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chromium / git / chromium / 07ca5b139b967f62b03f08fca5d6f37a373ed20f / . / cc / CCLayerTreeHostTest.cpp
blob: 25983e3abef92b8e260312848e65af76580908b8 [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 "CCLayerTreeHost.h"
#include "CCGeometryTestUtils.h"
#include "CCGraphicsContext.h"
#include "CCLayerTreeHostImpl.h"
#include "CCOcclusionTrackerTestCommon.h"
#include "CCSettings.h"
#include "CCSingleThreadProxy.h"
#include "CCTextureUpdateQueue.h"
#include "CCThreadedTest.h"
#include "CCTimingFunction.h"
#include "ContentLayerChromium.h"
#include "ContentLayerChromiumClient.h"
#include "Extensions3DChromium.h"
#include "FakeWebCompositorOutputSurface.h"
#include <gmock/gmock.h>
#include <public/Platform.h>
#include <public/WebLayerScrollClient.h>
#include <public/WebSize.h>
#include <wtf/OwnArrayPtr.h>
using namespace cc;
using namespace WebKit;
using namespace WebKitTests;
namespace {
class CCLayerTreeHostTest : public CCThreadedTest { };
// Shortlived layerTreeHosts shouldn't die.
class CCLayerTreeHostTestShortlived1 : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestShortlived1() { }
virtual void beginTest() OVERRIDE
{
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
// Shortlived layerTreeHosts shouldn't die with a commit in flight.
class CCLayerTreeHostTestShortlived2 : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestShortlived2() { }
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestShortlived2)
// Shortlived layerTreeHosts shouldn't die with a redraw in flight.
class CCLayerTreeHostTestShortlived3 : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestShortlived3() { }
virtual void beginTest() OVERRIDE
{
postSetNeedsRedrawToMainThread();
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestShortlived3)
// Test interleaving of redraws and commits
class CCLayerTreeHostTestCommitingWithContinuousRedraw : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCommitingWithContinuousRedraw()
: m_numCompleteCommits(0)
, m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
m_numCompleteCommits++;
if (m_numCompleteCommits == 2)
endTest();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
if (m_numDraws == 1)
postSetNeedsCommitToMainThread();
m_numDraws++;
postSetNeedsRedrawToMainThread();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numCompleteCommits;
int m_numDraws;
};
TEST_F(CCLayerTreeHostTestCommitingWithContinuousRedraw, runMultiThread)
{
runTest(true);
}
// Two setNeedsCommits in a row should lead to at least 1 commit and at least 1
// draw with frame 0.
class CCLayerTreeHostTestSetNeedsCommit1 : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetNeedsCommit1()
: m_numCommits(0)
, m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_numDraws++;
if (!impl->sourceFrameNumber())
endTest();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
m_numCommits++;
}
virtual void afterTest() OVERRIDE
{
EXPECT_GE(1, m_numCommits);
EXPECT_GE(1, m_numDraws);
}
private:
int m_numCommits;
int m_numDraws;
};
TEST_F(CCLayerTreeHostTestSetNeedsCommit1, DISABLED_runMultiThread)
{
runTest(true);
}
// A setNeedsCommit should lead to 1 commit. Issuing a second commit after that
// first committed frame draws should lead to another commit.
class CCLayerTreeHostTestSetNeedsCommit2 : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetNeedsCommit2()
: m_numCommits(0)
, m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
if (!impl->sourceFrameNumber())
postSetNeedsCommitToMainThread();
else if (impl->sourceFrameNumber() == 1)
endTest();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
m_numCommits++;
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(2, m_numCommits);
EXPECT_GE(2, m_numDraws);
}
private:
int m_numCommits;
int m_numDraws;
};
#if OS(WINDOWS)
// http://webkit.org/b/74623
TEST_F(CCLayerTreeHostTestSetNeedsCommit2, FLAKY_runMultiThread)
#else
TEST_F(CCLayerTreeHostTestSetNeedsCommit2, runMultiThread)
#endif
{
runTest(true);
}
// 1 setNeedsRedraw after the first commit has completed should lead to 1
// additional draw.
class CCLayerTreeHostTestSetNeedsRedraw : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetNeedsRedraw()
: m_numCommits(0)
, m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
EXPECT_EQ(0, impl->sourceFrameNumber());
if (!m_numDraws)
postSetNeedsRedrawToMainThread(); // Redraw again to verify that the second redraw doesn't commit.
else
endTest();
m_numDraws++;
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
EXPECT_EQ(0, m_numDraws);
m_numCommits++;
}
virtual void afterTest() OVERRIDE
{
EXPECT_GE(2, m_numDraws);
EXPECT_EQ(1, m_numCommits);
}
private:
int m_numCommits;
int m_numDraws;
};
TEST_F(CCLayerTreeHostTestSetNeedsRedraw, runMultiThread)
{
runTest(true);
}
// If the layerTreeHost says it can't draw, then we should not try to draw.
class CCLayerTreeHostTestCanDrawBlocksDrawing : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCanDrawBlocksDrawing()
: m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
// Only the initial draw should bring us here.
EXPECT_TRUE(impl->canDraw());
EXPECT_EQ(0, impl->sourceFrameNumber());
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
if (m_numCommits >= 1) {
// After the first commit, we should not be able to draw.
EXPECT_FALSE(impl->canDraw());
}
}
virtual void didCommit() OVERRIDE
{
m_numCommits++;
if (m_numCommits == 1) {
// Make the viewport empty so the host says it can't draw.
m_layerTreeHost->setViewportSize(IntSize(0, 0), IntSize(0, 0));
OwnArrayPtr<char> pixels(adoptArrayPtr(new char[4]));
m_layerTreeHost->compositeAndReadback(static_cast<void*>(pixels.get()), IntRect(0, 0, 1, 1));
} else if (m_numCommits == 2) {
m_layerTreeHost->setNeedsRedraw();
m_layerTreeHost->setNeedsCommit();
} else
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numCommits;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestCanDrawBlocksDrawing)
// beginLayerWrite should prevent draws from executing until a commit occurs
class CCLayerTreeHostTestWriteLayersRedraw : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestWriteLayersRedraw()
: m_numCommits(0)
, m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postAcquireLayerTextures();
postSetNeedsRedrawToMainThread(); // should be inhibited without blocking
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_numDraws++;
EXPECT_EQ(m_numDraws, m_numCommits);
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
m_numCommits++;
endTest();
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(1, m_numCommits);
}
private:
int m_numCommits;
int m_numDraws;
};
TEST_F(CCLayerTreeHostTestWriteLayersRedraw, runMultiThread)
{
runTest(true);
}
// Verify that when resuming visibility, requesting layer write permission
// will not deadlock the main thread even though there are not yet any
// scheduled redraws. This behavior is critical for reliably surviving tab
// switching. There are no failure conditions to this test, it just passes
// by not timing out.
class CCLayerTreeHostTestWriteLayersAfterVisible : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestWriteLayersAfterVisible()
: m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
m_numCommits++;
if (m_numCommits == 2)
endTest();
else {
postSetVisibleToMainThread(false);
postSetVisibleToMainThread(true);
postAcquireLayerTextures();
postSetNeedsCommitToMainThread();
}
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numCommits;
};
TEST_F(CCLayerTreeHostTestWriteLayersAfterVisible, runMultiThread)
{
runTest(true);
}
// A compositeAndReadback while invisible should force a normal commit without assertion.
class CCLayerTreeHostTestCompositeAndReadbackWhileInvisible : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCompositeAndReadbackWhileInvisible()
: m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
}
virtual void didCommitAndDrawFrame() OVERRIDE
{
m_numCommits++;
if (m_numCommits == 1) {
m_layerTreeHost->setVisible(false);
m_layerTreeHost->setNeedsCommit();
m_layerTreeHost->setNeedsCommit();
OwnArrayPtr<char> pixels(adoptArrayPtr(new char[4]));
m_layerTreeHost->compositeAndReadback(static_cast<void*>(pixels.get()), IntRect(0, 0, 1, 1));
} else
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numCommits;
};
TEST_F(CCLayerTreeHostTestCompositeAndReadbackWhileInvisible, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestAbortFrameWhenInvisible : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAbortFrameWhenInvisible()
{
}
virtual void beginTest() OVERRIDE
{
// Request a commit (from the main thread), which will trigger the commit flow from the impl side.
m_layerTreeHost->setNeedsCommit();
// Then mark ourselves as not visible before processing any more messages on the main thread.
m_layerTreeHost->setVisible(false);
// If we make it without kicking a frame, we pass!
endTestAfterDelay(1);
}
virtual void layout() OVERRIDE
{
ASSERT_FALSE(true);
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
};
TEST_F(CCLayerTreeHostTestAbortFrameWhenInvisible, runMultiThread)
{
runTest(true);
}
// Makes sure that setNedsAnimate does not cause the commitRequested() state to be set.
class CCLayerTreeHostTestSetNeedsAnimateShouldNotSetCommitRequested : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetNeedsAnimateShouldNotSetCommitRequested()
: m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
// The tests start up with a commit pending because we give them a root layer.
// We need to wait for the commit to happen before doing anything.
EXPECT_TRUE(m_layerTreeHost->commitRequested());
}
virtual void animate(double monotonicTime) OVERRIDE
{
// We skip the first commit becasue its the commit that populates the
// impl thread with a tree.
if (!m_numCommits)
return;
m_layerTreeHost->setNeedsAnimate();
// Right now, commitRequested is going to be true, because during
// beginFrame, we force commitRequested to true to prevent requests from
// hitting the impl thread. But, when the next didCommit happens, we should
// verify that commitRequested has gone back to false.
}
virtual void didCommit() OVERRIDE
{
if (!m_numCommits) {
EXPECT_FALSE(m_layerTreeHost->commitRequested());
m_layerTreeHost->setNeedsAnimate();
EXPECT_FALSE(m_layerTreeHost->commitRequested());
m_numCommits++;
}
// Verifies that the setNeedsAnimate we made in ::animate did not
// trigger commitRequested.
EXPECT_FALSE(m_layerTreeHost->commitRequested());
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numCommits;
};
TEST_F(CCLayerTreeHostTestSetNeedsAnimateShouldNotSetCommitRequested, runMultiThread)
{
runTest(true);
}
// Trigger a frame with setNeedsCommit. Then, inside the resulting animate
// callback, requet another frame using setNeedsAnimate. End the test when
// animate gets called yet-again, indicating that the proxy is correctly
// handling the case where setNeedsAnimate() is called inside the begin frame
// flow.
class CCLayerTreeHostTestSetNeedsAnimateInsideAnimationCallback : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetNeedsAnimateInsideAnimationCallback()
: m_numAnimates(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsAnimateToMainThread();
}
virtual void animate(double) OVERRIDE
{
if (!m_numAnimates) {
m_layerTreeHost->setNeedsAnimate();
m_numAnimates++;
return;
}
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numAnimates;
};
TEST_F(CCLayerTreeHostTestSetNeedsAnimateInsideAnimationCallback, runMultiThread)
{
runTest(true);
}
// Add a layer animation and confirm that CCLayerTreeHostImpl::animateLayers does get
// called and continues to get called.
class CCLayerTreeHostTestAddAnimation : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAddAnimation()
: m_numAnimates(0)
, m_receivedAnimationStartedNotification(false)
, m_startTime(0)
, m_firstMonotonicTime(0)
{
}
virtual void beginTest() OVERRIDE
{
postAddInstantAnimationToMainThread();
}
virtual void animateLayers(CCLayerTreeHostImpl* layerTreeHostImpl, double monotonicTime) OVERRIDE
{
if (!m_numAnimates) {
// The animation had zero duration so layerTreeHostImpl should no
// longer need to animate its layers.
EXPECT_FALSE(layerTreeHostImpl->needsAnimateLayers());
m_numAnimates++;
m_firstMonotonicTime = monotonicTime;
return;
}
EXPECT_LT(0, m_startTime);
EXPECT_LT(0, m_firstMonotonicTime);
EXPECT_NE(m_startTime, m_firstMonotonicTime);
EXPECT_TRUE(m_receivedAnimationStartedNotification);
endTest();
}
virtual void notifyAnimationStarted(double wallClockTime) OVERRIDE
{
m_receivedAnimationStartedNotification = true;
m_startTime = wallClockTime;
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numAnimates;
bool m_receivedAnimationStartedNotification;
double m_startTime;
double m_firstMonotonicTime;
};
TEST_F(CCLayerTreeHostTestAddAnimation, runMultiThread)
{
runTest(true);
}
// Add a layer animation to a layer, but continually fail to draw. Confirm that after
// a while, we do eventually force a draw.
class CCLayerTreeHostTestCheckerboardDoesNotStarveDraws : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCheckerboardDoesNotStarveDraws()
: m_startedAnimating(false)
{
}
virtual void beginTest() OVERRIDE
{
postAddAnimationToMainThread();
}
virtual void afterTest() OVERRIDE
{
}
virtual void animateLayers(CCLayerTreeHostImpl* layerTreeHostImpl, double monotonicTime) OVERRIDE
{
m_startedAnimating = true;
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
if (m_startedAnimating)
endTest();
}
virtual bool prepareToDrawOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
return false;
}
private:
bool m_startedAnimating;
};
// Starvation can only be an issue with the MT compositor.
TEST_F(CCLayerTreeHostTestCheckerboardDoesNotStarveDraws, runMultiThread)
{
runTest(true);
}
// Ensures that animations continue to be ticked when we are backgrounded.
class CCLayerTreeHostTestTickAnimationWhileBackgrounded : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestTickAnimationWhileBackgrounded()
: m_numAnimates(0)
{
}
virtual void beginTest() OVERRIDE
{
postAddAnimationToMainThread();
}
// Use willAnimateLayers to set visible false before the animation runs and
// causes a commit, so we block the second visible animate in single-thread
// mode.
virtual void willAnimateLayers(CCLayerTreeHostImpl* layerTreeHostImpl, double monotonicTime) OVERRIDE
{
if (m_numAnimates < 2) {
if (!m_numAnimates) {
// We have a long animation running. It should continue to tick even if we are not visible.
postSetVisibleToMainThread(false);
}
m_numAnimates++;
return;
}
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
int m_numAnimates;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestTickAnimationWhileBackgrounded)
// Ensures that animations continue to be ticked when we are backgrounded.
class CCLayerTreeHostTestAddAnimationWithTimingFunction : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAddAnimationWithTimingFunction()
{
}
virtual void beginTest() OVERRIDE
{
postAddAnimationToMainThread();
}
virtual void animateLayers(CCLayerTreeHostImpl* layerTreeHostImpl, double monotonicTime) OVERRIDE
{
const CCActiveAnimation* animation = m_layerTreeHost->rootLayer()->layerAnimationController()->getActiveAnimation(0, CCActiveAnimation::Opacity);
if (!animation)
return;
const CCFloatAnimationCurve* curve = animation->curve()->toFloatAnimationCurve();
float startOpacity = curve->getValue(0);
float endOpacity = curve->getValue(curve->duration());
float linearlyInterpolatedOpacity = 0.25 * endOpacity + 0.75 * startOpacity;
double time = curve->duration() * 0.25;
// If the linear timing function associated with this animation was not picked up,
// then the linearly interpolated opacity would be different because of the
// default ease timing function.
EXPECT_FLOAT_EQ(linearlyInterpolatedOpacity, curve->getValue(time));
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestAddAnimationWithTimingFunction)
// Ensures that when opacity is being animated, this value does not cause the subtree to be skipped.
class CCLayerTreeHostTestDoNotSkipLayersWithAnimatedOpacity : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestDoNotSkipLayersWithAnimatedOpacity()
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->rootLayer()->setDrawOpacity(1);
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
m_layerTreeHost->rootLayer()->setOpacity(0);
postAddAnimationToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
// If the subtree was skipped when preparing to draw, the layer's draw opacity
// will not have been updated. It should be set to 0 due to the animation.
// Without the animation, the layer will be skipped since it has zero opacity.
EXPECT_EQ(0, m_layerTreeHost->rootLayer()->drawOpacity());
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
#if OS(WINDOWS)
// http://webkit.org/b/74623
TEST_F(CCLayerTreeHostTestDoNotSkipLayersWithAnimatedOpacity, FLAKY_runMultiThread)
#else
TEST_F(CCLayerTreeHostTestDoNotSkipLayersWithAnimatedOpacity, runMultiThread)
#endif
{
runTest(true);
}
// Ensures that main thread animations have their start times synchronized with impl thread animations.
class CCLayerTreeHostTestSynchronizeAnimationStartTimes : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSynchronizeAnimationStartTimes()
: m_layerTreeHostImpl(0)
{
}
virtual void beginTest() OVERRIDE
{
postAddAnimationToMainThread();
}
// This is guaranteed to be called before CCLayerTreeHostImpl::animateLayers.
virtual void willAnimateLayers(CCLayerTreeHostImpl* layerTreeHostImpl, double monotonicTime) OVERRIDE
{
m_layerTreeHostImpl = layerTreeHostImpl;
}
virtual void notifyAnimationStarted(double time) OVERRIDE
{
EXPECT_TRUE(m_layerTreeHostImpl);
CCLayerAnimationController* controllerImpl = m_layerTreeHostImpl->rootLayer()->layerAnimationController();
CCLayerAnimationController* controller = m_layerTreeHost->rootLayer()->layerAnimationController();
CCActiveAnimation* animationImpl = controllerImpl->getActiveAnimation(0, CCActiveAnimation::Opacity);
CCActiveAnimation* animation = controller->getActiveAnimation(0, CCActiveAnimation::Opacity);
EXPECT_EQ(animationImpl->startTime(), animation->startTime());
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
CCLayerTreeHostImpl* m_layerTreeHostImpl;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestSynchronizeAnimationStartTimes)
// Ensures that main thread animations have their start times synchronized with impl thread animations.
class CCLayerTreeHostTestAnimationFinishedEvents : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAnimationFinishedEvents()
{
}
virtual void beginTest() OVERRIDE
{
postAddInstantAnimationToMainThread();
}
virtual void notifyAnimationFinished(double time) OVERRIDE
{
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestAnimationFinishedEvents)
class CCLayerTreeHostTestScrollSimple : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestScrollSimple()
: m_initialScroll(IntPoint(10, 20))
, m_secondScroll(IntPoint(40, 5))
, m_scrollAmount(2, -1)
, m_scrolls(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->rootLayer()->setScrollable(true);
m_layerTreeHost->rootLayer()->setScrollPosition(m_initialScroll);
postSetNeedsCommitToMainThread();
}
virtual void layout() OVERRIDE
{
LayerChromium* root = m_layerTreeHost->rootLayer();
if (!m_layerTreeHost->commitNumber())
EXPECT_EQ(root->scrollPosition(), m_initialScroll);
else {
EXPECT_EQ(root->scrollPosition(), m_initialScroll + m_scrollAmount);
// Pretend like Javascript updated the scroll position itself.
root->setScrollPosition(m_secondScroll);
}
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CCLayerImpl* root = impl->rootLayer();
EXPECT_EQ(root->scrollDelta(), IntSize());
root->setScrollable(true);
root->setMaxScrollPosition(IntSize(100, 100));
root->scrollBy(m_scrollAmount);
if (!impl->sourceFrameNumber()) {
EXPECT_EQ(root->scrollPosition(), m_initialScroll);
EXPECT_EQ(root->scrollDelta(), m_scrollAmount);
postSetNeedsCommitToMainThread();
} else if (impl->sourceFrameNumber() == 1) {
EXPECT_EQ(root->scrollPosition(), m_secondScroll);
EXPECT_EQ(root->scrollDelta(), m_scrollAmount);
endTest();
}
}
virtual void applyScrollAndScale(const IntSize& scrollDelta, float scale) OVERRIDE
{
IntPoint position = m_layerTreeHost->rootLayer()->scrollPosition();
m_layerTreeHost->rootLayer()->setScrollPosition(position + scrollDelta);
m_scrolls++;
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(1, m_scrolls);
}
private:
IntPoint m_initialScroll;
IntPoint m_secondScroll;
IntSize m_scrollAmount;
int m_scrolls;
};
TEST_F(CCLayerTreeHostTestScrollSimple, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestScrollMultipleRedraw : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestScrollMultipleRedraw()
: m_initialScroll(IntPoint(40, 10))
, m_scrollAmount(-3, 17)
, m_scrolls(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->rootLayer()->setScrollable(true);
m_layerTreeHost->rootLayer()->setScrollPosition(m_initialScroll);
postSetNeedsCommitToMainThread();
}
virtual void beginCommitOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
LayerChromium* root = m_layerTreeHost->rootLayer();
if (!m_layerTreeHost->commitNumber())
EXPECT_EQ(root->scrollPosition(), m_initialScroll);
else if (m_layerTreeHost->commitNumber() == 1)
EXPECT_EQ(root->scrollPosition(), m_initialScroll + m_scrollAmount + m_scrollAmount);
else if (m_layerTreeHost->commitNumber() == 2)
EXPECT_EQ(root->scrollPosition(), m_initialScroll + m_scrollAmount + m_scrollAmount);
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CCLayerImpl* root = impl->rootLayer();
root->setScrollable(true);
root->setMaxScrollPosition(IntSize(100, 100));
if (!impl->sourceFrameNumber() && impl->sourceAnimationFrameNumber() == 1) {
// First draw after first commit.
EXPECT_EQ(root->scrollDelta(), IntSize());
root->scrollBy(m_scrollAmount);
EXPECT_EQ(root->scrollDelta(), m_scrollAmount);
EXPECT_EQ(root->scrollPosition(), m_initialScroll);
postSetNeedsRedrawToMainThread();
} else if (!impl->sourceFrameNumber() && impl->sourceAnimationFrameNumber() == 2) {
// Second draw after first commit.
EXPECT_EQ(root->scrollDelta(), m_scrollAmount);
root->scrollBy(m_scrollAmount);
EXPECT_EQ(root->scrollDelta(), m_scrollAmount + m_scrollAmount);
EXPECT_EQ(root->scrollPosition(), m_initialScroll);
postSetNeedsCommitToMainThread();
} else if (impl->sourceFrameNumber() == 1) {
// Third or later draw after second commit.
EXPECT_GE(impl->sourceAnimationFrameNumber(), 3);
EXPECT_EQ(root->scrollDelta(), IntSize());
EXPECT_EQ(root->scrollPosition(), m_initialScroll + m_scrollAmount + m_scrollAmount);
endTest();
}
}
virtual void applyScrollAndScale(const IntSize& scrollDelta, float scale) OVERRIDE
{
IntPoint position = m_layerTreeHost->rootLayer()->scrollPosition();
m_layerTreeHost->rootLayer()->setScrollPosition(position + scrollDelta);
m_scrolls++;
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(1, m_scrolls);
}
private:
IntPoint m_initialScroll;
IntSize m_scrollAmount;
int m_scrolls;
};
TEST_F(CCLayerTreeHostTestScrollMultipleRedraw, runMultiThread)
{
runTest(true);
}
// This test verifies that properties on the layer tree host are commited to the impl side.
class CCLayerTreeHostTestCommit : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCommit() { }
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(20, 20), IntSize(20, 20));
m_layerTreeHost->setBackgroundColor(SK_ColorGRAY);
m_layerTreeHost->setPageScaleFactorAndLimits(5, 5, 5);
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
EXPECT_EQ(IntSize(20, 20), impl->layoutViewportSize());
EXPECT_EQ(SK_ColorGRAY, impl->backgroundColor());
EXPECT_EQ(5, impl->pageScale());
endTest();
}
virtual void afterTest() OVERRIDE { }
};
TEST_F(CCLayerTreeHostTestCommit, runTest)
{
runTest(true);
}
// Verifies that startPageScaleAnimation events propagate correctly from CCLayerTreeHost to
// CCLayerTreeHostImpl in the MT compositor.
class CCLayerTreeHostTestStartPageScaleAnimation : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestStartPageScaleAnimation()
: m_animationRequested(false)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->rootLayer()->setScrollable(true);
m_layerTreeHost->rootLayer()->setScrollPosition(IntPoint());
postSetNeedsRedrawToMainThread();
}
void requestStartPageScaleAnimation()
{
layerTreeHost()->startPageScaleAnimation(IntSize(), false, 1.25, 0);
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
impl->rootLayer()->setScrollable(true);
impl->rootLayer()->setScrollPosition(IntPoint());
impl->setPageScaleFactorAndLimits(impl->pageScale(), 0.5, 2);
// We request animation only once.
if (!m_animationRequested) {
m_mainThreadProxy->postTask(createCCThreadTask(this, &CCLayerTreeHostTestStartPageScaleAnimation::requestStartPageScaleAnimation));
m_animationRequested = true;
}
}
virtual void applyScrollAndScale(const IntSize& scrollDelta, float scale) OVERRIDE
{
IntPoint position = m_layerTreeHost->rootLayer()->scrollPosition();
m_layerTreeHost->rootLayer()->setScrollPosition(position + scrollDelta);
m_layerTreeHost->setPageScaleFactorAndLimits(scale, 0.5, 2);
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
impl->processScrollDeltas();
// We get one commit before the first draw, and the animation doesn't happen until the second draw.
if (impl->sourceFrameNumber() == 1) {
EXPECT_EQ(1.25, impl->pageScale());
endTest();
} else
postSetNeedsRedrawToMainThread();
}
virtual void afterTest() OVERRIDE
{
}
private:
bool m_animationRequested;
};
TEST_F(CCLayerTreeHostTestStartPageScaleAnimation, runTest)
{
runTest(true);
}
class CCLayerTreeHostTestSetVisible : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetVisible()
: m_numDraws(0)
{
}
virtual void beginTest() OVERRIDE
{
postSetVisibleToMainThread(false);
postSetNeedsRedrawToMainThread(); // This is suppressed while we're invisible.
postSetVisibleToMainThread(true); // Triggers the redraw.
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
EXPECT_TRUE(impl->visible());
++m_numDraws;
endTest();
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(1, m_numDraws);
}
private:
int m_numDraws;
};
TEST_F(CCLayerTreeHostTestSetVisible, runMultiThread)
{
runTest(true);
}
class TestOpacityChangeLayerDelegate : public ContentLayerChromiumClient {
public:
TestOpacityChangeLayerDelegate(CCLayerTreeHostTest* test)
: m_test(test)
{
}
virtual void paintContents(SkCanvas*, const IntRect&, FloatRect&) OVERRIDE
{
// Set layer opacity to 0.
m_test->layerTreeHost()->rootLayer()->setOpacity(0);
}
private:
CCLayerTreeHostTest* m_test;
};
class ContentLayerChromiumWithUpdateTracking : public ContentLayerChromium {
public:
static PassRefPtr<ContentLayerChromiumWithUpdateTracking> create(ContentLayerChromiumClient* client) { return adoptRef(new ContentLayerChromiumWithUpdateTracking(client)); }
int paintContentsCount() { return m_paintContentsCount; }
void resetPaintContentsCount() { m_paintContentsCount = 0; }
virtual void update(CCTextureUpdateQueue& queue, const CCOcclusionTracker* occlusion, CCRenderingStats& stats) OVERRIDE
{
ContentLayerChromium::update(queue, occlusion, stats);
m_paintContentsCount++;
}
private:
explicit ContentLayerChromiumWithUpdateTracking(ContentLayerChromiumClient* client)
: ContentLayerChromium(client)
, m_paintContentsCount(0)
{
setAnchorPoint(FloatPoint(0, 0));
setBounds(IntSize(10, 10));
setIsDrawable(true);
}
int m_paintContentsCount;
};
// Layer opacity change during paint should not prevent compositor resources from being updated during commit.
class CCLayerTreeHostTestOpacityChange : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestOpacityChange()
: m_testOpacityChangeDelegate(this)
, m_updateCheckLayer(ContentLayerChromiumWithUpdateTracking::create(&m_testOpacityChangeDelegate))
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setRootLayer(m_updateCheckLayer);
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
endTest();
}
virtual void afterTest() OVERRIDE
{
// update() should have been called once.
EXPECT_EQ(1, m_updateCheckLayer->paintContentsCount());
// clear m_updateCheckLayer so CCLayerTreeHost dies.
m_updateCheckLayer.clear();
}
private:
TestOpacityChangeLayerDelegate m_testOpacityChangeDelegate;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_updateCheckLayer;
};
TEST_F(CCLayerTreeHostTestOpacityChange, runMultiThread)
{
runTest(true);
}
class MockContentLayerChromiumClient : public ContentLayerChromiumClient {
public:
bool drawsContent() const { return true; }
MOCK_CONST_METHOD0(preserves3D, bool());
void paintContents(SkCanvas*, const IntRect&, FloatRect&) OVERRIDE { }
void notifySyncRequired() { }
};
class NoScaleContentLayerChromium : public ContentLayerChromium {
public:
static PassRefPtr<NoScaleContentLayerChromium> create(ContentLayerChromiumClient* client) { return adoptRef(new NoScaleContentLayerChromium(client)); }
virtual bool needsContentsScale() const OVERRIDE { return false; }
private:
explicit NoScaleContentLayerChromium(ContentLayerChromiumClient* client)
: ContentLayerChromium(client) { }
};
class CCLayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers()
: m_rootLayer(NoScaleContentLayerChromium::create(&m_client))
, m_childLayer(ContentLayerChromium::create(&m_client))
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(40, 40), IntSize(60, 60));
m_layerTreeHost->setDeviceScaleFactor(1.5);
EXPECT_EQ(IntSize(40, 40), m_layerTreeHost->layoutViewportSize());
EXPECT_EQ(IntSize(60, 60), m_layerTreeHost->deviceViewportSize());
m_rootLayer->addChild(m_childLayer);
m_rootLayer->setIsDrawable(true);
m_rootLayer->setBounds(IntSize(30, 30));
m_rootLayer->setAnchorPoint(FloatPoint(0, 0));
m_childLayer->setIsDrawable(true);
m_childLayer->setPosition(IntPoint(2, 2));
m_childLayer->setBounds(IntSize(10, 10));
m_childLayer->setAnchorPoint(FloatPoint(0, 0));
m_layerTreeHost->setRootLayer(m_rootLayer);
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
// Get access to protected methods.
MockLayerTreeHostImpl* mockImpl = static_cast<MockLayerTreeHostImpl*>(impl);
// Should only do one commit.
EXPECT_EQ(0, impl->sourceFrameNumber());
// Device scale factor should come over to impl.
EXPECT_NEAR(impl->deviceScaleFactor(), 1.5, 0.00001);
// Both layers are on impl.
ASSERT_EQ(1u, impl->rootLayer()->children().size());
// Device viewport is scaled.
EXPECT_EQ(IntSize(40, 40), impl->layoutViewportSize());
EXPECT_EQ(IntSize(60, 60), impl->deviceViewportSize());
CCLayerImpl* root = impl->rootLayer();
CCLayerImpl* child = impl->rootLayer()->children()[0];
// Positions remain in layout pixels.
EXPECT_EQ(IntPoint(0, 0), root->position());
EXPECT_EQ(IntPoint(2, 2), child->position());
// Compute all the layer transforms for the frame.
MockLayerTreeHostImpl::CCLayerList renderSurfaceLayerList;
mockImpl->calculateRenderSurfaceLayerList(renderSurfaceLayerList);
// Both layers should be drawing into the root render surface.
ASSERT_EQ(1u, renderSurfaceLayerList.size());
ASSERT_EQ(root->renderSurface(), renderSurfaceLayerList[0]->renderSurface());
ASSERT_EQ(2u, root->renderSurface()->layerList().size());
// The root render surface is the size of the viewport.
EXPECT_RECT_EQ(IntRect(0, 0, 60, 60), root->renderSurface()->contentRect());
// The content bounds of the child should be scaled.
IntSize childBoundsScaled = child->bounds();
childBoundsScaled.scale(1.5);
EXPECT_EQ(childBoundsScaled, child->contentBounds());
WebTransformationMatrix scaleTransform;
scaleTransform.scale(impl->deviceScaleFactor());
// The root layer is scaled by 2x.
WebTransformationMatrix rootScreenSpaceTransform = scaleTransform;
WebTransformationMatrix rootDrawTransform = scaleTransform;
EXPECT_EQ(rootDrawTransform, root->drawTransform());
EXPECT_EQ(rootScreenSpaceTransform, root->screenSpaceTransform());
// The child is at position 2,2, which is transformed to 3,3 after the scale
WebTransformationMatrix childScreenSpaceTransform;
childScreenSpaceTransform.translate(3, 3);
WebTransformationMatrix childDrawTransform = childScreenSpaceTransform;
EXPECT_EQ(childDrawTransform, child->drawTransform());
EXPECT_EQ(childScreenSpaceTransform, child->screenSpaceTransform());
endTest();
}
virtual void afterTest() OVERRIDE
{
m_rootLayer.clear();
m_childLayer.clear();
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<NoScaleContentLayerChromium> m_rootLayer;
RefPtr<ContentLayerChromium> m_childLayer;
};
// Test is flaky - http://crbug.com/148490
TEST_F(CCLayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers, DISABLED_runMultiThread)
{
runTest(true);
}
// Verify atomicity of commits and reuse of textures.
class CCLayerTreeHostTestAtomicCommit : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAtomicCommit()
: m_layer(ContentLayerChromiumWithUpdateTracking::create(&m_client))
{
// Make sure partial texture updates are turned off.
m_settings.maxPartialTextureUpdates = 0;
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setRootLayer(m_layer);
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
postSetNeedsCommitToMainThread();
postSetNeedsRedrawToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CompositorFakeWebGraphicsContext3DWithTextureTracking* context = static_cast<CompositorFakeWebGraphicsContext3DWithTextureTracking*>(impl->context()->context3D());
switch (impl->sourceFrameNumber()) {
case 0:
// Number of textures should be one.
ASSERT_EQ(1, context->numTextures());
// Number of textures used for commit should be one.
EXPECT_EQ(1, context->numUsedTextures());
// Verify that used texture is correct.
EXPECT_TRUE(context->usedTexture(context->texture(0)));
context->resetUsedTextures();
break;
case 1:
// Number of textures should be two as the first texture
// is used by impl thread and cannot by used for update.
ASSERT_EQ(2, context->numTextures());
// Number of textures used for commit should still be one.
EXPECT_EQ(1, context->numUsedTextures());
// First texture should not have been used.
EXPECT_FALSE(context->usedTexture(context->texture(0)));
// New texture should have been used.
EXPECT_TRUE(context->usedTexture(context->texture(1)));
context->resetUsedTextures();
break;
default:
ASSERT_NOT_REACHED();
break;
}
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CompositorFakeWebGraphicsContext3DWithTextureTracking* context = static_cast<CompositorFakeWebGraphicsContext3DWithTextureTracking*>(impl->context()->context3D());
// Number of textures used for draw should always be one.
EXPECT_EQ(1, context->numUsedTextures());
if (impl->sourceFrameNumber() < 1) {
context->resetUsedTextures();
postSetNeedsAnimateAndCommitToMainThread();
postSetNeedsRedrawToMainThread();
} else
endTest();
}
virtual void layout() OVERRIDE
{
m_layer->setNeedsDisplay();
}
virtual void afterTest() OVERRIDE
{
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_layer;
};
TEST_F(CCLayerTreeHostTestAtomicCommit, runMultiThread)
{
runTest(true);
}
static void setLayerPropertiesForTesting(LayerChromium* layer, LayerChromium* parent, const WebTransformationMatrix& transform, const FloatPoint& anchor, const FloatPoint& position, const IntSize& bounds, bool opaque)
{
layer->removeAllChildren();
if (parent)
parent->addChild(layer);
layer->setTransform(transform);
layer->setAnchorPoint(anchor);
layer->setPosition(position);
layer->setBounds(bounds);
layer->setOpaque(opaque);
}
class CCLayerTreeHostTestAtomicCommitWithPartialUpdate : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestAtomicCommitWithPartialUpdate()
: m_parent(ContentLayerChromiumWithUpdateTracking::create(&m_client))
, m_child(ContentLayerChromiumWithUpdateTracking::create(&m_client))
, m_numCommits(0)
{
// Allow one partial texture update.
m_settings.maxPartialTextureUpdates = 1;
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setRootLayer(m_parent);
m_layerTreeHost->setViewportSize(IntSize(10, 20), IntSize(10, 20));
WebTransformationMatrix identityMatrix;
setLayerPropertiesForTesting(m_parent.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(10, 20), true);
setLayerPropertiesForTesting(m_child.get(), m_parent.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(0, 10), IntSize(10, 10), false);
postSetNeedsCommitToMainThread();
postSetNeedsRedrawToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CompositorFakeWebGraphicsContext3DWithTextureTracking* context = static_cast<CompositorFakeWebGraphicsContext3DWithTextureTracking*>(impl->context()->context3D());
switch (impl->sourceFrameNumber()) {
case 0:
// Number of textures should be two.
ASSERT_EQ(2, context->numTextures());
// Number of textures used for commit should be two.
EXPECT_EQ(2, context->numUsedTextures());
// Verify that used textures are correct.
EXPECT_TRUE(context->usedTexture(context->texture(0)));
EXPECT_TRUE(context->usedTexture(context->texture(1)));
context->resetUsedTextures();
break;
case 1:
// Number of textures used for commit should still be two.
EXPECT_EQ(2, context->numUsedTextures());
// First two textures should not have been used.
EXPECT_FALSE(context->usedTexture(context->texture(0)));
EXPECT_FALSE(context->usedTexture(context->texture(1)));
// New textures should have been used.
EXPECT_TRUE(context->usedTexture(context->texture(2)));
EXPECT_TRUE(context->usedTexture(context->texture(3)));
context->resetUsedTextures();
break;
case 2:
// Number of textures used for commit should still be two.
EXPECT_EQ(2, context->numUsedTextures());
context->resetUsedTextures();
break;
case 3:
// No textures should be used for commit.
EXPECT_EQ(0, context->numUsedTextures());
context->resetUsedTextures();
break;
case 4:
// Number of textures used for commit should be one.
EXPECT_EQ(1, context->numUsedTextures());
context->resetUsedTextures();
break;
default:
ASSERT_NOT_REACHED();
break;
}
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CompositorFakeWebGraphicsContext3DWithTextureTracking* context = static_cast<CompositorFakeWebGraphicsContext3DWithTextureTracking*>(impl->context()->context3D());
// Number of textures used for drawing should two except for frame 4
// where the viewport only contains one layer.
if (impl->sourceFrameNumber() == 3)
EXPECT_EQ(1, context->numUsedTextures());
else
EXPECT_EQ(2, context->numUsedTextures());
if (impl->sourceFrameNumber() < 4) {
context->resetUsedTextures();
postSetNeedsAnimateAndCommitToMainThread();
postSetNeedsRedrawToMainThread();
} else
endTest();
}
virtual void layout() OVERRIDE
{
switch (m_numCommits++) {
case 0:
case 1:
m_parent->setNeedsDisplay();
m_child->setNeedsDisplay();
break;
case 2:
// Damage part of layers.
m_parent->setNeedsDisplayRect(FloatRect(0, 0, 5, 5));
m_child->setNeedsDisplayRect(FloatRect(0, 0, 5, 5));
break;
case 3:
m_child->setNeedsDisplay();
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
break;
case 4:
m_layerTreeHost->setViewportSize(IntSize(10, 20), IntSize(10, 20));
break;
default:
ASSERT_NOT_REACHED();
break;
}
}
virtual void afterTest() OVERRIDE
{
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_parent;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_child;
int m_numCommits;
};
TEST_F(CCLayerTreeHostTestAtomicCommitWithPartialUpdate, runMultiThread)
{
runTest(true);
}
class TestLayerChromium : public LayerChromium {
public:
static PassRefPtr<TestLayerChromium> create() { return adoptRef(new TestLayerChromium()); }
virtual void update(CCTextureUpdateQueue&, const CCOcclusionTracker* occlusion, CCRenderingStats&) OVERRIDE
{
// Gain access to internals of the CCOcclusionTracker.
const TestCCOcclusionTracker* testOcclusion = static_cast<const TestCCOcclusionTracker*>(occlusion);
m_occludedScreenSpace = testOcclusion ? testOcclusion->occlusionInScreenSpace() : Region();
}
virtual bool drawsContent() const OVERRIDE { return true; }
const Region& occludedScreenSpace() const { return m_occludedScreenSpace; }
void clearOccludedScreenSpace() { m_occludedScreenSpace = Region(); }
private:
TestLayerChromium() : LayerChromium() { }
Region m_occludedScreenSpace;
};
static void setTestLayerPropertiesForTesting(TestLayerChromium* layer, LayerChromium* parent, const WebTransformationMatrix& transform, const FloatPoint& anchor, const FloatPoint& position, const IntSize& bounds, bool opaque)
{
setLayerPropertiesForTesting(layer, parent, transform, anchor, position, bounds, opaque);
layer->clearOccludedScreenSpace();
}
class CCLayerTreeHostTestLayerOcclusion : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestLayerOcclusion() { }
virtual void beginTest() OVERRIDE
{
RefPtr<TestLayerChromium> rootLayer = TestLayerChromium::create();
RefPtr<TestLayerChromium> child = TestLayerChromium::create();
RefPtr<TestLayerChromium> child2 = TestLayerChromium::create();
RefPtr<TestLayerChromium> grandChild = TestLayerChromium::create();
RefPtr<TestLayerChromium> mask = TestLayerChromium::create();
WebTransformationMatrix identityMatrix;
WebTransformationMatrix childTransform;
childTransform.translate(250, 250);
childTransform.rotate(90);
childTransform.translate(-250, -250);
child->setMasksToBounds(true);
// See CCLayerTreeHostCommonTest.layerAddsSelfToOccludedRegionWithRotatedSurface for a nice visual of these layers and how they end up
// positioned on the screen.
// The child layer is rotated and the grandChild is opaque, but clipped to the child and rootLayer
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), false);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
ASSERT_TRUE(m_layerTreeHost->initializeRendererIfNeeded());
CCTextureUpdateQueue queue;
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer is opaque, then it adds to the occlusion seen by the rootLayer.
setLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 30, 170, 170), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// Add a second child to the root layer and the regions should merge
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(70, 20), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 30, 170, 170), child2->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 20, 170, 180), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(2u, rootLayer->occludedScreenSpace().rects().size());
// Move the second child to be sure.
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 30, 170, 170), child2->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 30, 190, 170), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(2u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer has a mask on it, then it shouldn't contribute to occlusion on stuff below it
setLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
setLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
child->setMaskLayer(mask.get());
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer with a mask is below child2, then child2 should contribute to occlusion on everything, and child shouldn't contribute to the rootLayer
setLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
setLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
child->setMaskLayer(mask.get());
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(1u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 40, 190, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(2u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer has a non-opaque drawOpacity, then it shouldn't contribute to occlusion on stuff below it
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
child->setMaskLayer(0);
child->setOpacity(0.5);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer with non-opaque drawOpacity is below child2, then child2 should contribute to occlusion on everything, and child shouldn't contribute to the rootLayer
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
child->setMaskLayer(0);
child->setOpacity(0.5);
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(1u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 40, 190, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(2u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestLayerOcclusion)
class CCLayerTreeHostTestLayerOcclusionWithFilters : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestLayerOcclusionWithFilters() { }
virtual void beginTest() OVERRIDE
{
RefPtr<TestLayerChromium> rootLayer = TestLayerChromium::create();
RefPtr<TestLayerChromium> child = TestLayerChromium::create();
RefPtr<TestLayerChromium> child2 = TestLayerChromium::create();
RefPtr<TestLayerChromium> grandChild = TestLayerChromium::create();
RefPtr<TestLayerChromium> mask = TestLayerChromium::create();
WebTransformationMatrix identityMatrix;
WebTransformationMatrix childTransform;
childTransform.translate(250, 250);
childTransform.rotate(90);
childTransform.translate(-250, -250);
child->setMasksToBounds(true);
// If the child layer has a filter that changes alpha values, and is below child2, then child2 should contribute to occlusion on everything,
// and child shouldn't contribute to the rootLayer
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
{
WebFilterOperations filters;
filters.append(WebFilterOperation::createOpacityFilter(0.5));
child->setFilters(filters);
}
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
ASSERT_TRUE(m_layerTreeHost->initializeRendererIfNeeded());
CCTextureUpdateQueue queue;
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(1u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 40, 190, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(2u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// If the child layer has a filter that moves pixels/changes alpha, and is below child2, then child should not inherit occlusion from outside its subtree,
// and should not contribute to the rootLayer
setTestLayerPropertiesForTesting(rootLayer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
setTestLayerPropertiesForTesting(child.get(), rootLayer.get(), childTransform, FloatPoint(0, 0), FloatPoint(30, 30), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(grandChild.get(), child.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 10), IntSize(500, 500), true);
setTestLayerPropertiesForTesting(child2.get(), rootLayer.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(10, 70), IntSize(500, 500), true);
{
WebFilterOperations filters;
filters.append(WebFilterOperation::createBlurFilter(10));
child->setFilters(filters);
}
m_layerTreeHost->setRootLayer(rootLayer);
m_layerTreeHost->setViewportSize(rootLayer->bounds(), rootLayer->bounds());
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
EXPECT_RECT_EQ(IntRect(), child2->occludedScreenSpace().bounds());
EXPECT_EQ(0u, child2->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(), grandChild->occludedScreenSpace().bounds());
EXPECT_EQ(0u, grandChild->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(30, 40, 170, 160), child->occludedScreenSpace().bounds());
EXPECT_EQ(1u, child->occludedScreenSpace().rects().size());
EXPECT_RECT_EQ(IntRect(10, 70, 190, 130), rootLayer->occludedScreenSpace().bounds());
EXPECT_EQ(1u, rootLayer->occludedScreenSpace().rects().size());
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
CCLayerTreeHost::setNeedsFilterContext(false);
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestLayerOcclusionWithFilters)
class CCLayerTreeHostTestManySurfaces : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestManySurfaces() { }
virtual void beginTest() OVERRIDE
{
// We create enough RenderSurfaces that it will trigger Vector reallocation while computing occlusion.
Region occluded;
const WebTransformationMatrix identityMatrix;
Vector<RefPtr<TestLayerChromium> > layers;
Vector<RefPtr<TestLayerChromium> > children;
int numSurfaces = 20;
RefPtr<TestLayerChromium> replica = TestLayerChromium::create();
for (int i = 0; i < numSurfaces; ++i) {
layers.append(TestLayerChromium::create());
if (!i) {
setTestLayerPropertiesForTesting(layers.last().get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(200, 200), true);
layers.last()->createRenderSurface();
} else {
setTestLayerPropertiesForTesting(layers.last().get(), layers[layers.size()-2].get(), identityMatrix, FloatPoint(0, 0), FloatPoint(1, 1), IntSize(200-i, 200-i), true);
layers.last()->setMasksToBounds(true);
layers.last()->setReplicaLayer(replica.get()); // Make it have a RenderSurface
}
}
for (int i = 1; i < numSurfaces; ++i) {
children.append(TestLayerChromium::create());
setTestLayerPropertiesForTesting(children.last().get(), layers[i].get(), identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(500, 500), false);
}
m_layerTreeHost->setRootLayer(layers[0].get());
m_layerTreeHost->setViewportSize(layers[0]->bounds(), layers[0]->bounds());
ASSERT_TRUE(m_layerTreeHost->initializeRendererIfNeeded());
CCTextureUpdateQueue queue;
m_layerTreeHost->updateLayers(queue, std::numeric_limits<size_t>::max());
m_layerTreeHost->commitComplete();
for (int i = 0; i < numSurfaces-1; ++i) {
IntRect expectedOcclusion(i+1, i+1, 200-i-1, 200-i-1);
EXPECT_RECT_EQ(expectedOcclusion, layers[i]->occludedScreenSpace().bounds());
EXPECT_EQ(1u, layers[i]->occludedScreenSpace().rects().size());
}
// Kill the layerTreeHost immediately.
m_layerTreeHost->setRootLayer(0);
m_layerTreeHost.clear();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestManySurfaces)
// A loseContext(1) should lead to a didRecreateOutputSurface(true)
class CCLayerTreeHostTestSetSingleLostContext : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetSingleLostContext()
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void didCommitAndDrawFrame() OVERRIDE
{
m_layerTreeHost->loseContext(1);
}
virtual void didRecreateOutputSurface(bool succeeded) OVERRIDE
{
EXPECT_TRUE(succeeded);
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
TEST_F(CCLayerTreeHostTestSetSingleLostContext, runMultiThread)
{
runTest(true);
}
// A loseContext(10) should lead to a didRecreateOutputSurface(false), and
// a finishAllRendering() should not hang.
class CCLayerTreeHostTestSetRepeatedLostContext : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSetRepeatedLostContext()
{
}
virtual void beginTest() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void didCommitAndDrawFrame() OVERRIDE
{
m_layerTreeHost->loseContext(10);
}
virtual void didRecreateOutputSurface(bool succeeded) OVERRIDE
{
EXPECT_FALSE(succeeded);
m_layerTreeHost->finishAllRendering();
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
TEST_F(CCLayerTreeHostTestSetRepeatedLostContext, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestFractionalScroll : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestFractionalScroll()
: m_scrollAmount(1.75, 0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->rootLayer()->setScrollable(true);
postSetNeedsCommitToMainThread();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
CCLayerImpl* root = impl->rootLayer();
root->setMaxScrollPosition(IntSize(100, 100));
// Check that a fractional scroll delta is correctly accumulated over multiple commits.
if (!impl->sourceFrameNumber()) {
EXPECT_EQ(root->scrollPosition(), IntPoint(0, 0));
EXPECT_EQ(root->scrollDelta(), FloatSize(0, 0));
postSetNeedsCommitToMainThread();
} else if (impl->sourceFrameNumber() == 1) {
EXPECT_EQ(root->scrollPosition(), flooredIntPoint(m_scrollAmount));
EXPECT_EQ(root->scrollDelta(), FloatSize(fmod(m_scrollAmount.width(), 1), 0));
postSetNeedsCommitToMainThread();
} else if (impl->sourceFrameNumber() == 2) {
EXPECT_EQ(root->scrollPosition(), flooredIntPoint(m_scrollAmount + m_scrollAmount));
EXPECT_EQ(root->scrollDelta(), FloatSize(fmod(2 * m_scrollAmount.width(), 1), 0));
endTest();
}
root->scrollBy(m_scrollAmount);
}
virtual void applyScrollAndScale(const IntSize& scrollDelta, float scale) OVERRIDE
{
IntPoint position = m_layerTreeHost->rootLayer()->scrollPosition();
m_layerTreeHost->rootLayer()->setScrollPosition(position + scrollDelta);
}
virtual void afterTest() OVERRIDE
{
}
private:
FloatSize m_scrollAmount;
};
TEST_F(CCLayerTreeHostTestFractionalScroll, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestFinishAllRendering : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestFinishAllRendering()
: m_once(false)
, m_mutex()
, m_drawCount(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setNeedsRedraw();
}
virtual void didCommitAndDrawFrame() OVERRIDE
{
if (m_once)
return;
m_once = true;
m_layerTreeHost->setNeedsRedraw();
m_layerTreeHost->acquireLayerTextures();
{
Locker<Mutex> lock(m_mutex);
m_drawCount = 0;
}
m_layerTreeHost->finishAllRendering();
{
Locker<Mutex> lock(m_mutex);
EXPECT_EQ(0, m_drawCount);
}
endTest();
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
Locker<Mutex> lock(m_mutex);
++m_drawCount;
}
virtual void afterTest() OVERRIDE
{
}
private:
bool m_once;
Mutex m_mutex;
int m_drawCount;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestFinishAllRendering)
// Layers added to tree with existing active animations should have the animation
// correctly recognized.
class CCLayerTreeHostTestLayerAddedWithAnimation : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestLayerAddedWithAnimation()
: m_addedAnimation(false)
{
}
virtual void beginTest() OVERRIDE
{
EXPECT_FALSE(m_addedAnimation);
RefPtr<LayerChromium> layer = LayerChromium::create();
layer->setLayerAnimationDelegate(this);
// Any valid CCAnimationCurve will do here.
OwnPtr<CCAnimationCurve> curve(CCEaseTimingFunction::create());
OwnPtr<CCActiveAnimation> animation(CCActiveAnimation::create(curve.release(), 1, 1, CCActiveAnimation::Opacity));
layer->layerAnimationController()->addAnimation(animation.release());
// We add the animation *before* attaching the layer to the tree.
m_layerTreeHost->rootLayer()->addChild(layer);
EXPECT_TRUE(m_addedAnimation);
endTest();
}
virtual void didAddAnimation() OVERRIDE
{
m_addedAnimation = true;
}
virtual void afterTest() OVERRIDE { }
private:
bool m_addedAnimation;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestLayerAddedWithAnimation)
class CCLayerTreeHostTestScrollChildLayer : public CCLayerTreeHostTest, public WebLayerScrollClient {
public:
CCLayerTreeHostTestScrollChildLayer()
: m_scrollAmount(2, 1)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
m_layerTreeHost->rootLayer()->setBounds(IntSize(10, 10));
m_rootScrollLayer = ContentLayerChromium::create(&m_mockDelegate);
m_rootScrollLayer->setBounds(IntSize(10, 10));
m_rootScrollLayer->setPosition(FloatPoint(0, 0));
m_rootScrollLayer->setAnchorPoint(FloatPoint(0, 0));
m_rootScrollLayer->setIsDrawable(true);
m_rootScrollLayer->setScrollable(true);
m_rootScrollLayer->setMaxScrollPosition(IntSize(100, 100));
m_layerTreeHost->rootLayer()->addChild(m_rootScrollLayer);
m_childLayer = ContentLayerChromium::create(&m_mockDelegate);
m_childLayer->setLayerScrollClient(this);
m_childLayer->setBounds(IntSize(50, 50));
m_childLayer->setIsDrawable(true);
m_childLayer->setScrollable(true);
m_childLayer->setMaxScrollPosition(IntSize(100, 100));
m_childLayer->setPosition(FloatPoint(0, 0));
m_childLayer->setAnchorPoint(FloatPoint(0, 0));
m_rootScrollLayer->addChild(m_childLayer);
postSetNeedsCommitToMainThread();
}
virtual void didScroll() OVERRIDE
{
m_finalScrollPosition = m_childLayer->scrollPosition();
}
virtual void applyScrollAndScale(const IntSize& scrollDelta, float) OVERRIDE
{
IntPoint position = m_rootScrollLayer->scrollPosition();
m_rootScrollLayer->setScrollPosition(position + scrollDelta);
}
virtual void beginCommitOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
EXPECT_EQ(m_rootScrollLayer->scrollPosition(), IntPoint());
if (!m_layerTreeHost->commitNumber())
EXPECT_EQ(m_childLayer->scrollPosition(), IntPoint());
else
EXPECT_EQ(m_childLayer->scrollPosition(), IntPoint() + m_scrollAmount);
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
if (impl->sourceAnimationFrameNumber() == 1) {
EXPECT_EQ(impl->scrollBegin(IntPoint(5, 5), CCInputHandlerClient::Wheel), CCInputHandlerClient::ScrollStarted);
impl->scrollBy(IntPoint(), m_scrollAmount);
impl->scrollEnd();
} else if (impl->sourceAnimationFrameNumber() == 2)
endTest();
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(IntPoint(m_scrollAmount), m_finalScrollPosition);
}
private:
const IntSize m_scrollAmount;
IntPoint m_finalScrollPosition;
MockContentLayerChromiumClient m_mockDelegate;
RefPtr<LayerChromium> m_childLayer;
RefPtr<LayerChromium> m_rootScrollLayer;
};
TEST_F(CCLayerTreeHostTestScrollChildLayer, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestCompositeAndReadbackCleanup : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestCompositeAndReadbackCleanup() { }
virtual void beginTest() OVERRIDE
{
LayerChromium* rootLayer = m_layerTreeHost->rootLayer();
OwnArrayPtr<char> pixels(adoptArrayPtr(new char[4]));
m_layerTreeHost->compositeAndReadback(static_cast<void*>(pixels.get()), IntRect(0, 0, 1, 1));
EXPECT_FALSE(rootLayer->renderSurface());
endTest();
}
virtual void afterTest() OVERRIDE
{
}
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestCompositeAndReadbackCleanup)
class CCLayerTreeHostTestSurfaceNotAllocatedForLayersOutsideMemoryLimit : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestSurfaceNotAllocatedForLayersOutsideMemoryLimit()
: m_rootLayer(ContentLayerChromiumWithUpdateTracking::create(&m_mockDelegate))
, m_surfaceLayer1(ContentLayerChromiumWithUpdateTracking::create(&m_mockDelegate))
, m_replicaLayer1(ContentLayerChromiumWithUpdateTracking::create(&m_mockDelegate))
, m_surfaceLayer2(ContentLayerChromiumWithUpdateTracking::create(&m_mockDelegate))
, m_replicaLayer2(ContentLayerChromiumWithUpdateTracking::create(&m_mockDelegate))
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(100, 100), IntSize(100, 100));
m_rootLayer->setBounds(IntSize(100, 100));
m_surfaceLayer1->setBounds(IntSize(100, 100));
m_surfaceLayer1->setForceRenderSurface(true);
m_surfaceLayer1->setOpacity(0.5);
m_surfaceLayer2->setBounds(IntSize(100, 100));
m_surfaceLayer2->setForceRenderSurface(true);
m_surfaceLayer2->setOpacity(0.5);
m_surfaceLayer1->setReplicaLayer(m_replicaLayer1.get());
m_surfaceLayer2->setReplicaLayer(m_replicaLayer2.get());
m_rootLayer->addChild(m_surfaceLayer1);
m_surfaceLayer1->addChild(m_surfaceLayer2);
m_layerTreeHost->setRootLayer(m_rootLayer);
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* hostImpl) OVERRIDE
{
CCRenderer* renderer = hostImpl->renderer();
CCRenderPass::Id surface1RenderPassId = hostImpl->rootLayer()->children()[0]->renderSurface()->renderPassId();
CCRenderPass::Id surface2RenderPassId = hostImpl->rootLayer()->children()[0]->children()[0]->renderSurface()->renderPassId();
switch (hostImpl->sourceFrameNumber()) {
case 0:
EXPECT_TRUE(renderer->haveCachedResourcesForRenderPassId(surface1RenderPassId));
EXPECT_TRUE(renderer->haveCachedResourcesForRenderPassId(surface2RenderPassId));
// Reduce the memory limit to only fit the root layer and one render surface. This
// prevents any contents drawing into surfaces from being allocated.
hostImpl->setMemoryAllocationLimitBytes(100 * 100 * 4 * 2);
break;
case 1:
EXPECT_FALSE(renderer->haveCachedResourcesForRenderPassId(surface1RenderPassId));
EXPECT_FALSE(renderer->haveCachedResourcesForRenderPassId(surface2RenderPassId));
endTest();
break;
}
}
virtual void afterTest() OVERRIDE
{
EXPECT_EQ(2, m_rootLayer->paintContentsCount());
EXPECT_EQ(2, m_surfaceLayer1->paintContentsCount());
EXPECT_EQ(2, m_surfaceLayer2->paintContentsCount());
// Clear layer references so CCLayerTreeHost dies.
m_rootLayer.clear();
m_surfaceLayer1.clear();
m_replicaLayer1.clear();
m_surfaceLayer2.clear();
m_replicaLayer2.clear();
}
private:
MockContentLayerChromiumClient m_mockDelegate;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_rootLayer;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_surfaceLayer1;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_replicaLayer1;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_surfaceLayer2;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_replicaLayer2;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestSurfaceNotAllocatedForLayersOutsideMemoryLimit)
class EvictionTrackingTexture : public LayerTextureUpdater::Texture {
public:
static PassOwnPtr<EvictionTrackingTexture> create(PassOwnPtr<CCPrioritizedTexture> texture) { return adoptPtr(new EvictionTrackingTexture(texture)); }
virtual ~EvictionTrackingTexture() { }
virtual void updateRect(CCResourceProvider* resourceProvider, const IntRect&, const IntSize&) OVERRIDE
{
ASSERT_TRUE(!texture()->haveBackingTexture() || resourceProvider->numResources() > 0);
texture()->acquireBackingTexture(resourceProvider);
m_updated = true;
}
void resetUpdated() { m_updated = false; }
bool updated() const { return m_updated; }
private:
explicit EvictionTrackingTexture(PassOwnPtr<CCPrioritizedTexture> texture)
: LayerTextureUpdater::Texture(texture)
, m_updated(false)
{ }
bool m_updated;
};
class EvictionTestLayer : public LayerChromium {
public:
static PassRefPtr<EvictionTestLayer> create() { return adoptRef(new EvictionTestLayer()); }
virtual void update(CCTextureUpdateQueue&, const CCOcclusionTracker*, CCRenderingStats&) OVERRIDE;
virtual bool drawsContent() const OVERRIDE { return true; }
virtual PassOwnPtr<CCLayerImpl> createCCLayerImpl() OVERRIDE;
virtual void pushPropertiesTo(CCLayerImpl*) OVERRIDE;
virtual void setTexturePriorities(const CCPriorityCalculator&) OVERRIDE;
void resetUpdated()
{
if (m_texture.get())
m_texture->resetUpdated();
}
bool updated() const { return m_texture.get() ? m_texture->updated() : false; }
private:
EvictionTestLayer() : LayerChromium() { }
void createTextureIfNeeded()
{
if (m_texture.get())
return;
m_texture = EvictionTrackingTexture::create(CCPrioritizedTexture::create(layerTreeHost()->contentsTextureManager()));
m_texture->texture()->setDimensions(IntSize(10, 10), cc::GraphicsContext3D::RGBA);
}
OwnPtr<EvictionTrackingTexture> m_texture;
};
class EvictionTestLayerImpl : public CCLayerImpl {
public:
static PassOwnPtr<EvictionTestLayerImpl> create(int id)
{
return adoptPtr(new EvictionTestLayerImpl(id));
}
virtual ~EvictionTestLayerImpl() { }
virtual void appendQuads(CCQuadSink& quadSink, CCAppendQuadsData&) OVERRIDE
{
ASSERT_TRUE(m_hasTexture);
ASSERT_NE(0u, layerTreeHostImpl()->resourceProvider()->numResources());
}
void setHasTexture(bool hasTexture) { m_hasTexture = hasTexture; }
private:
explicit EvictionTestLayerImpl(int id)
: CCLayerImpl(id)
, m_hasTexture(false) { }
bool m_hasTexture;
};
void EvictionTestLayer::setTexturePriorities(const CCPriorityCalculator&)
{
createTextureIfNeeded();
if (!m_texture.get())
return;
m_texture->texture()->setRequestPriority(CCPriorityCalculator::uiPriority(true));
}
void EvictionTestLayer::update(CCTextureUpdateQueue& queue, const CCOcclusionTracker*, CCRenderingStats&)
{
createTextureIfNeeded();
if (!m_texture.get())
return;
IntRect fullRect(0, 0, 10, 10);
TextureUploader::Parameters parameters = { m_texture.get(), fullRect, IntSize() };
queue.appendFullUpload(parameters);
}
PassOwnPtr<CCLayerImpl> EvictionTestLayer::createCCLayerImpl()
{
return EvictionTestLayerImpl::create(m_layerId);
}
void EvictionTestLayer::pushPropertiesTo(CCLayerImpl* layerImpl)
{
LayerChromium::pushPropertiesTo(layerImpl);
EvictionTestLayerImpl* testLayerImpl = static_cast<EvictionTestLayerImpl*>(layerImpl);
testLayerImpl->setHasTexture(m_texture->texture()->haveBackingTexture());
}
class CCLayerTreeHostTestEvictTextures : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestEvictTextures()
: m_layer(EvictionTestLayer::create())
, m_implForEvictTextures(0)
, m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setRootLayer(m_layer);
m_layerTreeHost->setViewportSize(IntSize(10, 20), IntSize(10, 20));
WebTransformationMatrix identityMatrix;
setLayerPropertiesForTesting(m_layer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(10, 20), true);
}
class EvictTexturesTask : public WebKit::WebThread::Task {
public:
EvictTexturesTask(CCLayerTreeHostTestEvictTextures* test) : m_test(test) { }
virtual ~EvictTexturesTask() { }
virtual void run() OVERRIDE
{
ASSERT(m_test->m_implForEvictTextures);
m_test->m_implForEvictTextures->releaseContentsTextures();
}
private:
CCLayerTreeHostTestEvictTextures* m_test;
};
void postEvictTextures()
{
ASSERT(webThread());
webThread()->postTask(new EvictTexturesTask(this));
}
// Commit 1: Just commit and draw normally, then post an eviction at the end
// that will trigger a commit.
// Commit 2: Triggered by the eviction, let it go through and then set
// needsCommit.
// Commit 3: Triggered by the setNeedsCommit. In layout(), post an eviction
// task, which will be handled before the commit. Don't set needsCommit, it
// should have been posted. A frame should not be drawn (note,
// didCommitAndDrawFrame may be called anyway).
// Commit 4: Triggered by the eviction, let it go through and then set
// needsCommit.
// Commit 5: Triggered by the setNeedsCommit, post an eviction task in
// layout(), a frame should not be drawn but a commit will be posted.
// Commit 6: Triggered by the eviction, post an eviction task in
// layout(), which will be a noop, letting the commit (which recreates the
// textures) go through and draw a frame, then end the test.
//
// Commits 1+2 test the eviction recovery path where eviction happens outside
// of the beginFrame/commit pair.
// Commits 3+4 test the eviction recovery path where eviction happens inside
// the beginFrame/commit pair.
// Commits 5+6 test the path where an eviction happens during the eviction
// recovery path.
virtual void didCommitAndDrawFrame() OVERRIDE
{
switch (m_numCommits) {
case 1:
EXPECT_TRUE(m_layer->updated());
postEvictTextures();
break;
case 2:
EXPECT_TRUE(m_layer->updated());
m_layerTreeHost->setNeedsCommit();
break;
case 3:
break;
case 4:
EXPECT_TRUE(m_layer->updated());
m_layerTreeHost->setNeedsCommit();
break;
case 5:
break;
case 6:
EXPECT_TRUE(m_layer->updated());
endTest();
break;
default:
ASSERT_NOT_REACHED();
break;
}
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_implForEvictTextures = impl;
}
virtual void layout() OVERRIDE
{
++m_numCommits;
switch (m_numCommits) {
case 1:
case 2:
break;
case 3:
postEvictTextures();
break;
case 4:
// We couldn't check in didCommitAndDrawFrame on commit 3, so check here.
EXPECT_FALSE(m_layer->updated());
break;
case 5:
postEvictTextures();
break;
case 6:
// We couldn't check in didCommitAndDrawFrame on commit 5, so check here.
EXPECT_FALSE(m_layer->updated());
postEvictTextures();
break;
default:
ASSERT_NOT_REACHED();
break;
}
m_layer->resetUpdated();
}
virtual void afterTest() OVERRIDE
{
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<EvictionTestLayer> m_layer;
CCLayerTreeHostImpl* m_implForEvictTextures;
int m_numCommits;
};
TEST_F(CCLayerTreeHostTestEvictTextures, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestLostContextAfterEvictTextures : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestLostContextAfterEvictTextures()
: m_layer(EvictionTestLayer::create())
, m_implForEvictTextures(0)
, m_numCommits(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setRootLayer(m_layer);
m_layerTreeHost->setViewportSize(IntSize(10, 20), IntSize(10, 20));
WebTransformationMatrix identityMatrix;
setLayerPropertiesForTesting(m_layer.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(10, 20), true);
}
class EvictTexturesTask : public WebKit::WebThread::Task {
public:
EvictTexturesTask(CCLayerTreeHostTestLostContextAfterEvictTextures* test) : m_test(test) { }
virtual ~EvictTexturesTask() { }
virtual void run() OVERRIDE
{
m_test->evictTexturesOnImplThread();
}
private:
CCLayerTreeHostTestLostContextAfterEvictTextures* m_test;
};
void postEvictTextures()
{
if (webThread())
webThread()->postTask(new EvictTexturesTask(this));
else {
DebugScopedSetImplThread impl;
evictTexturesOnImplThread();
}
}
void evictTexturesOnImplThread()
{
ASSERT(m_implForEvictTextures);
m_implForEvictTextures->releaseContentsTextures();
}
// Commit 1: Just commit and draw normally, then at the end, set ourselves
// invisible (to prevent a commit that would recreate textures after
// eviction, before the context recovery), and post a task that will evict
// textures, then cause the context to be lost, and then set ourselves
// visible again (to allow commits, since that's what causes context
// recovery in single thread).
virtual void didCommitAndDrawFrame() OVERRIDE
{
++m_numCommits;
switch (m_numCommits) {
case 1:
EXPECT_TRUE(m_layer->updated());
m_layerTreeHost->setVisible(false);
postEvictTextures();
m_layerTreeHost->loseContext(1);
m_layerTreeHost->setVisible(true);
break;
default:
break;
}
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_implForEvictTextures = impl;
}
virtual void didRecreateOutputSurface(bool succeeded) OVERRIDE
{
EXPECT_TRUE(succeeded);
endTest();
}
virtual void afterTest() OVERRIDE
{
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<EvictionTestLayer> m_layer;
CCLayerTreeHostImpl* m_implForEvictTextures;
int m_numCommits;
};
SINGLE_AND_MULTI_THREAD_TEST_F(CCLayerTreeHostTestLostContextAfterEvictTextures)
class CompositorFakeWebGraphicsContext3DWithEndQueryCausingLostContext : public WebKit::CompositorFakeWebGraphicsContext3D {
public:
static PassOwnPtr<CompositorFakeWebGraphicsContext3DWithEndQueryCausingLostContext> create(Attributes attrs)
{
return adoptPtr(new CompositorFakeWebGraphicsContext3DWithEndQueryCausingLostContext(attrs));
}
virtual void setContextLostCallback(WebGraphicsContextLostCallback* callback) { m_contextLostCallback = callback; }
virtual bool isContextLost() { return m_isContextLost; }
virtual void beginQueryEXT(GC3Denum, WebGLId) { }
virtual void endQueryEXT(GC3Denum)
{
// Lose context.
if (!m_isContextLost) {
m_contextLostCallback->onContextLost();
m_isContextLost = true;
}
}
virtual void getQueryObjectuivEXT(WebGLId, GC3Denum pname, GC3Duint* params)
{
// Context is lost. We need to behave as if result is available.
if (pname == Extensions3DChromium::QUERY_RESULT_AVAILABLE_EXT)
*params = 1;
}
private:
explicit CompositorFakeWebGraphicsContext3DWithEndQueryCausingLostContext(Attributes attrs)
: CompositorFakeWebGraphicsContext3D(attrs)
, m_contextLostCallback(0)
, m_isContextLost(false) { }
WebGraphicsContextLostCallback* m_contextLostCallback;
bool m_isContextLost;
};
class CCLayerTreeHostTestLostContextWhileUpdatingResources : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestLostContextWhileUpdatingResources()
: m_parent(ContentLayerChromiumWithUpdateTracking::create(&m_client))
, m_numChildren(50)
{
for (int i = 0; i < m_numChildren; i++)
m_children.append(ContentLayerChromiumWithUpdateTracking::create(&m_client));
}
virtual PassOwnPtr<WebKit::WebCompositorOutputSurface> createOutputSurface()
{
return FakeWebCompositorOutputSurface::create(CompositorFakeWebGraphicsContext3DWithEndQueryCausingLostContext::create(WebGraphicsContext3D::Attributes()));
}
virtual void beginTest()
{
m_layerTreeHost->setRootLayer(m_parent);
m_layerTreeHost->setViewportSize(IntSize(m_numChildren, 1), IntSize(m_numChildren, 1));
WebTransformationMatrix identityMatrix;
setLayerPropertiesForTesting(m_parent.get(), 0, identityMatrix, FloatPoint(0, 0), FloatPoint(0, 0), IntSize(m_numChildren, 1), true);
for (int i = 0; i < m_numChildren; i++)
setLayerPropertiesForTesting(m_children[i].get(), m_parent.get(), identityMatrix, FloatPoint(0, 0), FloatPoint(i, 0), IntSize(1, 1), false);
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl* impl)
{
endTest();
}
virtual void layout()
{
m_parent->setNeedsDisplay();
for (int i = 0; i < m_numChildren; i++)
m_children[i]->setNeedsDisplay();
}
virtual void afterTest()
{
}
private:
MockContentLayerChromiumClient m_client;
RefPtr<ContentLayerChromiumWithUpdateTracking> m_parent;
int m_numChildren;
Vector<RefPtr<ContentLayerChromiumWithUpdateTracking> > m_children;
};
TEST_F(CCLayerTreeHostTestLostContextWhileUpdatingResources, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestContinuousCommit : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestContinuousCommit()
: m_numCommitComplete(0)
, m_numDrawLayers(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
m_layerTreeHost->rootLayer()->setBounds(IntSize(10, 10));
postSetNeedsCommitToMainThread();
}
virtual void didCommit() OVERRIDE
{
postSetNeedsCommitToMainThread();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
if (m_numDrawLayers == 1)
m_numCommitComplete++;
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_numDrawLayers++;
if (m_numDrawLayers == 2)
endTest();
}
virtual void afterTest() OVERRIDE
{
// Check that we didn't commit twice between first and second draw.
EXPECT_EQ(1, m_numCommitComplete);
}
private:
int m_numCommitComplete;
int m_numDrawLayers;
};
TEST_F(CCLayerTreeHostTestContinuousCommit, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestContinuousInvalidate : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestContinuousInvalidate()
: m_numCommitComplete(0)
, m_numDrawLayers(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
m_layerTreeHost->rootLayer()->setBounds(IntSize(10, 10));
m_contentLayer = ContentLayerChromium::create(&m_mockDelegate);
m_contentLayer->setBounds(IntSize(10, 10));
m_contentLayer->setPosition(FloatPoint(0, 0));
m_contentLayer->setAnchorPoint(FloatPoint(0, 0));
m_contentLayer->setIsDrawable(true);
m_layerTreeHost->rootLayer()->addChild(m_contentLayer);
postSetNeedsCommitToMainThread();
}
virtual void didCommit() OVERRIDE
{
m_contentLayer->setNeedsDisplay();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
if (m_numDrawLayers == 1)
m_numCommitComplete++;
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_numDrawLayers++;
if (m_numDrawLayers == 2)
endTest();
}
virtual void afterTest() OVERRIDE
{
// Check that we didn't commit twice between first and second draw.
EXPECT_EQ(1, m_numCommitComplete);
// Clear layer references so CCLayerTreeHost dies.
m_contentLayer.clear();
}
private:
MockContentLayerChromiumClient m_mockDelegate;
RefPtr<LayerChromium> m_contentLayer;
int m_numCommitComplete;
int m_numDrawLayers;
};
TEST_F(CCLayerTreeHostTestContinuousInvalidate, runMultiThread)
{
runTest(true);
}
class CCLayerTreeHostTestContinuousAnimate : public CCLayerTreeHostTest {
public:
CCLayerTreeHostTestContinuousAnimate()
: m_numCommitComplete(0)
, m_numDrawLayers(0)
{
}
virtual void beginTest() OVERRIDE
{
m_layerTreeHost->setViewportSize(IntSize(10, 10), IntSize(10, 10));
m_layerTreeHost->rootLayer()->setBounds(IntSize(10, 10));
postSetNeedsCommitToMainThread();
}
virtual void animate(double) OVERRIDE
{
m_layerTreeHost->setNeedsAnimate();
}
virtual void layout() OVERRIDE
{
m_layerTreeHost->rootLayer()->setNeedsDisplay();
}
virtual void commitCompleteOnCCThread(CCLayerTreeHostImpl*) OVERRIDE
{
if (m_numDrawLayers == 1)
m_numCommitComplete++;
}
virtual void drawLayersOnCCThread(CCLayerTreeHostImpl* impl) OVERRIDE
{
m_numDrawLayers++;
if (m_numDrawLayers == 2)
endTest();
}
virtual void afterTest() OVERRIDE
{
// Check that we didn't commit twice between first and second draw.
EXPECT_EQ(1, m_numCommitComplete);
}
private:
int m_numCommitComplete;
int m_numDrawLayers;
};
TEST_F(CCLayerTreeHostTestContinuousAnimate, runMultiThread)
{
runTest(true);
}
} // namespace