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chromium / chromium / src / 6b5aaf6974e27f524ed8e6f87cfe511ff32c5c4e / . / cc / layers / layer_impl_unittest.cc
blob: 81c96a883518f80b54553ff114e7ff210846694d [file] [log] [blame]
// Copyright 2011 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/layers/layer_impl.h"
#include "cc/animation/mutable_properties.h"
#include "cc/layers/painted_scrollbar_layer_impl.h"
#include "cc/layers/solid_color_scrollbar_layer_impl.h"
#include "cc/output/filter_operation.h"
#include "cc/output/filter_operations.h"
#include "cc/test/animation_test_common.h"
#include "cc/test/fake_impl_task_runner_provider.h"
#include "cc/test/fake_layer_tree_host_impl.h"
#include "cc/test/fake_output_surface.h"
#include "cc/test/geometry_test_utils.h"
#include "cc/test/test_shared_bitmap_manager.h"
#include "cc/test/test_task_graph_runner.h"
#include "cc/trees/layer_tree_impl.h"
#include "cc/trees/single_thread_proxy.h"
#include "cc/trees/tree_synchronizer.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/skia/include/effects/SkBlurImageFilter.h"
namespace cc {
namespace {
#define EXECUTE_AND_VERIFY_SUBTREE_CHANGED(code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
code_to_test; \
EXPECT_TRUE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(root)); \
EXPECT_FALSE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(child)); \
EXPECT_FALSE(root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting( \
grand_child)); \
EXPECT_TRUE(root->LayerPropertyChanged()); \
EXPECT_TRUE(child->LayerPropertyChanged()); \
EXPECT_TRUE(grand_child->LayerPropertyChanged());
#define EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
code_to_test; \
EXPECT_FALSE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(root)); \
EXPECT_FALSE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(child)); \
EXPECT_FALSE(root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting( \
grand_child)); \
EXPECT_FALSE(root->LayerPropertyChanged()); \
EXPECT_FALSE(child->LayerPropertyChanged()); \
EXPECT_FALSE(grand_child->LayerPropertyChanged());
#define EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( \
code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
code_to_test; \
EXPECT_TRUE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(root)); \
EXPECT_FALSE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(child)); \
EXPECT_FALSE(root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting( \
grand_child)); \
EXPECT_FALSE(root->LayerPropertyChanged()); \
EXPECT_FALSE(child->LayerPropertyChanged()); \
EXPECT_FALSE(grand_child->LayerPropertyChanged());
#define EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
root->layer_tree_impl()->property_trees()->full_tree_damaged = false; \
code_to_test; \
EXPECT_TRUE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(root)); \
EXPECT_FALSE( \
root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting(child)); \
EXPECT_FALSE(root->layer_tree_impl()->LayerNeedsPushPropertiesForTesting( \
grand_child)); \
EXPECT_TRUE(root->LayerPropertyChanged()); \
EXPECT_FALSE(child->LayerPropertyChanged()); \
EXPECT_FALSE(grand_child->LayerPropertyChanged());
#define VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
host_impl.active_tree()->property_trees()->needs_rebuild = true; \
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting(); \
host_impl.ForcePrepareToDraw(); \
EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties()); \
code_to_test; \
EXPECT_TRUE(host_impl.active_tree()->needs_update_draw_properties());
#define VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(code_to_test) \
root->layer_tree_impl()->ResetAllChangeTracking(); \
host_impl.active_tree()->property_trees()->needs_rebuild = true; \
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting(); \
host_impl.ForcePrepareToDraw(); \
EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties()); \
code_to_test; \
EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties());
static gfx::Vector2dF ScrollDelta(LayerImpl* layer_impl) {
gfx::ScrollOffset delta =
layer_impl->layer_tree_impl()
->property_trees()
->scroll_tree.GetScrollOffsetDeltaForTesting(layer_impl->id());
return gfx::Vector2dF(delta.x(), delta.y());
}
TEST(LayerImplTest, VerifyLayerChangesAreTrackedProperly) {
//
// This test checks that layerPropertyChanged() has the correct behavior.
//
// The constructor on this will fake that we are on the correct thread.
// Create a simple LayerImpl tree:
FakeImplTaskRunnerProvider task_runner_provider;
TestSharedBitmapManager shared_bitmap_manager;
TestTaskGraphRunner task_graph_runner;
std::unique_ptr<OutputSurface> output_surface = FakeOutputSurface::Create3d();
FakeLayerTreeHostImpl host_impl(&task_runner_provider, &shared_bitmap_manager,
&task_graph_runner);
host_impl.SetVisible(true);
EXPECT_TRUE(host_impl.InitializeRenderer(output_surface.get()));
std::unique_ptr<LayerImpl> root_clip_ptr =
LayerImpl::Create(host_impl.active_tree(), 1);
LayerImpl* root_clip = root_clip_ptr.get();
std::unique_ptr<LayerImpl> root_ptr =
LayerImpl::Create(host_impl.active_tree(), 2);
LayerImpl* root = root_ptr.get();
root_clip_ptr->test_properties()->AddChild(std::move(root_ptr));
host_impl.active_tree()->SetRootLayer(std::move(root_clip_ptr));
root->test_properties()->force_render_surface = true;
root->layer_tree_impl()->ResetAllChangeTracking();
root->test_properties()->AddChild(
LayerImpl::Create(host_impl.active_tree(), 7));
LayerImpl* child = root->test_properties()->children[0];
child->test_properties()->AddChild(
LayerImpl::Create(host_impl.active_tree(), 8));
LayerImpl* grand_child = child->test_properties()->children[0];
root->SetScrollClipLayer(root_clip->id());
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
// Adding children is an internal operation and should not mark layers as
// changed.
EXPECT_FALSE(root->LayerPropertyChanged());
EXPECT_FALSE(child->LayerPropertyChanged());
EXPECT_FALSE(grand_child->LayerPropertyChanged());
gfx::PointF arbitrary_point_f = gfx::PointF(0.125f, 0.25f);
float arbitrary_number = 0.352f;
gfx::Size arbitrary_size = gfx::Size(111, 222);
gfx::Point arbitrary_point = gfx::Point(333, 444);
gfx::Vector2d arbitrary_vector2d = gfx::Vector2d(111, 222);
gfx::Rect arbitrary_rect = gfx::Rect(arbitrary_point, arbitrary_size);
SkColor arbitrary_color = SkColorSetRGB(10, 20, 30);
gfx::Transform arbitrary_transform;
arbitrary_transform.Scale3d(0.1f, 0.2f, 0.3f);
FilterOperations arbitrary_filters;
arbitrary_filters.Append(FilterOperation::CreateOpacityFilter(0.5f));
SkXfermode::Mode arbitrary_blend_mode = SkXfermode::kMultiply_Mode;
// These properties are internal, and should not be considered "change" when
// they are used.
EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE(
root->SetUpdateRect(arbitrary_rect));
EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetBounds(arbitrary_size));
host_impl.active_tree()->property_trees()->needs_rebuild = true;
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
// Changing these properties affects the entire subtree of layers.
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->OnFilterAnimated(arbitrary_filters));
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(
root->OnFilterAnimated(FilterOperations()));
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->OnOpacityAnimated(arbitrary_number));
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(
root->OnTransformAnimated(arbitrary_transform));
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->ScrollBy(arbitrary_vector2d);
root->SetNeedsPushProperties());
// SetBoundsDelta changes subtree only when masks_to_bounds is true and it
// doesn't set needs_push_properties as it is always called on active tree.
root->SetMasksToBounds(true);
EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetBoundsDelta(arbitrary_vector2d);
root->SetNeedsPushProperties());
// Changing these properties only affects the layer itself.
EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetDrawsContent(true));
EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(
root->SetBackgroundColor(arbitrary_color));
EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(
root->SetBackgroundFilters(arbitrary_filters));
// Special case: check that SetBounds changes behavior depending on
// masksToBounds.
gfx::Size bounds_size(135, 246);
root->SetMasksToBounds(false);
EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetBounds(bounds_size));
host_impl.active_tree()->property_trees()->needs_rebuild = true;
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
root->SetMasksToBounds(true);
host_impl.active_tree()->property_trees()->needs_rebuild = true;
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
// Changing these properties does not cause the layer to be marked as changed
// but does cause the layer to need to push properties.
EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE(
root->SetElementId(2));
EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE(
root->SetMutableProperties(MutableProperty::kOpacity));
// After setting all these properties already, setting to the exact same
// values again should not cause any change.
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetMasksToBounds(true));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(
root->SetPosition(arbitrary_point_f));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->Set3dSortingContextId(1));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(
root->SetTransform(arbitrary_transform));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetContentsOpaque(true));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(
root->SetBlendMode(arbitrary_blend_mode));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetDrawsContent(true));
EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetBounds(bounds_size));
}
TEST(LayerImplTest, VerifyNeedsUpdateDrawProperties) {
FakeImplTaskRunnerProvider task_runner_provider;
TestSharedBitmapManager shared_bitmap_manager;
TestTaskGraphRunner task_graph_runner;
std::unique_ptr<OutputSurface> output_surface = FakeOutputSurface::Create3d();
FakeLayerTreeHostImpl host_impl(&task_runner_provider, &shared_bitmap_manager,
&task_graph_runner);
host_impl.SetVisible(true);
EXPECT_TRUE(host_impl.InitializeRenderer(output_surface.get()));
host_impl.active_tree()->SetRootLayer(
LayerImpl::Create(host_impl.active_tree(), 1));
LayerImpl* root = host_impl.active_tree()->root_layer();
root->SetHasRenderSurface(true);
std::unique_ptr<LayerImpl> layer_ptr =
LayerImpl::Create(host_impl.active_tree(), 2);
LayerImpl* layer = layer_ptr.get();
root->test_properties()->AddChild(std::move(layer_ptr));
layer->SetScrollClipLayer(root->id());
std::unique_ptr<LayerImpl> layer2_ptr =
LayerImpl::Create(host_impl.active_tree(), 3);
LayerImpl* layer2 = layer2_ptr.get();
root->test_properties()->AddChild(std::move(layer2_ptr));
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
DCHECK(host_impl.CanDraw());
gfx::PointF arbitrary_point_f = gfx::PointF(0.125f, 0.25f);
float arbitrary_number = 0.352f;
gfx::Size arbitrary_size = gfx::Size(111, 222);
gfx::Vector2d arbitrary_vector2d = gfx::Vector2d(111, 222);
gfx::Size large_size = gfx::Size(1000, 1000);
SkColor arbitrary_color = SkColorSetRGB(10, 20, 30);
gfx::Transform arbitrary_transform;
arbitrary_transform.Scale3d(0.1f, 0.2f, 0.3f);
FilterOperations arbitrary_filters;
arbitrary_filters.Append(FilterOperation::CreateOpacityFilter(0.5f));
SkXfermode::Mode arbitrary_blend_mode = SkXfermode::kMultiply_Mode;
// Set layer to draw content so that their draw property by property trees is
// verified.
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetDrawsContent(true));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer2->SetDrawsContent(true));
// Render surface functions should not trigger update draw properties, because
// creating render surface is part of update draw properties.
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(true));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(false));
// Create a render surface, because we must have a render surface if we have
// filters.
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(true));
// Related filter functions.
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
root->OnFilterAnimated(arbitrary_filters));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
root->OnFilterAnimated(arbitrary_filters));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
root->OnFilterAnimated(FilterOperations()));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
root->OnFilterAnimated(arbitrary_filters));
// Related scrolling functions.
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(large_size));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(large_size));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->ScrollBy(arbitrary_vector2d));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->ScrollBy(gfx::Vector2d()));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->layer_tree_impl()->DidUpdateScrollOffset(
layer->id(), layer->transform_tree_index()));
layer->layer_tree_impl()
->property_trees()
->scroll_tree.SetScrollOffsetDeltaForTesting(layer->id(),
gfx::Vector2dF());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetCurrentScrollOffset(
gfx::ScrollOffset(arbitrary_vector2d.x(), arbitrary_vector2d.y())));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetCurrentScrollOffset(
gfx::ScrollOffset(arbitrary_vector2d.x(), arbitrary_vector2d.y())));
// Unrelated functions, always set to new values, always set needs update.
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetMasksToBounds(true);
layer->NoteLayerPropertyChanged());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetContentsOpaque(true);
layer->NoteLayerPropertyChanged());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer2->SetPosition(arbitrary_point_f);
layer->NoteLayerPropertyChanged());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->Set3dSortingContextId(1);
layer->NoteLayerPropertyChanged());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetBackgroundColor(arbitrary_color));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetBackgroundFilters(arbitrary_filters));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->OnOpacityAnimated(arbitrary_number));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBlendMode(arbitrary_blend_mode);
layer->NoteLayerPropertyChanged());
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->OnTransformAnimated(arbitrary_transform));
VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(arbitrary_size);
layer->NoteLayerPropertyChanged());
// Unrelated functions, set to the same values, no needs update.
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(arbitrary_filters));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetMasksToBounds(true));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetContentsOpaque(true));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer2->SetPosition(arbitrary_point_f));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->Set3dSortingContextId(1));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetDrawsContent(true));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetBackgroundColor(arbitrary_color));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetBackgroundFilters(arbitrary_filters));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetBlendMode(arbitrary_blend_mode));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetTransform(arbitrary_transform));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(arbitrary_size));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetElementId(2));
VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(
layer->SetMutableProperties(MutableProperty::kTransform));
}
TEST(LayerImplTest, SafeOpaqueBackgroundColor) {
FakeImplTaskRunnerProvider task_runner_provider;
TestSharedBitmapManager shared_bitmap_manager;
TestTaskGraphRunner task_graph_runner;
std::unique_ptr<OutputSurface> output_surface = FakeOutputSurface::Create3d();
FakeLayerTreeHostImpl host_impl(&task_runner_provider, &shared_bitmap_manager,
&task_graph_runner);
host_impl.SetVisible(true);
EXPECT_TRUE(host_impl.InitializeRenderer(output_surface.get()));
host_impl.active_tree()->SetRootLayer(
LayerImpl::Create(host_impl.active_tree(), 1));
LayerImpl* layer = host_impl.active_tree()->root_layer();
for (int contents_opaque = 0; contents_opaque < 2; ++contents_opaque) {
for (int layer_opaque = 0; layer_opaque < 2; ++layer_opaque) {
for (int host_opaque = 0; host_opaque < 2; ++host_opaque) {
layer->SetContentsOpaque(!!contents_opaque);
layer->SetBackgroundColor(layer_opaque ? SK_ColorRED
: SK_ColorTRANSPARENT);
host_impl.active_tree()->set_background_color(
host_opaque ? SK_ColorRED : SK_ColorTRANSPARENT);
host_impl.active_tree()->property_trees()->needs_rebuild = true;
host_impl.active_tree()->BuildLayerListAndPropertyTreesForTesting();
SkColor safe_color = layer->SafeOpaqueBackgroundColor();
if (contents_opaque) {
EXPECT_EQ(SkColorGetA(safe_color), 255u)
<< "Flags: " << contents_opaque << ", " << layer_opaque << ", "
<< host_opaque << "\n";
} else {
EXPECT_NE(SkColorGetA(safe_color), 255u)
<< "Flags: " << contents_opaque << ", " << layer_opaque << ", "
<< host_opaque << "\n";
}
}
}
}
}
class LayerImplScrollTest : public testing::Test {
public:
LayerImplScrollTest()
: host_impl_(settings(),
&task_runner_provider_,
&shared_bitmap_manager_,
&task_graph_runner_),
root_id_(7) {
host_impl_.active_tree()->SetRootLayer(
LayerImpl::Create(host_impl_.active_tree(), root_id_));
host_impl_.active_tree()->root_layer()->test_properties()->AddChild(
LayerImpl::Create(host_impl_.active_tree(), root_id_ + 1));
layer()->SetScrollClipLayer(root_id_);
// Set the max scroll offset by noting that the root layer has bounds (1,1),
// thus whatever bounds are set for the layer will be the max scroll
// offset plus 1 in each direction.
host_impl_.active_tree()->root_layer()->SetBounds(gfx::Size(1, 1));
gfx::Vector2d max_scroll_offset(51, 81);
layer()->SetBounds(gfx::Size(max_scroll_offset.x(), max_scroll_offset.y()));
host_impl_.active_tree()->BuildLayerListAndPropertyTreesForTesting();
}
LayerImpl* layer() {
return host_impl_.active_tree()
->root_layer()
->test_properties()
->children[0];
}
ScrollTree* scroll_tree(LayerImpl* layer_impl) {
return &layer_impl->layer_tree_impl()->property_trees()->scroll_tree;
}
LayerTreeHostImpl& host_impl() { return host_impl_; }
LayerTreeImpl* tree() { return host_impl_.active_tree(); }
LayerTreeSettings settings() {
LayerTreeSettings settings;
settings.verify_clip_tree_calculations = true;
return settings;
}
private:
FakeImplTaskRunnerProvider task_runner_provider_;
TestSharedBitmapManager shared_bitmap_manager_;
TestTaskGraphRunner task_graph_runner_;
FakeLayerTreeHostImpl host_impl_;
int root_id_;
};
TEST_F(LayerImplScrollTest, ScrollByWithZeroOffset) {
// Test that LayerImpl::ScrollBy only affects ScrollDelta and total scroll
// offset is bounded by the range [0, max scroll offset].
EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
gfx::Vector2dF(),
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
EXPECT_VECTOR_EQ(gfx::Vector2dF(), ScrollDelta(layer()));
layer()->ScrollBy(gfx::Vector2dF(-100, 100));
EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 80), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(ScrollDelta(layer()), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
gfx::Vector2dF(),
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
layer()->ScrollBy(gfx::Vector2dF(100, -100));
EXPECT_VECTOR_EQ(gfx::Vector2dF(50, 0), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(ScrollDelta(layer()), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
gfx::Vector2dF(),
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
}
TEST_F(LayerImplScrollTest, ScrollByWithNonZeroOffset) {
gfx::ScrollOffset scroll_offset(10, 5);
scroll_tree(layer())->UpdateScrollOffsetBaseForTesting(layer()->id(),
scroll_offset);
EXPECT_VECTOR_EQ(scroll_offset, layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
scroll_offset,
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
EXPECT_VECTOR_EQ(gfx::Vector2dF(), ScrollDelta(layer()));
layer()->ScrollBy(gfx::Vector2dF(-100, 100));
EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 80), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
gfx::ScrollOffsetWithDelta(scroll_offset, ScrollDelta(layer())),
layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
scroll_offset,
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
layer()->ScrollBy(gfx::Vector2dF(100, -100));
EXPECT_VECTOR_EQ(gfx::Vector2dF(50, 0), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
gfx::ScrollOffsetWithDelta(scroll_offset, ScrollDelta(layer())),
layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(
scroll_offset,
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
}
TEST_F(LayerImplScrollTest, ApplySentScrollsNoListener) {
gfx::ScrollOffset scroll_offset(10, 5);
gfx::Vector2dF scroll_delta(20.5f, 8.5f);
gfx::Vector2d sent_scroll_delta(12, -3);
scroll_tree(layer())->UpdateScrollOffsetBaseForTesting(layer()->id(),
scroll_offset);
layer()->ScrollBy(sent_scroll_delta);
scroll_tree(layer())->CollectScrollDeltasForTesting();
layer()->SetCurrentScrollOffset(scroll_offset +
gfx::ScrollOffset(scroll_delta));
EXPECT_VECTOR_EQ(gfx::ScrollOffsetWithDelta(scroll_offset, scroll_delta),
layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(scroll_delta, ScrollDelta(layer()));
EXPECT_VECTOR_EQ(
scroll_offset,
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
scroll_tree(layer())->ApplySentScrollDeltasFromAbortedCommit();
EXPECT_VECTOR_EQ(gfx::ScrollOffsetWithDelta(scroll_offset, scroll_delta),
layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(scroll_delta - sent_scroll_delta, ScrollDelta(layer()));
EXPECT_VECTOR_EQ(
gfx::ScrollOffsetWithDelta(scroll_offset, sent_scroll_delta),
scroll_tree(layer())->GetScrollOffsetBaseForTesting(layer()->id()));
}
TEST_F(LayerImplScrollTest, ScrollUserUnscrollableLayer) {
gfx::ScrollOffset scroll_offset(10, 5);
gfx::Vector2dF scroll_delta(20.5f, 8.5f);
layer()->set_user_scrollable_vertical(false);
layer()->layer_tree_impl()->property_trees()->needs_rebuild = true;
layer()->layer_tree_impl()->BuildLayerListAndPropertyTreesForTesting();
scroll_tree(layer())->UpdateScrollOffsetBaseForTesting(layer()->id(),
scroll_offset);
gfx::Vector2dF unscrolled = layer()->ScrollBy(scroll_delta);
EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 8.5f), unscrolled);
EXPECT_VECTOR_EQ(gfx::Vector2dF(30.5f, 5), layer()->CurrentScrollOffset());
}
TEST_F(LayerImplScrollTest, PushPropertiesToMirrorsCurrentScrollOffset) {
gfx::ScrollOffset scroll_offset(10, 5);
gfx::Vector2dF scroll_delta(12, 18);
host_impl().CreatePendingTree();
scroll_tree(layer())->UpdateScrollOffsetBaseForTesting(layer()->id(),
scroll_offset);
gfx::Vector2dF unscrolled = layer()->ScrollBy(scroll_delta);
EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 0), unscrolled);
EXPECT_VECTOR_EQ(gfx::Vector2dF(22, 23), layer()->CurrentScrollOffset());
scroll_tree(layer())->CollectScrollDeltasForTesting();
std::unique_ptr<LayerImpl> pending_layer =
LayerImpl::Create(host_impl().sync_tree(), layer()->id());
scroll_tree(pending_layer.get())
->UpdateScrollOffsetBaseForTesting(pending_layer->id(),
layer()->CurrentScrollOffset());
pending_layer->PushPropertiesTo(layer());
EXPECT_VECTOR_EQ(gfx::Vector2dF(22, 23), layer()->CurrentScrollOffset());
EXPECT_VECTOR_EQ(layer()->CurrentScrollOffset(),
pending_layer->CurrentScrollOffset());
}
} // namespace
} // namespace cc