auto_tests for XHRs (#786)
[dygraphs.git] / auto_tests / tests / missing_points.js
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1// Copyright (c) 2012 Google, Inc.
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20
21/**
22 * @fileoverview Test cases for drawing lines with missing points.
23 *
24 * @author konigsberg@google.com (Robert Konigsberg)
25 */
26
27import Dygraph from '../../src/dygraph';
28import * as utils from '../../src/dygraph-utils';
29import Proxy from './Proxy';
30import CanvasAssertions from './CanvasAssertions';
31import Util from './Util';
32
33var ZERO_TO_FIFTY = [[ 10, 0 ] , [ 20, 50 ]];
34
35describe("missing-points", function() {
36
37cleanupAfterEach();
38useProxyCanvas(utils, Proxy);
39
40it('testSeparatedPointsDontDraw', function() {
41 var graph = document.getElementById("graph");
42 var g = new Dygraph(
43 graph,
44 [[1, 10, 11],
45 [2, 11, null],
46 [3, 12, 13]],
47 {
48 colors: ['red', 'blue'],
49 labels: ['X', 'Y1', 'Y2']
50 });
51 var htx = g.hidden_ctx_;
52 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
53 assert.equal(0, CanvasAssertions.numLinesDrawn(htx, '#0000ff'));
54});
55
56it('testSeparatedPointsDontDraw_expanded', function() {
57 var graph = document.getElementById("graph");
58 var g = new Dygraph(
59 graph,
60 [[0, 10],
61 [1, 11],
62 [2, null],
63 [3, 13],
64 [4, 14]],
65 { colors: ['blue'], labels: ['X', 'Y']});
66 var htx = g.hidden_ctx_;
67
68 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#0000ff'));
69 CanvasAssertions.assertLineDrawn(htx, [56, 275], [161, 212],
70 { strokeStyle: '#0000ff', });
71 CanvasAssertions.assertLineDrawn(htx, [370, 87], [475, 25],
72 { strokeStyle: '#0000ff', });
73});
74
75it('testSeparatedPointsDontDraw_expanded_connected', function() {
76 var graph = document.getElementById("graph");
77 var g = new Dygraph(
78 graph,
79 [[0, 10],
80 [1, 11],
81 [2, null],
82 [3, 13],
83 [4, 14]],
84 {
85 colors: ['blue'],
86 connectSeparatedPoints: true,
87 labels: ['X', 'Y']
88 });
89 var htx = g.hidden_ctx_;
90 var num_lines = 0;
91
92 assert.equal(3, CanvasAssertions.numLinesDrawn(htx, '#0000ff'));
93 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
94 [[56, 275], [161, 212], [370, 87], [475, 25]],
95 { strokeStyle: '#0000ff' });
96});
97
98/**
99 * At the time of writing this test, the blue series is only points, and not lines.
100 */
101it('testConnectSeparatedPoints', function() {
102 var g = new Dygraph(
103 document.getElementById("graph"),
104 [
105 [1, null, 3],
106 [2, 2, null],
107 [3, null, 7],
108 [4, 5, null],
109 [5, null, 5],
110 [6, 3, null]
111 ],
112 {
113 connectSeparatedPoints: true,
114 drawPoints: true,
115 colors: ['red', 'blue'],
116 labels: ['X', 'Y1', 'Y2']
117 }
118 );
119
120 var htx = g.hidden_ctx_;
121
122 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#0000ff'));
123 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
124 [[56, 225], [223, 25], [391, 125]],
125 { strokeStyle: '#0000ff' });
126
127 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
128 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
129 [[140, 275], [307, 125], [475, 225]],
130 { strokeStyle: '#ff0000' });
131});
132
133/**
134 * At the time of writing this test, the blue series is only points, and not lines.
135 */
136it('testConnectSeparatedPointsWithNan', function() {
137 var g = new Dygraph(
138 document.getElementById("graph"),
139 "x,A,B \n" +
140 "1,,3 \n" +
141 "2,2, \n" +
142 "3,,5 \n" +
143 "4,4, \n" +
144 "5,,7 \n" +
145 "6,NaN, \n" +
146 "8,8, \n" +
147 "10,10, \n",
148 {
149 connectSeparatedPoints: true,
150 drawPoints: true,
151 colors: ['red', 'blue']
152 }
153 );
154
155 var htx = g.hidden_ctx_;
156
157 // Red has two disconnected line segments
158 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
159 CanvasAssertions.assertLineDrawn(htx, [102, 275], [195, 212], { strokeStyle: '#ff0000' });
160 CanvasAssertions.assertLineDrawn(htx, [381, 87], [475, 25], { strokeStyle: '#ff0000' });
161
162 // Blue's lines are consecutive, however.
163 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#0000ff'));
164 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
165 [[56, 244], [149, 181], [242, 118]],
166 { strokeStyle: '#0000ff' });
167});
168
169/* These lines contain awesome powa!
170 var lines = CanvasAssertions.getLinesDrawn(htx, {strokeStyle: "#0000ff"});
171 for (var idx = 0; idx < lines.length; idx++) {
172 var line = lines[idx];
173 console.log(line[0].args, line[1].args, line[0].properties.strokeStyle);
174 }
175*/
176
177it('testErrorBarsWithMissingPoints', function() {
178 var data = [
179 [1, [2,1]],
180 [2, [3,1]],
181 [3, null],
182 [4, [5,1]],
183 [5, [4,1]],
184 [6, [null,null]],
185 ];
186 var g = new Dygraph(
187 document.getElementById("graph"),
188 data,
189 {
190 errorBars: true,
191 colors: ['red'],
192 labels: ['X', 'Y']
193 }
194 );
195
196 var htx = g.hidden_ctx_;
197
198 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
199
200 var p0 = g.toDomCoords(data[0][0], data[0][1][0]);
201 var p1 = g.toDomCoords(data[1][0], data[1][1][0]);
202 var p2 = g.toDomCoords(data[3][0], data[3][1][0]);
203 var p3 = g.toDomCoords(data[4][0], data[4][1][0]);
204 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
205 [p0, p1], { strokeStyle: '#ff0000' });
206 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
207 [p2, p3], { strokeStyle: '#ff0000' });
208});
209
210it('testErrorBarsWithMissingPointsConnected', function() {
211 var data = [
212 [1, [null,1]],
213 [2, [2,1]],
214 [3, null],
215 [4, [5,1]],
216 [5, [null,null]],
217 [6, [3,1]]
218 ];
219 var g = new Dygraph(
220 document.getElementById("graph"),
221 data,
222 {
223 connectSeparatedPoints: true,
224 drawPoints: true,
225 errorBars: true,
226 colors: ['red'],
227 labels: ['X', 'Y']
228 }
229 );
230
231 var htx = g.hidden_ctx_;
232
233 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
234
235 var p1 = g.toDomCoords(data[1][0], data[1][1][0]);
236 var p2 = g.toDomCoords(data[3][0], data[3][1][0]);
237 var p3 = g.toDomCoords(data[5][0], data[5][1][0]);
238 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
239 [p1, p2, p3],
240 { strokeStyle: '#ff0000' });
241});
242it('testCustomBarsWithMissingPoints', function() {
243 var data = [
244 [1, [1,2,3]],
245 [2, [2,3,4]],
246 [3, null],
247 [4, [4,5,6]],
248 [5, [3,4,5]],
249 [6, [null,null,null]],
250 [7, [2,3,4]],
251 [8, [1,2,3]],
252 [9, NaN],
253 [10, [2,3,4]],
254 [11, [3,4,5]],
255 [12, [NaN,NaN,NaN]]
256 ];
257 var g = new Dygraph(
258 document.getElementById("graph"),
259 data,
260 {
261 customBars: true,
262 colors: ['red'],
263 labels: ['X', 'Y']
264 }
265 );
266
267 var htx = g.hidden_ctx_;
268
269 assert.equal(4, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
270
271 var p0 = g.toDomCoords(data[0][0], data[0][1][1]);
272 var p1 = g.toDomCoords(data[1][0], data[1][1][1]);
273 CanvasAssertions.assertLineDrawn(htx, p0, p1, { strokeStyle: '#ff0000' });
274
275 p0 = g.toDomCoords(data[3][0], data[3][1][1]);
276 p1 = g.toDomCoords(data[4][0], data[4][1][1]);
277 CanvasAssertions.assertLineDrawn(htx, p0, p1, { strokeStyle: '#ff0000' });
278
279 p0 = g.toDomCoords(data[6][0], data[6][1][1]);
280 p1 = g.toDomCoords(data[7][0], data[7][1][1]);
281 CanvasAssertions.assertLineDrawn(htx, p0, p1, { strokeStyle: '#ff0000' });;
282
283 p0 = g.toDomCoords(data[9][0], data[9][1][1]);
284 p1 = g.toDomCoords(data[10][0], data[10][1][1]);
285 CanvasAssertions.assertLineDrawn(htx, p0, p1, { strokeStyle: '#ff0000' });
286});
287
288it('testCustomBarsWithMissingPointsConnected', function() {
289 var data = [
290 [1, [1,null,1]],
291 [2, [1,2,3]],
292 [3, null],
293 [4, [4,5,6]],
294 [5, [null,null,null]],
295 [6, [2,3,4]]
296 ];
297 var g = new Dygraph(
298 document.getElementById("graph"),
299 data,
300 {
301 connectSeparatedPoints: true,
302 drawPoints: true,
303 customBars: true,
304 colors: ['red'],
305 labels: ['X', 'Y']
306 }
307 );
308
309 var htx = g.hidden_ctx_;
310
311 assert.equal(2, CanvasAssertions.numLinesDrawn(htx, '#ff0000'));
312
313 var p1 = g.toDomCoords(data[1][0], data[1][1][1]);
314 var p2 = g.toDomCoords(data[3][0], data[3][1][1]);
315 var p3 = g.toDomCoords(data[5][0], data[5][1][1]);
316 CanvasAssertions.assertConsecutiveLinesDrawn(htx,
317 [p1, p2, p3],
318 { strokeStyle: '#ff0000' });
319});
320
321it('testLeftBoundaryWithMisingPoints', function() {
322 var data = [
323 [1, null, 3],
324 [2, 1, null],
325 [3, 0, 5],
326 [4, 2, 1],
327 [5, 4, null],
328 [6, 3, 2]
329 ];
330 var g = new Dygraph(
331 document.getElementById("graph"),
332 data,
333 {
334 connectSeparatedPoints: true,
335 drawPoints: true,
336 colors: ['red','blue'],
337 labels: ['X', 'Y1', 'Y2']
338 }
339 );
340 g.updateOptions({ dateWindow : [ 2.5, 4.5 ] });
341 assert.equal(1, g.getLeftBoundary_(0));
342 assert.equal(0, g.getLeftBoundary_(1));
343
344 var domX = g.toDomXCoord(1.9);
345 var closestRow = g.findClosestRow(domX);
346 assert.equal(1, closestRow);
347
348 g.setSelection(closestRow);
349 assert.equal(1, g.selPoints_.length);
350 assert.equal(1, g.selPoints_[0].yval);
351
352 g.setSelection(3);
353 assert.equal(2, g.selPoints_.length);
354 assert.equal(g.selPoints_[0].xval, g.selPoints_[1].xval);
355 assert.equal(2, g.selPoints_[0].yval);
356 assert.equal(1, g.selPoints_[1].yval);
357});
358
359// Regression test for issue #411
360it('testEmptySeries', function() {
361 var graphDiv = document.getElementById("graph");
362 var g = new Dygraph(
363 graphDiv,
364 "Time,Empty Series,Series 1,Series 2\n" +
365 "1381134460,,0,100\n" +
366 "1381134461,,1,99\n" +
367 "1381134462,,2,98\n" +
368 "1381134463,,3,97\n" +
369 "1381134464,,4,96\n" +
370 "1381134465,,5,95\n" +
371 "1381134466,,6,94\n" +
372 "1381134467,,7,93\n" +
373 "1381134468,,8,92\n" +
374 "1381134469,,9,91\n", {
375 visibility: [true, false, true],
376 dateWindow: [1381134465, 1381134467]
377 });
378
379 g.setSelection(6);
380 assert.equal("1381134466: Series 2: 94", Util.getLegend(graphDiv));
381});
382
383// Regression test for issue #485
384it('testMissingFill', function() {
385 var graphDiv = document.getElementById("graph");
386 var N = null;
387 var g = new Dygraph(
388 graphDiv,
389 [
390 [1, [8, 10, 12]],
391 [2, [3, 5,7] ],
392 [3, N, ],
393 [4, [9, N, 2] ], // Note: nulls in arrays are not technically valid.
394 [5, [N, 2, N] ], // see dygraphs.com/data.html.
395 [6, [2, 3, 6] ]
396 ],
397 {
398 customBars: true,
399 connectSeparatedPoints: false,
400 labels: [ "X", "Series1"]
401 }
402 );
403
404 // Make sure there are no 'NaN' line segments.
405 var htx = g.hidden_ctx_;
406 for (var i = 0; i < htx.calls__.length; i++) {
407 var call = htx.calls__[i];
408 if ((call.name == 'moveTo' || call.name == 'lineTo') && call.args) {
409 for (var j = 0; j < call.args.length; j++) {
410 assert.isFalse(isNaN(call.args[j]));
411 }
412 }
413 }
414});
415
416});