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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
#include "WebRenderAPI.h"
#include "mozilla/Logging.h"
#include "mozilla/ipc/ByteBuf.h"
#include "mozilla/webrender/RendererOGL.h"
#include "mozilla/gfx/gfxVars.h"
#include "mozilla/layers/CompositorThread.h"
#include "mozilla/StaticPrefs_gfx.h"
#include "mozilla/StaticPrefs_webgl.h"
#include "mozilla/ToString.h"
#include "mozilla/webrender/RenderCompositor.h"
#include "mozilla/widget/CompositorWidget.h"
#include "mozilla/layers/SynchronousTask.h"
#include "nsThreadUtils.h"
#include "TextDrawTarget.h"
#include "malloc_decls.h"
#include "GLContext.h"
static mozilla::LazyLogModule sWrDLLog("wr.dl");
#define WRDL_LOG(...) \
MOZ_LOG(sWrDLLog, LogLevel::Debug, ("WRDL(%p): " __VA_ARGS__))
namespace mozilla {
using namespace layers;
namespace wr {
MOZ_DEFINE_MALLOC_SIZE_OF(WebRenderMallocSizeOf)
MOZ_DEFINE_MALLOC_ENCLOSING_SIZE_OF(WebRenderMallocEnclosingSizeOf)
class NewRenderer : public RendererEvent {
public:
NewRenderer(wr::DocumentHandle** aDocHandle,
layers::CompositorBridgeParent* aBridge,
WebRenderBackend* aBackend, WebRenderCompositor* aCompositor,
int32_t* aMaxTextureSize, bool* aUseANGLE, bool* aUseDComp,
bool* aUseTripleBuffering, bool* aSupportsExternalBufferTextures,
RefPtr<widget::CompositorWidget>&& aWidget,
layers::SynchronousTask* aTask, LayoutDeviceIntSize aSize,
layers::WindowKind aWindowKind, layers::SyncHandle* aHandle,
nsACString* aError)
: mDocHandle(aDocHandle),
mBackend(aBackend),
mCompositor(aCompositor),
mMaxTextureSize(aMaxTextureSize),
mUseANGLE(aUseANGLE),
mUseDComp(aUseDComp),
mUseTripleBuffering(aUseTripleBuffering),
mSupportsExternalBufferTextures(aSupportsExternalBufferTextures),
mBridge(aBridge),
mCompositorWidget(std::move(aWidget)),
mTask(aTask),
mSize(aSize),
mWindowKind(aWindowKind),
mSyncHandle(aHandle),
mError(aError) {
MOZ_COUNT_CTOR(NewRenderer);
}
MOZ_COUNTED_DTOR(NewRenderer)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
layers::AutoCompleteTask complete(mTask);
UniquePtr<RenderCompositor> compositor =
RenderCompositor::Create(std::move(mCompositorWidget), *mError);
if (!compositor) {
if (!mError->IsEmpty()) {
gfxCriticalNote << mError->BeginReading();
}
return;
}
compositor->MakeCurrent();
*mBackend = compositor->BackendType();
*mCompositor = compositor->CompositorType();
*mUseANGLE = compositor->UseANGLE();
*mUseDComp = compositor->UseDComp();
*mUseTripleBuffering = compositor->UseTripleBuffering();
*mSupportsExternalBufferTextures =
compositor->SupportsExternalBufferTextures();
// Only allow the panic on GL error functionality in nightly builds,
// since it (deliberately) crashes the GPU process if any GL call
// returns an error code.
bool panic_on_gl_error = false;
#ifdef NIGHTLY_BUILD
panic_on_gl_error =
StaticPrefs::gfx_webrender_panic_on_gl_error_AtStartup();
#endif
bool isMainWindow = true; // TODO!
bool supportLowPriorityTransactions = isMainWindow;
bool supportLowPriorityThreadpool =
supportLowPriorityTransactions &&
StaticPrefs::gfx_webrender_enable_low_priority_pool();
wr::Renderer* wrRenderer = nullptr;
char* errorMessage = nullptr;
int picTileWidth = StaticPrefs::gfx_webrender_picture_tile_width();
int picTileHeight = StaticPrefs::gfx_webrender_picture_tile_height();
auto* swgl = compositor->swgl();
auto* gl = (compositor->gl() && !swgl) ? compositor->gl() : nullptr;
auto* progCache = (aRenderThread.GetProgramCache() && !swgl)
? aRenderThread.GetProgramCache()->Raw()
: nullptr;
auto* shaders = (aRenderThread.GetShaders() && !swgl)
? aRenderThread.GetShaders()->RawShaders()
: nullptr;
// Check That if we are not using SWGL, we have at least a GL or GLES 3.0
// context.
if (gl && !swgl) {
bool versionCheck =
gl->IsAtLeast(gl::ContextProfile::OpenGLCore, 300) ||
gl->IsAtLeast(gl::ContextProfile::OpenGLCompatibility, 300) ||
gl->IsAtLeast(gl::ContextProfile::OpenGLES, 300);
if (!versionCheck) {
gfxCriticalNote << "GL context version (" << gl->Version()
<< ") insufficent for hardware WebRender";
mError->AssignASCII("GL context version insufficient");
return;
}
}
if (!wr_window_new(
aWindowId, mSize.width, mSize.height,
mWindowKind == WindowKind::MAIN, supportLowPriorityTransactions,
supportLowPriorityThreadpool, gfx::gfxVars::UseGLSwizzle(),
gfx::gfxVars::UseWebRenderScissoredCacheClears(), swgl, gl,
compositor->SurfaceOriginIsTopLeft(), progCache, shaders,
aRenderThread.ThreadPool().Raw(),
aRenderThread.ThreadPoolLP().Raw(), &WebRenderMallocSizeOf,
&WebRenderMallocEnclosingSizeOf, 0, compositor.get(),
compositor->ShouldUseNativeCompositor(),
compositor->UsePartialPresent(),
compositor->GetMaxPartialPresentRects(),
compositor->ShouldDrawPreviousPartialPresentRegions(), mDocHandle,
&wrRenderer, mMaxTextureSize, &errorMessage,
StaticPrefs::gfx_webrender_enable_gpu_markers_AtStartup(),
panic_on_gl_error, picTileWidth, picTileHeight,
gfx::gfxVars::WebRenderRequiresHardwareDriver(),
StaticPrefs::gfx_webrender_low_quality_pinch_zoom_AtStartup(),
StaticPrefs::gfx_webrender_max_shared_surface_size_AtStartup(),
StaticPrefs::gfx_webrender_enable_subpixel_aa_AtStartup())) {
// wr_window_new puts a message into gfxCriticalNote if it returns false
MOZ_ASSERT(errorMessage);
mError->AssignASCII(errorMessage);
wr_api_free_error_msg(errorMessage);
return;
}
MOZ_ASSERT(wrRenderer);
RefPtr<RenderThread> thread = &aRenderThread;
auto renderer =
MakeUnique<RendererOGL>(std::move(thread), std::move(compositor),
aWindowId, wrRenderer, mBridge);
if (wrRenderer && renderer) {
wr::WrExternalImageHandler handler = renderer->GetExternalImageHandler();
wr_renderer_set_external_image_handler(wrRenderer, &handler);
}
if (renderer) {
layers::SyncObjectHost* syncObj = renderer->GetSyncObject();
if (syncObj) {
*mSyncHandle = syncObj->GetSyncHandle();
}
}
aRenderThread.AddRenderer(aWindowId, std::move(renderer));
}
private:
wr::DocumentHandle** mDocHandle;
WebRenderBackend* mBackend;
WebRenderCompositor* mCompositor;
int32_t* mMaxTextureSize;
bool* mUseANGLE;
bool* mUseDComp;
bool* mUseTripleBuffering;
bool* mSupportsExternalBufferTextures;
layers::CompositorBridgeParent* mBridge;
RefPtr<widget::CompositorWidget> mCompositorWidget;
layers::SynchronousTask* mTask;
LayoutDeviceIntSize mSize;
layers::WindowKind mWindowKind;
layers::SyncHandle* mSyncHandle;
nsACString* mError;
};
class RemoveRenderer : public RendererEvent {
public:
explicit RemoveRenderer(layers::SynchronousTask* aTask) : mTask(aTask) {
MOZ_COUNT_CTOR(RemoveRenderer);
}
MOZ_COUNTED_DTOR_OVERRIDE(RemoveRenderer)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
aRenderThread.RemoveRenderer(aWindowId);
layers::AutoCompleteTask complete(mTask);
}
private:
layers::SynchronousTask* mTask;
};
TransactionBuilder::TransactionBuilder(WebRenderAPI* aApi,
bool aUseSceneBuilderThread)
: mUseSceneBuilderThread(aUseSceneBuilderThread),
mApiBackend(aApi->GetBackendType()),
mOwnsData(true) {
mTxn = wr_transaction_new(mUseSceneBuilderThread);
}
TransactionBuilder::TransactionBuilder(WebRenderAPI* aApi, Transaction* aTxn,
bool aUseSceneBuilderThread,
bool aOwnsData)
: mTxn(aTxn),
mUseSceneBuilderThread(aUseSceneBuilderThread),
mApiBackend(aApi->GetBackendType()),
mOwnsData(aOwnsData) {}
TransactionBuilder::~TransactionBuilder() {
if (mOwnsData) {
wr_transaction_delete(mTxn);
}
}
void TransactionBuilder::SetLowPriority(bool aIsLowPriority) {
wr_transaction_set_low_priority(mTxn, aIsLowPriority);
}
void TransactionBuilder::UpdateEpoch(PipelineId aPipelineId, Epoch aEpoch) {
wr_transaction_update_epoch(mTxn, aPipelineId, aEpoch);
}
void TransactionBuilder::SetRootPipeline(PipelineId aPipelineId) {
wr_transaction_set_root_pipeline(mTxn, aPipelineId);
}
void TransactionBuilder::RemovePipeline(PipelineId aPipelineId) {
wr_transaction_remove_pipeline(mTxn, aPipelineId);
}
void TransactionBuilder::SetDisplayList(
Epoch aEpoch, wr::WrPipelineId pipeline_id,
wr::BuiltDisplayListDescriptor dl_descriptor,
wr::Vec<uint8_t>& dl_items_data, wr::Vec<uint8_t>& dl_cache_data,
wr::Vec<uint8_t>& dl_spatial_tree) {
wr_transaction_set_display_list(mTxn, aEpoch, pipeline_id, dl_descriptor,
&dl_items_data.inner, &dl_cache_data.inner,
&dl_spatial_tree.inner);
}
void TransactionBuilder::ClearDisplayList(Epoch aEpoch,
wr::WrPipelineId aPipelineId) {
wr_transaction_clear_display_list(mTxn, aEpoch, aPipelineId);
}
void TransactionBuilder::GenerateFrame(const VsyncId& aVsyncId,
wr::RenderReasons aReasons) {
wr_transaction_generate_frame(mTxn, aVsyncId.mId, aReasons);
}
void TransactionBuilder::InvalidateRenderedFrame(wr::RenderReasons aReasons) {
wr_transaction_invalidate_rendered_frame(mTxn, aReasons);
}
bool TransactionBuilder::IsEmpty() const {
return wr_transaction_is_empty(mTxn);
}
bool TransactionBuilder::IsResourceUpdatesEmpty() const {
return wr_transaction_resource_updates_is_empty(mTxn);
}
bool TransactionBuilder::IsRenderedFrameInvalidated() const {
return wr_transaction_is_rendered_frame_invalidated(mTxn);
}
void TransactionBuilder::SetDocumentView(
const LayoutDeviceIntRect& aDocumentRect) {
wr::DeviceIntRect wrDocRect;
wrDocRect.min.x = aDocumentRect.x;
wrDocRect.min.y = aDocumentRect.y;
wrDocRect.max.x = aDocumentRect.x + aDocumentRect.width;
wrDocRect.max.y = aDocumentRect.y + aDocumentRect.height;
wr_transaction_set_document_view(mTxn, &wrDocRect);
}
TransactionWrapper::TransactionWrapper(Transaction* aTxn) : mTxn(aTxn) {}
void TransactionWrapper::AppendDynamicProperties(
const nsTArray<wr::WrOpacityProperty>& aOpacityArray,
const nsTArray<wr::WrTransformProperty>& aTransformArray,
const nsTArray<wr::WrColorProperty>& aColorArray) {
wr_transaction_append_dynamic_properties(
mTxn, aOpacityArray.IsEmpty() ? nullptr : aOpacityArray.Elements(),
aOpacityArray.Length(),
aTransformArray.IsEmpty() ? nullptr : aTransformArray.Elements(),
aTransformArray.Length(),
aColorArray.IsEmpty() ? nullptr : aColorArray.Elements(),
aColorArray.Length());
}
void TransactionWrapper::AppendTransformProperties(
const nsTArray<wr::WrTransformProperty>& aTransformArray) {
wr_transaction_append_transform_properties(
mTxn, aTransformArray.IsEmpty() ? nullptr : aTransformArray.Elements(),
aTransformArray.Length());
}
void TransactionWrapper::UpdateScrollPosition(
const wr::ExternalScrollId& aScrollId,
const nsTArray<wr::SampledScrollOffset>& aSampledOffsets) {
wr_transaction_scroll_layer(mTxn, aScrollId, &aSampledOffsets);
}
void TransactionWrapper::UpdateIsTransformAsyncZooming(uint64_t aAnimationId,
bool aIsZooming) {
wr_transaction_set_is_transform_async_zooming(mTxn, aAnimationId, aIsZooming);
}
void TransactionWrapper::AddMinimapData(const wr::ExternalScrollId& aScrollId,
const MinimapData& aMinimapData) {
wr_transaction_add_minimap_data(mTxn, aScrollId, aMinimapData);
}
/*static*/
already_AddRefed<WebRenderAPI> WebRenderAPI::Create(
layers::CompositorBridgeParent* aBridge,
RefPtr<widget::CompositorWidget>&& aWidget, const wr::WrWindowId& aWindowId,
LayoutDeviceIntSize aSize, layers::WindowKind aWindowKind,
nsACString& aError) {
MOZ_ASSERT(aBridge);
MOZ_ASSERT(aWidget);
static_assert(
sizeof(size_t) == sizeof(uintptr_t),
"The FFI bindings assume size_t is the same size as uintptr_t!");
wr::DocumentHandle* docHandle = nullptr;
WebRenderBackend backend = WebRenderBackend::HARDWARE;
WebRenderCompositor compositor = WebRenderCompositor::DRAW;
int32_t maxTextureSize = 0;
bool useANGLE = false;
bool useDComp = false;
bool useTripleBuffering = false;
bool supportsExternalBufferTextures = false;
layers::SyncHandle syncHandle = {};
// Dispatch a synchronous task because the DocumentHandle object needs to be
// created on the render thread. If need be we could delay waiting on this
// task until the next time we need to access the DocumentHandle object.
layers::SynchronousTask task("Create Renderer");
auto event = MakeUnique<NewRenderer>(
&docHandle, aBridge, &backend, &compositor, &maxTextureSize, &useANGLE,
&useDComp, &useTripleBuffering, &supportsExternalBufferTextures,
std::move(aWidget), &task, aSize, aWindowKind, &syncHandle, &aError);
RenderThread::Get()->PostEvent(aWindowId, std::move(event));
task.Wait();
if (!docHandle) {
return nullptr;
}
return RefPtr<WebRenderAPI>(
new WebRenderAPI(docHandle, aWindowId, backend, compositor,
maxTextureSize, useANGLE, useDComp,
useTripleBuffering,
supportsExternalBufferTextures, syncHandle))
.forget();
}
already_AddRefed<WebRenderAPI> WebRenderAPI::Clone() {
wr::DocumentHandle* docHandle = nullptr;
wr_api_clone(mDocHandle, &docHandle);
RefPtr<WebRenderAPI> renderApi = new WebRenderAPI(
docHandle, mId, mBackend, mCompositor, mMaxTextureSize, mUseANGLE,
mUseDComp, mUseTripleBuffering, mSupportsExternalBufferTextures,
mSyncHandle, this, this);
return renderApi.forget();
}
wr::WrIdNamespace WebRenderAPI::GetNamespace() {
return wr_api_get_namespace(mDocHandle);
}
WebRenderAPI::WebRenderAPI(
wr::DocumentHandle* aHandle, wr::WindowId aId, WebRenderBackend aBackend,
WebRenderCompositor aCompositor, uint32_t aMaxTextureSize, bool aUseANGLE,
bool aUseDComp, bool aUseTripleBuffering,
bool aSupportsExternalBufferTextures, layers::SyncHandle aSyncHandle,
wr::WebRenderAPI* aRootApi, wr::WebRenderAPI* aRootDocumentApi)
: mDocHandle(aHandle),
mId(aId),
mBackend(aBackend),
mCompositor(aCompositor),
mMaxTextureSize(aMaxTextureSize),
mUseANGLE(aUseANGLE),
mUseDComp(aUseDComp),
mUseTripleBuffering(aUseTripleBuffering),
mSupportsExternalBufferTextures(aSupportsExternalBufferTextures),
mCaptureSequence(false),
mSyncHandle(aSyncHandle),
mRendererDestroyed(false),
mRootApi(aRootApi),
mRootDocumentApi(aRootDocumentApi) {}
WebRenderAPI::~WebRenderAPI() {
if (!mRootDocumentApi) {
wr_api_delete_document(mDocHandle);
}
if (!mRootApi) {
MOZ_RELEASE_ASSERT(mRendererDestroyed);
wr_api_shut_down(mDocHandle);
}
wr_api_delete(mDocHandle);
}
void WebRenderAPI::DestroyRenderer() {
MOZ_RELEASE_ASSERT(!mRootApi);
RenderThread::Get()->SetDestroyed(GetId());
// Call wr_api_stop_render_backend() before RemoveRenderer.
wr_api_stop_render_backend(mDocHandle);
layers::SynchronousTask task("Destroy WebRenderAPI");
auto event = MakeUnique<RemoveRenderer>(&task);
RunOnRenderThread(std::move(event));
task.Wait();
mRendererDestroyed = true;
}
wr::WebRenderAPI* WebRenderAPI::GetRootAPI() {
if (mRootApi) {
return mRootApi;
}
return this;
}
void WebRenderAPI::UpdateDebugFlags(uint32_t aFlags) {
wr_api_set_debug_flags(mDocHandle, wr::DebugFlags{aFlags});
}
void WebRenderAPI::SendTransaction(TransactionBuilder& aTxn) {
if (mRootApi && mRootApi->mRendererDestroyed) {
return;
}
if (mPendingRemoteTextureInfoList &&
!mPendingRemoteTextureInfoList->mList.empty()) {
mPendingWrTransactionEvents.emplace(
WrTransactionEvent::PendingRemoteTextures(
std::move(mPendingRemoteTextureInfoList)));
}
if (mPendingAsyncImagePipelineOps &&
!mPendingAsyncImagePipelineOps->mList.empty()) {
mPendingWrTransactionEvents.emplace(
WrTransactionEvent::PendingAsyncImagePipelineOps(
std::move(mPendingAsyncImagePipelineOps), this, aTxn.Raw(),
aTxn.UseSceneBuilderThread()));
}
if (!mPendingWrTransactionEvents.empty()) {
mPendingWrTransactionEvents.emplace(WrTransactionEvent::Transaction(
this, aTxn.Take(), aTxn.UseSceneBuilderThread()));
HandleWrTransactionEvents(RemoteTextureWaitType::AsyncWait);
} else {
wr_api_send_transaction(mDocHandle, aTxn.Raw(),
aTxn.UseSceneBuilderThread());
}
}
layers::RemoteTextureInfoList* WebRenderAPI::GetPendingRemoteTextureInfoList() {
if (!mRootApi) {
// root api does not support async wait RemoteTexture.
return nullptr;
}
if (!mPendingRemoteTextureInfoList) {
mPendingRemoteTextureInfoList = MakeUnique<layers::RemoteTextureInfoList>();
}
return mPendingRemoteTextureInfoList.get();
}
layers::AsyncImagePipelineOps* WebRenderAPI::GetPendingAsyncImagePipelineOps(
TransactionBuilder& aTxn) {
if (!mRootApi) {
// root api does not support async wait RemoteTexture.
return nullptr;
}
if (!mPendingAsyncImagePipelineOps ||
mPendingAsyncImagePipelineOps->mTransaction != aTxn.Raw()) {
if (mPendingAsyncImagePipelineOps &&
!mPendingAsyncImagePipelineOps->mList.empty()) {
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
gfxCriticalNoteOnce << "Invalid AsyncImagePipelineOps";
}
mPendingAsyncImagePipelineOps =
MakeUnique<layers::AsyncImagePipelineOps>(aTxn.Raw());
} else {
MOZ_RELEASE_ASSERT(mPendingAsyncImagePipelineOps->mTransaction ==
aTxn.Raw());
}
return mPendingAsyncImagePipelineOps.get();
}
bool WebRenderAPI::CheckIsRemoteTextureReady(
layers::RemoteTextureInfoList* aList, const TimeStamp& aTimeStamp) {
MOZ_ASSERT(layers::CompositorThreadHolder::IsInCompositorThread());
MOZ_ASSERT(aList);
RefPtr<WebRenderAPI> self = this;
auto callback = [self](const layers::RemoteTextureInfo&) {
RefPtr<nsIRunnable> runnable = NewRunnableMethod<RemoteTextureWaitType>(
"WebRenderAPI::HandleWrTransactionEvents", self,
&WebRenderAPI::HandleWrTransactionEvents,
RemoteTextureWaitType::AsyncWait);
layers::CompositorThread()->Dispatch(runnable.forget());
};
const auto maxWaitDurationMs = 10000;
const auto now = TimeStamp::Now();
const auto waitDurationMs =
static_cast<uint32_t>((now - aTimeStamp).ToMilliseconds());
const auto isTimeout = waitDurationMs > maxWaitDurationMs;
if (isTimeout) {
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
gfxCriticalNote << "RemoteTexture ready timeout";
}
bool isReady = true;
while (!aList->mList.empty() && isReady) {
auto& front = aList->mList.front();
isReady &= layers::RemoteTextureMap::Get()->CheckRemoteTextureReady(
front, callback);
if (isTimeout) {
isReady = true;
}
if (isReady) {
aList->mList.pop();
}
}
return isReady;
}
void WebRenderAPI::WaitRemoteTextureReady(
layers::RemoteTextureInfoList* aList) {
MOZ_ASSERT(layers::CompositorThreadHolder::IsInCompositorThread());
MOZ_ASSERT(aList);
while (!aList->mList.empty()) {
auto& front = aList->mList.front();
layers::RemoteTextureMap::Get()->WaitRemoteTextureReady(front);
aList->mList.pop();
}
}
void WebRenderAPI::FlushPendingWrTransactionEventsWithoutWait() {
HandleWrTransactionEvents(RemoteTextureWaitType::FlushWithoutWait);
}
void WebRenderAPI::FlushPendingWrTransactionEventsWithWait() {
HandleWrTransactionEvents(RemoteTextureWaitType::FlushWithWait);
}
void WebRenderAPI::HandleWrTransactionEvents(RemoteTextureWaitType aType) {
auto& events = mPendingWrTransactionEvents;
while (!events.empty()) {
auto& front = events.front();
switch (front.mTag) {
case WrTransactionEvent::Tag::Transaction:
wr_api_send_transaction(mDocHandle, front.RawTransaction(),
front.UseSceneBuilderThread());
break;
case WrTransactionEvent::Tag::PendingRemoteTextures: {
bool isReady = true;
if (aType == RemoteTextureWaitType::AsyncWait) {
isReady = CheckIsRemoteTextureReady(front.RemoteTextureInfoList(),
front.mTimeStamp);
} else if (aType == RemoteTextureWaitType::FlushWithWait) {
WaitRemoteTextureReady(front.RemoteTextureInfoList());
} else {
MOZ_ASSERT(aType == RemoteTextureWaitType::FlushWithoutWait);
auto* list = front.RemoteTextureInfoList();
while (!list->mList.empty()) {
auto& front = list->mList.front();
layers::RemoteTextureMap::Get()->SuppressRemoteTextureReadyCheck(
front.mTextureId, front.mForPid);
list->mList.pop();
}
}
if (!isReady && (aType != RemoteTextureWaitType::FlushWithoutWait)) {
return;
}
break;
}
case WrTransactionEvent::Tag::PendingAsyncImagePipelineOps: {
auto* list = front.AsyncImagePipelineOps();
TransactionBuilder& txn = *front.GetTransactionBuilder();
list->HandleOps(txn);
break;
}
}
events.pop();
}
}
std::vector<WrHitResult> WebRenderAPI::HitTest(const wr::WorldPoint& aPoint) {
static_assert(gfx::DoesCompositorHitTestInfoFitIntoBits<12>(),
"CompositorHitTestFlags MAX value has to be less than number "
"of bits in uint16_t minus 4 for SideBitsPacked");
nsTArray<wr::HitResult> wrResults;
wr_api_hit_test(mDocHandle, aPoint, &wrResults);
std::vector<WrHitResult> geckoResults;
for (wr::HitResult wrResult : wrResults) {
WrHitResult geckoResult;
geckoResult.mLayersId = wr::AsLayersId(wrResult.pipeline_id);
geckoResult.mScrollId =
static_cast<layers::ScrollableLayerGuid::ViewID>(wrResult.scroll_id);
geckoResult.mHitInfo.deserialize(wrResult.hit_info & 0x0fff);
geckoResult.mSideBits = static_cast<SideBits>(wrResult.hit_info >> 12);
if (wrResult.animation_id != 0) {
geckoResult.mAnimationId = Some(wrResult.animation_id);
} else {
geckoResult.mAnimationId = Nothing();
}
geckoResults.push_back(geckoResult);
}
return geckoResults;
}
void WebRenderAPI::Readback(const TimeStamp& aStartTime, gfx::IntSize size,
const gfx::SurfaceFormat& aFormat,
const Range<uint8_t>& buffer, bool* aNeedsYFlip) {
class Readback : public RendererEvent {
public:
explicit Readback(layers::SynchronousTask* aTask, TimeStamp aStartTime,
gfx::IntSize aSize, const gfx::SurfaceFormat& aFormat,
const Range<uint8_t>& aBuffer, bool* aNeedsYFlip)
: mTask(aTask),
mStartTime(aStartTime),
mSize(aSize),
mFormat(aFormat),
mBuffer(aBuffer),
mNeedsYFlip(aNeedsYFlip) {
MOZ_COUNT_CTOR(Readback);
}
MOZ_COUNTED_DTOR_OVERRIDE(Readback)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
aRenderThread.UpdateAndRender(aWindowId, VsyncId(), mStartTime,
/* aRender */ true, Some(mSize),
wr::SurfaceFormatToImageFormat(mFormat),
Some(mBuffer), mNeedsYFlip);
layers::AutoCompleteTask complete(mTask);
}
layers::SynchronousTask* mTask;
TimeStamp mStartTime;
gfx::IntSize mSize;
gfx::SurfaceFormat mFormat;
const Range<uint8_t>& mBuffer;
bool* mNeedsYFlip;
};
UpdateDebugFlags(0);
layers::SynchronousTask task("Readback");
auto event = MakeUnique<Readback>(&task, aStartTime, size, aFormat, buffer,
aNeedsYFlip);
// This event will be passed from wr_backend thread to renderer thread. That
// implies that all frame data have been processed when the renderer runs this
// read-back event. Then, we could make sure this read-back event gets the
// latest result.
RunOnRenderThread(std::move(event));
task.Wait();
UpdateDebugFlags(gfx::gfxVars::WebRenderDebugFlags());
}
void WebRenderAPI::ClearAllCaches() { wr_api_clear_all_caches(mDocHandle); }
void WebRenderAPI::EnableNativeCompositor(bool aEnable) {
wr_api_enable_native_compositor(mDocHandle, aEnable);
}
void WebRenderAPI::SetBatchingLookback(uint32_t aCount) {
wr_api_set_batching_lookback(mDocHandle, aCount);
}
void WebRenderAPI::SetBool(wr::BoolParameter aKey, bool aValue) {
wr_api_set_bool(mDocHandle, aKey, aValue);
}
void WebRenderAPI::SetInt(wr::IntParameter aKey, int32_t aValue) {
wr_api_set_int(mDocHandle, aKey, aValue);
}
void WebRenderAPI::SetClearColor(const gfx::DeviceColor& aColor) {
RenderThread::Get()->SetClearColor(mId, ToColorF(aColor));
}
void WebRenderAPI::SetProfilerUI(const nsACString& aUIString) {
RenderThread::Get()->SetProfilerUI(mId, aUIString);
}
void WebRenderAPI::Pause() {
class PauseEvent : public RendererEvent {
public:
explicit PauseEvent(layers::SynchronousTask* aTask) : mTask(aTask) {
MOZ_COUNT_CTOR(PauseEvent);
}
MOZ_COUNTED_DTOR_OVERRIDE(PauseEvent)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
aRenderThread.Pause(aWindowId);
layers::AutoCompleteTask complete(mTask);
}
layers::SynchronousTask* mTask;
};
layers::SynchronousTask task("Pause");
auto event = MakeUnique<PauseEvent>(&task);
// This event will be passed from wr_backend thread to renderer thread. That
// implies that all frame data have been processed when the renderer runs this
// event.
RunOnRenderThread(std::move(event));
task.Wait();
}
bool WebRenderAPI::Resume() {
class ResumeEvent : public RendererEvent {
public:
explicit ResumeEvent(layers::SynchronousTask* aTask, bool* aResult)
: mTask(aTask), mResult(aResult) {
MOZ_COUNT_CTOR(ResumeEvent);
}
MOZ_COUNTED_DTOR_OVERRIDE(ResumeEvent)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
*mResult = aRenderThread.Resume(aWindowId);
layers::AutoCompleteTask complete(mTask);
}
layers::SynchronousTask* mTask;
bool* mResult;
};
bool result = false;
layers::SynchronousTask task("Resume");
auto event = MakeUnique<ResumeEvent>(&task, &result);
// This event will be passed from wr_backend thread to renderer thread. That
// implies that all frame data have been processed when the renderer runs this
// event.
RunOnRenderThread(std::move(event));
task.Wait();
return result;
}
void WebRenderAPI::NotifyMemoryPressure() {
wr_api_notify_memory_pressure(mDocHandle);
}
void WebRenderAPI::AccumulateMemoryReport(MemoryReport* aReport) {
wr_api_accumulate_memory_report(mDocHandle, aReport, &WebRenderMallocSizeOf,
&WebRenderMallocEnclosingSizeOf);
}
void WebRenderAPI::WakeSceneBuilder() { wr_api_wake_scene_builder(mDocHandle); }
void WebRenderAPI::FlushSceneBuilder() {
wr_api_flush_scene_builder(mDocHandle);
}
void WebRenderAPI::WaitFlushed() {
class WaitFlushedEvent : public RendererEvent {
public:
explicit WaitFlushedEvent(layers::SynchronousTask* aTask) : mTask(aTask) {
MOZ_COUNT_CTOR(WaitFlushedEvent);
}
MOZ_COUNTED_DTOR_OVERRIDE(WaitFlushedEvent)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
layers::AutoCompleteTask complete(mTask);
}
layers::SynchronousTask* mTask;
};
layers::SynchronousTask task("WaitFlushed");
auto event = MakeUnique<WaitFlushedEvent>(&task);
// This event will be passed from wr_backend thread to renderer thread. That
// implies that all frame data have been processed when the renderer runs this
// event.
RunOnRenderThread(std::move(event));
task.Wait();
}
void WebRenderAPI::Capture() {
// see CaptureBits
// SCENE | FRAME | TILE_CACHE
uint8_t bits = 15; // TODO: get from JavaScript
const char* path = "wr-capture"; // TODO: get from JavaScript
wr_api_capture(mDocHandle, path, bits);
}
void WebRenderAPI::StartCaptureSequence(const nsACString& aPath,
uint32_t aFlags) {
if (mCaptureSequence) {
wr_api_stop_capture_sequence(mDocHandle);
}
wr_api_start_capture_sequence(mDocHandle, PromiseFlatCString(aPath).get(),
aFlags);
mCaptureSequence = true;
}
void WebRenderAPI::StopCaptureSequence() {
if (mCaptureSequence) {
wr_api_stop_capture_sequence(mDocHandle);
}
mCaptureSequence = false;
}
void WebRenderAPI::BeginRecording(const TimeStamp& aRecordingStart,
wr::PipelineId aRootPipelineId) {
class BeginRecordingEvent final : public RendererEvent {
public:
explicit BeginRecordingEvent(const TimeStamp& aRecordingStart,
wr::PipelineId aRootPipelineId)
: mRecordingStart(aRecordingStart), mRootPipelineId(aRootPipelineId) {
MOZ_COUNT_CTOR(BeginRecordingEvent);
}
~BeginRecordingEvent() { MOZ_COUNT_DTOR(BeginRecordingEvent); }
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
aRenderThread.BeginRecordingForWindow(aWindowId, mRecordingStart,
mRootPipelineId);
}
private:
TimeStamp mRecordingStart;
wr::PipelineId mRootPipelineId;
};
auto event =
MakeUnique<BeginRecordingEvent>(aRecordingStart, aRootPipelineId);
RunOnRenderThread(std::move(event));
}
RefPtr<WebRenderAPI::EndRecordingPromise> WebRenderAPI::EndRecording() {
class EndRecordingEvent final : public RendererEvent {
public:
explicit EndRecordingEvent() { MOZ_COUNT_CTOR(EndRecordingEvent); }
MOZ_COUNTED_DTOR(EndRecordingEvent);
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
Maybe<layers::FrameRecording> recording =
aRenderThread.EndRecordingForWindow(aWindowId);
if (recording) {
mPromise.Resolve(recording.extract(), __func__);
} else {
mPromise.Reject(NS_ERROR_UNEXPECTED, __func__);
}
}
RefPtr<WebRenderAPI::EndRecordingPromise> GetPromise() {
return mPromise.Ensure(__func__);
}
private:
MozPromiseHolder<WebRenderAPI::EndRecordingPromise> mPromise;
};
auto event = MakeUnique<EndRecordingEvent>();
auto promise = event->GetPromise();
RunOnRenderThread(std::move(event));
return promise;
}
void TransactionBuilder::Clear() { wr_resource_updates_clear(mTxn); }
Transaction* TransactionBuilder::Take() {
if (!mOwnsData) {
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
return nullptr;
}
Transaction* txn = mTxn;
mTxn = wr_transaction_new(mUseSceneBuilderThread);
return txn;
}
void TransactionBuilder::Notify(wr::Checkpoint aWhen,
UniquePtr<NotificationHandler> aEvent) {
wr_transaction_notify(mTxn, aWhen,
reinterpret_cast<uintptr_t>(aEvent.release()));
}
void TransactionBuilder::AddImage(ImageKey key,
const ImageDescriptor& aDescriptor,
wr::Vec<uint8_t>& aBytes) {
wr_resource_updates_add_image(mTxn, key, &aDescriptor, &aBytes.inner);
}
void TransactionBuilder::AddBlobImage(BlobImageKey key,
const ImageDescriptor& aDescriptor,
uint16_t aTileSize,
wr::Vec<uint8_t>& aBytes,
const wr::DeviceIntRect& aVisibleRect) {
wr_resource_updates_add_blob_image(mTxn, key, &aDescriptor, aTileSize,
&aBytes.inner, aVisibleRect);
}
void TransactionBuilder::AddExternalImage(ImageKey key,
const ImageDescriptor& aDescriptor,
ExternalImageId aExtID,
wr::ExternalImageType aImageType,
uint8_t aChannelIndex) {
wr_resource_updates_add_external_image(mTxn, key, &aDescriptor, aExtID,
&aImageType, aChannelIndex);
}
void TransactionBuilder::AddExternalImageBuffer(
ImageKey aKey, const ImageDescriptor& aDescriptor,
ExternalImageId aHandle) {
auto channelIndex = 0;
AddExternalImage(aKey, aDescriptor, aHandle, wr::ExternalImageType::Buffer(),
channelIndex);
}
void TransactionBuilder::UpdateImageBuffer(ImageKey aKey,
const ImageDescriptor& aDescriptor,
wr::Vec<uint8_t>& aBytes) {
wr_resource_updates_update_image(mTxn, aKey, &aDescriptor, &aBytes.inner);
}
void TransactionBuilder::UpdateBlobImage(BlobImageKey aKey,
const ImageDescriptor& aDescriptor,
wr::Vec<uint8_t>& aBytes,
const wr::DeviceIntRect& aVisibleRect,
const wr::LayoutIntRect& aDirtyRect) {
wr_resource_updates_update_blob_image(mTxn, aKey, &aDescriptor, &aBytes.inner,
aVisibleRect, aDirtyRect);
}
void TransactionBuilder::UpdateExternalImage(ImageKey aKey,
const ImageDescriptor& aDescriptor,
ExternalImageId aExtID,
wr::ExternalImageType aImageType,
uint8_t aChannelIndex) {
wr_resource_updates_update_external_image(mTxn, aKey, &aDescriptor, aExtID,
&aImageType, aChannelIndex);
}
void TransactionBuilder::UpdateExternalImageWithDirtyRect(
ImageKey aKey, const ImageDescriptor& aDescriptor, ExternalImageId aExtID,
wr::ExternalImageType aImageType, const wr::DeviceIntRect& aDirtyRect,
uint8_t aChannelIndex) {
wr_resource_updates_update_external_image_with_dirty_rect(
mTxn, aKey, &aDescriptor, aExtID, &aImageType, aChannelIndex, aDirtyRect);
}
void TransactionBuilder::SetBlobImageVisibleArea(
BlobImageKey aKey, const wr::DeviceIntRect& aArea) {
wr_resource_updates_set_blob_image_visible_area(mTxn, aKey, &aArea);
}
void TransactionBuilder::DeleteImage(ImageKey aKey) {
wr_resource_updates_delete_image(mTxn, aKey);
}
void TransactionBuilder::DeleteBlobImage(BlobImageKey aKey) {
wr_resource_updates_delete_blob_image(mTxn, aKey);
}
void TransactionBuilder::AddRawFont(wr::FontKey aKey, wr::Vec<uint8_t>& aBytes,
uint32_t aIndex) {
wr_resource_updates_add_raw_font(mTxn, aKey, &aBytes.inner, aIndex);
}
void TransactionBuilder::AddFontDescriptor(wr::FontKey aKey,
wr::Vec<uint8_t>& aBytes,
uint32_t aIndex) {
wr_resource_updates_add_font_descriptor(mTxn, aKey, &aBytes.inner, aIndex);
}
void TransactionBuilder::DeleteFont(wr::FontKey aKey) {
wr_resource_updates_delete_font(mTxn, aKey);
}
void TransactionBuilder::AddFontInstance(
wr::FontInstanceKey aKey, wr::FontKey aFontKey, float aGlyphSize,
const wr::FontInstanceOptions* aOptions,
const wr::FontInstancePlatformOptions* aPlatformOptions,
wr::Vec<uint8_t>& aVariations) {
wr_resource_updates_add_font_instance(mTxn, aKey, aFontKey, aGlyphSize,
aOptions, aPlatformOptions,
&aVariations.inner);
}
void TransactionBuilder::DeleteFontInstance(wr::FontInstanceKey aKey) {
wr_resource_updates_delete_font_instance(mTxn, aKey);
}
void TransactionBuilder::UpdateQualitySettings(
bool aForceSubpixelAAWherePossible) {
wr_transaction_set_quality_settings(mTxn, aForceSubpixelAAWherePossible);
}
class FrameStartTime : public RendererEvent {
public:
explicit FrameStartTime(const TimeStamp& aTime) : mTime(aTime) {
MOZ_COUNT_CTOR(FrameStartTime);
}
MOZ_COUNTED_DTOR_OVERRIDE(FrameStartTime)
void Run(RenderThread& aRenderThread, WindowId aWindowId) override {
auto renderer = aRenderThread.GetRenderer(aWindowId);
if (renderer) {
renderer->SetFrameStartTime(mTime);
}
}
private:
TimeStamp mTime;
};
void WebRenderAPI::SetFrameStartTime(const TimeStamp& aTime) {
auto event = MakeUnique<FrameStartTime>(aTime);
RunOnRenderThread(std::move(event));
}
void WebRenderAPI::RunOnRenderThread(UniquePtr<RendererEvent> aEvent) {
auto event = reinterpret_cast<uintptr_t>(aEvent.release());
wr_api_send_external_event(mDocHandle, event);
}
DisplayListBuilder::DisplayListBuilder(PipelineId aId,
WebRenderBackend aBackend)
: mCurrentSpaceAndClipChain(wr::RootScrollNodeWithChain()),
mActiveFixedPosTracker(nullptr),
mPipelineId(aId),
mBackend(aBackend),
mDisplayItemCache(nullptr) {
MOZ_COUNT_CTOR(DisplayListBuilder);
mWrState = wr_state_new(aId);
if (mDisplayItemCache && mDisplayItemCache->IsEnabled()) {
mDisplayItemCache->SetPipelineId(aId);
}
}
DisplayListBuilder::~DisplayListBuilder() {
MOZ_COUNT_DTOR(DisplayListBuilder);
wr_state_delete(mWrState);
}
void DisplayListBuilder::Save() { wr_dp_save(mWrState); }
void DisplayListBuilder::Restore() { wr_dp_restore(mWrState); }
void DisplayListBuilder::ClearSave() { wr_dp_clear_save(mWrState); }
usize DisplayListBuilder::Dump(usize aIndent, const Maybe<usize>& aStart,
const Maybe<usize>& aEnd) {
return wr_dump_display_list(mWrState, aIndent, aStart.ptrOr(nullptr),
aEnd.ptrOr(nullptr));
}
void DisplayListBuilder::DumpSerializedDisplayList() {
wr_dump_serialized_display_list(mWrState);
}
void DisplayListBuilder::Begin(layers::DisplayItemCache* aCache) {
wr_api_begin_builder(mWrState);
mScrollIds.clear();
mCurrentSpaceAndClipChain = wr::RootScrollNodeWithChain();
mClipChainLeaf = Nothing();
mSuspendedSpaceAndClipChain = Nothing();
mSuspendedClipChainLeaf = Nothing();
mCachedTextDT = nullptr;
mCachedContext = nullptr;
mActiveFixedPosTracker = nullptr;
mDisplayItemCache = aCache;
mCurrentCacheSlot = Nothing();
}
void DisplayListBuilder::End(BuiltDisplayList& aOutDisplayList) {
wr_api_end_builder(
mWrState, &aOutDisplayList.dl_desc, &aOutDisplayList.dl_items.inner,
&aOutDisplayList.dl_cache.inner, &aOutDisplayList.dl_spatial_tree.inner);
mDisplayItemCache = nullptr;
}
void DisplayListBuilder::End(layers::DisplayListData& aOutTransaction) {
if (mDisplayItemCache && mDisplayItemCache->IsEnabled()) {
wr_dp_set_cache_size(mWrState, mDisplayItemCache->CurrentSize());
}
wr::VecU8 dlItems, dlCache, dlSpatialTree;
wr_api_end_builder(mWrState, &aOutTransaction.mDLDesc, &dlItems.inner,
&dlCache.inner, &dlSpatialTree.inner);
aOutTransaction.mDLItems.emplace(dlItems.inner.data, dlItems.inner.length,
dlItems.inner.capacity);
aOutTransaction.mDLCache.emplace(dlCache.inner.data, dlCache.inner.length,
dlCache.inner.capacity);
aOutTransaction.mDLSpatialTree.emplace(dlSpatialTree.inner.data,
dlSpatialTree.inner.length,
dlSpatialTree.inner.capacity);
dlItems.inner.capacity = 0;
dlItems.inner.data = nullptr;
dlCache.inner.capacity = 0;
dlCache.inner.data = nullptr;
dlSpatialTree.inner.capacity = 0;
dlSpatialTree.inner.data = nullptr;
}
Maybe<wr::WrSpatialId> DisplayListBuilder::PushStackingContext(
const wr::StackingContextParams& aParams, const wr::LayoutRect& aBounds,
const wr::RasterSpace& aRasterSpace) {
MOZ_ASSERT(mClipChainLeaf.isNothing(),
"Non-empty leaf from clip chain given, but not used with SC!");
WRDL_LOG(
"PushStackingContext b=%s t=%s id=0x%" PRIx64 "\n", mWrState,
ToString(aBounds).c_str(),
aParams.mTransformPtr ? ToString(*aParams.mTransformPtr).c_str() : "none",
aParams.animation ? aParams.animation->id : 0);
auto spatialId = wr_dp_push_stacking_context(
mWrState, aBounds, mCurrentSpaceAndClipChain.space, &aParams,
aParams.mTransformPtr, aParams.mFilters.Elements(),
aParams.mFilters.Length(), aParams.mFilterDatas.Elements(),
aParams.mFilterDatas.Length(), aRasterSpace);
return spatialId.id != 0 ? Some(spatialId) : Nothing();
}
void DisplayListBuilder::PopStackingContext(bool aIsReferenceFrame) {
WRDL_LOG("PopStackingContext\n", mWrState);
wr_dp_pop_stacking_context(mWrState, aIsReferenceFrame);
}
wr::WrClipChainId DisplayListBuilder::DefineClipChain(
const nsTArray<wr::WrClipId>& aClips, bool aParentWithCurrentChain) {
CancelGroup();
const uint64_t* parent = nullptr;
if (aParentWithCurrentChain &&
mCurrentSpaceAndClipChain.clip_chain != wr::ROOT_CLIP_CHAIN) {
parent = &mCurrentSpaceAndClipChain.clip_chain;
}
uint64_t clipchainId = wr_dp_define_clipchain(
mWrState, parent, aClips.Elements(), aClips.Length());
if (MOZ_LOG_TEST(sWrDLLog, LogLevel::Debug)) {
nsCString message;
message.AppendPrintf("DefineClipChain id=%" PRIu64
" clipCount=%zu clipIds=[",
clipchainId, aClips.Length());
for (const auto& clip : aClips) {
message.AppendPrintf("%" PRIuPTR ",", clip.id);
}
message.Append("]");
WRDL_LOG("%s", mWrState, message.get());
}
return wr::WrClipChainId{clipchainId};
}
wr::WrClipId DisplayListBuilder::DefineImageMaskClip(
const wr::ImageMask& aMask, const nsTArray<wr::LayoutPoint>& aPoints,
wr::FillRule aFillRule) {
CancelGroup();
WrClipId clipId = wr_dp_define_image_mask_clip_with_parent_clip_chain(
mWrState, mCurrentSpaceAndClipChain.space, aMask, aPoints.Elements(),
aPoints.Length(), aFillRule);
return clipId;
}
wr::WrClipId DisplayListBuilder::DefineRoundedRectClip(
Maybe<wr::WrSpatialId> aSpace, const wr::ComplexClipRegion& aComplex) {
CancelGroup();
WrClipId clipId;
if (aSpace) {
clipId = wr_dp_define_rounded_rect_clip(mWrState, *aSpace, aComplex);
} else {
clipId = wr_dp_define_rounded_rect_clip(
mWrState, mCurrentSpaceAndClipChain.space, aComplex);
}
return clipId;
}
wr::WrClipId DisplayListBuilder::DefineRectClip(Maybe<wr::WrSpatialId> aSpace,
wr::LayoutRect aClipRect) {
CancelGroup();
WrClipId clipId;
if (aSpace) {
clipId = wr_dp_define_rect_clip(mWrState, *aSpace, aClipRect);
} else {
clipId = wr_dp_define_rect_clip(mWrState, mCurrentSpaceAndClipChain.space,
aClipRect);
}
return clipId;
}
wr::WrSpatialId DisplayListBuilder::DefineStickyFrame(
const wr::LayoutRect& aContentRect, const float* aTopMargin,
const float* aRightMargin, const float* aBottomMargin,
const float* aLeftMargin, const StickyOffsetBounds& aVerticalBounds,
const StickyOffsetBounds& aHorizontalBounds,
const wr::LayoutVector2D& aAppliedOffset, wr::SpatialTreeItemKey aKey) {
auto spatialId = wr_dp_define_sticky_frame(
mWrState, mCurrentSpaceAndClipChain.space, aContentRect, aTopMargin,
aRightMargin, aBottomMargin, aLeftMargin, aVerticalBounds,
aHorizontalBounds, aAppliedOffset, aKey);
WRDL_LOG("DefineSticky id=%zu c=%s t=%s r=%s b=%s l=%s v=%s h=%s a=%s\n",
mWrState, spatialId.id, ToString(aContentRect).c_str(),
aTopMargin ? ToString(*aTopMargin).c_str() : "none",
aRightMargin ? ToString(*aRightMargin).c_str() : "none",
aBottomMargin ? ToString(*aBottomMargin).c_str() : "none",
aLeftMargin ? ToString(*aLeftMargin).c_str() : "none",
ToString(aVerticalBounds).c_str(),
ToString(aHorizontalBounds).c_str(),
ToString(aAppliedOffset).c_str());
return spatialId;
}
Maybe<wr::WrSpatialId> DisplayListBuilder::GetScrollIdForDefinedScrollLayer(
layers::ScrollableLayerGuid::ViewID aViewId) const {
if (aViewId == layers::ScrollableLayerGuid::NULL_SCROLL_ID) {
return Some(wr::RootScrollNode());
}
auto it = mScrollIds.find(aViewId);
if (it == mScrollIds.end()) {
return Nothing();
}
return Some(it->second);
}
wr::WrSpatialId DisplayListBuilder::DefineScrollLayer(
const layers::ScrollableLayerGuid::ViewID& aViewId,
const Maybe<wr::WrSpatialId>& aParent, const wr::LayoutRect& aContentRect,
const wr::LayoutRect& aClipRect, const wr::LayoutVector2D& aScrollOffset,
wr::APZScrollGeneration aScrollOffsetGeneration,
wr::HasScrollLinkedEffect aHasScrollLinkedEffect,
wr::SpatialTreeItemKey aKey) {
auto it = mScrollIds.find(aViewId);
if (it != mScrollIds.end()) {
return it->second;
}
// We haven't defined aViewId before, so let's define it now.
wr::WrSpatialId defaultParent = mCurrentSpaceAndClipChain.space;
auto space = wr_dp_define_scroll_layer(
mWrState, aViewId, aParent ? aParent.ptr() : &defaultParent, aContentRect,
aClipRect, aScrollOffset, aScrollOffsetGeneration, aHasScrollLinkedEffect,
aKey);
WRDL_LOG("DefineScrollLayer id=%" PRIu64
"/%zu p=%s co=%s cl=%s generation=%s hasScrollLinkedEffect=%s\n",
mWrState, aViewId, space.id,
aParent ? ToString(aParent->id).c_str() : "(nil)",
ToString(aContentRect).c_str(), ToString(aClipRect).c_str(),
ToString(aScrollOffsetGeneration).c_str(),
ToString(aHasScrollLinkedEffect).c_str());
mScrollIds[aViewId] = space;
return space;
}
void DisplayListBuilder::PushRect(const wr::LayoutRect& aBounds,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
bool aForceAntiAliasing, bool aIsCheckerboard,
const wr::ColorF& aColor) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushRect b=%s cl=%s c=%s\n", mWrState, ToString(aBounds).c_str(),
ToString(clip).c_str(), ToString(aColor).c_str());
wr_dp_push_rect(mWrState, aBounds, clip, aIsBackfaceVisible,
aForceAntiAliasing, aIsCheckerboard,
&mCurrentSpaceAndClipChain, aColor);
}
void DisplayListBuilder::PushRoundedRect(const wr::LayoutRect& aBounds,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::ColorF& aColor) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushRoundedRect b=%s cl=%s c=%s\n", mWrState,
ToString(aBounds).c_str(), ToString(clip).c_str(),
ToString(aColor).c_str());
// Draw the rounded rectangle as a border with rounded corners. We could also
// draw this as a rectangle clipped to a rounded rectangle, but:
// - clips are not cached; borders are
// - a simple border like this will be drawn as an image
// - Processing lots of clips is not WebRender's strong point.
//
// Made the borders thicker than one half the width/height, to avoid
// little white dots at the center at some magnifications.
wr::BorderSide side = {aColor, wr::BorderStyle::Solid};
float h = aBounds.width() * 0.6f;
float v = aBounds.height() * 0.6f;
wr::LayoutSideOffsets widths = {v, h, v, h};
wr::BorderRadius radii = {{h, v}, {h, v}, {h, v}, {h, v}};
// Anti-aliased borders are required for rounded borders.
wr_dp_push_border(mWrState, aBounds, clip, aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, wr::AntialiasBorder::Yes,
widths, side, side, side, side, radii);
}
void DisplayListBuilder::PushHitTest(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const layers::ScrollableLayerGuid::ViewID& aScrollId,
const gfx::CompositorHitTestInfo& aHitInfo, SideBits aSideBits) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushHitTest b=%s cl=%s\n", mWrState, ToString(aBounds).c_str(),
ToString(clip).c_str());
static_assert(gfx::DoesCompositorHitTestInfoFitIntoBits<12>(),
"CompositorHitTestFlags MAX value has to be less than number "
"of bits in uint16_t minus 4 for SideBitsPacked");
uint16_t hitInfoBits = static_cast<uint16_t>(aHitInfo.serialize()) |
(static_cast<uint16_t>(aSideBits) << 12);
wr_dp_push_hit_test(mWrState, aBounds, clip, aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aScrollId, hitInfoBits);
}
void DisplayListBuilder::PushRectWithAnimation(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::ColorF& aColor,
const WrAnimationProperty* aAnimation) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushRectWithAnimation b=%s cl=%s c=%s\n", mWrState,
ToString(aBounds).c_str(), ToString(clip).c_str(),
ToString(aColor).c_str());
wr_dp_push_rect_with_animation(mWrState, aBounds, clip, aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aColor,
aAnimation);
}
void DisplayListBuilder::PushClearRect(const wr::LayoutRect& aBounds) {
wr::LayoutRect clip = MergeClipLeaf(aBounds);
WRDL_LOG("PushClearRect b=%s c=%s\n", mWrState, ToString(aBounds).c_str(),
ToString(clip).c_str());
wr_dp_push_clear_rect(mWrState, aBounds, clip, &mCurrentSpaceAndClipChain);
}
void DisplayListBuilder::PushBackdropFilter(
const wr::LayoutRect& aBounds, const wr::ComplexClipRegion& aRegion,
const nsTArray<wr::FilterOp>& aFilters,
const nsTArray<wr::WrFilterData>& aFilterDatas, bool aIsBackfaceVisible) {
wr::LayoutRect clip = MergeClipLeaf(aBounds);
WRDL_LOG("PushBackdropFilter b=%s c=%s\n", mWrState,
ToString(aBounds).c_str(), ToString(clip).c_str());
auto clipId = DefineRoundedRectClip(Nothing(), aRegion);
auto clipChainId = DefineClipChain({clipId}, true);
auto spaceAndClip =
WrSpaceAndClipChain{mCurrentSpaceAndClipChain.space, clipChainId.id};
wr_dp_push_backdrop_filter(mWrState, aBounds, clip, aIsBackfaceVisible,
&spaceAndClip, aFilters.Elements(),
aFilters.Length(), aFilterDatas.Elements(),
aFilterDatas.Length());
}
void DisplayListBuilder::PushLinearGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutPoint& aStartPoint,
const wr::LayoutPoint& aEndPoint, const nsTArray<wr::GradientStop>& aStops,
wr::ExtendMode aExtendMode, const wr::LayoutSize aTileSize,
const wr::LayoutSize aTileSpacing) {
wr_dp_push_linear_gradient(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aStartPoint, aEndPoint, aStops.Elements(),
aStops.Length(), aExtendMode, aTileSize, aTileSpacing);
}
void DisplayListBuilder::PushRadialGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutPoint& aCenter,
const wr::LayoutSize& aRadius, const nsTArray<wr::GradientStop>& aStops,
wr::ExtendMode aExtendMode, const wr::LayoutSize aTileSize,
const wr::LayoutSize aTileSpacing) {
wr_dp_push_radial_gradient(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aCenter, aRadius, aStops.Elements(),
aStops.Length(), aExtendMode, aTileSize, aTileSpacing);
}
void DisplayListBuilder::PushConicGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutPoint& aCenter, const float aAngle,
const nsTArray<wr::GradientStop>& aStops, wr::ExtendMode aExtendMode,
const wr::LayoutSize aTileSize, const wr::LayoutSize aTileSpacing) {
wr_dp_push_conic_gradient(mWrState, aBounds, MergeClipLeaf(aClip),
aIsBackfaceVisible, &mCurrentSpaceAndClipChain,
aCenter, aAngle, aStops.Elements(), aStops.Length(),
aExtendMode, aTileSize, aTileSpacing);
}
void DisplayListBuilder::PushImage(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, bool aForceAntiAliasing,
wr::ImageRendering aFilter, wr::ImageKey aImage, bool aPremultipliedAlpha,
const wr::ColorF& aColor, bool aPreferCompositorSurface,
bool aSupportsExternalCompositing) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushImage b=%s cl=%s\n", mWrState, ToString(aBounds).c_str(),
ToString(clip).c_str());
wr_dp_push_image(mWrState, aBounds, clip, aIsBackfaceVisible,
aForceAntiAliasing, &mCurrentSpaceAndClipChain, aFilter,
aImage, aPremultipliedAlpha, aColor,
aPreferCompositorSurface, aSupportsExternalCompositing);
}
void DisplayListBuilder::PushRepeatingImage(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutSize& aStretchSize,
const wr::LayoutSize& aTileSpacing, wr::ImageRendering aFilter,
wr::ImageKey aImage, bool aPremultipliedAlpha, const wr::ColorF& aColor) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
WRDL_LOG("PushImage b=%s cl=%s s=%s t=%s\n", mWrState,
ToString(aBounds).c_str(), ToString(clip).c_str(),
ToString(aStretchSize).c_str(), ToString(aTileSpacing).c_str());
wr_dp_push_repeating_image(
mWrState, aBounds, clip, aIsBackfaceVisible, &mCurrentSpaceAndClipChain,
aStretchSize, aTileSpacing, aFilter, aImage, aPremultipliedAlpha, aColor);
}
void DisplayListBuilder::PushYCbCrPlanarImage(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, wr::ImageKey aImageChannel0,
wr::ImageKey aImageChannel1, wr::ImageKey aImageChannel2,
wr::WrColorDepth aColorDepth, wr::WrYuvColorSpace aColorSpace,
wr::WrColorRange aColorRange, wr::ImageRendering aRendering,
bool aPreferCompositorSurface, bool aSupportsExternalCompositing) {
wr_dp_push_yuv_planar_image(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aImageChannel0, aImageChannel1,
aImageChannel2, aColorDepth, aColorSpace, aColorRange, aRendering,
aPreferCompositorSurface, aSupportsExternalCompositing);
}
void DisplayListBuilder::PushNV12Image(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, wr::ImageKey aImageChannel0,
wr::ImageKey aImageChannel1, wr::WrColorDepth aColorDepth,
wr::WrYuvColorSpace aColorSpace, wr::WrColorRange aColorRange,
wr::ImageRendering aRendering, bool aPreferCompositorSurface,
bool aSupportsExternalCompositing) {
wr_dp_push_yuv_NV12_image(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aImageChannel0, aImageChannel1, aColorDepth,
aColorSpace, aColorRange, aRendering, aPreferCompositorSurface,
aSupportsExternalCompositing);
}
void DisplayListBuilder::PushP010Image(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, wr::ImageKey aImageChannel0,
wr::ImageKey aImageChannel1, wr::WrColorDepth aColorDepth,
wr::WrYuvColorSpace aColorSpace, wr::WrColorRange aColorRange,
wr::ImageRendering aRendering, bool aPreferCompositorSurface,
bool aSupportsExternalCompositing) {
wr_dp_push_yuv_P010_image(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aImageChannel0, aImageChannel1, aColorDepth,
aColorSpace, aColorRange, aRendering, aPreferCompositorSurface,
aSupportsExternalCompositing);
}
void DisplayListBuilder::PushYCbCrInterleavedImage(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, wr::ImageKey aImageChannel0,
wr::WrColorDepth aColorDepth, wr::WrYuvColorSpace aColorSpace,
wr::WrColorRange aColorRange, wr::ImageRendering aRendering,
bool aPreferCompositorSurface, bool aSupportsExternalCompositing) {
wr_dp_push_yuv_interleaved_image(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aImageChannel0, aColorDepth, aColorSpace,
aColorRange, aRendering, aPreferCompositorSurface,
aSupportsExternalCompositing);
}
void DisplayListBuilder::PushIFrame(const LayoutDeviceRect& aDevPxBounds,
bool aIsBackfaceVisible,
PipelineId aPipeline,
bool aIgnoreMissingPipeline) {
// If the incoming bounds size has decimals (As it could when zoom is
// involved), and is pushed straight through here, the compositor would end up
// calculating the destination rect to paint the rendered iframe into
// with those decimal values, rounding the result, instead of snapping. This
// can cause the rendered iframe rect and its destination rect to be
// mismatched, resulting in interpolation artifacts.
auto snapped = aDevPxBounds;
auto tl = snapped.TopLeft().Round();
auto br = snapped.BottomRight().Round();
snapped.SizeTo(LayoutDeviceSize(br.x - tl.x, br.y - tl.y));
const auto bounds = wr::ToLayoutRect(snapped);
wr_dp_push_iframe(mWrState, bounds, MergeClipLeaf(bounds), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aPipeline,
aIgnoreMissingPipeline);
}
void DisplayListBuilder::PushBorder(const wr::LayoutRect& aBounds,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::LayoutSideOffsets& aWidths,
const Range<const wr::BorderSide>& aSides,
const wr::BorderRadius& aRadius,
wr::AntialiasBorder aAntialias) {
MOZ_ASSERT(aSides.length() == 4);
if (aSides.length() != 4) {
return;
}
wr_dp_push_border(mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aAntialias, aWidths, aSides[0],
aSides[1], aSides[2], aSides[3], aRadius);
}
void DisplayListBuilder::PushBorderImage(const wr::LayoutRect& aBounds,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::WrBorderImage& aParams) {
wr_dp_push_border_image(mWrState, aBounds, MergeClipLeaf(aClip),
aIsBackfaceVisible, &mCurrentSpaceAndClipChain,
&aParams);
}
void DisplayListBuilder::PushBorderGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutSideOffsets& aWidths,
const int32_t aWidth, const int32_t aHeight, bool aFill,
const wr::DeviceIntSideOffsets& aSlice, const wr::LayoutPoint& aStartPoint,
const wr::LayoutPoint& aEndPoint, const nsTArray<wr::GradientStop>& aStops,
wr::ExtendMode aExtendMode) {
wr_dp_push_border_gradient(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aWidths, aWidth, aHeight, aFill, aSlice,
aStartPoint, aEndPoint, aStops.Elements(), aStops.Length(), aExtendMode);
}
void DisplayListBuilder::PushBorderRadialGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutSideOffsets& aWidths, bool aFill,
const wr::LayoutPoint& aCenter, const wr::LayoutSize& aRadius,
const nsTArray<wr::GradientStop>& aStops, wr::ExtendMode aExtendMode) {
wr_dp_push_border_radial_gradient(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aWidths, aFill, aCenter, aRadius,
aStops.Elements(), aStops.Length(), aExtendMode);
}
void DisplayListBuilder::PushBorderConicGradient(
const wr::LayoutRect& aBounds, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutSideOffsets& aWidths, bool aFill,
const wr::LayoutPoint& aCenter, const float aAngle,
const nsTArray<wr::GradientStop>& aStops, wr::ExtendMode aExtendMode) {
wr_dp_push_border_conic_gradient(
mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aWidths, aFill, aCenter, aAngle,
aStops.Elements(), aStops.Length(), aExtendMode);
}
void DisplayListBuilder::PushText(const wr::LayoutRect& aBounds,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::ColorF& aColor,
wr::FontInstanceKey aFontKey,
Range<const wr::GlyphInstance> aGlyphBuffer,
const wr::GlyphOptions* aGlyphOptions) {
wr_dp_push_text(mWrState, aBounds, MergeClipLeaf(aClip), aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aColor, aFontKey,
&aGlyphBuffer[0], aGlyphBuffer.length(), aGlyphOptions);
}
void DisplayListBuilder::PushLine(const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::Line& aLine) {
wr::LayoutRect clip = MergeClipLeaf(aClip);
wr_dp_push_line(mWrState, &clip, aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, &aLine.bounds,
aLine.wavyLineThickness, aLine.orientation, &aLine.color,
aLine.style);
}
void DisplayListBuilder::PushShadow(const wr::LayoutRect& aRect,
const wr::LayoutRect& aClip,
bool aIsBackfaceVisible,
const wr::Shadow& aShadow,
bool aShouldInflate) {
// Local clip_rects are translated inside of shadows, as they are assumed to
// be part of the element drawing itself, and not a parent frame clipping it.
// As such, it is not sound to apply the MergeClipLeaf optimization inside of
// shadows. So we disable the optimization when we encounter a shadow.
// Shadows don't span frames, so we don't have to worry about MergeClipLeaf
// being re-enabled mid-shadow. The optimization is restored in PopAllShadows.
SuspendClipLeafMerging();
wr_dp_push_shadow(mWrState, aRect, aClip, aIsBackfaceVisible,
&mCurrentSpaceAndClipChain, aShadow, aShouldInflate);
}
void DisplayListBuilder::PopAllShadows() {
wr_dp_pop_all_shadows(mWrState);
ResumeClipLeafMerging();
}
void DisplayListBuilder::SuspendClipLeafMerging() {
if (mClipChainLeaf) {
// No one should reinitialize mClipChainLeaf while we're suspended
MOZ_ASSERT(!mSuspendedClipChainLeaf);
mSuspendedClipChainLeaf = mClipChainLeaf;
mSuspendedSpaceAndClipChain = Some(mCurrentSpaceAndClipChain);
auto clipId = DefineRectClip(Nothing(), *mClipChainLeaf);
auto clipChainId = DefineClipChain({clipId}, true);
mCurrentSpaceAndClipChain.clip_chain = clipChainId.id;
mClipChainLeaf = Nothing();
}
}
void DisplayListBuilder::ResumeClipLeafMerging() {
if (mSuspendedClipChainLeaf) {
mCurrentSpaceAndClipChain = *mSuspendedSpaceAndClipChain;
mClipChainLeaf = mSuspendedClipChainLeaf;
mSuspendedClipChainLeaf = Nothing();
mSuspendedSpaceAndClipChain = Nothing();
}
}
void DisplayListBuilder::PushBoxShadow(
const wr::LayoutRect& aRect, const wr::LayoutRect& aClip,
bool aIsBackfaceVisible, const wr::LayoutRect& aBoxBounds,
const wr::LayoutVector2D& aOffset, const wr::ColorF& aColor,
const float& aBlurRadius, const float& aSpreadRadius,
const wr::BorderRadius& aBorderRadius,
const wr::BoxShadowClipMode& aClipMode) {
wr_dp_push_box_shadow(mWrState, aRect, MergeClipLeaf(aClip),
aIsBackfaceVisible, &mCurrentSpaceAndClipChain,
aBoxBounds, aOffset, aColor, aBlurRadius, aSpreadRadius,
aBorderRadius, aClipMode);
}
void DisplayListBuilder::StartGroup(nsPaintedDisplayItem* aItem) {
if (!mDisplayItemCache || mDisplayItemCache->IsFull()) {
return;
}
MOZ_ASSERT(!mCurrentCacheSlot);
mCurrentCacheSlot = mDisplayItemCache->AssignSlot(aItem);
if (mCurrentCacheSlot) {
wr_dp_start_item_group(mWrState);
}
}
void DisplayListBuilder::CancelGroup(const bool aDiscard) {
if (!mDisplayItemCache || !mCurrentCacheSlot) {
return;
}
wr_dp_cancel_item_group(mWrState, aDiscard);
mCurrentCacheSlot = Nothing();
}
void DisplayListBuilder::FinishGroup() {
if (!mDisplayItemCache || !mCurrentCacheSlot) {
return;
}
MOZ_ASSERT(mCurrentCacheSlot);
if (wr_dp_finish_item_group(mWrState, mCurrentCacheSlot.ref())) {
mDisplayItemCache->MarkSlotOccupied(mCurrentCacheSlot.ref(),
CurrentSpaceAndClipChain());
mDisplayItemCache->Stats().AddCached();
}
mCurrentCacheSlot = Nothing();
}
bool DisplayListBuilder::ReuseItem(nsPaintedDisplayItem* aItem) {
if (!mDisplayItemCache) {
return false;
}
mDisplayItemCache->Stats().AddTotal();
if (mDisplayItemCache->IsEmpty()) {
return false;
}
Maybe<uint16_t> slot =
mDisplayItemCache->CanReuseItem(aItem, CurrentSpaceAndClipChain());
if (slot) {
mDisplayItemCache->Stats().AddReused();
wr_dp_push_reuse_items(mWrState, slot.ref());
return true;
}
return false;
}
Maybe<layers::ScrollableLayerGuid::ViewID>
DisplayListBuilder::GetContainingFixedPosScrollTarget(
const ActiveScrolledRoot* aAsr) {
return mActiveFixedPosTracker
? mActiveFixedPosTracker->GetScrollTargetForASR(aAsr)
: Nothing();
}
Maybe<SideBits> DisplayListBuilder::GetContainingFixedPosSideBits(
const ActiveScrolledRoot* aAsr) {
return mActiveFixedPosTracker
? mActiveFixedPosTracker->GetSideBitsForASR(aAsr)
: Nothing();
}
DisplayListBuilder::FixedPosScrollTargetTracker::FixedPosScrollTargetTracker(
DisplayListBuilder& aBuilder, const ActiveScrolledRoot* aAsr,
layers::ScrollableLayerGuid::ViewID aScrollId, SideBits aSideBits)
: mParentTracker(aBuilder.mActiveFixedPosTracker),
mBuilder(aBuilder),
mAsr(aAsr),
mScrollId(aScrollId),
mSideBits(aSideBits) {
aBuilder.mActiveFixedPosTracker = this;
}
DisplayListBuilder::FixedPosScrollTargetTracker::
~FixedPosScrollTargetTracker() {
mBuilder.mActiveFixedPosTracker = mParentTracker;
}
Maybe<layers::ScrollableLayerGuid::ViewID>
DisplayListBuilder::FixedPosScrollTargetTracker::GetScrollTargetForASR(
const ActiveScrolledRoot* aAsr) {
return aAsr == mAsr ? Some(mScrollId) : Nothing();
}
Maybe<SideBits>
DisplayListBuilder::FixedPosScrollTargetTracker::GetSideBitsForASR(
const ActiveScrolledRoot* aAsr) {
return aAsr == mAsr ? Some(mSideBits) : Nothing();
}
gfxContext* DisplayListBuilder::GetTextContext(
wr::IpcResourceUpdateQueue& aResources,
const layers::StackingContextHelper& aSc,
layers::RenderRootStateManager* aManager, nsDisplayItem* aItem,
nsRect& aBounds, const gfx::Point& aDeviceOffset) {
if (!mCachedTextDT) {
mCachedTextDT = new layout::TextDrawTarget(*this, aResources, aSc, aManager,
aItem, aBounds);
if (mCachedTextDT->IsValid()) {
mCachedContext = MakeUnique<gfxContext>(mCachedTextDT, aDeviceOffset);
}
} else {
mCachedTextDT->Reinitialize(aResources, aSc, aManager, aItem, aBounds);
mCachedContext->SetDeviceOffset(aDeviceOffset);
mCachedContext->SetMatrix(gfx::Matrix());
}
return mCachedContext.get();
}
void DisplayListBuilder::PushInheritedClipChain(
nsDisplayListBuilder* aBuilder, const DisplayItemClipChain* aClipChain) {
if (!aClipChain || mInheritedClipChain == aClipChain) {
return;
}
if (!mInheritedClipChain) {
mInheritedClipChain = aClipChain;
return;
}
mInheritedClipChain =
aBuilder->CreateClipChainIntersection(mInheritedClipChain, aClipChain);
}
} // namespace wr
} // namespace mozilla
extern "C" {
void wr_transaction_notification_notified(uintptr_t aHandler,
mozilla::wr::Checkpoint aWhen) {
auto handler = reinterpret_cast<mozilla::wr::NotificationHandler*>(aHandler);
handler->Notify(aWhen);
// TODO: it would be better to get a callback when the object is destroyed on
// the rust side and delete then.
delete handler;
}
void wr_register_thread_local_arena() {
#ifdef MOZ_MEMORY
jemalloc_thread_local_arena(true);
#endif
}
} // extern C