Dygraph.ANIMATION_STEPS = 12;
Dygraph.ANIMATION_DURATION = 200;
+// Label constants for the labelsKMB and labelsKMG2 options.
+// (i.e. '100000' -> '100K')
+Dygraph.KMB_LABELS = [ 'K', 'M', 'B', 'T', 'Q' ];
+Dygraph.KMG2_BIG_LABELS = [ 'k', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y' ];
+Dygraph.KMG2_SMALL_LABELS = [ 'm', 'u', 'n', 'p', 'f', 'a', 'z', 'y' ];
+
// These are defined before DEFAULT_ATTRS so that it can refer to them.
/**
* @private
var digits = opts('digitsAfterDecimal');
var maxNumberWidth = opts('maxNumberWidth');
+ var kmb = opts('labelsKMB');
+ var kmg2 = opts('labelsKMG2');
+
+ var label;
+
// switch to scientific notation if we underflow or overflow fixed display.
if (x !== 0.0 &&
(Math.abs(x) >= Math.pow(10, maxNumberWidth) ||
Math.abs(x) < Math.pow(10, -digits))) {
- return x.toExponential(digits);
+ label = x.toExponential(digits);
} else {
- return '' + Dygraph.round_(x, digits);
+ label = '' + Dygraph.round_(x, digits);
+ }
+
+ if (kmb || kmg2) {
+ var k;
+ var k_labels = [];
+ var m_labels = [];
+ if (kmb) {
+ k = 1000;
+ k_labels = Dygraph.KMB_LABELS;
+ }
+ if (kmg2) {
+ if (kmb) Dygraph.warn("Setting both labelsKMB and labelsKMG2. Pick one!");
+ k = 1024;
+ k_labels = Dygraph.KMG2_BIG_LABELS;
+ m_labels = Dygraph.KMG2_SMALL_LABELS;
+ }
+
+ var absx = Math.abs(x);
+ var n = Dygraph.pow(k, k_labels.length);
+ for (var j = k_labels.length - 1; j >= 0; j--, n /= k) {
+ if (absx >= n) {
+ label = Dygraph.round_(x / n, digits) + k_labels[j];
+ break;
+ }
+ }
+ if (kmg2) {
+ // TODO(danvk): clean up this logic. Why so different than kmb?
+ var x_parts = String(x.toExponential()).split('e-');
+ if (x_parts.length === 2 && x_parts[1] >= 3 && x_parts[1] <= 24) {
+ if (x_parts[1] % 3 > 0) {
+ label = Dygraph.round_(x_parts[0] /
+ Dygraph.pow(10, (x_parts[1] % 3)),
+ digits);
+ } else {
+ label = Number(x_parts[0]).toFixed(2);
+ }
+ label += m_labels[Math.floor(x_parts[1] / 3) - 1];
+ }
+ }
}
+
+ return label;
};
/**
stepPlot: false,
avoidMinZero: false,
+ xRangePad: 0,
+ yRangePad: null,
drawAxesAtZero: false,
// Sizes of the various chart labels.
var self = this;
return function(opt) {
var axis_opts = self.user_attrs_.axes;
- if (axis_opts && axis_opts[axis] && axis_opts[axis][opt]) {
+ if (axis_opts && axis_opts[axis] && axis_opts[axis].hasOwnProperty(opt)) {
return axis_opts[axis][opt];
}
// user-specified attributes always trump defaults, even if they're less
}
axis_opts = self.attrs_.axes;
- if (axis_opts && axis_opts[axis] && axis_opts[axis][opt]) {
+ if (axis_opts && axis_opts[axis] && axis_opts[axis].hasOwnProperty(opt)) {
return axis_opts[axis][opt];
}
// check old-style axis options
* data set.
*/
Dygraph.prototype.xAxisExtremes = function() {
+ var pad = this.attr_('xRangePad') / this.plotter_.area.w;
+ if (this.numRows() === 0) {
+ return [0 - pad, 1 + pad];
+ }
var left = this.rawData_[0][0];
var right = this.rawData_[this.rawData_.length - 1][0];
+ if (pad) {
+ // Must keep this in sync with dygraph-layout _evaluateLimits()
+ var range = right - left;
+ left -= range * pad;
+ right += range * pad;
+ }
return [left, right];
};
* @return { Integer } The number of columns.
*/
Dygraph.prototype.numColumns = function() {
+ if (!this.rawData_) return 0;
return this.rawData_[0] ? this.rawData_[0].length : this.attr_("labels").length;
};
* @return { Integer } The number of rows, less any header.
*/
Dygraph.prototype.numRows = function() {
+ if (!this.rawData_) return 0;
return this.rawData_.length;
};
/**
- * Returns the full range of the x-axis, as determined by the most extreme
- * values in the data set. Not affected by zooming, visibility, etc.
- * TODO(danvk): merge w/ xAxisExtremes
- * @return { Array<Number> } A [low, high] pair
- * @private
- */
-Dygraph.prototype.fullXRange_ = function() {
- if (this.numRows() > 0) {
- return [this.rawData_[0][0], this.rawData_[this.numRows() - 1][0]];
- } else {
- return [0, 1];
- }
-};
-
-/**
* Returns the value in the given row and column. If the row and column exceed
* the bounds on the data, returns null. Also returns null if the value is
* missing.
var callback = this.attr_("highlightCallback");
if (callback && selectionChanged) {
- callback(event, this.lastx_, this.selPoints_, this.lastRow_, this.highlightSet_);
+ callback(event,
+ this.lastx_,
+ this.selPoints_,
+ this.lastRow_ + this.getLeftBoundary_(),
+ this.highlightSet_);
}
};
if (this.dateWindow_) {
range = [this.dateWindow_[0], this.dateWindow_[1]];
} else {
- range = this.fullXRange_();
+ range = this.xAxisExtremes();
}
var xAxisOptionsView = this.optionsViewForAxis_('x');
series[j][1][2]];
}
} else if (this.attr_("stackedGraph")) {
- var l = series.length;
- var actual_y;
- for (j = 0; j < l; j++) {
+ // Need to clear last_x explicitly as javascript's locals are
+ // local to function, not to a block of statements
+ var actual_y, last_x = null;
+ for (j = 0; j < series.length; j++) {
// 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];
continue;
}
- cumulative_y[x] += actual_y;
+ if (last_x != x) {
+ cumulative_y[x] += actual_y;
+ // If an x-value is repeated, we ignore the duplicates.
+ }
+ last_x = x;
series[j] = [x, cumulative_y[x]];
this.cascadeEvents_('willDrawChart', e);
this.plotter_.render();
this.cascadeEvents_('didDrawChart', e);
+ this.lastRow_ = -1; // because plugins/legend.js clears the legend
// TODO(danvk): is this a performance bottleneck when panning?
// The interaction canvas should already be empty in that situation.
if (valueWindows !== undefined) {
// Restore valueWindow settings.
- for (index = 0; index < valueWindows.length; index++) {
+
+ // When going from two axes back to one, we only restore
+ // one axis.
+ var idxCount = Math.min(valueWindows.length, this.axes_.length);
+
+ for (index = 0; index < idxCount; index++) {
this.axes_[index].valueWindow = valueWindows[index];
}
}
* This fills in the valueRange and ticks fields in each entry of this.axes_.
*/
Dygraph.prototype.computeYAxisRanges_ = function(extremes) {
-
var isNullUndefinedOrNaN = function(num) {
return isNaN(parseFloat(num));
};
- var series;
var numAxes = this.attributes_.numAxes();
+ var ypadCompat, span, series, ypad;
// Compute extreme values, a span and tick marks for each axis.
for (var i = 0; i < numAxes; i++) {
var includeZero = this.attributes_.getForAxis("includeZero", i);
series = this.attributes_.seriesForAxis(i);
+ // Add some padding. This supports two Y padding operation modes:
+ //
+ // - backwards compatible (yRangePad not set):
+ // 10% padding for automatic Y ranges, but not for user-supplied
+ // ranges, and move a close-to-zero edge to zero except if
+ // avoidMinZero is set, since drawing at the edge results in
+ // invisible lines. Unfortunately lines drawn at the edge of a
+ // user-supplied range will still be invisible. If logscale is
+ // set, add a variable amount of padding at the top but
+ // none at the bottom.
+ //
+ // - new-style (yRangePad set by the user):
+ // always add the specified Y padding.
+ //
+ ypadCompat = true;
+ ypad = 0.1; // add 10%
+ if (this.attr_('yRangePad') !== null) {
+ ypadCompat = false;
+ // Convert pixel padding to ratio
+ ypad = this.attr_('yRangePad') / this.plotter_.area.h;
+ }
+
if (series.length === 0) {
// If no series are defined or visible then use a reasonable default
axis.extremeRange = [0, 1];
maxY = Math.max(extremeMaxY, maxY);
}
}
- if (includeZero && minY > 0) minY = 0;
+
+ // Include zero if requested by the user.
+ if (includeZero && !logscale) {
+ if (minY > 0) minY = 0;
+ if (maxY < 0) maxY = 0;
+ }
// Ensure we have a valid scale, otherwise default to [0, 1] for safety.
if (minY == Infinity) minY = 0;
if (maxY == -Infinity) maxY = 1;
- // Add some padding and round up to an integer to be human-friendly.
- var span = maxY - minY;
- // special case: if we have no sense of scale, use +/-10% of the sole value.
- if (span === 0) { span = maxY; }
+ span = maxY - minY;
+ // special case: if we have no sense of scale, center on the sole value.
+ if (span === 0) {
+ if (maxY !== 0) {
+ span = Math.abs(maxY);
+ } else {
+ // ... and if the sole value is zero, use range 0-1.
+ maxY = 1;
+ span = 1;
+ }
+ }
var maxAxisY, minAxisY;
if (logscale) {
- maxAxisY = maxY + 0.1 * span;
- minAxisY = minY;
+ if (ypadCompat) {
+ maxAxisY = maxY + ypad * span;
+ minAxisY = minY;
+ } else {
+ var logpad = Math.exp(Math.log(span) * ypad);
+ maxAxisY = maxY * logpad;
+ minAxisY = minY / logpad;
+ }
} else {
- maxAxisY = maxY + 0.1 * span;
- minAxisY = minY - 0.1 * span;
+ maxAxisY = maxY + ypad * span;
+ minAxisY = minY - ypad * span;
- // Try to include zero and make it minAxisY (or maxAxisY) if it makes sense.
- if (!this.attr_("avoidMinZero")) {
+ // Backwards-compatible behavior: Move the span to start or end at zero if it's
+ // close to zero, but not if avoidMinZero is set.
+ if (ypadCompat && !this.attr_("avoidMinZero")) {
if (minAxisY < 0 && minY >= 0) minAxisY = 0;
if (maxAxisY > 0 && maxY <= 0) maxAxisY = 0;
}
-
- if (this.attr_("includeZero")) {
- if (maxY < 0) maxAxisY = 0;
- if (minY > 0) minAxisY = 0;
- }
}
axis.extremeRange = [minAxisY, maxAxisY];
}
axis.computedValueRange = [axis.valueWindow[0], axis.valueWindow[1]];
} else if (axis.valueRange) {
// This is a user-set value range for this axis.
- axis.computedValueRange = [
- isNullUndefinedOrNaN(axis.valueRange[0]) ? axis.extremeRange[0] : axis.valueRange[0],
- isNullUndefinedOrNaN(axis.valueRange[1]) ? axis.extremeRange[1] : axis.valueRange[1]
- ];
+ var y0 = isNullUndefinedOrNaN(axis.valueRange[0]) ? axis.extremeRange[0] : axis.valueRange[0];
+ var y1 = isNullUndefinedOrNaN(axis.valueRange[1]) ? axis.extremeRange[1] : axis.valueRange[1];
+ if (!ypadCompat) {
+ if (axis.logscale) {
+ var logpad = Math.exp(Math.log(span) * ypad);
+ y0 *= logpad;
+ y1 /= logpad;
+ } else {
+ span = y1 - y0;
+ y0 -= span * ypad;
+ y1 += span * ypad;
+ }
+ }
+ axis.computedValueRange = [y0, y1];
} else {
axis.computedValueRange = axis.extremeRange;
}
rollingData[i] = [originalData[i][0],
[sum / num_ok, sigma * stddev, sigma * stddev]];
} else {
- rollingData[i] = [originalData[i][0], [null, null, null]];
+ // This explicitly preserves NaNs to aid with "independent series".
+ // See testRollingAveragePreservesNaNs.
+ var v = (rollPeriod == 1) ? originalData[i][1][0] : null;
+ rollingData[i] = [originalData[i][0], [v, v, v]];
}
}
}
// Only add the annotation CSS rule once we know it will be used.
Dygraph.addAnnotationRule();
this.annotations_ = ann;
+ if (!this.layout_) {
+ this.warn("Tried to setAnnotations before dygraph was ready. " +
+ "Try setting them in a drawCallback. See " +
+ "dygraphs.com/tests/annotation.html");
+ return;
+ }
+
this.layout_.setAnnotations(this.annotations_);
if (!suppressDraw) {
this.predraw_();