[dygraphs.git] / dygraph-range-selector.js

// Copyright 2011 Paul Felix (paul.eric.felix@gmail.com)
// All Rights Reserved.

/**
 * @fileoverview This file contains the DygraphRangeSelector class used to provide
 * a timeline range selector widget for dygraphs.
 */

/**
 * The DygraphRangeSelector class provides a timeline range selector widget.
 * @param {Dygraph} dygraph The dygraph object
 * @constructor
 */
DygraphRangeSelector = function(dygraph) {
  this.isIE_ = /MSIE/.test(navigator.userAgent) && !window.opera;
  this.isUsingExcanvas = typeof(G_vmlCanvasManager) != 'undefined';
  this.dygraph_ = dygraph;
  this.createCanvases_();
  this.createZoomHandles_();
  this.initInteraction_();
};

/**
 * Adds the range selector to the dygraph.
 * @param {Object} graphDiv The container div for the range selector.
 * @param {DygraphLayout} layout The DygraphLayout object for this graph.
 */
DygraphRangeSelector.prototype.addToGraph = function(graphDiv, layout) {
  this.layout_ = layout;
  this.resize_();
  graphDiv.appendChild(this.bgcanvas_);
  graphDiv.appendChild(this.fgcanvas_);
  graphDiv.appendChild(this.leftZoomHandle_);
  graphDiv.appendChild(this.rightZoomHandle_);
};

/**
 * Renders the static background portion of the range selector.
 */
DygraphRangeSelector.prototype.renderStaticLayer = function() {
  this.resize_();
  this.drawStaticLayer_();
};

/**
 * Renders the interactive foreground portion of the range selector.
 */
DygraphRangeSelector.prototype.renderInteractiveLayer = function() {
  if (this.isChangingRange_) {
    return;
  }

  // The zoom handle image may not be loaded yet. May need to try again later.
  if (this.leftZoomHandle_.height == 0 && this.leftZoomHandle_.retryCount != 5) {
    var self = this;
    setTimeout(function() { self.renderInteractiveLayer(); }, 300);
    var retryCount = this.leftZoomHandle_.retryCount;
    this.leftZoomHandle_.retryCount = retryCount == undefined ? 1 : retryCount+1;
    return;
  }

  this.placeZoomHandles_();
  this.drawInteractiveLayer_();
};

/**
 * @private
 * Resizes the range selector.
 */
DygraphRangeSelector.prototype.resize_ = function() {
  function setCanvasRect(canvas, rect) {
    canvas.style.top = rect.y + 'px';
    canvas.style.left = rect.x + 'px';
    canvas.width = rect.w;
    canvas.height = rect.h;
    canvas.style.width = canvas.width + 'px';    // for IE
    canvas.style.height = canvas.height + 'px';  // for IE
  };

  var plotArea = this.layout_.plotArea;
  var xAxisLabelHeight = this.attr_('axisLabelFontSize') + 2 * this.attr_('axisTickSize');
  this.canvasRect_ = {
    x: plotArea.x,
    y: plotArea.y + plotArea.h + xAxisLabelHeight + 4,
    w: plotArea.w,
    h: this.attr_('rangeSelectorHeight')
  };

  setCanvasRect(this.bgcanvas_, this.canvasRect_);
  setCanvasRect(this.fgcanvas_, this.canvasRect_);
};

DygraphRangeSelector.prototype.attr_ = function(name) {
  return this.dygraph_.attr_(name);
};

/**
 * @private
 * Creates the background and foreground canvases.
 */
DygraphRangeSelector.prototype.createCanvases_ = function() {
  this.bgcanvas_ = Dygraph.createCanvas();
  this.bgcanvas_.className = 'dygraph-rangesel-bgcanvas';
  this.bgcanvas_.style.position = 'absolute';
  this.bgcanvas_ctx_ = Dygraph.getContext(this.bgcanvas_);

  this.fgcanvas_ = Dygraph.createCanvas();
  this.fgcanvas_.className = 'dygraph-rangesel-fgcanvas';
  this.fgcanvas_.style.position = 'absolute';
  this.fgcanvas_.style.cursor = 'default';
  this.fgcanvas_ctx_ = Dygraph.getContext(this.fgcanvas_);
};

/**
 * @private
 * Creates the zoom handle elements.
 */
DygraphRangeSelector.prototype.createZoomHandles_ = function() {
  var img = new Image();
  img.className = 'dygraph-rangesel-zoomhandle';
  img.style.position = 'absolute';
  img.style.visibility = 'hidden'; // Initially hidden so they don't show up in the wrong place.
  img.style.cursor = 'col-resize';
  img.src = 'data:image/png;base64,\
iVBORw0KGgoAAAANSUhEUgAAAAkAAAAQCAYAAADESFVDAAAAAXNSR0IArs4c6QAAAAZiS0dEANAA\
zwDP4Z7KegAAAAlwSFlzAAAOxAAADsQBlSsOGwAAAAd0SU1FB9sHGw0cMqdt1UwAAAAZdEVYdENv\
bW1lbnQAQ3JlYXRlZCB3aXRoIEdJTVBXgQ4XAAAAaElEQVQoz+3SsRFAQBCF4Z9WJM8KCDVwownl\
6YXsTmCUsyKGkZzcl7zkz3YLkypgAnreFmDEpHkIwVOMfpdi9CEEN2nGpFdwD03yEqDtOgCaun7s\
qSTDH32I1pQA2Pb9sZecAxc5r3IAb21d6878xsAAAAAASUVORK5CYII=';

  this.leftZoomHandle_ = img;
  this.rightZoomHandle_ = img.cloneNode(false);
};

/**
 * @private
 * Sets up the interaction for the range selector.
 */
DygraphRangeSelector.prototype.initInteraction_ = function() {
  var self = this;
  var topElem = this.isIE_ ? document : window;
  var xLast = 0;
  var handle = null;
  var isZooming = false;
  var isPanning = false;

  function toXDataWindow(zoomHandleStatus) {
    var xDataLimits = self.dygraph_.xAxisExtremes();
    var fact = (xDataLimits[1] - xDataLimits[0])/self.canvasRect_.w;
    var xDataMin = xDataLimits[0] + (zoomHandleStatus.leftHandlePos - self.canvasRect_.x)*fact;
    var xDataMax = xDataLimits[0] + (zoomHandleStatus.rightHandlePos - self.canvasRect_.x)*fact;
    return [xDataMin, xDataMax];
  };

  function onZoomStart(e) {
    Dygraph.cancelEvent(e);
    isZooming = true;
    xLast = e.screenX;
    handle = e.target ? e.target : e.srcElement;
    Dygraph.addEvent(topElem, 'mousemove', onZoom);
    Dygraph.addEvent(topElem, 'mouseup', onZoomEnd);
    self.fgcanvas_.style.cursor = 'col-resize';
  };

  function onZoom(e) {
    if (!isZooming) {
      return;
    }
    var delX = e.screenX - xLast;
    if (Math.abs(delX) < 4) {
      return;
    }
    xLast = e.screenX;
    var zoomHandleStatus = self.getZoomHandleStatus_();
    var halfHandleWidth = Math.round(handle.width/2);
    if (handle == self.leftZoomHandle_) {
      var newPos = zoomHandleStatus.leftHandlePos + delX;
      newPos = Math.min(newPos, zoomHandleStatus.rightHandlePos - handle.width - 3);
      newPos = Math.max(newPos, self.canvasRect_.x);
    } else {
      var newPos = zoomHandleStatus.rightHandlePos + delX;
      newPos = Math.min(newPos, self.canvasRect_.x + self.canvasRect_.w);
      newPos = Math.max(newPos, zoomHandleStatus.leftHandlePos + handle.width + 3);
    }
    handle.style.left = (newPos - halfHandleWidth) + 'px';
    self.drawInteractiveLayer_();

    // Zoom on the fly (if not using excanvas).
    if (!self.isUsingExcanvas) {
      doZoom();
    }
  };

  function onZoomEnd(e) {
    if (!isZooming) {
      return;
    }
    isZooming = false;
    Dygraph.removeEvent(topElem, 'mousemove', onZoom);
    Dygraph.removeEvent(topElem, 'mouseup', onZoomEnd);
    self.fgcanvas_.style.cursor = 'default';

    // If using excanvas, Zoom now.
    if (self.isUsingExcanvas) {
      doZoom();
    }
  };

  function doZoom() {
    try {
      var zoomHandleStatus = self.getZoomHandleStatus_();
      self.isChangingRange_ = true;
      if (!zoomHandleStatus.isZoomed) {
        self.dygraph_.doUnzoom_();
      } else {
        var xDataWindow = toXDataWindow(zoomHandleStatus);
        self.dygraph_.doZoomXDates_(xDataWindow[0], xDataWindow[1]);
      }
    } finally {
      self.isChangingRange_ = false;
    }
  };

  function isMouseInPanZone(e) {
    // Getting clientX directly from the event is not accurate enough :(
    var clientX = self.canvasRect_.x + (e.layerX != undefined ? e.layerX : e.offsetX);
    var zoomHandleStatus = self.getZoomHandleStatus_();
    return (clientX > zoomHandleStatus.leftHandlePos && clientX < zoomHandleStatus.rightHandlePos);
  };

  function onPanStart(e) {
    if (!isPanning && isMouseInPanZone(e) && self.getZoomHandleStatus_().isZoomed) {
      Dygraph.cancelEvent(e);
      isPanning = true;
      xLast = e.screenX;
      Dygraph.addEvent(topElem, 'mousemove', onPan);
      Dygraph.addEvent(topElem, 'mouseup', onPanEnd);
    }
  };

  function onPan(e) {
    if (!isPanning) {
      return;
    }

    var delX = e.screenX - xLast;
    if (Math.abs(delX) < 4) {
      return;
    }
    xLast = e.screenX;

    // Move range view
    var zoomHandleStatus = self.getZoomHandleStatus_();
    var leftHandlePos = zoomHandleStatus.leftHandlePos;
    var rightHandlePos = zoomHandleStatus.rightHandlePos;
    var rangeSize = rightHandlePos - leftHandlePos;
    if (leftHandlePos + delX <= self.canvasRect_.x) {
      leftHandlePos = self.canvasRect_.x;
      rightHandlePos = leftHandlePos + rangeSize;
    } else if (rightHandlePos + delX >= self.canvasRect_.x + self.canvasRect_.w) {
      rightHandlePos = self.canvasRect_.x + self.canvasRect_.w;
      leftHandlePos = rightHandlePos - rangeSize;
    } else {
      leftHandlePos += delX;
      rightHandlePos += delX;
    }
    var halfHandleWidth = Math.round(self.leftZoomHandle_.width/2);
    self.leftZoomHandle_.style.left = (leftHandlePos - halfHandleWidth) + 'px';
    self.rightZoomHandle_.style.left = (rightHandlePos - halfHandleWidth) + 'px';
    self.drawInteractiveLayer_();

    // Do pan on the fly (if not using excanvas).
    if (!self.isUsingExcanvas) {
      doPan();
    }
  };

  function onPanEnd(e) {
    if (!isPanning) {
      return;
    }
    isPanning = false;
    Dygraph.removeEvent(topElem, 'mousemove', onPan);
    Dygraph.removeEvent(topElem, 'mouseup', onPanEnd);
    // If using excanvas, do pan now.
    if (self.isUsingExcanvas) {
      doPan();
    }
  };

  function doPan() {
    try {
      self.isChangingRange_ = true;
      self.dygraph_.dateWindow_ = toXDataWindow(self.getZoomHandleStatus_());
      self.dygraph_.drawGraph_(false);
    } finally {
      self.isChangingRange_ = false;
    }
  };

  function onCanvasMouseMove(e) {
    if (isZooming || isPanning) {
      return;
    }
    var cursor = isMouseInPanZone(e) ? 'move' : 'default';
    if (cursor != self.fgcanvas_.style.cursor) {
      self.fgcanvas_.style.cursor = cursor;
    }
  };

  var interactionModel = {
    mousedown: function(event, g, context) {
      context.initializeMouseDown(event, g, context);
      Dygraph.startPan(event, g, context);
    },
    mousemove: function(event, g, context) {
      if (context.isPanning) {
        Dygraph.movePan(event, g, context);
      }
    },
    mouseup: function(event, g, context) {
      if (context.isPanning) {
        Dygraph.endPan(event, g, context);
      }
    }
  };

  this.dygraph_.attrs_.interactionModel = interactionModel;
  this.dygraph_.attrs_.panEdgeFraction = .0001;

  Dygraph.addEvent(this.leftZoomHandle_, 'dragstart', onZoomStart);
  Dygraph.addEvent(this.rightZoomHandle_, 'dragstart', onZoomStart);
  Dygraph.addEvent(this.fgcanvas_, 'mousedown', onPanStart);
  Dygraph.addEvent(this.fgcanvas_, 'mousemove', onCanvasMouseMove);
};

/**
 * @private
 * Draws the static layer in the background canvas.
 */
DygraphRangeSelector.prototype.drawStaticLayer_ = function() {
  var ctx = this.bgcanvas_ctx_;
  ctx.clearRect(0, 0, this.canvasRect_.w, this.canvasRect_.h);
  var margin = .5;
  try {
    this.drawMiniPlot_();
  } catch(ex) {
  }
  ctx.strokeStyle = 'lightgray';
  if (false) {
    ctx.strokeRect(margin, margin, this.canvasRect_.w-margin, this.canvasRect_.h-margin);
  } else {
    ctx.beginPath();
    ctx.moveTo(margin, margin);
    ctx.lineTo(margin, this.canvasRect_.h-margin);
    ctx.lineTo(this.canvasRect_.w-margin, this.canvasRect_.h-margin);
    ctx.lineTo(this.canvasRect_.w-margin, margin);
    ctx.stroke();
  }
};


/**
 * @private
 * Draws the mini plot in the background canvas.
 */
DygraphRangeSelector.prototype.drawMiniPlot_ = function() {
  var fillStyle = this.attr_('rangeSelectorPlotFillColor');
  var strokeStyle = this.attr_('rangeSelectorPlotStrokeColor');
  if (!fillStyle && !strokeStyle) {
    return;
  }

  var combinedSeriesData = this.computeCombinedSeriesAndLimits_();
  var yRange = combinedSeriesData.yMax - combinedSeriesData.yMin;

  // Draw the mini plot.
  var ctx = this.bgcanvas_ctx_;
  var margin = .5;

  var xExtremes = this.dygraph_.xAxisExtremes();
  var xRange = Math.max(xExtremes[1] - xExtremes[0], 1.e-30);
  var xFact = (this.canvasRect_.w - margin)/xRange;
  var yFact = (this.canvasRect_.h - margin)/yRange;
  var canvasWidth = this.canvasRect_.w - margin;
  var canvasHeight = this.canvasRect_.h - margin;

  ctx.beginPath();
  ctx.moveTo(margin, canvasHeight);
  for (var i = 0; i < combinedSeriesData.data.length; i++) {
    var dataPoint = combinedSeriesData.data[i];
    var x = (dataPoint[0] - xExtremes[0])*xFact;
    var y = canvasHeight - (dataPoint[1] - combinedSeriesData.yMin)*yFact;
    if (isFinite(x) && isFinite(y)) {
      ctx.lineTo(x, y);
    }
  }
  ctx.lineTo(canvasWidth, canvasHeight);
  ctx.closePath();

  if (fillStyle) {
    var lingrad = this.bgcanvas_ctx_.createLinearGradient(0, 0, 0, canvasHeight);
    lingrad.addColorStop(0, 'white');
    lingrad.addColorStop(1, fillStyle);
    this.bgcanvas_ctx_.fillStyle = lingrad;
    ctx.fill();
  }

  if (strokeStyle) {
    this.bgcanvas_ctx_.strokeStyle = strokeStyle;
    this.bgcanvas_ctx_.lineWidth = 1.5;
    ctx.stroke();
  }
};

/**
 * @private
 * Computes and returns the combinded series data along with min/max for the mini plot.
 * @return {Object} An object containing combinded series array, ymin, ymax.
 */
DygraphRangeSelector.prototype.computeCombinedSeriesAndLimits_ = function() {
  var data = this.dygraph_.rawData_;
  var logscale = this.attr_('logscale');

  // Create a combined series (average of all series values).
  var combinedSeries = [];
  var sum;
  var count;
  var mutipleValues = typeof data[0][1] != 'number';

  if (mutipleValues) {
    sum = [];
    count = [];
    for (var k = 0; k < data[0][1].length; k++) {
      sum.push(0);
      count.push(0);
    }
    mutipleValues = true;
  }

  for (var i = 0; i < data.length; i++) {
    var dataPoint = data[i];
    var xVal = dataPoint[0];
    var yVal;

    if (mutipleValues) {
      for (var k = 0; k < sum.length; k++) {
        sum[k] = count[k] = 0;
      }
    } else {
      sum = count = 0;
    }

    for (var j = 1; j < dataPoint.length; j++) {
      if (this.dygraph_.visibility()[j-1]) {
        if (mutipleValues) {
          for (var k = 0; k < sum.length; k++) {
            var y = dataPoint[j][k];
            if (y == null || isNaN(y)) continue;
            sum[k] += y;
            count[k]++;
          }
        } else {
          var y = dataPoint[j];
          if (y == null || isNaN(y)) continue;
          sum += y;
          count++;
        }
      }
    }

    if (mutipleValues) {
      for (var k = 0; k < sum.length; k++) {
        sum[k] /= count[k];
      }
      yVal = sum.slice(0);
    } else {
      yVal = sum/count;
    }

    combinedSeries.push([xVal, yVal]);
  }

  // Account for roll period, fractions.
  combinedSeries = this.dygraph_.rollingAverage(combinedSeries, this.dygraph_.rollPeriod_);

  if (typeof combinedSeries[0][1] != 'number') {
    for (var i = 0; i < combinedSeries.length; i++) {
      var yVal = combinedSeries[i][1];
      combinedSeries[i][1] = yVal[0];
    }
  }

  // Compute the y range.
  var yMin = Number.MAX_VALUE;
  var yMax = -Number.MAX_VALUE;
  for (var i = 0; i < combinedSeries.length; i++) {
    var yVal = combinedSeries[i][1];
    if (!logscale || yVal > 0) {
      yMin = Math.min(yMin, yVal);
      yMax = Math.max(yMax, yVal);
    }
  }

  // Convert Y data to log scale if needed.
  // Also, expand the Y range to compress the mini plot a little.
  var extraPercent = .25;
  if (logscale) {
    yMax = Dygraph.log10(yMax);
    yMax += yMax*extraPercent;
    yMin = Dygraph.log10(yMin);
    for (var i = 0; i < combinedSeries.length; i++) {
      combinedSeries[i][1] = Dygraph.log10(combinedSeries[i][1]);
    }
  } else {
    var yExtra;
    yRange = yMax - yMin;
    if (yRange <= Number.MIN_VALUE) {
      yExtra = yMax*extraPercent;
    } else {
      yExtra = yRange*extraPercent;
    }
    yMax += yExtra;
    yMin -= yExtra;
  }

  return {data: combinedSeries, yMin: yMin, yMax: yMax};
};

/**
 * @private
 * Places the zoom handles in the proper position based on the current X data window.
 */
DygraphRangeSelector.prototype.placeZoomHandles_ = function() {
  var xExtremes = this.dygraph_.xAxisExtremes();
  var xWindowLimits = this.dygraph_.xAxisRange();
  var xRange = xExtremes[1] - xExtremes[0];
  var leftPercent = Math.max(0, (xWindowLimits[0] - xExtremes[0])/xRange);
  var rightPercent = Math.max(0, (xExtremes[1] - xWindowLimits[1])/xRange);
  var leftCoord = this.canvasRect_.x + this.canvasRect_.w*leftPercent;
  var rightCoord = this.canvasRect_.x + this.canvasRect_.w*(1 - rightPercent);
  var handleTop = Math.round(Math.max(this.canvasRect_.y, this.canvasRect_.y + (this.canvasRect_.h - this.leftZoomHandle_.height)/2));
  var halfHandleWidth = Math.round(this.leftZoomHandle_.width/2);
  this.leftZoomHandle_.style.left = Math.round(leftCoord - halfHandleWidth) + 'px';
  this.leftZoomHandle_.style.top = handleTop + 'px';
  this.rightZoomHandle_.style.left = Math.round(rightCoord - halfHandleWidth) + 'px';
  this.rightZoomHandle_.style.top = this.leftZoomHandle_.style.top;

  this.leftZoomHandle_.style.visibility = 'visible';
  this.rightZoomHandle_.style.visibility = 'visible';
};

/**
 * @private
 * Draws the interactive layer in the foreground canvas.
 */
DygraphRangeSelector.prototype.drawInteractiveLayer_ = function() {
  var ctx = this.fgcanvas_ctx_;
  ctx.clearRect(0, 0, this.canvasRect_.w, this.canvasRect_.h);
  var margin = 1;
  var width = this.canvasRect_.w - margin;
  var height = this.canvasRect_.h - margin;
  var zoomHandleStatus = this.getZoomHandleStatus_();

  ctx.strokeStyle = 'black';
  if (!zoomHandleStatus.isZoomed) {
    ctx.beginPath();
    ctx.moveTo(margin, margin);
    ctx.lineTo(margin, height);
    ctx.lineTo(width, height);
    ctx.lineTo(width, margin);
    ctx.stroke();
  } else {
    leftHandleCanvasPos = Math.max(margin, zoomHandleStatus.leftHandlePos - this.canvasRect_.x);
    rightHandleCanvasPos = Math.min(width, zoomHandleStatus.rightHandlePos - this.canvasRect_.x);

    ctx.fillStyle = 'rgba(240, 240, 240, 0.6)';
    ctx.fillRect(margin, margin, leftHandleCanvasPos, height - margin);
    ctx.fillRect(rightHandleCanvasPos, margin, width - rightHandleCanvasPos, height - margin);

    ctx.beginPath();
    ctx.moveTo(margin, margin);
    ctx.lineTo(leftHandleCanvasPos, margin);
    ctx.lineTo(leftHandleCanvasPos, height);
    ctx.lineTo(rightHandleCanvasPos, height);
    ctx.lineTo(rightHandleCanvasPos, margin);
    ctx.lineTo(width, margin);
    ctx.stroke();
  }
};

/**
 * @private
 * Returns the current zoom handle position information.
 * @return {Object} The zoom handle status.
 */
DygraphRangeSelector.prototype.getZoomHandleStatus_ = function() {
  var halfHandleWidth = Math.round(this.leftZoomHandle_.width/2);
  var leftHandlePos = parseInt(this.leftZoomHandle_.style.left) + halfHandleWidth;
  var rightHandlePos = parseInt(this.rightZoomHandle_.style.left) + halfHandleWidth;
  return {
      leftHandlePos: leftHandlePos,
      rightHandlePos: rightHandlePos,
      isZoomed: (leftHandlePos - 1 > this.canvasRect_.x || rightHandlePos + 1 < this.canvasRect_.x+this.canvasRect_.w)
  };
};
Commit	Line	Data
ccd9d7c2 PF	1	// Copyright 2011 Paul Felix (paul.eric.felix@gmail.com)
	2	// All Rights Reserved.
	3
	4	/**
	5	* @fileoverview This file contains the DygraphRangeSelector class used to provide
	6	* a timeline range selector widget for dygraphs.
	7	*/
	8
	9	/**
	10	* The DygraphRangeSelector class provides a timeline range selector widget.
	11	* @param {Dygraph} dygraph The dygraph object
	12	* @constructor
	13	*/
	14	DygraphRangeSelector = function(dygraph) {
	15	this.isIE_ = /MSIE/.test(navigator.userAgent) && !window.opera;
	16	this.isUsingExcanvas = typeof(G_vmlCanvasManager) != 'undefined';
	17	this.dygraph_ = dygraph;
	18	this.createCanvases_();
	19	this.createZoomHandles_();
	20	this.initInteraction_();
	21	};
	22
	23	/**
	24	* Adds the range selector to the dygraph.
	25	* @param {Object} graphDiv The container div for the range selector.
	26	* @param {DygraphLayout} layout The DygraphLayout object for this graph.
	27	*/
	28	DygraphRangeSelector.prototype.addToGraph = function(graphDiv, layout) {
	29	this.layout_ = layout;
	30	this.resize_();
	31	graphDiv.appendChild(this.bgcanvas_);
	32	graphDiv.appendChild(this.fgcanvas_);
	33	graphDiv.appendChild(this.leftZoomHandle_);
	34	graphDiv.appendChild(this.rightZoomHandle_);
	35	};
	36
	37	/**
	38	* Renders the static background portion of the range selector.
	39	*/
	40	DygraphRangeSelector.prototype.renderStaticLayer = function() {
	41	this.resize_();
	42	this.drawStaticLayer_();
	43	};
	44
	45	/**
	46	* Renders the interactive foreground portion of the range selector.
	47	*/
	48	DygraphRangeSelector.prototype.renderInteractiveLayer = function() {
	49	if (this.isChangingRange_) {
	50	return;
	51	}
	52
	53	// The zoom handle image may not be loaded yet. May need to try again later.
	54	if (this.leftZoomHandle_.height == 0 && this.leftZoomHandle_.retryCount != 5) {
	55	var self = this;
	56	setTimeout(function() { self.renderInteractiveLayer(); }, 300);
	57	var retryCount = this.leftZoomHandle_.retryCount;
	58	this.leftZoomHandle_.retryCount = retryCount == undefined ? 1 : retryCount+1;
	59	return;
	60	}
	61
	62	this.placeZoomHandles_();
	63	this.drawInteractiveLayer_();
	64	};
65
66	/**
67	* @private
68	* Resizes the range selector.
69	*/
70	DygraphRangeSelector.prototype.resize_ = function() {
71	function setCanvasRect(canvas, rect) {
72	canvas.style.top = rect.y + 'px';
73	canvas.style.left = rect.x + 'px';
74	canvas.width = rect.w;
75	canvas.height = rect.h;
76	canvas.style.width = canvas.width + 'px'; // for IE
77	canvas.style.height = canvas.height + 'px'; // for IE
78	};
79
80	var plotArea = this.layout_.plotArea;
81	var xAxisLabelHeight = this.attr_('axisLabelFontSize') + 2 * this.attr_('axisTickSize');
82	this.canvasRect_ = {
83	x: plotArea.x,
84	y: plotArea.y + plotArea.h + xAxisLabelHeight + 4,
85	w: plotArea.w,
86	h: this.attr_('rangeSelectorHeight')
87	};
88
89	setCanvasRect(this.bgcanvas_, this.canvasRect_);
90	setCanvasRect(this.fgcanvas_, this.canvasRect_);
91	};
92
93	DygraphRangeSelector.prototype.attr_ = function(name) {
94	return this.dygraph_.attr_(name);
95	};
96
97	/**
98	* @private
99	* Creates the background and foreground canvases.
100	*/
101	DygraphRangeSelector.prototype.createCanvases_ = function() {
102	this.bgcanvas_ = Dygraph.createCanvas();
88c4a47e	103	this.bgcanvas_.className = 'dygraph-rangesel-bgcanvas';
ccd9d7c2 PF	104	this.bgcanvas_.style.position = 'absolute';
	105	this.bgcanvas_ctx_ = Dygraph.getContext(this.bgcanvas_);
	106
	107	this.fgcanvas_ = Dygraph.createCanvas();
88c4a47e	108	this.fgcanvas_.className = 'dygraph-rangesel-fgcanvas';
ccd9d7c2 PF	109	this.fgcanvas_.style.position = 'absolute';
	110	this.fgcanvas_.style.cursor = 'default';
	111	this.fgcanvas_ctx_ = Dygraph.getContext(this.fgcanvas_);
	112	};
	113
	114	/**
	115	* @private
	116	* Creates the zoom handle elements.
	117	*/
	118	DygraphRangeSelector.prototype.createZoomHandles_ = function() {
	119	var img = new Image();
88c4a47e	120	img.className = 'dygraph-rangesel-zoomhandle';
ccd9d7c2 PF	121	img.style.position = 'absolute';
	122	img.style.visibility = 'hidden'; // Initially hidden so they don't show up in the wrong place.
	123	img.style.cursor = 'col-resize';
	124	img.src = 'data:image/png;base64,\
	125	iVBORw0KGgoAAAANSUhEUgAAAAkAAAAQCAYAAADESFVDAAAAAXNSR0IArs4c6QAAAAZiS0dEANAA\
	126	zwDP4Z7KegAAAAlwSFlzAAAOxAAADsQBlSsOGwAAAAd0SU1FB9sHGw0cMqdt1UwAAAAZdEVYdENv\
	127	bW1lbnQAQ3JlYXRlZCB3aXRoIEdJTVBXgQ4XAAAAaElEQVQoz+3SsRFAQBCF4Z9WJM8KCDVwownl\
	128	6YXsTmCUsyKGkZzcl7zkz3YLkypgAnreFmDEpHkIwVOMfpdi9CEEN2nGpFdwD03yEqDtOgCaun7s\
	129	qSTDH32I1pQA2Pb9sZecAxc5r3IAb21d6878xsAAAAAASUVORK5CYII=';
	130
	131	this.leftZoomHandle_ = img;
	132	this.rightZoomHandle_ = img.cloneNode(false);
	133	};
	134
	135	/**
	136	* @private
	137	* Sets up the interaction for the range selector.
	138	*/
	139	DygraphRangeSelector.prototype.initInteraction_ = function() {
	140	var self = this;
	141	var topElem = this.isIE_ ? document : window;
	142	var xLast = 0;
	143	var handle = null;
	144	var isZooming = false;
	145	var isPanning = false;
	146
	147	function toXDataWindow(zoomHandleStatus) {
	148	var xDataLimits = self.dygraph_.xAxisExtremes();
	149	var fact = (xDataLimits[1] - xDataLimits[0])/self.canvasRect_.w;
	150	var xDataMin = xDataLimits[0] + (zoomHandleStatus.leftHandlePos - self.canvasRect_.x)*fact;
	151	var xDataMax = xDataLimits[0] + (zoomHandleStatus.rightHandlePos - self.canvasRect_.x)*fact;
	152	return [xDataMin, xDataMax];
	153	};
	154
	155	function onZoomStart(e) {
	156	Dygraph.cancelEvent(e);
	157	isZooming = true;
	158	xLast = e.screenX;
	159	handle = e.target ? e.target : e.srcElement;
	160	Dygraph.addEvent(topElem, 'mousemove', onZoom);
	161	Dygraph.addEvent(topElem, 'mouseup', onZoomEnd);
	162	self.fgcanvas_.style.cursor = 'col-resize';
	163	};
	164
	165	function onZoom(e) {
	166	if (!isZooming) {
	167	return;
	168	}
	169	var delX = e.screenX - xLast;
	170	if (Math.abs(delX) < 4) {
	171	return;
	172	}
	173	xLast = e.screenX;
	174	var zoomHandleStatus = self.getZoomHandleStatus_();
	175	var halfHandleWidth = Math.round(handle.width/2);
	176	if (handle == self.leftZoomHandle_) {
	177	var newPos = zoomHandleStatus.leftHandlePos + delX;
	178	newPos = Math.min(newPos, zoomHandleStatus.rightHandlePos - handle.width - 3);
	179	newPos = Math.max(newPos, self.canvasRect_.x);
	180	} else {
	181	var newPos = zoomHandleStatus.rightHandlePos + delX;
	182	newPos = Math.min(newPos, self.canvasRect_.x + self.canvasRect_.w);
	183	newPos = Math.max(newPos, zoomHandleStatus.leftHandlePos + handle.width + 3);
	184	}
185	handle.style.left = (newPos - halfHandleWidth) + 'px';
186	self.drawInteractiveLayer_();
187
188	// Zoom on the fly (if not using excanvas).
189	if (!self.isUsingExcanvas) {
190	doZoom();
191	}
192	};
193
194	function onZoomEnd(e) {
195	if (!isZooming) {
196	return;
197	}
198	isZooming = false;
199	Dygraph.removeEvent(topElem, 'mousemove', onZoom);
200	Dygraph.removeEvent(topElem, 'mouseup', onZoomEnd);
201	self.fgcanvas_.style.cursor = 'default';
202
203	// If using excanvas, Zoom now.
204	if (self.isUsingExcanvas) {
205	doZoom();
206	}
207	};
208
209	function doZoom() {
210	try {
211	var zoomHandleStatus = self.getZoomHandleStatus_();
212	self.isChangingRange_ = true;
213	if (!zoomHandleStatus.isZoomed) {
214	self.dygraph_.doUnzoom_();
215	} else {
216	var xDataWindow = toXDataWindow(zoomHandleStatus);
217	self.dygraph_.doZoomXDates_(xDataWindow[0], xDataWindow[1]);
218	}
219	} finally {
220	self.isChangingRange_ = false;
221	}
222	};
223
224	function isMouseInPanZone(e) {
225	// Getting clientX directly from the event is not accurate enough :(
226	var clientX = self.canvasRect_.x + (e.layerX != undefined ? e.layerX : e.offsetX);
227	var zoomHandleStatus = self.getZoomHandleStatus_();
228	return (clientX > zoomHandleStatus.leftHandlePos && clientX < zoomHandleStatus.rightHandlePos);
229	};
230
231	function onPanStart(e) {
232	if (!isPanning && isMouseInPanZone(e) && self.getZoomHandleStatus_().isZoomed) {
233	Dygraph.cancelEvent(e);
234	isPanning = true;
235	xLast = e.screenX;
236	Dygraph.addEvent(topElem, 'mousemove', onPan);
237	Dygraph.addEvent(topElem, 'mouseup', onPanEnd);
238	}
239	};
240
241	function onPan(e) {
242	if (!isPanning) {
243	return;
244	}
245
246	var delX = e.screenX - xLast;
247	if (Math.abs(delX) < 4) {
248	return;
249	}
250	xLast = e.screenX;
251
252	// Move range view
253	var zoomHandleStatus = self.getZoomHandleStatus_();
254	var leftHandlePos = zoomHandleStatus.leftHandlePos;
255	var rightHandlePos = zoomHandleStatus.rightHandlePos;
256	var rangeSize = rightHandlePos - leftHandlePos;
257	if (leftHandlePos + delX <= self.canvasRect_.x) {
258	leftHandlePos = self.canvasRect_.x;
259	rightHandlePos = leftHandlePos + rangeSize;
260	} else if (rightHandlePos + delX >= self.canvasRect_.x + self.canvasRect_.w) {
261	rightHandlePos = self.canvasRect_.x + self.canvasRect_.w;
262	leftHandlePos = rightHandlePos - rangeSize;
263	} else {
264	leftHandlePos += delX;
265	rightHandlePos += delX;
266	}
267	var halfHandleWidth = Math.round(self.leftZoomHandle_.width/2);
268	self.leftZoomHandle_.style.left = (leftHandlePos - halfHandleWidth) + 'px';
269	self.rightZoomHandle_.style.left = (rightHandlePos - halfHandleWidth) + 'px';
270	self.drawInteractiveLayer_();
271
272	// Do pan on the fly (if not using excanvas).
273	if (!self.isUsingExcanvas) {
274	doPan();
275	}
276	};
277
278	function onPanEnd(e) {
279	if (!isPanning) {
280	return;
281	}
282	isPanning = false;
283	Dygraph.removeEvent(topElem, 'mousemove', onPan);
284	Dygraph.removeEvent(topElem, 'mouseup', onPanEnd);
285	// If using excanvas, do pan now.
286	if (self.isUsingExcanvas) {
287	doPan();
288	}
289	};
290
291	function doPan() {
292	try {
293	self.isChangingRange_ = true;
294	self.dygraph_.dateWindow_ = toXDataWindow(self.getZoomHandleStatus_());
295	self.dygraph_.drawGraph_(false);
296	} finally {
297	self.isChangingRange_ = false;
298	}
299	};
300
301	function onCanvasMouseMove(e) {
302	if (isZooming \|\| isPanning) {
303	return;
304	}
305	var cursor = isMouseInPanZone(e) ? 'move' : 'default';
306	if (cursor != self.fgcanvas_.style.cursor) {
307	self.fgcanvas_.style.cursor = cursor;
308	}
309	};
310
311	var interactionModel = {
312	mousedown: function(event, g, context) {
313	context.initializeMouseDown(event, g, context);
314	Dygraph.startPan(event, g, context);
315	},
316	mousemove: function(event, g, context) {
317	if (context.isPanning) {
318	Dygraph.movePan(event, g, context);
319	}
320	},
321	mouseup: function(event, g, context) {
322	if (context.isPanning) {
323	Dygraph.endPan(event, g, context);
324	}
325	}
326	};
327
328	this.dygraph_.attrs_.interactionModel = interactionModel;
329	this.dygraph_.attrs_.panEdgeFraction = .0001;
330
331	Dygraph.addEvent(this.leftZoomHandle_, 'dragstart', onZoomStart);
332	Dygraph.addEvent(this.rightZoomHandle_, 'dragstart', onZoomStart);
333	Dygraph.addEvent(this.fgcanvas_, 'mousedown', onPanStart);
334	Dygraph.addEvent(this.fgcanvas_, 'mousemove', onCanvasMouseMove);
335	};
336
337	/**
338	* @private
339	* Draws the static layer in the background canvas.
340	*/
341	DygraphRangeSelector.prototype.drawStaticLayer_ = function() {
342	var ctx = this.bgcanvas_ctx_;
343	ctx.clearRect(0, 0, this.canvasRect_.w, this.canvasRect_.h);
344	var margin = .5;
345	try {
346	this.drawMiniPlot_();
347	} catch(ex) {
348	}
349	ctx.strokeStyle = 'lightgray';
350	if (false) {
351	ctx.strokeRect(margin, margin, this.canvasRect_.w-margin, this.canvasRect_.h-margin);
352	} else {
353	ctx.beginPath();
354	ctx.moveTo(margin, margin);
355	ctx.lineTo(margin, this.canvasRect_.h-margin);
356	ctx.lineTo(this.canvasRect_.w-margin, this.canvasRect_.h-margin);
357	ctx.lineTo(this.canvasRect_.w-margin, margin);
358	ctx.stroke();
359	}
360	};
361
362
363	/**
364	* @private
365	* Draws the mini plot in the background canvas.
366	*/
367	DygraphRangeSelector.prototype.drawMiniPlot_ = function() {
368	var fillStyle = this.attr_('rangeSelectorPlotFillColor');
369	var strokeStyle = this.attr_('rangeSelectorPlotStrokeColor');
370	if (!fillStyle && !strokeStyle) {
371	return;
372	}
373
374	var combinedSeriesData = this.computeCombinedSeriesAndLimits_();
375	var yRange = combinedSeriesData.yMax - combinedSeriesData.yMin;
376
377	// Draw the mini plot.
378	var ctx = this.bgcanvas_ctx_;
379	var margin = .5;
380
381	var xExtremes = this.dygraph_.xAxisExtremes();
382	var xRange = Math.max(xExtremes[1] - xExtremes[0], 1.e-30);
383	var xFact = (this.canvasRect_.w - margin)/xRange;
384	var yFact = (this.canvasRect_.h - margin)/yRange;
385	var canvasWidth = this.canvasRect_.w - margin;
386	var canvasHeight = this.canvasRect_.h - margin;
387
388	ctx.beginPath();
389	ctx.moveTo(margin, canvasHeight);
390	for (var i = 0; i < combinedSeriesData.data.length; i++) {
391	var dataPoint = combinedSeriesData.data[i];
392	var x = (dataPoint[0] - xExtremes[0])*xFact;
393	var y = canvasHeight - (dataPoint[1] - combinedSeriesData.yMin)*yFact;
394	if (isFinite(x) && isFinite(y)) {
395	ctx.lineTo(x, y);
396	}
397	}
398	ctx.lineTo(canvasWidth, canvasHeight);
399	ctx.closePath();
400
401	if (fillStyle) {
402	var lingrad = this.bgcanvas_ctx_.createLinearGradient(0, 0, 0, canvasHeight);
403	lingrad.addColorStop(0, 'white');
404	lingrad.addColorStop(1, fillStyle);
405	this.bgcanvas_ctx_.fillStyle = lingrad;
406	ctx.fill();
407	}
408
409	if (strokeStyle) {
410	this.bgcanvas_ctx_.strokeStyle = strokeStyle;
411	this.bgcanvas_ctx_.lineWidth = 1.5;
412	ctx.stroke();
413	}
414	};
415
416	/**
417	* @private
418	* Computes and returns the combinded series data along with min/max for the mini plot.
419	* @return {Object} An object containing combinded series array, ymin, ymax.
420	*/
421	DygraphRangeSelector.prototype.computeCombinedSeriesAndLimits_ = function() {
422	var data = this.dygraph_.rawData_;
423	var logscale = this.attr_('logscale');
424
425	// Create a combined series (average of all series values).
426	var combinedSeries = [];
427	var sum;
428	var count;
429	var mutipleValues = typeof data[0][1] != 'number';
430
431	if (mutipleValues) {
432	sum = [];
433	count = [];
434	for (var k = 0; k < data[0][1].length; k++) {
435	sum.push(0);
436	count.push(0);
437	}
438	mutipleValues = true;
439	}
440
441	for (var i = 0; i < data.length; i++) {
442	var dataPoint = data[i];
443	var xVal = dataPoint[0];
444	var yVal;
445
446	if (mutipleValues) {
447	for (var k = 0; k < sum.length; k++) {
448	sum[k] = count[k] = 0;
449	}
450	} else {
451	sum = count = 0;
452	}
453
454	for (var j = 1; j < dataPoint.length; j++) {
455	if (this.dygraph_.visibility()[j-1]) {
456	if (mutipleValues) {
457	for (var k = 0; k < sum.length; k++) {
458	var y = dataPoint[j][k];
459	if (y == null \|\| isNaN(y)) continue;
460	sum[k] += y;
461	count[k]++;
462	}
463	} else {
464	var y = dataPoint[j];
465	if (y == null \|\| isNaN(y)) continue;
466	sum += y;
467	count++;
468	}
469	}
470	}
471
472	if (mutipleValues) {
473	for (var k = 0; k < sum.length; k++) {
474	sum[k] /= count[k];
475	}
476	yVal = sum.slice(0);
477	} else {
478	yVal = sum/count;
479	}
480
481	combinedSeries.push([xVal, yVal]);
482	}
483
484	// Account for roll period, fractions.
485	combinedSeries = this.dygraph_.rollingAverage(combinedSeries, this.dygraph_.rollPeriod_);
486
487	if (typeof combinedSeries[0][1] != 'number') {
488	for (var i = 0; i < combinedSeries.length; i++) {
489	var yVal = combinedSeries[i][1];
490	combinedSeries[i][1] = yVal[0];
491	}
492	}
493
494	// Compute the y range.
495	var yMin = Number.MAX_VALUE;
496	var yMax = -Number.MAX_VALUE;
497	for (var i = 0; i < combinedSeries.length; i++) {
498	var yVal = combinedSeries[i][1];
499	if (!logscale \|\| yVal > 0) {
500	yMin = Math.min(yMin, yVal);
501	yMax = Math.max(yMax, yVal);
502	}
503	}
504
505	// Convert Y data to log scale if needed.
506	// Also, expand the Y range to compress the mini plot a little.
507	var extraPercent = .25;
508	if (logscale) {
509	yMax = Dygraph.log10(yMax);
510	yMax += yMax*extraPercent;
511	yMin = Dygraph.log10(yMin);
512	for (var i = 0; i < combinedSeries.length; i++) {
513	combinedSeries[i][1] = Dygraph.log10(combinedSeries[i][1]);
514	}
515	} else {
516	var yExtra;
517	yRange = yMax - yMin;
518	if (yRange <= Number.MIN_VALUE) {
519	yExtra = yMax*extraPercent;
520	} else {
521	yExtra = yRange*extraPercent;
522	}
523	yMax += yExtra;
524	yMin -= yExtra;
525	}
526
527	return {data: combinedSeries, yMin: yMin, yMax: yMax};
528	};
529
530	/**
531	* @private
532	* Places the zoom handles in the proper position based on the current X data window.
533	*/
534	DygraphRangeSelector.prototype.placeZoomHandles_ = function() {
535	var xExtremes = this.dygraph_.xAxisExtremes();
536	var xWindowLimits = this.dygraph_.xAxisRange();
537	var xRange = xExtremes[1] - xExtremes[0];
538	var leftPercent = Math.max(0, (xWindowLimits[0] - xExtremes[0])/xRange);
539	var rightPercent = Math.max(0, (xExtremes[1] - xWindowLimits[1])/xRange);
540	var leftCoord = this.canvasRect_.x + this.canvasRect_.w*leftPercent;
541	var rightCoord = this.canvasRect_.x + this.canvasRect_.w*(1 - rightPercent);
542	var handleTop = Math.round(Math.max(this.canvasRect_.y, this.canvasRect_.y + (this.canvasRect_.h - this.leftZoomHandle_.height)/2));
543	var halfHandleWidth = Math.round(this.leftZoomHandle_.width/2);
544	this.leftZoomHandle_.style.left = Math.round(leftCoord - halfHandleWidth) + 'px';
545	this.leftZoomHandle_.style.top = handleTop + 'px';
546	this.rightZoomHandle_.style.left = Math.round(rightCoord - halfHandleWidth) + 'px';
547	this.rightZoomHandle_.style.top = this.leftZoomHandle_.style.top;
548
549	this.leftZoomHandle_.style.visibility = 'visible';
550	this.rightZoomHandle_.style.visibility = 'visible';
551	};
552
553	/**
554	* @private
555	* Draws the interactive layer in the foreground canvas.
556	*/
557	DygraphRangeSelector.prototype.drawInteractiveLayer_ = function() {
558	var ctx = this.fgcanvas_ctx_;
559	ctx.clearRect(0, 0, this.canvasRect_.w, this.canvasRect_.h);
560	var margin = 1;
561	var width = this.canvasRect_.w - margin;
562	var height = this.canvasRect_.h - margin;
563	var zoomHandleStatus = this.getZoomHandleStatus_();
564
565	ctx.strokeStyle = 'black';
566	if (!zoomHandleStatus.isZoomed) {
567	ctx.beginPath();
568	ctx.moveTo(margin, margin);
569	ctx.lineTo(margin, height);
570	ctx.lineTo(width, height);
571	ctx.lineTo(width, margin);
572	ctx.stroke();
573	} else {
574	leftHandleCanvasPos = Math.max(margin, zoomHandleStatus.leftHandlePos - this.canvasRect_.x);
575	rightHandleCanvasPos = Math.min(width, zoomHandleStatus.rightHandlePos - this.canvasRect_.x);
576
577	ctx.fillStyle = 'rgba(240, 240, 240, 0.6)';
578	ctx.fillRect(margin, margin, leftHandleCanvasPos, height - margin);
579	ctx.fillRect(rightHandleCanvasPos, margin, width - rightHandleCanvasPos, height - margin);
580
581	ctx.beginPath();
582	ctx.moveTo(margin, margin);
583	ctx.lineTo(leftHandleCanvasPos, margin);
584	ctx.lineTo(leftHandleCanvasPos, height);
585	ctx.lineTo(rightHandleCanvasPos, height);
586	ctx.lineTo(rightHandleCanvasPos, margin);
587	ctx.lineTo(width, margin);
588	ctx.stroke();
589	}
590	};
591
592	/**
593	* @private
594	* Returns the current zoom handle position information.
595	* @return {Object} The zoom handle status.
596	*/
597	DygraphRangeSelector.prototype.getZoomHandleStatus_ = function() {
598	var halfHandleWidth = Math.round(this.leftZoomHandle_.width/2);
599	var leftHandlePos = parseInt(this.leftZoomHandle_.style.left) + halfHandleWidth;
600	var rightHandlePos = parseInt(this.rightZoomHandle_.style.left) + halfHandleWidth;
601	return {
602	leftHandlePos: leftHandlePos,
603	rightHandlePos: rightHandlePos,
604	isZoomed: (leftHandlePos - 1 > this.canvasRect_.x \|\| rightHandlePos + 1 < this.canvasRect_.x+this.canvasRect_.w)
605	};
606	};