/*! * g.Raphael 0.51 - Charting library, based on Raphaƫl * * Copyright (c) 2009-2012 Dmitry Baranovskiy (http://g.raphaeljs.com) * Licensed under the MIT (http://www.opensource.org/licenses/mit-license.php) license. */ /* * Tooltips on Element prototype */ /*\ * Element.popup [ method ] ** * Puts the context Element in a 'popup' tooltip. Can also be used on sets. ** > Parameters ** - dir (string) location of Element relative to the tail: `'down'`, `'left'`, `'up'` [default], or `'right'`. - size (number) amount of bevel/padding around the Element, as well as half the width and height of the tail [default: `5`] - x (number) x coordinate of the popup's tail [default: Element's `x` or `cx`] - y (number) y coordinate of the popup's tail [default: Element's `y` or `cy`] ** = (object) path element of the popup \*/ Raphael.el.popup = function (dir, size, x, y) { var paper = this.paper || this[0].paper, bb, xy, center, cw, ch; if (!paper) return; switch (this.type) { case 'text': case 'circle': case 'ellipse': center = true; break; default: center = false; } dir = dir == null ? 'up' : dir; size = size || 5; bb = this.getBBox(); x = typeof x == 'number' ? x : (center ? bb.x + bb.width / 2 : bb.x); y = typeof y == 'number' ? y : (center ? bb.y + bb.height / 2 : bb.y); cw = Math.max(bb.width / 2 - size, 0); ch = Math.max(bb.height / 2 - size, 0); this.translate(x - bb.x - (center ? bb.width / 2 : 0), y - bb.y - (center ? bb.height / 2 : 0)); bb = this.getBBox(); var paths = { up: [ 'M', x, y, 'l', -size, -size, -cw, 0, 'a', size, size, 0, 0, 1, -size, -size, 'l', 0, -bb.height, 'a', size, size, 0, 0, 1, size, -size, 'l', size * 2 + cw * 2, 0, 'a', size, size, 0, 0, 1, size, size, 'l', 0, bb.height, 'a', size, size, 0, 0, 1, -size, size, 'l', -cw, 0, 'z' ].join(','), down: [ 'M', x, y, 'l', size, size, cw, 0, 'a', size, size, 0, 0, 1, size, size, 'l', 0, bb.height, 'a', size, size, 0, 0, 1, -size, size, 'l', -(size * 2 + cw * 2), 0, 'a', size, size, 0, 0, 1, -size, -size, 'l', 0, -bb.height, 'a', size, size, 0, 0, 1, size, -size, 'l', cw, 0, 'z' ].join(','), left: [ 'M', x, y, 'l', -size, size, 0, ch, 'a', size, size, 0, 0, 1, -size, size, 'l', -bb.width, 0, 'a', size, size, 0, 0, 1, -size, -size, 'l', 0, -(size * 2 + ch * 2), 'a', size, size, 0, 0, 1, size, -size, 'l', bb.width, 0, 'a', size, size, 0, 0, 1, size, size, 'l', 0, ch, 'z' ].join(','), right: [ 'M', x, y, 'l', size, -size, 0, -ch, 'a', size, size, 0, 0, 1, size, -size, 'l', bb.width, 0, 'a', size, size, 0, 0, 1, size, size, 'l', 0, size * 2 + ch * 2, 'a', size, size, 0, 0, 1, -size, size, 'l', -bb.width, 0, 'a', size, size, 0, 0, 1, -size, -size, 'l', 0, -ch, 'z' ].join(',') }; xy = { up: { x: -!center * (bb.width / 2), y: -size * 2 - (center ? bb.height / 2 : bb.height) }, down: { x: -!center * (bb.width / 2), y: size * 2 + (center ? bb.height / 2 : bb.height) }, left: { x: -size * 2 - (center ? bb.width / 2 : bb.width), y: -!center * (bb.height / 2) }, right: { x: size * 2 + (center ? bb.width / 2 : bb.width), y: -!center * (bb.height / 2) } }[dir]; this.translate(xy.x, xy.y); return paper.path(paths[dir]).attr({ fill: "#000", stroke: "none" }).insertBefore(this.node ? this : this[0]); }; /*\ * Element.tag [ method ] ** * Puts the context Element in a 'tag' tooltip. Can also be used on sets. ** > Parameters ** - angle (number) angle of orientation in degrees [default: `0`] - r (number) radius of the loop [default: `5`] - x (number) x coordinate of the center of the tag loop [default: Element's `x` or `cx`] - y (number) y coordinate of the center of the tag loop [default: Element's `x` or `cx`] ** = (object) path element of the tag \*/ Raphael.el.tag = function (angle, r, x, y) { var d = 3, paper = this.paper || this[0].paper; if (!paper) return; var p = paper.path().attr({ fill: '#000', stroke: '#000' }), bb = this.getBBox(), dx, R, center, tmp; switch (this.type) { case 'text': case 'circle': case 'ellipse': center = true; break; default: center = false; } angle = angle || 0; x = typeof x == 'number' ? x : (center ? bb.x + bb.width / 2 : bb.x); y = typeof y == 'number' ? y : (center ? bb.y + bb.height / 2 : bb.y); r = r == null ? 5 : r; R = .5522 * r; if (bb.height >= r * 2) { p.attr({ path: [ "M", x, y + r, "a", r, r, 0, 1, 1, 0, -r * 2, r, r, 0, 1, 1, 0, r * 2, "m", 0, -r * 2 -d, "a", r + d, r + d, 0, 1, 0, 0, (r + d) * 2, "L", x + r + d, y + bb.height / 2 + d, "l", bb.width + 2 * d, 0, 0, -bb.height - 2 * d, -bb.width - 2 * d, 0, "L", x, y - r - d ].join(",") }); } else { dx = Math.sqrt(Math.pow(r + d, 2) - Math.pow(bb.height / 2 + d, 2)); p.attr({ path: [ "M", x, y + r, "c", -R, 0, -r, R - r, -r, -r, 0, -R, r - R, -r, r, -r, R, 0, r, r - R, r, r, 0, R, R - r, r, -r, r, "M", x + dx, y - bb.height / 2 - d, "a", r + d, r + d, 0, 1, 0, 0, bb.height + 2 * d, "l", r + d - dx + bb.width + 2 * d, 0, 0, -bb.height - 2 * d, "L", x + dx, y - bb.height / 2 - d ].join(",") }); } angle = 360 - angle; p.rotate(angle, x, y); if (this.attrs) { //elements this.attr(this.attrs.x ? 'x' : 'cx', x + r + d + (!center ? this.type == 'text' ? bb.width : 0 : bb.width / 2)).attr('y', center ? y : y - bb.height / 2); this.rotate(angle, x, y); angle > 90 && angle < 270 && this.attr(this.attrs.x ? 'x' : 'cx', x - r - d - (!center ? bb.width : bb.width / 2)).rotate(180, x, y); } else { //sets if (angle > 90 && angle < 270) { this.translate(x - bb.x - bb.width - r - d, y - bb.y - bb.height / 2); this.rotate(angle - 180, bb.x + bb.width + r + d, bb.y + bb.height / 2); } else { this.translate(x - bb.x + r + d, y - bb.y - bb.height / 2); this.rotate(angle, bb.x - r - d, bb.y + bb.height / 2); } } return p.insertBefore(this.node ? this : this[0]); }; /*\ * Element.drop [ method ] ** * Puts the context Element in a 'drop' tooltip. Can also be used on sets. ** > Parameters ** - angle (number) angle of orientation in degrees [default: `0`] - x (number) x coordinate of the drop's point [default: Element's `x` or `cx`] - y (number) y coordinate of the drop's point [default: Element's `x` or `cx`] ** = (object) path element of the drop \*/ Raphael.el.drop = function (angle, x, y) { var bb = this.getBBox(), paper = this.paper || this[0].paper, center, size, p, dx, dy; if (!paper) return; switch (this.type) { case 'text': case 'circle': case 'ellipse': center = true; break; default: center = false; } angle = angle || 0; x = typeof x == 'number' ? x : (center ? bb.x + bb.width / 2 : bb.x); y = typeof y == 'number' ? y : (center ? bb.y + bb.height / 2 : bb.y); size = Math.max(bb.width, bb.height) + Math.min(bb.width, bb.height); p = paper.path([ "M", x, y, "l", size, 0, "A", size * .4, size * .4, 0, 1, 0, x + size * .7, y - size * .7, "z" ]).attr({fill: "#000", stroke: "none"}).rotate(22.5 - angle, x, y); angle = (angle + 90) * Math.PI / 180; dx = (x + size * Math.sin(angle)) - (center ? 0 : bb.width / 2); dy = (y + size * Math.cos(angle)) - (center ? 0 : bb.height / 2); this.attrs ? this.attr(this.attrs.x ? 'x' : 'cx', dx).attr(this.attrs.y ? 'y' : 'cy', dy) : this.translate(dx - bb.x, dy - bb.y); return p.insertBefore(this.node ? this : this[0]); }; /*\ * Element.flag [ method ] ** * Puts the context Element in a 'flag' tooltip. Can also be used on sets. ** > Parameters ** - angle (number) angle of orientation in degrees [default: `0`] - x (number) x coordinate of the flag's point [default: Element's `x` or `cx`] - y (number) y coordinate of the flag's point [default: Element's `x` or `cx`] ** = (object) path element of the flag \*/ Raphael.el.flag = function (angle, x, y) { var d = 3, paper = this.paper || this[0].paper; if (!paper) return; var p = paper.path().attr({ fill: '#000', stroke: '#000' }), bb = this.getBBox(), h = bb.height / 2, center; switch (this.type) { case 'text': case 'circle': case 'ellipse': center = true; break; default: center = false; } angle = angle || 0; x = typeof x == 'number' ? x : (center ? bb.x + bb.width / 2 : bb.x); y = typeof y == 'number' ? y : (center ? bb.y + bb.height / 2: bb.y); p.attr({ path: [ "M", x, y, "l", h + d, -h - d, bb.width + 2 * d, 0, 0, bb.height + 2 * d, -bb.width - 2 * d, 0, "z" ].join(",") }); angle = 360 - angle; p.rotate(angle, x, y); if (this.attrs) { //elements this.attr(this.attrs.x ? 'x' : 'cx', x + h + d + (!center ? this.type == 'text' ? bb.width : 0 : bb.width / 2)).attr('y', center ? y : y - bb.height / 2); this.rotate(angle, x, y); angle > 90 && angle < 270 && this.attr(this.attrs.x ? 'x' : 'cx', x - h - d - (!center ? bb.width : bb.width / 2)).rotate(180, x, y); } else { //sets if (angle > 90 && angle < 270) { this.translate(x - bb.x - bb.width - h - d, y - bb.y - bb.height / 2); this.rotate(angle - 180, bb.x + bb.width + h + d, bb.y + bb.height / 2); } else { this.translate(x - bb.x + h + d, y - bb.y - bb.height / 2); this.rotate(angle, bb.x - h - d, bb.y + bb.height / 2); } } return p.insertBefore(this.node ? this : this[0]); }; /*\ * Element.label [ method ] ** * Puts the context Element in a 'label' tooltip. Can also be used on sets. ** = (object) path element of the label. \*/ Raphael.el.label = function () { var bb = this.getBBox(), paper = this.paper || this[0].paper, r = Math.min(20, bb.width + 10, bb.height + 10) / 2; if (!paper) return; return paper.rect(bb.x - r / 2, bb.y - r / 2, bb.width + r, bb.height + r, r).attr({ stroke: 'none', fill: '#000' }).insertBefore(this.node ? this : this[0]); }; /*\ * Element.blob [ method ] ** * Puts the context Element in a 'blob' tooltip. Can also be used on sets. ** > Parameters ** - angle (number) angle of orientation in degrees [default: `0`] - x (number) x coordinate of the blob's tail [default: Element's `x` or `cx`] - y (number) y coordinate of the blob's tail [default: Element's `x` or `cx`] ** = (object) path element of the blob \*/ Raphael.el.blob = function (angle, x, y) { var bb = this.getBBox(), rad = Math.PI / 180, paper = this.paper || this[0].paper, p, center, size; if (!paper) return; switch (this.type) { case 'text': case 'circle': case 'ellipse': center = true; break; default: center = false; } p = paper.path().attr({ fill: "#000", stroke: "none" }); angle = (+angle + 1 ? angle : 45) + 90; size = Math.min(bb.height, bb.width); x = typeof x == 'number' ? x : (center ? bb.x + bb.width / 2 : bb.x); y = typeof y == 'number' ? y : (center ? bb.y + bb.height / 2 : bb.y); var w = Math.max(bb.width + size, size * 25 / 12), h = Math.max(bb.height + size, size * 25 / 12), x2 = x + size * Math.sin((angle - 22.5) * rad), y2 = y + size * Math.cos((angle - 22.5) * rad), x1 = x + size * Math.sin((angle + 22.5) * rad), y1 = y + size * Math.cos((angle + 22.5) * rad), dx = (x1 - x2) / 2, dy = (y1 - y2) / 2, rx = w / 2, ry = h / 2, k = -Math.sqrt(Math.abs(rx * rx * ry * ry - rx * rx * dy * dy - ry * ry * dx * dx) / (rx * rx * dy * dy + ry * ry * dx * dx)), cx = k * rx * dy / ry + (x1 + x2) / 2, cy = k * -ry * dx / rx + (y1 + y2) / 2; p.attr({ x: cx, y: cy, path: [ "M", x, y, "L", x1, y1, "A", rx, ry, 0, 1, 1, x2, y2, "z" ].join(",") }); this.translate(cx - bb.x - bb.width / 2, cy - bb.y - bb.height / 2); return p.insertBefore(this.node ? this : this[0]); }; /* * Tooltips on Paper prototype */ /*\ * Paper.label [ method ] ** * Puts the given `text` into a 'label' tooltip. The text is given a default style according to @g.txtattr. See @Element.label ** > Parameters ** - x (number) x coordinate of the center of the label - y (number) y coordinate of the center of the label - text (string) text to place inside the label ** = (object) set containing the label path and the text element > Usage | paper.label(50, 50, "$9.99"); \*/ Raphael.fn.label = function (x, y, text) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.label(), text); }; /*\ * Paper.popup [ method ] ** * Puts the given `text` into a 'popup' tooltip. The text is given a default style according to @g.txtattr. See @Element.popup * * Note: The `dir` parameter has changed from g.Raphael 0.4.1 to 0.5. The options `0`, `1`, `2`, and `3` has been changed to `'down'`, `'left'`, `'up'`, and `'right'` respectively. ** > Parameters ** - x (number) x coordinate of the popup's tail - y (number) y coordinate of the popup's tail - text (string) text to place inside the popup - dir (string) location of the text relative to the tail: `'down'`, `'left'`, `'up'` [default], or `'right'`. - size (number) amount of padding around the Element [default: `5`] ** = (object) set containing the popup path and the text element > Usage | paper.popup(50, 50, "$9.99", 'down'); \*/ Raphael.fn.popup = function (x, y, text, dir, size) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.popup(dir, size), text); }; /*\ * Paper.tag [ method ] ** * Puts the given text into a 'tag' tooltip. The text is given a default style according to @g.txtattr. See @Element.tag ** > Parameters ** - x (number) x coordinate of the center of the tag loop - y (number) y coordinate of the center of the tag loop - text (string) text to place inside the tag - angle (number) angle of orientation in degrees [default: `0`] - r (number) radius of the loop [default: `5`] ** = (object) set containing the tag path and the text element > Usage | paper.tag(50, 50, "$9.99", 60); \*/ Raphael.fn.tag = function (x, y, text, angle, r) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.tag(angle, r), text); }; /*\ * Paper.flag [ method ] ** * Puts the given `text` into a 'flag' tooltip. The text is given a default style according to @g.txtattr. See @Element.flag ** > Parameters ** - x (number) x coordinate of the flag's point - y (number) y coordinate of the flag's point - text (string) text to place inside the flag - angle (number) angle of orientation in degrees [default: `0`] ** = (object) set containing the flag path and the text element > Usage | paper.flag(50, 50, "$9.99", 60); \*/ Raphael.fn.flag = function (x, y, text, angle) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.flag(angle), text); }; /*\ * Paper.drop [ method ] ** * Puts the given text into a 'drop' tooltip. The text is given a default style according to @g.txtattr. See @Element.drop ** > Parameters ** - x (number) x coordinate of the drop's point - y (number) y coordinate of the drop's point - text (string) text to place inside the drop - angle (number) angle of orientation in degrees [default: `0`] ** = (object) set containing the drop path and the text element > Usage | paper.drop(50, 50, "$9.99", 60); \*/ Raphael.fn.drop = function (x, y, text, angle) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.drop(angle), text); }; /*\ * Paper.blob [ method ] ** * Puts the given text into a 'blob' tooltip. The text is given a default style according to @g.txtattr. See @Element.blob ** > Parameters ** - x (number) x coordinate of the blob's tail - y (number) y coordinate of the blob's tail - text (string) text to place inside the blob - angle (number) angle of orientation in degrees [default: `0`] ** = (object) set containing the blob path and the text element > Usage | paper.blob(50, 50, "$9.99", 60); \*/ Raphael.fn.blob = function (x, y, text, angle) { var set = this.set(); text = this.text(x, y, text).attr(Raphael.g.txtattr); return set.push(text.blob(angle), text); }; /** * Brightness functions on the Element prototype */ /*\ * Element.lighter [ method ] ** * Makes the context element lighter by increasing the brightness and reducing the saturation by a given factor. Can be called on Sets. ** > Parameters ** - times (number) adjustment factor [default: `2`] ** = (object) Element > Usage | paper.circle(50, 50, 20).attr({ | fill: "#ff0000", | stroke: "#fff", | "stroke-width": 2 | }).lighter(6); \*/ Raphael.el.lighter = function (times) { times = times || 2; var fs = [this.attrs.fill, this.attrs.stroke]; this.fs = this.fs || [fs[0], fs[1]]; fs[0] = Raphael.rgb2hsb(Raphael.getRGB(fs[0]).hex); fs[1] = Raphael.rgb2hsb(Raphael.getRGB(fs[1]).hex); fs[0].b = Math.min(fs[0].b * times, 1); fs[0].s = fs[0].s / times; fs[1].b = Math.min(fs[1].b * times, 1); fs[1].s = fs[1].s / times; this.attr({fill: "hsb(" + [fs[0].h, fs[0].s, fs[0].b] + ")", stroke: "hsb(" + [fs[1].h, fs[1].s, fs[1].b] + ")"}); return this; }; /*\ * Element.darker [ method ] ** * Makes the context element darker by decreasing the brightness and increasing the saturation by a given factor. Can be called on Sets. ** > Parameters ** - times (number) adjustment factor [default: `2`] ** = (object) Element > Usage | paper.circle(50, 50, 20).attr({ | fill: "#ff0000", | stroke: "#fff", | "stroke-width": 2 | }).darker(6); \*/ Raphael.el.darker = function (times) { times = times || 2; var fs = [this.attrs.fill, this.attrs.stroke]; this.fs = this.fs || [fs[0], fs[1]]; fs[0] = Raphael.rgb2hsb(Raphael.getRGB(fs[0]).hex); fs[1] = Raphael.rgb2hsb(Raphael.getRGB(fs[1]).hex); fs[0].s = Math.min(fs[0].s * times, 1); fs[0].b = fs[0].b / times; fs[1].s = Math.min(fs[1].s * times, 1); fs[1].b = fs[1].b / times; this.attr({fill: "hsb(" + [fs[0].h, fs[0].s, fs[0].b] + ")", stroke: "hsb(" + [fs[1].h, fs[1].s, fs[1].b] + ")"}); return this; }; /*\ * Element.resetBrightness [ method ] ** * Resets brightness and saturation levels to their original values. See @Element.lighter and @Element.darker. Can be called on Sets. ** = (object) Element > Usage | paper.circle(50, 50, 20).attr({ | fill: "#ff0000", | stroke: "#fff", | "stroke-width": 2 | }).lighter(6).resetBrightness(); \*/ Raphael.el.resetBrightness = function () { if (this.fs) { this.attr({ fill: this.fs[0], stroke: this.fs[1] }); delete this.fs; } return this; }; //alias to set prototype (function () { var brightness = ['lighter', 'darker', 'resetBrightness'], tooltips = ['popup', 'tag', 'flag', 'label', 'drop', 'blob']; for (var f in tooltips) (function (name) { Raphael.st[name] = function () { return Raphael.el[name].apply(this, arguments); }; })(tooltips[f]); for (var f in brightness) (function (name) { Raphael.st[name] = function () { for (var i = 0; i < this.length; i++) { this[i][name].apply(this[i], arguments); } return this; }; })(brightness[f]); })(); //chart prototype for storing common functions Raphael.g = { /*\ * g.shim [ object ] ** * An attribute object that charts will set on all generated shims (shims being the invisible objects that mouse events are bound to) ** > Default value | { stroke: 'none', fill: '#000', 'fill-opacity': 0 } \*/ shim: { stroke: 'none', fill: '#000', 'fill-opacity': 0 }, /*\ * g.txtattr [ object ] ** * An attribute object that charts and tooltips will set on any generated text ** > Default value | { font: '12px Arial, sans-serif', fill: '#fff' } \*/ txtattr: { font: '12px Arial, sans-serif', fill: '#fff' }, /*\ * g.colors [ array ] ** * An array of color values that charts will iterate through when drawing chart data values. ** \*/ colors: (function () { var hues = [.6, .2, .05, .1333, .75, 0], colors = []; for (var i = 0; i < 10; i++) { if (i < hues.length) { colors.push('hsb(' + hues[i] + ',.75, .75)'); } else { colors.push('hsb(' + hues[i - hues.length] + ', 1, .5)'); } } return colors; })(), snapEnds: function(from, to, steps) { var f = from, t = to; if (f == t) { return {from: f, to: t, power: 0}; } function round(a) { return Math.abs(a - .5) < .25 ? ~~(a) + .5 : Math.round(a); } var d = (t - f) / steps, r = ~~(d), R = r, i = 0; if (r) { while (R) { i--; R = ~~(d * Math.pow(10, i)) / Math.pow(10, i); } i ++; } else { if(d == 0 || !isFinite(d)) { i = 1; } else { while (!r) { i = i || 1; r = ~~(d * Math.pow(10, i)) / Math.pow(10, i); i++; } } i && i--; } t = round(to * Math.pow(10, i)) / Math.pow(10, i); if (t < to) { t = round((to + .5) * Math.pow(10, i)) / Math.pow(10, i); } f = round((from - (i > 0 ? 0 : .5)) * Math.pow(10, i)) / Math.pow(10, i); return { from: f, to: t, power: i }; }, axis: function (x, y, length, from, to, steps, orientation, labels, type, dashsize, paper) { dashsize = dashsize == null ? 2 : dashsize; type = type || "t"; steps = steps || 10; paper = arguments[arguments.length-1] //paper is always last argument var path = type == "|" || type == " " ? ["M", x + .5, y, "l", 0, .001] : orientation == 1 || orientation == 3 ? ["M", x + .5, y, "l", 0, -length] : ["M", x, y + .5, "l", length, 0], ends = this.snapEnds(from, to, steps), f = ends.from, t = ends.to, i = ends.power, j = 0, txtattr = { font: "11px 'Fontin Sans', Fontin-Sans, sans-serif" }, text = paper.set(), d; d = (t - f) / steps; var label = f, rnd = i > 0 ? i : 0; dx = length / steps; if (+orientation == 1 || +orientation == 3) { var Y = y, addon = (orientation - 1 ? 1 : -1) * (dashsize + 3 + !!(orientation - 1)); while (Y >= y - length) { type != "-" && type != " " && (path = path.concat(["M", x - (type == "+" || type == "|" ? dashsize : !(orientation - 1) * dashsize * 2), Y + .5, "l", dashsize * 2 + 1, 0])); text.push(paper.text(x + addon, Y, (labels && labels[j++]) || (Math.round(label) == label ? label : +label.toFixed(rnd))).attr(txtattr).attr({ "text-anchor": orientation - 1 ? "start" : "end" })); label += d; Y -= dx; } if (Math.round(Y + dx - (y - length))) { type != "-" && type != " " && (path = path.concat(["M", x - (type == "+" || type == "|" ? dashsize : !(orientation - 1) * dashsize * 2), y - length + .5, "l", dashsize * 2 + 1, 0])); text.push(paper.text(x + addon, y - length, (labels && labels[j]) || (Math.round(label) == label ? label : +label.toFixed(rnd))).attr(txtattr).attr({ "text-anchor": orientation - 1 ? "start" : "end" })); } } else { label = f; rnd = (i > 0) * i; addon = (orientation ? -1 : 1) * (dashsize + 9 + !orientation); var X = x, dx = length / steps, txt = 0, prev = 0; while (X <= x + length) { type != "-" && type != " " && (path = path.concat(["M", X + .5, y - (type == "+" ? dashsize : !!orientation * dashsize * 2), "l", 0, dashsize * 2 + 1])); text.push(txt = paper.text(X, y + addon, (labels && labels[j++]) || (Math.round(label) == label ? label : +label.toFixed(rnd))).attr(txtattr)); var bb = txt.getBBox(); if (prev >= bb.x - 5) { text.pop(text.length - 1).remove(); } else { prev = bb.x + bb.width; } label += d; X += dx; } if (Math.round(X - dx - x - length)) { type != "-" && type != " " && (path = path.concat(["M", x + length + .5, y - (type == "+" ? dashsize : !!orientation * dashsize * 2), "l", 0, dashsize * 2 + 1])); text.push(paper.text(x + length, y + addon, (labels && labels[j]) || (Math.round(label) == label ? label : +label.toFixed(rnd))).attr(txtattr)); } } var res = paper.path(path); res.text = text; res.all = paper.set([res, text]); res.remove = function () { this.text.remove(); this.constructor.prototype.remove.call(this); }; return res; }, labelise: function(label, val, total) { if (label) { return (label + "").replace(/(##+(?:\.#+)?)|(%%+(?:\.%+)?)/g, function (all, value, percent) { if (value) { return (+val).toFixed(value.replace(/^#+\.?/g, "").length); } if (percent) { return (val * 100 / total).toFixed(percent.replace(/^%+\.?/g, "").length) + "%"; } }); } else { return (+val).toFixed(0); } } }