cc/resources/raster_tile_priority_queue.cc - Issue 367833003: cc: Start using raster/eviction iterators.

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Issue 367833003: cc: Start using raster/eviction iterators. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: update Created 6 years, 5 months ago

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	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.

	4

	5 #include "cc/resources/raster_tile_priority_queue.h"

	6

	7 #include "cc/resources/tile.h"

	8

	9 namespace cc {

	10

	11 RasterTilePriorityQueue::RasterTilePriorityQueue()

	12 : tree_priority_(SAME_PRIORITY_FOR_BOTH_TREES),

	13 comparator_(tree_priority_) {

	14 }

	15

	16 void RasterTilePriorityQueue::Reset() {

	17 paired_iterators_.clear();

	18 iterator_heap_.clear();

	19 }

	20

	21 void RasterTilePriorityQueue::BuildQueue(

	22 const std::vector<PairedPictureLayer>& paired_picture_layers,

	23 TreePriority tree_priority) {

	24 DCHECK(paired_iterators_.empty());

	25 DCHECK(iterator_heap_.empty());

	26

	27 tree_priority_ = tree_priority;

	28 comparator_ = RasterOrderComparator(tree_priority);

	29

	30 bool prioritize_low_res = tree_priority_ == SMOOTHNESS_TAKES_PRIORITY;

	31

	32 paired_iterators_.reserve(paired_picture_layers.size());

	33 iterator_heap_.reserve(paired_picture_layers.size());
	reveman 2014/07/15 01:51:10 no need for reserve() as the queue can be reused a no need for reserve() as the queue can be reused and grow as needed.
	34 for (std::vector<PairedPictureLayer>::const_iterator it =

	35 paired_picture_layers.begin();

	36 it != paired_picture_layers.end();

	37 ++it) {

	38 PairedPictureLayerIterator paired_iterator;

	39 if (it->active_layer) {

	40 paired_iterator.active_iterator =

	41 PictureLayerImpl::LayerRasterTileIterator(it->active_layer,

	42 prioritize_low_res);

	43 }

	44

	45 if (it->pending_layer) {

	46 paired_iterator.pending_iterator =

	47 PictureLayerImpl::LayerRasterTileIterator(it->pending_layer,

	48 prioritize_low_res);

	49 }

	50

	51 if (paired_iterator.PeekTile(tree_priority_) != NULL) {

	52 paired_iterators_.push_back(paired_iterator);

	53 iterator_heap_.push_back(&paired_iterators_.back());

	54 }

	55 }

	56

	57 std::make_heap(iterator_heap_.begin(), iterator_heap_.end(), comparator_);

	58 }

	59

	60 RasterTilePriorityQueue::~RasterTilePriorityQueue() {

	61 }

	62

	63 void RasterTilePriorityQueue::Pop() {

	64 DCHECK(!IsEmpty());

	65

	66 std::pop_heap(iterator_heap_.begin(), iterator_heap_.end(), comparator_);

	67 PairedPictureLayerIterator* paired_iterator = iterator_heap_.back();

	68 iterator_heap_.pop_back();

	69

	70 paired_iterator->PopTile(tree_priority_);

	71 if (paired_iterator->PeekTile(tree_priority_) != NULL) {

	72 iterator_heap_.push_back(paired_iterator);

	73 std::push_heap(iterator_heap_.begin(), iterator_heap_.end(), comparator_);

	74 }

	75 }

	76

	77 bool RasterTilePriorityQueue::IsEmpty() {

	78 return iterator_heap_.empty();

	79 }

	80

	81 Tile* RasterTilePriorityQueue::Top() {

	82 DCHECK(!IsEmpty());

	83 return iterator_heap_.front()->PeekTile(tree_priority_);

	84 }

	85

	86 RasterTilePriorityQueue::PairedPictureLayerIterator::

	87 PairedPictureLayerIterator() {

	88 }

	89

	90 RasterTilePriorityQueue::PairedPictureLayerIterator::

	91 ~PairedPictureLayerIterator() {

	92 }

	93

	94 Tile* RasterTilePriorityQueue::PairedPictureLayerIterator::PeekTile(

	95 TreePriority tree_priority) {

	96 PictureLayerImpl::LayerRasterTileIterator* next_iterator =

	97 NextTileIterator(tree_priority).first;

	98 if (!next_iterator)

	99 return NULL;

	100

	101 DCHECK(*next_iterator);

	102 DCHECK(std::find(returned_shared_tiles.begin(),

	103 returned_shared_tiles.end(),

	104 **next_iterator) == returned_shared_tiles.end());

	105 return **next_iterator;

	106 }

	107

	108 void RasterTilePriorityQueue::PairedPictureLayerIterator::PopTile(

	109 TreePriority tree_priority) {

	110 PictureLayerImpl::LayerRasterTileIterator* next_iterator =

	111 NextTileIterator(tree_priority).first;

	112 DCHECK(next_iterator);

	113 DCHECK(*next_iterator);

	114 returned_shared_tiles.push_back(**next_iterator);

	115 ++(*next_iterator);

	116

	117 next_iterator = NextTileIterator(tree_priority).first;

	118 while (next_iterator &&

	119 std::find(returned_shared_tiles.begin(),

	120 returned_shared_tiles.end(),

	121 **next_iterator) != returned_shared_tiles.end()) {

	122 ++(*next_iterator);

	123 next_iterator = NextTileIterator(tree_priority).first;

	124 }

	125 }

	126

	127 std::pair<PictureLayerImpl::LayerRasterTileIterator*, WhichTree>

	128 RasterTilePriorityQueue::PairedPictureLayerIterator::NextTileIterator(

	129 TreePriority tree_priority) {

	130 // If both iterators are out of tiles, return NULL.

	131 if (!active_iterator && !pending_iterator) {

	132 return std::pair<PictureLayerImpl::LayerRasterTileIterator*, WhichTree>(

	133 NULL, ACTIVE_TREE);

	134 }

	135

	136 // If we only have one iterator with tiles, return it.

	137 if (!active_iterator)

	138 return std::make_pair(&pending_iterator, PENDING_TREE);

	139 if (!pending_iterator)

	140 return std::make_pair(&active_iterator, ACTIVE_TREE);

	141

	142 // Now both iterators have tiles, so we have to decide based on tree priority.

	143 switch (tree_priority) {

	144 case SMOOTHNESS_TAKES_PRIORITY:

	145 return std::make_pair(&active_iterator, ACTIVE_TREE);

	146 case NEW_CONTENT_TAKES_PRIORITY:

	147 return std::make_pair(&pending_iterator, ACTIVE_TREE);

	148 case SAME_PRIORITY_FOR_BOTH_TREES: {

	149 Tile* active_tile = *active_iterator;

	150 Tile* pending_tile = *pending_iterator;

	151 if (active_tile == pending_tile)

	152 return std::make_pair(&active_iterator, ACTIVE_TREE);

	153

	154 const TilePriority& active_priority = active_tile->priority(ACTIVE_TREE);

	155 const TilePriority& pending_priority =

	156 pending_tile->priority(PENDING_TREE);

	157

	158 if (active_priority.IsHigherPriorityThan(pending_priority))

	159 return std::make_pair(&active_iterator, ACTIVE_TREE);

	160 return std::make_pair(&pending_iterator, PENDING_TREE);

	161 }

	162 }

	163

	164 NOTREACHED();

	165 // Keep the compiler happy.

	166 return std::pair<PictureLayerImpl::LayerRasterTileIterator*, WhichTree>(

	167 NULL, ACTIVE_TREE);

	168 }

	169

	170 RasterTilePriorityQueue::RasterOrderComparator::RasterOrderComparator(

	171 TreePriority tree_priority)

	172 : tree_priority_(tree_priority) {

	173 }

	174

	175 bool RasterTilePriorityQueue::RasterOrderComparator::operator()(

	176 PairedPictureLayerIterator* a,

	177 PairedPictureLayerIterator* b) const {

	178 std::pair<PictureLayerImpl::LayerRasterTileIterator*, WhichTree> a_pair =

	179 a->NextTileIterator(tree_priority_);

	180 DCHECK(a_pair.first);

	181 DCHECK(*a_pair.first);

	182

	183 std::pair<PictureLayerImpl::LayerRasterTileIterator*, WhichTree> b_pair =

	184 b->NextTileIterator(tree_priority_);

	185 DCHECK(b_pair.first);

	186 DCHECK(*b_pair.first);

	187

	188 Tile* a_tile = **a_pair.first;

	189 Tile* b_tile = **b_pair.first;

	190

	191 const TilePriority& a_priority =

	192 a_tile->priority_for_tree_priority(tree_priority_);

	193 const TilePriority& b_priority =

	194 b_tile->priority_for_tree_priority(tree_priority_);

	195 bool prioritize_low_res = tree_priority_ == SMOOTHNESS_TAKES_PRIORITY;

	196

	197 // Now we have to return true iff b is higher priority than a.

	198

	199 // If the bin is the same but the resolution is not, then the order will be

	200 // determined by whether we prioritize low res or not.

	201 // TODO(vmpstr): Remove this when TilePriority is no longer a member of Tile

	202 // class but instead produced by the iterators.

	203 if (b_priority.priority_bin == a_priority.priority_bin &&

	204 b_priority.resolution != a_priority.resolution) {

	205 // Non ideal resolution should be sorted lower than other resolutions.

	206 if (a_priority.resolution == NON_IDEAL_RESOLUTION)

	207 return true;

	208

	209 if (b_priority.resolution == NON_IDEAL_RESOLUTION)

	210 return false;

	211

	212 if (prioritize_low_res)

	213 return b_priority.resolution == LOW_RESOLUTION;

	214

	215 return b_priority.resolution == HIGH_RESOLUTION;

	216 }

	217

	218 return b_priority.IsHigherPriorityThan(a_priority);

	219 }

	220

	221 } // namespace cc

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« cc/resources/eviction_tile_priority_queue.cc ('K') | « cc/resources/raster_tile_priority_queue.h ('k') | cc/resources/tile.h » ('j') | cc/resources/tile_manager.h » ('J')