This sets up API to release OutputSurface from LTHClient.
[chromium-blink-merge.git] / cc / trees / property_tree_unittest.cc
blobe72a9ad83a86c7a11be6836addea234bf077b9b3
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "cc/trees/property_tree.h"
7 #include "cc/test/geometry_test_utils.h"
8 #include "cc/trees/draw_property_utils.h"
9 #include "testing/gtest/include/gtest/gtest.h"
11 namespace cc {
13 TEST(PropertyTreeTest, ComputeTransformRoot) {
14 TransformTree tree;
15 TransformNode& root = *tree.Node(0);
16 root.data.local.Translate(2, 2);
17 root.data.target_id = 0;
18 tree.UpdateTransforms(0);
20 gfx::Transform expected;
21 gfx::Transform transform;
22 bool success = tree.ComputeTransform(0, 0, &transform);
23 EXPECT_TRUE(success);
24 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
26 transform.MakeIdentity();
27 expected.Translate(2, 2);
28 success = tree.ComputeTransform(0, -1, &transform);
29 EXPECT_TRUE(success);
30 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
32 transform.MakeIdentity();
33 expected.MakeIdentity();
34 expected.Translate(-2, -2);
35 success = tree.ComputeTransform(-1, 0, &transform);
36 EXPECT_TRUE(success);
37 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
40 TEST(PropertyTreeTest, ComputeTransformChild) {
41 TransformTree tree;
42 TransformNode& root = *tree.Node(0);
43 root.data.local.Translate(2, 2);
44 root.data.target_id = 0;
45 tree.UpdateTransforms(0);
47 TransformNode child;
48 child.data.local.Translate(3, 3);
49 child.data.target_id = 0;
50 child.data.source_node_id = 0;
52 tree.Insert(child, 0);
53 tree.UpdateTransforms(1);
55 gfx::Transform expected;
56 gfx::Transform transform;
58 expected.Translate(3, 3);
59 bool success = tree.ComputeTransform(1, 0, &transform);
60 EXPECT_TRUE(success);
61 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
63 transform.MakeIdentity();
64 expected.MakeIdentity();
65 expected.Translate(-3, -3);
66 success = tree.ComputeTransform(0, 1, &transform);
67 EXPECT_TRUE(success);
68 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
70 transform.MakeIdentity();
71 expected.MakeIdentity();
72 expected.Translate(5, 5);
73 success = tree.ComputeTransform(1, -1, &transform);
74 EXPECT_TRUE(success);
75 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
77 transform.MakeIdentity();
78 expected.MakeIdentity();
79 expected.Translate(-5, -5);
80 success = tree.ComputeTransform(-1, 1, &transform);
81 EXPECT_TRUE(success);
82 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
85 TEST(PropertyTreeTest, ComputeTransformSibling) {
86 TransformTree tree;
87 TransformNode& root = *tree.Node(0);
88 root.data.local.Translate(2, 2);
89 root.data.target_id = 0;
90 tree.UpdateTransforms(0);
92 TransformNode child;
93 child.data.local.Translate(3, 3);
94 child.data.source_node_id = 0;
95 child.data.target_id = 0;
97 TransformNode sibling;
98 sibling.data.local.Translate(7, 7);
99 sibling.data.source_node_id = 0;
100 sibling.data.target_id = 0;
102 tree.Insert(child, 0);
103 tree.Insert(sibling, 0);
105 tree.UpdateTransforms(1);
106 tree.UpdateTransforms(2);
108 gfx::Transform expected;
109 gfx::Transform transform;
111 expected.Translate(4, 4);
112 bool success = tree.ComputeTransform(2, 1, &transform);
113 EXPECT_TRUE(success);
114 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
116 transform.MakeIdentity();
117 expected.MakeIdentity();
118 expected.Translate(-4, -4);
119 success = tree.ComputeTransform(1, 2, &transform);
120 EXPECT_TRUE(success);
121 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
124 TEST(PropertyTreeTest, ComputeTransformSiblingSingularAncestor) {
125 // In this test, we have the following tree:
126 // root
127 // + singular
128 // + child
129 // + sibling
130 // Since the lowest common ancestor of |child| and |sibling| has a singular
131 // transform, we cannot use screen space transforms to compute change of basis
132 // transforms between these nodes.
133 TransformTree tree;
134 TransformNode& root = *tree.Node(0);
135 root.data.local.Translate(2, 2);
136 root.data.target_id = 0;
137 tree.UpdateTransforms(0);
139 TransformNode singular;
140 singular.data.local.matrix().set(2, 2, 0.0);
141 singular.data.source_node_id = 0;
142 singular.data.target_id = 0;
144 TransformNode child;
145 child.data.local.Translate(3, 3);
146 child.data.source_node_id = 1;
147 child.data.target_id = 0;
149 TransformNode sibling;
150 sibling.data.local.Translate(7, 7);
151 sibling.data.source_node_id = 1;
152 sibling.data.target_id = 0;
154 tree.Insert(singular, 0);
155 tree.Insert(child, 1);
156 tree.Insert(sibling, 1);
158 tree.UpdateTransforms(1);
159 tree.UpdateTransforms(2);
160 tree.UpdateTransforms(3);
162 gfx::Transform expected;
163 gfx::Transform transform;
165 expected.Translate(4, 4);
166 bool success = tree.ComputeTransform(3, 2, &transform);
167 EXPECT_TRUE(success);
168 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
170 transform.MakeIdentity();
171 expected.MakeIdentity();
172 expected.Translate(-4, -4);
173 success = tree.ComputeTransform(2, 3, &transform);
174 EXPECT_TRUE(success);
175 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
178 TEST(PropertyTreeTest, TransformsWithFlattening) {
179 TransformTree tree;
181 int grand_parent = tree.Insert(TransformNode(), 0);
182 tree.Node(grand_parent)->data.content_target_id = grand_parent;
183 tree.Node(grand_parent)->data.target_id = grand_parent;
184 tree.Node(grand_parent)->data.source_node_id = 0;
186 gfx::Transform rotation_about_x;
187 rotation_about_x.RotateAboutXAxis(15);
189 int parent = tree.Insert(TransformNode(), grand_parent);
190 tree.Node(parent)->data.needs_sublayer_scale = true;
191 tree.Node(parent)->data.target_id = grand_parent;
192 tree.Node(parent)->data.content_target_id = parent;
193 tree.Node(parent)->data.source_node_id = grand_parent;
194 tree.Node(parent)->data.local = rotation_about_x;
196 int child = tree.Insert(TransformNode(), parent);
197 tree.Node(child)->data.target_id = parent;
198 tree.Node(child)->data.content_target_id = parent;
199 tree.Node(child)->data.source_node_id = parent;
200 tree.Node(child)->data.flattens_inherited_transform = true;
201 tree.Node(child)->data.local = rotation_about_x;
203 int grand_child = tree.Insert(TransformNode(), child);
204 tree.Node(grand_child)->data.target_id = parent;
205 tree.Node(grand_child)->data.content_target_id = parent;
206 tree.Node(grand_child)->data.source_node_id = child;
207 tree.Node(grand_child)->data.flattens_inherited_transform = true;
208 tree.Node(grand_child)->data.local = rotation_about_x;
210 tree.set_needs_update(true);
211 ComputeTransforms(&tree);
213 gfx::Transform flattened_rotation_about_x = rotation_about_x;
214 flattened_rotation_about_x.FlattenTo2d();
216 EXPECT_TRANSFORMATION_MATRIX_EQ(rotation_about_x,
217 tree.Node(child)->data.to_target);
219 EXPECT_TRANSFORMATION_MATRIX_EQ(flattened_rotation_about_x * rotation_about_x,
220 tree.Node(child)->data.to_screen);
222 EXPECT_TRANSFORMATION_MATRIX_EQ(flattened_rotation_about_x * rotation_about_x,
223 tree.Node(grand_child)->data.to_target);
225 EXPECT_TRANSFORMATION_MATRIX_EQ(flattened_rotation_about_x *
226 flattened_rotation_about_x *
227 rotation_about_x,
228 tree.Node(grand_child)->data.to_screen);
230 gfx::Transform grand_child_to_child;
231 bool success =
232 tree.ComputeTransform(grand_child, child, &grand_child_to_child);
233 EXPECT_TRUE(success);
234 EXPECT_TRANSFORMATION_MATRIX_EQ(rotation_about_x, grand_child_to_child);
236 // Remove flattening at grand_child, and recompute transforms.
237 tree.Node(grand_child)->data.flattens_inherited_transform = false;
238 tree.set_needs_update(true);
239 ComputeTransforms(&tree);
241 EXPECT_TRANSFORMATION_MATRIX_EQ(rotation_about_x * rotation_about_x,
242 tree.Node(grand_child)->data.to_target);
244 EXPECT_TRANSFORMATION_MATRIX_EQ(
245 flattened_rotation_about_x * rotation_about_x * rotation_about_x,
246 tree.Node(grand_child)->data.to_screen);
248 success = tree.ComputeTransform(grand_child, child, &grand_child_to_child);
249 EXPECT_TRUE(success);
250 EXPECT_TRANSFORMATION_MATRIX_EQ(rotation_about_x, grand_child_to_child);
253 TEST(PropertyTreeTest, MultiplicationOrder) {
254 TransformTree tree;
255 TransformNode& root = *tree.Node(0);
256 root.data.local.Translate(2, 2);
257 root.data.target_id = 0;
258 tree.UpdateTransforms(0);
260 TransformNode child;
261 child.data.local.Scale(2, 2);
262 child.data.target_id = 0;
263 child.data.source_node_id = 0;
265 tree.Insert(child, 0);
266 tree.UpdateTransforms(1);
268 gfx::Transform expected;
269 expected.Translate(2, 2);
270 expected.Scale(2, 2);
272 gfx::Transform transform;
273 gfx::Transform inverse;
275 bool success = tree.ComputeTransform(1, -1, &transform);
276 EXPECT_TRUE(success);
277 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
279 success = tree.ComputeTransform(-1, 1, &inverse);
280 EXPECT_TRUE(success);
282 transform = transform * inverse;
283 expected.MakeIdentity();
284 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
287 TEST(PropertyTreeTest, ComputeTransformWithUninvertibleTransform) {
288 TransformTree tree;
289 TransformNode& root = *tree.Node(0);
290 root.data.target_id = 0;
291 tree.UpdateTransforms(0);
293 TransformNode child;
294 child.data.local.Scale(0, 0);
295 child.data.target_id = 0;
296 child.data.source_node_id = 0;
298 tree.Insert(child, 0);
299 tree.UpdateTransforms(1);
301 gfx::Transform expected;
302 expected.Scale(0, 0);
304 gfx::Transform transform;
305 gfx::Transform inverse;
307 bool success = tree.ComputeTransform(1, 0, &transform);
308 EXPECT_TRUE(success);
309 EXPECT_TRANSFORMATION_MATRIX_EQ(expected, transform);
311 // To compute this would require inverting the 0 matrix, so we cannot
312 // succeed.
313 success = tree.ComputeTransform(0, 1, &inverse);
314 EXPECT_FALSE(success);
317 TEST(PropertyTreeTest, ComputeTransformWithSublayerScale) {
318 TransformTree tree;
319 TransformNode& root = *tree.Node(0);
320 root.data.target_id = 0;
321 tree.UpdateTransforms(0);
323 TransformNode grand_parent;
324 grand_parent.data.local.Scale(2.f, 2.f);
325 grand_parent.data.target_id = 0;
326 grand_parent.data.source_node_id = 0;
327 grand_parent.data.needs_sublayer_scale = true;
328 int grand_parent_id = tree.Insert(grand_parent, 0);
329 tree.UpdateTransforms(grand_parent_id);
331 TransformNode parent;
332 parent.data.local.Translate(15.f, 15.f);
333 parent.data.target_id = grand_parent_id;
334 parent.data.source_node_id = grand_parent_id;
335 int parent_id = tree.Insert(parent, grand_parent_id);
336 tree.UpdateTransforms(parent_id);
338 TransformNode child;
339 child.data.local.Scale(3.f, 3.f);
340 child.data.target_id = grand_parent_id;
341 child.data.source_node_id = parent_id;
342 int child_id = tree.Insert(child, parent_id);
343 tree.UpdateTransforms(child_id);
345 TransformNode grand_child;
346 grand_child.data.local.Scale(5.f, 5.f);
347 grand_child.data.target_id = grand_parent_id;
348 grand_child.data.source_node_id = child_id;
349 grand_child.data.needs_sublayer_scale = true;
350 int grand_child_id = tree.Insert(grand_child, child_id);
351 tree.UpdateTransforms(grand_child_id);
353 EXPECT_EQ(gfx::Vector2dF(2.f, 2.f),
354 tree.Node(grand_parent_id)->data.sublayer_scale);
355 EXPECT_EQ(gfx::Vector2dF(30.f, 30.f),
356 tree.Node(grand_child_id)->data.sublayer_scale);
358 // Compute transform from grand_parent to grand_child.
359 gfx::Transform expected_transform_without_sublayer_scale;
360 expected_transform_without_sublayer_scale.Scale(1.f / 15.f, 1.f / 15.f);
361 expected_transform_without_sublayer_scale.Translate(-15.f, -15.f);
363 gfx::Transform expected_transform_with_dest_sublayer_scale;
364 expected_transform_with_dest_sublayer_scale.Scale(30.f, 30.f);
365 expected_transform_with_dest_sublayer_scale.Scale(1.f / 15.f, 1.f / 15.f);
366 expected_transform_with_dest_sublayer_scale.Translate(-15.f, -15.f);
368 gfx::Transform expected_transform_with_source_sublayer_scale;
369 expected_transform_with_source_sublayer_scale.Scale(1.f / 15.f, 1.f / 15.f);
370 expected_transform_with_source_sublayer_scale.Translate(-15.f, -15.f);
371 expected_transform_with_source_sublayer_scale.Scale(0.5f, 0.5f);
373 gfx::Transform transform;
374 bool success =
375 tree.ComputeTransform(grand_parent_id, grand_child_id, &transform);
376 EXPECT_TRUE(success);
377 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_without_sublayer_scale,
378 transform);
380 success = tree.ComputeTransformWithDestinationSublayerScale(
381 grand_parent_id, grand_child_id, &transform);
382 EXPECT_TRUE(success);
383 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_with_dest_sublayer_scale,
384 transform);
386 success = tree.ComputeTransformWithSourceSublayerScale(
387 grand_parent_id, grand_child_id, &transform);
388 EXPECT_TRUE(success);
389 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_with_source_sublayer_scale,
390 transform);
392 // Now compute transform from grand_child to grand_parent.
393 expected_transform_without_sublayer_scale.MakeIdentity();
394 expected_transform_without_sublayer_scale.Translate(15.f, 15.f);
395 expected_transform_without_sublayer_scale.Scale(15.f, 15.f);
397 expected_transform_with_dest_sublayer_scale.MakeIdentity();
398 expected_transform_with_dest_sublayer_scale.Scale(2.f, 2.f);
399 expected_transform_with_dest_sublayer_scale.Translate(15.f, 15.f);
400 expected_transform_with_dest_sublayer_scale.Scale(15.f, 15.f);
402 expected_transform_with_source_sublayer_scale.MakeIdentity();
403 expected_transform_with_source_sublayer_scale.Translate(15.f, 15.f);
404 expected_transform_with_source_sublayer_scale.Scale(15.f, 15.f);
405 expected_transform_with_source_sublayer_scale.Scale(1.f / 30.f, 1.f / 30.f);
407 success = tree.ComputeTransform(grand_child_id, grand_parent_id, &transform);
408 EXPECT_TRUE(success);
409 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_without_sublayer_scale,
410 transform);
412 success = tree.ComputeTransformWithDestinationSublayerScale(
413 grand_child_id, grand_parent_id, &transform);
414 EXPECT_TRUE(success);
415 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_with_dest_sublayer_scale,
416 transform);
418 success = tree.ComputeTransformWithSourceSublayerScale(
419 grand_child_id, grand_parent_id, &transform);
420 EXPECT_TRUE(success);
421 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform_with_source_sublayer_scale,
422 transform);
425 TEST(PropertyTreeTest, ComputeTransformToTargetWithZeroSublayerScale) {
426 TransformTree tree;
427 TransformNode& root = *tree.Node(0);
428 root.data.target_id = 0;
429 tree.UpdateTransforms(0);
431 TransformNode grand_parent;
432 grand_parent.data.local.Scale(2.f, 0.f);
433 grand_parent.data.target_id = 0;
434 grand_parent.data.source_node_id = 0;
435 grand_parent.data.needs_sublayer_scale = true;
436 int grand_parent_id = tree.Insert(grand_parent, 0);
437 tree.Node(grand_parent_id)->data.content_target_id = grand_parent_id;
438 tree.UpdateTransforms(grand_parent_id);
440 TransformNode parent;
441 parent.data.local.Translate(1.f, 1.f);
442 parent.data.target_id = grand_parent_id;
443 parent.data.content_target_id = grand_parent_id;
444 parent.data.source_node_id = grand_parent_id;
445 int parent_id = tree.Insert(parent, grand_parent_id);
446 tree.UpdateTransforms(parent_id);
448 TransformNode child;
449 child.data.local.Translate(3.f, 4.f);
450 child.data.target_id = grand_parent_id;
451 child.data.content_target_id = grand_parent_id;
452 child.data.source_node_id = parent_id;
453 int child_id = tree.Insert(child, parent_id);
454 tree.UpdateTransforms(child_id);
456 gfx::Transform expected_transform;
457 expected_transform.Translate(4.f, 5.f);
459 gfx::Transform transform;
460 bool success = tree.ComputeTransform(child_id, grand_parent_id, &transform);
461 EXPECT_TRUE(success);
462 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform, transform);
464 tree.Node(grand_parent_id)->data.local.MakeIdentity();
465 tree.Node(grand_parent_id)->data.local.Scale(0.f, 2.f);
466 tree.Node(grand_parent_id)->data.needs_local_transform_update = true;
467 tree.set_needs_update(true);
469 ComputeTransforms(&tree);
471 success = tree.ComputeTransform(child_id, grand_parent_id, &transform);
472 EXPECT_TRUE(success);
473 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform, transform);
475 tree.Node(grand_parent_id)->data.local.MakeIdentity();
476 tree.Node(grand_parent_id)->data.local.Scale(0.f, 0.f);
477 tree.Node(grand_parent_id)->data.needs_local_transform_update = true;
478 tree.set_needs_update(true);
480 ComputeTransforms(&tree);
482 success = tree.ComputeTransform(child_id, grand_parent_id, &transform);
483 EXPECT_TRUE(success);
484 EXPECT_TRANSFORMATION_MATRIX_EQ(expected_transform, transform);
487 TEST(PropertyTreeTest, FlatteningWhenDestinationHasOnlyFlatAncestors) {
488 // This tests that flattening is performed correctly when
489 // destination and its ancestors are flat, but there are 3d transforms
490 // and flattening between the source and destination.
491 TransformTree tree;
493 int parent = tree.Insert(TransformNode(), 0);
494 tree.Node(parent)->data.content_target_id = parent;
495 tree.Node(parent)->data.target_id = parent;
496 tree.Node(parent)->data.source_node_id = 0;
497 tree.Node(parent)->data.local.Translate(2, 2);
499 gfx::Transform rotation_about_x;
500 rotation_about_x.RotateAboutXAxis(15);
502 int child = tree.Insert(TransformNode(), parent);
503 tree.Node(child)->data.content_target_id = child;
504 tree.Node(child)->data.target_id = child;
505 tree.Node(child)->data.source_node_id = parent;
506 tree.Node(child)->data.local = rotation_about_x;
509 int grand_child = tree.Insert(TransformNode(), child);
510 tree.Node(grand_child)->data.content_target_id = grand_child;
511 tree.Node(grand_child)->data.target_id = grand_child;
512 tree.Node(grand_child)->data.source_node_id = child;
513 tree.Node(grand_child)->data.flattens_inherited_transform = true;
515 tree.set_needs_update(true);
516 ComputeTransforms(&tree);
518 gfx::Transform flattened_rotation_about_x = rotation_about_x;
519 flattened_rotation_about_x.FlattenTo2d();
521 gfx::Transform grand_child_to_parent;
522 bool success =
523 tree.ComputeTransform(grand_child, parent, &grand_child_to_parent);
524 EXPECT_TRUE(success);
525 EXPECT_TRANSFORMATION_MATRIX_EQ(flattened_rotation_about_x,
526 grand_child_to_parent);
529 TEST(PropertyTreeTest, ScreenSpaceOpacityUpdateTest) {
530 // This tests that screen space opacity is updated for the subtree when
531 // opacity of a node changes.
532 EffectTree tree;
534 int parent = tree.Insert(EffectNode(), 0);
535 int child = tree.Insert(EffectNode(), parent);
537 EXPECT_EQ(tree.Node(child)->data.screen_space_opacity, 1.f);
538 tree.Node(parent)->data.opacity = 0.5f;
539 tree.set_needs_update(true);
540 ComputeOpacities(&tree);
541 EXPECT_EQ(tree.Node(child)->data.screen_space_opacity, 0.5f);
543 tree.Node(child)->data.opacity = 0.5f;
544 tree.set_needs_update(true);
545 ComputeOpacities(&tree);
546 EXPECT_EQ(tree.Node(child)->data.screen_space_opacity, 0.25f);
549 TEST(PropertyTreeTest, NonIntegerTranslationTest) {
550 // This tests that when a node has non-integer translation, the information
551 // is propagated to the subtree.
552 TransformTree tree;
554 int parent = tree.Insert(TransformNode(), 0);
555 tree.Node(parent)->data.target_id = parent;
556 tree.Node(parent)->data.local.Translate(1.5f, 1.5f);
558 int child = tree.Insert(TransformNode(), parent);
559 tree.Node(child)->data.target_id = parent;
560 tree.Node(child)->data.local.Translate(1, 1);
561 tree.set_needs_update(true);
562 ComputeTransforms(&tree);
563 EXPECT_FALSE(
564 tree.Node(parent)->data.node_and_ancestors_have_only_integer_translation);
565 EXPECT_FALSE(
566 tree.Node(child)->data.node_and_ancestors_have_only_integer_translation);
568 tree.Node(parent)->data.local.Translate(0.5f, 0.5f);
569 tree.Node(child)->data.local.Translate(0.5f, 0.5f);
570 tree.set_needs_update(true);
571 ComputeTransforms(&tree);
572 EXPECT_TRUE(
573 tree.Node(parent)->data.node_and_ancestors_have_only_integer_translation);
574 EXPECT_FALSE(
575 tree.Node(child)->data.node_and_ancestors_have_only_integer_translation);
577 tree.Node(child)->data.local.Translate(0.5f, 0.5f);
578 tree.Node(child)->data.target_id = child;
579 tree.set_needs_update(true);
580 ComputeTransforms(&tree);
581 EXPECT_TRUE(
582 tree.Node(parent)->data.node_and_ancestors_have_only_integer_translation);
583 EXPECT_TRUE(
584 tree.Node(child)->data.node_and_ancestors_have_only_integer_translation);
587 } // namespace cc