this.setNames.push(setname);
};
+/**
+ * Returns the box which the chart should be drawn in. This is the canvas's
+ * box, less space needed for the axis and chart labels.
+ *
+ * @return {{ x : numer, y : number, w : number, h : number }}
+ */
DygraphLayout.prototype.getPlotArea = function() {
- return this.computePlotArea_();
+ return this.area_;
};
// Compute the box which the chart should be drawn in. This is the canvas's
// box, less space needed for axis and chart labels.
-DygraphLayout.prototype.computePlotArea_ = function() {
+// NOTE: This should only be called by Dygraph.predraw_().
+DygraphLayout.prototype.computePlotArea = function() {
var area = {
// TODO(danvk): per-axis setting.
x: 0,
};
this.dygraph_.cascadeEvents_('layout', e);
- // Add space for range selector, if needed.
- if (this.attr_('showRangeSelector')) {
- area.h -= this.attr_('rangeSelectorHeight') + 4;
- }
-
- return area;
+ this.area_ = area;
};
DygraphLayout.prototype.setAnnotations = function(ann) {
var parse = this.attr_('xValueParser') || function(x) { return x; };
for (var i = 0; i < ann.length; i++) {
var a = {};
- if (!ann[i].xval && !ann[i].x) {
+ if (!ann[i].xval && ann[i].x === undefined) {
this.dygraph_.error("Annotations must have an 'x' property");
return;
}
};
DygraphLayout.prototype._evaluateLimits = function() {
- this.minxval = this.maxxval = null;
- if (this.dateWindow_) {
- this.minxval = this.dateWindow_[0];
- this.maxxval = this.dateWindow_[1];
- } else {
- for (var setIdx = 0; setIdx < this.datasets.length; ++setIdx) {
- var series = this.datasets[setIdx];
- if (series.length > 1) {
- var x1 = series[0][0];
- if (!this.minxval || x1 < this.minxval) this.minxval = x1;
-
- var x2 = series[series.length - 1][0];
- if (!this.maxxval || x2 > this.maxxval) this.maxxval = x2;
- }
- }
- }
- this.xrange = this.maxxval - this.minxval;
- this.xscale = (this.xrange !== 0 ? 1/this.xrange : 1.0);
+ var xlimits = this.dygraph_.xAxisRange();
+ this.minxval = xlimits[0];
+ this.maxxval = xlimits[1];
+ var xrange = xlimits[1] - xlimits[0];
+ this.xscale = (xrange !== 0 ? 1 / xrange : 1.0);
for (var i = 0; i < this.yAxes_.length; i++) {
var axis = this.yAxes_[i];
}
};
-DygraphLayout._calcYNormal = function(axis, value) {
- if (axis.logscale) {
+DygraphLayout._calcYNormal = function(axis, value, logscale) {
+ if (logscale) {
return 1.0 - ((Dygraph.log10(value) - Dygraph.log10(axis.minyval)) * axis.ylogscale);
} else {
return 1.0 - ((value - axis.minyval) * axis.yscale);
// on chrome+linux, they are 6 times more expensive than iterating through the
// points and drawing the lines. The brunt of the cost comes from allocating
// the |point| structures.
+ var boundaryIdStart = 0;
+ if (this.dygraph_.boundaryIds_.length > 0) {
+ boundaryIdStart = this.dygraph_.boundaryIds_[this.dygraph_.boundaryIds_.length-1][0]
+ }
for (var setIdx = 0; setIdx < this.datasets.length; setIdx++) {
var dataset = this.datasets[setIdx];
var setName = this.setNames[setIdx];
var axis = this.dygraph_.axisPropertiesForSeries(setName);
+ // TODO (konigsberg): use optionsForAxis instead.
+ var logscale = this.dygraph_.attributes_.getForSeries("logscale", setName);
// Preallocating the size of points reduces reallocations, and therefore,
// calls to collect garbage.
// Range from 0-1 where 0 represents left and 1 represents right.
var xNormal = (xValue - this.minxval) * this.xscale;
// Range from 0-1 where 0 represents top and 1 represents bottom
- var yNormal = DygraphLayout._calcYNormal(axis, yValue);
+ var yNormal = DygraphLayout._calcYNormal(axis, yValue, logscale);
// TODO(danvk): drop the point in this case, don't null it.
// The nulls create complexity in DygraphCanvasRenderer._drawSeries.
y: yNormal,
xval: xValue,
yval: yValue,
- name: setName // TODO(danvk): is this really necessary?
+ name: setName, // TODO(danvk): is this really necessary?
+ idx: j + boundaryIdStart
};
}
var dataset = this.datasets[setIdx];
var setName = this.setNames[setIdx];
var axis = this.dygraph_.axisPropertiesForSeries(setName);
+ // TODO (konigsberg): use optionsForAxis instead.
+ var logscale = this.dygraph_.attributes_.getForSeries("logscale", setName);
+
for (j = 0; j < dataset.length; j++, i++) {
var item = dataset[j];
var xv = DygraphLayout.parseFloat_(item[0]);
var yv_minus = yv - errorMinus;
var yv_plus = yv + errorPlus;
- points[j].y_top = DygraphLayout._calcYNormal(axis, yv_minus);
- points[j].y_bottom = DygraphLayout._calcYNormal(axis, yv_plus);
+ points[j].y_top = DygraphLayout._calcYNormal(axis, yv_minus, logscale);
+ points[j].y_bottom = DygraphLayout._calcYNormal(axis, yv_plus, logscale);
}
}
}
DygraphLayout.prototype.unstackPointAtIndex = function(setIdx, row) {
var point = this.points[setIdx][row];
// If the point is missing, no unstacking is necessary
- if (!point.yval) {
+ if (!Dygraph.isValidPoint(point)) {
return point;
}
// The unstacked yval is equal to the current yval minus the yval of the
// next point at the same xval.
- var points = this.points[setIdx];
- for (var i = row + 1; i < points.length; i++) {
- if ((points[i].xval == point.xval) && points[i].yval) {
- unstackedPoint.yval -= points[i].yval;
- break;
+ // We need to iterate over setIdx just in case some series have invalid values
+ // at current row
+ for(setIdx++; setIdx < this.points.length; setIdx++) {
+ var nextPoint = this.points[setIdx][row];
+ if (nextPoint.xval == point.xval && // should always be true?
+ Dygraph.isValidPoint(nextPoint)) {
+ unstackedPoint.yval -= nextPoint.yval;
+ break; // stop at first valid point
}
}