DygraphLayout.prototype.setAnnotations = function(ann) {
// The Dygraph object's annotations aren't parsed. We parse them here and
- // save a copy.
+ // save a copy. If there is no parser, then the user must be using raw format.
this.annotations = [];
- var parse = this.attr_('xValueParser');
+ 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) {
axis.maxyval = axis.computedValueRange[1];
axis.yrange = axis.maxyval - axis.minyval;
axis.yscale = (axis.yrange != 0 ? 1.0 / axis.yrange : 1.0);
+
+ if (axis.g.attr_("logscale")) {
+ axis.ylogrange = Dygraph.log10(axis.maxyval) - Dygraph.log10(axis.minyval);
+ axis.ylogscale = (axis.ylogrange != 0 ? 1.0 / axis.ylogrange : 1.0);
+ if (!isFinite(axis.ylogrange) || isNaN(axis.ylogrange)) {
+ axis.g.error('axis ' + i + ' of graph at ' + axis.g +
+ ' can\'t be displayed in log scale for range [' +
+ axis.minyval + ' - ' + axis.maxyval + ']');
+ }
+ }
}
};
for (var j = 0; j < dataset.length; j++) {
var item = dataset[j];
+
+ var yval;
+ if (axis.logscale) {
+ yval = 1.0 - ((Dygraph.log10(parseFloat(item[1])) - Dygraph.log10(axis.minyval)) * axis.ylogscale); // really should just be yscale.
+ } else {
+ yval = 1.0 - ((parseFloat(item[1]) - axis.minyval) * axis.yscale);
+ }
var point = {
// TODO(danvk): here
x: ((parseFloat(item[0]) - this.minxval) * this.xscale),
- y: 1.0 - ((parseFloat(item[1]) - axis.minyval) * axis.yscale),
+ y: yval,
xval: parseFloat(item[0]),
yval: parseFloat(item[1]),
name: setName
for (var j = 0; j < axis.ticks.length; j++) {
var tick = axis.ticks[j];
var label = tick.label;
- var pos = 1.0 - (axis.yscale * (tick.v - axis.minyval));
+ var pos = this.dygraph_.toPercentYCoord(tick.v, i);
if ((pos >= 0.0) && (pos <= 1.0)) {
this.yticks.push([i, pos, label]);
}
for (var i = 0; i < this.xlabels.length; i++) {
var el = this.xlabels[i];
- el.parentNode.removeChild(el);
+ if (el.parentNode) el.parentNode.removeChild(el);
}
for (var i = 0; i < this.ylabels.length; i++) {
var el = this.ylabels[i];
- el.parentNode.removeChild(el);
+ if (el.parentNode) el.parentNode.removeChild(el);
}
for (var i = 0; i < this.annotations.length; i++) {
var el = this.annotations[i];
- el.parentNode.removeChild(el);
+ if (el.parentNode) el.parentNode.removeChild(el);
}
this.xlabels = new Array();
this.ylabels = new Array();
* Draw an X/Y grid on top of the existing plot
*/
DygraphCanvasRenderer.prototype.render = function() {
- // Draw the new X/Y grid
+ // Draw the new X/Y grid. Lines appear crisper when pixels are rounded to
+ // half-integers. This prevents them from drawing in two rows/cols.
var ctx = this.element.getContext("2d");
+ function halfUp(x){return Math.round(x)+0.5};
+ function halfDown(y){return Math.round(y)-0.5};
if (this.options.underlayCallback) {
- this.options.underlayCallback(ctx, this.area, this.layout, this.dygraph_);
+ // NOTE: we pass the dygraph object to this callback twice to avoid breaking
+ // users who expect a deprecated form of this callback.
+ this.options.underlayCallback(ctx, this.area, this.dygraph_, this.dygraph_);
}
if (this.options.drawYGrid) {
for (var i = 0; i < ticks.length; i++) {
// TODO(danvk): allow secondary axes to draw a grid, too.
if (ticks[i][0] != 0) continue;
- var x = this.area.x;
- var y = this.area.y + ticks[i][1] * this.area.h;
+ var x = halfUp(this.area.x);
+ var y = halfDown(this.area.y + ticks[i][1] * this.area.h);
ctx.beginPath();
ctx.moveTo(x, y);
ctx.lineTo(x + this.area.w, y);
ctx.strokeStyle = this.options.gridLineColor;
ctx.lineWidth = this.options.axisLineWidth;
for (var i=0; i<ticks.length; i++) {
- var x = this.area.x + ticks[i][0] * this.area.w;
- var y = this.area.y + this.area.h;
+ var x = halfUp(this.area.x + ticks[i][0] * this.area.w);
+ var y = halfDown(this.area.y + this.area.h);
ctx.beginPath();
ctx.moveTo(x, y);
ctx.lineTo(x, this.area.y);
if (!this.options.drawXAxis && !this.options.drawYAxis)
return;
+ // Round pixels to half-integer boundaries for crisper drawing.
+ function halfUp(x){return Math.round(x)+0.5};
+ function halfDown(y){return Math.round(y)-0.5};
+
var context = this.element.getContext("2d");
var labelStyle = {
}
var y = this.area.y + tick[1] * this.area.h;
context.beginPath();
- context.moveTo(x, y);
- context.lineTo(x - sgn * this.options.axisTickSize, y);
+ context.moveTo(halfUp(x), halfDown(y));
+ context.lineTo(halfUp(x - sgn * this.options.axisTickSize), halfDown(y));
context.closePath();
context.stroke();
}
}
+ // draw a vertical line on the left to separate the chart from the labels.
context.beginPath();
- context.moveTo(this.area.x, this.area.y);
- context.lineTo(this.area.x, this.area.y + this.area.h);
+ context.moveTo(halfUp(this.area.x), halfDown(this.area.y));
+ context.lineTo(halfUp(this.area.x), halfDown(this.area.y + this.area.h));
context.closePath();
context.stroke();
+ // if there's a secondary y-axis, draw a vertical line for that, too.
if (this.dygraph_.numAxes() == 2) {
context.beginPath();
- context.moveTo(this.area.x + this.area.w, this.area.y);
- context.lineTo(this.area.x + this.area.w, this.area.y + this.area.h);
+ context.moveTo(halfDown(this.area.x + this.area.w), halfDown(this.area.y));
+ context.lineTo(halfDown(this.area.x + this.area.w), halfDown(this.area.y + this.area.h));
context.closePath();
context.stroke();
}
var x = this.area.x + tick[0] * this.area.w;
var y = this.area.y + this.area.h;
context.beginPath();
- context.moveTo(x, y);
- context.lineTo(x, y + this.options.axisTickSize);
+ context.moveTo(halfUp(x), halfDown(y));
+ context.lineTo(halfUp(x), halfDown(y + this.options.axisTickSize));
context.closePath();
context.stroke();
}
context.beginPath();
- context.moveTo(this.area.x, this.area.y + this.area.h);
- context.lineTo(this.area.x + this.area.w, this.area.y + this.area.h);
+ context.moveTo(halfUp(this.area.x), halfDown(this.area.y + this.area.h));
+ context.lineTo(halfUp(this.area.x + this.area.w), halfDown(this.area.y + this.area.h));
context.closePath();
context.stroke();
}
}
// create paths
- var isOK = function(x) { return x && !isNaN(x); };
-
var ctx = context;
if (errorBars) {
if (fillGraph) {
for (var j = 0; j < this.layout.points.length; j++) {
var point = this.layout.points[j];
if (point.name == setName) {
- if (!isOK(point.y)) {
+ if (!Dygraph.isOK(point.y)) {
prevX = NaN;
continue;
}
for (var j = 0; j < this.layout.points.length; j++) {
var point = this.layout.points[j];
if (point.name == setName) {
- if (!isOK(point.y)) {
+ if (!Dygraph.isOK(point.y)) {
prevX = NaN;
continue;
}
for (var j = 0; j < points.length; j++) {
var point = points[j];
if (point.name == setName) {
- if (!isOK(point.canvasy)) {
+ if (!Dygraph.isOK(point.canvasy)) {
if (stepPlot && prevX != null) {
// Draw a horizontal line to the start of the missing data
ctx.beginPath();
// A point is "isolated" if it is non-null but both the previous
// and next points are null.
var isIsolated = (!prevX && (j == points.length - 1 ||
- !isOK(points[j+1].canvasy)));
+ !Dygraph.isOK(points[j+1].canvasy)));
if (!prevX) {
prevX = point.canvasx;