xValueParser: Dygraph.dateParser,
xTicker: Dygraph.dateTicker,
+ delimiter: ',',
+
sigma: 2.0,
errorBars: false,
fractions: false,
if (labels != null) {
var new_labels = ["Date"];
for (var i = 0; i < labels.length; i++) new_labels.push(labels[i]);
- MochiKit.Base.update(attrs, { 'labels': new_labels });
+ Dygraph.update(attrs, { 'labels': new_labels });
}
this.__init__(div, file, attrs);
};
// user_attrs_ and then computed attrs_. This way Dygraphs can set intelligent
// defaults without overriding behavior that the user specifically asks for.
this.user_attrs_ = {};
- MochiKit.Base.update(this.user_attrs_, attrs);
+ Dygraph.update(this.user_attrs_, attrs);
this.attrs_ = {};
- MochiKit.Base.update(this.attrs_, Dygraph.DEFAULT_ATTRS);
+ Dygraph.update(this.attrs_, Dygraph.DEFAULT_ATTRS);
// Make a note of whether labels will be pulled from the CSV file.
this.labelsFromCSV_ = (this.attr_("labels") == null);
// Create the PlotKit grapher
// TODO(danvk): why does the Layout need its own set of options?
- this.layoutOptions_ = { 'errorBars': (this.attr_("errorBars") ||
- this.attr_("customBars")),
- 'xOriginIsZero': false };
- MochiKit.Base.update(this.layoutOptions_, this.attrs_);
- MochiKit.Base.update(this.layoutOptions_, this.user_attrs_);
+ this.layoutOptions_ = { 'xOriginIsZero': false };
+ Dygraph.update(this.layoutOptions_, this.attrs_);
+ Dygraph.update(this.layoutOptions_, this.user_attrs_);
+ Dygraph.update(this.layoutOptions_, {
+ 'errorBars': (this.attr_("errorBars") || this.attr_("customBars")) });
this.layout_ = new DygraphLayout(this, this.layoutOptions_);
this.renderOptions_ = { colorScheme: this.colors_,
strokeColor: null,
axisLineWidth: Dygraph.AXIS_LINE_WIDTH };
- MochiKit.Base.update(this.renderOptions_, this.attrs_);
- MochiKit.Base.update(this.renderOptions_, this.user_attrs_);
+ Dygraph.update(this.renderOptions_, this.attrs_);
+ Dygraph.update(this.renderOptions_, this.user_attrs_);
this.plotter_ = new DygraphCanvasRenderer(this,
this.hidden_, this.layout_,
this.renderOptions_);
this.createRollInterface_();
this.createDragInterface_();
- // connect(window, 'onload', this, function(e) { this.start_(); });
this.start_();
};
*/
Dygraph.prototype.rollPeriod = function() {
return this.rollPeriod_;
-}
+};
+
+Dygraph.addEvent = function(el, evt, fn) {
+ var normed_fn = function(e) {
+ if (!e) var e = window.event;
+ fn(e);
+ };
+ if (window.addEventListener) { // Mozilla, Netscape, Firefox
+ el.addEventListener(evt, normed_fn, false);
+ } else { // IE
+ el.attachEvent('on' + evt, normed_fn);
+ }
+};
/**
* Generates interface elements for the Dygraph: a containing div, a div to
enclosing.appendChild(this.graphDiv);
// Create the canvas for interactive parts of the chart.
- this.canvas_ = document.createElement("canvas");
+ // this.canvas_ = document.createElement("canvas");
+ this.canvas_ = Dygraph.createCanvas();
this.canvas_.style.position = "absolute";
this.canvas_.width = this.width_;
this.canvas_.height = this.height_;
+ this.canvas_.style.width = this.width_ + "px"; // for IE
+ this.canvas_.style.height = this.height_ + "px"; // for IE
this.graphDiv.appendChild(this.canvas_);
// ... and for static parts of the chart.
this.hidden_ = this.createPlotKitCanvas_(this.canvas_);
- connect(this.hidden_, 'onmousemove', this, function(e) { this.mouseMove_(e) });
- connect(this.hidden_, 'onmouseout', this, function(e) { this.mouseOut_(e) });
+
+ var dygraph = this;
+ Dygraph.addEvent(this.hidden_, 'mousemove', function(e) {
+ dygraph.mouseMove_(e);
+ });
+ Dygraph.addEvent(this.hidden_, 'mouseout', function(e) {
+ dygraph.mouseOut_(e);
+ });
}
/**
* @private
*/
Dygraph.prototype.createPlotKitCanvas_ = function(canvas) {
- var h = document.createElement("canvas");
+ // var h = document.createElement("canvas");
+ var h = Dygraph.createCanvas();
h.style.position = "absolute";
h.style.top = canvas.style.top;
h.style.left = canvas.style.left;
h.width = this.width_;
h.height = this.height_;
+ h.style.width = this.width_ + "px"; // for IE
+ h.style.height = this.height_ + "px"; // for IE
this.graphDiv.appendChild(h);
return h;
};
+// Taken from MochiKit.Color
+Dygraph.hsvToRGB = function (hue, saturation, value) {
+ var red;
+ var green;
+ var blue;
+ if (saturation === 0) {
+ red = value;
+ green = value;
+ blue = value;
+ } else {
+ var i = Math.floor(hue * 6);
+ var f = (hue * 6) - i;
+ var p = value * (1 - saturation);
+ var q = value * (1 - (saturation * f));
+ var t = value * (1 - (saturation * (1 - f)));
+ switch (i) {
+ case 1: red = q; green = value; blue = p; break;
+ case 2: red = p; green = value; blue = t; break;
+ case 3: red = p; green = q; blue = value; break;
+ case 4: red = t; green = p; blue = value; break;
+ case 5: red = value; green = p; blue = q; break;
+ case 6: // fall through
+ case 0: red = value; green = t; blue = p; break;
+ }
+ }
+ red = Math.floor(255 * red + 0.5);
+ green = Math.floor(255 * green + 0.5);
+ blue = Math.floor(255 * blue + 0.5);
+ return 'rgb(' + red + ',' + green + ',' + blue + ')';
+};
+
+
/**
* Generate a set of distinct colors for the data series. This is done with a
* color wheel. Saturation/Value are customizable, and the hue is
var val = this.attr_('colorValue') || 0.5;
for (var i = 1; i <= num; i++) {
var hue = (1.0*i/(1+num));
- this.colors_.push( MochiKit.Color.Color.fromHSV(hue, sat, val) );
+ this.colors_.push( Dygraph.hsvToRGB(hue, sat, val) );
}
} else {
for (var i = 0; i < num; i++) {
var colorStr = colors[i % colors.length];
- this.colors_.push( MochiKit.Color.Color.fromString(colorStr) );
+ this.colors_.push(colorStr);
}
}
// TODO(danvk): update this w/r/t/ the new options system.
this.renderOptions_.colorScheme = this.colors_;
- MochiKit.Base.update(this.plotter_.options, this.renderOptions_);
- MochiKit.Base.update(this.layoutOptions_, this.user_attrs_);
- MochiKit.Base.update(this.layoutOptions_, this.attrs_);
+ Dygraph.update(this.plotter_.options, this.renderOptions_);
+ Dygraph.update(this.layoutOptions_, this.user_attrs_);
+ Dygraph.update(this.layoutOptions_, this.attrs_);
}
// The following functions are from quirksmode.org
"background": "white",
"textAlign": "left",
"overflow": "hidden"};
- MochiKit.Base.update(messagestyle, this.attr_('labelsDivStyles'));
+ Dygraph.update(messagestyle, this.attr_('labelsDivStyles'));
var div = document.createElement("div");
for (var name in messagestyle) {
div.style[name] = messagestyle[name];
var pa = this.graphDiv;
pa.appendChild(roller);
- connect(roller, 'onchange', this,
- function() { this.adjustRoll(roller.value); });
+ var dygraph = this;
+ roller.onchange = function() { dygraph.adjustRoll(roller.value); };
return roller;
-}
+};
+
+// These functions are taken from MochiKit.Signal
+Dygraph.pageX = function(e) {
+ if (e.pageX) {
+ return (!e.pageX || e.pageX < 0) ? 0 : e.pageX;
+ } else {
+ var de = document;
+ var b = document.body;
+ return e.clientX +
+ (de.scrollLeft || b.scrollLeft) -
+ (de.clientLeft || 0);
+ }
+};
+
+Dygraph.pageY = function(e) {
+ if (e.pageY) {
+ return (!e.pageY || e.pageY < 0) ? 0 : e.pageY;
+ } else {
+ var de = document;
+ var b = document.body;
+ return e.clientY +
+ (de.scrollTop || b.scrollTop) -
+ (de.clientTop || 0);
+ }
+};
/**
* Set up all the mouse handlers needed to capture dragging behavior for zoom
- * events. Uses MochiKit.Signal to attach all the event handlers.
+ * events.
* @private
*/
Dygraph.prototype.createDragInterface_ = function() {
// Utility function to convert page-wide coordinates to canvas coords
var px = 0;
var py = 0;
- var getX = function(e) { return e.mouse().page.x - px };
- var getY = function(e) { return e.mouse().page.y - py };
+ var getX = function(e) { return Dygraph.pageX(e) - px };
+ var getY = function(e) { return Dygraph.pageX(e) - py };
// Draw zoom rectangles when the mouse is down and the user moves around
- connect(this.hidden_, 'onmousemove', function(event) {
+ Dygraph.addEvent(this.hidden_, 'mousemove', function(event) {
if (mouseDown) {
dragEndX = getX(event);
dragEndY = getY(event);
});
// Track the beginning of drag events
- connect(this.hidden_, 'onmousedown', function(event) {
+ Dygraph.addEvent(this.hidden_, 'mousedown', function(event) {
mouseDown = true;
px = Dygraph.findPosX(self.canvas_);
py = Dygraph.findPosY(self.canvas_);
// If the user releases the mouse button during a drag, but not over the
// canvas, then it doesn't count as a zooming action.
- connect(document, 'onmouseup', this, function(event) {
+ Dygraph.addEvent(document, 'mouseup', function(event) {
if (mouseDown) {
mouseDown = false;
dragStartX = null;
});
// Temporarily cancel the dragging event when the mouse leaves the graph
- connect(this.hidden_, 'onmouseout', this, function(event) {
+ Dygraph.addEvent(this.hidden_, 'mouseout', function(event) {
if (mouseDown) {
dragEndX = null;
dragEndY = null;
// If the mouse is released on the canvas during a drag event, then it's a
// zoom. Only do the zoom if it's over a large enough area (>= 10 pixels)
- connect(this.hidden_, 'onmouseup', this, function(event) {
+ Dygraph.addEvent(this.hidden_, 'mouseup', function(event) {
if (mouseDown) {
mouseDown = false;
dragEndX = getX(event);
if (regionWidth < 2 && regionHeight < 2 &&
self.attr_('clickCallback') != null &&
self.lastx_ != undefined) {
- // TODO(danvk): pass along more info about the point.
- self.attr_('clickCallback')(event, new Date(self.lastx_));
+ // TODO(danvk): pass along more info about the points.
+ self.attr_('clickCallback')(event, self.lastx_, self.selPoints_);
}
if (regionWidth >= 10) {
});
// Double-clicking zooms back out
- connect(this.hidden_, 'ondblclick', this, function(event) {
+ Dygraph.addEvent(this.hidden_, 'dblclick', function(event) {
+ if (self.dateWindow_ == null) return;
self.dateWindow_ = null;
self.drawGraph_(self.rawData_);
var minDate = self.rawData_[0][0];
* @private
*/
Dygraph.prototype.mouseMove_ = function(event) {
- var canvasx = event.mouse().page.x - Dygraph.findPosX(this.hidden_);
+ var canvasx = Dygraph.pageX(event) - Dygraph.findPosX(this.hidden_);
var points = this.layout_.points;
var lastx = -1;
lastx = points[points.length-1].xval;
// Extract the points we've selected
- var selPoints = [];
+ this.selPoints_ = [];
for (var i = 0; i < points.length; i++) {
if (points[i].xval == lastx) {
- selPoints.push(points[i]);
+ this.selPoints_.push(points[i]);
}
}
+ if (this.attr_("highlightCallback")) {
+ this.attr_("highlightCallback")(event, lastx, this.selPoints_);
+ }
+
// Clear the previously drawn vertical, if there is one
var circleSize = this.attr_('highlightCircleSize');
var ctx = this.canvas_.getContext("2d");
var isOK = function(x) { return x && !isNaN(x); };
- if (selPoints.length > 0) {
- var canvasx = selPoints[0].canvasx;
+ if (this.selPoints_.length > 0) {
+ var canvasx = this.selPoints_[0].canvasx;
// Set the status message to indicate the selected point(s)
var replace = this.attr_('xValueFormatter')(lastx, this) + ":";
var clen = this.colors_.length;
- for (var i = 0; i < selPoints.length; i++) {
- if (!isOK(selPoints[i].canvasy)) continue;
+ for (var i = 0; i < this.selPoints_.length; i++) {
+ if (!isOK(this.selPoints_[i].canvasy)) continue;
if (this.attr_("labelsSeparateLines")) {
replace += "<br/>";
}
- var point = selPoints[i];
- replace += " <b><font color='" + this.colors_[i%clen].toHexString() + "'>"
+ var point = this.selPoints_[i];
+ var c = new RGBColor(this.colors_[i%clen]);
+ replace += " <b><font color='" + c.toHex() + "'>"
+ point.name + "</font></b>:"
+ this.round_(point.yval, 2);
}
// Draw colored circles over the center of each selected point
ctx.save()
- for (var i = 0; i < selPoints.length; i++) {
- if (!isOK(selPoints[i%clen].canvasy)) continue;
+ for (var i = 0; i < this.selPoints_.length; i++) {
+ if (!isOK(this.selPoints_[i%clen].canvasy)) continue;
ctx.beginPath();
- ctx.fillStyle = this.colors_[i%clen].toRGBString();
- ctx.arc(canvasx, selPoints[i%clen].canvasy, circleSize, 0, 360, false);
+ ctx.fillStyle = this.colors_[i%clen];
+ ctx.arc(canvasx, this.selPoints_[i%clen].canvasy, circleSize,
+ 0, 2 * Math.PI, false);
ctx.fill();
}
ctx.restore();
var y = data[1];
rollingData[i] = [originalData[i][0], [y, y - data[0], data[2] - y]];
- low += data[0];
- mid += y;
- high += data[2];
- count += 1;
+ if (y && !isNaN(y)) {
+ low += data[0];
+ mid += y;
+ high += data[2];
+ count += 1;
+ }
if (i - rollPeriod >= 0) {
var prev = originalData[i - rollPeriod];
- low -= prev[1][0];
- mid -= prev[1][1];
- high -= prev[1][2];
- count -= 1;
+ if (prev[1][1] && !isNaN(prev[1][1])) {
+ low -= prev[1][0];
+ mid -= prev[1][1];
+ high -= prev[1][2];
+ count -= 1;
+ }
}
rollingData[i] = [originalData[i][0], [ 1.0 * mid / count,
1.0 * (mid - low) / count,
Dygraph.prototype.parseCSV_ = function(data) {
var ret = [];
var lines = data.split("\n");
+
+ // Use the default delimiter or fall back to a tab if that makes sense.
+ var delim = this.attr_('delimiter');
+ if (lines[0].indexOf(delim) == -1 && lines[0].indexOf('\t') >= 0) {
+ delim = '\t';
+ }
+
var start = 0;
if (this.labelsFromCSV_) {
start = 1;
- this.attrs_.labels = lines[0].split(",");
+ this.attrs_.labels = lines[0].split(delim);
}
var xParser;
for (var i = start; i < lines.length; i++) {
var line = lines[i];
if (line.length == 0) continue; // skip blank lines
- var inFields = line.split(',');
+ if (line[0] == '#') continue; // skip comment lines
+ var inFields = line.split(delim);
if (inFields.length < 2) continue;
var fields = [];
}
}
- if (MochiKit.Base.isDateLike(data[0][0])) {
+ if (Dygraph.isDateLike(data[0][0])) {
// Some intelligent defaults for a date x-axis.
this.attrs_.xValueFormatter = Dygraph.dateString_;
this.attrs_.xTicker = Dygraph.dateTicker;
// Assume they're all dates.
- var parsedData = MochiKit.Base.clone(data);
+ var parsedData = Dygraph.clone(data);
for (var i = 0; i < data.length; i++) {
if (parsedData[i].length == 0) {
this.error("Row " << (1 + i) << " of data is empty");
return ret;
}
+// These functions are all based on MochiKit.
+Dygraph.update = function (self, o) {
+ if (typeof(o) != 'undefined' && o !== null) {
+ for (var k in o) {
+ self[k] = o[k];
+ }
+ }
+ return self;
+};
+
+Dygraph.isArrayLike = function (o) {
+ var typ = typeof(o);
+ if (
+ (typ != 'object' && !(typ == 'function' &&
+ typeof(o.item) == 'function')) ||
+ o === null ||
+ typeof(o.length) != 'number' ||
+ o.nodeType === 3
+ ) {
+ return false;
+ }
+ return true;
+};
+
+Dygraph.isDateLike = function (o) {
+ if (typeof(o) != "object" || o === null ||
+ typeof(o.getTime) != 'function') {
+ return false;
+ }
+ return true;
+};
+
+Dygraph.clone = function(o) {
+ // TODO(danvk): figure out how MochiKit's version works
+ var r = [];
+ for (var i = 0; i < o.length; i++) {
+ if (Dygraph.isArrayLike(o[i])) {
+ r.push(Dygraph.clone(o[i]));
+ } else {
+ r.push(o[i]);
+ }
+ }
+ return r;
+};
+
+
/**
* Get the CSV data. If it's in a function, call that function. If it's in a
* file, do an XMLHttpRequest to get it.
if (typeof this.file_ == 'function') {
// CSV string. Pretend we got it via XHR.
this.loadedEvent_(this.file_());
- } else if (MochiKit.Base.isArrayLike(this.file_)) {
+ } else if (Dygraph.isArrayLike(this.file_)) {
this.rawData_ = this.parseArray_(this.file_);
this.drawGraph_(this.rawData_);
} else if (typeof this.file_ == 'object' &&
if (attrs.valueRange) {
this.valueRange_ = attrs.valueRange;
}
- MochiKit.Base.update(this.user_attrs_, attrs);
+ Dygraph.update(this.user_attrs_, attrs);
this.labelsFromCSV_ = (this.attr_("labels") == null);
this.drawGraph_(this.rawData_);
};
+/**
+ * Create a new canvas element. This is more complex than a simple
+ * document.createElement("canvas") because of IE and excanvas.
+ */
+Dygraph.createCanvas = function() {
+ var canvas = document.createElement("canvas");
+
+ isIE = (/MSIE/.test(navigator.userAgent) && !window.opera);
+ if (isIE) {
+ canvas = G_vmlCanvasManager.initElement(canvas);
+ }
+
+ return canvas;
+};
+
/**
* A wrapper around Dygraph that implements the gviz API.