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/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "ImageHost.h"
#include "LayersLogging.h" // for AppendToString
#include "composite/CompositableHost.h" // for CompositableHost, etc
#include "ipc/IPCMessageUtils.h" // for null_t
#include "mozilla/layers/Compositor.h" // for Compositor
#include "mozilla/layers/Effects.h" // for TexturedEffect, Effect, etc
#include "mozilla/layers/ImageContainerParent.h"
#include "mozilla/layers/LayerManagerComposite.h" // for TexturedEffect, Effect, etc
#include "nsAString.h"
#include "nsDebug.h" // for NS_WARNING, NS_ASSERTION
#include "nsPrintfCString.h" // for nsPrintfCString
#include "nsString.h" // for nsAutoCString
#define BIAS_TIME_MS 1.0
namespace mozilla {
using namespace gfx;
namespace layers {
class ISurfaceAllocator;
ImageHost::ImageHost(const TextureInfo& aTextureInfo)
: CompositableHost(aTextureInfo)
, mImageContainer(nullptr)
, mLastFrameID(-1)
, mLastProducerID(-1)
, mBias(BIAS_NONE)
, mLocked(false)
{}
ImageHost::~ImageHost()
{
SetImageContainer(nullptr);
}
void
ImageHost::UseTextureHost(const nsTArray<TimedTexture>& aTextures)
{
MOZ_ASSERT(!mLocked);
CompositableHost::UseTextureHost(aTextures);
MOZ_ASSERT(aTextures.Length() >= 1);
nsTArray<TimedImage> newImages;
for (uint32_t i = 0; i < aTextures.Length(); ++i) {
const TimedTexture& t = aTextures[i];
MOZ_ASSERT(t.mTexture);
if (i + 1 < aTextures.Length() &&
t.mProducerID == mLastProducerID && t.mFrameID < mLastFrameID) {
// Ignore frames before a frame that we already composited. We don't
// ever want to display these frames. This could be important if
// the frame producer adjusts timestamps (e.g. to track the audio clock)
// and the new frame times are earlier.
continue;
}
TimedImage& img = *newImages.AppendElement();
img.mTextureHost = t.mTexture;
img.mTimeStamp = t.mTimeStamp;
img.mPictureRect = t.mPictureRect;
img.mFrameID = t.mFrameID;
img.mProducerID = t.mProducerID;
img.mTextureHost->SetCropRect(img.mPictureRect);
img.mTextureHost->Updated();
}
mImages.SwapElements(newImages);
newImages.Clear();
// If we only have one image we can upload it right away, otherwise we'll upload
// on-demand during composition after we have picked the proper timestamp.
if (mImages.Length() == 1) {
SetCurrentTextureHost(mImages[0].mTextureHost);
}
// Video producers generally send replacement images with the same frameID but
// slightly different timestamps in order to sync with the audio clock. This
// means that any CompositeUntil() call we made in Composite() may no longer
// guarantee that we'll composite until the next frame is ready. Fix that here.
if (GetCompositor() && mLastFrameID >= 0) {
for (size_t i = 0; i < mImages.Length(); ++i) {
bool frameComesAfter = mImages[i].mFrameID > mLastFrameID ||
mImages[i].mProducerID != mLastProducerID;
if (frameComesAfter && !mImages[i].mTimeStamp.IsNull()) {
GetCompositor()->CompositeUntil(mImages[i].mTimeStamp +
TimeDuration::FromMilliseconds(BIAS_TIME_MS));
break;
}
}
}
}
void
ImageHost::SetCurrentTextureHost(TextureHost* aTexture)
{
if (aTexture == mCurrentTextureHost.get()) {
return;
}
bool swapTextureSources = !!mCurrentTextureHost && !!mCurrentTextureSource
&& mCurrentTextureHost->HasIntermediateBuffer();
if (swapTextureSources) {
auto dataSource = mCurrentTextureSource->AsDataTextureSource();
if (dataSource) {
// The current textureHost has an internal buffer in the form of the
// DataTextureSource. Removing the ownership of the texture source
// will enable the next texture host we bind to the texture source to
// acquire it instead of creating a new one. This is desirable in
// ImageHost because the current texture won't be used again with the
// same content. It wouldn't be desirable with ContentHost for instance,
// because the latter reuses the texture's valid regions.
dataSource->SetOwner(nullptr);
}
RefPtr<TextureSource> tmp = mExtraTextureSource;
mExtraTextureSource = mCurrentTextureSource.get();
mCurrentTextureSource = tmp;
} else {
mExtraTextureSource = nullptr;
}
mCurrentTextureHost = aTexture;
mCurrentTextureHost->PrepareTextureSource(mCurrentTextureSource);
}
void
ImageHost::CleanupResources()
{
mExtraTextureSource = nullptr;
mCurrentTextureSource = nullptr;
mCurrentTextureHost = nullptr;
}
void
ImageHost::RemoveTextureHost(TextureHost* aTexture)
{
MOZ_ASSERT(!mLocked);
CompositableHost::RemoveTextureHost(aTexture);
for (int32_t i = mImages.Length() - 1; i >= 0; --i) {
if (mImages[i].mTextureHost == aTexture) {
aTexture->UnbindTextureSource();
mImages.RemoveElementAt(i);
}
}
}
void
ImageHost::UseOverlaySource(OverlaySource aOverlay,
const gfx::IntRect& aPictureRect)
{
if (ImageHostOverlay::IsValid(aOverlay)) {
if (!mImageHostOverlay) {
mImageHostOverlay = new ImageHostOverlay();
}
mImageHostOverlay->UseOverlaySource(aOverlay, aPictureRect);
} else {
mImageHostOverlay = nullptr;
}
}
static TimeStamp
GetBiasedTime(const TimeStamp& aInput, ImageHost::Bias aBias)
{
switch (aBias) {
case ImageHost::BIAS_NEGATIVE:
return aInput - TimeDuration::FromMilliseconds(BIAS_TIME_MS);
case ImageHost::BIAS_POSITIVE:
return aInput + TimeDuration::FromMilliseconds(BIAS_TIME_MS);
default:
return aInput;
}
}
static ImageHost::Bias
UpdateBias(const TimeStamp& aCompositionTime,
const TimeStamp& aCompositedImageTime,
const TimeStamp& aNextImageTime, // may be null
ImageHost::Bias aBias)
{
if (aCompositedImageTime.IsNull()) {
return ImageHost::BIAS_NONE;
}
TimeDuration threshold = TimeDuration::FromMilliseconds(1.0);
if (aCompositionTime - aCompositedImageTime < threshold &&
aCompositionTime - aCompositedImageTime > -threshold) {
// The chosen frame's time is very close to the composition time (probably
// just before the current composition time, but due to previously set
// negative bias, it could be just after the current composition time too).
// If the inter-frame time is almost exactly equal to (a multiple of)
// the inter-composition time, then we're in a dangerous situation because
// jitter might cause frames to fall one side or the other of the
// composition times, causing many frames to be skipped or duplicated.
// Try to prevent that by adding a negative bias to the frame times during
// the next composite; that should ensure the next frame's time is treated
// as falling just before a composite time.
return ImageHost::BIAS_NEGATIVE;
}
if (!aNextImageTime.IsNull() &&
aNextImageTime - aCompositionTime < threshold &&
aNextImageTime - aCompositionTime > -threshold) {
// The next frame's time is very close to our composition time (probably
// just after the current composition time, but due to previously set
// positive bias, it could be just before the current composition time too).
// We're in a dangerous situation because jitter might cause frames to
// fall one side or the other of the composition times, causing many frames
// to be skipped or duplicated.
// Try to prevent that by adding a negative bias to the frame times during
// the next composite; that should ensure the next frame's time is treated
// as falling just before a composite time.
return ImageHost::BIAS_POSITIVE;
}
return ImageHost::BIAS_NONE;
}
int ImageHost::ChooseImageIndex() const
{
if (!GetCompositor() || mImages.IsEmpty()) {
return -1;
}
TimeStamp now = GetCompositor()->GetCompositionTime();
if (now.IsNull()) {
// Not in a composition, so just return the last image we composited
// (if it's one of the current images).
for (uint32_t i = 0; i < mImages.Length(); ++i) {
if (mImages[i].mFrameID == mLastFrameID &&
mImages[i].mProducerID == mLastProducerID) {
return i;
}
}
return -1;
}
uint32_t result = 0;
while (result + 1 < mImages.Length() &&
GetBiasedTime(mImages[result + 1].mTimeStamp, mBias) <= now) {
++result;
}
return result;
}
const ImageHost::TimedImage* ImageHost::ChooseImage() const
{
int index = ChooseImageIndex();
return index >= 0 ? &mImages[index] : nullptr;
}
ImageHost::TimedImage* ImageHost::ChooseImage()
{
int index = ChooseImageIndex();
return index >= 0 ? &mImages[index] : nullptr;
}
TextureHost*
ImageHost::GetAsTextureHost(IntRect* aPictureRect)
{
TimedImage* img = ChooseImage();
if (img) {
SetCurrentTextureHost(img->mTextureHost);
}
if (aPictureRect && img) {
*aPictureRect = img->mPictureRect;
}
return img ? img->mTextureHost.get() : nullptr;
}
void ImageHost::Attach(Layer* aLayer,
Compositor* aCompositor,
AttachFlags aFlags)
{
CompositableHost::Attach(aLayer, aCompositor, aFlags);
for (auto& img : mImages) {
if (GetCompositor()) {
img.mTextureHost->SetCompositor(GetCompositor());
}
img.mTextureHost->Updated();
}
}
void
ImageHost::Composite(LayerComposite* aLayer,
EffectChain& aEffectChain,
float aOpacity,
const gfx::Matrix4x4& aTransform,
const gfx::SamplingFilter aSamplingFilter,
const gfx::IntRect& aClipRect,
const nsIntRegion* aVisibleRegion)
{
if (!GetCompositor()) {
// should only happen when a tab is dragged to another window and
// async-video is still sending frames but we haven't attached the
// set the new compositor yet.
return;
}
if (mImageHostOverlay) {
mImageHostOverlay->Composite(GetCompositor(),
mFlashCounter,
aLayer,
aEffectChain,
aOpacity,
aTransform,
aSamplingFilter,
aClipRect,
aVisibleRegion);
mBias = BIAS_NONE;
return;
}
int imageIndex = ChooseImageIndex();
if (imageIndex < 0) {
return;
}
if (uint32_t(imageIndex) + 1 < mImages.Length()) {
GetCompositor()->CompositeUntil(mImages[imageIndex + 1].mTimeStamp + TimeDuration::FromMilliseconds(BIAS_TIME_MS));
}
TimedImage* img = &mImages[imageIndex];
img->mTextureHost->SetCompositor(GetCompositor());
SetCurrentTextureHost(img->mTextureHost);
{
AutoLockCompositableHost autoLock(this);
if (autoLock.Failed()) {
NS_WARNING("failed to lock front buffer");
return;
}
if (!mCurrentTextureHost->BindTextureSource(mCurrentTextureSource)) {
return;
}
if (!mCurrentTextureSource) {
// BindTextureSource above should have returned false!
MOZ_ASSERT(false);
return;
}
bool isAlphaPremultiplied =
!(mCurrentTextureHost->GetFlags() & TextureFlags::NON_PREMULTIPLIED);
RefPtr<TexturedEffect> effect =
CreateTexturedEffect(mCurrentTextureHost,
mCurrentTextureSource.get(), aSamplingFilter, isAlphaPremultiplied,
GetRenderState());
if (!effect) {
return;
}
if (!GetCompositor()->SupportsEffect(effect->mType)) {
return;
}
DiagnosticFlags diagnosticFlags = DiagnosticFlags::IMAGE;
if (effect->mType == EffectTypes::NV12) {
diagnosticFlags |= DiagnosticFlags::NV12;
} else if (effect->mType == EffectTypes::YCBCR) {
diagnosticFlags |= DiagnosticFlags::YCBCR;
}
if (mLastFrameID != img->mFrameID || mLastProducerID != img->mProducerID) {
if (mImageContainer) {
aLayer->GetLayerManager()->
AppendImageCompositeNotification(ImageCompositeNotification(
mImageContainer, nullptr,
img->mTimeStamp, GetCompositor()->GetCompositionTime(),
img->mFrameID, img->mProducerID));
}
mLastFrameID = img->mFrameID;
mLastProducerID = img->mProducerID;
}
aEffectChain.mPrimaryEffect = effect;
gfx::Rect pictureRect(0, 0, img->mPictureRect.width, img->mPictureRect.height);
BigImageIterator* it = mCurrentTextureSource->AsBigImageIterator();
if (it) {
// This iteration does not work if we have multiple texture sources here
// (e.g. 3 YCbCr textures). There's nothing preventing the different
// planes from having different resolutions or tile sizes. For example, a
// YCbCr frame could have Cb and Cr planes that are half the resolution of
// the Y plane, in such a way that the Y plane overflows the maximum
// texture size and the Cb and Cr planes do not. Then the Y plane would be
// split into multiple tiles and the Cb and Cr planes would just be one
// tile each.
// To handle the general case correctly, we'd have to create a grid of
// intersected tiles over all planes, and then draw each grid tile using
// the corresponding source tiles from all planes, with appropriate
// per-plane per-tile texture coords.
// DrawQuad currently assumes that all planes use the same texture coords.
MOZ_ASSERT(it->GetTileCount() == 1 || !mCurrentTextureSource->GetNextSibling(),
"Can't handle multi-plane BigImages");
it->BeginBigImageIteration();
do {
IntRect tileRect = it->GetTileRect();
gfx::Rect rect(tileRect.x, tileRect.y, tileRect.width, tileRect.height);
rect = rect.Intersect(pictureRect);
effect->mTextureCoords = Rect(Float(rect.x - tileRect.x) / tileRect.width,
Float(rect.y - tileRect.y) / tileRect.height,
Float(rect.width) / tileRect.width,
Float(rect.height) / tileRect.height);
if (img->mTextureHost->GetFlags() & TextureFlags::ORIGIN_BOTTOM_LEFT) {
effect->mTextureCoords.y = effect->mTextureCoords.YMost();
effect->mTextureCoords.height = -effect->mTextureCoords.height;
}
GetCompositor()->DrawQuad(rect, aClipRect, aEffectChain,
aOpacity, aTransform);
GetCompositor()->DrawDiagnostics(diagnosticFlags | DiagnosticFlags::BIGIMAGE,
rect, aClipRect, aTransform, mFlashCounter);
} while (it->NextTile());
it->EndBigImageIteration();
// layer border
GetCompositor()->DrawDiagnostics(diagnosticFlags, pictureRect,
aClipRect, aTransform, mFlashCounter);
} else {
IntSize textureSize = mCurrentTextureSource->GetSize();
effect->mTextureCoords = Rect(Float(img->mPictureRect.x) / textureSize.width,
Float(img->mPictureRect.y) / textureSize.height,
Float(img->mPictureRect.width) / textureSize.width,
Float(img->mPictureRect.height) / textureSize.height);
if (img->mTextureHost->GetFlags() & TextureFlags::ORIGIN_BOTTOM_LEFT) {
effect->mTextureCoords.y = effect->mTextureCoords.YMost();
effect->mTextureCoords.height = -effect->mTextureCoords.height;
}
GetCompositor()->DrawQuad(pictureRect, aClipRect, aEffectChain,
aOpacity, aTransform);
GetCompositor()->DrawDiagnostics(diagnosticFlags,
pictureRect, aClipRect,
aTransform, mFlashCounter);
}
}
// Update mBias last. This can change which frame ChooseImage(Index) would
// return, and we don't want to do that until we've finished compositing
// since callers of ChooseImage(Index) assume the same image will be chosen
// during a given composition. This must happen after autoLock's
// destructor!
mBias = UpdateBias(
GetCompositor()->GetCompositionTime(), mImages[imageIndex].mTimeStamp,
uint32_t(imageIndex + 1) < mImages.Length() ?
mImages[imageIndex + 1].mTimeStamp : TimeStamp(),
mBias);
}
void
ImageHost::SetCompositor(Compositor* aCompositor)
{
if (mCompositor != aCompositor) {
for (auto& img : mImages) {
img.mTextureHost->SetCompositor(aCompositor);
}
}
if (mImageHostOverlay) {
mImageHostOverlay->SetCompositor(aCompositor);
}
CompositableHost::SetCompositor(aCompositor);
}
void
ImageHost::PrintInfo(std::stringstream& aStream, const char* aPrefix)
{
aStream << aPrefix;
aStream << nsPrintfCString("ImageHost (0x%p)", this).get();
nsAutoCString pfx(aPrefix);
pfx += " ";
for (auto& img : mImages) {
aStream << "\n";
img.mTextureHost->PrintInfo(aStream, pfx.get());
AppendToString(aStream, img.mPictureRect, " [picture-rect=", "]");
}
if (mImageHostOverlay) {
mImageHostOverlay->PrintInfo(aStream, aPrefix);
}
}
void
ImageHost::Dump(std::stringstream& aStream,
const char* aPrefix,
bool aDumpHtml)
{
for (auto& img : mImages) {
aStream << aPrefix;
aStream << (aDumpHtml ? "<ul><li>TextureHost: "
: "TextureHost: ");
DumpTextureHost(aStream, img.mTextureHost);
aStream << (aDumpHtml ? " </li></ul> " : " ");
}
}
LayerRenderState
ImageHost::GetRenderState()
{
if (mImageHostOverlay) {
return mImageHostOverlay->GetRenderState();
}
TimedImage* img = ChooseImage();
if (img) {
SetCurrentTextureHost(img->mTextureHost);
return img->mTextureHost->GetRenderState();
}
return LayerRenderState();
}
already_AddRefed<gfx::DataSourceSurface>
ImageHost::GetAsSurface()
{
if (mImageHostOverlay) {
return nullptr;
}
TimedImage* img = ChooseImage();
if (img) {
return img->mTextureHost->GetAsSurface();
}
return nullptr;
}
bool
ImageHost::Lock()
{
MOZ_ASSERT(!mLocked);
TimedImage* img = ChooseImage();
if (!img) {
return false;
}
SetCurrentTextureHost(img->mTextureHost);
if (!mCurrentTextureHost->Lock()) {
return false;
}
mLocked = true;
return true;
}
void
ImageHost::Unlock()
{
MOZ_ASSERT(mLocked);
if (mCurrentTextureHost) {
mCurrentTextureHost->Unlock();
}
mLocked = false;
}
IntSize
ImageHost::GetImageSize() const
{
if (mImageHostOverlay) {
return mImageHostOverlay->GetImageSize();
}
const TimedImage* img = ChooseImage();
if (img) {
return IntSize(img->mPictureRect.width, img->mPictureRect.height);
}
return IntSize();
}
bool
ImageHost::IsOpaque()
{
const TimedImage* img = ChooseImage();
if (!img) {
return false;
}
if (img->mPictureRect.width == 0 ||
img->mPictureRect.height == 0 ||
!img->mTextureHost) {
return false;
}
gfx::SurfaceFormat format = img->mTextureHost->GetFormat();
if (gfx::IsOpaque(format)) {
return true;
}
return false;
}
already_AddRefed<TexturedEffect>
ImageHost::GenEffect(const gfx::SamplingFilter aSamplingFilter)
{
TimedImage* img = ChooseImage();
if (!img) {
return nullptr;
}
SetCurrentTextureHost(img->mTextureHost);
if (!mCurrentTextureHost->BindTextureSource(mCurrentTextureSource)) {
return nullptr;
}
bool isAlphaPremultiplied = true;
if (mCurrentTextureHost->GetFlags() & TextureFlags::NON_PREMULTIPLIED) {
isAlphaPremultiplied = false;
}
return CreateTexturedEffect(mCurrentTextureHost,
mCurrentTextureSource,
aSamplingFilter,
isAlphaPremultiplied,
GetRenderState());
}
void
ImageHost::SetImageContainer(ImageContainerParent* aImageContainer)
{
if (mImageContainer) {
mImageContainer->mImageHosts.RemoveElement(this);
}
mImageContainer = aImageContainer;
if (mImageContainer) {
mImageContainer->mImageHosts.AppendElement(this);
}
}
ImageHostOverlay::ImageHostOverlay()
{
MOZ_COUNT_CTOR(ImageHostOverlay);
}
ImageHostOverlay::~ImageHostOverlay()
{
if (mCompositor) {
mCompositor->RemoveImageHostOverlay(this);
}
MOZ_COUNT_DTOR(ImageHostOverlay);
}
/* static */ bool
ImageHostOverlay::IsValid(OverlaySource aOverlay)
{
if ((aOverlay.handle().type() == OverlayHandle::Tint32_t) &&
aOverlay.handle().get_int32_t() != INVALID_OVERLAY) {
return true;
} else if (aOverlay.handle().type() == OverlayHandle::TGonkNativeHandle) {
return true;
}
return false;
}
void
ImageHostOverlay::SetCompositor(Compositor* aCompositor)
{
if (mCompositor && (mCompositor != aCompositor)) {
mCompositor->RemoveImageHostOverlay(this);
}
if (aCompositor) {
aCompositor->AddImageHostOverlay(this);
}
mCompositor = aCompositor;
}
void
ImageHostOverlay::Composite(Compositor* aCompositor,
uint32_t aFlashCounter,
LayerComposite* aLayer,
EffectChain& aEffectChain,
float aOpacity,
const gfx::Matrix4x4& aTransform,
const gfx::SamplingFilter aSamplingFilter,
const gfx::IntRect& aClipRect,
const nsIntRegion* aVisibleRegion)
{
MOZ_ASSERT(mCompositor == aCompositor);
if (mOverlay.handle().type() == OverlayHandle::Tnull_t) {
return;
}
Color hollow(0.0f, 0.0f, 0.0f, 0.0f);
aEffectChain.mPrimaryEffect = new EffectSolidColor(hollow);
aEffectChain.mSecondaryEffects[EffectTypes::BLEND_MODE] = new EffectBlendMode(CompositionOp::OP_SOURCE);
gfx::Rect rect;
gfx::Rect clipRect(aClipRect.x, aClipRect.y,
aClipRect.width, aClipRect.height);
rect.SetRect(mPictureRect.x, mPictureRect.y,
mPictureRect.width, mPictureRect.height);
aCompositor->DrawQuad(rect, aClipRect, aEffectChain, aOpacity, aTransform);
aCompositor->DrawDiagnostics(DiagnosticFlags::IMAGE | DiagnosticFlags::BIGIMAGE,
rect, aClipRect, aTransform, aFlashCounter);
}
LayerRenderState
ImageHostOverlay::GetRenderState()
{
LayerRenderState state;
return state;
}
void
ImageHostOverlay::UseOverlaySource(OverlaySource aOverlay,
const nsIntRect& aPictureRect)
{
mOverlay = aOverlay;
mPictureRect = aPictureRect;
}
IntSize
ImageHostOverlay::GetImageSize() const
{
return IntSize(mPictureRect.width, mPictureRect.height);
}
void
ImageHostOverlay::PrintInfo(std::stringstream& aStream, const char* aPrefix)
{
aStream << aPrefix;
aStream << nsPrintfCString("ImageHostOverlay (0x%p)", this).get();
AppendToString(aStream, mPictureRect, " [picture-rect=", "]");
if (mOverlay.handle().type() == OverlayHandle::Tint32_t) {
nsAutoCString pfx(aPrefix);
pfx += " ";
aStream << nsPrintfCString("Overlay: %d", mOverlay.handle().get_int32_t()).get();
}
}
} // namespace layers
} // namespace mozilla
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