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1 // Copyright 2012 The Chromium Authors. All rights reserved. | 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 | 2 // Use of this source code is governed by a BSD-style license that can be |
3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
4 | 4 |
5 #include "cc/tile_manager.h" | 5 #include "cc/tile_manager.h" |
6 | 6 |
7 #include <algorithm> | 7 #include <algorithm> |
8 | 8 |
9 #include "base/bind.h" | 9 #include "base/bind.h" |
10 #include "base/debug/trace_event.h" | 10 #include "base/debug/trace_event.h" |
11 #include "base/logging.h" | 11 #include "base/logging.h" |
12 #include "base/threading/sequenced_worker_pool.h" | 12 #include "base/threading/sequenced_worker_pool.h" |
13 #include "cc/rendering_stats.h" | |
13 #include "cc/resource_pool.h" | 14 #include "cc/resource_pool.h" |
14 #include "cc/tile.h" | 15 #include "cc/tile.h" |
15 #include "third_party/skia/include/core/SkDevice.h" | 16 #include "third_party/skia/include/core/SkDevice.h" |
16 | 17 |
17 namespace { | 18 namespace { |
18 | 19 |
19 void RasterizeTile(cc::PicturePileImpl* picture_pile, | 20 void RasterizeTile(cc::PicturePileImpl* picture_pile, |
20 uint8_t* mapped_buffer, | 21 uint8_t* mapped_buffer, |
21 const gfx::Rect& rect) { | 22 const gfx::Rect& rect, |
23 cc::RenderingStats* stats) { | |
22 TRACE_EVENT0("cc", "RasterizeTile"); | 24 TRACE_EVENT0("cc", "RasterizeTile"); |
23 DCHECK(mapped_buffer); | 25 DCHECK(mapped_buffer); |
24 DCHECK(picture_pile); | 26 DCHECK(picture_pile); |
25 SkBitmap bitmap; | 27 SkBitmap bitmap; |
26 bitmap.setConfig(SkBitmap::kARGB_8888_Config, rect.width(), rect.height()); | 28 bitmap.setConfig(SkBitmap::kARGB_8888_Config, rect.width(), rect.height()); |
27 bitmap.setPixels(mapped_buffer); | 29 bitmap.setPixels(mapped_buffer); |
28 SkDevice device(bitmap); | 30 SkDevice device(bitmap); |
29 SkCanvas canvas(&device); | 31 SkCanvas canvas(&device); |
30 picture_pile->Raster(&canvas, rect); | 32 picture_pile->Raster(&canvas, rect, stats); |
31 } | 33 } |
32 | 34 |
33 const int kMaxRasterThreads = 1; | 35 const int kMaxRasterThreads = 1; |
34 | 36 |
35 const char* kRasterThreadNamePrefix = "CompositorRaster"; | 37 const char* kRasterThreadNamePrefix = "CompositorRaster"; |
36 | 38 |
37 // Allow two pending raster tasks per thread. This keeps resource usage | 39 // Allow two pending raster tasks per thread. This keeps resource usage |
38 // low while making sure raster threads aren't unnecessarily idle. | 40 // low while making sure raster threads aren't unnecessarily idle. |
39 const int kNumPendingRasterTasksPerThread = 2; | 41 const int kNumPendingRasterTasksPerThread = 2; |
40 | 42 |
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208 // Sort by bin. | 210 // Sort by bin. |
209 std::sort(tiles_.begin(), tiles_.end(), BinComparator()); | 211 std::sort(tiles_.begin(), tiles_.end(), BinComparator()); |
210 | 212 |
211 // Assign gpu memory and determine what tiles need to be rasterized. | 213 // Assign gpu memory and determine what tiles need to be rasterized. |
212 AssignGpuMemoryToTiles(); | 214 AssignGpuMemoryToTiles(); |
213 | 215 |
214 // Finally, kick the rasterizer. | 216 // Finally, kick the rasterizer. |
215 DispatchMoreRasterTasks(); | 217 DispatchMoreRasterTasks(); |
216 } | 218 } |
217 | 219 |
220 void TileManager::renderingStats(RenderingStats* stats) { | |
221 stats->totalRasterizeTimeInSeconds += | |
222 rendering_stats_.totalRasterizeTimeInSeconds; | |
223 stats->totalPixelsRasterized += rendering_stats_.totalPixelsRasterized; | |
nduca
2012/11/29 21:51:43
dont add, just set.
| |
224 rendering_stats_.totalRasterizeTimeInSeconds = 0; | |
nduca
2012/11/29 21:51:43
dont zero these...
| |
225 rendering_stats_.totalPixelsRasterized = 0; | |
226 } | |
227 | |
228 | |
218 void TileManager::AssignGpuMemoryToTiles() { | 229 void TileManager::AssignGpuMemoryToTiles() { |
219 TRACE_EVENT0("cc", "TileManager::AssignGpuMemoryToTiles"); | 230 TRACE_EVENT0("cc", "TileManager::AssignGpuMemoryToTiles"); |
220 // Some memory cannot be released. Figure out which. | 231 // Some memory cannot be released. Figure out which. |
221 size_t unreleasable_bytes = 0; | 232 size_t unreleasable_bytes = 0; |
222 for (TileVector::iterator it = tiles_.begin(); it != tiles_.end(); ++it) { | 233 for (TileVector::iterator it = tiles_.begin(); it != tiles_.end(); ++it) { |
223 Tile* tile = *it; | 234 Tile* tile = *it; |
224 if (!tile->managed_state().can_be_freed) | 235 if (!tile->managed_state().can_be_freed) |
225 unreleasable_bytes += tile->bytes_consumed_if_allocated(); | 236 unreleasable_bytes += tile->bytes_consumed_if_allocated(); |
226 } | 237 } |
227 | 238 |
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292 | 303 |
293 ManagedTileState& managed_tile_state = tile->managed_state(); | 304 ManagedTileState& managed_tile_state = tile->managed_state(); |
294 DCHECK(managed_tile_state.can_use_gpu_memory); | 305 DCHECK(managed_tile_state.can_use_gpu_memory); |
295 ResourceProvider::ResourceId resource_id = | 306 ResourceProvider::ResourceId resource_id = |
296 resource_pool_->AcquireResource(tile->tile_size_.size(), tile->format_); | 307 resource_pool_->AcquireResource(tile->tile_size_.size(), tile->format_); |
297 resource_pool_->resource_provider()->acquirePixelBuffer(resource_id); | 308 resource_pool_->resource_provider()->acquirePixelBuffer(resource_id); |
298 | 309 |
299 managed_tile_state.resource_id_is_being_initialized = true; | 310 managed_tile_state.resource_id_is_being_initialized = true; |
300 managed_tile_state.can_be_freed = false; | 311 managed_tile_state.can_be_freed = false; |
301 | 312 |
313 RenderingStats* stats = new RenderingStats(); | |
314 | |
302 ++pending_raster_tasks_; | 315 ++pending_raster_tasks_; |
303 worker_pool_->GetTaskRunnerWithShutdownBehavior( | 316 worker_pool_->GetTaskRunnerWithShutdownBehavior( |
304 base::SequencedWorkerPool::SKIP_ON_SHUTDOWN)->PostTaskAndReply( | 317 base::SequencedWorkerPool::SKIP_ON_SHUTDOWN)->PostTaskAndReply( |
305 FROM_HERE, | 318 FROM_HERE, |
306 base::Bind(&RasterizeTile, | 319 base::Bind(&RasterizeTile, |
307 base::Unretained(cloned_picture_pile.get()), | 320 base::Unretained(cloned_picture_pile.get()), |
308 resource_pool_->resource_provider()->mapPixelBuffer( | 321 resource_pool_->resource_provider()->mapPixelBuffer( |
309 resource_id), | 322 resource_id), |
310 tile->rect_inside_picture_), | 323 tile->rect_inside_picture_, |
324 stats), | |
311 base::Bind(&TileManager::OnRasterTaskCompleted, | 325 base::Bind(&TileManager::OnRasterTaskCompleted, |
312 base::Unretained(this), | 326 base::Unretained(this), |
313 tile, | 327 tile, |
314 resource_id, | 328 resource_id, |
315 cloned_picture_pile)); | 329 cloned_picture_pile, |
330 stats)); | |
316 } | 331 } |
317 | 332 |
318 void TileManager::OnRasterTaskCompleted( | 333 void TileManager::OnRasterTaskCompleted( |
319 scoped_refptr<Tile> tile, | 334 scoped_refptr<Tile> tile, |
320 ResourceProvider::ResourceId resource_id, | 335 ResourceProvider::ResourceId resource_id, |
321 scoped_refptr<PicturePileImpl> cloned_picture_pile) { | 336 scoped_refptr<PicturePileImpl> cloned_picture_pile, |
337 RenderingStats* stats) { | |
322 TRACE_EVENT0("cc", "TileManager::OnRasterTaskCompleted"); | 338 TRACE_EVENT0("cc", "TileManager::OnRasterTaskCompleted"); |
323 --pending_raster_tasks_; | 339 --pending_raster_tasks_; |
324 | 340 |
341 rendering_stats_.totalRasterizeTimeInSeconds += | |
342 stats->totalRasterizeTimeInSeconds; | |
343 rendering_stats_.totalPixelsRasterized += stats->totalPixelsRasterized; | |
344 delete stats; | |
345 | |
325 // Release raster resources. | 346 // Release raster resources. |
326 resource_pool_->resource_provider()->unmapPixelBuffer(resource_id); | 347 resource_pool_->resource_provider()->unmapPixelBuffer(resource_id); |
327 | 348 |
328 ManagedTileState& managed_tile_state = tile->managed_state(); | 349 ManagedTileState& managed_tile_state = tile->managed_state(); |
329 managed_tile_state.can_be_freed = true; | 350 managed_tile_state.can_be_freed = true; |
330 | 351 |
331 // Tile can be freed after the completion of the raster task. Call | 352 // Tile can be freed after the completion of the raster task. Call |
332 // AssignGpuMemoryToTiles() to re-assign gpu memory to highest priority | 353 // AssignGpuMemoryToTiles() to re-assign gpu memory to highest priority |
333 // tiles. The result of this could be that this tile is no longer | 354 // tiles. The result of this could be that this tile is no longer |
334 // allowed to use gpu memory and in that case we need to abort | 355 // allowed to use gpu memory and in that case we need to abort |
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355 Tile* tile, ResourceProvider::ResourceId resource_id) { | 376 Tile* tile, ResourceProvider::ResourceId resource_id) { |
356 ManagedTileState& managed_tile_state = tile->managed_state(); | 377 ManagedTileState& managed_tile_state = tile->managed_state(); |
357 DCHECK(!managed_tile_state.resource_id); | 378 DCHECK(!managed_tile_state.resource_id); |
358 managed_tile_state.resource_id = resource_id; | 379 managed_tile_state.resource_id = resource_id; |
359 managed_tile_state.resource_id_is_being_initialized = false; | 380 managed_tile_state.resource_id_is_being_initialized = false; |
360 // TODO(qinmin): Make this conditional on managed_tile_state.bin == NOW_BIN. | 381 // TODO(qinmin): Make this conditional on managed_tile_state.bin == NOW_BIN. |
361 client_->ScheduleRedraw(); | 382 client_->ScheduleRedraw(); |
362 } | 383 } |
363 | 384 |
364 } | 385 } |
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