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Enable right clicking on the applist doodle web contents and log the data.
[chromium-blink-merge.git] / cc / layers / delegated_renderer_layer_impl.cc
blobe1056be6c07468073e93505d8ed3d9e1e2921219
1 // Copyright 2012 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.
4
5 #include "cc/layers/delegated_renderer_layer_impl.h"
6
7 #include <algorithm>
8 #include <utility>
9
10 #include "base/bind.h"
11 #include "base/containers/hash_tables.h"
12 #include "cc/base/math_util.h"
13 #include "cc/layers/append_quads_data.h"
14 #include "cc/layers/render_pass_sink.h"
15 #include "cc/output/delegated_frame_data.h"
16 #include "cc/quads/render_pass_draw_quad.h"
17 #include "cc/quads/solid_color_draw_quad.h"
18 #include "cc/trees/layer_tree_impl.h"
19 #include "cc/trees/occlusion.h"
20 #include "ui/gfx/geometry/rect_conversions.h"
21
22 namespace cc {
23
24 DelegatedRendererLayerImpl::DelegatedRendererLayerImpl(LayerTreeImpl* tree_impl,
25 int id)
26 : LayerImpl(tree_impl, id),
27 have_render_passes_to_push_(false),
28 inverse_device_scale_factor_(1.0f),
29 child_id_(0),
30 own_child_id_(false) {
31 }
32
33 DelegatedRendererLayerImpl::~DelegatedRendererLayerImpl() {
34 ClearRenderPasses();
35 ClearChildId();
36 }
37
38 bool DelegatedRendererLayerImpl::HasDelegatedContent() const { return true; }
39
40 bool DelegatedRendererLayerImpl::HasContributingDelegatedRenderPasses() const {
41 // The root RenderPass for the layer is merged with its target
42 // RenderPass in each frame. So we only have extra RenderPasses
43 // to merge when we have a non-root RenderPass present.
44 return render_passes_in_draw_order_.size() > 1;
45 }
46
47 static ResourceProvider::ResourceId ResourceRemapHelper(
48 bool* invalid_frame,
49 const ResourceProvider::ResourceIdMap& child_to_parent_map,
50 ResourceProvider::ResourceIdArray* resources_in_frame,
51 ResourceProvider::ResourceId id) {
52
53 ResourceProvider::ResourceIdMap::const_iterator it =
54 child_to_parent_map.find(id);
55 if (it == child_to_parent_map.end()) {
56 *invalid_frame = true;
57 return 0;
58 }
59
60 DCHECK_EQ(it->first, id);
61 ResourceProvider::ResourceId remapped_id = it->second;
62 resources_in_frame->push_back(id);
63 return remapped_id;
64 }
65
66 void DelegatedRendererLayerImpl::PushPropertiesTo(LayerImpl* layer) {
67 LayerImpl::PushPropertiesTo(layer);
68
69 DelegatedRendererLayerImpl* delegated_layer =
70 static_cast<DelegatedRendererLayerImpl*>(layer);
71
72 // If we have a new child_id to give to the active layer, it should
73 // have already deleted its old child_id.
74 DCHECK(delegated_layer->child_id_ == 0 ||
75 delegated_layer->child_id_ == child_id_);
76 delegated_layer->inverse_device_scale_factor_ = inverse_device_scale_factor_;
77 delegated_layer->child_id_ = child_id_;
78 delegated_layer->own_child_id_ = true;
79 own_child_id_ = false;
80
81 if (have_render_passes_to_push_) {
82 // This passes ownership of the render passes to the active tree.
83 delegated_layer->SetRenderPasses(&render_passes_in_draw_order_);
84 DCHECK(render_passes_in_draw_order_.empty());
85 have_render_passes_to_push_ = false;
86 }
87
88 // This is just a copy for testing, since resources are added to the
89 // ResourceProvider in the pending tree.
90 delegated_layer->resources_ = resources_;
91 }
92
93 void DelegatedRendererLayerImpl::CreateChildIdIfNeeded(
94 const ReturnCallback& return_callback) {
95 if (child_id_)
96 return;
97
98 ResourceProvider* resource_provider = layer_tree_impl()->resource_provider();
99 child_id_ = resource_provider->CreateChild(return_callback);
100 own_child_id_ = true;
101 }
102
103 void DelegatedRendererLayerImpl::SetFrameData(
104 const DelegatedFrameData* frame_data,
105 const gfx::RectF& damage_in_frame) {
106 DCHECK(child_id_) << "CreateChildIdIfNeeded must be called first.";
107 DCHECK(frame_data);
108 DCHECK(!frame_data->render_pass_list.empty());
109 // A frame with an empty root render pass is invalid.
110 DCHECK(!frame_data->render_pass_list.back()->output_rect.IsEmpty());
111
112 ResourceProvider* resource_provider = layer_tree_impl()->resource_provider();
113 const ResourceProvider::ResourceIdMap& resource_map =
114 resource_provider->GetChildToParentMap(child_id_);
115
116 resource_provider->ReceiveFromChild(child_id_, frame_data->resource_list);
117
118 RenderPassList render_pass_list;
119 RenderPass::CopyAll(frame_data->render_pass_list, &render_pass_list);
120
121 bool invalid_frame = false;
122 ResourceProvider::ResourceIdArray resources_in_frame;
123 DrawQuad::ResourceIteratorCallback remap_resources_to_parent_callback =
124 base::Bind(&ResourceRemapHelper,
125 &invalid_frame,
126 resource_map,
127 &resources_in_frame);
128 for (const auto& pass : render_pass_list) {
129 for (const auto& quad : pass->quad_list)
130 quad->IterateResources(remap_resources_to_parent_callback);
131 }
132
133 if (invalid_frame) {
134 // Declare we are still using the last frame's resources.
135 resource_provider->DeclareUsedResourcesFromChild(child_id_, resources_);
136 return;
137 }
138
139 // Declare we are using the new frame's resources.
140 resources_.swap(resources_in_frame);
141 resource_provider->DeclareUsedResourcesFromChild(child_id_, resources_);
142
143 inverse_device_scale_factor_ = 1.0f / frame_data->device_scale_factor;
144 // Display size is already set so we can compute what the damage rect
145 // will be in layer space. The damage may exceed the visible portion of
146 // the frame, so intersect the damage to the layer's bounds.
147 RenderPass* new_root_pass = render_pass_list.back();
148 gfx::Size frame_size = new_root_pass->output_rect.size();
149 gfx::RectF damage_in_layer = damage_in_frame;
150 damage_in_layer.Scale(inverse_device_scale_factor_);
151 SetUpdateRect(gfx::IntersectRects(
152 gfx::UnionRects(update_rect(), gfx::ToEnclosingRect(damage_in_layer)),
153 gfx::Rect(bounds())));
154
155 SetRenderPasses(&render_pass_list);
156 have_render_passes_to_push_ = true;
157 }
158
159 void DelegatedRendererLayerImpl::SetRenderPasses(
160 RenderPassList* render_passes_in_draw_order) {
161 ClearRenderPasses();
162
163 for (size_t i = 0; i < render_passes_in_draw_order->size(); ++i) {
164 RenderPassList::iterator to_take =
165 render_passes_in_draw_order->begin() + i;
166 render_passes_index_by_id_.insert(
167 std::pair<RenderPassId, int>((*to_take)->id, i));
168 scoped_ptr<RenderPass> taken_render_pass =
169 render_passes_in_draw_order->take(to_take);
170 render_passes_in_draw_order_.push_back(taken_render_pass.Pass());
171 }
172
173 // Give back an empty array instead of nulls.
174 render_passes_in_draw_order->clear();
175 }
176
177 void DelegatedRendererLayerImpl::ClearRenderPasses() {
178 render_passes_index_by_id_.clear();
179 render_passes_in_draw_order_.clear();
180 }
181
182 scoped_ptr<LayerImpl> DelegatedRendererLayerImpl::CreateLayerImpl(
183 LayerTreeImpl* tree_impl) {
184 return DelegatedRendererLayerImpl::Create(tree_impl, id());
185 }
186
187 void DelegatedRendererLayerImpl::ReleaseResources() {
188 ClearRenderPasses();
189 ClearChildId();
190 }
191
192 static inline int IndexToId(int index) { return index + 1; }
193 static inline int IdToIndex(int id) { return id - 1; }
194
195 RenderPassId DelegatedRendererLayerImpl::FirstContributingRenderPassId() const {
196 return RenderPassId(id(), IndexToId(0));
197 }
198
199 RenderPassId DelegatedRendererLayerImpl::NextContributingRenderPassId(
200 RenderPassId previous) const {
201 return RenderPassId(previous.layer_id, previous.index + 1);
202 }
203
204 bool DelegatedRendererLayerImpl::ConvertDelegatedRenderPassId(
205 RenderPassId delegated_render_pass_id,
206 RenderPassId* output_render_pass_id) const {
207 base::hash_map<RenderPassId, int>::const_iterator found =
208 render_passes_index_by_id_.find(delegated_render_pass_id);
209 if (found == render_passes_index_by_id_.end()) {
210 // Be robust against a RenderPass id that isn't part of the frame.
211 return false;
212 }
213 unsigned delegated_render_pass_index = found->second;
214 *output_render_pass_id =
215 RenderPassId(id(), IndexToId(delegated_render_pass_index));
216 return true;
217 }
218
219 void DelegatedRendererLayerImpl::AppendContributingRenderPasses(
220 RenderPassSink* render_pass_sink) {
221 DCHECK(HasContributingDelegatedRenderPasses());
222
223 const RenderPass* root_delegated_render_pass =
224 render_passes_in_draw_order_.back();
225 gfx::Size frame_size = root_delegated_render_pass->output_rect.size();
226 gfx::Transform delegated_frame_to_root_transform = screen_space_transform();
227 delegated_frame_to_root_transform.Scale(inverse_device_scale_factor_,
228 inverse_device_scale_factor_);
229
230 for (size_t i = 0; i < render_passes_in_draw_order_.size() - 1; ++i) {
231 RenderPassId output_render_pass_id(-1, -1);
232 bool present =
233 ConvertDelegatedRenderPassId(render_passes_in_draw_order_[i]->id,
234 &output_render_pass_id);
235
236 // Don't clash with the RenderPass we generate if we own a RenderSurface.
237 DCHECK(present) << render_passes_in_draw_order_[i]->id.layer_id << ", "
238 << render_passes_in_draw_order_[i]->id.index;
239 DCHECK_GT(output_render_pass_id.index, 0);
240
241 scoped_ptr<RenderPass> copy_pass =
242 render_passes_in_draw_order_[i]->Copy(output_render_pass_id);
243 copy_pass->transform_to_root_target.ConcatTransform(
244 delegated_frame_to_root_transform);
245 render_pass_sink->AppendRenderPass(copy_pass.Pass());
246 }
247 }
248
249 bool DelegatedRendererLayerImpl::WillDraw(DrawMode draw_mode,
250 ResourceProvider* resource_provider) {
251 if (draw_mode == DRAW_MODE_RESOURCELESS_SOFTWARE)
252 return false;
253 return LayerImpl::WillDraw(draw_mode, resource_provider);
254 }
255
256 void DelegatedRendererLayerImpl::AppendQuads(
257 RenderPass* render_pass,
258 AppendQuadsData* append_quads_data) {
259 AppendRainbowDebugBorder(render_pass);
260
261 // This list will be empty after a lost context until a new frame arrives.
262 if (render_passes_in_draw_order_.empty())
263 return;
264
265 RenderPassId target_render_pass_id = render_pass->id;
266
267 const RenderPass* root_delegated_render_pass =
268 render_passes_in_draw_order_.back();
269
270 DCHECK(root_delegated_render_pass->output_rect.origin().IsOrigin());
271 gfx::Size frame_size = root_delegated_render_pass->output_rect.size();
272
273 // If the index of the RenderPassId is 0, then it is a RenderPass generated
274 // for a layer in this compositor, not the delegating renderer. Then we want
275 // to merge our root RenderPass with the target RenderPass. Otherwise, it is
276 // some RenderPass which we added from the delegating renderer.
277 bool should_merge_root_render_pass_with_target = !target_render_pass_id.index;
278 if (should_merge_root_render_pass_with_target) {
279 // Verify that the RenderPass we are appending to is created by our
280 // render_target.
281 DCHECK(target_render_pass_id.layer_id == render_target()->id());
282
283 AppendRenderPassQuads(render_pass,
284 root_delegated_render_pass,
285 frame_size);
286 } else {
287 // Verify that the RenderPass we are appending to was created by us.
288 DCHECK(target_render_pass_id.layer_id == id());
289
290 int render_pass_index = IdToIndex(target_render_pass_id.index);
291 const RenderPass* delegated_render_pass =
292 render_passes_in_draw_order_[render_pass_index];
293 AppendRenderPassQuads(render_pass,
294 delegated_render_pass,
295 frame_size);
296 }
297 }
298
299 void DelegatedRendererLayerImpl::AppendRainbowDebugBorder(
300 RenderPass* render_pass) {
301 if (!ShowDebugBorders())
302 return;
303
304 SharedQuadState* shared_quad_state =
305 render_pass->CreateAndAppendSharedQuadState();
306 PopulateSharedQuadState(shared_quad_state);
307
308 SkColor color;
309 float border_width;
310 GetDebugBorderProperties(&color, &border_width);
311
312 SkColor colors[] = {
313 0x80ff0000, // Red.
314 0x80ffa500, // Orange.
315 0x80ffff00, // Yellow.
316 0x80008000, // Green.
317 0x800000ff, // Blue.
318 0x80ee82ee, // Violet.
319 };
320 const int kNumColors = arraysize(colors);
321
322 const int kStripeWidth = 300;
323 const int kStripeHeight = 300;
324
325 for (size_t i = 0; ; ++i) {
326 // For horizontal lines.
327 int x = kStripeWidth * i;
328 int width = std::min(kStripeWidth, content_bounds().width() - x - 1);
329
330 // For vertical lines.
331 int y = kStripeHeight * i;
332 int height = std::min(kStripeHeight, content_bounds().height() - y - 1);
333
334 gfx::Rect top(x, 0, width, border_width);
335 gfx::Rect bottom(x,
336 content_bounds().height() - border_width,
337 width,
338 border_width);
339 gfx::Rect left(0, y, border_width, height);
340 gfx::Rect right(content_bounds().width() - border_width,
341 y,
342 border_width,
343 height);
344
345 if (top.IsEmpty() && left.IsEmpty())
346 break;
347
348 if (!top.IsEmpty()) {
349 bool force_anti_aliasing_off = false;
350 SolidColorDrawQuad* top_quad =
351 render_pass->CreateAndAppendDrawQuad<SolidColorDrawQuad>();
352 top_quad->SetNew(shared_quad_state, top, top, colors[i % kNumColors],
353 force_anti_aliasing_off);
354
355 SolidColorDrawQuad* bottom_quad =
356 render_pass->CreateAndAppendDrawQuad<SolidColorDrawQuad>();
357 bottom_quad->SetNew(shared_quad_state, bottom, bottom,
358 colors[kNumColors - 1 - (i % kNumColors)],
359 force_anti_aliasing_off);
360
361 if (contents_opaque()) {
362 // Draws a stripe filling the layer vertically with the same color and
363 // width as the horizontal stipes along the layer's top border.
364 SolidColorDrawQuad* solid_quad =
365 render_pass->CreateAndAppendDrawQuad<SolidColorDrawQuad>();
366 // The inner fill is more transparent then the border.
367 static const float kFillOpacity = 0.1f;
368 SkColor fill_color = SkColorSetA(
369 colors[i % kNumColors],
370 static_cast<uint8_t>(SkColorGetA(colors[i % kNumColors]) *
371 kFillOpacity));
372 gfx::Rect fill_rect(x, 0, width, content_bounds().height());
373 solid_quad->SetNew(shared_quad_state, fill_rect, fill_rect, fill_color,
374 force_anti_aliasing_off);
375 }
376 }
377 if (!left.IsEmpty()) {
378 bool force_anti_aliasing_off = false;
379 SolidColorDrawQuad* left_quad =
380 render_pass->CreateAndAppendDrawQuad<SolidColorDrawQuad>();
381 left_quad->SetNew(shared_quad_state, left, left,
382 colors[kNumColors - 1 - (i % kNumColors)],
383 force_anti_aliasing_off);
384
385 SolidColorDrawQuad* right_quad =
386 render_pass->CreateAndAppendDrawQuad<SolidColorDrawQuad>();
387 right_quad->SetNew(shared_quad_state, right, right,
388 colors[i % kNumColors], force_anti_aliasing_off);
389 }
390 }
391 }
392
393 void DelegatedRendererLayerImpl::AppendRenderPassQuads(
394 RenderPass* render_pass,
395 const RenderPass* delegated_render_pass,
396 const gfx::Size& frame_size) const {
397 const SharedQuadState* delegated_shared_quad_state = nullptr;
398 SharedQuadState* output_shared_quad_state = nullptr;
399
400 for (const auto& delegated_quad : delegated_render_pass->quad_list) {
401 bool is_root_delegated_render_pass =
402 delegated_render_pass == render_passes_in_draw_order_.back();
403
404 if (delegated_quad->shared_quad_state != delegated_shared_quad_state) {
405 delegated_shared_quad_state = delegated_quad->shared_quad_state;
406 output_shared_quad_state = render_pass->CreateAndAppendSharedQuadState();
407 output_shared_quad_state->CopyFrom(delegated_shared_quad_state);
408
409 if (is_root_delegated_render_pass) {
410 gfx::Transform delegated_frame_to_target_transform = draw_transform();
411 delegated_frame_to_target_transform.Scale(inverse_device_scale_factor_,
412 inverse_device_scale_factor_);
413
414 output_shared_quad_state->content_to_target_transform.ConcatTransform(
415 delegated_frame_to_target_transform);
416
417 if (render_target() == this) {
418 DCHECK(!is_clipped());
419 DCHECK(render_surface());
420 DCHECK_EQ(0, num_unclipped_descendants());
421 output_shared_quad_state->clip_rect =
422 MathUtil::MapEnclosingClippedRect(
423 delegated_frame_to_target_transform,
424 output_shared_quad_state->clip_rect);
425 } else {
426 gfx::Rect clip_rect = drawable_content_rect();
427 if (output_shared_quad_state->is_clipped) {
428 clip_rect.Intersect(MathUtil::MapEnclosingClippedRect(
429 delegated_frame_to_target_transform,
430 output_shared_quad_state->clip_rect));
431 }
432 output_shared_quad_state->clip_rect = clip_rect;
433 output_shared_quad_state->is_clipped = true;
434 }
435
436 output_shared_quad_state->opacity *= draw_opacity();
437 }
438 }
439 DCHECK(output_shared_quad_state);
440
441 gfx::Transform quad_content_to_delegated_target_space =
442 output_shared_quad_state->content_to_target_transform;
443 if (!is_root_delegated_render_pass) {
444 quad_content_to_delegated_target_space.ConcatTransform(
445 delegated_render_pass->transform_to_root_target);
446 quad_content_to_delegated_target_space.ConcatTransform(draw_transform());
447 }
448
449 Occlusion occlusion_in_quad_space =
450 draw_properties()
451 .occlusion_in_content_space.GetOcclusionWithGivenDrawTransform(
452 quad_content_to_delegated_target_space);
453
454 gfx::Rect quad_visible_rect =
455 occlusion_in_quad_space.GetUnoccludedContentRect(
456 delegated_quad->visible_rect);
457
458 if (quad_visible_rect.IsEmpty())
459 continue;
460
461 if (delegated_quad->material != DrawQuad::RENDER_PASS) {
462 DrawQuad* output_quad = render_pass->CopyFromAndAppendDrawQuad(
463 delegated_quad, output_shared_quad_state);
464 output_quad->visible_rect = quad_visible_rect;
465 } else {
466 RenderPassId delegated_contributing_render_pass_id =
467 RenderPassDrawQuad::MaterialCast(delegated_quad)->render_pass_id;
468 RenderPassId output_contributing_render_pass_id(-1, -1);
469
470 bool present =
471 ConvertDelegatedRenderPassId(delegated_contributing_render_pass_id,
472 &output_contributing_render_pass_id);
473
474 // The frame may have a RenderPassDrawQuad that points to a RenderPass not
475 // part of the frame. Just ignore these quads.
476 if (present) {
477 DCHECK(output_contributing_render_pass_id != render_pass->id);
478
479 RenderPassDrawQuad* output_quad =
480 render_pass->CopyFromAndAppendRenderPassDrawQuad(
481 RenderPassDrawQuad::MaterialCast(delegated_quad),
482 output_shared_quad_state,
483 output_contributing_render_pass_id);
484 output_quad->visible_rect = quad_visible_rect;
485 }
486 }
487 }
488 }
489
490 const char* DelegatedRendererLayerImpl::LayerTypeAsString() const {
491 return "cc::DelegatedRendererLayerImpl";
492 }
493
494 void DelegatedRendererLayerImpl::ClearChildId() {
495 if (!child_id_)
496 return;
497
498 if (own_child_id_) {
499 ResourceProvider* provider = layer_tree_impl()->resource_provider();
500 provider->DestroyChild(child_id_);
501 }
502
503 resources_.clear();
504 child_id_ = 0;
505 }
506
507 } // namespace cc