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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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 "TiledContentHost.h"
#include "PaintedLayerComposite.h" // for PaintedLayerComposite
#include "mozilla/gfx/BaseSize.h" // for BaseSize
#include "mozilla/gfx/Matrix.h" // for Matrix4x4
#include "mozilla/gfx/Point.h" // for IntSize
#include "mozilla/layers/Compositor.h" // for Compositor
// clang-format off
//#include "mozilla/layers/CompositorBridgeParent.h" // for CompositorBridgeParent
// clang-format on
#include "mozilla/layers/Effects.h" // for TexturedEffect, Effect, etc
#include "mozilla/layers/LayerMetricsWrapper.h" // for LayerMetricsWrapper
#include "mozilla/layers/PTextureParent.h"
#include "mozilla/layers/TextureHostOGL.h" // for TextureHostOGL
#ifdef XP_DARWIN
# include "mozilla/layers/TextureSync.h" // for TextureSync
#endif
#include "nsAString.h"
#include "nsDebug.h" // for NS_WARNING
#include "nsPoint.h" // for IntPoint
#include "nsPrintfCString.h" // for nsPrintfCString
#include "nsRect.h" // for IntRect
#include "mozilla/StaticPrefs_layers.h"
#include "mozilla/layers/TextureClient.h"
namespace mozilla {
using namespace gfx;
namespace layers {
class Layer;
float TileHost::GetFadeInOpacity(float aOpacity) {
TimeStamp now = TimeStamp::Now();
if (!StaticPrefs::layers_tiles_fade_in_enabled() || mFadeStart.IsNull() ||
now < mFadeStart) {
return aOpacity;
}
float duration = StaticPrefs::layers_tiles_fade_in_duration_ms();
float elapsed = (now - mFadeStart).ToMilliseconds();
if (elapsed > duration) {
mFadeStart = TimeStamp();
return aOpacity;
}
return aOpacity * (elapsed / duration);
}
RefPtr<TextureSource> TileHost::AcquireTextureSource() const {
if (!mTextureHost || !mTextureHost->AcquireTextureSource(mTextureSource)) {
return nullptr;
}
return mTextureSource.get();
}
RefPtr<TextureSource> TileHost::AcquireTextureSourceOnWhite() const {
if (!mTextureHostOnWhite ||
!mTextureHostOnWhite->AcquireTextureSource(mTextureSourceOnWhite)) {
return nullptr;
}
return mTextureSourceOnWhite.get();
}
TiledLayerBufferComposite::TiledLayerBufferComposite() : mFrameResolution() {}
TiledLayerBufferComposite::~TiledLayerBufferComposite() { Clear(); }
void TiledLayerBufferComposite::SetTextureSourceProvider(
TextureSourceProvider* aProvider) {
MOZ_ASSERT(aProvider);
for (TileHost& tile : mRetainedTiles) {
if (tile.IsPlaceholderTile()) continue;
tile.mTextureHost->SetTextureSourceProvider(aProvider);
if (tile.mTextureHostOnWhite) {
tile.mTextureHostOnWhite->SetTextureSourceProvider(aProvider);
}
}
}
void TiledLayerBufferComposite::AddAnimationInvalidation(nsIntRegion& aRegion) {
// We need to invalidate rects where we have a tile that is in the
// process of fading in.
for (size_t i = 0; i < mRetainedTiles.Length(); i++) {
if (!mRetainedTiles[i].mFadeStart.IsNull()) {
TileCoordIntPoint coord = mTiles.TileCoord(i);
IntPoint offset = GetTileOffset(coord);
nsIntRegion tileRegion = IntRect(offset, GetScaledTileSize());
aRegion.OrWith(tileRegion);
}
}
}
TiledContentHost::TiledContentHost(const TextureInfo& aTextureInfo)
: ContentHost(aTextureInfo),
mTiledBuffer(TiledLayerBufferComposite()),
mLowPrecisionTiledBuffer(TiledLayerBufferComposite()) {
MOZ_COUNT_CTOR(TiledContentHost);
}
TiledContentHost::~TiledContentHost() { MOZ_COUNT_DTOR(TiledContentHost); }
already_AddRefed<TexturedEffect> TiledContentHost::GenEffect(
const gfx::SamplingFilter aSamplingFilter) {
MOZ_ASSERT(mTiledBuffer.GetTileCount() == 1 &&
mLowPrecisionTiledBuffer.GetTileCount() == 0);
MOZ_ASSERT(mTiledBuffer.GetTile(0).mTextureHost);
TileHost& tile = mTiledBuffer.GetTile(0);
if (!tile.mTextureHost->BindTextureSource(tile.mTextureSource)) {
return nullptr;
}
return CreateTexturedEffect(tile.mTextureSource, nullptr, aSamplingFilter,
true);
}
void TiledContentHost::Attach(Layer* aLayer, TextureSourceProvider* aProvider,
AttachFlags aFlags /* = NO_FLAGS */) {
CompositableHost::Attach(aLayer, aProvider, aFlags);
}
void TiledContentHost::Detach(Layer* aLayer,
AttachFlags aFlags /* = NO_FLAGS */) {
if (!mKeepAttached || aLayer == mLayer || aFlags & FORCE_DETACH) {
// Clear the TiledLayerBuffers, which will take care of releasing the
// copy-on-write locks.
mTiledBuffer.Clear();
mLowPrecisionTiledBuffer.Clear();
}
CompositableHost::Detach(aLayer, aFlags);
}
bool TiledContentHost::UseTiledLayerBuffer(
ISurfaceAllocator* aAllocator,
const SurfaceDescriptorTiles& aTiledDescriptor) {
HostLayerManager* lm = GetLayerManager();
if (!lm) {
return false;
}
if (aTiledDescriptor.resolution() < 1) {
if (!mLowPrecisionTiledBuffer.UseTiles(aTiledDescriptor, lm, aAllocator)) {
return false;
}
} else {
if (!mTiledBuffer.UseTiles(aTiledDescriptor, lm, aAllocator)) {
return false;
}
}
return true;
}
static void UseTileTexture(CompositableTextureHostRef& aTexture,
CompositableTextureSourceRef& aTextureSource,
const IntRect& aUpdateRect,
TextureSourceProvider* aProvider) {
MOZ_ASSERT(aTexture);
if (!aTexture) {
return;
}
if (aProvider) {
aTexture->SetTextureSourceProvider(aProvider);
}
if (!aUpdateRect.IsEmpty()) {
// For !HasIntermediateBuffer() textures, this is likely a no-op.
nsIntRegion region = aUpdateRect;
aTexture->Updated(®ion);
}
aTexture->PrepareTextureSource(aTextureSource);
}
class TextureSourceRecycler {
public:
explicit TextureSourceRecycler(nsTArray<TileHost>&& aTileSet)
: mTiles(std::move(aTileSet)), mFirstPossibility(0) {}
// Attempts to recycle a texture source that is already bound to the
// texture host for aTile.
void RecycleTextureSourceForTile(TileHost& aTile) {
for (size_t i = mFirstPossibility; i < mTiles.Length(); i++) {
// Skip over existing tiles without a retained texture source
// and make sure we don't iterate them in the future.
if (!mTiles[i].mTextureSource) {
if (i == mFirstPossibility) {
mFirstPossibility++;
}
continue;
}
// If this tile matches, then copy across the retained texture source (if
// any).
if (aTile.mTextureHost == mTiles[i].mTextureHost) {
aTile.mTextureSource = std::move(mTiles[i].mTextureSource);
if (aTile.mTextureHostOnWhite) {
aTile.mTextureSourceOnWhite =
std::move(mTiles[i].mTextureSourceOnWhite);
}
break;
}
}
}
// Attempts to recycle any texture source to avoid needing to allocate
// a new one.
void RecycleTextureSource(TileHost& aTile) {
for (size_t i = mFirstPossibility; i < mTiles.Length(); i++) {
if (!mTiles[i].mTextureSource) {
if (i == mFirstPossibility) {
mFirstPossibility++;
}
continue;
}
if (mTiles[i].mTextureSource && mTiles[i].mTextureHost->GetFormat() ==
aTile.mTextureHost->GetFormat()) {
aTile.mTextureSource = std::move(mTiles[i].mTextureSource);
if (aTile.mTextureHostOnWhite) {
aTile.mTextureSourceOnWhite =
std::move(mTiles[i].mTextureSourceOnWhite);
}
break;
}
}
}
void RecycleTileFading(TileHost& aTile) {
for (size_t i = 0; i < mTiles.Length(); i++) {
if (mTiles[i].mTextureHost == aTile.mTextureHost) {
aTile.mFadeStart = mTiles[i].mFadeStart;
}
}
}
protected:
nsTArray<TileHost> mTiles;
size_t mFirstPossibility;
};
bool TiledLayerBufferComposite::UseTiles(const SurfaceDescriptorTiles& aTiles,
HostLayerManager* aLayerManager,
ISurfaceAllocator* aAllocator) {
if (mResolution != aTiles.resolution() || aTiles.tileSize() != mTileSize) {
Clear();
}
MOZ_ASSERT(aAllocator);
MOZ_ASSERT(aLayerManager);
if (!aAllocator || !aLayerManager) {
return false;
}
if (aTiles.resolution() == 0 || IsNaN(aTiles.resolution())) {
// There are divisions by mResolution so this protects the compositor
// process against malicious content processes and fuzzing.
return false;
}
TilesPlacement newTiles(aTiles.firstTileX(), aTiles.firstTileY(),
aTiles.retainedWidth(), aTiles.retainedHeight());
const nsTArray<TileDescriptor>& tileDescriptors = aTiles.tiles();
TextureSourceRecycler oldRetainedTiles(std::move(mRetainedTiles));
mRetainedTiles.SetLength(tileDescriptors.Length());
AutoTArray<uint64_t, 10> lockedTextureSerials;
base::ProcessId lockedTexturePid = 0;
// Step 1, deserialize the incoming set of tiles into mRetainedTiles, and
// attempt to recycle the TextureSource for any repeated tiles.
//
// Since we don't have any retained 'tile' object, we have to search for
// instances of the same TextureHost in the old tile set. The cost of binding
// a TextureHost to a TextureSource for gralloc (binding EGLImage to GL
// texture) can be really high, so we avoid this whenever possible.
for (size_t i = 0; i < tileDescriptors.Length(); i++) {
const TileDescriptor& tileDesc = tileDescriptors[i];
TileHost& tile = mRetainedTiles[i];
if (tileDesc.type() != TileDescriptor::TTexturedTileDescriptor) {
NS_WARNING_ASSERTION(
tileDesc.type() == TileDescriptor::TPlaceholderTileDescriptor,
"Unrecognised tile descriptor type");
continue;
}
const TexturedTileDescriptor& texturedDesc =
tileDesc.get_TexturedTileDescriptor();
tile.mTextureHost =
TextureHost::AsTextureHost(texturedDesc.textureParent());
if (texturedDesc.readLocked()) {
tile.mTextureHost->SetReadLocked();
auto actor = tile.mTextureHost->GetIPDLActor();
if (actor && tile.mTextureHost->IsDirectMap()) {
lockedTextureSerials.AppendElement(
TextureHost::GetTextureSerial(actor));
if (lockedTexturePid) {
MOZ_ASSERT(lockedTexturePid == actor->OtherPid());
}
lockedTexturePid = actor->OtherPid();
}
}
if (texturedDesc.textureOnWhiteParent().isSome()) {
tile.mTextureHostOnWhite =
TextureHost::AsTextureHost(texturedDesc.textureOnWhiteParent().ref());
if (texturedDesc.readLockedOnWhite()) {
tile.mTextureHostOnWhite->SetReadLocked();
auto actor = tile.mTextureHostOnWhite->GetIPDLActor();
if (actor && tile.mTextureHostOnWhite->IsDirectMap()) {
lockedTextureSerials.AppendElement(
TextureHost::GetTextureSerial(actor));
}
}
}
tile.mTileCoord = newTiles.TileCoord(i);
// If this same tile texture existed in the old tile set then this will move
// the texture source into our new tile.
oldRetainedTiles.RecycleTextureSourceForTile(tile);
// If this tile is in the process of fading, we need to keep that going
oldRetainedTiles.RecycleTileFading(tile);
if (aTiles.isProgressive() && texturedDesc.wasPlaceholder()) {
// This is a progressive paint, and the tile used to be a placeholder.
// We need to begin fading it in (if enabled via
// layers.tiles.fade-in.enabled)
tile.mFadeStart = TimeStamp::Now();
aLayerManager->CompositeUntil(
tile.mFadeStart +
TimeDuration::FromMilliseconds(
StaticPrefs::layers_tiles_fade_in_duration_ms()));
}
}
#ifdef XP_DARWIN
if (lockedTextureSerials.Length() > 0) {
TextureSync::SetTexturesLocked(lockedTexturePid, lockedTextureSerials);
}
#endif
// Step 2, attempt to recycle unused texture sources from the old tile set
// into new tiles.
//
// For gralloc, binding a new TextureHost to the existing TextureSource is the
// fastest way to ensure that any implicit locking on the old gralloc image is
// released.
for (TileHost& tile : mRetainedTiles) {
if (!tile.mTextureHost || tile.mTextureSource) {
continue;
}
oldRetainedTiles.RecycleTextureSource(tile);
}
// Step 3, handle the texture uploads, texture source binding and release the
// copy-on-write locks for textures with an internal buffer.
for (size_t i = 0; i < mRetainedTiles.Length(); i++) {
TileHost& tile = mRetainedTiles[i];
if (!tile.mTextureHost) {
continue;
}
const TileDescriptor& tileDesc = tileDescriptors[i];
const TexturedTileDescriptor& texturedDesc =
tileDesc.get_TexturedTileDescriptor();
UseTileTexture(tile.mTextureHost, tile.mTextureSource,
texturedDesc.updateRect(),
aLayerManager->GetTextureSourceProvider());
if (tile.mTextureHostOnWhite) {
UseTileTexture(tile.mTextureHostOnWhite, tile.mTextureSourceOnWhite,
texturedDesc.updateRect(),
aLayerManager->GetTextureSourceProvider());
}
}
mTiles = newTiles;
mTileSize = aTiles.tileSize();
mTileOrigin = aTiles.tileOrigin();
mValidRegion = aTiles.validRegion();
mResolution = aTiles.resolution();
mFrameResolution = CSSToParentLayerScale2D(aTiles.frameXResolution(),
aTiles.frameYResolution());
return true;
}
void TiledLayerBufferComposite::Clear() {
mRetainedTiles.Clear();
mTiles.mFirst = TileCoordIntPoint();
mTiles.mSize = TileCoordIntSize();
mValidRegion = nsIntRegion();
mResolution = 1.0;
}
void TiledContentHost::Composite(
Compositor* aCompositor, LayerComposite* aLayer, EffectChain& aEffectChain,
float aOpacity, const gfx::Matrix4x4& aTransform,
const gfx::SamplingFilter aSamplingFilter, const gfx::IntRect& aClipRect,
const nsIntRegion* aVisibleRegion /* = nullptr */,
const Maybe<gfx::Polygon>& aGeometry) {
// Reduce the opacity of the low-precision buffer to make it a
// little more subtle and less jarring. In particular, text
// rendered at low-resolution and scaled tends to look pretty
// heavy and this helps mitigate that. When we reduce the opacity
// we also make sure to draw the background color behind the
// reduced-opacity tile so that content underneath doesn't show
// through.
// However, in cases where the background is transparent, or the layer
// already has some opacity, we want to skip this behaviour. Otherwise
// we end up changing the expected overall transparency of the content,
// and it just looks wrong.
DeviceColor backgroundColor;
if (aOpacity == 1.0f && StaticPrefs::layers_low_precision_opacity() < 1.0f) {
// Background colors are only stored on scrollable layers. Grab
// the one from the nearest scrollable ancestor layer.
for (LayerMetricsWrapper ancestor(GetLayer(),
LayerMetricsWrapper::StartAt::BOTTOM);
ancestor; ancestor = ancestor.GetParent()) {
if (ancestor.Metrics().IsScrollable()) {
backgroundColor = ancestor.Metadata().GetBackgroundColor();
break;
}
}
}
float lowPrecisionOpacityReduction =
(aOpacity == 1.0f && backgroundColor.a == 1.0f)
? StaticPrefs::layers_low_precision_opacity()
: 1.0f;
nsIntRegion tmpRegion;
const nsIntRegion* renderRegion = aVisibleRegion;
#ifndef MOZ_IGNORE_PAINT_WILL_RESAMPLE
if (PaintWillResample()) {
// If we're resampling, then the texture image will contain exactly the
// entire visible region's bounds, and we should draw it all in one quad
// to avoid unexpected aliasing.
tmpRegion = aVisibleRegion->GetBounds();
renderRegion = &tmpRegion;
}
#endif
// Render the low and high precision buffers.
RenderLayerBuffer(
mLowPrecisionTiledBuffer, aCompositor,
lowPrecisionOpacityReduction < 1.0f ? &backgroundColor : nullptr,
aEffectChain, lowPrecisionOpacityReduction * aOpacity, aSamplingFilter,
aClipRect, *renderRegion, aTransform, aGeometry);
RenderLayerBuffer(mTiledBuffer, aCompositor, nullptr, aEffectChain, aOpacity,
aSamplingFilter, aClipRect, *renderRegion, aTransform,
aGeometry);
}
void TiledContentHost::RenderTile(
TileHost& aTile, Compositor* aCompositor, EffectChain& aEffectChain,
float aOpacity, const gfx::Matrix4x4& aTransform,
const gfx::SamplingFilter aSamplingFilter, const gfx::IntRect& aClipRect,
const nsIntRegion& aScreenRegion, const IntPoint& aTextureOffset,
const IntSize& aTextureBounds, const gfx::Rect& aVisibleRect,
const Maybe<gfx::Polygon>& aGeometry) {
MOZ_ASSERT(!aTile.IsPlaceholderTile());
AutoLockTextureHost autoLock(aTile.mTextureHost);
AutoLockTextureHost autoLockOnWhite(aTile.mTextureHostOnWhite);
if (autoLock.Failed() || autoLockOnWhite.Failed()) {
NS_WARNING("Failed to lock tile");
return;
}
if (!aTile.mTextureHost->BindTextureSource(aTile.mTextureSource)) {
return;
}
if (aTile.mTextureHostOnWhite &&
!aTile.mTextureHostOnWhite->BindTextureSource(
aTile.mTextureSourceOnWhite)) {
return;
}
RefPtr<TexturedEffect> effect = CreateTexturedEffect(
aTile.mTextureSource, aTile.mTextureSourceOnWhite, aSamplingFilter, true);
if (!effect) {
return;
}
float opacity = aTile.GetFadeInOpacity(aOpacity);
aEffectChain.mPrimaryEffect = effect;
for (auto iter = aScreenRegion.RectIter(); !iter.Done(); iter.Next()) {
const IntRect& rect = iter.Get();
Rect graphicsRect(rect.X(), rect.Y(), rect.Width(), rect.Height());
Rect textureRect(rect.X() - aTextureOffset.x, rect.Y() - aTextureOffset.y,
rect.Width(), rect.Height());
effect->mTextureCoords.SetRect(
textureRect.X() / aTextureBounds.width,
textureRect.Y() / aTextureBounds.height,
textureRect.Width() / aTextureBounds.width,
textureRect.Height() / aTextureBounds.height);
aCompositor->DrawGeometry(graphicsRect, aClipRect, aEffectChain, opacity,
aTransform, aVisibleRect, aGeometry);
}
DiagnosticFlags flags = DiagnosticFlags::CONTENT | DiagnosticFlags::TILE;
if (aTile.mTextureHostOnWhite) {
flags |= DiagnosticFlags::COMPONENT_ALPHA;
}
aCompositor->DrawDiagnostics(flags, aScreenRegion, aClipRect, aTransform,
mFlashCounter);
}
void TiledContentHost::RenderLayerBuffer(
TiledLayerBufferComposite& aLayerBuffer, Compositor* aCompositor,
const DeviceColor* aBackgroundColor, EffectChain& aEffectChain,
float aOpacity, const gfx::SamplingFilter aSamplingFilter,
const gfx::IntRect& aClipRect, nsIntRegion aVisibleRegion,
gfx::Matrix4x4 aTransform, const Maybe<Polygon>& aGeometry) {
float resolution = aLayerBuffer.GetResolution();
gfx::Size layerScale(1, 1);
// We assume that the current frame resolution is the one used in our high
// precision layer buffer. Compensate for a changing frame resolution when
// rendering the low precision buffer.
if (aLayerBuffer.GetFrameResolution() != mTiledBuffer.GetFrameResolution()) {
const CSSToParentLayerScale2D& layerResolution =
aLayerBuffer.GetFrameResolution();
const CSSToParentLayerScale2D& localResolution =
mTiledBuffer.GetFrameResolution();
layerScale.width = layerResolution.xScale / localResolution.xScale;
layerScale.height = layerResolution.yScale / localResolution.yScale;
aVisibleRegion.ScaleRoundOut(layerScale.width, layerScale.height);
}
// Make sure we don't render at low resolution where we have valid high
// resolution content, to avoid overdraw and artifacts with semi-transparent
// layers.
nsIntRegion maskRegion;
if (resolution != mTiledBuffer.GetResolution()) {
maskRegion = mTiledBuffer.GetValidRegion();
// XXX This should be ScaleRoundIn, but there is no such function on
// nsIntRegion.
maskRegion.ScaleRoundOut(layerScale.width, layerScale.height);
}
// Make sure the resolution and difference in frame resolution are accounted
// for in the layer transform.
aTransform.PreScale(1 / (resolution * layerScale.width),
1 / (resolution * layerScale.height), 1);
DiagnosticFlags componentAlphaDiagnostic = DiagnosticFlags::NO_DIAGNOSTIC;
nsIntRegion compositeRegion = aLayerBuffer.GetValidRegion();
compositeRegion.AndWith(aVisibleRegion);
compositeRegion.SubOut(maskRegion);
IntRect visibleRect = aVisibleRegion.GetBounds();
if (compositeRegion.IsEmpty()) {
return;
}
if (aBackgroundColor) {
nsIntRegion backgroundRegion = compositeRegion;
backgroundRegion.ScaleRoundOut(resolution, resolution);
EffectChain effect;
effect.mPrimaryEffect = new EffectSolidColor(*aBackgroundColor);
for (auto iter = backgroundRegion.RectIter(); !iter.Done(); iter.Next()) {
const IntRect& rect = iter.Get();
Rect graphicsRect(rect.X(), rect.Y(), rect.Width(), rect.Height());
aCompositor->DrawGeometry(graphicsRect, aClipRect, effect, 1.0,
aTransform, aGeometry);
}
}
for (size_t i = 0; i < aLayerBuffer.GetTileCount(); ++i) {
TileHost& tile = aLayerBuffer.GetTile(i);
if (tile.IsPlaceholderTile()) {
continue;
}
TileCoordIntPoint tileCoord = aLayerBuffer.GetPlacement().TileCoord(i);
// A sanity check that catches a lot of mistakes.
MOZ_ASSERT(tileCoord.x == tile.mTileCoord.x &&
tileCoord.y == tile.mTileCoord.y);
IntPoint tileOffset = aLayerBuffer.GetTileOffset(tileCoord);
nsIntRegion tileDrawRegion =
IntRect(tileOffset, aLayerBuffer.GetScaledTileSize());
tileDrawRegion.AndWith(compositeRegion);
if (tileDrawRegion.IsEmpty()) {
continue;
}
tileDrawRegion.ScaleRoundOut(resolution, resolution);
RenderTile(tile, aCompositor, aEffectChain, aOpacity, aTransform,
aSamplingFilter, aClipRect, tileDrawRegion,
tileOffset * resolution, aLayerBuffer.GetTileSize(),
gfx::Rect(visibleRect.X(), visibleRect.Y(), visibleRect.Width(),
visibleRect.Height()),
aGeometry);
if (tile.mTextureHostOnWhite) {
componentAlphaDiagnostic = DiagnosticFlags::COMPONENT_ALPHA;
}
}
gfx::Rect rect(visibleRect.X(), visibleRect.Y(), visibleRect.Width(),
visibleRect.Height());
aCompositor->DrawDiagnostics(
DiagnosticFlags::CONTENT | componentAlphaDiagnostic, rect, aClipRect,
aTransform, mFlashCounter);
}
void TiledContentHost::PrintInfo(std::stringstream& aStream,
const char* aPrefix) {
aStream << aPrefix;
aStream << nsPrintfCString("TiledContentHost (0x%p)", this).get();
#if defined(MOZ_DUMP_PAINTING)
if (StaticPrefs::layers_dump_texture()) {
nsAutoCString pfx(aPrefix);
pfx += " ";
Dump(aStream, pfx.get(), false);
}
#endif
}
void TiledContentHost::Dump(std::stringstream& aStream, const char* aPrefix,
bool aDumpHtml) {
mTiledBuffer.Dump(
aStream, aPrefix, aDumpHtml,
TextureDumpMode::
DoNotCompress /* compression not supported on host side */);
}
void TiledContentHost::AddAnimationInvalidation(nsIntRegion& aRegion) {
return mTiledBuffer.AddAnimationInvalidation(aRegion);
}
} // namespace layers
} // namespace mozilla
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