* <p>Sparkline: <span class="sparkline" values="1,4,6,6,8,5,3,5"></span></p>
* $('.sparkline').sparkline();
*
+* For line charts, x values can also be specified:
+* <p>Sparkline: <span class="sparkline">1:1,2.7:4,3.4:6,5:6,6:8,8.7:5,9:3,10:5</span></p>
+* $('#sparkline1').sparkline([ [1,1], [2.7,4], [3.4,6], [5,6], [6,8], [8.7,5], [9,3], [10,5] ])
+*
* By default, options should be passed in as teh second argument to the sparkline function:
* $('.sparkline').sparkline([1,2,3,4], {type: 'bar'})
*
* chartRangeClip - Clip out of range values to the max/min specified by chartRangeMin and chartRangeMax
* chartRangeMinX - Specify the minimum value to use for the X range of the chart - Defaults to the minimum value supplied
* chartRangeMaxX - Specify the maximum value to use for the X range of the chart - Defaults to the maximum value supplied
+* composite - If true then don't erase any existing chart attached to the tag, but draw
+* another chart over the top - Note that width and height are ignored if an
+* existing chart is detected.
* tagValuesAttribute - Name of tag attribute to check for data values - Defaults to 'values'
* enableTagOptions - Whether to check tags for sparkline options
* tagOptionPrefix - Prefix used for options supplied as tag attributes - Defaults to 'spark'
* numberDecimalMark - Character to use for the decimal point when formatting numbers - Defaults to "."
* numberDigitGroupCount - Number of digits between group separator - Defaults to 3
*
-* There is 1 type of sparkline, selected by supplying a "type" option of 'bar' (default),
+* There are 7 types of sparkline, selected by supplying a "type" option of 'line' (default),
+* 'bar', 'tristate', 'bullet', 'discrete', 'pie' or 'box'
+* line - Line chart. Options:
+* spotColor - Set to '' to not end each line in a circular spot
+* minSpotColor - If set, color of spot at minimum value
+* maxSpotColor - If set, color of spot at maximum value
+* spotRadius - Radius in pixels
+* lineWidth - Width of line in pixels
+* normalRangeMin
+* normalRangeMax - If set draws a filled horizontal bar between these two values marking the "normal"
+* or expected range of values
+* normalRangeColor - Color to use for the above bar
+* drawNormalOnTop - Draw the normal range above the chart fill color if true
+* defaultPixelsPerValue - Defaults to 3 pixels of width for each value in the chart
+* highlightSpotColor - The color to use for drawing a highlight spot on mouseover - Set to null to disable
+* highlightLineColor - The color to use for drawing a highlight line on mouseover - Set to null to disable
+* valueSpots - Specify which points to draw spots on, and in which color. Accepts a range map
*
* bar - Bar chart. Options:
* barColor - Color of bars for postive values
* barSpacing - Gap between bars in pixels
* zeroAxis - Centers the y-axis around zero if true
*
+* tristate - Charts values of win (>0), lose (<0) or draw (=0)
+* posBarColor - Color of win values
+* negBarColor - Color of lose values
+* zeroBarColor - Color of draw values
+* barWidth - Width of bars in pixels
+* barSpacing - Gap between bars in pixels
+* colorMap - Optional mappnig of values to colors to override the *BarColor values above
+* can be an Array of values to control the color of individual bars or a range map
+* to specify colors for individual ranges of values
+*
+* discrete - Options:
+* lineHeight - Height of each line in pixels - Defaults to 30% of the graph height
+* thesholdValue - Values less than this value will be drawn using thresholdColor instead of lineColor
+* thresholdColor
+*
+* bullet - Values for bullet graphs msut be in the order: target, performance, range1, range2, range3, ...
+* options:
+* targetColor - The color of the vertical target marker
+* targetWidth - The width of the target marker in pixels
+* performanceColor - The color of the performance measure horizontal bar
+* rangeColors - Colors to use for each qualitative range background color
*
+* pie - Pie chart. Options:
+* sliceColors - An array of colors to use for pie slices
+* offset - Angle in degrees to offset the first slice - Try -90 or +90
+* borderWidth - Width of border to draw around the pie chart, in pixels - Defaults to 0 (no border)
+* borderColor - Color to use for the pie chart border - Defaults to #000
*
+* box - Box plot. Options:
+* raw - Set to true to supply pre-computed plot points as values
+* values should be: low_outlier, low_whisker, q1, median, q3, high_whisker, high_outlier
+* When set to false you can supply any number of values and the box plot will
+* be computed for you. Default is false.
+* showOutliers - Set to true (default) to display outliers as circles
+* outlierIQR - Interquartile range used to determine outliers. Default 1.5
+* boxLineColor - Outline color of the box
+* boxFillColor - Fill color for the box
+* whiskerColor - Line color used for whiskers
+* outlierLineColor - Outline color of outlier circles
+* outlierFillColor - Fill color of the outlier circles
+* spotRadius - Radius of outlier circles
+* medianColor - Line color of the median line
+* target - Draw a target cross hair at the supplied value (default undefined)
*
*
*
* Examples:
* $('#sparkline1').sparkline(myvalues, { lineColor: '#f00', fillColor: false });
* $('.barsparks').sparkline('html', { type:'bar', height:'40px', barWidth:5 });
+* $('#tristate').sparkline([1,1,-1,1,0,0,-1], { type:'tristate' }):
+* $('#discrete').sparkline([1,3,4,5,5,3,4,5], { type:'discrete' });
+* $('#bullet').sparkline([10,12,12,9,7], { type:'bullet' });
+* $('#pie').sparkline([1,1,2], { type:'pie' });
*/
/*jslint regexp: true, browser: true, jquery: true, white: true, nomen: false, plusplus: false, maxerr: 500, indent: 4 */
getDefaults, createClass, SPFormat, clipval, quartile, normalizeValue, normalizeValues,
remove, isNumber, all, sum, addCSS, ensureArray, formatNumber, RangeMap,
MouseHandler, Tooltip, barHighlightMixin,
- bar, defaultStyles, initStyles,
- VShape, VCanvas_base, VCanvas_canvas, pending, shapeCount = 0;
+ line, bar, tristate, discrete, bullet, pie, box, defaultStyles, initStyles,
+ VShape, VCanvas_base, VCanvas_canvas, VCanvas_vml, pending, shapeCount = 0;
/**
* Default configuration settings
return {
// Settings common to most/all chart types
common: {
- type: 'bar',
+ type: 'line',
lineColor: '#00f',
fillColor: '#cdf',
defaultPixelsPerValue: 3,
width: 'auto',
height: 'auto',
+ composite: false,
tagValuesAttribute: 'values',
tagOptionsPrefix: 'spark',
enableTagOptions: false,
disableTooltips: false,
disableInteraction: false
},
+ // Defaults for line charts
+ line: {
+ spotColor: '#f80',
+ highlightSpotColor: '#5f5',
+ highlightLineColor: '#f22',
+ spotRadius: 1.5,
+ minSpotColor: '#f80',
+ maxSpotColor: '#f80',
+ lineWidth: 1,
+ normalRangeMin: undefined,
+ normalRangeMax: undefined,
+ normalRangeColor: '#ccc',
+ drawNormalOnTop: false,
+ chartRangeMin: undefined,
+ chartRangeMax: undefined,
+ chartRangeMinX: undefined,
+ chartRangeMaxX: undefined,
+ tooltipFormat: new SPFormat('<span style="color: {{color}}">●</span> {{prefix}}{{y}}{{suffix}}')
+ },
// Defaults for bar charts
bar: {
barColor: '#3366cc',
negBarColor: '#f44',
+ stackedBarColor: ['#3366cc', '#dc3912', '#ff9900', '#109618', '#66aa00',
+ '#dd4477', '#0099c6', '#990099'],
zeroColor: undefined,
nullColor: undefined,
zeroAxis: true,
colorMap: undefined,
tooltipFormat: new SPFormat('<span style="color: {{color}}">●</span> {{prefix}}{{value}}{{suffix}}')
},
+ // Defaults for tristate charts
+ tristate: {
+ barWidth: 4,
+ barSpacing: 1,
+ posBarColor: '#6f6',
+ negBarColor: '#f44',
+ zeroBarColor: '#999',
+ colorMap: {},
+ tooltipFormat: new SPFormat('<span style="color: {{color}}">●</span> {{value:map}}'),
+ tooltipValueLookups: { map: { '-1': 'Loss', '0': 'Draw', '1': 'Win' } }
+ },
+ // Defaults for discrete charts
+ discrete: {
+ lineHeight: 'auto',
+ thresholdColor: undefined,
+ thresholdValue: 0,
+ chartRangeMax: undefined,
+ chartRangeMin: undefined,
+ chartRangeClip: false,
+ tooltipFormat: new SPFormat('{{prefix}}{{value}}{{suffix}}')
+ },
+ // Defaults for bullet charts
+ bullet: {
+ targetColor: '#f33',
+ targetWidth: 3, // width of the target bar in pixels
+ performanceColor: '#33f',
+ rangeColors: ['#d3dafe', '#a8b6ff', '#7f94ff'],
+ base: undefined, // set this to a number to change the base start number
+ tooltipFormat: new SPFormat('{{fieldkey:fields}} - {{value}}'),
+ tooltipValueLookups: { fields: {r: 'Range', p: 'Performance', t: 'Target'} }
+ },
+ // Defaults for pie charts
+ pie: {
+ offset: 0,
+ sliceColors: ['#3366cc', '#dc3912', '#ff9900', '#109618', '#66aa00',
+ '#dd4477', '#0099c6', '#990099'],
+ borderWidth: 0,
+ borderColor: '#000',
+ tooltipFormat: new SPFormat('<span style="color: {{color}}">●</span> {{value}} ({{percent.1}}%)')
+ },
+ // Defaults for box plots
+ box: {
+ raw: false,
+ boxLineColor: '#000',
+ boxFillColor: '#cdf',
+ whiskerColor: '#000',
+ outlierLineColor: '#333',
+ outlierFillColor: '#fff',
+ medianColor: '#f00',
+ showOutliers: true,
+ outlierIQR: 1.5,
+ spotRadius: 1.5,
+ target: undefined,
+ targetColor: '#4a2',
+ chartRangeMax: undefined,
+ chartRangeMin: undefined,
+ tooltipFormat: new SPFormat('{{field:fields}}: {{value}}'),
+ tooltipFormatFieldlistKey: 'field',
+ tooltipValueLookups: { fields: { lq: 'Lower Quartile', med: 'Median',
+ uq: 'Upper Quartile', lo: 'Left Outlier', ro: 'Right Outlier',
+ lw: 'Left Whisker', rw: 'Right Whisker'} }
+ }
};
};
$.fn.sparkline.canvas = function(width, height, target, interact) {
return new VCanvas_canvas(width, height, target, interact);
};
+ } else if (document.namespaces && !document.namespaces.v) {
+ // VML is available
+ document.namespaces.add('v', 'urn:schemas-microsoft-com:vml', '#default#VML');
+ $.fn.sparkline.canvas = function(width, height, target, interact) {
+ return new VCanvas_vml(width, height, target);
+ };
} else {
// Neither Canvas nor VML are available
$.fn.sparkline.canvas = false;
width = options.get('width') === 'auto' ? values.length * options.get('defaultPixelsPerValue') : options.get('width');
if (options.get('height') === 'auto') {
+ if (!options.get('composite') || !$.data(this, '_jqs_vcanvas')) {
// must be a better way to get the line height
tmp = document.createElement('span');
tmp.innerHTML = 'a';
height = $(tmp).innerHeight() || $(tmp).height();
$(tmp).remove();
tmp = null;
+ }
} else {
height = options.get('height');
}
if (!mhandler) {
mhandler = new MouseHandler(this, options);
$.data(this, '_jqs_mhandler', mhandler);
- } else {
+ } else if (!options.get('composite')) {
mhandler.reset();
}
} else {
mhandler = false;
}
+ if (options.get('composite') && !$.data(this, '_jqs_vcanvas')) {
+ if (!$.data(this, '_jqs_errnotify')) {
+ alert('Attempted to attach a composite sparkline to an element with no existing sparkline');
+ $.data(this, '_jqs_errnotify', true);
+ }
+ return;
+ }
+
sp = new $.fn.sparkline[options.get('type')](this, values, options, width, height);
sp.render();
}
};
if (($(this).html() && !options.get('disableHiddenCheck') && $(this).is(':hidden')) || !$(this).parents('body').length) {
- if ($.data(this, '_jqs_pending')) {
+ if (!options.get('composite') && $.data(this, '_jqs_pending')) {
// remove any existing references to the element
for (i = pending.length; i; i--) {
if (pending[i - 1][0] == this) {
*/
initTarget: function () {
var interactive = !this.options.get('disableInteraction');
- if (!(this.target = this.$el.simpledraw(this.width, this.height, false, interactive))) {
+ if (!(this.target = this.$el.simpledraw(this.width, this.height, this.options.get('composite'), interactive))) {
this.disabled = true;
} else {
this.canvasWidth = this.target.pixelWidth;
}
};
+ /**
+ * Line charts
+ */
+ $.fn.sparkline.line = line = createClass($.fn.sparkline._base, {
+ type: 'line',
+
+ init: function (el, values, options, width, height) {
+ line._super.init.call(this, el, values, options, width, height);
+ this.vertices = [];
+ this.regionMap = [];
+ this.xvalues = [];
+ this.yvalues = [];
+ this.yminmax = [];
+ this.hightlightSpotId = null;
+ this.lastShapeId = null;
+ this.initTarget();
+ },
+
+ getRegion: function (el, x, y) {
+ var i,
+ regionMap = this.regionMap; // maps regions to value positions
+ for (i = regionMap.length; i--;) {
+ if (regionMap[i] !== null && x >= regionMap[i][0] && x <= regionMap[i][1]) {
+ return regionMap[i][2];
+ }
+ }
+ return undefined;
+ },
+
+ getCurrentRegionFields: function () {
+ var currentRegion = this.currentRegion;
+ return {
+ isNull: this.yvalues[currentRegion] === null,
+ x: this.xvalues[currentRegion],
+ y: this.yvalues[currentRegion],
+ color: this.options.get('lineColor'),
+ fillColor: this.options.get('fillColor'),
+ offset: currentRegion
+ };
+ },
+
+ renderHighlight: function () {
+ var currentRegion = this.currentRegion,
+ target = this.target,
+ vertex = this.vertices[currentRegion],
+ options = this.options,
+ spotRadius = options.get('spotRadius'),
+ highlightSpotColor = options.get('highlightSpotColor'),
+ highlightLineColor = options.get('highlightLineColor'),
+ highlightSpot, highlightLine;
+
+ if (!vertex) {
+ return;
+ }
+ if (spotRadius && highlightSpotColor) {
+ highlightSpot = target.drawCircle(vertex[0], vertex[1],
+ spotRadius, undefined, highlightSpotColor);
+ this.highlightSpotId = highlightSpot.id;
+ target.insertAfterShape(this.lastShapeId, highlightSpot);
+ }
+ if (highlightLineColor) {
+ highlightLine = target.drawLine(vertex[0], this.canvasTop, vertex[0],
+ this.canvasTop + this.canvasHeight, highlightLineColor);
+ this.highlightLineId = highlightLine.id;
+ target.insertAfterShape(this.lastShapeId, highlightLine);
+ }
+ },
+
+ removeHighlight: function () {
+ var target = this.target;
+ if (this.highlightSpotId) {
+ target.removeShapeId(this.highlightSpotId);
+ this.highlightSpotId = null;
+ }
+ if (this.highlightLineId) {
+ target.removeShapeId(this.highlightLineId);
+ this.highlightLineId = null;
+ }
+ },
+
+ scanValues: function () {
+ var values = this.values,
+ valcount = values.length,
+ xvalues = this.xvalues,
+ yvalues = this.yvalues,
+ yminmax = this.yminmax,
+ i, val, isStr, isArray, sp;
+ for (i = 0; i < valcount; i++) {
+ val = values[i];
+ isStr = typeof(values[i]) === 'string';
+ isArray = typeof(values[i]) === 'object' && values[i] instanceof Array;
+ sp = isStr && values[i].split(':');
+ if (isStr && sp.length === 2) { // x:y
+ xvalues.push(Number(sp[0]));
+ yvalues.push(Number(sp[1]));
+ yminmax.push(Number(sp[1]));
+ } else if (isArray) {
+ xvalues.push(val[0]);
+ yvalues.push(val[1]);
+ yminmax.push(val[1]);
+ } else {
+ xvalues.push(i);
+ if (values[i] === null || values[i] === 'null') {
+ yvalues.push(null);
+ } else {
+ yvalues.push(Number(val));
+ yminmax.push(Number(val));
+ }
+ }
+ }
+ if (this.options.get('xvalues')) {
+ xvalues = this.options.get('xvalues');
+ }
+
+ this.maxy = this.maxyorg = Math.max.apply(Math, yminmax);
+ this.miny = this.minyorg = Math.min.apply(Math, yminmax);
+
+ this.maxx = Math.max.apply(Math, xvalues);
+ this.minx = Math.min.apply(Math, xvalues);
+
+ this.xvalues = xvalues;
+ this.yvalues = yvalues;
+ this.yminmax = yminmax;
+
+ },
+
+ processRangeOptions: function () {
+ var options = this.options,
+ normalRangeMin = options.get('normalRangeMin'),
+ normalRangeMax = options.get('normalRangeMax');
+
+ if (normalRangeMin !== undefined) {
+ if (normalRangeMin < this.miny) {
+ this.miny = normalRangeMin;
+ }
+ if (normalRangeMax > this.maxy) {
+ this.maxy = normalRangeMax;
+ }
+ }
+ if (options.get('chartRangeMin') !== undefined && (options.get('chartRangeClip') || options.get('chartRangeMin') < this.miny)) {
+ this.miny = options.get('chartRangeMin');
+ }
+ if (options.get('chartRangeMax') !== undefined && (options.get('chartRangeClip') || options.get('chartRangeMax') > this.maxy)) {
+ this.maxy = options.get('chartRangeMax');
+ }
+ if (options.get('chartRangeMinX') !== undefined && (options.get('chartRangeClipX') || options.get('chartRangeMinX') < this.minx)) {
+ this.minx = options.get('chartRangeMinX');
+ }
+ if (options.get('chartRangeMaxX') !== undefined && (options.get('chartRangeClipX') || options.get('chartRangeMaxX') > this.maxx)) {
+ this.maxx = options.get('chartRangeMaxX');
+ }
+
+ },
+
+ drawNormalRange: function (canvasLeft, canvasTop, canvasHeight, canvasWidth, rangey) {
+ var normalRangeMin = this.options.get('normalRangeMin'),
+ normalRangeMax = this.options.get('normalRangeMax'),
+ ytop = canvasTop + Math.round(canvasHeight - (canvasHeight * ((normalRangeMax - this.miny) / rangey))),
+ height = Math.round((canvasHeight * (normalRangeMax - normalRangeMin)) / rangey);
+ this.target.drawRect(canvasLeft, ytop, canvasWidth, height, undefined, this.options.get('normalRangeColor')).append();
+ },
+
+ render: function () {
+ var options = this.options,
+ target = this.target,
+ canvasWidth = this.canvasWidth,
+ canvasHeight = this.canvasHeight,
+ vertices = this.vertices,
+ spotRadius = options.get('spotRadius'),
+ regionMap = this.regionMap,
+ rangex, rangey, yvallast,
+ canvasTop, canvasLeft,
+ vertex, path, paths, x, y, xnext, xpos, xposnext,
+ last, next, yvalcount, lineShapes, fillShapes, plen,
+ valueSpots, hlSpotsEnabled, color, xvalues, yvalues, i;
+
+ if (!line._super.render.call(this)) {
+ return;
+ }
+
+ this.scanValues();
+ this.processRangeOptions();
+
+ xvalues = this.xvalues;
+ yvalues = this.yvalues;
+
+ if (!this.yminmax.length || this.yvalues.length < 2) {
+ // empty or all null valuess
+ return;
+ }
+
+ canvasTop = canvasLeft = 0;
+
+ rangex = this.maxx - this.minx === 0 ? 1 : this.maxx - this.minx;
+ rangey = this.maxy - this.miny === 0 ? 1 : this.maxy - this.miny;
+ yvallast = this.yvalues.length - 1;
+
+ if (spotRadius && (canvasWidth < (spotRadius * 4) || canvasHeight < (spotRadius * 4))) {
+ spotRadius = 0;
+ }
+ if (spotRadius) {
+ // adjust the canvas size as required so that spots will fit
+ hlSpotsEnabled = options.get('highlightSpotColor') && !options.get('disableInteraction');
+ if (hlSpotsEnabled || options.get('minSpotColor') || (options.get('spotColor') && yvalues[yvallast] === this.miny)) {
+ canvasHeight -= Math.ceil(spotRadius);
+ }
+ if (hlSpotsEnabled || options.get('maxSpotColor') || (options.get('spotColor') && yvalues[yvallast] === this.maxy)) {
+ canvasHeight -= Math.ceil(spotRadius);
+ canvasTop += Math.ceil(spotRadius);
+ }
+ if (hlSpotsEnabled ||
+ ((options.get('minSpotColor') || options.get('maxSpotColor')) && (yvalues[0] === this.miny || yvalues[0] === this.maxy))) {
+ canvasLeft += Math.ceil(spotRadius);
+ canvasWidth -= Math.ceil(spotRadius);
+ }
+ if (hlSpotsEnabled || options.get('spotColor') ||
+ (options.get('minSpotColor') || options.get('maxSpotColor') &&
+ (yvalues[yvallast] === this.miny || yvalues[yvallast] === this.maxy))) {
+ canvasWidth -= Math.ceil(spotRadius);
+ }
+ }
+
+
+ canvasHeight--;
+
+ if (options.get('normalRangeMin') !== undefined && !options.get('drawNormalOnTop')) {
+ this.drawNormalRange(canvasLeft, canvasTop, canvasHeight, canvasWidth, rangey);
+ }
+
+ path = [];
+ paths = [path];
+ last = next = null;
+ yvalcount = yvalues.length;
+ for (i = 0; i < yvalcount; i++) {
+ x = xvalues[i];
+ xnext = xvalues[i + 1];
+ y = yvalues[i];
+ xpos = canvasLeft + Math.round((x - this.minx) * (canvasWidth / rangex));
+ xposnext = i < yvalcount - 1 ? canvasLeft + Math.round((xnext - this.minx) * (canvasWidth / rangex)) : canvasWidth;
+ next = xpos + ((xposnext - xpos) / 2);
+ regionMap[i] = [last || 0, next, i];
+ last = next;
+ if (y === null) {
+ if (i) {
+ if (yvalues[i - 1] !== null) {
+ path = [];
+ paths.push(path);
+ }
+ vertices.push(null);
+ }
+ } else {
+ if (y < this.miny) {
+ y = this.miny;
+ }
+ if (y > this.maxy) {
+ y = this.maxy;
+ }
+ if (!path.length) {
+ // previous value was null
+ path.push([xpos, canvasTop + canvasHeight]);
+ }
+ vertex = [xpos, canvasTop + Math.round(canvasHeight - (canvasHeight * ((y - this.miny) / rangey)))];
+ path.push(vertex);
+ vertices.push(vertex);
+ }
+ }
+
+ lineShapes = [];
+ fillShapes = [];
+ plen = paths.length;
+ for (i = 0; i < plen; i++) {
+ path = paths[i];
+ if (path.length) {
+ if (options.get('fillColor')) {
+ path.push([path[path.length - 1][0], (canvasTop + canvasHeight)]);
+ fillShapes.push(path.slice(0));
+ path.pop();
+ }
+ // if there's only a single point in this path, then we want to display it
+ // as a vertical line which means we keep path[0] as is
+ if (path.length > 2) {
+ // else we want the first value
+ path[0] = [path[0][0], path[1][1]];
+ }
+ lineShapes.push(path);
+ }
+ }
+
+ // draw the fill first, then optionally the normal range, then the line on top of that
+ plen = fillShapes.length;
+ for (i = 0; i < plen; i++) {
+ target.drawShape(fillShapes[i],
+ options.get('fillColor'), options.get('fillColor')).append();
+ }
+
+ if (options.get('normalRangeMin') !== undefined && options.get('drawNormalOnTop')) {
+ this.drawNormalRange(canvasLeft, canvasTop, canvasHeight, canvasWidth, rangey);
+ }
+
+ plen = lineShapes.length;
+ for (i = 0; i < plen; i++) {
+ target.drawShape(lineShapes[i], options.get('lineColor'), undefined,
+ options.get('lineWidth')).append();
+ }
+
+ if (spotRadius && options.get('valueSpots')) {
+ valueSpots = options.get('valueSpots');
+ if (valueSpots.get === undefined) {
+ valueSpots = new RangeMap(valueSpots);
+ }
+ for (i = 0; i < yvalcount; i++) {
+ color = valueSpots.get(yvalues[i]);
+ if (color) {
+ target.drawCircle(canvasLeft + Math.round((xvalues[i] - this.minx) * (canvasWidth / rangex)),
+ canvasTop + Math.round(canvasHeight - (canvasHeight * ((yvalues[i] - this.miny) / rangey))),
+ spotRadius, undefined,
+ color).append();
+ }
+ }
+
+ }
+ if (spotRadius && options.get('spotColor') && yvalues[yvallast] !== null) {
+ target.drawCircle(canvasLeft + Math.round((xvalues[xvalues.length - 1] - this.minx) * (canvasWidth / rangex)),
+ canvasTop + Math.round(canvasHeight - (canvasHeight * ((yvalues[yvallast] - this.miny) / rangey))),
+ spotRadius, undefined,
+ options.get('spotColor')).append();
+ }
+ if (this.maxy !== this.minyorg) {
+ if (spotRadius && options.get('minSpotColor')) {
+ x = xvalues[$.inArray(this.minyorg, yvalues)];
+ target.drawCircle(canvasLeft + Math.round((x - this.minx) * (canvasWidth / rangex)),
+ canvasTop + Math.round(canvasHeight - (canvasHeight * ((this.minyorg - this.miny) / rangey))),
+ spotRadius, undefined,
+ options.get('minSpotColor')).append();
+ }
+ if (spotRadius && options.get('maxSpotColor')) {
+ x = xvalues[$.inArray(this.maxyorg, yvalues)];
+ target.drawCircle(canvasLeft + Math.round((x - this.minx) * (canvasWidth / rangex)),
+ canvasTop + Math.round(canvasHeight - (canvasHeight * ((this.maxyorg - this.miny) / rangey))),
+ spotRadius, undefined,
+ options.get('maxSpotColor')).append();
+ }
+ }
+
+ this.lastShapeId = target.getLastShapeId();
+ this.canvasTop = canvasTop;
+ target.render();
+ }
+ });
+
/**
* Bar charts
*/
chartRangeMin = options.get('chartRangeMin'),
chartRangeMax = options.get('chartRangeMax'),
chartRangeClip = options.get('chartRangeClip'),
- groupMin, groupMax,
+ stackMin = Infinity,
+ stackMax = -Infinity,
+ isStackString, groupMin, groupMax, stackRanges,
numValues, i, vlen, range, zeroAxis, xaxisOffset, min, max, clipMin, clipMax,
- vlist, j, slen, svals, val, yoffset, yMaxCalc, canvasHeightEf;
+ stacked, vlist, j, slen, svals, val, yoffset, yMaxCalc, canvasHeightEf;
bar._super.init.call(this, el, values, options, width, height);
+ // scan values to determine whether to stack bars
+ for (i = 0, vlen = values.length; i < vlen; i++) {
+ val = values[i];
+ isStackString = typeof(val) === 'string' && val.indexOf(':') > -1;
+ if (isStackString || $.isArray(val)) {
+ stacked = true;
+ if (isStackString) {
+ val = values[i] = normalizeValues(val.split(':'));
+ }
+ val = remove(val, null); // min/max will treat null as zero
+ groupMin = Math.min.apply(Math, val);
+ groupMax = Math.max.apply(Math, val);
+ if (groupMin < stackMin) {
+ stackMin = groupMin;
+ }
+ if (groupMax > stackMax) {
+ stackMax = groupMax;
+ }
+ }
+ }
+
+ this.stacked = stacked;
this.regionShapes = {};
this.barWidth = barWidth;
this.barSpacing = barSpacing;
}
numValues = [];
+ stackRanges = stacked ? [] : numValues;
+ var stackTotals = [];
+ var stackRangesNeg = [];
for (i = 0, vlen = values.length; i < vlen; i++) {
+ if (stacked) {
+ vlist = values[i];
+ values[i] = svals = [];
+ stackTotals[i] = 0;
+ stackRanges[i] = stackRangesNeg[i] = 0;
+ for (j = 0, slen = vlist.length; j < slen; j++) {
+ val = svals[j] = chartRangeClip ? clipval(vlist[j], clipMin, clipMax) : vlist[j];
+ if (val !== null) {
+ if (val > 0) {
+ stackTotals[i] += val;
+ }
+ if (stackMin < 0 && stackMax > 0) {
+ if (val < 0) {
+ stackRangesNeg[i] += Math.abs(val);
+ } else {
+ stackRanges[i] += val;
+ }
+ } else {
+ stackRanges[i] += Math.abs(val - (val < 0 ? stackMax : stackMin));
+ }
+ numValues.push(val);
+ }
+ }
+ } else {
val = chartRangeClip ? clipval(values[i], clipMin, clipMax) : values[i];
val = values[i] = normalizeValue(val);
if (val !== null) {
numValues.push(val);
}
+ }
}
this.max = max = Math.max.apply(Math, numValues);
this.min = min = Math.min.apply(Math, numValues);
+ this.stackMax = stackMax = stacked ? Math.max.apply(Math, stackTotals) : max;
+ this.stackMin = stackMin = stacked ? Math.min.apply(Math, numValues) : min;
if (options.get('chartRangeMin') !== undefined && (options.get('chartRangeClip') || options.get('chartRangeMin') < min)) {
min = options.get('chartRangeMin');
}
this.xaxisOffset = xaxisOffset;
- range = max - min;
+ range = stacked ? (Math.max.apply(Math, stackRanges) + Math.max.apply(Math, stackRangesNeg)) : max - min;
// as we plot zero/min values a single pixel line, we add a pixel to all other
// values - Reduce the effective canvas size to suit
this.canvasHeightEf = (zeroAxis && min < 0) ? this.canvasHeight - 2 : this.canvasHeight - 1;
if (min < xaxisOffset) {
- yMaxCalc = max;
+ yMaxCalc = (stacked && max >= 0) ? stackMax : max;
yoffset = (yMaxCalc - xaxisOffset) / range * this.canvasHeight;
if (yoffset !== Math.ceil(yoffset)) {
this.canvasHeightEf -= 2;
colorMapByValue = this.colorMapByValue,
options = this.options,
color, newColor;
+ if (this.stacked) {
+ color = options.get('stackedBarColor');
+ } else {
color = (value < 0) ? options.get('negBarColor') : options.get('barColor');
+ }
if (value === 0 && options.get('zeroColor') !== undefined) {
color = options.get('zeroColor');
}
xaxisOffset = this.xaxisOffset,
result = [],
range = this.range,
+ stacked = this.stacked,
target = this.target,
x = valuenum * this.totalBarWidth,
canvasHeightEf = this.canvasHeightEf,
for (i = 0; i < valcount; i++) {
val = vals[i];
+ if (stacked && val === xaxisOffset) {
+ if (!allMin || minPlotted) {
+ continue;
+ }
+ minPlotted = true;
+ }
+
if (range > 0) {
height = Math.floor(canvasHeightEf * ((Math.abs(val - xaxisOffset) / range))) + 1;
} else {
}
});
+ /**
+ * Tristate charts
+ */
+ $.fn.sparkline.tristate = tristate = createClass($.fn.sparkline._base, barHighlightMixin, {
+ type: 'tristate',
+
+ init: function (el, values, options, width, height) {
+ var barWidth = parseInt(options.get('barWidth'), 10),
+ barSpacing = parseInt(options.get('barSpacing'), 10);
+ tristate._super.init.call(this, el, values, options, width, height);
+
+ this.regionShapes = {};
+ this.barWidth = barWidth;
+ this.barSpacing = barSpacing;
+ this.totalBarWidth = barWidth + barSpacing;
+ this.values = $.map(values, Number);
+ this.width = width = (values.length * barWidth) + ((values.length - 1) * barSpacing);
+
+ if ($.isArray(options.get('colorMap'))) {
+ this.colorMapByIndex = options.get('colorMap');
+ this.colorMapByValue = null;
+ } else {
+ this.colorMapByIndex = null;
+ this.colorMapByValue = options.get('colorMap');
+ if (this.colorMapByValue && this.colorMapByValue.get === undefined) {
+ this.colorMapByValue = new RangeMap(this.colorMapByValue);
+ }
+ }
+ this.initTarget();
+ },
+
+ getRegion: function (el, x, y) {
+ return Math.floor(x / this.totalBarWidth);
+ },
+
+ getCurrentRegionFields: function () {
+ var currentRegion = this.currentRegion;
+ return {
+ isNull: this.values[currentRegion] === undefined,
+ value: this.values[currentRegion],
+ color: this.calcColor(this.values[currentRegion], currentRegion),
+ offset: currentRegion
+ };
+ },
+
+ calcColor: function (value, valuenum) {
+ var values = this.values,
+ options = this.options,
+ colorMapByIndex = this.colorMapByIndex,
+ colorMapByValue = this.colorMapByValue,
+ color, newColor;
+
+ if (colorMapByValue && (newColor = colorMapByValue.get(value))) {
+ color = newColor;
+ } else if (colorMapByIndex && colorMapByIndex.length > valuenum) {
+ color = colorMapByIndex[valuenum];
+ } else if (values[valuenum] < 0) {
+ color = options.get('negBarColor');
+ } else if (values[valuenum] > 0) {
+ color = options.get('posBarColor');
+ } else {
+ color = options.get('zeroBarColor');
+ }
+ return color;
+ },
+
+ renderRegion: function (valuenum, highlight) {
+ var values = this.values,
+ options = this.options,
+ target = this.target,
+ canvasHeight, height, halfHeight,
+ x, y, color;
+
+ canvasHeight = target.pixelHeight;
+ halfHeight = Math.round(canvasHeight / 2);
+
+ x = valuenum * this.totalBarWidth;
+ if (values[valuenum] < 0) {
+ y = halfHeight;
+ height = halfHeight - 1;
+ } else if (values[valuenum] > 0) {
+ y = 0;
+ height = halfHeight - 1;
+ } else {
+ y = halfHeight - 1;
+ height = 2;
+ }
+ color = this.calcColor(values[valuenum], valuenum);
+ if (color === null) {
+ return;
+ }
+ if (highlight) {
+ color = this.calcHighlightColor(color, options);
+ }
+ return target.drawRect(x, y, this.barWidth - 1, height - 1, color, color);
+ }
+ });
+
+ /**
+ * Discrete charts
+ */
+ $.fn.sparkline.discrete = discrete = createClass($.fn.sparkline._base, barHighlightMixin, {
+ type: 'discrete',
+
+ init: function (el, values, options, width, height) {
+ discrete._super.init.call(this, el, values, options, width, height);
+
+ this.regionShapes = {};
+ this.values = values = $.map(values, Number);
+ this.min = Math.min.apply(Math, values);
+ this.max = Math.max.apply(Math, values);
+ this.range = this.max - this.min;
+ this.width = width = options.get('width') === 'auto' ? values.length * 2 : this.width;
+ this.interval = Math.floor(width / values.length);
+ this.itemWidth = width / values.length;
+ if (options.get('chartRangeMin') !== undefined && (options.get('chartRangeClip') || options.get('chartRangeMin') < this.min)) {
+ this.min = options.get('chartRangeMin');
+ }
+ if (options.get('chartRangeMax') !== undefined && (options.get('chartRangeClip') || options.get('chartRangeMax') > this.max)) {
+ this.max = options.get('chartRangeMax');
+ }
+ this.initTarget();
+ if (this.target) {
+ this.lineHeight = options.get('lineHeight') === 'auto' ? Math.round(this.canvasHeight * 0.3) : options.get('lineHeight');
+ }
+ },
+
+ getRegion: function (el, x, y) {
+ return Math.floor(x / this.itemWidth);
+ },
+
+ getCurrentRegionFields: function () {
+ var currentRegion = this.currentRegion;
+ return {
+ isNull: this.values[currentRegion] === undefined,
+ value: this.values[currentRegion],
+ offset: currentRegion
+ };
+ },
+
+ renderRegion: function (valuenum, highlight) {
+ var values = this.values,
+ options = this.options,
+ min = this.min,
+ max = this.max,
+ range = this.range,
+ interval = this.interval,
+ target = this.target,
+ canvasHeight = this.canvasHeight,
+ lineHeight = this.lineHeight,
+ pheight = canvasHeight - lineHeight,
+ ytop, val, color, x;
+
+ val = clipval(values[valuenum], min, max);
+ x = valuenum * interval;
+ ytop = Math.round(pheight - pheight * ((val - min) / range));
+ color = (options.get('thresholdColor') && val < options.get('thresholdValue')) ? options.get('thresholdColor') : options.get('lineColor');
+ if (highlight) {
+ color = this.calcHighlightColor(color, options);
+ }
+ return target.drawLine(x, ytop, x, ytop + lineHeight, color);
+ }
+ });
+
+ /**
+ * Bullet charts
+ */
+ $.fn.sparkline.bullet = bullet = createClass($.fn.sparkline._base, {
+ type: 'bullet',
+
+ init: function (el, values, options, width, height) {
+ var min, max, vals;
+ bullet._super.init.call(this, el, values, options, width, height);
+
+ // values: target, performance, range1, range2, range3
+ this.values = values = normalizeValues(values);
+ // target or performance could be null
+ vals = values.slice();
+ vals[0] = vals[0] === null ? vals[2] : vals[0];
+ vals[1] = values[1] === null ? vals[2] : vals[1];
+ min = Math.min.apply(Math, values);
+ max = Math.max.apply(Math, values);
+ if (options.get('base') === undefined) {
+ min = min < 0 ? min : 0;
+ } else {
+ min = options.get('base');
+ }
+ this.min = min;
+ this.max = max;
+ this.range = max - min;
+ this.shapes = {};
+ this.valueShapes = {};
+ this.regiondata = {};
+ this.width = width = options.get('width') === 'auto' ? '4.0em' : width;
+ this.target = this.$el.simpledraw(width, height, options.get('composite'));
+ if (!values.length) {
+ this.disabled = true;
+ }
+ this.initTarget();
+ },
+
+ getRegion: function (el, x, y) {
+ var shapeid = this.target.getShapeAt(el, x, y);
+ return (shapeid !== undefined && this.shapes[shapeid] !== undefined) ? this.shapes[shapeid] : undefined;
+ },
+
+ getCurrentRegionFields: function () {
+ var currentRegion = this.currentRegion;
+ return {
+ fieldkey: currentRegion.substr(0, 1),
+ value: this.values[currentRegion.substr(1)],
+ region: currentRegion
+ };
+ },
+
+ changeHighlight: function (highlight) {
+ var currentRegion = this.currentRegion,
+ shapeid = this.valueShapes[currentRegion],
+ shape;
+ delete this.shapes[shapeid];
+ switch (currentRegion.substr(0, 1)) {
+ case 'r':
+ shape = this.renderRange(currentRegion.substr(1), highlight);
+ break;
+ case 'p':
+ shape = this.renderPerformance(highlight);
+ break;
+ case 't':
+ shape = this.renderTarget(highlight);
+ break;
+ }
+ this.valueShapes[currentRegion] = shape.id;
+ this.shapes[shape.id] = currentRegion;
+ this.target.replaceWithShape(shapeid, shape);
+ },
+
+ renderRange: function (rn, highlight) {
+ var rangeval = this.values[rn],
+ rangewidth = Math.round(this.canvasWidth * ((rangeval - this.min) / this.range)),
+ color = this.options.get('rangeColors')[rn - 2];
+ if (highlight) {
+ color = this.calcHighlightColor(color, this.options);
+ }
+ return this.target.drawRect(0, 0, rangewidth - 1, this.canvasHeight - 1, color, color);
+ },
+
+ renderPerformance: function (highlight) {
+ var perfval = this.values[1],
+ perfwidth = Math.round(this.canvasWidth * ((perfval - this.min) / this.range)),
+ color = this.options.get('performanceColor');
+ if (highlight) {
+ color = this.calcHighlightColor(color, this.options);
+ }
+ return this.target.drawRect(0, Math.round(this.canvasHeight * 0.3), perfwidth - 1,
+ Math.round(this.canvasHeight * 0.4) - 1, color, color);
+ },
+
+ renderTarget: function (highlight) {
+ var targetval = this.values[0],
+ x = Math.round(this.canvasWidth * ((targetval - this.min) / this.range) - (this.options.get('targetWidth') / 2)),
+ targettop = Math.round(this.canvasHeight * 0.10),
+ targetheight = this.canvasHeight - (targettop * 2),
+ color = this.options.get('targetColor');
+ if (highlight) {
+ color = this.calcHighlightColor(color, this.options);
+ }
+ return this.target.drawRect(x, targettop, this.options.get('targetWidth') - 1, targetheight - 1, color, color);
+ },
+
+ render: function () {
+ var vlen = this.values.length,
+ target = this.target,
+ i, shape;
+ if (!bullet._super.render.call(this)) {
+ return;
+ }
+ for (i = 2; i < vlen; i++) {
+ shape = this.renderRange(i).append();
+ this.shapes[shape.id] = 'r' + i;
+ this.valueShapes['r' + i] = shape.id;
+ }
+ if (this.values[1] !== null) {
+ shape = this.renderPerformance().append();
+ this.shapes[shape.id] = 'p1';
+ this.valueShapes.p1 = shape.id;
+ }
+ if (this.values[0] !== null) {
+ shape = this.renderTarget().append();
+ this.shapes[shape.id] = 't0';
+ this.valueShapes.t0 = shape.id;
+ }
+ target.render();
+ }
+ });
+
+ /**
+ * Pie charts
+ */
+ $.fn.sparkline.pie = pie = createClass($.fn.sparkline._base, {
+ type: 'pie',
+
+ init: function (el, values, options, width, height) {
+ var total = 0, i;
+
+ pie._super.init.call(this, el, values, options, width, height);
+
+ this.shapes = {}; // map shape ids to value offsets
+ this.valueShapes = {}; // maps value offsets to shape ids
+ this.values = values = $.map(values, Number);
+
+ if (options.get('width') === 'auto') {
+ this.width = this.height;
+ }
+
+ if (values.length > 0) {
+ for (i = values.length; i--;) {
+ total += values[i];
+ }
+ }
+ this.total = total;
+ this.initTarget();
+ this.radius = Math.floor(Math.min(this.canvasWidth, this.canvasHeight) / 2);
+ },
+
+ getRegion: function (el, x, y) {
+ var shapeid = this.target.getShapeAt(el, x, y);
+ return (shapeid !== undefined && this.shapes[shapeid] !== undefined) ? this.shapes[shapeid] : undefined;
+ },
+
+ getCurrentRegionFields: function () {
+ var currentRegion = this.currentRegion;
+ return {
+ isNull: this.values[currentRegion] === undefined,
+ value: this.values[currentRegion],
+ percent: this.values[currentRegion] / this.total * 100,
+ color: this.options.get('sliceColors')[currentRegion % this.options.get('sliceColors').length],
+ offset: currentRegion
+ };
+ },
+
+ changeHighlight: function (highlight) {
+ var currentRegion = this.currentRegion,
+ newslice = this.renderSlice(currentRegion, highlight),
+ shapeid = this.valueShapes[currentRegion];
+ delete this.shapes[shapeid];
+ this.target.replaceWithShape(shapeid, newslice);
+ this.valueShapes[currentRegion] = newslice.id;
+ this.shapes[newslice.id] = currentRegion;
+ },
+
+ renderSlice: function (valuenum, highlight) {
+ var target = this.target,
+ options = this.options,
+ radius = this.radius,
+ borderWidth = options.get('borderWidth'),
+ offset = options.get('offset'),
+ circle = 2 * Math.PI,
+ values = this.values,
+ total = this.total,
+ next = offset ? (2*Math.PI)*(offset/360) : 0,
+ start, end, i, vlen, color;
+
+ vlen = values.length;
+ for (i = 0; i < vlen; i++) {
+ start = next;
+ end = next;
+ if (total > 0) { // avoid divide by zero
+ end = next + (circle * (values[i] / total));
+ }
+ if (valuenum === i) {
+ color = options.get('sliceColors')[i % options.get('sliceColors').length];
+ if (highlight) {
+ color = this.calcHighlightColor(color, options);
+ }
+
+ return target.drawPieSlice(radius, radius, radius - borderWidth, start, end, undefined, color);
+ }
+ next = end;
+ }
+ },
+
+ render: function () {
+ var target = this.target,
+ values = this.values,
+ options = this.options,
+ radius = this.radius,
+ borderWidth = options.get('borderWidth'),
+ shape, i;
+
+ if (!pie._super.render.call(this)) {
+ return;
+ }
+ if (borderWidth) {
+ target.drawCircle(radius, radius, Math.floor(radius - (borderWidth / 2)),
+ options.get('borderColor'), undefined, borderWidth).append();
+ }
+ for (i = values.length; i--;) {
+ if (values[i]) { // don't render zero values
+ shape = this.renderSlice(i).append();
+ this.valueShapes[i] = shape.id; // store just the shapeid
+ this.shapes[shape.id] = i;
+ }
+ }
+ target.render();
+ }
+ });
+
+ /**
+ * Box plots
+ */
+ $.fn.sparkline.box = box = createClass($.fn.sparkline._base, {
+ type: 'box',
+
+ init: function (el, values, options, width, height) {
+ box._super.init.call(this, el, values, options, width, height);
+ this.values = $.map(values, Number);
+ this.width = options.get('width') === 'auto' ? '4.0em' : width;
+ this.initTarget();
+ if (!this.values.length) {
+ this.disabled = 1;
+ }
+ },
+
+ /**
+ * Simulate a single region
+ */
+ getRegion: function () {
+ return 1;
+ },
+
+ getCurrentRegionFields: function () {
+ var result = [
+ { field: 'lq', value: this.quartiles[0] },
+ { field: 'med', value: this.quartiles[1] },
+ { field: 'uq', value: this.quartiles[2] }
+ ];
+ if (this.loutlier !== undefined) {
+ result.push({ field: 'lo', value: this.loutlier});
+ }
+ if (this.routlier !== undefined) {
+ result.push({ field: 'ro', value: this.routlier});
+ }
+ if (this.lwhisker !== undefined) {
+ result.push({ field: 'lw', value: this.lwhisker});
+ }
+ if (this.rwhisker !== undefined) {
+ result.push({ field: 'rw', value: this.rwhisker});
+ }
+ return result;
+ },
+
+ render: function () {
+ var target = this.target,
+ values = this.values,
+ vlen = values.length,
+ options = this.options,
+ canvasWidth = this.canvasWidth,
+ canvasHeight = this.canvasHeight,
+ minValue = options.get('chartRangeMin') === undefined ? Math.min.apply(Math, values) : options.get('chartRangeMin'),
+ maxValue = options.get('chartRangeMax') === undefined ? Math.max.apply(Math, values) : options.get('chartRangeMax'),
+ canvasLeft = 0,
+ lwhisker, loutlier, iqr, q1, q2, q3, rwhisker, routlier, i,
+ size, unitSize;
+
+ if (!box._super.render.call(this)) {
+ return;
+ }
+
+ if (options.get('raw')) {
+ if (options.get('showOutliers') && values.length > 5) {
+ loutlier = values[0];
+ lwhisker = values[1];
+ q1 = values[2];
+ q2 = values[3];
+ q3 = values[4];
+ rwhisker = values[5];
+ routlier = values[6];
+ } else {
+ lwhisker = values[0];
+ q1 = values[1];
+ q2 = values[2];
+ q3 = values[3];
+ rwhisker = values[4];
+ }
+ } else {
+ values.sort(function (a, b) { return a - b; });
+ q1 = quartile(values, 1);
+ q2 = quartile(values, 2);
+ q3 = quartile(values, 3);
+ iqr = q3 - q1;
+ if (options.get('showOutliers')) {
+ lwhisker = rwhisker = undefined;
+ for (i = 0; i < vlen; i++) {
+ if (lwhisker === undefined && values[i] > q1 - (iqr * options.get('outlierIQR'))) {
+ lwhisker = values[i];
+ }
+ if (values[i] < q3 + (iqr * options.get('outlierIQR'))) {
+ rwhisker = values[i];
+ }
+ }
+ loutlier = values[0];
+ routlier = values[vlen - 1];
+ } else {
+ lwhisker = values[0];
+ rwhisker = values[vlen - 1];
+ }
+ }
+ this.quartiles = [q1, q2, q3];
+ this.lwhisker = lwhisker;
+ this.rwhisker = rwhisker;
+ this.loutlier = loutlier;
+ this.routlier = routlier;
+
+ unitSize = canvasWidth / (maxValue - minValue + 1);
+ if (options.get('showOutliers')) {
+ canvasLeft = Math.ceil(options.get('spotRadius'));
+ canvasWidth -= 2 * Math.ceil(options.get('spotRadius'));
+ unitSize = canvasWidth / (maxValue - minValue + 1);
+ if (loutlier < lwhisker) {
+ target.drawCircle((loutlier - minValue) * unitSize + canvasLeft,
+ canvasHeight / 2,
+ options.get('spotRadius'),
+ options.get('outlierLineColor'),
+ options.get('outlierFillColor')).append();
+ }
+ if (routlier > rwhisker) {
+ target.drawCircle((routlier - minValue) * unitSize + canvasLeft,
+ canvasHeight / 2,
+ options.get('spotRadius'),
+ options.get('outlierLineColor'),
+ options.get('outlierFillColor')).append();
+ }
+ }
+
+ // box
+ target.drawRect(
+ Math.round((q1 - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight * 0.1),
+ Math.round((q3 - q1) * unitSize),
+ Math.round(canvasHeight * 0.8),
+ options.get('boxLineColor'),
+ options.get('boxFillColor')).append();
+ // left whisker
+ target.drawLine(
+ Math.round((lwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 2),
+ Math.round((q1 - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 2),
+ options.get('lineColor')).append();
+ target.drawLine(
+ Math.round((lwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 4),
+ Math.round((lwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight - canvasHeight / 4),
+ options.get('whiskerColor')).append();
+ // right whisker
+ target.drawLine(Math.round((rwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 2),
+ Math.round((q3 - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 2),
+ options.get('lineColor')).append();
+ target.drawLine(
+ Math.round((rwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight / 4),
+ Math.round((rwhisker - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight - canvasHeight / 4),
+ options.get('whiskerColor')).append();
+ // median line
+ target.drawLine(
+ Math.round((q2 - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight * 0.1),
+ Math.round((q2 - minValue) * unitSize + canvasLeft),
+ Math.round(canvasHeight * 0.9),
+ options.get('medianColor')).append();
+ if (options.get('target')) {
+ size = Math.ceil(options.get('spotRadius'));
+ target.drawLine(
+ Math.round((options.get('target') - minValue) * unitSize + canvasLeft),
+ Math.round((canvasHeight / 2) - size),
+ Math.round((options.get('target') - minValue) * unitSize + canvasLeft),
+ Math.round((canvasHeight / 2) + size),
+ options.get('targetColor')).append();
+ target.drawLine(
+ Math.round((options.get('target') - minValue) * unitSize + canvasLeft - size),
+ Math.round(canvasHeight / 2),
+ Math.round((options.get('target') - minValue) * unitSize + canvasLeft + size),
+ Math.round(canvasHeight / 2),
+ options.get('targetColor')).append();
+ }
+ target.render();
+ }
+ });
+
// Setup a very simple "virtual canvas" to make drawing the few shapes we need easier
// This is accessible as $(foo).simpledraw()
return this._genShape('Shape', [path, lineColor, fillColor, lineWidth]);
},
+ drawCircle: function (x, y, radius, lineColor, fillColor, lineWidth) {
+ return this._genShape('Circle', [x, y, radius, lineColor, fillColor, lineWidth]);
+ },
+
+ drawPieSlice: function (x, y, radius, startAngle, endAngle, lineColor, fillColor) {
+ return this._genShape('PieSlice', [x, y, radius, startAngle, endAngle, lineColor, fillColor]);
+ },
+
drawRect: function (x, y, width, height, lineColor, fillColor) {
return this._genShape('Rect', [x, y, width, height, lineColor, fillColor]);
},
}
},
+ _drawCircle: function (shapeid, x, y, radius, lineColor, fillColor, lineWidth) {
+ var context = this._getContext(lineColor, fillColor, lineWidth);
+ context.beginPath();
+ context.arc(x, y, radius, 0, 2 * Math.PI, false);
+ if (this.targetX !== undefined && this.targetY !== undefined &&
+ context.isPointInPath(this.targetX, this.targetY)) {
+ this.currentTargetShapeId = shapeid;
+ }
+ if (lineColor !== undefined) {
+ context.stroke();
+ }
+ if (fillColor !== undefined) {
+ context.fill();
+ }
+ },
+
+ _drawPieSlice: function (shapeid, x, y, radius, startAngle, endAngle, lineColor, fillColor) {
+ var context = this._getContext(lineColor, fillColor);
+ context.beginPath();
+ context.moveTo(x, y);
+ context.arc(x, y, radius, startAngle, endAngle, false);
+ context.lineTo(x, y);
+ context.closePath();
+ if (lineColor !== undefined) {
+ context.stroke();
+ }
+ if (fillColor) {
+ context.fill();
+ }
+ if (this.targetX !== undefined && this.targetY !== undefined &&
+ context.isPointInPath(this.targetX, this.targetY)) {
+ this.currentTargetShapeId = shapeid;
+ }
+ },
+
_drawRect: function (shapeid, x, y, width, height, lineColor, fillColor) {
return this._drawShape(shapeid, [[x, y], [x + width, y], [x + width, y + height], [x, y + height], [x, y]], lineColor, fillColor);
},
}
});
+
+ VCanvas_vml = createClass(VCanvas_base, {
+ init: function (width, height, target) {
+ var groupel;
+ VCanvas_vml._super.init.call(this, width, height, target);
+ if (target[0]) {
+ target = target[0];
+ }
+ $.data(target, '_jqs_vcanvas', this);
+ this.canvas = document.createElement('span');
+ $(this.canvas).css({ display: 'inline-block', position: 'relative', overflow: 'hidden', width: width, height: height, margin: '0px', padding: '0px', verticalAlign: 'top'});
+ this._insert(this.canvas, target);
+ this._calculatePixelDims(width, height, this.canvas);
+ this.canvas.width = this.pixelWidth;
+ this.canvas.height = this.pixelHeight;
+ groupel = '<v:group coordorigin="0 0" coordsize="' + this.pixelWidth + ' ' + this.pixelHeight + '"' +
+ ' style="position:absolute;top:0;left:0;width:' + this.pixelWidth + 'px;height=' + this.pixelHeight + 'px;"></v:group>';
+ this.canvas.insertAdjacentHTML('beforeEnd', groupel);
+ this.group = $(this.canvas).children()[0];
+ this.rendered = false;
+ this.prerender = '';
+ },
+
+ _drawShape: function (shapeid, path, lineColor, fillColor, lineWidth) {
+ var vpath = [],
+ initial, stroke, fill, closed, vel, plen, i;
+ for (i = 0, plen = path.length; i < plen; i++) {
+ vpath[i] = '' + (path[i][0]) + ',' + (path[i][1]);
+ }
+ initial = vpath.splice(0, 1);
+ lineWidth = lineWidth === undefined ? 1 : lineWidth;
+ stroke = lineColor === undefined ? ' stroked="false" ' : ' strokeWeight="' + lineWidth + 'px" strokeColor="' + lineColor + '" ';
+ fill = fillColor === undefined ? ' filled="false"' : ' fillColor="' + fillColor + '" filled="true" ';
+ closed = vpath[0] === vpath[vpath.length - 1] ? 'x ' : '';
+ vel = '<v:shape coordorigin="0 0" coordsize="' + this.pixelWidth + ' ' + this.pixelHeight + '" ' +
+ ' id="jqsshape' + shapeid + '" ' +
+ stroke +
+ fill +
+ ' style="position:absolute;left:0px;top:0px;height:' + this.pixelHeight + 'px;width:' + this.pixelWidth + 'px;padding:0px;margin:0px;" ' +
+ ' path="m ' + initial + ' l ' + vpath.join(', ') + ' ' + closed + 'e">' +
+ ' </v:shape>';
+ return vel;
+ },
+
+ _drawCircle: function (shapeid, x, y, radius, lineColor, fillColor, lineWidth) {
+ var stroke, fill, vel;
+ x -= radius;
+ y -= radius;
+ stroke = lineColor === undefined ? ' stroked="false" ' : ' strokeWeight="' + lineWidth + 'px" strokeColor="' + lineColor + '" ';
+ fill = fillColor === undefined ? ' filled="false"' : ' fillColor="' + fillColor + '" filled="true" ';
+ vel = '<v:oval ' +
+ ' id="jqsshape' + shapeid + '" ' +
+ stroke +
+ fill +
+ ' style="position:absolute;top:' + y + 'px; left:' + x + 'px; width:' + (radius * 2) + 'px; height:' + (radius * 2) + 'px"></v:oval>';
+ return vel;
+
+ },
+
+ _drawPieSlice: function (shapeid, x, y, radius, startAngle, endAngle, lineColor, fillColor) {
+ var vpath, startx, starty, endx, endy, stroke, fill, vel;
+ if (startAngle === endAngle) {
+ return ''; // VML seems to have problem when start angle equals end angle.
+ }
+ if ((endAngle - startAngle) === (2 * Math.PI)) {
+ startAngle = 0.0; // VML seems to have a problem when drawing a full circle that doesn't start 0
+ endAngle = (2 * Math.PI);
+ }
+
+ startx = x + Math.round(Math.cos(startAngle) * radius);
+ starty = y + Math.round(Math.sin(startAngle) * radius);
+ endx = x + Math.round(Math.cos(endAngle) * radius);
+ endy = y + Math.round(Math.sin(endAngle) * radius);
+
+ if (startx === endx && starty === endy) {
+ if ((endAngle - startAngle) < Math.PI) {
+ // Prevent very small slices from being mistaken as a whole pie
+ return '';
+ }
+ // essentially going to be the entire circle, so ignore startAngle
+ startx = endx = x + radius;
+ starty = endy = y;
+ }
+
+ if (startx === endx && starty === endy && (endAngle - startAngle) < Math.PI) {
+ return '';
+ }
+
+ vpath = [x - radius, y - radius, x + radius, y + radius, startx, starty, endx, endy];
+ stroke = lineColor === undefined ? ' stroked="false" ' : ' strokeWeight="1px" strokeColor="' + lineColor + '" ';
+ fill = fillColor === undefined ? ' filled="false"' : ' fillColor="' + fillColor + '" filled="true" ';
+ vel = '<v:shape coordorigin="0 0" coordsize="' + this.pixelWidth + ' ' + this.pixelHeight + '" ' +
+ ' id="jqsshape' + shapeid + '" ' +
+ stroke +
+ fill +
+ ' style="position:absolute;left:0px;top:0px;height:' + this.pixelHeight + 'px;width:' + this.pixelWidth + 'px;padding:0px;margin:0px;" ' +
+ ' path="m ' + x + ',' + y + ' wa ' + vpath.join(', ') + ' x e">' +
+ ' </v:shape>';
+ return vel;
+ },
+
+ _drawRect: function (shapeid, x, y, width, height, lineColor, fillColor) {
+ return this._drawShape(shapeid, [[x, y], [x, y + height], [x + width, y + height], [x + width, y], [x, y]], lineColor, fillColor);
+ },
+
+ reset: function () {
+ this.group.innerHTML = '';
+ },
+
+ appendShape: function (shape) {
+ var vel = this['_draw' + shape.type].apply(this, shape.args);
+ if (this.rendered) {
+ this.group.insertAdjacentHTML('beforeEnd', vel);
+ } else {
+ this.prerender += vel;
+ }
+ this.lastShapeId = shape.id;
+ return shape.id;
+ },
+
+ replaceWithShape: function (shapeid, shape) {
+ var existing = $('#jqsshape' + shapeid),
+ vel = this['_draw' + shape.type].apply(this, shape.args);
+ existing[0].outerHTML = vel;
+ },
+
+ replaceWithShapes: function (shapeids, shapes) {
+ // replace the first shapeid with all the new shapes then toast the remaining old shapes
+ var existing = $('#jqsshape' + shapeids[0]),
+ replace = '',
+ slen = shapes.length,
+ i;
+ for (i = 0; i < slen; i++) {
+ replace += this['_draw' + shapes[i].type].apply(this, shapes[i].args);
+ }
+ existing[0].outerHTML = replace;
+ for (i = 1; i < shapeids.length; i++) {
+ $('#jqsshape' + shapeids[i]).remove();
+ }
+ },
+
+ insertAfterShape: function (shapeid, shape) {
+ var existing = $('#jqsshape' + shapeid),
+ vel = this['_draw' + shape.type].apply(this, shape.args);
+ existing[0].insertAdjacentHTML('afterEnd', vel);
+ },
+
+ removeShapeId: function (shapeid) {
+ var existing = $('#jqsshape' + shapeid);
+ this.group.removeChild(existing[0]);
+ },
+
+ getShapeAt: function (el, x, y) {
+ var shapeid = el.id.substr(8);
+ return shapeid;
+ },
+
+ render: function () {
+ if (!this.rendered) {
+ // batch the intial render into a single repaint
+ this.group.innerHTML = this.prerender;
+ this.rendered = true;
+ }
+ }
+ });
+
}))}(document, Math));