If the 'errorBars' option is set in the constructor, the input should be of
the form
-
Date,SeriesA,SeriesB,...
YYYYMMDD,A1,sigmaA1,B1,sigmaB1,...
YYYYMMDD,A2,sigmaA2,B2,sigmaB2,...
And error bars will be calculated automatically using a binomial distribution.
- For further documentation and examples, see http://www.danvk.org/dygraphs
+ For further documentation and examples, see http://dygraphs.com/
*/
Dygraph.DEFAULT_HEIGHT = 320;
Dygraph.AXIS_LINE_WIDTH = 0.3;
+Dygraph.LOG_SCALE = 10;
+Dygraph.LN_TEN = Math.log(Dygraph.LOG_SCALE);
+Dygraph.log10 = function(x) {
+ return Math.log(x) / Dygraph.LN_TEN;
+}
+
// Default attribute values.
Dygraph.DEFAULT_ATTRS = {
highlightCircleSize: 3,
delimiter: ',',
- logScale: false,
sigma: 2.0,
errorBars: false,
fractions: false,
hideOverlayOnMouseOut: true,
stepPlot: false,
- avoidMinZero: false
+ avoidMinZero: false,
+
+ interactionModel: null // will be set to Dygraph.defaultInteractionModel.
};
// 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
+ * and context <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
this.is_initial_draw_ = true;
this.annotations_ = [];
+ // Zoomed indicators - These indicate when the graph has been zoomed and on what axis.
+ this.zoomed_x_ = false;
+ this.zoomed_y_ = false;
+
// Clear the div. This ensure that, if multiple dygraphs are passed the same
// div, then only one will be drawn.
div.innerHTML = "";
this.start_();
};
+// Axis is an optional parameter. Can be set to 'x' or 'y'.
+Dygraph.prototype.isZoomed = function(axis) {
+ if (axis == null) return this.zoomed_x_ || this.zoomed_y_;
+ if (axis == 'x') return this.zoomed_x_;
+ if (axis == 'y') return this.zoomed_y_;
+ throw "axis parameter to Dygraph.isZoomed must be missing, 'x' or 'y'.";
+};
+
+Dygraph.prototype.toString = function() {
+ var maindiv = this.maindiv_;
+ var id = (maindiv && maindiv.id) ? maindiv.id : maindiv
+ return "[Dygraph " + id + "]";
+}
+
Dygraph.prototype.attr_ = function(name, seriesName) {
if (seriesName &&
typeof(this.user_attrs_[seriesName]) != 'undefined' &&
* If specified, do this conversion for the coordinate system of a particular
* axis. Uses the first axis by default.
* Returns a two-element array: [X, Y]
+ *
+ * Note: use toDomXCoord instead of toDomCoords(x, null) and use toDomYCoord
+ * instead of toDomCoords(null, y, axis).
*/
Dygraph.prototype.toDomCoords = function(x, y, axis) {
- var ret = [null, null];
+ return [ this.toDomXCoord(x), this.toDomYCoord(y, axis) ];
+};
+
+/**
+ * Convert from data x coordinates to canvas/div X coordinate.
+ * If specified, do this conversion for the coordinate system of a particular
+ * axis.
+ * Returns a single value or null if x is null.
+ */
+Dygraph.prototype.toDomXCoord = function(x) {
+ if (x == null) {
+ return 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;
- }
+ var xRange = this.xAxisRange();
+ return area.x + (x - xRange[0]) / (xRange[1] - xRange[0]) * area.w;
+}
- if (y !== null) {
- var yRange = this.yAxisRange(axis);
- ret[1] = area.y + (yRange[1] - y) / (yRange[1] - yRange[0]) * area.h;
- }
+/**
+ * Convert from data x coordinates to canvas/div Y coordinate and optional
+ * axis. Uses the first axis by default.
+ *
+ * returns a single value or null if y is null.
+ */
+Dygraph.prototype.toDomYCoord = function(y, axis) {
+ var pct = this.toPercentYCoord(y, axis);
- return ret;
-};
+ if (pct == null) {
+ return null;
+ }
+ var area = this.plotter_.area;
+ return area.y + pct * area.h;
+}
/**
* Convert from canvas/div coords to data coordinates.
* If specified, do this conversion for the coordinate system of a particular
* axis. Uses the first axis by default.
- * Returns a two-element array: [X, Y]
+ * Returns a two-element array: [X, Y].
+ *
+ * Note: use toDataXCoord instead of toDataCoords(x, null) and use toDataYCoord
+ * instead of toDataCoords(null, y, axis).
*/
Dygraph.prototype.toDataCoords = function(x, y, axis) {
- var ret = [null, null];
+ return [ this.toDataXCoord(x), this.toDataYCoord(y, axis) ];
+};
+
+/**
+ * Convert from canvas/div x coordinate to data coordinate.
+ *
+ * If x is null, this returns null.
+ */
+Dygraph.prototype.toDataXCoord = function(x) {
+ if (x == null) {
+ return 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]);
+ var xRange = this.xAxisRange();
+ return xRange[0] + (x - area.x) / area.w * (xRange[1] - xRange[0]);
+};
+
+/**
+ * Convert from canvas/div y coord to value.
+ *
+ * If y is null, this returns null.
+ * if axis is null, this uses the first axis.
+ */
+Dygraph.prototype.toDataYCoord = function(y, axis) {
+ if (y == null) {
+ return null;
}
- if (y !== null) {
- var yRange = this.yAxisRange(axis);
- ret[1] = yRange[0] + (area.h - y) / area.h * (yRange[1] - yRange[0]);
+ var area = this.plotter_.area;
+ var yRange = this.yAxisRange(axis);
+
+ if (typeof(axis) == "undefined") axis = 0;
+ if (!this.axes_[axis].logscale) {
+ return yRange[0] + (area.h - y) / area.h * (yRange[1] - yRange[0]);
+ } else {
+ // Computing the inverse of toDomCoord.
+ var pct = (y - area.y) / area.h
+
+ // Computing the inverse of toPercentYCoord. The function was arrived at with
+ // the following steps:
+ //
+ // Original calcuation:
+ // pct = (logr1 - Dygraph.log10(y)) / (logr1 - Dygraph.log10(yRange[0]));
+ //
+ // Move denominator to both sides:
+ // pct * (logr1 - Dygraph.log10(yRange[0])) = logr1 - Dygraph.log10(y);
+ //
+ // subtract logr1, and take the negative value.
+ // logr1 - (pct * (logr1 - Dygraph.log10(yRange[0]))) = Dygraph.log10(y);
+ //
+ // Swap both sides of the equation, and we can compute the log of the
+ // return value. Which means we just need to use that as the exponent in
+ // e^exponent.
+ // Dygraph.log10(y) = logr1 - (pct * (logr1 - Dygraph.log10(yRange[0])));
+
+ var logr1 = Dygraph.log10(yRange[1]);
+ var exponent = logr1 - (pct * (logr1 - Dygraph.log10(yRange[0])));
+ var value = Math.pow(Dygraph.LOG_SCALE, exponent);
+ return value;
+ }
+};
+
+/**
+ * Converts a y for an axis to a percentage from the top to the
+ * bottom of the div.
+ *
+ * If the coordinate represents a value visible on the canvas, then
+ * the value will be between 0 and 1, where 0 is the top of the canvas.
+ * However, this method will return values outside the range, as
+ * values can fall outside the canvas.
+ *
+ * If y is null, this returns null.
+ * if axis is null, this uses the first axis.
+ */
+Dygraph.prototype.toPercentYCoord = function(y, axis) {
+ if (y == null) {
+ return null;
}
+ if (typeof(axis) == "undefined") axis = 0;
- return ret;
-};
+ var area = this.plotter_.area;
+ var yRange = this.yAxisRange(axis);
+
+ var pct;
+ if (!this.axes_[axis].logscale) {
+ // yrange[1] - y is unit distance from the bottom.
+ // yrange[1] - yrange[0] is the scale of the range.
+ // (yRange[1] - y) / (yRange[1] - yRange[0]) is the % from the bottom.
+ pct = (yRange[1] - y) / (yRange[1] - yRange[0]);
+ } else {
+ var logr1 = Dygraph.log10(yRange[1]);
+ pct = (logr1 - Dygraph.log10(y)) / (logr1 - Dygraph.log10(yRange[0]));
+ }
+ return pct;
+}
/**
* Returns the number of columns (including the independent variable).
}
};
+
+// Based on the article at
+// http://www.switchonthecode.com/tutorials/javascript-tutorial-the-scroll-wheel
+Dygraph.cancelEvent = function(e) {
+ e = e ? e : window.event;
+ if (e.stopPropagation) {
+ e.stopPropagation();
+ }
+ if (e.preventDefault) {
+ e.preventDefault();
+ }
+ e.cancelBubble = true;
+ e.cancel = true;
+ e.returnValue = false;
+ return false;
+}
+
/**
* Generates interface elements for the Dygraph: a containing div, a div to
* display the current point, and a textbox to adjust the rolling average
}
};
-/**
- * Set up all the mouse handlers needed to capture dragging behavior for zoom
- * events.
- * @private
- */
-Dygraph.prototype.createDragInterface_ = function() {
- var self = this;
-
- // Tracks whether the mouse is down right now
- var isZooming = false;
- var isPanning = false; // is this drag part of a pan?
- var is2DPan = false; // if so, is that pan 1- or 2-dimensional?
- var dragStartX = null;
- var dragStartY = null;
- var dragEndX = null;
- var dragEndY = null;
- var dragDirection = null;
- var prevEndX = null;
- var prevEndY = null;
- var prevDragDirection = null;
-
- // TODO(danvk): update this comment
- // draggingDate and draggingValue represent the [date,value] point on the
- // graph at which the mouse was pressed. As the mouse moves while panning,
- // the viewport must pan so that the mouse position points to
- // [draggingDate, draggingValue]
- var draggingDate = null;
-
- // TODO(danvk): update this comment
- // The range in second/value units that the viewport encompasses during a
- // panning operation.
- var dateRange = null;
-
- // Utility function to convert page-wide coordinates to canvas coords
- var px = 0;
- var py = 0;
- var getX = function(e) { return Dygraph.pageX(e) - px };
- var getY = function(e) { return Dygraph.pageY(e) - py };
+Dygraph.prototype.dragGetX_ = function(e, context) {
+ return Dygraph.pageX(e) - context.px
+};
- // Draw zoom rectangles when the mouse is down and the user moves around
- Dygraph.addEvent(this.mouseEventElement_, 'mousemove', function(event) {
- if (isZooming) {
- dragEndX = getX(event);
- dragEndY = getY(event);
-
- var xDelta = Math.abs(dragStartX - dragEndX);
- var yDelta = Math.abs(dragStartY - dragEndY);
-
- // drag direction threshold for y axis is twice as large as x axis
- dragDirection = (xDelta < yDelta / 2) ? Dygraph.VERTICAL : Dygraph.HORIZONTAL;
-
- self.drawZoomRect_(dragDirection, dragStartX, dragEndX, dragStartY, dragEndY,
- prevDragDirection, prevEndX, prevEndY);
-
- prevEndX = dragEndX;
- prevEndY = dragEndY;
- prevDragDirection = dragDirection;
- } else if (isPanning) {
- dragEndX = getX(event);
- dragEndY = getY(event);
-
- // TODO(danvk): update this comment
- // Want to have it so that:
- // 1. draggingDate appears at dragEndX, draggingValue appears at dragEndY.
- // 2. daterange = (dateWindow_[1] - dateWindow_[0]) is unaltered.
- // 3. draggingValue appears at dragEndY.
- // 4. valueRange is unaltered.
-
- var minDate = draggingDate - (dragEndX / self.width_) * dateRange;
- var maxDate = minDate + dateRange;
- self.dateWindow_ = [minDate, maxDate];
-
-
- // y-axis scaling is automatic unless this is a full 2D pan.
- if (is2DPan) {
- // Adjust each axis appropriately.
- var y_frac = dragEndY / self.height_;
- for (var i = 0; i < self.axes_.length; i++) {
- var axis = self.axes_[i];
- var maxValue = axis.draggingValue + y_frac * axis.dragValueRange;
- var minValue = maxValue - axis.dragValueRange;
- axis.valueWindow = [ minValue, maxValue ];
- }
- }
+Dygraph.prototype.dragGetY_ = function(e, context) {
+ return Dygraph.pageY(e) - context.py
+};
- self.drawGraph_();
+// Called in response to an interaction model operation that
+// should start the default panning behavior.
+//
+// It's used in the default callback for "mousedown" operations.
+// Custom interaction model builders can use it to provide the default
+// panning behavior.
+//
+Dygraph.startPan = function(event, g, context) {
+ context.isPanning = true;
+ var xRange = g.xAxisRange();
+ context.dateRange = xRange[1] - xRange[0];
+ context.initialLeftmostDate = xRange[0];
+ context.xUnitsPerPixel = context.dateRange / (g.plotter_.area.w - 1);
+
+ // Record the range of each y-axis at the start of the drag.
+ // If any axis has a valueRange or valueWindow, then we want a 2D pan.
+ context.is2DPan = false;
+ for (var i = 0; i < g.axes_.length; i++) {
+ var axis = g.axes_[i];
+ var yRange = g.yAxisRange(i);
+ // TODO(konigsberg): These values should be in |context|.
+ // In log scale, initialTopValue, dragValueRange and unitsPerPixel are log scale.
+ if (axis.logscale) {
+ axis.initialTopValue = Dygraph.log10(yRange[1]);
+ axis.dragValueRange = Dygraph.log10(yRange[1]) - Dygraph.log10(yRange[0]);
+ } else {
+ axis.initialTopValue = yRange[1];
+ axis.dragValueRange = yRange[1] - yRange[0];
}
- });
+ axis.unitsPerPixel = axis.dragValueRange / (g.plotter_.area.h - 1);
- // Track the beginning of drag events
- Dygraph.addEvent(this.mouseEventElement_, 'mousedown', function(event) {
- // prevents mouse drags from selecting page text.
- if (event.preventDefault) {
- event.preventDefault(); // Firefox, Chrome, etc.
- } else {
- event.returnValue = false; // IE
- event.cancelBubble = true;
+ // While calculating axes, set 2dpan.
+ if (axis.valueWindow || axis.valueRange) context.is2DPan = true;
+ }
+};
+
+// Called in response to an interaction model operation that
+// responds to an event that pans the view.
+//
+// It's used in the default callback for "mousemove" operations.
+// Custom interaction model builders can use it to provide the default
+// panning behavior.
+//
+Dygraph.movePan = function(event, g, context) {
+ context.dragEndX = g.dragGetX_(event, context);
+ context.dragEndY = g.dragGetY_(event, context);
+
+ var minDate = context.initialLeftmostDate -
+ (context.dragEndX - context.dragStartX) * context.xUnitsPerPixel;
+ var maxDate = minDate + context.dateRange;
+ g.dateWindow_ = [minDate, maxDate];
+
+ // y-axis scaling is automatic unless this is a full 2D pan.
+ if (context.is2DPan) {
+ // Adjust each axis appropriately.
+ for (var i = 0; i < g.axes_.length; i++) {
+ var axis = g.axes_[i];
+
+ var pixelsDragged = context.dragEndY - context.dragStartY;
+ var unitsDragged = pixelsDragged * axis.unitsPerPixel;
+
+ // In log scale, maxValue and minValue are the logs of those values.
+ var maxValue = axis.initialTopValue + unitsDragged;
+ var minValue = maxValue - axis.dragValueRange;
+ if (axis.logscale) {
+ axis.valueWindow = [ Math.pow(Dygraph.LOG_SCALE, minValue),
+ Math.pow(Dygraph.LOG_SCALE, maxValue) ];
+ } else {
+ axis.valueWindow = [ minValue, maxValue ];
+ }
}
+ }
- px = Dygraph.findPosX(self.canvas_);
- py = Dygraph.findPosY(self.canvas_);
- dragStartX = getX(event);
- dragStartY = getY(event);
+ g.drawGraph_();
+}
- if (event.altKey || event.shiftKey) {
- // have to be zoomed in to pan.
- var zoomedY = false;
- for (var i = 0; i < self.axes_.length; i++) {
- if (self.axes_[i].valueWindow || self.axes_[i].valueRange) {
- zoomedY = true;
- break;
+// Called in response to an interaction model operation that
+// responds to an event that ends panning.
+//
+// It's used in the default callback for "mouseup" operations.
+// Custom interaction model builders can use it to provide the default
+// panning behavior.
+//
+Dygraph.endPan = function(event, g, context) {
+ // TODO(konigsberg): Clear the context data from the axis.
+ // TODO(konigsberg): mouseup should just delete the
+ // context object, and mousedown should create a new one.
+ context.isPanning = false;
+ context.is2DPan = false;
+ context.initialLeftmostDate = null;
+ context.dateRange = null;
+ context.valueRange = null;
+}
+
+// Called in response to an interaction model operation that
+// responds to an event that starts zooming.
+//
+// It's used in the default callback for "mousedown" operations.
+// Custom interaction model builders can use it to provide the default
+// zooming behavior.
+//
+Dygraph.startZoom = function(event, g, context) {
+ context.isZooming = true;
+}
+
+// Called in response to an interaction model operation that
+// responds to an event that defines zoom boundaries.
+//
+// It's used in the default callback for "mousemove" operations.
+// Custom interaction model builders can use it to provide the default
+// zooming behavior.
+//
+Dygraph.moveZoom = function(event, g, context) {
+ context.dragEndX = g.dragGetX_(event, context);
+ context.dragEndY = g.dragGetY_(event, context);
+
+ var xDelta = Math.abs(context.dragStartX - context.dragEndX);
+ var yDelta = Math.abs(context.dragStartY - context.dragEndY);
+
+ // drag direction threshold for y axis is twice as large as x axis
+ context.dragDirection = (xDelta < yDelta / 2) ? Dygraph.VERTICAL : Dygraph.HORIZONTAL;
+
+ g.drawZoomRect_(
+ context.dragDirection,
+ context.dragStartX,
+ context.dragEndX,
+ context.dragStartY,
+ context.dragEndY,
+ context.prevDragDirection,
+ context.prevEndX,
+ context.prevEndY);
+
+ context.prevEndX = context.dragEndX;
+ context.prevEndY = context.dragEndY;
+ context.prevDragDirection = context.dragDirection;
+}
+
+// Called in response to an interaction model operation that
+// responds to an event that performs a zoom based on previously defined
+// bounds..
+//
+// It's used in the default callback for "mouseup" operations.
+// Custom interaction model builders can use it to provide the default
+// zooming behavior.
+//
+Dygraph.endZoom = function(event, g, context) {
+ context.isZooming = false;
+ context.dragEndX = g.dragGetX_(event, context);
+ context.dragEndY = g.dragGetY_(event, context);
+ var regionWidth = Math.abs(context.dragEndX - context.dragStartX);
+ var regionHeight = Math.abs(context.dragEndY - context.dragStartY);
+
+ if (regionWidth < 2 && regionHeight < 2 &&
+ g.lastx_ != undefined && g.lastx_ != -1) {
+ // TODO(danvk): pass along more info about the points, e.g. 'x'
+ if (g.attr_('clickCallback') != null) {
+ g.attr_('clickCallback')(event, g.lastx_, g.selPoints_);
+ }
+ if (g.attr_('pointClickCallback')) {
+ // check if the click was on a particular point.
+ var closestIdx = -1;
+ var closestDistance = 0;
+ for (var i = 0; i < g.selPoints_.length; i++) {
+ var p = g.selPoints_[i];
+ var distance = Math.pow(p.canvasx - context.dragEndX, 2) +
+ Math.pow(p.canvasy - context.dragEndY, 2);
+ if (closestIdx == -1 || distance < closestDistance) {
+ closestDistance = distance;
+ closestIdx = i;
}
}
- if (!self.dateWindow_ && !zoomedY) return;
- isPanning = true;
- var xRange = self.xAxisRange();
- dateRange = xRange[1] - xRange[0];
-
- // Record the range of each y-axis at the start of the drag.
- // If any axis has a valueRange or valueWindow, then we want a 2D pan.
- is2DPan = false;
- for (var i = 0; i < self.axes_.length; i++) {
- var axis = self.axes_[i];
- var yRange = self.yAxisRange(i);
- axis.dragValueRange = yRange[1] - yRange[0];
- var r = self.toDataCoords(null, dragStartY, i);
- axis.draggingValue = r[1];
- if (axis.valueWindow || axis.valueRange) is2DPan = true;
+ // Allow any click within two pixels of the dot.
+ var radius = g.attr_('highlightCircleSize') + 2;
+ if (closestDistance <= 5 * 5) {
+ g.attr_('pointClickCallback')(event, g.selPoints_[closestIdx]);
}
+ }
+ }
+
+ if (regionWidth >= 10 && context.dragDirection == Dygraph.HORIZONTAL) {
+ g.doZoomX_(Math.min(context.dragStartX, context.dragEndX),
+ Math.max(context.dragStartX, context.dragEndX));
+ } else if (regionHeight >= 10 && context.dragDirection == Dygraph.VERTICAL) {
+ g.doZoomY_(Math.min(context.dragStartY, context.dragEndY),
+ Math.max(context.dragStartY, context.dragEndY));
+ } else {
+ g.canvas_.getContext("2d").clearRect(0, 0,
+ g.canvas_.width,
+ g.canvas_.height);
+ }
+ context.dragStartX = null;
+ context.dragStartY = null;
+}
+
+Dygraph.defaultInteractionModel = {
+ // Track the beginning of drag events
+ mousedown: function(event, g, context) {
+ context.initializeMouseDown(event, g, context);
- // TODO(konigsberg): Switch from all this math to toDataCoords?
- // Seems to work for the dragging value.
- draggingDate = (dragStartX / self.width_) * dateRange + xRange[0];
+ if (event.altKey || event.shiftKey) {
+ Dygraph.startPan(event, g, context);
} else {
- isZooming = true;
+ Dygraph.startZoom(event, g, context);
}
- });
+ },
- // If the user releases the mouse button during a drag, but not over the
- // canvas, then it doesn't count as a zooming action.
- Dygraph.addEvent(document, 'mouseup', function(event) {
- if (isZooming || isPanning) {
- isZooming = false;
- dragStartX = null;
- dragStartY = null;
+ // Draw zoom rectangles when the mouse is down and the user moves around
+ mousemove: function(event, g, context) {
+ if (context.isZooming) {
+ Dygraph.moveZoom(event, g, context);
+ } else if (context.isPanning) {
+ Dygraph.movePan(event, g, context);
}
+ },
- if (isPanning) {
- isPanning = false;
- draggingDate = null;
- dateRange = null;
- for (var i = 0; i < self.axes_.length; i++) {
- delete self.axes_[i].draggingValue;
- delete self.axes_[i].dragValueRange;
- }
+ mouseup: function(event, g, context) {
+ if (context.isZooming) {
+ Dygraph.endZoom(event, g, context);
+ } else if (context.isPanning) {
+ Dygraph.endPan(event, g, context);
}
- });
+ },
// Temporarily cancel the dragging event when the mouse leaves the graph
- Dygraph.addEvent(this.mouseEventElement_, 'mouseout', function(event) {
- if (isZooming) {
- dragEndX = null;
- dragEndY = null;
+ mouseout: function(event, g, context) {
+ if (context.isZooming) {
+ context.dragEndX = null;
+ context.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.mouseEventElement_, 'mouseup', function(event) {
- if (isZooming) {
- isZooming = false;
- dragEndX = getX(event);
- dragEndY = getY(event);
- var regionWidth = Math.abs(dragEndX - dragStartX);
- var regionHeight = Math.abs(dragEndY - dragStartY);
-
- if (regionWidth < 2 && regionHeight < 2 &&
- self.lastx_ != undefined && self.lastx_ != -1) {
- // TODO(danvk): pass along more info about the points, e.g. 'x'
- if (self.attr_('clickCallback') != null) {
- self.attr_('clickCallback')(event, self.lastx_, self.selPoints_);
- }
- if (self.attr_('pointClickCallback')) {
- // check if the click was on a particular point.
- var closestIdx = -1;
- var closestDistance = 0;
- for (var i = 0; i < self.selPoints_.length; i++) {
- var p = self.selPoints_[i];
- var distance = Math.pow(p.canvasx - dragEndX, 2) +
- Math.pow(p.canvasy - dragEndY, 2);
- if (closestIdx == -1 || distance < closestDistance) {
- closestDistance = distance;
- closestIdx = i;
- }
- }
+ // Disable zooming out if panning.
+ dblclick: function(event, g, context) {
+ if (event.altKey || event.shiftKey) {
+ return;
+ }
+ // TODO(konigsberg): replace g.doUnzoom()_ with something that is
+ // friendlier to public use.
+ g.doUnzoom_();
+ }
+};
- // Allow any click within two pixels of the dot.
- var radius = self.attr_('highlightCircleSize') + 2;
- if (closestDistance <= 5 * 5) {
- self.attr_('pointClickCallback')(event, self.selPoints_[closestIdx]);
- }
- }
- }
+Dygraph.DEFAULT_ATTRS.interactionModel = Dygraph.defaultInteractionModel;
- if (regionWidth >= 10 && dragDirection == Dygraph.HORIZONTAL) {
- self.doZoomX_(Math.min(dragStartX, dragEndX),
- Math.max(dragStartX, dragEndX));
- } else if (regionHeight >= 10 && dragDirection == Dygraph.VERTICAL){
- self.doZoomY_(Math.min(dragStartY, dragEndY),
- Math.max(dragStartY, dragEndY));
+/**
+ * Set up all the mouse handlers needed to capture dragging behavior for zoom
+ * events.
+ * @private
+ */
+Dygraph.prototype.createDragInterface_ = function() {
+ var context = {
+ // Tracks whether the mouse is down right now
+ isZooming: false,
+ isPanning: false, // is this drag part of a pan?
+ is2DPan: false, // if so, is that pan 1- or 2-dimensional?
+ dragStartX: null,
+ dragStartY: null,
+ dragEndX: null,
+ dragEndY: null,
+ dragDirection: null,
+ prevEndX: null,
+ prevEndY: null,
+ prevDragDirection: null,
+
+ // The value on the left side of the graph when a pan operation starts.
+ initialLeftmostDate: null,
+
+ // The number of units each pixel spans. (This won't be valid for log
+ // scales)
+ xUnitsPerPixel: null,
+
+ // TODO(danvk): update this comment
+ // The range in second/value units that the viewport encompasses during a
+ // panning operation.
+ dateRange: null,
+
+ // Utility function to convert page-wide coordinates to canvas coords
+ px: 0,
+ py: 0,
+
+ initializeMouseDown: function(event, g, context) {
+ // prevents mouse drags from selecting page text.
+ if (event.preventDefault) {
+ event.preventDefault(); // Firefox, Chrome, etc.
} else {
- self.canvas_.getContext("2d").clearRect(0, 0,
- self.canvas_.width,
- self.canvas_.height);
+ event.returnValue = false; // IE
+ event.cancelBubble = true;
}
- dragStartX = null;
- dragStartY = null;
+ context.px = Dygraph.findPosX(g.canvas_);
+ context.py = Dygraph.findPosY(g.canvas_);
+ context.dragStartX = g.dragGetX_(event, context);
+ context.dragStartY = g.dragGetY_(event, context);
}
+ };
- if (isPanning) {
- isPanning = false;
- is2DPan = false;
- draggingDate = null;
- dateRange = null;
- valueRange = null;
- }
- });
+ var interactionModel = this.attr_("interactionModel");
- // Double-clicking zooms back out
- Dygraph.addEvent(this.mouseEventElement_, 'dblclick', function(event) {
- // Disable zooming out if panning.
- if (event.altKey || event.shiftKey) return;
+ // Self is the graph.
+ var self = this;
+
+ // Function that binds the graph and context to the handler.
+ var bindHandler = function(handler) {
+ return function(event) {
+ handler(event, self, context);
+ };
+ };
- self.doUnzoom_();
+ for (var eventName in interactionModel) {
+ if (!interactionModel.hasOwnProperty(eventName)) continue;
+ Dygraph.addEvent(this.mouseEventElement_, eventName,
+ bindHandler(interactionModel[eventName]));
+ }
+
+ // If the user releases the mouse button during a drag, but not over the
+ // canvas, then it doesn't count as a zooming action.
+ Dygraph.addEvent(document, 'mouseup', function(event) {
+ if (context.isZooming || context.isPanning) {
+ context.isZooming = false;
+ context.dragStartX = null;
+ context.dragStartY = null;
+ }
+
+ if (context.isPanning) {
+ context.isPanning = false;
+ context.draggingDate = null;
+ context.dateRange = null;
+ for (var i = 0; i < self.axes_.length; i++) {
+ delete self.axes_[i].draggingValue;
+ delete self.axes_[i].dragValueRange;
+ }
+ }
});
};
Dygraph.prototype.doZoomX_ = function(lowX, highX) {
// Find the earliest and latest dates contained in this canvasx range.
// Convert the call to date ranges of the raw data.
- var r = this.toDataCoords(lowX, null);
- var minDate = r[0];
- r = this.toDataCoords(highX, null);
- var maxDate = r[0];
+ var minDate = this.toDataXCoord(lowX);
+ var maxDate = this.toDataXCoord(highX);
this.doZoomXDates_(minDate, maxDate);
};
*/
Dygraph.prototype.doZoomXDates_ = function(minDate, maxDate) {
this.dateWindow_ = [minDate, maxDate];
+ this.zoomed_x_ = true;
this.drawGraph_();
if (this.attr_("zoomCallback")) {
- this.attr_("zoomCallback")(minDate, maxDate, this.yAxisRange());
+ this.attr_("zoomCallback")(minDate, maxDate, this.yAxisRanges());
}
};
// coordinates increase as you go up the screen.
var valueRanges = [];
for (var i = 0; i < this.axes_.length; i++) {
- var hi = this.toDataCoords(null, lowY, i);
- var low = this.toDataCoords(null, highY, i);
- this.axes_[i].valueWindow = [low[1], hi[1]];
- valueRanges.push([low[1], hi[1]]);
+ var hi = this.toDataYCoord(lowY, i);
+ var low = this.toDataYCoord(highY, i);
+ this.axes_[i].valueWindow = [low, hi];
+ valueRanges.push([low, hi]);
}
+ this.zoomed_y_ = true;
this.drawGraph_();
if (this.attr_("zoomCallback")) {
var xRange = this.xAxisRange();
+ var yRange = this.yAxisRange();
this.attr_("zoomCallback")(xRange[0], xRange[1], this.yAxisRanges());
}
};
if (dirty) {
// Putting the drawing operation before the callback because it resets
// yAxisRange.
+ this.zoomed_x_ = false;
+ this.zoomed_y_ = false;
this.drawGraph_();
if (this.attr_("zoomCallback")) {
var minDate = this.rawData_[0][0];
for (var i = 0; i < points.length; i++) {
var point = points[i];
if (point == null) continue;
- var dist = Math.abs(points[i].canvasx - canvasx);
+ var dist = Math.abs(point.canvasx - canvasx);
if (dist > minDist) continue;
minDist = dist;
idx = i;
}
if (idx >= 0) lastx = points[idx].xval;
- // Check that you can really highlight the last day's data
- var last = points[points.length-1];
- if (last != null && canvasx > last.canvasx)
- lastx = points[points.length-1].xval;
// Extract the points we've selected
this.selPoints_ = [];
* @private
*/
Dygraph.dateAxisFormatter = function(date, granularity) {
- if (granularity >= Dygraph.MONTHLY) {
+ if (granularity >= Dygraph.DECADAL) {
+ return date.strftime('%Y');
+ } else if (granularity >= Dygraph.MONTHLY) {
return date.strftime('%b %y');
} else {
var frac = date.getHours() * 3600 + date.getMinutes() * 60 + date.getSeconds() + date.getMilliseconds();
Dygraph.BIANNUAL = 17;
Dygraph.ANNUAL = 18;
Dygraph.DECADAL = 19;
-Dygraph.NUM_GRANULARITIES = 20;
+Dygraph.CENTENNIAL = 20;
+Dygraph.NUM_GRANULARITIES = 21;
Dygraph.SHORT_SPACINGS = [];
Dygraph.SHORT_SPACINGS[Dygraph.SECONDLY] = 1000 * 1;
if (granularity == Dygraph.BIANNUAL) num_months = 2;
if (granularity == Dygraph.ANNUAL) num_months = 1;
if (granularity == Dygraph.DECADAL) { num_months = 1; year_mod = 10; }
+ if (granularity == Dygraph.CENTENNIAL) { num_months = 1; year_mod = 100; }
var msInYear = 365.2524 * 24 * 3600 * 1000;
var num_years = 1.0 * (end_time - start_time) / msInYear;
} else if (granularity == Dygraph.DECADAL) {
months = [ 0 ];
year_mod = 10;
+ } else if (granularity == Dygraph.CENTENNIAL) {
+ months = [ 0 ];
+ year_mod = 100;
+ } else {
+ this.warn("Span of dates is too long");
}
var start_year = new Date(start_time).getFullYear();
}
};
+// This is a list of human-friendly values at which to show tick marks on a log
+// scale. It is k * 10^n, where k=1..9 and n=-39..+39, so:
+// ..., 1, 2, 3, 4, 5, ..., 9, 10, 20, 30, ..., 90, 100, 200, 300, ...
+// NOTE: this assumes that Dygraph.LOG_SCALE = 10.
+Dygraph.PREFERRED_LOG_TICK_VALUES = function() {
+ var vals = [];
+ for (var power = -39; power <= 39; power++) {
+ var range = Math.pow(10, power);
+ for (var mult = 1; mult <= 9; mult++) {
+ var val = range * mult;
+ vals.push(val);
+ }
+ }
+ return vals;
+}();
+
+// val is the value to search for
+// arry is the value over which to search
+// if abs > 0, find the lowest entry greater than val
+// if abs < 0, find the highest entry less than val
+// if abs == 0, find the entry that equals val.
+// Currently does not work when val is outside the range of arry's values.
+Dygraph.binarySearch = function(val, arry, abs, low, high) {
+ if (low == null || high == null) {
+ low = 0;
+ high = arry.length - 1;
+ }
+ if (low > high) {
+ return -1;
+ }
+ if (abs == null) {
+ abs = 0;
+ }
+ var validIndex = function(idx) {
+ return idx >= 0 && idx < arry.length;
+ }
+ var mid = parseInt((low + high) / 2);
+ var element = arry[mid];
+ if (element == val) {
+ return mid;
+ }
+ if (element > val) {
+ if (abs > 0) {
+ // Accept if element > val, but also if prior element < val.
+ var idx = mid - 1;
+ if (validIndex(idx) && arry[idx] < val) {
+ return mid;
+ }
+ }
+ return Dygraph.binarySearch(val, arry, abs, low, mid - 1);
+ }
+ if (element < val) {
+ if (abs < 0) {
+ // Accept if element < val, but also if prior element > val.
+ var idx = mid + 1;
+ if (validIndex(idx) && arry[idx] > val) {
+ return mid;
+ }
+ }
+ return Dygraph.binarySearch(val, arry, abs, mid + 1, high);
+ }
+};
+
/**
* 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)
+ * TODO(konigsberg): Update comment.
+ *
+ * @param {Number} minV minimum value
+ * @param {Number} maxV maximum value
* @param self
* @param {function} attribute accessor function.
* @return {Array.<Object>} Array of {label, value} tuples.
ticks.push({v: vals[i]});
}
} else {
- // Basic idea:
- // Try labels every 1, 2, 5, 10, 20, 50, 100, etc.
- // Calculate the resulting tick spacing (i.e. this.height_ / nTicks).
- // The first spacing greater than pixelsPerYLabel is what we use.
- // TODO(danvk): version that works on a log scale.
- if (attr("labelsKMG2")) {
- var mults = [1, 2, 4, 8];
- } else {
- var mults = [1, 2, 5];
+ if (axis_props && attr("logscale")) {
+ var pixelsPerTick = attr('pixelsPerYLabel');
+ // NOTE(konigsberg): Dan, should self.height_ be self.plotter_.area.h?
+ var nTicks = Math.floor(self.height_ / pixelsPerTick);
+ var minIdx = Dygraph.binarySearch(minV, Dygraph.PREFERRED_LOG_TICK_VALUES, 1);
+ var maxIdx = Dygraph.binarySearch(maxV, Dygraph.PREFERRED_LOG_TICK_VALUES, -1);
+ if (minIdx == -1) {
+ minIdx = 0;
+ }
+ if (maxIdx == -1) {
+ maxIdx = Dygraph.PREFERRED_LOG_TICK_VALUES.length - 1;
+ }
+ // Count the number of tick values would appear, if we can get at least
+ // nTicks / 4 accept them.
+ var lastDisplayed = null;
+ if (maxIdx - minIdx >= nTicks / 4) {
+ var axisId = axis_props.yAxisId;
+ for (var idx = maxIdx; idx >= minIdx; idx--) {
+ var tickValue = Dygraph.PREFERRED_LOG_TICK_VALUES[idx];
+ var domCoord = axis_props.g.toDomYCoord(tickValue, axisId);
+ var tick = { v: tickValue };
+ if (lastDisplayed == null) {
+ lastDisplayed = {
+ tickValue : tickValue,
+ domCoord : domCoord
+ };
+ } else {
+ if (domCoord - lastDisplayed.domCoord >= pixelsPerTick) {
+ lastDisplayed = {
+ tickValue : tickValue,
+ domCoord : domCoord
+ };
+ } else {
+ tick.label = "";
+ }
+ }
+ ticks.push(tick);
+ }
+ // Since we went in backwards order.
+ ticks.reverse();
+ }
}
- var scale, low_val, high_val, nTicks;
- // TODO(danvk): make it possible to set this for x- and y-axes independently.
- var pixelsPerTick = attr('pixelsPerYLabel');
- for (var i = -10; i < 50; i++) {
+
+ // ticks.length won't be 0 if the log scale function finds values to insert.
+ if (ticks.length == 0) {
+ // Basic idea:
+ // Try labels every 1, 2, 5, 10, 20, 50, 100, etc.
+ // Calculate the resulting tick spacing (i.e. this.height_ / nTicks).
+ // The first spacing greater than pixelsPerYLabel is what we use.
+ // TODO(danvk): version that works on a log scale.
if (attr("labelsKMG2")) {
- var base_scale = Math.pow(16, i);
+ var mults = [1, 2, 4, 8];
} else {
- var base_scale = Math.pow(10, i);
+ var mults = [1, 2, 5];
}
- for (var j = 0; j < mults.length; j++) {
- scale = base_scale * mults[j];
- low_val = Math.floor(minV / scale) * scale;
- high_val = Math.ceil(maxV / scale) * scale;
- nTicks = Math.abs(high_val - low_val) / scale;
- var spacing = self.height_ / nTicks;
- // wish I could break out of both loops at once...
+ var scale, low_val, high_val, nTicks;
+ // TODO(danvk): make it possible to set this for x- and y-axes independently.
+ var pixelsPerTick = attr('pixelsPerYLabel');
+ for (var i = -10; i < 50; i++) {
+ if (attr("labelsKMG2")) {
+ var base_scale = Math.pow(16, i);
+ } else {
+ var base_scale = Math.pow(10, i);
+ }
+ for (var j = 0; j < mults.length; j++) {
+ scale = base_scale * mults[j];
+ low_val = Math.floor(minV / scale) * scale;
+ high_val = Math.ceil(maxV / scale) * 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;
+ }
if (spacing > pixelsPerTick) break;
}
- if (spacing > pixelsPerTick) break;
- }
- // Construct the set of ticks.
- // 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;
- ticks.push( {v: tickV} );
+ // Construct the set of ticks.
+ // 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;
+ ticks.push( {v: tickV} );
+ }
}
}
}
var formatter = attr('yAxisLabelFormatter') ? attr('yAxisLabelFormatter') : attr('yValueFormatter');
+ // Add labels to the ticks.
for (var i = 0; i < ticks.length; i++) {
- var tickV = ticks[i].v;
- var absTickV = Math.abs(tickV);
- 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 = Dygraph.round_(tickV / n, 1) + k_labels[j];
- break;
+ if (ticks[i].label == null) {
+ var tickV = ticks[i].v;
+ var absTickV = Math.abs(tickV);
+ 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 = Dygraph.round_(tickV / n, 1) + k_labels[j];
+ break;
+ }
}
}
+ ticks[i].label = label;
}
- ticks[i].label = label;
}
return ticks;
};
};
/**
-=======
* Update the graph with new data. This method is called when the viewing area
* has changed. If the underlying data or options have changed, predraw_ will
* be called before drawGraph_ is called.
var seriesName = this.attr_("labels")[i];
var connectSeparatedPoints = this.attr_('connectSeparatedPoints', i);
+ var logScale = this.attr_('logscale', i);
var series = [];
for (var j = 0; j < data.length; j++) {
- if (data[j][i] != null || !connectSeparatedPoints) {
- var date = data[j][0];
- series.push([date, data[j][i]]);
+ var date = data[j][0];
+ var point = data[j][i];
+ if (logScale) {
+ // On the log scale, points less than zero do not exist.
+ // This will create a gap in the chart. Note that this ignores
+ // connectSeparatedPoints.
+ if (point <= 0) {
+ point = null;
+ }
+ series.push([date, point]);
+ } else {
+ if (point != null || !connectSeparatedPoints) {
+ series.push([date, point]);
+ }
}
}
this.layout_.addDataset(this.attr_("labels")[i], datasets[i]);
}
- // TODO(danvk): this method doesn't need to return anything.
- var out = this.computeYAxisRanges_(extremes);
- var axes = out[0];
- var seriesToAxisMap = out[1];
- this.layout_.updateOptions( { yAxes: axes,
- seriesToAxisMap: seriesToAxisMap
- } );
-
+ if (datasets.length > 0) {
+ // TODO(danvk): this method doesn't need to return anything.
+ var out = this.computeYAxisRanges_(extremes);
+ var axes = out[0];
+ var seriesToAxisMap = out[1];
+ this.layout_.updateOptions( { yAxes: axes,
+ seriesToAxisMap: seriesToAxisMap
+ } );
+ }
this.addXTicks_();
+ // Save the X axis zoomed status as the updateOptions call will tend to set it errorneously
+ var tmp_zoomed_x = this.zoomed_x_;
// Tell PlotKit to use this new data and render itself
this.layout_.updateOptions({dateWindow: this.dateWindow_});
+ this.zoomed_x_ = tmp_zoomed_x;
this.layout_.evaluateWithError();
this.plotter_.clear();
this.plotter_.render();
* indices are into the axes_ array.
*/
Dygraph.prototype.computeYAxes_ = function() {
- this.axes_ = [{}]; // always have at least one y-axis.
+ var valueWindows;
+ if (this.axes_ != undefined) {
+ // Preserve valueWindow settings.
+ valueWindows = [];
+ for (var index = 0; index < this.axes_.length; index++) {
+ valueWindows.push(this.axes_[index].valueWindow);
+ }
+ }
+
+ this.axes_ = [{ yAxisId : 0, g : this }]; // always have at least one y-axis.
this.seriesToAxisMap_ = {};
// Get a list of series names.
'pixelsPerYLabel',
'yAxisLabelWidth',
'axisLabelFontSize',
- 'axisTickSize'
+ 'axisTickSize',
+ 'logscale'
];
// Copy global axis options over to the first axis.
var opts = {};
Dygraph.update(opts, this.axes_[0]);
Dygraph.update(opts, { valueRange: null }); // shouldn't inherit this.
+ var yAxisId = this.axes_.length;
+ opts.yAxisId = yAxisId;
+ opts.g = this;
Dygraph.update(opts, axis);
this.axes_.push(opts);
- this.seriesToAxisMap_[seriesName] = this.axes_.length - 1;
+ this.seriesToAxisMap_[seriesName] = yAxisId;
}
}
if (vis[i - 1]) seriesToAxisFiltered[s] = this.seriesToAxisMap_[s];
}
this.seriesToAxisMap_ = seriesToAxisFiltered;
+
+ if (valueWindows != undefined) {
+ // Restore valueWindow settings.
+ for (var index = 0; index < valueWindows.length; index++) {
+ this.axes_[index].valueWindow = valueWindows[index];
+ }
+ }
};
/**
var span = maxY - minY;
// special case: if we have no sense of scale, use +/-10% of the sole value.
if (span == 0) { span = maxY; }
- var maxAxisY = maxY + 0.1 * span;
- var minAxisY = minY - 0.1 * span;
- // Try to include zero and make it minAxisY (or maxAxisY) if it makes sense.
- if (!this.attr_("avoidMinZero")) {
- if (minAxisY < 0 && minY >= 0) minAxisY = 0;
- if (maxAxisY > 0 && maxY <= 0) maxAxisY = 0;
- }
+ var maxAxisY;
+ var minAxisY;
+ if (axis.logscale) {
+ var maxAxisY = maxY + 0.1 * span;
+ var minAxisY = minY;
+ } else {
+ var maxAxisY = maxY + 0.1 * span;
+ var minAxisY = minY - 0.1 * span;
- if (this.attr_("includeZero")) {
- if (maxY < 0) maxAxisY = 0;
- if (minY > 0) minAxisY = 0;
+ // Try to include zero and make it minAxisY (or maxAxisY) if it makes sense.
+ if (!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.computedValueRange = [minAxisY, maxAxisY];
*/
Dygraph.prototype.detectTypeFromString_ = function(str) {
var isDate = false;
- if (str.indexOf('-') >= 0 ||
+ if (str.indexOf('-') > 0 ||
str.indexOf('/') >= 0 ||
isNaN(parseFloat(str))) {
isDate = true;
// Parse the x as a float or return null if it's not a number.
var parseFloatOrNull = function(x) {
var val = parseFloat(x);
- return isNaN(val) ? null : val;
+ // isFinite() returns false for NaN and +/-Infinity.
+ return isFinite(val) ? val : null;
};
var xParser;
if (ret.length > 0 && row[0] < ret[ret.length - 1][0]) {
outOfOrder = true;
}
+
+ // Strip out infinities, which give dygraphs problems later on.
+ for (var j = 0; j < row.length; j++) {
+ if (!isFinite(row[j])) row[j] = null;
+ }
ret.push(row);
}
}
if ('dateWindow' in attrs) {
this.dateWindow_ = attrs.dateWindow;
+ if (!('noZoomFlagChange' in attrs)) {
+ this.zoomed_x_ = attrs.dateWindow != null;
+ }
+ }
+ if ('valueRange' in attrs && !('noZoomFlagChange' in attrs)) {
+ this.zoomed_y_ = attrs.valueRange != null;
}
// TODO(danvk): validate per-series options.
projects / dygraphs.git / blobdiff