labelsSeparateLines: false,
labelsKMB: false,
labelsKMG2: false,
+ showLabelsOnHighlight: true,
+
+ yValueFormatter: function(x) { return Dygraph.round_(x, 2); },
strokeWidth: 1.0,
axisLabelFontSize: 14,
xAxisLabelWidth: 50,
yAxisLabelWidth: 50,
+ xAxisLabelFormatter: Dygraph.dateAxisFormatter,
rightGap: 5,
showRoller: false,
customBars: false,
fillGraph: false,
fillAlpha: 0.15,
+ connectSeparatedPoints: false,
stackedGraph: false,
- hideOverlayOnMouseOut: true
+ hideOverlayOnMouseOut: true,
+
+ stepPlot: false
};
// Various logging levels.
* Initializes the Dygraph. This creates a new DIV and constructs the PlotKit
* and interaction <canvas> inside of it. See the constructor for details
* on the parameters.
+ * @param {Element} div the Element to render the graph into.
* @param {String | Function} file Source data
- * @param {Array.<String>} labels Names of the data series
* @param {Object} attrs Miscellaneous other options
* @private
*/
// The div might have been specified as percent of the current window size,
// convert that to an appropriate number of pixels.
if (div.style.width.indexOf("%") == div.style.width.length - 1) {
- // Minus ten pixels keeps scrollbars from showing up for a 100% width div.
- this.width_ = (this.width_ * self.innerWidth / 100) - 10;
+ this.width_ = div.offsetWidth;
}
if (div.style.height.indexOf("%") == div.style.height.length - 1) {
- this.height_ = (this.height_ * self.innerHeight / 100) - 10;
+ this.height_ = div.offsetHeight;
+ }
+
+ if (this.width_ == 0) {
+ this.error("dygraph has zero width. Please specify a width in pixels.");
+ }
+ if (this.height_ == 0) {
+ this.error("dygraph has zero height. Please specify a height in pixels.");
}
// TODO(danvk): set fillGraph to be part of attrs_ here, not user_attrs_.
this.attrs_ = {};
Dygraph.update(this.attrs_, Dygraph.DEFAULT_ATTRS);
+ this.boundaryIds_ = [];
+
// Make a note of whether labels will be pulled from the CSV file.
this.labelsFromCSV_ = (this.attr_("labels") == null);
return [left, right];
};
+/**
+ * Returns the currently-visible y-range. This can be affected by zooming,
+ * panning or a call to updateOptions.
+ * Returns a two-element array: [bottom, top].
+ */
+Dygraph.prototype.yAxisRange = function() {
+ return this.displayedYRange_;
+};
+
+/**
+ * Convert from data coordinates to canvas/div X/Y coordinates.
+ * Returns a two-element array: [X, Y]
+ */
+Dygraph.prototype.toDomCoords = function(x, y) {
+ var ret = [null, null];
+ var area = this.plotter_.area;
+ if (x !== null) {
+ var xRange = this.xAxisRange();
+ ret[0] = area.x + (x - xRange[0]) / (xRange[1] - xRange[0]) * area.w;
+ }
+
+ if (y !== null) {
+ var yRange = this.yAxisRange();
+ ret[1] = area.y + (yRange[1] - y) / (yRange[1] - yRange[0]) * area.h;
+ }
+
+ return ret;
+};
+
+// TODO(danvk): use these functions throughout dygraphs.
+/**
+ * Convert from canvas/div coords to data coordinates.
+ * Returns a two-element array: [X, Y]
+ */
+Dygraph.prototype.toDataCoords = function(x, y) {
+ var ret = [null, null];
+ var area = this.plotter_.area;
+ if (x !== null) {
+ var xRange = this.xAxisRange();
+ ret[0] = xRange[0] + (x - area.x) / area.w * (xRange[1] - xRange[0]);
+ }
+
+ if (y !== null) {
+ var yRange = this.yAxisRange();
+ ret[1] = yRange[0] + (area.h - y) / area.h * (yRange[1] - yRange[0]);
+ }
+
+ return ret;
+};
+
Dygraph.addEvent = function(el, evt, fn) {
var normed_fn = function(e) {
if (!e) var e = window.event;
}
};
+Dygraph.clipCanvas_ = function(cnv, clip) {
+ var ctx = cnv.getContext("2d");
+ ctx.beginPath();
+ ctx.rect(clip.left, clip.top, clip.width, clip.height);
+ ctx.clip();
+};
+
/**
* Generates interface elements for the Dygraph: a containing div, a div to
* display the current point, and a textbox to adjust the rolling average
this.graphDiv.style.height = this.height_ + "px";
enclosing.appendChild(this.graphDiv);
+ var clip = {
+ top: 0,
+ left: this.attr_("yAxisLabelWidth") + 2 * this.attr_("axisTickSize")
+ };
+ clip.width = this.width_ - clip.left - this.attr_("rightGap");
+ clip.height = this.height_ - this.attr_("axisLabelFontSize")
+ - 2 * this.attr_("axisTickSize");
+ this.clippingArea_ = clip;
+
// Create the canvas for interactive parts of the chart.
this.canvas_ = Dygraph.createCanvas();
this.canvas_.style.position = "absolute";
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_);
+ // The interactive parts of the graph are drawn on top of the chart.
+ this.graphDiv.appendChild(this.hidden_);
+ this.graphDiv.appendChild(this.canvas_);
+ this.mouseEventElement_ = this.canvas_;
+
+ // Make sure we don't overdraw.
+ Dygraph.clipCanvas_(this.hidden_, this.clippingArea_);
+ Dygraph.clipCanvas_(this.canvas_, this.clippingArea_);
+
var dygraph = this;
- Dygraph.addEvent(this.hidden_, 'mousemove', function(e) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mousemove', function(e) {
dygraph.mouseMove_(e);
});
- Dygraph.addEvent(this.hidden_, 'mouseout', function(e) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mouseout', function(e) {
dygraph.mouseOut_(e);
});
* @private
*/
Dygraph.prototype.createPlotKitCanvas_ = function(canvas) {
- // var h = document.createElement("canvas");
var h = Dygraph.createCanvas();
h.style.position = "absolute";
+ // TODO(danvk): h should be offset from canvas. canvas needs to include
+ // some extra area to make it easier to zoom in on the far left and far
+ // right. h needs to be precisely the plot area, so that clipping occurs.
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;
};
if (!colors) {
var sat = this.attr_('colorSaturation') || 1.0;
var val = this.attr_('colorValue') || 0.5;
+ var half = Math.ceil(num / 2);
for (var i = 1; i <= num; i++) {
if (!this.visibility()[i-1]) continue;
// alternate colors for high contrast.
- var idx = i - parseInt(i % 2 ? i / 2 : (i - num)/2, 10);
+ var idx = i % 2 ? Math.ceil(i / 2) : (half + i / 2);
var hue = (1.0 * idx/ (1 + num));
this.colors_.push(Dygraph.hsvToRGB(hue, sat, val));
}
Dygraph.findPosX = function(obj) {
var curleft = 0;
if(obj.offsetParent)
- while(1)
+ while(1)
{
curleft += obj.offsetLeft;
if(!obj.offsetParent)
var getY = function(e) { return Dygraph.pageX(e) - py };
// Draw zoom rectangles when the mouse is down and the user moves around
- Dygraph.addEvent(this.hidden_, 'mousemove', function(event) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mousemove', function(event) {
if (isZooming) {
dragEndX = getX(event);
dragEndY = getY(event);
});
// Track the beginning of drag events
- Dygraph.addEvent(this.hidden_, 'mousedown', function(event) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mousedown', function(event) {
px = Dygraph.findPosX(self.canvas_);
py = Dygraph.findPosY(self.canvas_);
dragStartX = getX(event);
});
// Temporarily cancel the dragging event when the mouse leaves the graph
- Dygraph.addEvent(this.hidden_, 'mouseout', function(event) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mouseout', function(event) {
if (isZooming) {
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)
- Dygraph.addEvent(this.hidden_, 'mouseup', function(event) {
+ Dygraph.addEvent(this.mouseEventElement_, 'mouseup', function(event) {
if (isZooming) {
isZooming = false;
dragEndX = getX(event);
});
// Double-clicking zooms back out
- Dygraph.addEvent(this.hidden_, 'dblclick', function(event) {
+ Dygraph.addEvent(this.mouseEventElement_, 'dblclick', function(event) {
if (self.dateWindow_ == null) return;
self.dateWindow_ = null;
self.drawGraph_(self.rawData_);
*/
Dygraph.prototype.doZoom_ = function(lowX, highX) {
// Find the earliest and latest dates contained in this canvasx range.
- var points = this.layout_.points;
- var minDate = null;
- var maxDate = null;
- // Find the nearest [minDate, maxDate] that contains [lowX, highX]
- for (var i = 0; i < points.length; i++) {
- var cx = points[i].canvasx;
- var x = points[i].xval;
- if (cx < lowX && (minDate == null || x > minDate)) minDate = x;
- if (cx > highX && (maxDate == null || x < maxDate)) maxDate = x;
- }
- // Use the extremes if either is missing
- if (minDate == null) minDate = points[0].xval;
- if (maxDate == null) maxDate = points[points.length-1].xval;
+ var r = this.toDataCoords(lowX, null);
+ var minDate = r[0];
+ r = this.toDataCoords(highX, null);
+ var maxDate = r[0];
this.dateWindow_ = [minDate, maxDate];
this.drawGraph_(this.rawData_);
* @private
*/
Dygraph.prototype.mouseMove_ = function(event) {
- var canvasx = Dygraph.pageX(event) - Dygraph.findPosX(this.hidden_);
+ var canvasx = Dygraph.pageX(event) - Dygraph.findPosX(this.mouseEventElement_);
var points = this.layout_.points;
var lastx = -1;
var idx = -1;
for (var i = 0; i < points.length; i++) {
var dist = Math.abs(points[i].canvasx - canvasx);
- if (dist > minDist) break;
+ if (dist > minDist) continue;
minDist = dist;
idx = i;
}
// Extract the points we've selected
this.selPoints_ = [];
- for (var i = 0; i < points.length; i++) {
- if (points[i].xval == lastx) {
- this.selPoints_.push(points[i]);
+ var l = points.length;
+ if (!this.attr_("stackedGraph")) {
+ for (var i = 0; i < l; i++) {
+ if (points[i].xval == lastx) {
+ this.selPoints_.push(points[i]);
+ }
+ }
+ } else {
+ // Need to 'unstack' points starting from the bottom
+ var cumulative_sum = 0;
+ for (var i = l - 1; i >= 0; i--) {
+ if (points[i].xval == lastx) {
+ var p = {}; // Clone the point since we modify it
+ for (var k in points[i]) {
+ p[k] = points[i][k];
+ }
+ p.yval -= cumulative_sum;
+ cumulative_sum += p.yval;
+ this.selPoints_.push(p);
+ }
}
+ this.selPoints_.reverse();
}
if (this.attr_("highlightCallback")) {
- var px = this.lastHighlightCallbackX;
+ var px = this.lastx_;
if (px !== null && lastx != px) {
// only fire if the selected point has changed.
- this.lastHighlightCallbackX = lastx;
- if (!this.attr_("stackedGraph")) {
- this.attr_("highlightCallback")(event, lastx, this.selPoints_);
- } else {
- // "unstack" the points.
- var callbackPoints = this.selPoints_.map(
- function(p) { return {xval: p.xval, yval: p.yval, name: p.name} });
- var cumulative_sum = 0;
- for (var j = callbackPoints.length - 1; j >= 0; j--) {
- callbackPoints[j].yval -= cumulative_sum;
- cumulative_sum += callbackPoints[j].yval;
- }
- this.attr_("highlightCallback")(event, lastx, callbackPoints);
- }
+ this.attr_("highlightCallback")(event, lastx, this.selPoints_);
}
}
+ // Save last x position for callbacks.
+ this.lastx_ = lastx;
+
+ this.updateSelection_();
+};
+
+/**
+ * Draw dots over the selectied points in the data series. This function
+ * takes care of cleanup of previously-drawn dots.
+ * @private
+ */
+Dygraph.prototype.updateSelection_ = function() {
// Clear the previously drawn vertical, if there is one
var circleSize = this.attr_('highlightCircleSize');
var ctx = this.canvas_.getContext("2d");
var canvasx = this.selPoints_[0].canvasx;
// Set the status message to indicate the selected point(s)
- var replace = this.attr_('xValueFormatter')(lastx, this) + ":";
+ var replace = this.attr_('xValueFormatter')(this.lastx_, this) + ":";
+ var fmtFunc = this.attr_('yValueFormatter');
var clen = this.colors_.length;
- for (var i = 0; i < this.selPoints_.length; i++) {
- if (!isOK(this.selPoints_[i].canvasy)) continue;
- if (this.attr_("labelsSeparateLines")) {
- replace += "<br/>";
+
+ if (this.attr_('showLabelsOnHighlight')) {
+ // Set the status message to indicate the selected point(s)
+ for (var i = 0; i < this.selPoints_.length; i++) {
+ if (!isOK(this.selPoints_[i].canvasy)) continue;
+ if (this.attr_("labelsSeparateLines")) {
+ replace += "<br/>";
+ }
+ var point = this.selPoints_[i];
+ var c = new RGBColor(this.colors_[i%clen]);
+ var yval = fmtFunc(point.yval);
+ replace += " <b><font color='" + c.toHex() + "'>"
+ + point.name + "</font></b>:"
+ + yval;
}
- 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);
- }
- this.attr_("labelsDiv").innerHTML = replace;
- // Save last x position for callbacks.
- this.lastx_ = lastx;
+ this.attr_("labelsDiv").innerHTML = replace;
+ }
// Draw colored circles over the center of each selected point
ctx.save();
for (var i = 0; i < this.selPoints_.length; i++) {
- if (!isOK(this.selPoints_[i%clen].canvasy)) continue;
+ if (!isOK(this.selPoints_[i].canvasy)) continue;
ctx.beginPath();
- ctx.fillStyle = this.colors_[i%clen];
- ctx.arc(canvasx, this.selPoints_[i%clen].canvasy, circleSize,
+ ctx.fillStyle = this.plotter_.colors[this.selPoints_[i].name];
+ ctx.arc(canvasx, this.selPoints_[i].canvasy, circleSize,
0, 2 * Math.PI, false);
ctx.fill();
}
};
/**
+ * Set manually set selected dots, and display information about them
+ * @param int row number that should by highlighted
+ * false value clears the selection
+ * @public
+ */
+Dygraph.prototype.setSelection = function(row) {
+ // Extract the points we've selected
+ this.selPoints_ = [];
+ var pos = 0;
+
+ if (row !== false) {
+ row = row-this.boundaryIds_[0][0];
+ }
+
+ if (row !== false && row >= 0) {
+ for (var i in this.layout_.datasets) {
+ if (row < this.layout_.datasets[i].length) {
+ this.selPoints_.push(this.layout_.points[pos+row]);
+ }
+ pos += this.layout_.datasets[i].length;
+ }
+ }
+
+ if (this.selPoints_.length) {
+ this.lastx_ = this.selPoints_[0].xval;
+ this.updateSelection_();
+ } else {
+ this.lastx_ = -1;
+ this.clearSelection();
+ }
+
+};
+
+/**
* The mouse has left the canvas. Clear out whatever artifacts remain
* @param {Object} event the mouseout event from the browser.
* @private
*/
Dygraph.prototype.mouseOut_ = function(event) {
+ if (this.attr_("unhighlightCallback")) {
+ this.attr_("unhighlightCallback")(event);
+ }
+
if (this.attr_("hideOverlayOnMouseOut")) {
- // Get rid of the overlay data
- var ctx = this.canvas_.getContext("2d");
- ctx.clearRect(0, 0, this.width_, this.height_);
- this.attr_("labelsDiv").innerHTML = "";
+ this.clearSelection();
}
};
+/**
+ * Remove all selection from the canvas
+ * @public
+ */
+Dygraph.prototype.clearSelection = function() {
+ // Get rid of the overlay data
+ var ctx = this.canvas_.getContext("2d");
+ ctx.clearRect(0, 0, this.width_, this.height_);
+ this.attr_("labelsDiv").innerHTML = "";
+ this.selPoints_ = [];
+ this.lastx_ = -1;
+}
+
+/**
+ * Returns the number of the currently selected row
+ * @return int row number, of -1 if nothing is selected
+ * @public
+ */
+Dygraph.prototype.getSelection = function() {
+ if (!this.selPoints_ || this.selPoints_.length < 1) {
+ return -1;
+ }
+
+ for (var row=0; row<this.layout_.points.length; row++ ) {
+ if (this.layout_.points[row].x == this.selPoints_[0].x) {
+ return row + this.boundaryIds_[0][0];
+ }
+ }
+ return -1;
+}
+
Dygraph.zeropad = function(x) {
if (x < 10) return "0" + x; else return "" + x;
}
* @return {String} A time of the form "HH:MM:SS"
* @private
*/
-Dygraph.prototype.hmsString_ = function(date) {
+Dygraph.hmsString_ = function(date) {
var zeropad = Dygraph.zeropad;
var d = new Date(date);
if (d.getSeconds()) {
}
/**
+ * Convert a JS date to a string appropriate to display on an axis that
+ * is displaying values at the stated granularity.
+ * @param {Date} date The date to format
+ * @param {Number} granularity One of the Dygraph granularity constants
+ * @return {String} The formatted date
+ * @private
+ */
+Dygraph.dateAxisFormatter = function(date, granularity) {
+ if (granularity >= Dygraph.MONTHLY) {
+ return date.strftime('%b %y');
+ } else {
+ var frac = date.getHours() * 3600 + date.getMinutes() * 60 + date.getSeconds() + date.getMilliseconds();
+ if (frac == 0 || granularity >= Dygraph.DAILY) {
+ return new Date(date.getTime() + 3600*1000).strftime('%d%b');
+ } else {
+ return Dygraph.hmsString_(date.getTime());
+ }
+ }
+}
+
+/**
* Convert a JS date (millis since epoch) to YYYY/MM/DD
* @param {Number} date The JavaScript date (ms since epoch)
* @return {String} A date of the form "YYYY/MM/DD"
* @private
- * TODO(danvk): why is this part of the prototype?
*/
Dygraph.dateString_ = function(date, self) {
var zeropad = Dygraph.zeropad;
var ret = "";
var frac = d.getHours() * 3600 + d.getMinutes() * 60 + d.getSeconds();
- if (frac) ret = " " + self.hmsString_(date);
+ if (frac) ret = " " + Dygraph.hmsString_(date);
return year + "/" + month + "/" + day + ret;
};
* @return {Number} The rounded number
* @private
*/
-Dygraph.prototype.round_ = function(num, places) {
+Dygraph.round_ = function(num, places) {
var shift = Math.pow(10, places);
return Math.round(num * shift)/shift;
};
// Returns an array containing {v: millis, label: label} dictionaries.
//
Dygraph.prototype.GetXAxis = function(start_time, end_time, granularity) {
+ var formatter = this.attr_("xAxisLabelFormatter");
var ticks = [];
if (granularity < Dygraph.MONTHLY) {
// Generate one tick mark for every fixed interval of time.
start_time = d.getTime();
for (var t = start_time; t <= end_time; t += spacing) {
- var d = new Date(t);
- var frac = d.getHours() * 3600 + d.getMinutes() * 60 + d.getSeconds();
- if (frac == 0 || granularity >= Dygraph.DAILY) {
- // the extra hour covers DST problems.
- ticks.push({ v:t, label: new Date(t + 3600*1000).strftime(format) });
- } else {
- ticks.push({ v:t, label: this.hmsString_(t) });
- }
+ ticks.push({ v:t, label: formatter(new Date(t), granularity) });
}
} else {
// Display a tick mark on the first of a set of months of each year.
var date_str = i + "/" + zeropad(1 + months[j]) + "/01";
var t = Date.parse(date_str);
if (t < start_time || t > end_time) continue;
- ticks.push({ v:t, label: new Date(t).strftime('%b %y') });
+ ticks.push({ v:t, label: formatter(new Date(t), granularity) });
}
}
}
* Add ticks when the x axis has numbers on it (instead of dates)
* @param {Number} startDate Start of the date window (millis since epoch)
* @param {Number} endDate End of the date window (millis since epoch)
+ * @param self
+ * @param {function} formatter: Optional formatter to use for each tick value
* @return {Array.<Object>} Array of {label, value} tuples.
* @public
*/
-Dygraph.numericTicks = function(minV, maxV, self) {
+Dygraph.numericTicks = function(minV, maxV, self, formatter) {
// Basic idea:
// Try labels every 1, 2, 5, 10, 20, 50, 100, etc.
// Calculate the resulting tick spacing (i.e. this.height_ / nTicks).
scale = base_scale * mults[j];
low_val = Math.floor(minV / scale) * scale;
high_val = Math.ceil(maxV / scale) * scale;
- nTicks = (high_val - low_val) / scale;
+ nTicks = Math.abs(high_val - low_val) / scale;
var spacing = self.height_ / nTicks;
// wish I could break out of both loops at once...
if (spacing > pixelsPerTick) break;
k_labels = [ "k", "M", "G", "T" ];
}
+ // Allow reverse y-axis if it's explicitly requested.
+ if (low_val > high_val) scale *= -1;
+
for (var i = 0; i < nTicks; i++) {
var tickV = low_val + i * scale;
var absTickV = Math.abs(tickV);
- var label = self.round_(tickV, 2);
+ var label;
+ if (formatter != undefined) {
+ label = formatter(tickV);
+ } else {
+ label = Dygraph.round_(tickV, 2);
+ }
if (k_labels.length) {
// Round up to an appropriate unit.
var n = k*k*k*k;
for (var j = 3; j >= 0; j--, n /= k) {
if (absTickV >= n) {
- label = self.round_(tickV / n, 1) + k_labels[j];
+ label = Dygraph.round_(tickV / n, 1) + k_labels[j];
break;
}
}
Dygraph.prototype.addYTicks_ = function(minY, maxY) {
// Set the number of ticks so that the labels are human-friendly.
// TODO(danvk): make this an attribute as well.
- var ticks = Dygraph.numericTicks(minY, maxY, this);
+ var formatter = this.attr_('yAxisLabelFormatter') ? this.attr_('yAxisLabelFormatter') : this.attr_('yValueFormatter');
+ var ticks = Dygraph.numericTicks(minY, maxY, this, formatter);
this.layout_.updateOptions( { yAxis: [minY, maxY],
yTicks: ticks } );
};
this.setColors_();
this.attrs_['pointSize'] = 0.5 * this.attr_('highlightCircleSize');
- // For stacked series.
- var cumulative_y = [];
- var stacked_datasets = [];
+ var connectSeparatedPoints = this.attr_('connectSeparatedPoints');
- // Loop over all fields in the dataset
+ // Loop over the fields (series). Go from the last to the first,
+ // because if they're stacked that's how we accumulate the values.
- for (var i = 1; i < data[0].length; i++) {
+ var cumulative_y = []; // For stacked series.
+ var datasets = [];
+
+ // Loop over all fields and create datasets
+ for (var i = data[0].length - 1; i >= 1; i--) {
if (!this.visibility()[i - 1]) continue;
var series = [];
for (var j = 0; j < data.length; j++) {
- var date = data[j][0];
- series[j] = [date, data[j][i]];
+ if (data[j][i] != null || !connectSeparatedPoints) {
+ var date = data[j][0];
+ series.push([date, data[j][i]]);
+ }
}
series = this.rollingAverage(series, this.rollPeriod_);
// Prune down to the desired range, if necessary (for zooming)
+ // Because there can be lines going to points outside of the visible area,
+ // we actually prune to visible points, plus one on either side.
var bars = this.attr_("errorBars") || this.attr_("customBars");
if (this.dateWindow_) {
var low = this.dateWindow_[0];
var high= this.dateWindow_[1];
var pruned = [];
+ // TODO(danvk): do binary search instead of linear search.
+ // TODO(danvk): pass firstIdx and lastIdx directly to the renderer.
+ var firstIdx = null, lastIdx = null;
for (var k = 0; k < series.length; k++) {
- if (series[k][0] >= low && series[k][0] <= high) {
- pruned.push(series[k]);
+ if (series[k][0] >= low && firstIdx === null) {
+ firstIdx = k;
}
+ if (series[k][0] <= high) {
+ lastIdx = k;
+ }
+ }
+ if (firstIdx === null) firstIdx = 0;
+ if (firstIdx > 0) firstIdx--;
+ if (lastIdx === null) lastIdx = series.length - 1;
+ if (lastIdx < series.length - 1) lastIdx++;
+ this.boundaryIds_[i-1] = [firstIdx, lastIdx];
+ for (var k = firstIdx; k <= lastIdx; k++) {
+ pruned.push(series[k]);
}
series = pruned;
+ } else {
+ this.boundaryIds_[i-1] = [0, series.length-1];
}
var extremes = this.extremeValues_(series);
var thisMinY = extremes[0];
var thisMaxY = extremes[1];
- if (!minY || thisMinY < minY) minY = thisMinY;
- if (!maxY || thisMaxY > maxY) maxY = thisMaxY;
+ if (minY === null || thisMinY < minY) minY = thisMinY;
+ if (maxY === null || thisMaxY > maxY) maxY = thisMaxY;
if (bars) {
- var vals = [];
- for (var j=0; j<series.length; j++)
- vals[j] = [series[j][0],
- series[j][1][0], series[j][1][1], series[j][1][2]];
- this.layout_.addDataset(this.attr_("labels")[i], vals);
+ for (var j=0; j<series.length; j++) {
+ val = [series[j][0], series[j][1][0], series[j][1][1], series[j][1][2]];
+ series[j] = val;
+ }
} else if (this.attr_("stackedGraph")) {
- var vals = [];
var l = series.length;
var actual_y;
for (var j = 0; j < l; j++) {
- if (cumulative_y[series[j][0]] === undefined)
- cumulative_y[series[j][0]] = 0;
+ // If one data set has a NaN, let all subsequent stacked
+ // sets inherit the NaN -- only start at 0 for the first set.
+ var x = series[j][0];
+ if (cumulative_y[x] === undefined)
+ cumulative_y[x] = 0;
actual_y = series[j][1];
- cumulative_y[series[j][0]] += actual_y;
+ cumulative_y[x] += actual_y;
- vals[j] = [series[j][0], cumulative_y[series[j][0]]]
+ series[j] = [x, cumulative_y[x]]
- if (!maxY || cumulative_y[series[j][0]] > maxY)
- maxY = cumulative_y[series[j][0]];
+ if (!maxY || cumulative_y[x] > maxY)
+ maxY = cumulative_y[x];
}
- stacked_datasets.push([this.attr_("labels")[i], vals]);
- //this.layout_.addDataset(this.attr_("labels")[i], vals);
- } else {
- this.layout_.addDataset(this.attr_("labels")[i], series);
}
+
+ datasets[i] = series;
}
- if (stacked_datasets.length > 0) {
- for (var i = (stacked_datasets.length - 1); i >= 0; i--) {
- this.layout_.addDataset(stacked_datasets[i][0], stacked_datasets[i][1]);
- }
+ for (var i = 1; i < datasets.length; i++) {
+ this.layout_.addDataset(this.attr_("labels")[i], datasets[i]);
}
// Use some heuristics to come up with a good maxY value, unless it's been
// set explicitly by the user.
if (this.valueRange_ != null) {
this.addYTicks_(this.valueRange_[0], this.valueRange_[1]);
+ this.displayedYRange_ = this.valueRange_;
} else {
// This affects the calculation of span, below.
if (this.attr_("includeZero") && minY > 0) {
}
this.addYTicks_(minAxisY, maxAxisY);
+ this.displayedYRange_ = [minAxisY, maxAxisY];
}
this.addXTicks_();
this.attrs_.xValueFormatter = Dygraph.dateString_;
this.attrs_.xValueParser = Dygraph.dateParser;
this.attrs_.xTicker = Dygraph.dateTicker;
+ this.attrs_.xAxisLabelFormatter = Dygraph.dateAxisFormatter;
} else {
this.attrs_.xValueFormatter = function(x) { return x; };
this.attrs_.xValueParser = function(x) { return parseFloat(x); };
this.attrs_.xTicker = Dygraph.numericTicks;
+ this.attrs_.xAxisLabelFormatter = this.attrs_.xValueFormatter;
}
};
if (Dygraph.isDateLike(data[0][0])) {
// Some intelligent defaults for a date x-axis.
this.attrs_.xValueFormatter = Dygraph.dateString_;
+ this.attrs_.xAxisLabelFormatter = Dygraph.dateAxisFormatter;
this.attrs_.xTicker = Dygraph.dateTicker;
// Assume they're all dates.
return null;
}
if (parsedData[i][0] == null
- || typeof(parsedData[i][0].getTime) != 'function') {
- this.error("x value in row " << (1 + i) << " is not a Date");
+ || typeof(parsedData[i][0].getTime) != 'function'
+ || isNaN(parsedData[i][0].getTime())) {
+ this.error("x value in row " + (1 + i) + " is not a Date");
return null;
}
parsedData[i][0] = parsedData[i][0].getTime();
this.attrs_.xValueFormatter = Dygraph.dateString_;
this.attrs_.xValueParser = Dygraph.dateParser;
this.attrs_.xTicker = Dygraph.dateTicker;
+ this.attrs_.xAxisLabelFormatter = Dygraph.dateAxisFormatter;
} else if (indepType == 'number') {
this.attrs_.xValueFormatter = function(x) { return x; };
this.attrs_.xValueParser = function(x) { return parseFloat(x); };
this.attrs_.xTicker = Dygraph.numericTicks;
+ this.attrs_.xAxisLabelFormatter = this.attrs_.xValueFormatter;
} else {
this.error("only 'date', 'datetime' and 'number' types are supported for " +
"column 1 of DataTable input (Got '" + indepType + "')");
// TODO(danvk): this doesn't match the constructor logic
this.layout_.updateOptions({ 'errorBars': this.attr_("errorBars") });
- if (attrs['file'] && attrs['file'] != this.file_) {
+ if (attrs['file']) {
this.file_ = attrs['file'];
this.start_();
} else {
* @param {Number} height Height (in pixels)
*/
Dygraph.prototype.resize = function(width, height) {
+ if (this.resize_lock) {
+ return;
+ }
+ this.resize_lock = true;
+
if ((width === null) != (height === null)) {
this.warn("Dygraph.resize() should be called with zero parameters or " +
"two non-NULL parameters. Pretending it was zero.");
this.createInterface_();
this.drawGraph_(this.rawData_);
+
+ this.resize_lock = false;
};
/**
this.date_graph = new Dygraph(this.container, data, options);
}
+/**
+ * Google charts compatible setSelection
+ * Only row selection is supported, all points in the row will be highlighted
+ * @param {Array} array of the selected cells
+ * @public
+ */
+Dygraph.GVizChart.prototype.setSelection = function(selection_array) {
+ var row = false;
+ if (selection_array.length) {
+ row = selection_array[0].row;
+ }
+ this.date_graph.setSelection(row);
+}
+
+/**
+ * Google charts compatible getSelection implementation
+ * @return {Array} array of the selected cells
+ * @public
+ */
+Dygraph.GVizChart.prototype.getSelection = function() {
+ var selection = [];
+
+ var row = this.date_graph.getSelection();
+
+ if (row < 0) return selection;
+
+ col = 1;
+ for (var i in this.date_graph.layout_.datasets) {
+ selection.push({row: row, column: col});
+ col++;
+ }
+
+ return selection;
+}
+
// Older pages may still use this name.
DateGraph = Dygraph;