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chromium / chromium / src.git / a7c078b8365d73bc20015bed374bd6c929d5dca9 / . / cc / LayerChromiumTest.cpp
blob: 9f5401bcdbd02403d0b0171f77948a515060c1bd [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 "config.h"
#include "LayerChromium.h"
#include "CCGeometryTestUtils.h"
#include "CCKeyframedAnimationCurve.h"
#include "CCLayerImpl.h"
#include "CCLayerTreeHost.h"
#include "CCSingleThreadProxy.h"
#include "FakeCCLayerTreeHostClient.h"
#include "LayerPainterChromium.h"
#include "WebCompositorInitializer.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <public/WebTransformationMatrix.h>
using namespace cc;
using namespace WebKitTests;
using WebKit::WebTransformationMatrix;
using ::testing::Mock;
using ::testing::_;
using ::testing::AtLeast;
using ::testing::AnyNumber;
#define EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(numTimesExpectedSetNeedsCommit, codeToTest) do { \
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times((numTimesExpectedSetNeedsCommit)); \
codeToTest; \
Mock::VerifyAndClearExpectations(m_layerTreeHost.get()); \
} while (0)
namespace {
class MockCCLayerTreeHost : public CCLayerTreeHost {
public:
MockCCLayerTreeHost()
: CCLayerTreeHost(&m_fakeClient, CCLayerTreeSettings())
{
initialize();
}
MOCK_METHOD0(setNeedsCommit, void());
private:
FakeCCLayerTreeHostClient m_fakeClient;
};
class MockLayerPainterChromium : public LayerPainterChromium {
public:
virtual void paint(SkCanvas*, const IntRect&, FloatRect&) OVERRIDE { }
};
class LayerChromiumTest : public testing::Test {
public:
LayerChromiumTest()
: m_compositorInitializer(0)
{
}
protected:
virtual void SetUp()
{
m_layerTreeHost = adoptPtr(new MockCCLayerTreeHost);
}
virtual void TearDown()
{
Mock::VerifyAndClearExpectations(m_layerTreeHost.get());
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AnyNumber());
m_parent.clear();
m_child1.clear();
m_child2.clear();
m_child3.clear();
m_grandChild1.clear();
m_grandChild2.clear();
m_grandChild3.clear();
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
}
void verifyTestTreeInitialState() const
{
ASSERT_EQ(static_cast<size_t>(3), m_parent->children().size());
EXPECT_EQ(m_child1, m_parent->children()[0]);
EXPECT_EQ(m_child2, m_parent->children()[1]);
EXPECT_EQ(m_child3, m_parent->children()[2]);
EXPECT_EQ(m_parent.get(), m_child1->parent());
EXPECT_EQ(m_parent.get(), m_child2->parent());
EXPECT_EQ(m_parent.get(), m_child3->parent());
ASSERT_EQ(static_cast<size_t>(2), m_child1->children().size());
EXPECT_EQ(m_grandChild1, m_child1->children()[0]);
EXPECT_EQ(m_grandChild2, m_child1->children()[1]);
EXPECT_EQ(m_child1.get(), m_grandChild1->parent());
EXPECT_EQ(m_child1.get(), m_grandChild2->parent());
ASSERT_EQ(static_cast<size_t>(1), m_child2->children().size());
EXPECT_EQ(m_grandChild3, m_child2->children()[0]);
EXPECT_EQ(m_child2.get(), m_grandChild3->parent());
ASSERT_EQ(static_cast<size_t>(0), m_child3->children().size());
}
void createSimpleTestTree()
{
m_parent = LayerChromium::create();
m_child1 = LayerChromium::create();
m_child2 = LayerChromium::create();
m_child3 = LayerChromium::create();
m_grandChild1 = LayerChromium::create();
m_grandChild2 = LayerChromium::create();
m_grandChild3 = LayerChromium::create();
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AnyNumber());
m_layerTreeHost->setRootLayer(m_parent);
m_parent->addChild(m_child1);
m_parent->addChild(m_child2);
m_parent->addChild(m_child3);
m_child1->addChild(m_grandChild1);
m_child1->addChild(m_grandChild2);
m_child2->addChild(m_grandChild3);
Mock::VerifyAndClearExpectations(m_layerTreeHost.get());
verifyTestTreeInitialState();
}
OwnPtr<MockCCLayerTreeHost> m_layerTreeHost;
RefPtr<LayerChromium> m_parent, m_child1, m_child2, m_child3, m_grandChild1, m_grandChild2, m_grandChild3;
WebCompositorInitializer m_compositorInitializer;
};
TEST_F(LayerChromiumTest, basicCreateAndDestroy)
{
RefPtr<LayerChromium> testLayer = LayerChromium::create();
ASSERT_TRUE(testLayer);
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(0);
testLayer->setLayerTreeHost(m_layerTreeHost.get());
}
TEST_F(LayerChromiumTest, addAndRemoveChild)
{
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child = LayerChromium::create();
// Upon creation, layers should not have children or parent.
ASSERT_EQ(static_cast<size_t>(0), parent->children().size());
EXPECT_FALSE(child->parent());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, m_layerTreeHost->setRootLayer(parent));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->addChild(child));
ASSERT_EQ(static_cast<size_t>(1), parent->children().size());
EXPECT_EQ(child.get(), parent->children()[0]);
EXPECT_EQ(parent.get(), child->parent());
EXPECT_EQ(parent.get(), child->rootLayer());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(1), child->removeFromParent());
}
TEST_F(LayerChromiumTest, insertChild)
{
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child1 = LayerChromium::create();
RefPtr<LayerChromium> child2 = LayerChromium::create();
RefPtr<LayerChromium> child3 = LayerChromium::create();
RefPtr<LayerChromium> child4 = LayerChromium::create();
parent->setLayerTreeHost(m_layerTreeHost.get());
ASSERT_EQ(static_cast<size_t>(0), parent->children().size());
// Case 1: inserting to empty list.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child3, 0));
ASSERT_EQ(static_cast<size_t>(1), parent->children().size());
EXPECT_EQ(child3, parent->children()[0]);
EXPECT_EQ(parent.get(), child3->parent());
// Case 2: inserting to beginning of list
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child1, 0));
ASSERT_EQ(static_cast<size_t>(2), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
EXPECT_EQ(child3, parent->children()[1]);
EXPECT_EQ(parent.get(), child1->parent());
// Case 3: inserting to middle of list
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child2, 1));
ASSERT_EQ(static_cast<size_t>(3), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
EXPECT_EQ(child2, parent->children()[1]);
EXPECT_EQ(child3, parent->children()[2]);
EXPECT_EQ(parent.get(), child2->parent());
// Case 4: inserting to end of list
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child4, 3));
ASSERT_EQ(static_cast<size_t>(4), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
EXPECT_EQ(child2, parent->children()[1]);
EXPECT_EQ(child3, parent->children()[2]);
EXPECT_EQ(child4, parent->children()[3]);
EXPECT_EQ(parent.get(), child4->parent());
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AtLeast(1));
}
TEST_F(LayerChromiumTest, insertChildPastEndOfList)
{
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child1 = LayerChromium::create();
RefPtr<LayerChromium> child2 = LayerChromium::create();
ASSERT_EQ(static_cast<size_t>(0), parent->children().size());
// insert to an out-of-bounds index
parent->insertChild(child1, 53);
ASSERT_EQ(static_cast<size_t>(1), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
// insert another child to out-of-bounds, when list is not already empty.
parent->insertChild(child2, 2459);
ASSERT_EQ(static_cast<size_t>(2), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
EXPECT_EQ(child2, parent->children()[1]);
}
TEST_F(LayerChromiumTest, insertSameChildTwice)
{
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child1 = LayerChromium::create();
RefPtr<LayerChromium> child2 = LayerChromium::create();
parent->setLayerTreeHost(m_layerTreeHost.get());
ASSERT_EQ(static_cast<size_t>(0), parent->children().size());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child1, 0));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, parent->insertChild(child2, 1));
ASSERT_EQ(static_cast<size_t>(2), parent->children().size());
EXPECT_EQ(child1, parent->children()[0]);
EXPECT_EQ(child2, parent->children()[1]);
// Inserting the same child again should cause the child to be removed and re-inserted at the new location.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(1), parent->insertChild(child1, 1));
// child1 should now be at the end of the list.
ASSERT_EQ(static_cast<size_t>(2), parent->children().size());
EXPECT_EQ(child2, parent->children()[0]);
EXPECT_EQ(child1, parent->children()[1]);
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AtLeast(1));
}
TEST_F(LayerChromiumTest, replaceChildWithNewChild)
{
createSimpleTestTree();
RefPtr<LayerChromium> child4 = LayerChromium::create();
EXPECT_FALSE(child4->parent());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(1), m_parent->replaceChild(m_child2.get(), child4));
ASSERT_EQ(static_cast<size_t>(3), m_parent->children().size());
EXPECT_EQ(m_child1, m_parent->children()[0]);
EXPECT_EQ(child4, m_parent->children()[1]);
EXPECT_EQ(m_child3, m_parent->children()[2]);
EXPECT_EQ(m_parent.get(), child4->parent());
EXPECT_FALSE(m_child2->parent());
}
TEST_F(LayerChromiumTest, replaceChildWithNewChildThatHasOtherParent)
{
createSimpleTestTree();
// create another simple tree with testLayer and child4.
RefPtr<LayerChromium> testLayer = LayerChromium::create();
RefPtr<LayerChromium> child4 = LayerChromium::create();
testLayer->addChild(child4);
ASSERT_EQ(static_cast<size_t>(1), testLayer->children().size());
EXPECT_EQ(child4, testLayer->children()[0]);
EXPECT_EQ(testLayer.get(), child4->parent());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(1), m_parent->replaceChild(m_child2.get(), child4));
ASSERT_EQ(static_cast<size_t>(3), m_parent->children().size());
EXPECT_EQ(m_child1, m_parent->children()[0]);
EXPECT_EQ(child4, m_parent->children()[1]);
EXPECT_EQ(m_child3, m_parent->children()[2]);
EXPECT_EQ(m_parent.get(), child4->parent());
// testLayer should no longer have child4,
// and child2 should no longer have a parent.
ASSERT_EQ(static_cast<size_t>(0), testLayer->children().size());
EXPECT_FALSE(m_child2->parent());
}
TEST_F(LayerChromiumTest, replaceChildWithSameChild)
{
createSimpleTestTree();
// setNeedsCommit should not be called because its the same child
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, m_parent->replaceChild(m_child2.get(), m_child2));
verifyTestTreeInitialState();
}
TEST_F(LayerChromiumTest, removeAllChildren)
{
createSimpleTestTree();
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(3), m_parent->removeAllChildren());
ASSERT_EQ(static_cast<size_t>(0), m_parent->children().size());
EXPECT_FALSE(m_child1->parent());
EXPECT_FALSE(m_child2->parent());
EXPECT_FALSE(m_child3->parent());
}
TEST_F(LayerChromiumTest, setChildren)
{
RefPtr<LayerChromium> oldParent = LayerChromium::create();
RefPtr<LayerChromium> newParent = LayerChromium::create();
RefPtr<LayerChromium> child1 = LayerChromium::create();
RefPtr<LayerChromium> child2 = LayerChromium::create();
Vector<RefPtr<LayerChromium> > newChildren;
newChildren.append(child1);
newChildren.append(child2);
// Set up and verify initial test conditions: child1 has a parent, child2 has no parent.
oldParent->addChild(child1);
ASSERT_EQ(static_cast<size_t>(0), newParent->children().size());
EXPECT_EQ(oldParent.get(), child1->parent());
EXPECT_FALSE(child2->parent());
newParent->setLayerTreeHost(m_layerTreeHost.get());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(AtLeast(1), newParent->setChildren(newChildren));
ASSERT_EQ(static_cast<size_t>(2), newParent->children().size());
EXPECT_EQ(newParent.get(), child1->parent());
EXPECT_EQ(newParent.get(), child2->parent());
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AtLeast(1));
}
TEST_F(LayerChromiumTest, getRootLayerAfterTreeManipulations)
{
createSimpleTestTree();
// For this test we don't care about setNeedsCommit calls.
EXPECT_CALL(*m_layerTreeHost, setNeedsCommit()).Times(AtLeast(1));
RefPtr<LayerChromium> child4 = LayerChromium::create();
EXPECT_EQ(m_parent.get(), m_parent->rootLayer());
EXPECT_EQ(m_parent.get(), m_child1->rootLayer());
EXPECT_EQ(m_parent.get(), m_child2->rootLayer());
EXPECT_EQ(m_parent.get(), m_child3->rootLayer());
EXPECT_EQ(child4.get(), child4->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild1->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild2->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild3->rootLayer());
m_child1->removeFromParent();
// child1 and its children, grandChild1 and grandChild2 are now on a separate subtree.
EXPECT_EQ(m_parent.get(), m_parent->rootLayer());
EXPECT_EQ(m_child1.get(), m_child1->rootLayer());
EXPECT_EQ(m_parent.get(), m_child2->rootLayer());
EXPECT_EQ(m_parent.get(), m_child3->rootLayer());
EXPECT_EQ(child4.get(), child4->rootLayer());
EXPECT_EQ(m_child1.get(), m_grandChild1->rootLayer());
EXPECT_EQ(m_child1.get(), m_grandChild2->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild3->rootLayer());
m_grandChild3->addChild(child4);
EXPECT_EQ(m_parent.get(), m_parent->rootLayer());
EXPECT_EQ(m_child1.get(), m_child1->rootLayer());
EXPECT_EQ(m_parent.get(), m_child2->rootLayer());
EXPECT_EQ(m_parent.get(), m_child3->rootLayer());
EXPECT_EQ(m_parent.get(), child4->rootLayer());
EXPECT_EQ(m_child1.get(), m_grandChild1->rootLayer());
EXPECT_EQ(m_child1.get(), m_grandChild2->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild3->rootLayer());
m_child2->replaceChild(m_grandChild3.get(), m_child1);
// grandChild3 gets orphaned and the child1 subtree gets planted back into the tree under child2.
EXPECT_EQ(m_parent.get(), m_parent->rootLayer());
EXPECT_EQ(m_parent.get(), m_child1->rootLayer());
EXPECT_EQ(m_parent.get(), m_child2->rootLayer());
EXPECT_EQ(m_parent.get(), m_child3->rootLayer());
EXPECT_EQ(m_grandChild3.get(), child4->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild1->rootLayer());
EXPECT_EQ(m_parent.get(), m_grandChild2->rootLayer());
EXPECT_EQ(m_grandChild3.get(), m_grandChild3->rootLayer());
}
TEST_F(LayerChromiumTest, checkSetNeedsDisplayCausesCorrectBehavior)
{
// The semantics for setNeedsDisplay which are tested here:
// 1. sets needsDisplay flag appropriately.
// 2. indirectly calls setNeedsCommit, exactly once for each call to setNeedsDisplay.
RefPtr<LayerChromium> testLayer = LayerChromium::create();
testLayer->setLayerTreeHost(m_layerTreeHost.get());
IntSize testBounds = IntSize(501, 508);
FloatRect dirty1 = FloatRect(10, 15, 1, 2);
FloatRect dirty2 = FloatRect(20, 25, 3, 4);
FloatRect emptyDirtyRect = FloatRect(40, 45, 0, 0);
FloatRect outOfBoundsDirtyRect = FloatRect(400, 405, 500, 502);
// Before anything, testLayer should not be dirty.
EXPECT_FALSE(testLayer->needsDisplay());
// This is just initialization, but setNeedsCommit behavior is verified anyway to avoid warnings.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBounds(testBounds));
testLayer = LayerChromium::create();
testLayer->setLayerTreeHost(m_layerTreeHost.get());
EXPECT_FALSE(testLayer->needsDisplay());
// The real test begins here.
// Case 1: needsDisplay flag should not change because of an empty dirty rect.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNeedsDisplayRect(emptyDirtyRect));
EXPECT_FALSE(testLayer->needsDisplay());
// Case 2: basic.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNeedsDisplayRect(dirty1));
EXPECT_TRUE(testLayer->needsDisplay());
// Case 3: a second dirty rect.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNeedsDisplayRect(dirty2));
EXPECT_TRUE(testLayer->needsDisplay());
// Case 4: LayerChromium should accept dirty rects that go beyond its bounds.
testLayer = LayerChromium::create();
testLayer->setLayerTreeHost(m_layerTreeHost.get());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBounds(testBounds));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNeedsDisplayRect(outOfBoundsDirtyRect));
EXPECT_TRUE(testLayer->needsDisplay());
// Case 5: setNeedsDisplay() without the dirty rect arg.
testLayer = LayerChromium::create();
testLayer->setLayerTreeHost(m_layerTreeHost.get());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBounds(testBounds));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNeedsDisplay());
EXPECT_TRUE(testLayer->needsDisplay());
}
TEST_F(LayerChromiumTest, checkPropertyChangeCausesCorrectBehavior)
{
RefPtr<LayerChromium> testLayer = LayerChromium::create();
testLayer->setLayerTreeHost(m_layerTreeHost.get());
RefPtr<LayerChromium> dummyLayer = LayerChromium::create(); // just a dummy layer for this test case.
// sanity check of initial test condition
EXPECT_FALSE(testLayer->needsDisplay());
// Test properties that should not call needsDisplay and needsCommit when changed.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setVisibleContentRect(IntRect(0, 0, 40, 50)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setUseLCDText(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setDrawOpacity(0.5));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setRenderTarget(0));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setDrawTransform(WebTransformationMatrix()));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setScreenSpaceTransform(WebTransformationMatrix()));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(0, testLayer->setDrawableContentRect(IntRect(4, 5, 6, 7)));
EXPECT_FALSE(testLayer->needsDisplay());
// Next, test properties that should call setNeedsCommit (but not setNeedsDisplay)
// All properties need to be set to new values in order for setNeedsCommit to be called.
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setAnchorPoint(FloatPoint(1.23f, 4.56f)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setAnchorPointZ(0.7f));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBackgroundColor(SK_ColorLTGRAY));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setMasksToBounds(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setMaskLayer(dummyLayer.get()));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setOpacity(0.5));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setOpaque(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setPosition(FloatPoint(4, 9)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setReplicaLayer(dummyLayer.get()));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setSublayerTransform(WebTransformationMatrix(0, 0, 0, 0, 0, 0)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setScrollable(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setShouldScrollOnMainThread(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setNonFastScrollableRegion(Region(IntRect(1, 1, 2, 2))));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setHaveWheelEventHandlers(true));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setScrollPosition(IntPoint(10, 10)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setTransform(WebTransformationMatrix(0, 0, 0, 0, 0, 0)));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setDoubleSided(false));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setDebugName("Test Layer"));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setDrawCheckerboardForMissingTiles(!testLayer->drawCheckerboardForMissingTiles()));
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setForceRenderSurface(true));
// The above tests should not have caused a change to the needsDisplay flag.
EXPECT_FALSE(testLayer->needsDisplay());
// Test properties that should call setNeedsDisplay and setNeedsCommit
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBounds(IntSize(5, 10)));
EXPECT_TRUE(testLayer->needsDisplay());
}
TEST_F(LayerChromiumTest, verifyPushPropertiesAccumulatesUpdateRect)
{
DebugScopedSetImplThread setImplThread;
RefPtr<LayerChromium> testLayer = LayerChromium::create();
OwnPtr<CCLayerImpl> implLayer = CCLayerImpl::create(1);
testLayer->setNeedsDisplayRect(FloatRect(FloatPoint::zero(), FloatSize(5, 5)));
testLayer->pushPropertiesTo(implLayer.get());
EXPECT_FLOAT_RECT_EQ(FloatRect(FloatPoint::zero(), FloatSize(5, 5)), implLayer->updateRect());
// The CCLayerImpl's updateRect should be accumulated here, since we did not do anything to clear it.
testLayer->setNeedsDisplayRect(FloatRect(FloatPoint(10, 10), FloatSize(5, 5)));
testLayer->pushPropertiesTo(implLayer.get());
EXPECT_FLOAT_RECT_EQ(FloatRect(FloatPoint::zero(), FloatSize(15, 15)), implLayer->updateRect());
// If we do clear the CCLayerImpl side, then the next updateRect should be fresh without accumulation.
implLayer->resetAllChangeTrackingForSubtree();
testLayer->setNeedsDisplayRect(FloatRect(FloatPoint(10, 10), FloatSize(5, 5)));
testLayer->pushPropertiesTo(implLayer.get());
EXPECT_FLOAT_RECT_EQ(FloatRect(FloatPoint(10, 10), FloatSize(5, 5)), implLayer->updateRect());
}
class LayerChromiumWithContentScaling : public LayerChromium {
public:
explicit LayerChromiumWithContentScaling()
: LayerChromium()
{
}
virtual bool needsContentsScale() const OVERRIDE
{
return true;
}
virtual void setNeedsDisplayRect(const FloatRect& dirtyRect) OVERRIDE
{
m_lastNeedsDisplayRect = dirtyRect;
LayerChromium::setNeedsDisplayRect(dirtyRect);
}
void resetNeedsDisplay()
{
m_needsDisplay = false;
}
const FloatRect& lastNeedsDisplayRect() const { return m_lastNeedsDisplayRect; }
private:
FloatRect m_lastNeedsDisplayRect;
};
TEST_F(LayerChromiumTest, checkContentsScaleChangeTriggersNeedsDisplay)
{
RefPtr<LayerChromiumWithContentScaling> testLayer = adoptRef(new LayerChromiumWithContentScaling());
testLayer->setLayerTreeHost(m_layerTreeHost.get());
IntSize testBounds = IntSize(320, 240);
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setBounds(testBounds));
testLayer->resetNeedsDisplay();
EXPECT_FALSE(testLayer->needsDisplay());
EXECUTE_AND_VERIFY_SET_NEEDS_COMMIT_BEHAVIOR(1, testLayer->setContentsScale(testLayer->contentsScale() + 1.f));
EXPECT_TRUE(testLayer->needsDisplay());
EXPECT_FLOAT_RECT_EQ(FloatRect(0, 0, 320, 240), testLayer->lastNeedsDisplayRect());
}
class FakeCCLayerTreeHost : public CCLayerTreeHost {
public:
static PassOwnPtr<FakeCCLayerTreeHost> create()
{
OwnPtr<FakeCCLayerTreeHost> host(adoptPtr(new FakeCCLayerTreeHost));
// The initialize call will fail, since our client doesn't provide a valid GraphicsContext3D, but it doesn't matter in the tests that use this fake so ignore the return value.
host->initialize();
return host.release();
}
private:
FakeCCLayerTreeHost()
: CCLayerTreeHost(&m_client, CCLayerTreeSettings())
{
}
FakeCCLayerTreeHostClient m_client;
};
void assertLayerTreeHostMatchesForSubtree(LayerChromium* layer, CCLayerTreeHost* host)
{
EXPECT_EQ(host, layer->layerTreeHost());
for (size_t i = 0; i < layer->children().size(); ++i)
assertLayerTreeHostMatchesForSubtree(layer->children()[i].get(), host);
if (layer->maskLayer())
assertLayerTreeHostMatchesForSubtree(layer->maskLayer(), host);
if (layer->replicaLayer())
assertLayerTreeHostMatchesForSubtree(layer->replicaLayer(), host);
}
TEST(LayerChromiumLayerTreeHostTest, enteringTree)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child = LayerChromium::create();
RefPtr<LayerChromium> mask = LayerChromium::create();
RefPtr<LayerChromium> replica = LayerChromium::create();
RefPtr<LayerChromium> replicaMask = LayerChromium::create();
// Set up a detached tree of layers. The host pointer should be nil for these layers.
parent->addChild(child);
child->setMaskLayer(mask.get());
child->setReplicaLayer(replica.get());
replica->setMaskLayer(mask.get());
assertLayerTreeHostMatchesForSubtree(parent.get(), 0);
OwnPtr<FakeCCLayerTreeHost> layerTreeHost(FakeCCLayerTreeHost::create());
// Setting the root layer should set the host pointer for all layers in the tree.
layerTreeHost->setRootLayer(parent.get());
assertLayerTreeHostMatchesForSubtree(parent.get(), layerTreeHost.get());
// Clearing the root layer should also clear out the host pointers for all layers in the tree.
layerTreeHost->setRootLayer(0);
assertLayerTreeHostMatchesForSubtree(parent.get(), 0);
layerTreeHost.clear();
}
TEST(LayerChromiumLayerTreeHostTest, addingLayerSubtree)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> parent = LayerChromium::create();
OwnPtr<FakeCCLayerTreeHost> layerTreeHost(FakeCCLayerTreeHost::create());
layerTreeHost->setRootLayer(parent.get());
EXPECT_EQ(parent->layerTreeHost(), layerTreeHost.get());
// Adding a subtree to a layer already associated with a host should set the host pointer on all layers in that subtree.
RefPtr<LayerChromium> child = LayerChromium::create();
RefPtr<LayerChromium> grandChild = LayerChromium::create();
child->addChild(grandChild);
// Masks, replicas, and replica masks should pick up the new host too.
RefPtr<LayerChromium> childMask = LayerChromium::create();
child->setMaskLayer(childMask.get());
RefPtr<LayerChromium> childReplica = LayerChromium::create();
child->setReplicaLayer(childReplica.get());
RefPtr<LayerChromium> childReplicaMask = LayerChromium::create();
childReplica->setMaskLayer(childReplicaMask.get());
parent->addChild(child);
assertLayerTreeHostMatchesForSubtree(parent.get(), layerTreeHost.get());
layerTreeHost->setRootLayer(0);
layerTreeHost.clear();
}
TEST(LayerChromiumLayerTreeHostTest, changeHost)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> child = LayerChromium::create();
RefPtr<LayerChromium> mask = LayerChromium::create();
RefPtr<LayerChromium> replica = LayerChromium::create();
RefPtr<LayerChromium> replicaMask = LayerChromium::create();
// Same setup as the previous test.
parent->addChild(child);
child->setMaskLayer(mask.get());
child->setReplicaLayer(replica.get());
replica->setMaskLayer(mask.get());
OwnPtr<FakeCCLayerTreeHost> firstLayerTreeHost(FakeCCLayerTreeHost::create());
firstLayerTreeHost->setRootLayer(parent.get());
assertLayerTreeHostMatchesForSubtree(parent.get(), firstLayerTreeHost.get());
// Now re-root the tree to a new host (simulating what we do on a context lost event).
// This should update the host pointers for all layers in the tree.
OwnPtr<FakeCCLayerTreeHost> secondLayerTreeHost(FakeCCLayerTreeHost::create());
secondLayerTreeHost->setRootLayer(parent.get());
assertLayerTreeHostMatchesForSubtree(parent.get(), secondLayerTreeHost.get());
secondLayerTreeHost->setRootLayer(0);
firstLayerTreeHost.clear();
secondLayerTreeHost.clear();
}
TEST(LayerChromiumLayerTreeHostTest, changeHostInSubtree)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> firstParent = LayerChromium::create();
RefPtr<LayerChromium> firstChild = LayerChromium::create();
RefPtr<LayerChromium> secondParent = LayerChromium::create();
RefPtr<LayerChromium> secondChild = LayerChromium::create();
RefPtr<LayerChromium> secondGrandChild = LayerChromium::create();
// First put all children under the first parent and set the first host.
firstParent->addChild(firstChild);
secondChild->addChild(secondGrandChild);
firstParent->addChild(secondChild);
OwnPtr<FakeCCLayerTreeHost> firstLayerTreeHost(FakeCCLayerTreeHost::create());
firstLayerTreeHost->setRootLayer(firstParent.get());
assertLayerTreeHostMatchesForSubtree(firstParent.get(), firstLayerTreeHost.get());
// Now reparent the subtree starting at secondChild to a layer in a different tree.
OwnPtr<FakeCCLayerTreeHost> secondLayerTreeHost(FakeCCLayerTreeHost::create());
secondLayerTreeHost->setRootLayer(secondParent.get());
secondParent->addChild(secondChild);
// The moved layer and its children should point to the new host.
EXPECT_EQ(secondLayerTreeHost.get(), secondChild->layerTreeHost());
EXPECT_EQ(secondLayerTreeHost.get(), secondGrandChild->layerTreeHost());
// Test over, cleanup time.
firstLayerTreeHost->setRootLayer(0);
secondLayerTreeHost->setRootLayer(0);
firstLayerTreeHost.clear();
secondLayerTreeHost.clear();
}
TEST(LayerChromiumLayerTreeHostTest, replaceMaskAndReplicaLayer)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> parent = LayerChromium::create();
RefPtr<LayerChromium> mask = LayerChromium::create();
RefPtr<LayerChromium> replica = LayerChromium::create();
RefPtr<LayerChromium> maskChild = LayerChromium::create();
RefPtr<LayerChromium> replicaChild = LayerChromium::create();
RefPtr<LayerChromium> maskReplacement = LayerChromium::create();
RefPtr<LayerChromium> replicaReplacement = LayerChromium::create();
parent->setMaskLayer(mask.get());
parent->setReplicaLayer(replica.get());
mask->addChild(maskChild);
replica->addChild(replicaChild);
OwnPtr<FakeCCLayerTreeHost> layerTreeHost(FakeCCLayerTreeHost::create());
layerTreeHost->setRootLayer(parent.get());
assertLayerTreeHostMatchesForSubtree(parent.get(), layerTreeHost.get());
// Replacing the mask should clear out the old mask's subtree's host pointers.
parent->setMaskLayer(maskReplacement.get());
EXPECT_EQ(0, mask->layerTreeHost());
EXPECT_EQ(0, maskChild->layerTreeHost());
// Same for replacing a replica layer.
parent->setReplicaLayer(replicaReplacement.get());
EXPECT_EQ(0, replica->layerTreeHost());
EXPECT_EQ(0, replicaChild->layerTreeHost());
// Test over, cleanup time.
layerTreeHost->setRootLayer(0);
layerTreeHost.clear();
}
TEST(LayerChromiumLayerTreeHostTest, destroyHostWithNonNullRootLayer)
{
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> root = LayerChromium::create();
RefPtr<LayerChromium> child = LayerChromium::create();
root->addChild(child);
OwnPtr<FakeCCLayerTreeHost> layerTreeHost(FakeCCLayerTreeHost::create());
layerTreeHost->setRootLayer(root);
layerTreeHost.clear();
}
static bool addTestAnimation(LayerChromium* layer)
{
OwnPtr<CCKeyframedFloatAnimationCurve> curve(CCKeyframedFloatAnimationCurve::create());
curve->addKeyframe(CCFloatKeyframe::create(0, 0.3f, nullptr));
curve->addKeyframe(CCFloatKeyframe::create(1, 0.7f, nullptr));
OwnPtr<CCActiveAnimation> animation(CCActiveAnimation::create(curve.release(), 0, 0, CCActiveAnimation::Opacity));
return layer->addAnimation(animation.release());
}
TEST(LayerChromiumLayerTreeHostTest, shouldNotAddAnimationWithoutLayerTreeHost)
{
// Currently, WebCore assumes that animations will be started immediately / very soon
// if a composited layer's addAnimation() returns true. However, without a layerTreeHost,
// layers cannot actually animate yet. So, to prevent violating this WebCore assumption,
// the animation should not be accepted if the layer doesn't already have a layerTreeHost.
WebKit::Platform::current()->compositorSupport()->setAcceleratedAnimationEnabled(true);
WebCompositorInitializer compositorInitializer(0);
RefPtr<LayerChromium> layer = LayerChromium::create();
// Case 1: without a layerTreeHost, the animation should not be accepted.
EXPECT_FALSE(addTestAnimation(layer.get()));
OwnPtr<FakeCCLayerTreeHost> layerTreeHost(FakeCCLayerTreeHost::create());
layerTreeHost->setRootLayer(layer.get());
layer->setLayerTreeHost(layerTreeHost.get());
assertLayerTreeHostMatchesForSubtree(layer.get(), layerTreeHost.get());
// Case 2: with a layerTreeHost, the animation should be accepted.
EXPECT_TRUE(addTestAnimation(layer.get()));
}
class MockLayerChromium : public LayerChromium {
public:
bool needsDisplay() const { return m_needsDisplay; }
};
TEST(LayerChromiumTestWithoutFixture, setBoundsTriggersSetNeedsRedrawAfterGettingNonEmptyBounds)
{
RefPtr<MockLayerChromium> layer(adoptRef(new MockLayerChromium));
EXPECT_FALSE(layer->needsDisplay());
layer->setBounds(IntSize(0, 10));
EXPECT_FALSE(layer->needsDisplay());
layer->setBounds(IntSize(10, 10));
EXPECT_TRUE(layer->needsDisplay());
}
} // namespace