'chart.scale.point': '.', 'chart.scale.thousand': ',', 'chart.variant': 'stacked', 'chart.exploded': 0, 'chart.events.mousemove': null, 'chart.events.click': null, 'chart.animation.roundrobin.factor': 1, 'chart.animation.roundrobin.radius': true, 'chart.animation.grow.multiplier': 1, 'chart.labels.count': 5 } /** * Create the $ objects. In the case of non-equi-angular rose charts it actually creates too many $ objects, * but it doesn't matter. */ var linear_data = RGraph.array_linearize(this.data); 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 /////////////////////////////////////// /** * A simple setter * * @param string name The name of the property to set * @param string value The value of the property */ this.Set = function (name, value) { /** * This should be done first - prepend the propertyy name with "chart." if necessary */ if (name.substr(0,6) != 'chart.') { name = 'chart.' + name; } prop[name.toLowerCase()] = value; return this; } /** * A simple getter * * @param string name The name of the property 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 prop[name.toLowerCase()]; } /** * This method draws the rose chart */ this.Draw = function () { /** * Fire the onbeforedraw event */ RG.FireCustomEvent(this, 'onbeforedraw'); /** * This doesn't affect the chart, but is used for compatibility */ this.gutterLeft = prop['chart.gutter.left']; this.gutterRight = prop['chart.gutter.right']; this.gutterTop = prop['chart.gutter.top']; this.gutterBottom = prop['chart.gutter.bottom']; // Calculate the radius this.radius = (Math.min(ca.width - this.gutterLeft - this.gutterRight, ca.height - this.gutterTop - this.gutterBottom) / 2); this.centerx = ((ca.width - this.gutterLeft - this.gutterRight) / 2) + this.gutterLeft; this.centery = ((ca.height - this.gutterTop - this.gutterBottom) / 2) + this.gutterTop; this.angles = []; this.angles2 = []; this.total = 0; this.startRadians = prop['chart.angles.start']; /** * Change the centerx marginally if the key is defined */ if (prop['chart.key'] && prop['chart.key'].length > 0 && prop['chart.key'].length >= 3) { this.centerx = this.centerx - this.gutterRight + 5; } // User specified radius, centerx and centery if (typeof(prop['chart.centerx']) == 'number') this.centerx = prop['chart.centerx']; if (typeof(prop['chart.centery']) == 'number') this.centery = prop['chart.centery']; if (typeof(prop['chart.radius']) == 'number') this.radius = prop['chart.radius']; /** * Parse the colors for gradients. Its down here so that the center X/Y can be used */ if (!this.colorsParsed) { this.parseColors(); // Don't want to do this again this.colorsParsed = true; } this.DrawBackground(); this.DrawRose(); this.DrawLabels(); /** * 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 function enables adjusting */ if (prop['chart.adjustable']) { RG.AllowAdjusting(this); } /** * This installs the event listeners */ RG.InstallEventListeners(this); /** * Fire the RGraph ondraw event */ RG.FireCustomEvent(this, 'ondraw'); return this; } /** * This method draws the rose charts background */ this.DrawBackground = function () { co.lineWidth = 1; // Draw the background grey circles/spokes if (prop['chart.background.grid']) { if (typeof(prop['chart.background.grid.count']) == 'number') { prop['chart.background.grid.size'] = this.radius / prop['chart.background.grid.count']; } co.beginPath(); co.strokeStyle = prop['chart.background.grid.color']; // Radius must be greater than 0 for Opera to work for (var i=prop['chart.background.grid.size']; i<=this.radius; i+=prop['chart.background.grid.size']) { // Hmmm... This is questionable co.moveTo(this.centerx + i, this.centery); // Radius must be greater than 0 for Opera to work co.arc(this.centerx, this.centery, i, 0, TWOPI, false); } co.stroke(); // Draw the background lines that go from the center outwards co.beginPath(); if (typeof(prop['chart.background.grid.spokes']) == 'number') { var num = (360 / prop['chart.background.grid.spokes']); for (var i=num; i<=360; i+=num) { // Radius must be greater than 0 for Opera to work co.arc(this.centerx, this.centery, this.radius, ((i / (180 / PI)) - HALFPI) + this.startRadians, (((i + 0.0001) / (180 / PI)) - HALFPI) + this.startRadians, false); co.lineTo(this.centerx, this.centery); } } else { for (var i=15; i<=360; i+=15) { // Radius must be greater than 0 for Opera to work co.arc(this.centerx, this.centery, this.radius, (i / (180/ PI)) - HALFPI, ((i + 0.0001) / (180/ PI)) - HALFPI, false); co.lineTo(this.centerx, this.centery); } } co.stroke(); } if (prop['chart.background.axes']) { co.beginPath(); co.strokeStyle = prop['chart.background.axes.color']; // Draw the X axis co.moveTo(this.centerx - this.radius, Math.round(this.centery) ); co.lineTo(this.centerx + this.radius, Math.round(this.centery) ); // Draw the X ends co.moveTo(Math.round(this.centerx - this.radius), this.centery - 5); co.lineTo(Math.round(this.centerx - this.radius), this.centery + 5); co.moveTo(Math.round(this.centerx + this.radius), this.centery - 5); co.lineTo(Math.round(this.centerx + this.radius), this.centery + 5); // Draw the X check marks for (var i=(this.centerx - this.radius); i<(this.centerx + this.radius); i+=(this.radius / 5)) { co.moveTo(Math.round(i), this.centery - 3); co.lineTo(Math.round(i), this.centery + 3.5); } // Draw the Y check marks for (var i=(this.centery - this.radius); i<(this.centery + this.radius); i+=(this.radius / 5)) { co.moveTo(this.centerx - 3, Math.round(i)); co.lineTo(this.centerx + 3, Math.round(i)); } // Draw the Y axis co.moveTo(Math.round(this.centerx), this.centery - this.radius); co.lineTo(Math.round(this.centerx), this.centery + this.radius); // Draw the Y ends co.moveTo(this.centerx - 5, Math.round(this.centery - this.radius)); co.lineTo(this.centerx + 5, Math.round(this.centery - this.radius)); co.moveTo(this.centerx - 5, Math.round(this.centery + this.radius)); co.lineTo(this.centerx + 5, Math.round(this.centery + this.radius)); // Stroke it co.closePath(); co.stroke(); } } /** * This method draws the data on the graph */ this.DrawRose = function () { var max = 0; var data = this.data; var margin = RGraph.degrees2Radians(prop['chart.margin']); // Must be at least two data points //if (data.length < 2) { // alert('[ROSE] Must be at least two data points! [' + data + ']'); // return; //} // Work out the maximum value and the sum if (RG.is_null(prop['chart.ymax'])) { // Work out the max for (var i=0; i<data.length; ++i) { if (typeof(data[i]) == 'number') { max = Math.max(max, data[i]); } else if (typeof(data[i]) == 'object' && prop['chart.variant'] == 'non-equi-angular') { max = Math.max(max, data[i][0]); // Fallback is stacked } else { max = Math.max(max, RG.array_sum(data[i])); } } this.scale2 = RG.getScale2(this, { 'max':max, 'min':0, '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; } else { var ymax = prop['chart.ymax']; this.scale2 = RG.getScale2(this, { 'max':ymax, '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.sum = RG.array_sum(data); // Move to the centre co.moveTo(this.centerx, this.centery); co.stroke(); // Stroke the background so it stays grey // Transparency if (prop['chart.colors.alpha']) { co.globalAlpha = prop['chart.colors.alpha']; } /******************************************************* * A non-equi-angular Rose chart *******************************************************/ if (typeof(prop['chart.variant']) == 'string' && prop['chart.variant'] == 'non-equi-angular') { /******************************************************* * NON-EQUI-ANGULAR GOES HERE *******************************************************/ var total=0; for (var i=0; i<data.length; ++i) { total += data[i][1]; } for (var i=0; i<this.data.length; ++i) { var segmentRadians = ((this.data[i][1] / total) * TWOPI); var radius = ((this.data[i][0] - prop['chart.ymin']) / (this.max - prop['chart.ymin'])) * this.radius; radius = radius * prop['chart.animation.grow.multiplier']; co.strokeStyle = prop['chart.strokestyle']; co.fillStyle = prop['chart.colors'][0]; if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][i]; } co.beginPath(); // Begin the segment var startAngle = (this.startRadians * prop['chart.animation.roundrobin.factor']) - HALFPI + margin; var endAngle = ((this.startRadians + segmentRadians) * prop['chart.animation.roundrobin.factor']) - HALFPI - margin; var exploded = this.getexploded(i, startAngle, endAngle, prop['chart.exploded']); var explodedX = exploded[0]; var explodedY = exploded[1]; co.arc(this.centerx + explodedX, this.centery + explodedY, prop['chart.animation.roundrobin.radius'] ? radius * prop['chart.animation.roundrobin.factor'] : radius, startAngle, endAngle, 0); co.lineTo(this.centerx + explodedX, this.centery + explodedY); co.closePath(); // End the segment co.stroke(); co.fill(); // Store the start and end angles this.angles.push(gg = [ startAngle, endAngle, 0, radius, this.centerx + explodedX, this.centery + explodedY ]); this.startRadians += segmentRadians; } } else { var sequentialColorIndex = 0; /******************************************************* * Draw regular segments here *******************************************************/ for (var i=0; i<this.data.length; ++i) { co.strokeStyle = prop['chart.strokestyle']; co.fillStyle = prop['chart.colors'][0]; /******************************************************* * This allows sequential colors *******************************************************/ if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][i]; } var segmentRadians = (1 / this.data.length) * TWOPI; if (typeof(this.data[i]) == 'number') { co.beginPath(); // Begin the segment var radius = ((this.data[i] - prop['chart.ymin']) / (this.max - prop['chart.ymin'])) * this.radius; radius = radius * prop['chart.animation.grow.multiplier']; var startAngle = (this.startRadians * prop['chart.animation.roundrobin.factor']) - HALFPI + margin; var endAngle = (this.startRadians * prop['chart.animation.roundrobin.factor']) + (segmentRadians * prop['chart.animation.roundrobin.factor']) - HALFPI - margin; var exploded = this.getexploded(i, startAngle, endAngle, prop['chart.exploded']); var explodedX = exploded[0]; var explodedY = exploded[1]; co.arc(this.centerx + explodedX, this.centery + explodedY, prop['chart.animation.roundrobin.radius'] ? radius * prop['chart.animation.roundrobin.factor'] : radius, startAngle, endAngle, 0); co.lineTo(this.centerx + explodedX, this.centery + explodedY); co.closePath(); // End the segment co.stroke(); co.fill(); if (endAngle == 0) { //endAngle = TWOPI; } // Store the start and end angles this.angles.push([ startAngle, endAngle, 0, radius * prop['chart.animation.roundrobin.factor'], this.centerx + explodedX, this.centery + explodedY ]); /******************************************************* * Draw a stacked segment *******************************************************/ } else if (typeof(this.data[i]) == 'object') { var margin = prop['chart.margin'] / (180 / PI); // Initialise the angles2 array so there's no undefined error if (!this.angles2[i]) { this.angles2[i] = []; } for (var j=0; j<this.data[i].length; ++j) { var startAngle = (this.startRadians * prop['chart.animation.roundrobin.factor']) - HALFPI + margin; var endAngle = (this.startRadians * prop['chart.animation.roundrobin.factor'])+ (segmentRadians * prop['chart.animation.roundrobin.factor']) - HALFPI - margin; var exploded = this.getexploded(i, startAngle, endAngle, prop['chart.exploded']); var explodedX = exploded[0]; var explodedY = exploded[1]; co.fillStyle = prop['chart.colors'][j]; // This facilitates sequential color support if (prop['chart.colors.sequential']) { co.fillStyle = prop['chart.colors'][sequentialColorIndex++]; } if (j == 0) { co.beginPath(); // Begin the segment var startRadius = 0; var endRadius = ((this.data[i][j] - prop['chart.ymin']) / (this.max - prop['chart.ymin'])) * this.radius; endRadius = endRadius * prop['chart.animation.grow.multiplier']; co.arc(this.centerx + explodedX, this.centery + explodedY, prop['chart.animation.roundrobin.radius'] ? endRadius * prop['chart.animation.roundrobin.factor'] : endRadius, startAngle, endAngle, 0); co.lineTo(this.centerx + explodedX, this.centery + explodedY); co.closePath(); // End the segment co.stroke(); co.fill(); this.angles.push([ startAngle, endAngle, 0, endRadius * prop['chart.animation.roundrobin.factor'], this.centerx + explodedX, this.centery + explodedY ]); this.angles2[i].push([ startAngle, endAngle, 0, endRadius * prop['chart.animation.roundrobin.factor'], this.centerx + explodedX, this.centery + explodedY ]); } else { co.beginPath(); // Begin the segment var startRadius = endRadius; // This comes from the prior iteration of this loop var endRadius = (((this.data[i][j] - prop['chart.ymin']) / (this.max - prop['chart.ymin'])) * this.radius) + startRadius; endRadius = endRadius * prop['chart.animation.grow.multiplier']; co.arc(this.centerx + explodedX, this.centery + explodedY, startRadius * prop['chart.animation.roundrobin.factor'], startAngle, endAngle, 0); co.arc(this.centerx + explodedX, this.centery + explodedY, endRadius * prop['chart.animation.roundrobin.factor'], endAngle, startAngle, true); co.closePath(); // End the segment co.stroke(); co.fill(); this.angles.push([ startAngle, endAngle, startRadius * prop['chart.animation.roundrobin.factor'], endRadius * prop['chart.animation.roundrobin.factor'], this.centerx + explodedX, this.centery + explodedY ]); this.angles2[i].push([ startAngle, endAngle, startRadius * prop['chart.animation.roundrobin.factor'], endRadius * prop['chart.animation.roundrobin.factor'], this.centerx + explodedX, this.centery + explodedY ]); } } } this.startRadians += segmentRadians; } } // Turn off the transparency if (prop['chart.colors.alpha']) { co.globalAlpha = 1; } // Draw the title if any has been set if (prop['chart.title']) { RG.DrawTitle(this, prop['chart.title'], (ca.height / 2) - this.radius, this.centerx, prop['chart.title.size'] ? prop['chart.title.size'] : prop['chart.text.size'] + 2); } } /** * Unsuprisingly, draws the labels */ this.DrawLabels = function () { co.lineWidth = 1; var key = prop['chart.key']; if (key && key.length) { RG.DrawKey(this, key, prop['chart.colors']); } // Set the color to black co.fillStyle = prop['chart.text.color']; co.strokeStyle = 'black'; var radius = this.radius; var font = prop['chart.text.font']; var size = prop['chart.text.size']; var axes = prop['chart.labels.axes'].toLowerCase(); var decimals = prop['chart.scale.decimals']; var units_pre = prop['chart.units.pre']; var units_post = prop['chart.units.post']; var centerx = this.centerx; var centery = this.centery; // Draw any circular labels if (typeof(prop['chart.labels']) == 'object' && prop['chart.labels']) { this.DrawCircularLabels(co, prop['chart.labels'], font, size, radius + 10); } // Size can be specified seperately for the scale now if (typeof(prop['chart.text.size.scale']) == 'number') { size = prop['chart.text.size.scale']; } var color = 'rgba(255,255,255,0.8)'; // The "North" axis labels if (axes.indexOf('n') > -1) { for (var i=0; i<prop['chart.labels.count']; ++i) { RG.Text2(this, {'font':font, 'size':size, 'x':centerx, 'y':centery - (radius * ((i+1) / prop['chart.labels.count'])), 'text':this.scale2.labels[i], 'valign':'center', 'halign':'center', 'bounding':true, 'boundingFill':color, 'tag': 'scale' }); } } // The "South" axis labels if (axes.indexOf('s') > -1) { for (var i=0; i<prop['chart.labels.count']; ++i) { RG.Text2(this, {'font':font, 'size':size, 'x':centerx, 'y':centery + (radius * ((i+1) / prop['chart.labels.count'])), 'text':this.scale2.labels[i], 'valign':'center', 'halign':'center', 'bounding':true, 'boundingFill':color, 'tag': 'scale' }); } } // The "East" axis labels if (axes.indexOf('e') > -1) { for (var i=0; i<prop['chart.labels.count']; ++i) { RG.Text2(this, {'font':font, 'size':size, 'x':centerx + (radius * ((i+1) / prop['chart.labels.count'])), 'y':centery, 'text':this.scale2.labels[i], 'valign':'center', 'halign':'center', 'bounding':true, 'boundingFill':color, 'tag': 'scale' }); } } // The "West" axis labels if (axes.indexOf('w') > -1) { for (var i=0; i<prop['chart.labels.count']; ++i) { RG.Text2(this, {'font':font, 'size':size, 'x':centerx - (radius * ((i+1) / prop['chart.labels.count'])), 'y':centery, 'text':this.scale2.labels[i], 'valign':'center', 'halign':'center', 'bounding':true, 'boundingFill':color, 'tag': 'scale' }); } } if (axes.length > 0) { RG.Text2(this, {'font':font, 'size':size, 'x':centerx, 'y':centery, 'text':typeof(prop['chart.ymin']) == 'number' ? RG.number_format(this, Number(prop['chart.ymin']).toFixed(prop['chart.scale.decimals']), units_pre, units_post) : '0', 'valign':'center', 'halign':'center', 'bounding':true, 'boundingFill':color, 'tag': 'scale' }); } } /** * Draws the circular labels that go around the charts * * @param labels array The labels that go around the chart */ this.DrawCircularLabels = function (co, labels, font, size, radius) { var variant = prop['chart.variant']; var position = prop['chart.labels.position']; var radius = radius + 5 + prop['chart.labels.offset']; var centerx = this.centerx; var centery = this.centery; for (var i=0; i<labels.length; ++i) { if (typeof(variant) == 'string' && variant == 'non-equi-angular') { var a = Number(this.angles[i][0]) + ((this.angles[i][1] - this.angles[i][0]) / 2); } else { var a = (TWOPI / labels.length) * (i + 1) - (TWOPI / (labels.length * 2)); var a = a - HALFPI + (prop['chart.labels.position'] == 'edge' ? ((TWOPI / labels.length) / 2) : 0); } var x = centerx + (Math.cos(a) * radius); var y = centery + (Math.sin(a) * radius); // Horizontal alignment if (x > centerx) { halign = 'left'; } else if (Math.round(x) == centerx) { halign = 'center'; } else { halign = 'right'; } RG.Text2(this, {'font':font, 'size':size, 'x':x, 'y':y, 'text':String(labels[i]), 'halign':halign, 'valign':'center', 'tag': 'labels' }); } } /** * This function is for use with circular graph types, eg the Pie or Rose. Pass it your event object * and it will pass you back the corresponding segment details as an array: * * [x, y, r, startAngle, endAngle] * * Angles are measured in degrees, and are measured from the "east" axis (just like the canvas). * * @param object e Your event object */ this.getShape = this.getSegment = function (e) { RG.FixEventObject(e); var angles = this.angles; var ret = []; /** * Go through all of the angles checking each one */ for (var i=0; i<angles.length ; ++i) { var angleStart = angles[i][0]; var angleEnd = angles[i][1]; var radiusStart = angles[i][2]; var radiusEnd = angles[i][3]; var centerX = angles[i][4]; var centerY = angles[i][5]; var mouseXY = RG.getMouseXY(e); var mouseX = mouseXY[0] - centerX; var mouseY = mouseXY[1] - centerY; // New click testing (the 0.01 is there because Opera doesn't like 0 as the radius) co.beginPath(); co.arc(centerX, centerY, radiusStart ? radiusStart : 0.01, angleStart, angleEnd, false); co.arc(centerX, centerY, radiusEnd, angleEnd, angleStart, true); co.closePath(); // No stroke() or fill() if (co.isPointInPath(mouseXY[0], mouseXY[1])) { angles[i][6] = i; if (RG.parseTooltipText) { var tooltip = RG.parseTooltipText(prop['chart.tooltips'], angles[i][6]); } // Add the textual keys angles[i]['object'] = this; angles[i]['x'] = angles[i][4]; angles[i]['y'] = angles[i][5]; angles[i]['angle.start'] = angles[i][0]; angles[i]['angle.end'] = angles[i][1]; angles[i]['radius.start'] = angles[i][2]; angles[i]['radius.end'] = angles[i][3]; angles[i]['index'] = angles[i][6]; angles[i]['tooltip'] = tooltip ? tooltip : null; return angles[i]; } } return null; } /** * Returns any exploded for a particular segment */ this.getexploded = function (index, startAngle, endAngle, exploded) { var explodedx, explodedy; /** * Retrieve any exploded - the exploded can be an array of numbers or a single number * (which is applied to all segments) */ if (typeof(exploded) == 'object' && typeof(exploded[index]) == 'number') { explodedx = Math.cos(((endAngle - startAngle) / 2) + startAngle) * exploded[index]; explodedy = Math.sin(((endAngle - startAngle) / 2) + startAngle) * exploded[index]; } else if (typeof(exploded) == 'number') { explodedx = Math.cos(((endAngle - startAngle) / 2) + startAngle) * exploded; explodedy = Math.sin(((endAngle - startAngle) / 2) + startAngle) * exploded; } else { explodedx = 0; explodedy = 0; } return [explodedx, explodedy]; } /** * This function facilitates the installation of tooltip event listeners if * tooltips are defined. */ this.AllowTooltips = function () { // Preload any tooltip images that are used in the tooltips RG.PreLoadTooltipImages(this); /** * This installs the window mousedown event listener that lears any * highlight that may be visible. */ RG.InstallWindowMousedownTooltipListener(this); /** * This installs the canvas mousemove event listener. This function * controls the pointer shape. */ RG.InstallCanvasMousemoveTooltipListener(this); /** * This installs the canvas mouseup event listener. This is the * function that actually shows the appropriate tooltip (if any). */ RG.InstallCanvasMouseupTooltipListener(this); } /** * Each object type has its own Highlight() function which highlights the appropriate shape * * @param object shape The shape to highlight */ this.Highlight = function (shape) { if (prop['chart.tooltips.highlight']) { // Add the new segment highlight co.beginPath(); co.strokeStyle = prop['chart.highlight.stroke']; co.fillStyle = prop['chart.highlight.fill']; co.arc(shape['x'], shape['y'], shape['radius.end'], shape['angle.start'], shape['angle.end'], false); if (shape['radius.start'] > 0) { co.arc(shape['x'], shape['y'], shape['radius.start'], shape['angle.end'], shape['angle.start'], true); } else { co.lineTo(shape['x'], shape['y']); } co.closePath(); co.stroke(); co.fill(); } } /** * 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 = RGraph.getMouseXY(e); // Work out the radius var radius = RG.getHypLength(this.centerx, this.centery, mouseXY[0], mouseXY[1]); if ( mouseXY[0] > (this.centerx - this.radius) && mouseXY[0] < (this.centerx + this.radius) && mouseXY[1] > (this.centery - this.radius) && mouseXY[1] < (this.centery + this.radius) && radius <= this.radius ) { 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.angles[idx][4]; var coordY = obj.angles[idx][5]; var angleStart = obj.angles[idx][0]; var angleEnd = obj.angles[idx][1]; var radius = ((obj.angles[idx][3] - obj.angles[idx][2]) / 2) + obj.angles[idx][2]; var angleCenter = ((angleEnd - angleStart) / 2) + angleStart; var canvasXY = RG.getCanvasXY(obj.canvas); var gutterLeft = this.gutterLeft; var gutterTop = this.gutterTop; var width = tooltip.offsetWidth; var height = tooltip.offsetHeight; // 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 + (Math.cos(angleCenter) * radius) - (width / 2)) < 10) { tooltip.style.left = (canvasXY[0] + coordX + (Math.cos(angleCenter) * radius)- (width * 0.1)) + 'px'; tooltip.style.top = (canvasXY[1] + coordY + (Math.sin(angleCenter) * radius)- height - 5) + 'px'; img.style.left = ((width * 0.1) - 8.5) + 'px'; // RIGHT edge } else if ((canvasXY[0] + coordX + (Math.cos(angleCenter) * radius) + (width / 2)) > (document.body.offsetWidth - 10) ) { tooltip.style.left = (canvasXY[0] + coordX + (Math.cos(angleCenter) * radius) - (width * 0.9)) + 'px'; tooltip.style.top = (canvasXY[1] + coordY + (Math.sin(angleCenter) * radius)- height - 5) + 'px'; img.style.left = ((width * 0.9) - 8.5) + 'px'; // Default positioning - CENTERED } else { tooltip.style.left = (canvasXY[0] + coordX + (Math.cos(angleCenter) * radius)- (width / 2)) + 'px'; tooltip.style.top = (canvasXY[1] + coordY + (Math.sin(angleCenter) * radius)- height - 5) + 'px'; img.style.left = ((width * 0.5) - 8.5) + 'px'; } } /** * This method gives you the relevant radius for a particular value * * @param number value The relevant value to get the radius for */ this.getRadius = function (value) { // Range checking (the Rose minimum is always 0) if (value < 0 || value > this.max) { return null; } var r = (value / this.max) * this.radius; return r; } /** * This allows for easy specification of gradients */ this.parseColors = function () { for (var i=0; i<prop['chart.colors'].length; ++i) { prop['chart.colors'][i] = this.parseSingleColorForGradient(prop['chart.colors'][i]); } /** * Key colors */ if (!RG.is_null(prop['chart.key.colors'])) { for (var i=0; i<prop['chart.key.colors'].length; ++i) { prop['chart.key.colors'][i] = this.parseSingleColorForGradient(prop['chart.key.colors'][i]); } } prop['chart.text.color'] = this.parseSingleColorForGradient(prop['chart.text.color']); prop['chart.title.color'] = this.parseSingleColorForGradient(prop['chart.title.color']); prop['chart.highlight.fill'] = this.parseSingleColorForGradient(prop['chart.highlight.fill']); prop['chart.highlight.stroke'] = this.parseSingleColorForGradient(prop['chart.highlight.stroke']); } /** * 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 = context.createLinearGradient(0,0,canvas.width,0); var grad = co.createRadialGradient(this.centerx, this.centery, 0, this.centerx, this.centery, this.radius); 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; } /** * This function handles highlighting an entire data-series for the interactive * key * * @param int index The index of the data series to be highlighted */ this.interactiveKeyHighlight = function (index) { this.angles2.forEach(function (val, idx, arr) { var segment = val[index]; if (segment) { co.beginPath(); co.lineWidth = 2; co.fillStyle = prop['chart.key.interactive.highlight.chart.fill']; co.strokeStyle = prop['chart.key.interactive.highlight.chart.stroke']; co.arc(segment[4], segment[5], segment[2], segment[0], segment[1], false); co.arc(segment[4], segment[5], segment[3], segment[1], segment[0], true); co.closePath(); co.fill(); co.stroke(); } }); } /** * Register this object */ RG.Register(this); }