// Copyright 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "cc/resources/picture_layer_tiling_set.h" #include namespace cc { namespace { class LargestToSmallestScaleFunctor { public: bool operator() (PictureLayerTiling* left, PictureLayerTiling* right) { return left->contents_scale() > right->contents_scale(); } }; } // namespace PictureLayerTilingSet::PictureLayerTilingSet( PictureLayerTilingClient* client, gfx::Size layer_bounds) : client_(client), layer_bounds_(layer_bounds) { } PictureLayerTilingSet::~PictureLayerTilingSet() { } void PictureLayerTilingSet::SetClient(PictureLayerTilingClient* client) { client_ = client; for (size_t i = 0; i < tilings_.size(); ++i) tilings_[i]->SetClient(client_); } void PictureLayerTilingSet::SyncTilings( const PictureLayerTilingSet& other, gfx::Size new_layer_bounds, const Region& layer_invalidation, float minimum_contents_scale) { if (new_layer_bounds.IsEmpty()) { RemoveAllTilings(); layer_bounds_ = new_layer_bounds; return; } tilings_.reserve(other.tilings_.size()); // Remove any tilings that aren't in |other| or don't meet the minimum. for (size_t i = 0; i < tilings_.size(); ++i) { float scale = tilings_[i]->contents_scale(); if (scale >= minimum_contents_scale && !!other.TilingAtScale(scale)) continue; // Swap with the last element and remove it. tilings_.swap(tilings_.begin() + i, tilings_.end() - 1); tilings_.pop_back(); --i; } // Add any missing tilings from |other| that meet the minimum. for (size_t i = 0; i < other.tilings_.size(); ++i) { float contents_scale = other.tilings_[i]->contents_scale(); if (contents_scale < minimum_contents_scale) continue; if (PictureLayerTiling* this_tiling = TilingAtScale(contents_scale)) { this_tiling->set_resolution(other.tilings_[i]->resolution()); // These two calls must come before updating the pile, because they may // destroy tiles that the new pile cannot raster. this_tiling->SetLayerBounds(new_layer_bounds); this_tiling->Invalidate(layer_invalidation); this_tiling->UpdateTilesToCurrentPile(); this_tiling->CreateMissingTilesInLiveTilesRect(); DCHECK(this_tiling->tile_size() == client_->CalculateTileSize(this_tiling->ContentRect().size())); continue; } scoped_ptr new_tiling = PictureLayerTiling::Create( contents_scale, new_layer_bounds, client_); new_tiling->set_resolution(other.tilings_[i]->resolution()); tilings_.push_back(new_tiling.Pass()); } tilings_.sort(LargestToSmallestScaleFunctor()); layer_bounds_ = new_layer_bounds; } void PictureLayerTilingSet::SetCanUseLCDText(bool can_use_lcd_text) { for (size_t i = 0; i < tilings_.size(); ++i) tilings_[i]->SetCanUseLCDText(can_use_lcd_text); } PictureLayerTiling* PictureLayerTilingSet::AddTiling(float contents_scale) { for (size_t i = 0; i < tilings_.size(); ++i) DCHECK_NE(tilings_[i]->contents_scale(), contents_scale); tilings_.push_back(PictureLayerTiling::Create(contents_scale, layer_bounds_, client_)); PictureLayerTiling* appended = tilings_.back(); tilings_.sort(LargestToSmallestScaleFunctor()); return appended; } int PictureLayerTilingSet::NumHighResTilings() const { int num_high_res = 0; for (size_t i = 0; i < tilings_.size(); ++i) { if (tilings_[i]->resolution() == HIGH_RESOLUTION) num_high_res++; } return num_high_res; } PictureLayerTiling* PictureLayerTilingSet::TilingAtScale(float scale) const { for (size_t i = 0; i < tilings_.size(); ++i) { if (tilings_[i]->contents_scale() == scale) return tilings_[i]; } return NULL; } void PictureLayerTilingSet::RemoveAllTilings() { tilings_.clear(); } void PictureLayerTilingSet::Remove(PictureLayerTiling* tiling) { ScopedPtrVector::iterator iter = std::find(tilings_.begin(), tilings_.end(), tiling); if (iter == tilings_.end()) return; tilings_.erase(iter); } void PictureLayerTilingSet::RemoveAllTiles() { for (size_t i = 0; i < tilings_.size(); ++i) tilings_[i]->Reset(); } PictureLayerTilingSet::CoverageIterator::CoverageIterator( const PictureLayerTilingSet* set, float contents_scale, gfx::Rect content_rect, float ideal_contents_scale) : set_(set), contents_scale_(contents_scale), ideal_contents_scale_(ideal_contents_scale), current_tiling_(-1) { missing_region_.Union(content_rect); for (ideal_tiling_ = 0; static_cast(ideal_tiling_) < set_->tilings_.size(); ++ideal_tiling_) { PictureLayerTiling* tiling = set_->tilings_[ideal_tiling_]; if (tiling->contents_scale() < ideal_contents_scale_) { if (ideal_tiling_ > 0) ideal_tiling_--; break; } } DCHECK_LE(set_->tilings_.size(), static_cast(std::numeric_limits::max())); int num_tilings = set_->tilings_.size(); if (ideal_tiling_ == num_tilings && ideal_tiling_ > 0) ideal_tiling_--; ++(*this); } PictureLayerTilingSet::CoverageIterator::~CoverageIterator() { } gfx::Rect PictureLayerTilingSet::CoverageIterator::geometry_rect() const { if (!tiling_iter_) { if (!region_iter_.has_rect()) return gfx::Rect(); return region_iter_.rect(); } return tiling_iter_.geometry_rect(); } gfx::RectF PictureLayerTilingSet::CoverageIterator::texture_rect() const { if (!tiling_iter_) return gfx::RectF(); return tiling_iter_.texture_rect(); } gfx::Size PictureLayerTilingSet::CoverageIterator::texture_size() const { if (!tiling_iter_) return gfx::Size(); return tiling_iter_.texture_size(); } Tile* PictureLayerTilingSet::CoverageIterator::operator->() const { if (!tiling_iter_) return NULL; return *tiling_iter_; } Tile* PictureLayerTilingSet::CoverageIterator::operator*() const { if (!tiling_iter_) return NULL; return *tiling_iter_; } PictureLayerTiling* PictureLayerTilingSet::CoverageIterator::CurrentTiling() { if (current_tiling_ < 0) return NULL; if (static_cast(current_tiling_) >= set_->tilings_.size()) return NULL; return set_->tilings_[current_tiling_]; } int PictureLayerTilingSet::CoverageIterator::NextTiling() const { // Order returned by this method is: // 1. Ideal tiling index // 2. Tiling index < Ideal in decreasing order (higher res than ideal) // 3. Tiling index > Ideal in increasing order (lower res than ideal) // 4. Tiling index > tilings.size() (invalid index) if (current_tiling_ < 0) return ideal_tiling_; else if (current_tiling_ > ideal_tiling_) return current_tiling_ + 1; else if (current_tiling_) return current_tiling_ - 1; else return ideal_tiling_ + 1; } PictureLayerTilingSet::CoverageIterator& PictureLayerTilingSet::CoverageIterator::operator++() { bool first_time = current_tiling_ < 0; if (!*this && !first_time) return *this; if (tiling_iter_) ++tiling_iter_; // Loop until we find a valid place to stop. while (true) { while (tiling_iter_ && (!*tiling_iter_ || !tiling_iter_->IsReadyToDraw())) { missing_region_.Union(tiling_iter_.geometry_rect()); ++tiling_iter_; } if (tiling_iter_) return *this; // If the set of current rects for this tiling is done, go to the next // tiling and set up to iterate through all of the remaining holes. // This will also happen the first time through the loop. if (!region_iter_.has_rect()) { current_tiling_ = NextTiling(); current_region_.Swap(&missing_region_); missing_region_.Clear(); region_iter_ = Region::Iterator(current_region_); // All done and all filled. if (!region_iter_.has_rect()) { current_tiling_ = set_->tilings_.size(); return *this; } // No more valid tiles, return this checkerboard rect. if (current_tiling_ >= static_cast(set_->tilings_.size())) return *this; } // Pop a rect off. If there are no more tilings, then these will be // treated as geometry with null tiles that the caller can checkerboard. gfx::Rect last_rect = region_iter_.rect(); region_iter_.next(); // Done, found next checkerboard rect to return. if (current_tiling_ >= static_cast(set_->tilings_.size())) return *this; // Construct a new iterator for the next tiling, but we need to loop // again until we get to a valid one. tiling_iter_ = PictureLayerTiling::CoverageIterator( set_->tilings_[current_tiling_], contents_scale_, last_rect); } return *this; } PictureLayerTilingSet::CoverageIterator::operator bool() const { return current_tiling_ < static_cast(set_->tilings_.size()) || region_iter_.has_rect(); } void PictureLayerTilingSet::UpdateTilePriorities( WhichTree tree, gfx::Size device_viewport, gfx::Rect viewport_in_content_space, gfx::Rect visible_content_rect, gfx::Size last_layer_bounds, gfx::Size current_layer_bounds, float last_layer_contents_scale, float current_layer_contents_scale, const gfx::Transform& last_screen_transform, const gfx::Transform& current_screen_transform, double current_frame_time_in_seconds, size_t max_tiles_for_interest_area) { gfx::Rect viewport_in_layer_space = gfx::ScaleToEnclosingRect( viewport_in_content_space, 1.f / current_layer_contents_scale); gfx::Rect visible_layer_rect = gfx::ScaleToEnclosingRect( visible_content_rect, 1.f / current_layer_contents_scale); for (size_t i = 0; i < tilings_.size(); ++i) { tilings_[i]->UpdateTilePriorities( tree, device_viewport, viewport_in_layer_space, visible_layer_rect, last_layer_bounds, current_layer_bounds, last_layer_contents_scale, current_layer_contents_scale, last_screen_transform, current_screen_transform, current_frame_time_in_seconds, max_tiles_for_interest_area); } } void PictureLayerTilingSet::DidBecomeActive() { for (size_t i = 0; i < tilings_.size(); ++i) tilings_[i]->DidBecomeActive(); } scoped_ptr PictureLayerTilingSet::AsValue() const { scoped_ptr state(new base::ListValue()); for (size_t i = 0; i < tilings_.size(); ++i) state->Append(tilings_[i]->AsValue().release()); return state.PassAs(); } size_t PictureLayerTilingSet::GPUMemoryUsageInBytes() const { size_t amount = 0; for (size_t i = 0; i < tilings_.size(); ++i) amount += tilings_[i]->GPUMemoryUsageInBytes(); return amount; } } // namespace cc