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android / platform / external / chromium_org / 1e34f59 / . / cc / resources / prioritized_tile_set_unittest.cc
blob: 645fa04d497e9998fa077cb076b6c35e702e3ef6 [file] [log] [blame]
// Copyright 2013 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 <algorithm>
#include <vector>
#include "cc/resources/managed_tile_state.h"
#include "cc/resources/prioritized_tile_set.h"
#include "cc/resources/tile.h"
#include "cc/test/fake_output_surface.h"
#include "cc/test/fake_picture_pile_impl.h"
#include "cc/test/fake_tile_manager.h"
#include "cc/test/fake_tile_manager_client.h"
#include "cc/test/test_tile_priorities.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace cc {
class BinComparator {
public:
bool operator()(const scoped_refptr<Tile>& a,
const scoped_refptr<Tile>& b) const {
const ManagedTileState& ams = a->managed_state();
const ManagedTileState& bms = b->managed_state();
if (ams.bin[LOW_PRIORITY_BIN] != bms.bin[LOW_PRIORITY_BIN])
return ams.bin[LOW_PRIORITY_BIN] < bms.bin[LOW_PRIORITY_BIN];
if (ams.required_for_activation != bms.required_for_activation)
return ams.required_for_activation;
if (ams.resolution != bms.resolution)
return ams.resolution < bms.resolution;
if (ams.time_to_needed_in_seconds != bms.time_to_needed_in_seconds)
return ams.time_to_needed_in_seconds < bms.time_to_needed_in_seconds;
if (ams.distance_to_visible_in_pixels !=
bms.distance_to_visible_in_pixels) {
return ams.distance_to_visible_in_pixels <
bms.distance_to_visible_in_pixels;
}
gfx::Rect a_rect = a->content_rect();
gfx::Rect b_rect = b->content_rect();
if (a_rect.y() != b_rect.y())
return a_rect.y() < b_rect.y();
return a_rect.x() < b_rect.x();
}
};
namespace {
class PrioritizedTileSetTest : public testing::Test {
public:
PrioritizedTileSetTest()
: output_surface_(FakeOutputSurface::Create3d()),
resource_provider_(ResourceProvider::Create(output_surface_.get(), 0)),
tile_manager_(new FakeTileManager(&tile_manager_client_,
resource_provider_.get())),
picture_pile_(FakePicturePileImpl::CreatePile()) {}
scoped_refptr<Tile> CreateTile() {
return make_scoped_refptr(new Tile(tile_manager_.get(),
picture_pile_.get(),
settings_.default_tile_size,
gfx::Rect(),
gfx::Rect(),
1.0,
0,
0,
true));
}
private:
FakeTileManagerClient tile_manager_client_;
LayerTreeSettings settings_;
scoped_ptr<FakeOutputSurface> output_surface_;
scoped_ptr<ResourceProvider> resource_provider_;
scoped_ptr<FakeTileManager> tile_manager_;
scoped_refptr<FakePicturePileImpl> picture_pile_;
};
TEST_F(PrioritizedTileSetTest, EmptyIterator) {
PrioritizedTileSet set;
set.Sort();
PrioritizedTileSet::PriorityIterator it(&set);
EXPECT_FALSE(it);
}
TEST_F(PrioritizedTileSetTest, NonEmptyIterator) {
PrioritizedTileSet set;
scoped_refptr<Tile> tile = CreateTile();
set.InsertTile(tile, NOW_BIN);
set.Sort();
PrioritizedTileSet::PriorityIterator it(&set);
EXPECT_TRUE(it);
EXPECT_TRUE(*it == tile.get());
++it;
EXPECT_FALSE(it);
}
TEST_F(PrioritizedTileSetTest, NowAndReadyToDrawBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, NOW_AND_READY_TO_DRAW_BIN);
}
}
set.Sort();
// Tiles should appear in the same order as inserted.
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, NowBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, NOW_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, SoonBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, SOON_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, EventuallyAndActiveBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, EVENTUALLY_AND_ACTIVE_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, EventuallyBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, EVENTUALLY_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, NeverAndActiveBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, NEVER_AND_ACTIVE_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, NeverBin) {
PrioritizedTileSet set;
TilePriority priorities[4] = {
TilePriorityForEventualBin(),
TilePriorityForNowBin(),
TilePriority(),
TilePriorityForSoonBin()};
std::vector<scoped_refptr<Tile> > tiles;
for (int priority = 0; priority < 4; ++priority) {
for (int i = 0; i < 5; ++i) {
scoped_refptr<Tile> tile = CreateTile();
tile->SetPriority(ACTIVE_TREE, priorities[priority]);
tile->SetPriority(PENDING_TREE, priorities[priority]);
tiles.push_back(tile);
set.InsertTile(tile, NEVER_BIN);
}
}
set.Sort();
// Tiles should appear in BinComparator order.
std::sort(tiles.begin(), tiles.end(), BinComparator());
int i = 0;
for (PrioritizedTileSet::PriorityIterator it(&set);
it;
++it) {
EXPECT_TRUE(*it == tiles[i].get());
++i;
}
EXPECT_EQ(20, i);
}
TEST_F(PrioritizedTileSetTest, TilesForEachBin) {
scoped_refptr<Tile> now_and_ready_to_draw_bin = CreateTile();
scoped_refptr<Tile> now_bin = CreateTile();
scoped_refptr<Tile> soon_bin = CreateTile();
scoped_refptr<Tile> eventually_and_active_bin = CreateTile();
scoped_refptr<Tile> eventually_bin = CreateTile();
scoped_refptr<Tile> never_bin = CreateTile();
scoped_refptr<Tile> never_and_active_bin = CreateTile();
PrioritizedTileSet set;
set.InsertTile(soon_bin, SOON_BIN);
set.InsertTile(never_and_active_bin, NEVER_AND_ACTIVE_BIN);
set.InsertTile(eventually_bin, EVENTUALLY_BIN);
set.InsertTile(now_bin, NOW_BIN);
set.InsertTile(eventually_and_active_bin, EVENTUALLY_AND_ACTIVE_BIN);
set.InsertTile(never_bin, NEVER_BIN);
set.InsertTile(now_and_ready_to_draw_bin, NOW_AND_READY_TO_DRAW_BIN);
set.Sort();
// Tiles should appear in order.
PrioritizedTileSet::PriorityIterator it(&set);
EXPECT_TRUE(*it == now_and_ready_to_draw_bin.get());
++it;
EXPECT_TRUE(*it == now_bin.get());
++it;
EXPECT_TRUE(*it == soon_bin.get());
++it;
EXPECT_TRUE(*it == eventually_and_active_bin.get());
++it;
EXPECT_TRUE(*it == eventually_bin.get());
++it;
EXPECT_TRUE(*it == never_and_active_bin.get());
++it;
EXPECT_TRUE(*it == never_bin.get());
++it;
EXPECT_FALSE(it);
}
TEST_F(PrioritizedTileSetTest, TilesForFirstAndLastBins) {
scoped_refptr<Tile> now_and_ready_to_draw_bin = CreateTile();
scoped_refptr<Tile> never_bin = CreateTile();
PrioritizedTileSet set;
set.InsertTile(never_bin, NEVER_BIN);
set.InsertTile(now_and_ready_to_draw_bin, NOW_AND_READY_TO_DRAW_BIN);
set.Sort();
// Only two tiles should appear and they should appear in order.
PrioritizedTileSet::PriorityIterator it(&set);
EXPECT_TRUE(*it == now_and_ready_to_draw_bin.get());
++it;
EXPECT_TRUE(*it == never_bin.get());
++it;
EXPECT_FALSE(it);
}
TEST_F(PrioritizedTileSetTest, MultipleIterators) {
scoped_refptr<Tile> now_and_ready_to_draw_bin = CreateTile();
scoped_refptr<Tile> now_bin = CreateTile();
scoped_refptr<Tile> soon_bin = CreateTile();
scoped_refptr<Tile> eventually_bin = CreateTile();
scoped_refptr<Tile> never_bin = CreateTile();
PrioritizedTileSet set;
set.InsertTile(soon_bin, SOON_BIN);
set.InsertTile(eventually_bin, EVENTUALLY_BIN);
set.InsertTile(now_bin, NOW_BIN);
set.InsertTile(never_bin, NEVER_BIN);
set.InsertTile(now_and_ready_to_draw_bin, NOW_AND_READY_TO_DRAW_BIN);
set.Sort();
// Tiles should appear in order.
PrioritizedTileSet::PriorityIterator it(&set);
EXPECT_TRUE(*it == now_and_ready_to_draw_bin.get());
++it;
EXPECT_TRUE(*it == now_bin.get());
++it;
EXPECT_TRUE(*it == soon_bin.get());
++it;
EXPECT_TRUE(*it == eventually_bin.get());
++it;
EXPECT_TRUE(*it == never_bin.get());
++it;
EXPECT_FALSE(it);
// Creating multiple iterators shouldn't affect old iterators.
PrioritizedTileSet::PriorityIterator second_it(&set);
EXPECT_TRUE(second_it);
EXPECT_FALSE(it);
++second_it;
EXPECT_TRUE(second_it);
++second_it;
EXPECT_TRUE(second_it);
EXPECT_FALSE(it);
PrioritizedTileSet::PriorityIterator third_it(&set);
EXPECT_TRUE(third_it);
++second_it;
++second_it;
EXPECT_TRUE(second_it);
EXPECT_TRUE(third_it);
EXPECT_FALSE(it);
++third_it;
++third_it;
EXPECT_TRUE(third_it);
EXPECT_TRUE(*third_it == soon_bin.get());
EXPECT_TRUE(second_it);
EXPECT_TRUE(*second_it == never_bin.get());
EXPECT_FALSE(it);
++second_it;
EXPECT_TRUE(third_it);
EXPECT_FALSE(second_it);
EXPECT_FALSE(it);
set.Clear();
PrioritizedTileSet::PriorityIterator empty_it(&set);
EXPECT_FALSE(empty_it);
}
} // namespace
} // namespace cc