[dygraphs.git] / auto_tests / tests / callback.js

/**
 * @fileoverview Test cases for the callbacks.
 *
 * @author uemit.seren@gmail.com (Ümit Seren)
 */

var CallbackTestCase = TestCase("callback");

CallbackTestCase.prototype.setUp = function() {
  document.body.innerHTML = "<div id='graph'></div><div id='selection'></div>";
  this.styleSheet = document.createElement("style");
  this.styleSheet.type = "text/css";
  document.getElementsByTagName("head")[0].appendChild(this.styleSheet);
};

CallbackTestCase.prototype.tearDown = function() {
};

var data = "X,a\,b,c\n" +
 "10,-1,1,2\n" +
 "11,0,3,1\n" +
 "12,1,4,2\n" +
 "13,0,2,3\n";


/**
 * This tests that when the function idxToRow_ returns the proper row and the onHiglightCallback
 * is properly called when the  first series is hidden (setVisibility = false)
 *
 */
CallbackTestCase.prototype.testHighlightCallbackIsCalled = function() {
  var h_row;
  var h_pts;

  var highlightCallback  =  function(e, x, pts, row) {
    h_row = row;
    h_pts = pts;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data,
      {
        width: 100,
        height: 100,
        visibility: [false, true, true],
        highlightCallback: highlightCallback
      });

  DygraphOps.dispatchMouseMove(g, 13, 10);

  //check correct row is returned
  assertEquals(3, h_row);
  //check there are only two points (because first series is hidden)
  assertEquals(2, h_pts.length);
};


/**
 * Test that drawPointCallback isn't called when drawPoints is false
 */
CallbackTestCase.prototype.testDrawPointCallback_disabled = function() {
  var called = false;

  var callback = function() {
    called = true;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data, {
      drawPointCallback : callback,
    });

  assertFalse(called);
};

/**
 * Test that drawPointCallback is called when drawPoints is true
 */
CallbackTestCase.prototype.testDrawPointCallback_enabled = function() {
  var called = false;

  var callback = function() {
    called = true;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data, {
      drawPoints : true,
      drawPointCallback : callback
    });

  assertTrue(called);
};

/**
 * Test that drawPointCallback is called when drawPoints is true
 */
CallbackTestCase.prototype.testDrawPointCallback_pointSize = function() {
  var pointSize = 0;
  var count = 0;

  var callback = function(g, seriesName, canvasContext, cx, cy, color, pointSizeParam) {
    pointSize = pointSizeParam;
    count++;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data, {
      drawPoints : true,
      drawPointCallback : callback
    });

  assertEquals(1.5, pointSize);
  assertEquals(12, count); // one call per data point.

  var g = new Dygraph(graph, data, {
      drawPoints : true,
      drawPointCallback : callback,
      pointSize : 8
    });

  assertEquals(8, pointSize);
};

/**
 * This tests that when the function idxToRow_ returns the proper row and the onHiglightCallback
 * is properly called when the first series is hidden (setVisibility = false)
 *
 */
CallbackTestCase.prototype.testDrawHighlightPointCallbackIsCalled = function() {
  var called = false;

  var drawHighlightPointCallback  = function() {
    called = true;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data,
      {
        width: 100,
        height : 100,
        drawHighlightPointCallback : drawHighlightPointCallback
      });

  assertFalse(called);
  DygraphOps.dispatchMouseMove(g, 13, 10);
  assertTrue(called);
};

/**
 * Test the closest-series highlighting methods for normal and stacked modes.
 * Also pass in line widths for plain and highlighted lines for easier visual
 * confirmation that the highlighted line is drawn on top of the others.
 */
var runClosestTest = function(isStacked, widthNormal, widthHighlighted) {
  var h_row;
  var h_pts;
  var h_series;

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, data,
      {
        width: 600,
        height: 400,
        visibility: [false, true, true],
        stackedGraph: isStacked,
        strokeWidth: widthNormal,
        strokeBorderWidth: 2,
        highlightCircleSize: widthNormal * 2,
        highlightSeriesBackgroundAlpha: 0.3,

        highlightSeriesOpts: {
          strokeWidth: widthHighlighted,
          highlightCircleSize: widthHighlighted * 2
        }
      });

  var highlightCallback  =  function(e, x, pts, row, set) {
    h_row = row;
    h_pts = pts;
    h_series = set;
    document.getElementById('selection').innerHTML='row=' + row + ', set=' + set;
  };

  g.updateOptions({highlightCallback: highlightCallback}, true);

  if (isStacked) {
    DygraphOps.dispatchMouseMove(g, 11.45, 1.4);
    assertEquals(1, h_row);
    assertEquals('c', h_series);

    //now move up in the same row
    DygraphOps.dispatchMouseMove(g, 11.45, 1.5);
    assertEquals(1, h_row);
    assertEquals('b', h_series);

    //and a bit to the right
    DygraphOps.dispatchMouseMove(g, 11.55, 1.5);
    assertEquals(2, h_row);
    assertEquals('c', h_series);
  } else {
    DygraphOps.dispatchMouseMove(g, 11, 1.5);
    assertEquals(1, h_row);
    assertEquals('c', h_series);

    //now move up in the same row
    DygraphOps.dispatchMouseMove(g, 11, 2.5);
    assertEquals(1, h_row);
    assertEquals('b', h_series);
  }

  return g;
};

/**
 * Test basic closest-point highlighting.
 */
CallbackTestCase.prototype.testClosestPointCallback = function() {
  runClosestTest(false, 1, 3);
}

/**
 * Test setSelection() with series name
 */
CallbackTestCase.prototype.testSetSelection = function() {
  var g = runClosestTest(false, 1, 3);
  assertEquals(1, g.attr_('strokeWidth', 'c'));
  g.setSelection(false, 'c');
  assertEquals(3, g.attr_('strokeWidth', 'c'));
}

/**
 * Test closest-point highlighting for stacked graph
 */
CallbackTestCase.prototype.testClosestPointStackedCallback = function() {
  runClosestTest(true, 1, 3);
}

/**
 * Closest-point highlighting with legend CSS - border around active series.
 */
CallbackTestCase.prototype.testClosestPointCallbackCss1 = function() {
  var css = "div.dygraph-legend > span { display: block; }\n" +
    "div.dygraph-legend > span.highlight { border: 1px solid grey; }\n";
  this.styleSheet.innerHTML = css;
  runClosestTest(false, 2, 4);
  this.styleSheet.innerHTML = '';
}

/**
 * Closest-point highlighting with legend CSS - show only closest series.
 */
CallbackTestCase.prototype.testClosestPointCallbackCss2 = function() {
  var css = "div.dygraph-legend > span { display: none; }\n" +
    "div.dygraph-legend > span.highlight { display: inline; }\n";
  this.styleSheet.innerHTML = css;
  runClosestTest(false, 10, 15);
  this.styleSheet.innerHTML = '';
  // TODO(klausw): verify that the highlighted line is drawn on top?
}

/**
 * This tests that closest point searches work for data containing NaNs.
 *
 * It's intended to catch a regression where a NaN Y value confuses the
 * closest-point algorithm, treating it as closer as any previous point.
 */
CallbackTestCase.prototype.testNaNData = function() {
  var dataNaN = [
    [9, -1, NaN, NaN],
    [10, -1, 1, 2],
    [11, 0, 3, 1],
    [12, 1, 4, NaN],
    [13, 0, 2, 3],
    [14, -1, 1, 4]];

  var h_row;
  var h_pts;

  var highlightCallback  =  function(e, x, pts, row) {
    h_row = row;
    h_pts = pts;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, dataNaN,
      {
        width: 600,
        height: 400,
        labels: ['x', 'a', 'b', 'c'],
        visibility: [false, true, true],
        highlightCallback: highlightCallback
      });

  DygraphOps.dispatchMouseMove(g, 10.1, 0.9);
  //check correct row is returned
  assertEquals(1, h_row);

  // Explicitly test closest point algorithms
  var dom = g.toDomCoords(10.1, 0.9);
  assertEquals(1, g.findClosestRow(dom[0]));

  var res = g.findClosestPoint(dom[0], dom[1]);
  assertEquals(1, res.row);
  assertEquals('b', res.seriesName);

  res = g.findStackedPoint(dom[0], dom[1]);
  assertEquals(1, res.row);
  assertEquals('c', res.seriesName);
};

/**
 * This tests that stacked point searches work for data containing NaNs.
 */
CallbackTestCase.prototype.testNaNDataStack = function() {
  var dataNaN = [
    [9, -1, NaN, NaN],
    [10, -1, 1, 2],
    [11, 0, 3, 1],
    [12, 1, NaN, 2],
    [13, 0, 2, 3],
    [14, -1, 1, 4],
    [15, 0, 2, NaN],
    [16, 1, 1, 3],
    [17, 1, NaN, 3],
    [18, 0, 2, 5],
    [19, 0, 1, 4]];

  var h_row;
  var h_pts;

  var highlightCallback  =  function(e, x, pts, row) {
    h_row = row;
    h_pts = pts;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, dataNaN,
      {
        width: 600,
        height: 400,
        labels: ['x', 'a', 'b', 'c'],
        visibility: [false, true, true],
        stackedGraph: true,
        highlightCallback: highlightCallback
      });

  DygraphOps.dispatchMouseMove(g, 10.1, 0.9);
  //check correct row is returned
  assertEquals(1, h_row);

  // Explicitly test stacked point algorithm.
  var dom = g.toDomCoords(10.1, 0.9);
  var res = g.findStackedPoint(dom[0], dom[1]);
  assertEquals(1, res.row);
  assertEquals('c', res.seriesName);

  // First gap, no data due to NaN contagion.
  dom = g.toDomCoords(12.1, 0.9);
  res = g.findStackedPoint(dom[0], dom[1]);
  assertEquals(3, res.row);
  assertEquals(undefined, res.seriesName);

  // Second gap, no data due to NaN contagion.
  dom = g.toDomCoords(15.1, 0.9);
  res = g.findStackedPoint(dom[0], dom[1]);
  assertEquals(6, res.row);
  assertEquals(undefined, res.seriesName);

  // Isolated points should work, finding series b in this case.
  dom = g.toDomCoords(15.9, 3.1);
  res = g.findStackedPoint(dom[0], dom[1]);
  assertEquals(7, res.row);
  assertEquals('b', res.seriesName);
};

CallbackTestCase.prototype.testGapHighlight = function() {
var dataGap = [
    [1, null, 3],
    [2, 2, null],
    [3, null, 5],
    [4, 4, null],
    [5, null, 7],
    [6, NaN, null],
    [8, 8, null],
    [10, 10, null]];

  var h_row;
  var h_pts;

  var highlightCallback  =  function(e, x, pts, row) {
    h_row = row;
    h_pts = pts;
  };

  var graph = document.getElementById("graph");
  var g = new Dygraph(graph, dataGap, {
     width: 400,
     height: 300,
     //stackedGraph: true,
     connectSeparatedPoints: true,
     drawPoints: true,
     labels: ['x', 'A', 'B'],
     highlightCallback : highlightCallback
  });

  DygraphOps.dispatchMouseMove(g, 1.1, 10);
  //point from series B
  assertEquals(0, h_row);
  assertEquals(1, h_pts.length);
  assertEquals(3, h_pts[0].yval);
  assertEquals('B', h_pts[0].name);

  DygraphOps.dispatchMouseMove(g, 6.1, 10);
  // A is NaN at x=6
  assertEquals(1, h_pts.length);
  assert(isNaN(h_pts[0].yval));
  assertEquals('A', h_pts[0].name);

  DygraphOps.dispatchMouseMove(g, 8.1, 10);
  //point from series A
  assertEquals(6, h_row);
  assertEquals(1, h_pts.length);
  assertEquals(8, h_pts[0].yval);
  assertEquals('A', h_pts[0].name);
};
Commit	Line	Data
	1	/**
	2	* @fileoverview Test cases for the callbacks.
	3	*
	4	* @author uemit.seren@gmail.com (Ümit Seren)
	5	*/
	6
	7	var CallbackTestCase = TestCase("callback");
	8
	9	CallbackTestCase.prototype.setUp = function() {
	10	document.body.innerHTML = "<div id='graph'></div><div id='selection'></div>";
	11	this.styleSheet = document.createElement("style");
	12	this.styleSheet.type = "text/css";
	13	document.getElementsByTagName("head")[0].appendChild(this.styleSheet);
	14	};
	15
	16	CallbackTestCase.prototype.tearDown = function() {
	17	};
	18
	19	var data = "X,a\,b,c\n" +
	20	"10,-1,1,2\n" +
	21	"11,0,3,1\n" +
	22	"12,1,4,2\n" +
	23	"13,0,2,3\n";
	24
	25
	26	/**
	27	* This tests that when the function idxToRow_ returns the proper row and the onHiglightCallback
	28	* is properly called when the first series is hidden (setVisibility = false)
	29	*
	30	*/
	31	CallbackTestCase.prototype.testHighlightCallbackIsCalled = function() {
	32	var h_row;
	33	var h_pts;
	34
	35	var highlightCallback = function(e, x, pts, row) {
	36	h_row = row;
	37	h_pts = pts;
	38	};
	39
	40	var graph = document.getElementById("graph");
	41	var g = new Dygraph(graph, data,
	42	{
	43	width: 100,
	44	height: 100,
	45	visibility: [false, true, true],
	46	highlightCallback: highlightCallback
	47	});
	48
	49	DygraphOps.dispatchMouseMove(g, 13, 10);
	50
	51	//check correct row is returned
	52	assertEquals(3, h_row);
	53	//check there are only two points (because first series is hidden)
	54	assertEquals(2, h_pts.length);
	55	};
	56
	57
	58	/**
	59	* Test that drawPointCallback isn't called when drawPoints is false
	60	*/
	61	CallbackTestCase.prototype.testDrawPointCallback_disabled = function() {
	62	var called = false;
	63
	64	var callback = function() {
	65	called = true;
	66	};
	67
	68	var graph = document.getElementById("graph");
	69	var g = new Dygraph(graph, data, {
	70	drawPointCallback : callback,
	71	});
	72
	73	assertFalse(called);
	74	};
	75
	76	/**
	77	* Test that drawPointCallback is called when drawPoints is true
	78	*/
	79	CallbackTestCase.prototype.testDrawPointCallback_enabled = function() {
	80	var called = false;
	81
	82	var callback = function() {
	83	called = true;
	84	};
	85
	86	var graph = document.getElementById("graph");
	87	var g = new Dygraph(graph, data, {
	88	drawPoints : true,
	89	drawPointCallback : callback
	90	});
	91
	92	assertTrue(called);
	93	};
	94
	95	/**
	96	* Test that drawPointCallback is called when drawPoints is true
	97	*/
	98	CallbackTestCase.prototype.testDrawPointCallback_pointSize = function() {
	99	var pointSize = 0;
	100	var count = 0;
	101
	102	var callback = function(g, seriesName, canvasContext, cx, cy, color, pointSizeParam) {
	103	pointSize = pointSizeParam;
	104	count++;
	105	};
	106
	107	var graph = document.getElementById("graph");
	108	var g = new Dygraph(graph, data, {
	109	drawPoints : true,
	110	drawPointCallback : callback
	111	});
	112
	113	assertEquals(1.5, pointSize);
	114	assertEquals(12, count); // one call per data point.
	115
	116	var g = new Dygraph(graph, data, {
	117	drawPoints : true,
	118	drawPointCallback : callback,
	119	pointSize : 8
	120	});
	121
	122	assertEquals(8, pointSize);
	123	};
	124
	125	/**
	126	* This tests that when the function idxToRow_ returns the proper row and the onHiglightCallback
	127	* is properly called when the first series is hidden (setVisibility = false)
	128	*
	129	*/
	130	CallbackTestCase.prototype.testDrawHighlightPointCallbackIsCalled = function() {
	131	var called = false;
	132
	133	var drawHighlightPointCallback = function() {
	134	called = true;
	135	};
	136
	137	var graph = document.getElementById("graph");
	138	var g = new Dygraph(graph, data,
	139	{
	140	width: 100,
	141	height : 100,
	142	drawHighlightPointCallback : drawHighlightPointCallback
	143	});
	144
	145	assertFalse(called);
	146	DygraphOps.dispatchMouseMove(g, 13, 10);
	147	assertTrue(called);
	148	};
	149
	150	/**
	151	* Test the closest-series highlighting methods for normal and stacked modes.
	152	* Also pass in line widths for plain and highlighted lines for easier visual
	153	* confirmation that the highlighted line is drawn on top of the others.
	154	*/
	155	var runClosestTest = function(isStacked, widthNormal, widthHighlighted) {
	156	var h_row;
	157	var h_pts;
	158	var h_series;
	159
	160	var graph = document.getElementById("graph");
	161	var g = new Dygraph(graph, data,
	162	{
	163	width: 600,
	164	height: 400,
	165	visibility: [false, true, true],
	166	stackedGraph: isStacked,
	167	strokeWidth: widthNormal,
	168	strokeBorderWidth: 2,
	169	highlightCircleSize: widthNormal * 2,
	170	highlightSeriesBackgroundAlpha: 0.3,
	171
	172	highlightSeriesOpts: {
	173	strokeWidth: widthHighlighted,
	174	highlightCircleSize: widthHighlighted * 2
	175	}
	176	});
	177
	178	var highlightCallback = function(e, x, pts, row, set) {
	179	h_row = row;
	180	h_pts = pts;
	181	h_series = set;
	182	document.getElementById('selection').innerHTML='row=' + row + ', set=' + set;
	183	};
	184
	185	g.updateOptions({highlightCallback: highlightCallback}, true);
	186
	187	if (isStacked) {
	188	DygraphOps.dispatchMouseMove(g, 11.45, 1.4);
	189	assertEquals(1, h_row);
	190	assertEquals('c', h_series);
	191
	192	//now move up in the same row
	193	DygraphOps.dispatchMouseMove(g, 11.45, 1.5);
	194	assertEquals(1, h_row);
	195	assertEquals('b', h_series);
	196
	197	//and a bit to the right
	198	DygraphOps.dispatchMouseMove(g, 11.55, 1.5);
	199	assertEquals(2, h_row);
	200	assertEquals('c', h_series);
	201	} else {
	202	DygraphOps.dispatchMouseMove(g, 11, 1.5);
	203	assertEquals(1, h_row);
	204	assertEquals('c', h_series);
	205
	206	//now move up in the same row
	207	DygraphOps.dispatchMouseMove(g, 11, 2.5);
	208	assertEquals(1, h_row);
	209	assertEquals('b', h_series);
	210	}
	211
	212	return g;
	213	};
	214
	215	/**
	216	* Test basic closest-point highlighting.
	217	*/
	218	CallbackTestCase.prototype.testClosestPointCallback = function() {
	219	runClosestTest(false, 1, 3);
	220	}
	221
	222	/**
	223	* Test setSelection() with series name
	224	*/
	225	CallbackTestCase.prototype.testSetSelection = function() {
	226	var g = runClosestTest(false, 1, 3);
	227	assertEquals(1, g.attr_('strokeWidth', 'c'));
	228	g.setSelection(false, 'c');
	229	assertEquals(3, g.attr_('strokeWidth', 'c'));
	230	}
	231
	232	/**
	233	* Test closest-point highlighting for stacked graph
	234	*/
	235	CallbackTestCase.prototype.testClosestPointStackedCallback = function() {
	236	runClosestTest(true, 1, 3);
	237	}
	238
	239	/**
	240	* Closest-point highlighting with legend CSS - border around active series.
	241	*/
	242	CallbackTestCase.prototype.testClosestPointCallbackCss1 = function() {
	243	var css = "div.dygraph-legend > span { display: block; }\n" +
	244	"div.dygraph-legend > span.highlight { border: 1px solid grey; }\n";
	245	this.styleSheet.innerHTML = css;
	246	runClosestTest(false, 2, 4);
	247	this.styleSheet.innerHTML = '';
	248	}
	249
	250	/**
	251	* Closest-point highlighting with legend CSS - show only closest series.
	252	*/
	253	CallbackTestCase.prototype.testClosestPointCallbackCss2 = function() {
	254	var css = "div.dygraph-legend > span { display: none; }\n" +
	255	"div.dygraph-legend > span.highlight { display: inline; }\n";
	256	this.styleSheet.innerHTML = css;
	257	runClosestTest(false, 10, 15);
	258	this.styleSheet.innerHTML = '';
	259	// TODO(klausw): verify that the highlighted line is drawn on top?
	260	}
	261
	262	/**
	263	* This tests that closest point searches work for data containing NaNs.
	264	*
	265	* It's intended to catch a regression where a NaN Y value confuses the
	266	* closest-point algorithm, treating it as closer as any previous point.
	267	*/
	268	CallbackTestCase.prototype.testNaNData = function() {
	269	var dataNaN = [
	270	[9, -1, NaN, NaN],
	271	[10, -1, 1, 2],
	272	[11, 0, 3, 1],
	273	[12, 1, 4, NaN],
	274	[13, 0, 2, 3],
	275	[14, -1, 1, 4]];
	276
	277	var h_row;
	278	var h_pts;
	279
	280	var highlightCallback = function(e, x, pts, row) {
	281	h_row = row;
	282	h_pts = pts;
	283	};
	284
	285	var graph = document.getElementById("graph");
	286	var g = new Dygraph(graph, dataNaN,
	287	{
	288	width: 600,
	289	height: 400,
	290	labels: ['x', 'a', 'b', 'c'],
	291	visibility: [false, true, true],
	292	highlightCallback: highlightCallback
	293	});
	294
	295	DygraphOps.dispatchMouseMove(g, 10.1, 0.9);
	296	//check correct row is returned
	297	assertEquals(1, h_row);
	298
	299	// Explicitly test closest point algorithms
	300	var dom = g.toDomCoords(10.1, 0.9);
	301	assertEquals(1, g.findClosestRow(dom[0]));
	302
	303	var res = g.findClosestPoint(dom[0], dom[1]);
	304	assertEquals(1, res.row);
	305	assertEquals('b', res.seriesName);
	306
	307	res = g.findStackedPoint(dom[0], dom[1]);
	308	assertEquals(1, res.row);
	309	assertEquals('c', res.seriesName);
	310	};
	311
	312	/**
	313	* This tests that stacked point searches work for data containing NaNs.
	314	*/
	315	CallbackTestCase.prototype.testNaNDataStack = function() {
	316	var dataNaN = [
	317	[9, -1, NaN, NaN],
	318	[10, -1, 1, 2],
	319	[11, 0, 3, 1],
	320	[12, 1, NaN, 2],
	321	[13, 0, 2, 3],
	322	[14, -1, 1, 4],
	323	[15, 0, 2, NaN],
	324	[16, 1, 1, 3],
	325	[17, 1, NaN, 3],
	326	[18, 0, 2, 5],
	327	[19, 0, 1, 4]];
	328
	329	var h_row;
	330	var h_pts;
	331
	332	var highlightCallback = function(e, x, pts, row) {
	333	h_row = row;
	334	h_pts = pts;
	335	};
	336
	337	var graph = document.getElementById("graph");
	338	var g = new Dygraph(graph, dataNaN,
	339	{
	340	width: 600,
	341	height: 400,
	342	labels: ['x', 'a', 'b', 'c'],
	343	visibility: [false, true, true],
	344	stackedGraph: true,
	345	highlightCallback: highlightCallback
	346	});
	347
	348	DygraphOps.dispatchMouseMove(g, 10.1, 0.9);
	349	//check correct row is returned
	350	assertEquals(1, h_row);
	351
	352	// Explicitly test stacked point algorithm.
	353	var dom = g.toDomCoords(10.1, 0.9);
	354	var res = g.findStackedPoint(dom[0], dom[1]);
	355	assertEquals(1, res.row);
	356	assertEquals('c', res.seriesName);
	357
	358	// First gap, no data due to NaN contagion.
	359	dom = g.toDomCoords(12.1, 0.9);
	360	res = g.findStackedPoint(dom[0], dom[1]);
	361	assertEquals(3, res.row);
	362	assertEquals(undefined, res.seriesName);
	363
	364	// Second gap, no data due to NaN contagion.
	365	dom = g.toDomCoords(15.1, 0.9);
	366	res = g.findStackedPoint(dom[0], dom[1]);
	367	assertEquals(6, res.row);
	368	assertEquals(undefined, res.seriesName);
	369
	370	// Isolated points should work, finding series b in this case.
	371	dom = g.toDomCoords(15.9, 3.1);
	372	res = g.findStackedPoint(dom[0], dom[1]);
	373	assertEquals(7, res.row);
	374	assertEquals('b', res.seriesName);
	375	};
	376
	377	CallbackTestCase.prototype.testGapHighlight = function() {
	378	var dataGap = [
	379	[1, null, 3],
	380	[2, 2, null],
	381	[3, null, 5],
	382	[4, 4, null],
	383	[5, null, 7],
	384	[6, NaN, null],
	385	[8, 8, null],
	386	[10, 10, null]];
	387
	388	var h_row;
	389	var h_pts;
	390
	391	var highlightCallback = function(e, x, pts, row) {
	392	h_row = row;
	393	h_pts = pts;
	394	};
	395
	396	var graph = document.getElementById("graph");
	397	var g = new Dygraph(graph, dataGap, {
	398	width: 400,
	399	height: 300,
	400	//stackedGraph: true,
	401	connectSeparatedPoints: true,
	402	drawPoints: true,
	403	labels: ['x', 'A', 'B'],
	404	highlightCallback : highlightCallback
	405	});
	406
	407	DygraphOps.dispatchMouseMove(g, 1.1, 10);
	408	//point from series B
	409	assertEquals(0, h_row);
	410	assertEquals(1, h_pts.length);
	411	assertEquals(3, h_pts[0].yval);
	412	assertEquals('B', h_pts[0].name);
	413
	414	DygraphOps.dispatchMouseMove(g, 6.1, 10);
	415	// A is NaN at x=6
	416	assertEquals(1, h_pts.length);
	417	assert(isNaN(h_pts[0].yval));
	418	assertEquals('A', h_pts[0].name);
	419
	420	DygraphOps.dispatchMouseMove(g, 8.1, 10);
	421	//point from series A
	422	assertEquals(6, h_row);
	423	assertEquals(1, h_pts.length);
	424	assertEquals(8, h_pts[0].yval);
	425	assertEquals('A', h_pts[0].name);
	426	};