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g.line.js
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g.line.js
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/*!
* g.Raphael 0.51 - Charting library, based on Raphaël
*
* Copyright (c) 2009-2012 Dmitry Baranovskiy (http://g.raphaeljs.com)
* Licensed under the MIT (http://www.opensource.org/licenses/mit-license.php) license.
*/
(function () {
function shrink(values, dim) {
var k = values.length / dim,
j = 0,
l = k,
sum = 0,
res = [];
while (j < values.length) {
l--;
if (l < 0) {
sum += values[j] * (1 + l);
res.push(sum / k);
sum = values[j++] * -l;
l += k;
} else {
sum += values[j++] * 1;
}
}
return res;
}
function getAnchors(p1x, p1y, p2x, p2y, p3x, p3y) {
var l1 = (p2x - p1x) / 2,
l2 = (p3x - p2x) / 2,
a = Math.atan((p2x - p1x) / Math.abs(p2y - p1y)),
b = Math.atan((p3x - p2x) / Math.abs(p2y - p3y));
a = p1y < p2y ? Math.PI - a : a;
b = p3y < p2y ? Math.PI - b : b;
var alpha = Math.PI / 2 - ((a + b) % (Math.PI * 2)) / 2,
dx1 = l1 * Math.sin(alpha + a),
dy1 = l1 * Math.cos(alpha + a),
dx2 = l2 * Math.sin(alpha + b),
dy2 = l2 * Math.cos(alpha + b);
return {
x1: p2x - dx1,
y1: p2y + dy1,
x2: p2x + dx2,
y2: p2y + dy2
};
}
function Linechart(paper, x, y, width, height, valuesx, valuesy, opts) {
var chartinst = this;
opts = opts || {};
if (!paper.raphael.is(valuesx[0], "array")) {
valuesx = [valuesx];
}
if (!paper.raphael.is(valuesy[0], "array")) {
valuesy = [valuesy];
}
var gutter = opts.gutter || 10,
len = Math.max(valuesx[0].length, valuesy[0].length),
symbol = opts.symbol || "",
colors = opts.colors || chartinst.colors,
columns = null,
dots = null,
chart = paper.set(),
path = [];
for (var i = 0, ii = valuesy.length; i < ii; i++) {
len = Math.max(len, valuesy[i].length);
}
/*\
* linechart.shades
[ object ]
**
* Set containing Elements corresponding to shades plotted in the chart (if `opts.shade` was `true`).
**
**
\*/
var shades = paper.set();
for (i = 0, ii = valuesy.length; i < ii; i++) {
if (opts.shade) {
shades.push(paper.path().attr({ stroke: "none", fill: colors[i], opacity: opts.nostroke ? 1 : .3 }));
}
if (valuesy[i].length > width - 2 * gutter) {
valuesy[i] = shrink(valuesy[i], width - 2 * gutter);
len = width - 2 * gutter;
}
if (valuesx[i] && valuesx[i].length > width - 2 * gutter) {
valuesx[i] = shrink(valuesx[i], width - 2 * gutter);
}
}
var allx = Array.prototype.concat.apply([], valuesx),
ally = Array.prototype.concat.apply([], valuesy),
xdim = chartinst.snapEnds(Math.min.apply(Math, allx), Math.max.apply(Math, allx), valuesx[0].length - 1),
minx = xdim.from,
maxx = xdim.to,
ydim = chartinst.snapEnds(Math.min.apply(Math, ally), Math.max.apply(Math, ally), valuesy[0].length - 1),
miny = ydim.from,
maxy = ydim.to,
kx = (width - gutter * 2) / ((maxx - minx) || 1),
ky = (height - gutter * 2) / ((maxy - miny) || 1);
/*\
* linechart.axis
[ object ]
**
* Set containing Elements of the chart axis. The set is populated if `'axis'` definition string was passed to @Paper.linechart
**
**
\*/
var axis = paper.set();
if (opts.axis) {
var ax = (opts.axis + "").split(/[,\s]+/);
+ax[0] && axis.push(chartinst.axis(x + gutter, y + gutter, width - 2 * gutter, minx, maxx, opts.axisxstep || Math.floor((width - 2 * gutter) / 20), 2, paper));
+ax[1] && axis.push(chartinst.axis(x + width - gutter, y + height - gutter, height - 2 * gutter, miny, maxy, opts.axisystep || Math.floor((height - 2 * gutter) / 20), 3, paper));
+ax[2] && axis.push(chartinst.axis(x + gutter, y + height - gutter, width - 2 * gutter, minx, maxx, opts.axisxstep || Math.floor((width - 2 * gutter) / 20), 0, paper));
+ax[3] && axis.push(chartinst.axis(x + gutter, y + height - gutter, height - 2 * gutter, miny, maxy, opts.axisystep || Math.floor((height - 2 * gutter) / 20), 1, paper));
}
/*\
* linechart.lines
[ object ]
**
* Set containing Elements corresponding to lines plotted in the chart.
**
**
\*/
var lines = paper.set(),
/*\
* linechart.symbols
[ object ]
**
* Set containing Elements corresponding to symbols plotted in the chart.
**
**
\*/
symbols = paper.set(),
line;
for (i = 0, ii = valuesy.length; i < ii; i++) {
if (!opts.nostroke) {
lines.push(line = paper.path().attr({
stroke: colors[i],
"stroke-width": opts.width || 2,
"stroke-linejoin": "round",
"stroke-linecap": "round",
"stroke-dasharray": opts.dash || ""
}));
}
var sym = Raphael.is(symbol, "array") ? symbol[i] : symbol,
symset = paper.set();
path = [];
for (var j = 0, jj = valuesy[i].length; j < jj; j++) {
var X = x + gutter + ((valuesx[i] || valuesx[0])[j] - minx) * kx,
Y = y + height - gutter - (valuesy[i][j] - miny) * ky;
(Raphael.is(sym, "array") ? sym[j] : sym) && symset.push(paper[Raphael.is(sym, "array") ? sym[j] : sym](X, Y, (opts.width || 2) * 3).attr({ fill: colors[i], stroke: "none" }));
if (opts.smooth) {
if (j && j != jj - 1) {
var X0 = x + gutter + ((valuesx[i] || valuesx[0])[j - 1] - minx) * kx,
Y0 = y + height - gutter - (valuesy[i][j - 1] - miny) * ky,
X2 = x + gutter + ((valuesx[i] || valuesx[0])[j + 1] - minx) * kx,
Y2 = y + height - gutter - (valuesy[i][j + 1] - miny) * ky,
a = getAnchors(X0, Y0, X, Y, X2, Y2);
path = path.concat([a.x1, a.y1, X, Y, a.x2, a.y2]);
}
if (!j) {
path = ["M", X, Y, "C", X, Y];
}
} else {
path = path.concat([j ? "L" : "M", X, Y]);
}
}
if (opts.smooth) {
path = path.concat([X, Y, X, Y]);
}
symbols.push(symset);
if (opts.shade) {
shades[i].attr({ path: path.concat(["L", X, y + height - gutter, "L", x + gutter + ((valuesx[i] || valuesx[0])[0] - minx) * kx, y + height - gutter, "z"]).join(",") });
}
!opts.nostroke && line.attr({ path: path.join(",") });
}
function createColumns(f) {
// unite Xs together
var Xs = [];
for (var i = 0, ii = valuesx.length; i < ii; i++) {
Xs = Xs.concat(valuesx[i]);
}
Xs.sort(function(a,b) { return a - b; });
// remove duplicates
var Xs2 = [],
xs = [];
for (i = 0, ii = Xs.length; i < ii; i++) {
Xs[i] != Xs[i - 1] && Xs2.push(Xs[i]) && xs.push(x + gutter + (Xs[i] - minx) * kx);
}
Xs = Xs2;
ii = Xs.length;
var cvrs = f || paper.set();
for (i = 0; i < ii; i++) {
var X = xs[i] - (xs[i] - (xs[i - 1] || x)) / 2,
w = ((xs[i + 1] || x + width) - xs[i]) / 2 + (xs[i] - (xs[i - 1] || x)) / 2,
C;
f ? (C = {}) : cvrs.push(C = paper.rect(X - 1, y, Math.max(w + 1, 1), height).attr({ stroke: "none", fill: "#000", opacity: 0 }));
C.values = [];
C.symbols = paper.set();
C.y = [];
C.x = xs[i];
C.axis = Xs[i];
for (var j = 0, jj = valuesy.length; j < jj; j++) {
Xs2 = valuesx[j] || valuesx[0];
for (var k = 0, kk = Xs2.length; k < kk; k++) {
if (Xs2[k] == Xs[i]) {
C.values.push(valuesy[j][k]);
C.y.push(y + height - gutter - (valuesy[j][k] - miny) * ky);
C.symbols.push(chart.symbols[j][k]);
}
}
}
f && f.call(C);
}
!f && (columns = cvrs);
}
function createDots(f) {
var cvrs = f || paper.set(),
C;
for (var i = 0, ii = valuesy.length; i < ii; i++) {
for (var j = 0, jj = valuesy[i].length; j < jj; j++) {
var X = x + gutter + ((valuesx[i] || valuesx[0])[j] - minx) * kx,
nearX = x + gutter + ((valuesx[i] || valuesx[0])[j ? j - 1 : 1] - minx) * kx,
Y = y + height - gutter - (valuesy[i][j] - miny) * ky;
f ? (C = {}) : cvrs.push(C = paper.circle(X, Y, Math.abs(nearX - X) / 2).attr({ stroke: "#000", fill: "#000", opacity: 1 }));
C.x = X;
C.y = Y;
C.value = valuesy[i][j];
C.line = chart.lines[i];
C.shade = chart.shades[i];
C.symbol = chart.symbols[i][j];
C.symbols = chart.symbols[i];
C.axis = (valuesx[i] || valuesx[0])[j];
f && f.call(C);
}
}
!f && (dots = cvrs);
}
chart.push(lines, shades, symbols, axis, columns, dots);
chart.lines = lines;
chart.shades = shades;
chart.symbols = symbols;
chart.axis = axis;
/*\
* linechart.hoverColumn
[ method ]
> Parameters
- mouseover handler (function) handler for the event
- mouseout handler (function) handler for the event
- this (object) callback is executed in a context of a cover element
* Conveniece method to set up hover-in and hover-out event handlers on the entire area of the chart.
* The handlers are passed a event object containing
o {
o x (number) x coordinate on all lines in the chart
o y (array) y coordinates of all lines corresponding to the x
o }
= (object) @linechart object
**
\*/
chart.hoverColumn = function (fin, fout) {
!columns && createColumns();
columns.mouseover(fin).mouseout(fout);
return this;
};
/*\
* linechart.clickColumn
[ method ]
> Parameters
- click handler (function) handler for the event
- this (object) callback is executed in a context of a cover element
* Conveniece method to set up click event handler on the antire area of the chart.
* The handler is passed a event object containing
o {
o x (number) x coordinate on all lines in the chart
o y (array) y coordinates of all lines corresponding to the x
o }
= (object) @linechart object
**
\*/
chart.clickColumn = function (f) {
!columns && createColumns();
columns.click(f);
return this;
};
/*\
* linechart.hrefColumn
[ method ]
> Parameters
- cols (object) object containing values as keys and URLs as values, e.g. {1: 'http://www.raphaeljs.com', 2: 'http://g.raphaeljs.com'}
* Creates click-throughs on the whole area of the chart corresponding to x values
= (object) @linechart object
**
\*/
chart.hrefColumn = function (cols) {
var hrefs = paper.raphael.is(arguments[0], "array") ? arguments[0] : arguments;
if (!(arguments.length - 1) && typeof cols == "object") {
for (var x in cols) {
for (var i = 0, ii = columns.length; i < ii; i++) if (columns[i].axis == x) {
columns[i].attr("href", cols[x]);
}
}
}
!columns && createColumns();
for (i = 0, ii = hrefs.length; i < ii; i++) {
columns[i] && columns[i].attr("href", hrefs[i]);
}
return this;
};
/*\
* linechart.hover
[ method ]
> Parameters
- mouseover handler (function) handler for the event
- mouseout handler (function) handler for the event
* Conveniece method to set up hover-in and hover-out event handlers working on the lines of the chart.
* Use @linechart.hoverColumn to work with the entire chart area.
= (object) @linechart object
**
\*/
chart.hover = function (fin, fout) {
!dots && createDots();
dots.mouseover(fin).mouseout(fout);
return this;
};
/*\
* linechart.click
[ method ]
> Parameters
- click handler (function) handler for the event
- this (object) callback is executed in a context of a cover element
* Conveniece method to set up click event handler on the lines of the chart
* Use @linechart.clickColumn to work with the entire chart area.
= (object) @linechart object
**
\*/
chart.click = function (f) {
!dots && createDots();
dots.click(f);
return this;
};
/*\
* linechart.each
[ method ]
> Parameters
- callback (function) function executed for every data point
- this (object) context of the callback function.
o {
o x (number) x coordinate of the data point
o y (number) y coordinate of the data point
o value (number) value represented by the data point
o }
* Iterates over each unique data point plotted on every line on the chart.
= (object) @linechart object
**
\*/
chart.each = function (f) {
createDots(f);
return this;
};
/*\
* linechart.eachColumn
[ method ]
> Parameters
- callback (function) function executed for every column
- this (object) context of the callback function.
o {
o x (number) x coordinate of the data point
o y (array) y coordinates of data points existing for the given x
o values (array) values represented by the data points existing for the given x
o }
* Iterates over each column area (area plotted above the chart).
= (object) @linechart object
**
\*/
chart.eachColumn = function (f) {
createColumns(f);
return this;
};
return chart;
};
//inheritance
var F = function() {};
F.prototype = Raphael.g;
Linechart.prototype = new F;
/*
* linechart method on paper
*/
/*\
* Paper.linechart
[ method ]
**
* Creates a line chart
**
> Parameters
**
- x (number) x coordinate of the chart
- y (number) y coordinate of the chart
- width (number) width of the chart (including the axis)
- height (number) height of the chart (including the axis)
- valuesx (array) values to plot on axis x
- valuesy (array) values to plot on axis y
- opts (object) options for the chart
o {
o gutter (number) distance between symbols on the chart
o symbol (string) (array) symbol to be plotted as nodes of the chart, if array are passed symbols are printed iteratively. Currently `'circle'` and `''` (no symbol) are the only supported options.
o width (number) controls the size of the plotted symbol. Also controls the thickness of the line using a formula stroke-width=width/2. This option is likely to change in the future versions of g.raphael.
o colors (array) colors to plot data series. Raphael default colors are used if not passed
o shade (boolean) whether or not to plot a shade of the chart [default: false]. Currently only a shade between the line and x axis is supported.
o nostroke (boolean) whether or not to plot lines [default: false]. Only practical when shade is enabled.
o dash (string) changes display of the line from continues to dashed or dotted (Possible values are the same as stroke-dasharray attribute, see @Element.attr).
o smooth (boolean) changes display of the line from point-to-point straight lines to curves (type C, see @Paper.path).
o axis (string) Which axes should be renedered. String of four values evaluated in order `'top right bottom left'` e.g. `'0 0 1 1'`.
o axisxstep (number) distance between values on axis X
o axisystep (number) distance between values on axis Y
o }
**
= (object) path element of the popup
> Usage
| r.linechart(0, 0, 99, 99, [1,2,3,4,5], [[1,2,3,4,5], [1,3,9,16,25], [100,50,25,12,6]], {smooth: true, colors: ['#F00', '#0F0', '#FF0'], symbol: 'circle'});
\*/
Raphael.fn.linechart = function(x, y, width, height, valuesx, valuesy, opts) {
return new Linechart(this, x, y, width, height, valuesx, valuesy, opts);
}
})();