[dygraphs.git] / tests / interaction.js

// Code for a variety of interaction models. Used in interaction.html, but split out from
// that file so they can be tested in isolation.
//
function downV3(event, g, context) {
  context.initializeMouseDown(event, g, context);
  if (event.altKey || event.shiftKey) {
    Dygraph.startZoom(event, g, context);
  } else {
    Dygraph.startPan(event, g, context);
  }
}

function moveV3(event, g, context) {
  if (context.isPanning) {
    Dygraph.movePan(event, g, context);
  } else if (context.isZooming) {
    Dygraph.moveZoom(event, g, context);
  }
}

function upV3(event, g, context) {
  if (context.isPanning) {
    Dygraph.endPan(event, g, context);
  } else if (context.isZooming) {
    Dygraph.endZoom(event, g, context);
  }
}

// Take the offset of a mouse event on the dygraph canvas and
// convert it to a pair of percentages from the bottom left. 
// (Not top left, bottom is where the lower value is.)
function offsetToPercentage(g, offsetX, offsetY) {
  // This is calculating the pixel offset of the leftmost date.
  var xOffset = g.toDomCoords(g.xAxisRange()[0], null)[0];
  var yar0 = g.yAxisRange(0);

  // This is calculating the pixel of the higest value. (Top pixel)
  var yOffset = g.toDomCoords(null, yar0[1])[1];

  // x y w and h are relative to the corner of the drawing area,
  // so that the upper corner of the drawing area is (0, 0).
  var x = offsetX - xOffset;
  var y = offsetY - yOffset;

  // This is computing the rightmost pixel, effectively defining the
  // width.
  var w = g.toDomCoords(g.xAxisRange()[1], null)[0] - xOffset;

  // This is computing the lowest pixel, effectively defining the height.
  var h = g.toDomCoords(null, yar0[0])[1] - yOffset;

  // Percentage from the left.
  var xPct = w == 0 ? 0 : (x / w);
  // Percentage from the top.
  var yPct = h == 0 ? 0 : (y / h);

  // The (1-) part below changes it from "% distance down from the top"
  // to "% distance up from the bottom".
  return [xPct, (1-yPct)];
}

function dblClickV3(event, g, context) {
  // Reducing by 20% makes it 80% the original size, which means
  // to restore to original size it must grow by 25%

  if (!(event.offsetX && event.offsetY)){
    event.offsetX = event.layerX - event.target.offsetLeft;
    event.offsetY = event.layerY - event.target.offsetTop;
  }

  var percentages = offsetToPercentage(g, event.offsetX, event.offsetY);
  var xPct = percentages[0];
  var yPct = percentages[1];

  if (event.ctrlKey) {
    zoom(g, -.25, xPct, yPct);
  } else {
    zoom(g, +.2, xPct, yPct);
  }
}

var lastClickedGraph = null;

function clickV3(event, g, context) {
  lastClickedGraph = g;
  Dygraph.cancelEvent(event);
}

function scrollV3(event, g, context) {
  if (lastClickedGraph != g) {
    return;
  }
  var normal = event.detail ? event.detail * -1 : event.wheelDelta / 40;
  // For me the normalized value shows 0.075 for one click. If I took
  // that verbatim, it would be a 7.5%.
  var percentage = normal / 50;

  if (!(event.offsetX && event.offsetY)){
    event.offsetX = event.layerX - event.target.offsetLeft;
    event.offsetY = event.layerY - event.target.offsetTop;
  }

  var percentages = offsetToPercentage(g, event.offsetX, event.offsetY);
  var xPct = percentages[0];
  var yPct = percentages[1];

  zoom(g, percentage, xPct, yPct);
  Dygraph.cancelEvent(event);
}

// Adjusts [x, y] toward each other by zoomInPercentage%
// Split it so the left/bottom axis gets xBias/yBias of that change and
// tight/top gets (1-xBias)/(1-yBias) of that change.
//
// If a bias is missing it splits it down the middle.
function zoom(g, zoomInPercentage, xBias, yBias) {
  xBias = xBias || 0.5;
  yBias = yBias || 0.5;
  function adjustAxis(axis, zoomInPercentage, bias) {
    var delta = axis[1] - axis[0];
    var increment = delta * zoomInPercentage;
    var foo = [increment * bias, increment * (1-bias)];
    return [ axis[0] + foo[0], axis[1] - foo[1] ];
  }
  var yAxes = g.yAxisRanges();
  var newYAxes = [];
  for (var i = 0; i < yAxes.length; i++) {
    newYAxes[i] = adjustAxis(yAxes[i], zoomInPercentage, yBias);
  }

  g.updateOptions({
    dateWindow: adjustAxis(g.xAxisRange(), zoomInPercentage, xBias),
    valueRange: newYAxes[0]
    });
}

var v4Active = false;
var v4Canvas = null;

function downV4(event, g, context) {
  context.initializeMouseDown(event, g, context);
  v4Active = true;
  moveV4(event, g, context); // in case the mouse went down on a data point.
}

var processed = [];

function moveV4(event, g, context) {
  var RANGE = 7;

  if (v4Active) {
    var canvasx = Dygraph.pageX(event) - Dygraph.findPosX(g.graphDiv);
    var canvasy = Dygraph.pageY(event) - Dygraph.findPosY(g.graphDiv);

    var rows = g.numRows();
    // Row layout:
    // [date, [val1, stdev1], [val2, stdev2]]
    for (var row = 0; row < rows; row++) {
      var date = g.getValue(row, 0);
      var x = g.toDomCoords(date, null)[0];
      var diff = Math.abs(canvasx - x);
      if (diff < RANGE) {
        for (var col = 1; col < 3; col++) {
          // TODO(konigsberg): these will throw exceptions as data is removed.
          var vals =  g.getValue(row, col);
          if (vals == null) { continue; }
          var val = vals[0];
          var y = g.toDomCoords(null, val)[1];
          var diff2 = Math.abs(canvasy - y);
          if (diff2 < RANGE) {
            var found = false;
            for (var i in processed) {
              var stored = processed[i];
              if(stored[0] == row && stored[1] == col) {
                found = true;
                break;
              }
            }
            if (!found) {
              processed.push([row, col]);
              drawV4(x, y);
            }
            return;
          }
        }
      }
    }
  }
}

function upV4(event, g, context) {
  if (v4Active) {
    v4Active = false;
  }
}

function dblClickV4(event, g, context) {
  restorePositioning(g);
}

function drawV4(x, y) {
  var ctx = v4Canvas;

  ctx.strokeStyle = "#000000";
  ctx.fillStyle = "#FFFF00";
  ctx.beginPath();
  ctx.arc(x,y,5,0,Math.PI*2,true);
  ctx.closePath();
  ctx.stroke();
  ctx.fill();
}

function captureCanvas(canvas, area, g) {
  v4Canvas = canvas;
}

function restorePositioning(g) {
  g.updateOptions({
    dateWindow: null,
    valueRange: null
  });
}
Commit	Line	Data
	1	// Code for a variety of interaction models. Used in interaction.html, but split out from
	2	// that file so they can be tested in isolation.
	3	//
	4	function downV3(event, g, context) {
	5	context.initializeMouseDown(event, g, context);
	6	if (event.altKey \|\| event.shiftKey) {
	7	Dygraph.startZoom(event, g, context);
	8	} else {
	9	Dygraph.startPan(event, g, context);
	10	}
	11	}
	12
	13	function moveV3(event, g, context) {
	14	if (context.isPanning) {
	15	Dygraph.movePan(event, g, context);
	16	} else if (context.isZooming) {
	17	Dygraph.moveZoom(event, g, context);
	18	}
	19	}
	20
	21	function upV3(event, g, context) {
	22	if (context.isPanning) {
	23	Dygraph.endPan(event, g, context);
	24	} else if (context.isZooming) {
	25	Dygraph.endZoom(event, g, context);
	26	}
	27	}
	28
	29	// Take the offset of a mouse event on the dygraph canvas and
	30	// convert it to a pair of percentages from the bottom left.
	31	// (Not top left, bottom is where the lower value is.)
	32	function offsetToPercentage(g, offsetX, offsetY) {
	33	// This is calculating the pixel offset of the leftmost date.
	34	var xOffset = g.toDomCoords(g.xAxisRange()[0], null)[0];
	35	var yar0 = g.yAxisRange(0);
	36
	37	// This is calculating the pixel of the higest value. (Top pixel)
	38	var yOffset = g.toDomCoords(null, yar0[1])[1];
	39
	40	// x y w and h are relative to the corner of the drawing area,
	41	// so that the upper corner of the drawing area is (0, 0).
	42	var x = offsetX - xOffset;
	43	var y = offsetY - yOffset;
	44
	45	// This is computing the rightmost pixel, effectively defining the
	46	// width.
	47	var w = g.toDomCoords(g.xAxisRange()[1], null)[0] - xOffset;
	48
	49	// This is computing the lowest pixel, effectively defining the height.
	50	var h = g.toDomCoords(null, yar0[0])[1] - yOffset;
	51
	52	// Percentage from the left.
	53	var xPct = w == 0 ? 0 : (x / w);
	54	// Percentage from the top.
	55	var yPct = h == 0 ? 0 : (y / h);
	56
	57	// The (1-) part below changes it from "% distance down from the top"
	58	// to "% distance up from the bottom".
	59	return [xPct, (1-yPct)];
	60	}
	61
	62	function dblClickV3(event, g, context) {
	63	// Reducing by 20% makes it 80% the original size, which means
	64	// to restore to original size it must grow by 25%
	65
	66	if (!(event.offsetX && event.offsetY)){
	67	event.offsetX = event.layerX - event.target.offsetLeft;
	68	event.offsetY = event.layerY - event.target.offsetTop;
	69	}
	70
	71	var percentages = offsetToPercentage(g, event.offsetX, event.offsetY);
	72	var xPct = percentages[0];
	73	var yPct = percentages[1];
	74
	75	if (event.ctrlKey) {
	76	zoom(g, -.25, xPct, yPct);
	77	} else {
	78	zoom(g, +.2, xPct, yPct);
	79	}
	80	}
	81
	82	var lastClickedGraph = null;
	83
	84	function clickV3(event, g, context) {
	85	lastClickedGraph = g;
	86	Dygraph.cancelEvent(event);
	87	}
	88
	89	function scrollV3(event, g, context) {
	90	if (lastClickedGraph != g) {
	91	return;
	92	}
	93	var normal = event.detail ? event.detail * -1 : event.wheelDelta / 40;
	94	// For me the normalized value shows 0.075 for one click. If I took
	95	// that verbatim, it would be a 7.5%.
	96	var percentage = normal / 50;
	97
	98	if (!(event.offsetX && event.offsetY)){
	99	event.offsetX = event.layerX - event.target.offsetLeft;
	100	event.offsetY = event.layerY - event.target.offsetTop;
	101	}
	102
	103	var percentages = offsetToPercentage(g, event.offsetX, event.offsetY);
	104	var xPct = percentages[0];
	105	var yPct = percentages[1];
	106
	107	zoom(g, percentage, xPct, yPct);
	108	Dygraph.cancelEvent(event);
	109	}
	110
	111	// Adjusts [x, y] toward each other by zoomInPercentage%
	112	// Split it so the left/bottom axis gets xBias/yBias of that change and
	113	// tight/top gets (1-xBias)/(1-yBias) of that change.
	114	//
	115	// If a bias is missing it splits it down the middle.
	116	function zoom(g, zoomInPercentage, xBias, yBias) {
	117	xBias = xBias \|\| 0.5;
	118	yBias = yBias \|\| 0.5;
	119	function adjustAxis(axis, zoomInPercentage, bias) {
	120	var delta = axis[1] - axis[0];
	121	var increment = delta * zoomInPercentage;
	122	var foo = [increment * bias, increment * (1-bias)];
	123	return [ axis[0] + foo[0], axis[1] - foo[1] ];
	124	}
	125	var yAxes = g.yAxisRanges();
	126	var newYAxes = [];
	127	for (var i = 0; i < yAxes.length; i++) {
	128	newYAxes[i] = adjustAxis(yAxes[i], zoomInPercentage, yBias);
	129	}
	130
	131	g.updateOptions({
	132	dateWindow: adjustAxis(g.xAxisRange(), zoomInPercentage, xBias),
	133	valueRange: newYAxes[0]
	134	});
	135	}
	136
	137	var v4Active = false;
	138	var v4Canvas = null;
	139
	140	function downV4(event, g, context) {
	141	context.initializeMouseDown(event, g, context);
	142	v4Active = true;
	143	moveV4(event, g, context); // in case the mouse went down on a data point.
	144	}
	145
	146	var processed = [];
	147
	148	function moveV4(event, g, context) {
	149	var RANGE = 7;
	150
	151	if (v4Active) {
	152	var canvasx = Dygraph.pageX(event) - Dygraph.findPosX(g.graphDiv);
	153	var canvasy = Dygraph.pageY(event) - Dygraph.findPosY(g.graphDiv);
	154
	155	var rows = g.numRows();
	156	// Row layout:
	157	// [date, [val1, stdev1], [val2, stdev2]]
	158	for (var row = 0; row < rows; row++) {
	159	var date = g.getValue(row, 0);
	160	var x = g.toDomCoords(date, null)[0];
	161	var diff = Math.abs(canvasx - x);
	162	if (diff < RANGE) {
	163	for (var col = 1; col < 3; col++) {
	164	// TODO(konigsberg): these will throw exceptions as data is removed.
	165	var vals = g.getValue(row, col);
	166	if (vals == null) { continue; }
	167	var val = vals[0];
	168	var y = g.toDomCoords(null, val)[1];
	169	var diff2 = Math.abs(canvasy - y);
	170	if (diff2 < RANGE) {
	171	var found = false;
	172	for (var i in processed) {
	173	var stored = processed[i];
	174	if(stored[0] == row && stored[1] == col) {
	175	found = true;
	176	break;
	177	}
	178	}
	179	if (!found) {
	180	processed.push([row, col]);
	181	drawV4(x, y);
	182	}
	183	return;
	184	}
	185	}
	186	}
	187	}
	188	}
	189	}
	190
	191	function upV4(event, g, context) {
	192	if (v4Active) {
	193	v4Active = false;
	194	}
	195	}
	196
	197	function dblClickV4(event, g, context) {
	198	restorePositioning(g);
	199	}
	200
	201	function drawV4(x, y) {
	202	var ctx = v4Canvas;
	203
	204	ctx.strokeStyle = "#000000";
	205	ctx.fillStyle = "#FFFF00";
	206	ctx.beginPath();
	207	ctx.arc(x,y,5,0,Math.PI*2,true);
	208	ctx.closePath();
	209	ctx.stroke();
	210	ctx.fill();
	211	}
	212
	213	function captureCanvas(canvas, area, g) {
	214	v4Canvas = canvas;
	215	}
	216
	217	function restorePositioning(g) {
	218	g.updateOptions({
	219	dateWindow: null,
	220	valueRange: null
	221	});
	222	}