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android / platform / external / chromium_org / 8218cdcecd3977329cf3e7c0365c46675a42c6a0 / . / cc / trees / thread_proxy.cc
blob: 2823182d5908d61b834dba6f53f96d35df8a4a75 [file] [log] [blame]
// Copyright 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "cc/trees/thread_proxy.h"
#include <string>
#include "base/auto_reset.h"
#include "base/bind.h"
#include "base/debug/trace_event.h"
#include "base/metrics/histogram.h"
#include "cc/base/swap_promise.h"
#include "cc/debug/benchmark_instrumentation.h"
#include "cc/input/input_handler.h"
#include "cc/output/context_provider.h"
#include "cc/output/output_surface.h"
#include "cc/quads/draw_quad.h"
#include "cc/resources/prioritized_resource_manager.h"
#include "cc/scheduler/delay_based_time_source.h"
#include "cc/scheduler/frame_rate_controller.h"
#include "cc/scheduler/scheduler.h"
#include "cc/trees/blocking_task_runner.h"
#include "cc/trees/layer_tree_host.h"
#include "cc/trees/layer_tree_impl.h"
#include "ui/gfx/frame_time.h"
namespace {
// Measured in seconds.
const double kSmoothnessTakesPriorityExpirationDelay = 0.25;
const size_t kDurationHistorySize = 60;
const double kCommitAndActivationDurationEstimationPercentile = 50.0;
const double kDrawDurationEstimationPercentile = 100.0;
const int kDrawDurationEstimatePaddingInMicroseconds = 0;
class SwapPromiseChecker {
public:
explicit SwapPromiseChecker(cc::LayerTreeHost* layer_tree_host)
: layer_tree_host_(layer_tree_host) {}
~SwapPromiseChecker() {
layer_tree_host_->BreakSwapPromises(cc::SwapPromise::COMMIT_FAILS);
}
private:
cc::LayerTreeHost* layer_tree_host_;
};
} // namespace
namespace cc {
struct ThreadProxy::ReadbackRequest {
CompletionEvent completion;
bool success;
void* pixels;
gfx::Rect rect;
};
struct ThreadProxy::CommitPendingRequest {
CompletionEvent completion;
bool commit_pending;
};
struct ThreadProxy::SchedulerStateRequest {
CompletionEvent completion;
scoped_ptr<base::Value> state;
};
scoped_ptr<Proxy> ThreadProxy::Create(
LayerTreeHost* layer_tree_host,
scoped_refptr<base::SingleThreadTaskRunner> impl_task_runner) {
return make_scoped_ptr(
new ThreadProxy(layer_tree_host, impl_task_runner)).PassAs<Proxy>();
}
ThreadProxy::ThreadProxy(
LayerTreeHost* layer_tree_host,
scoped_refptr<base::SingleThreadTaskRunner> impl_task_runner)
: Proxy(impl_task_runner),
animate_requested_(false),
commit_requested_(false),
commit_request_sent_to_impl_thread_(false),
created_offscreen_context_provider_(false),
layer_tree_host_unsafe_(layer_tree_host),
contents_texture_manager_unsafe_(NULL),
started_(false),
textures_acquired_(true),
in_composite_and_readback_(false),
manage_tiles_pending_(false),
commit_waits_for_activation_(false),
inside_commit_(false),
begin_main_frame_sent_completion_event_on_impl_thread_(NULL),
readback_request_on_impl_thread_(NULL),
commit_completion_event_on_impl_thread_(NULL),
completion_event_for_commit_held_on_tree_activation_(NULL),
texture_acquisition_completion_event_on_impl_thread_(NULL),
next_frame_is_newly_committed_frame_on_impl_thread_(false),
throttle_frame_production_(
layer_tree_host->settings().throttle_frame_production),
begin_impl_frame_scheduling_enabled_(
layer_tree_host->settings().begin_impl_frame_scheduling_enabled),
using_synchronous_renderer_compositor_(
layer_tree_host->settings().using_synchronous_renderer_compositor),
inside_draw_(false),
can_cancel_commit_(true),
defer_commits_(false),
input_throttled_until_commit_(false),
renew_tree_priority_on_impl_thread_pending_(false),
draw_duration_history_(kDurationHistorySize),
begin_main_frame_to_commit_duration_history_(kDurationHistorySize),
commit_to_activate_duration_history_(kDurationHistorySize),
weak_factory_on_impl_thread_(this),
weak_factory_(this),
layer_tree_host_id_(layer_tree_host->id()) {
TRACE_EVENT0("cc", "ThreadProxy::ThreadProxy");
DCHECK(IsMainThread());
DCHECK(this->layer_tree_host());
}
ThreadProxy::~ThreadProxy() {
TRACE_EVENT0("cc", "ThreadProxy::~ThreadProxy");
DCHECK(IsMainThread());
DCHECK(!started_);
}
bool ThreadProxy::CompositeAndReadback(void* pixels, gfx::Rect rect) {
TRACE_EVENT0("cc", "ThreadProxy::CompositeAndReadback");
DCHECK(IsMainThread());
DCHECK(layer_tree_host());
if (defer_commits_) {
TRACE_EVENT0("cc", "CompositeAndReadback_DeferCommit");
return false;
}
if (!layer_tree_host()->InitializeOutputSurfaceIfNeeded()) {
TRACE_EVENT0("cc", "CompositeAndReadback_EarlyOut_LR_Uninitialized");
return false;
}
// Perform a synchronous commit with an associated readback.
ReadbackRequest request;
request.rect = rect;
request.pixels = pixels;
{
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent begin_main_frame_sent_completion;
Proxy::ImplThreadTaskRunner()
->PostTask(FROM_HERE,
base::Bind(&ThreadProxy::ForceCommitForReadbackOnImplThread,
impl_thread_weak_ptr_,
&begin_main_frame_sent_completion,
&request));
begin_main_frame_sent_completion.Wait();
}
in_composite_and_readback_ = true;
// This is the forced commit.
// Note: The Impl thread also queues a separate BeginMainFrame on the
// main thread, which will be called after this CompositeAndReadback
// completes, to replace the forced commit.
BeginMainFrame(scoped_ptr<BeginMainFrameAndCommitState>());
in_composite_and_readback_ = false;
// Composite and readback requires a second commit to undo any changes
// that it made.
can_cancel_commit_ = false;
request.completion.Wait();
return request.success;
}
void ThreadProxy::ForceCommitForReadbackOnImplThread(
CompletionEvent* begin_main_frame_sent_completion,
ReadbackRequest* request) {
TRACE_EVENT0("cc", "ThreadProxy::ForceCommitForReadbackOnImplThread");
DCHECK(IsImplThread());
DCHECK(!begin_main_frame_sent_completion_event_on_impl_thread_);
DCHECK(!readback_request_on_impl_thread_);
if (!layer_tree_host_impl_) {
begin_main_frame_sent_completion->Signal();
request->success = false;
request->completion.Signal();
return;
}
readback_request_on_impl_thread_ = request;
scheduler_on_impl_thread_->SetNeedsForcedCommitForReadback();
if (scheduler_on_impl_thread_->CommitPending()) {
begin_main_frame_sent_completion->Signal();
return;
}
begin_main_frame_sent_completion_event_on_impl_thread_ =
begin_main_frame_sent_completion;
}
void ThreadProxy::FinishAllRendering() {
DCHECK(Proxy::IsMainThread());
DCHECK(!defer_commits_);
// Make sure all GL drawing is finished on the impl thread.
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::FinishAllRenderingOnImplThread,
impl_thread_weak_ptr_,
&completion));
completion.Wait();
}
bool ThreadProxy::IsStarted() const {
DCHECK(Proxy::IsMainThread());
return started_;
}
void ThreadProxy::SetLayerTreeHostClientReady() {
TRACE_EVENT0("cc", "ThreadProxy::SetLayerTreeHostClientReady");
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetLayerTreeHostClientReadyOnImplThread,
impl_thread_weak_ptr_));
}
void ThreadProxy::SetLayerTreeHostClientReadyOnImplThread() {
TRACE_EVENT0("cc", "ThreadProxy::SetLayerTreeHostClientReadyOnImplThread");
scheduler_on_impl_thread_->SetCanStart();
}
void ThreadProxy::SetVisible(bool visible) {
TRACE_EVENT0("cc", "ThreadProxy::SetVisible");
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetVisibleOnImplThread,
impl_thread_weak_ptr_,
&completion,
visible));
completion.Wait();
}
void ThreadProxy::SetVisibleOnImplThread(CompletionEvent* completion,
bool visible) {
TRACE_EVENT0("cc", "ThreadProxy::SetVisibleOnImplThread");
layer_tree_host_impl_->SetVisible(visible);
scheduler_on_impl_thread_->SetVisible(visible);
UpdateBackgroundAnimateTicking();
completion->Signal();
}
void ThreadProxy::UpdateBackgroundAnimateTicking() {
layer_tree_host_impl_->UpdateBackgroundAnimateTicking(
!scheduler_on_impl_thread_->WillDrawIfNeeded() &&
layer_tree_host_impl_->active_tree()->root_layer());
}
void ThreadProxy::DoCreateAndInitializeOutputSurface() {
TRACE_EVENT0("cc", "ThreadProxy::DoCreateAndInitializeOutputSurface");
DCHECK(IsMainThread());
scoped_ptr<OutputSurface> output_surface = first_output_surface_.Pass();
if (!output_surface)
output_surface = layer_tree_host()->CreateOutputSurface();
RendererCapabilities capabilities;
bool success = !!output_surface;
if (!success) {
OnOutputSurfaceInitializeAttempted(false, capabilities);
return;
}
scoped_refptr<ContextProvider> offscreen_context_provider;
if (created_offscreen_context_provider_) {
offscreen_context_provider =
layer_tree_host()->client()->OffscreenContextProvider();
success = !!offscreen_context_provider.get();
if (!success) {
OnOutputSurfaceInitializeAttempted(false, capabilities);
return;
}
}
success = false;
{
// Make a blocking call to InitializeOutputSurfaceOnImplThread. The results
// of that call are pushed into the success and capabilities local
// variables.
CompletionEvent completion;
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::InitializeOutputSurfaceOnImplThread,
impl_thread_weak_ptr_,
&completion,
base::Passed(&output_surface),
offscreen_context_provider,
&success,
&capabilities));
completion.Wait();
}
OnOutputSurfaceInitializeAttempted(success, capabilities);
}
void ThreadProxy::OnOutputSurfaceInitializeAttempted(
bool success,
const RendererCapabilities& capabilities) {
DCHECK(IsMainThread());
DCHECK(layer_tree_host());
if (success) {
renderer_capabilities_main_thread_copy_ = capabilities;
}
LayerTreeHost::CreateResult result =
layer_tree_host()->OnCreateAndInitializeOutputSurfaceAttempted(success);
if (result == LayerTreeHost::CreateFailedButTryAgain) {
if (!output_surface_creation_callback_.callback().is_null()) {
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE, output_surface_creation_callback_.callback());
}
} else {
output_surface_creation_callback_.Cancel();
}
}
void ThreadProxy::SendCommitRequestToImplThreadIfNeeded() {
DCHECK(IsMainThread());
if (commit_request_sent_to_impl_thread_)
return;
commit_request_sent_to_impl_thread_ = true;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetNeedsCommitOnImplThread,
impl_thread_weak_ptr_));
}
const RendererCapabilities& ThreadProxy::GetRendererCapabilities() const {
DCHECK(IsMainThread());
DCHECK(!layer_tree_host()->output_surface_lost());
return renderer_capabilities_main_thread_copy_;
}
void ThreadProxy::SetNeedsAnimate() {
DCHECK(IsMainThread());
if (animate_requested_)
return;
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsAnimate");
animate_requested_ = true;
can_cancel_commit_ = false;
SendCommitRequestToImplThreadIfNeeded();
}
void ThreadProxy::SetNeedsUpdateLayers() {
DCHECK(IsMainThread());
if (commit_request_sent_to_impl_thread_)
return;
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsUpdateLayers");
SendCommitRequestToImplThreadIfNeeded();
}
void ThreadProxy::SetNeedsCommit() {
DCHECK(IsMainThread());
// Unconditionally set here to handle SetNeedsCommit calls during a commit.
can_cancel_commit_ = false;
if (commit_requested_)
return;
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsCommit");
commit_requested_ = true;
SendCommitRequestToImplThreadIfNeeded();
}
void ThreadProxy::DidLoseOutputSurfaceOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::DidLoseOutputSurfaceOnImplThread");
CheckOutputSurfaceStatusOnImplThread();
}
void ThreadProxy::CheckOutputSurfaceStatusOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::CheckOutputSurfaceStatusOnImplThread");
if (!layer_tree_host_impl_->IsContextLost())
return;
if (ContextProvider* offscreen_contexts =
layer_tree_host_impl_->offscreen_context_provider())
offscreen_contexts->VerifyContexts();
scheduler_on_impl_thread_->DidLoseOutputSurface();
}
void ThreadProxy::OnSwapBuffersCompleteOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::OnSwapBuffersCompleteOnImplThread");
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::DidCompleteSwapBuffers, main_thread_weak_ptr_));
}
void ThreadProxy::SetNeedsBeginImplFrame(bool enable) {
DCHECK(IsImplThread());
TRACE_EVENT1("cc", "ThreadProxy::SetNeedsBeginImplFrame",
"enable", enable);
layer_tree_host_impl_->SetNeedsBeginImplFrame(enable);
UpdateBackgroundAnimateTicking();
}
void ThreadProxy::BeginImplFrame(const BeginFrameArgs& args) {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::BeginImplFrame");
// Sample the frame time now. This time will be used for updating animations
// when we draw.
layer_tree_host_impl_->CurrentFrameTimeTicks();
scheduler_on_impl_thread_->BeginImplFrame(args);
}
void ThreadProxy::OnCanDrawStateChanged(bool can_draw) {
DCHECK(IsImplThread());
TRACE_EVENT1(
"cc", "ThreadProxy::OnCanDrawStateChanged", "can_draw", can_draw);
scheduler_on_impl_thread_->SetCanDraw(can_draw);
UpdateBackgroundAnimateTicking();
}
void ThreadProxy::NotifyReadyToActivate() {
TRACE_EVENT0("cc", "ThreadProxy::NotifyReadyToActivate");
scheduler_on_impl_thread_->NotifyReadyToActivate();
}
void ThreadProxy::SetNeedsCommitOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsCommitOnImplThread");
scheduler_on_impl_thread_->SetNeedsCommit();
}
void ThreadProxy::PostAnimationEventsToMainThreadOnImplThread(
scoped_ptr<AnimationEventsVector> events,
base::Time wall_clock_time) {
DCHECK(IsImplThread());
TRACE_EVENT0("cc",
"ThreadProxy::PostAnimationEventsToMainThreadOnImplThread");
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetAnimationEvents,
main_thread_weak_ptr_,
base::Passed(&events),
wall_clock_time));
}
bool ThreadProxy::ReduceContentsTextureMemoryOnImplThread(size_t limit_bytes,
int priority_cutoff) {
DCHECK(IsImplThread());
if (!contents_texture_manager_on_impl_thread())
return false;
if (!layer_tree_host_impl_->resource_provider())
return false;
bool reduce_result = contents_texture_manager_on_impl_thread()->
ReduceMemoryOnImplThread(limit_bytes,
priority_cutoff,
layer_tree_host_impl_->resource_provider());
if (!reduce_result)
return false;
// The texture upload queue may reference textures that were just purged,
// clear them from the queue.
if (current_resource_update_controller_on_impl_thread_) {
current_resource_update_controller_on_impl_thread_->
DiscardUploadsToEvictedResources();
}
return true;
}
void ThreadProxy::SendManagedMemoryStats() {
DCHECK(IsImplThread());
if (!layer_tree_host_impl_)
return;
if (!contents_texture_manager_on_impl_thread())
return;
// If we are using impl-side painting, then SendManagedMemoryStats is called
// directly after the tile manager's manage function, and doesn't need to
// interact with main thread's layer tree.
if (layer_tree_host_impl_->settings().impl_side_painting)
return;
layer_tree_host_impl_->SendManagedMemoryStats(
contents_texture_manager_on_impl_thread()->MemoryVisibleBytes(),
contents_texture_manager_on_impl_thread()->
MemoryVisibleAndNearbyBytes(),
contents_texture_manager_on_impl_thread()->MemoryUseBytes());
}
bool ThreadProxy::IsInsideDraw() { return inside_draw_; }
void ThreadProxy::SetNeedsRedraw(gfx::Rect damage_rect) {
DCHECK(IsMainThread());
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsRedraw");
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetNeedsRedrawRectOnImplThread,
impl_thread_weak_ptr_,
damage_rect));
}
void ThreadProxy::SetNextCommitWaitsForActivation() {
DCHECK(IsMainThread());
DCHECK(!inside_commit_);
commit_waits_for_activation_ = true;
}
void ThreadProxy::SetDeferCommits(bool defer_commits) {
DCHECK(IsMainThread());
DCHECK_NE(defer_commits_, defer_commits);
defer_commits_ = defer_commits;
if (defer_commits_)
TRACE_EVENT_ASYNC_BEGIN0("cc", "ThreadProxy::SetDeferCommits", this);
else
TRACE_EVENT_ASYNC_END0("cc", "ThreadProxy::SetDeferCommits", this);
if (!defer_commits_ && pending_deferred_commit_)
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::BeginMainFrame,
main_thread_weak_ptr_,
base::Passed(&pending_deferred_commit_)));
}
bool ThreadProxy::CommitRequested() const {
DCHECK(IsMainThread());
return commit_requested_;
}
bool ThreadProxy::BeginMainFrameRequested() const {
DCHECK(IsMainThread());
return commit_request_sent_to_impl_thread_;
}
void ThreadProxy::SetNeedsRedrawOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::SetNeedsRedrawOnImplThread");
scheduler_on_impl_thread_->SetNeedsRedraw();
}
void ThreadProxy::SetNeedsManageTilesOnImplThread() {
DCHECK(IsImplThread());
scheduler_on_impl_thread_->SetNeedsManageTiles();
}
void ThreadProxy::SetNeedsRedrawRectOnImplThread(gfx::Rect damage_rect) {
DCHECK(IsImplThread());
layer_tree_host_impl_->SetViewportDamage(damage_rect);
SetNeedsRedrawOnImplThread();
}
void ThreadProxy::SetSwapUsedIncompleteTileOnImplThread(
bool used_incomplete_tile) {
DCHECK(IsImplThread());
if (used_incomplete_tile) {
TRACE_EVENT_INSTANT0(
"cc",
"ThreadProxy::SetSwapUsedIncompleteTileOnImplThread",
TRACE_EVENT_SCOPE_THREAD);
}
scheduler_on_impl_thread_->SetSwapUsedIncompleteTile(
used_incomplete_tile);
}
void ThreadProxy::DidInitializeVisibleTileOnImplThread() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::DidInitializeVisibleTileOnImplThread");
scheduler_on_impl_thread_->SetNeedsRedraw();
}
void ThreadProxy::MainThreadHasStoppedFlinging() {
DCHECK(IsMainThread());
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::MainThreadHasStoppedFlingingOnImplThread,
impl_thread_weak_ptr_));
}
void ThreadProxy::MainThreadHasStoppedFlingingOnImplThread() {
DCHECK(IsImplThread());
layer_tree_host_impl_->MainThreadHasStoppedFlinging();
}
void ThreadProxy::NotifyInputThrottledUntilCommit() {
DCHECK(IsMainThread());
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SetInputThrottledUntilCommitOnImplThread,
impl_thread_weak_ptr_,
true));
}
void ThreadProxy::SetInputThrottledUntilCommitOnImplThread(
bool is_throttled) {
DCHECK(IsImplThread());
if (is_throttled == input_throttled_until_commit_)
return;
input_throttled_until_commit_ = is_throttled;
RenewTreePriority();
}
LayerTreeHost* ThreadProxy::layer_tree_host() {
DCHECK(IsMainThread() || IsMainThreadBlocked());
return layer_tree_host_unsafe_;
}
const LayerTreeHost* ThreadProxy::layer_tree_host() const {
DCHECK(IsMainThread() || IsMainThreadBlocked());
return layer_tree_host_unsafe_;
}
PrioritizedResourceManager*
ThreadProxy::contents_texture_manager_on_main_thread() {
DCHECK(IsMainThread() || IsMainThreadBlocked());
return layer_tree_host()->contents_texture_manager();
}
PrioritizedResourceManager*
ThreadProxy::contents_texture_manager_on_impl_thread() {
DCHECK(IsImplThread());
return contents_texture_manager_unsafe_;
}
void ThreadProxy::Start(scoped_ptr<OutputSurface> first_output_surface) {
DCHECK(IsMainThread());
DCHECK(Proxy::HasImplThread());
DCHECK(first_output_surface);
// Create LayerTreeHostImpl.
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::InitializeImplOnImplThread,
base::Unretained(this),
&completion));
completion.Wait();
main_thread_weak_ptr_ = weak_factory_.GetWeakPtr();
first_output_surface_ = first_output_surface.Pass();
started_ = true;
}
void ThreadProxy::Stop() {
TRACE_EVENT0("cc", "ThreadProxy::Stop");
DCHECK(IsMainThread());
DCHECK(started_);
// Synchronously finishes pending GL operations and deletes the impl.
// The two steps are done as separate post tasks, so that tasks posted
// by the GL implementation due to the Finish can be executed by the
// renderer before shutting it down.
{
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::FinishGLOnImplThread,
impl_thread_weak_ptr_,
&completion));
completion.Wait();
}
{
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::LayerTreeHostClosedOnImplThread,
impl_thread_weak_ptr_,
&completion));
completion.Wait();
}
weak_factory_.InvalidateWeakPtrs();
DCHECK(!layer_tree_host_impl_.get()); // verify that the impl deleted.
contents_texture_manager_unsafe_ = NULL;
layer_tree_host_unsafe_ = NULL;
started_ = false;
}
void ThreadProxy::ForceSerializeOnSwapBuffers() {
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::ForceSerializeOnSwapBuffersOnImplThread,
impl_thread_weak_ptr_,
&completion));
completion.Wait();
}
void ThreadProxy::ForceSerializeOnSwapBuffersOnImplThread(
CompletionEvent* completion) {
if (layer_tree_host_impl_->renderer())
layer_tree_host_impl_->renderer()->DoNoOp();
completion->Signal();
}
void ThreadProxy::FinishAllRenderingOnImplThread(CompletionEvent* completion) {
TRACE_EVENT0("cc", "ThreadProxy::FinishAllRenderingOnImplThread");
DCHECK(IsImplThread());
layer_tree_host_impl_->FinishAllRendering();
completion->Signal();
}
void ThreadProxy::ScheduledActionSendBeginMainFrame() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionSendBeginMainFrame");
scoped_ptr<BeginMainFrameAndCommitState> begin_main_frame_state(
new BeginMainFrameAndCommitState);
begin_main_frame_state->monotonic_frame_begin_time =
layer_tree_host_impl_->CurrentPhysicalTimeTicks();
begin_main_frame_state->scroll_info =
layer_tree_host_impl_->ProcessScrollDeltas();
if (!layer_tree_host_impl_->settings().impl_side_painting) {
DCHECK_GT(layer_tree_host_impl_->memory_allocation_limit_bytes(), 0u);
}
begin_main_frame_state->memory_allocation_limit_bytes =
layer_tree_host_impl_->memory_allocation_limit_bytes();
begin_main_frame_state->memory_allocation_priority_cutoff =
layer_tree_host_impl_->memory_allocation_priority_cutoff();
begin_main_frame_state->evicted_ui_resources =
layer_tree_host_impl_->EvictedUIResourcesExist();
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::BeginMainFrame,
main_thread_weak_ptr_,
base::Passed(&begin_main_frame_state)));
if (begin_main_frame_sent_completion_event_on_impl_thread_) {
begin_main_frame_sent_completion_event_on_impl_thread_->Signal();
begin_main_frame_sent_completion_event_on_impl_thread_ = NULL;
}
begin_main_frame_sent_time_ = base::TimeTicks::HighResNow();
}
void ThreadProxy::BeginMainFrame(
scoped_ptr<BeginMainFrameAndCommitState> begin_main_frame_state) {
TRACE_EVENT0("cc", "ThreadProxy::BeginMainFrame");
DCHECK(IsMainThread());
if (!layer_tree_host())
return;
if (defer_commits_) {
pending_deferred_commit_ = begin_main_frame_state.Pass();
layer_tree_host()->DidDeferCommit();
TRACE_EVENT0("cc", "EarlyOut_DeferCommits");
return;
}
// If the commit finishes, LayerTreeHost will transfer its swap promises to
// LayerTreeImpl. The destructor of SwapPromiseChecker checks LayerTressHost's
// swap promises.
SwapPromiseChecker swap_promise_checker(layer_tree_host());
// Do not notify the impl thread of commit requests that occur during
// the apply/animate/layout part of the BeginMainFrameAndCommit process since
// those commit requests will get painted immediately. Once we have done
// the paint, commit_requested_ will be set to false to allow new commit
// requests to be scheduled.
commit_requested_ = true;
commit_request_sent_to_impl_thread_ = true;
// On the other hand, the AnimationRequested flag needs to be cleared
// here so that any animation requests generated by the apply or animate
// callbacks will trigger another frame.
animate_requested_ = false;
if (!in_composite_and_readback_ && !layer_tree_host()->visible()) {
commit_requested_ = false;
commit_request_sent_to_impl_thread_ = false;
TRACE_EVENT0("cc", "EarlyOut_NotVisible");
bool did_handle = false;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::BeginMainFrameAbortedOnImplThread,
impl_thread_weak_ptr_,
did_handle));
return;
}
if (begin_main_frame_state) {
layer_tree_host()->ApplyScrollAndScale(
*begin_main_frame_state->scroll_info);
}
layer_tree_host()->WillBeginMainFrame();
if (begin_main_frame_state) {
layer_tree_host()->UpdateClientAnimations(
begin_main_frame_state->monotonic_frame_begin_time);
layer_tree_host()->AnimateLayers(
begin_main_frame_state->monotonic_frame_begin_time);
}
// Unlink any backings that the impl thread has evicted, so that we know to
// re-paint them in UpdateLayers.
if (contents_texture_manager_on_main_thread()) {
contents_texture_manager_on_main_thread()->
UnlinkAndClearEvictedBackings();
if (begin_main_frame_state) {
contents_texture_manager_on_main_thread()->SetMaxMemoryLimitBytes(
begin_main_frame_state->memory_allocation_limit_bytes);
contents_texture_manager_on_main_thread()->SetExternalPriorityCutoff(
begin_main_frame_state->memory_allocation_priority_cutoff);
}
}
// Recreate all UI resources if there were evicted UI resources when the impl
// thread initiated the commit.
bool evicted_ui_resources = begin_main_frame_state
? begin_main_frame_state->evicted_ui_resources
: false;
if (evicted_ui_resources)
layer_tree_host()->RecreateUIResources();
layer_tree_host()->Layout();
// Clear the commit flag after updating animations and layout here --- objects
// that only layout when painted will trigger another SetNeedsCommit inside
// UpdateLayers.
commit_requested_ = false;
commit_request_sent_to_impl_thread_ = false;
bool can_cancel_this_commit =
can_cancel_commit_ &&
!in_composite_and_readback_ &&
!evicted_ui_resources;
can_cancel_commit_ = true;
scoped_ptr<ResourceUpdateQueue> queue =
make_scoped_ptr(new ResourceUpdateQueue);
bool updated = layer_tree_host()->UpdateLayers(queue.get());
// Once single buffered layers are committed, they cannot be modified until
// they are drawn by the impl thread.
textures_acquired_ = false;
layer_tree_host()->WillCommit();
if (!updated && can_cancel_this_commit) {
TRACE_EVENT0("cc", "EarlyOut_NoUpdates");
bool did_handle = true;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::BeginMainFrameAbortedOnImplThread,
impl_thread_weak_ptr_,
did_handle));
// Although the commit is internally aborted, this is because it has been
// detected to be a no-op. From the perspective of an embedder, this commit
// went through, and input should no longer be throttled, etc.
layer_tree_host()->CommitComplete();
layer_tree_host()->DidBeginMainFrame();
return;
}
// Before calling animate, we set animate_requested_ to false. If it is true
// now, it means SetNeedAnimate was called again, but during a state when
// commit_request_sent_to_impl_thread_ = true. We need to force that call to
// happen again now so that the commit request is sent to the impl thread.
if (animate_requested_) {
// Forces SetNeedsAnimate to consider posting a commit task.
animate_requested_ = false;
SetNeedsAnimate();
}
scoped_refptr<ContextProvider> offscreen_context_provider;
if (renderer_capabilities_main_thread_copy_.using_offscreen_context3d &&
layer_tree_host()->needs_offscreen_context()) {
offscreen_context_provider =
layer_tree_host()->client()->OffscreenContextProvider();
if (offscreen_context_provider.get())
created_offscreen_context_provider_ = true;
}
// Notify the impl thread that the main thread is ready to commit. This will
// begin the commit process, which is blocking from the main thread's
// point of view, but asynchronously performed on the impl thread,
// coordinated by the Scheduler.
{
TRACE_EVENT0("cc", "ThreadProxy::BeginMainFrame::commit");
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
// This CapturePostTasks should be destroyed before CommitComplete() is
// called since that goes out to the embedder, and we want the embedder
// to receive its callbacks before that.
BlockingTaskRunner::CapturePostTasks blocked;
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::StartCommitOnImplThread,
impl_thread_weak_ptr_,
&completion,
queue.release(),
offscreen_context_provider));
completion.Wait();
RenderingStatsInstrumentation* stats_instrumentation =
layer_tree_host()->rendering_stats_instrumentation();
BenchmarkInstrumentation::IssueMainThreadRenderingStatsEvent(
stats_instrumentation->main_thread_rendering_stats());
stats_instrumentation->AccumulateAndClearMainThreadStats();
}
layer_tree_host()->CommitComplete();
layer_tree_host()->DidBeginMainFrame();
}
void ThreadProxy::StartCommitOnImplThread(
CompletionEvent* completion,
ResourceUpdateQueue* raw_queue,
scoped_refptr<ContextProvider> offscreen_context_provider) {
scoped_ptr<ResourceUpdateQueue> queue(raw_queue);
TRACE_EVENT0("cc", "ThreadProxy::StartCommitOnImplThread");
DCHECK(!commit_completion_event_on_impl_thread_);
DCHECK(IsImplThread() && IsMainThreadBlocked());
DCHECK(scheduler_on_impl_thread_);
DCHECK(scheduler_on_impl_thread_->CommitPending());
if (!layer_tree_host_impl_) {
TRACE_EVENT0("cc", "EarlyOut_NoLayerTree");
completion->Signal();
return;
}
if (offscreen_context_provider.get())
offscreen_context_provider->BindToCurrentThread();
layer_tree_host_impl_->SetOffscreenContextProvider(
offscreen_context_provider);
if (contents_texture_manager_unsafe_) {
DCHECK_EQ(contents_texture_manager_unsafe_,
contents_texture_manager_on_main_thread());
} else {
// Cache this pointer that was created on the main thread side to avoid a
// data race between creating it and using it on the compositor thread.
contents_texture_manager_unsafe_ =
contents_texture_manager_on_main_thread();
}
if (contents_texture_manager_on_main_thread()) {
if (contents_texture_manager_on_main_thread()->
LinkedEvictedBackingsExist()) {
// Clear any uploads we were making to textures linked to evicted
// resources
queue->ClearUploadsToEvictedResources();
// Some textures in the layer tree are invalid. Kick off another commit
// to fill them again.
SetNeedsCommitOnImplThread();
}
contents_texture_manager_on_main_thread()->
PushTexturePrioritiesToBackings();
}
commit_completion_event_on_impl_thread_ = completion;
current_resource_update_controller_on_impl_thread_ =
ResourceUpdateController::Create(
this,
Proxy::ImplThreadTaskRunner(),
queue.Pass(),
layer_tree_host_impl_->resource_provider());
current_resource_update_controller_on_impl_thread_->PerformMoreUpdates(
scheduler_on_impl_thread_->AnticipatedDrawTime());
}
void ThreadProxy::BeginMainFrameAbortedOnImplThread(bool did_handle) {
TRACE_EVENT0("cc", "ThreadProxy::BeginMainFrameAbortedOnImplThread");
DCHECK(IsImplThread());
DCHECK(scheduler_on_impl_thread_);
DCHECK(scheduler_on_impl_thread_->CommitPending());
DCHECK(!layer_tree_host_impl_->pending_tree());
if (did_handle)
SetInputThrottledUntilCommitOnImplThread(false);
layer_tree_host_impl_->BeginMainFrameAborted(did_handle);
scheduler_on_impl_thread_->BeginMainFrameAborted(did_handle);
}
void ThreadProxy::ScheduledActionCommit() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionCommit");
DCHECK(IsImplThread());
DCHECK(commit_completion_event_on_impl_thread_);
DCHECK(current_resource_update_controller_on_impl_thread_);
// Complete all remaining texture updates.
current_resource_update_controller_on_impl_thread_->Finalize();
current_resource_update_controller_on_impl_thread_.reset();
inside_commit_ = true;
layer_tree_host_impl_->BeginCommit();
layer_tree_host()->BeginCommitOnImplThread(layer_tree_host_impl_.get());
layer_tree_host()->FinishCommitOnImplThread(layer_tree_host_impl_.get());
layer_tree_host_impl_->CommitComplete();
inside_commit_ = false;
SetInputThrottledUntilCommitOnImplThread(false);
UpdateBackgroundAnimateTicking();
next_frame_is_newly_committed_frame_on_impl_thread_ = true;
if (layer_tree_host()->settings().impl_side_painting &&
commit_waits_for_activation_) {
// For some layer types in impl-side painting, the commit is held until
// the pending tree is activated. It's also possible that the
// pending tree has already activated if there was no work to be done.
TRACE_EVENT_INSTANT0("cc", "HoldCommit", TRACE_EVENT_SCOPE_THREAD);
completion_event_for_commit_held_on_tree_activation_ =
commit_completion_event_on_impl_thread_;
commit_completion_event_on_impl_thread_ = NULL;
} else {
commit_completion_event_on_impl_thread_->Signal();
commit_completion_event_on_impl_thread_ = NULL;
}
commit_waits_for_activation_ = false;
commit_complete_time_ = base::TimeTicks::HighResNow();
begin_main_frame_to_commit_duration_history_.InsertSample(
commit_complete_time_ - begin_main_frame_sent_time_);
// SetVisible kicks off the next scheduler action, so this must be last.
scheduler_on_impl_thread_->SetVisible(layer_tree_host_impl_->visible());
}
void ThreadProxy::ScheduledActionUpdateVisibleTiles() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionUpdateVisibleTiles");
layer_tree_host_impl_->UpdateVisibleTiles();
}
void ThreadProxy::ScheduledActionActivatePendingTree() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionActivatePendingTree");
layer_tree_host_impl_->ActivatePendingTree();
}
void ThreadProxy::ScheduledActionBeginOutputSurfaceCreation() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionBeginOutputSurfaceCreation");
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::CreateAndInitializeOutputSurface,
main_thread_weak_ptr_));
}
DrawSwapReadbackResult ThreadProxy::DrawSwapReadbackInternal(
bool forced_draw,
bool swap_requested,
bool readback_requested) {
DrawSwapReadbackResult result;
result.did_draw = false;
result.did_swap = false;
result.did_readback = false;
DCHECK(IsImplThread());
DCHECK(layer_tree_host_impl_.get());
if (!layer_tree_host_impl_)
return result;
DCHECK(layer_tree_host_impl_->renderer());
if (!layer_tree_host_impl_->renderer())
return result;
base::TimeTicks start_time = base::TimeTicks::HighResNow();
base::TimeDelta draw_duration_estimate = DrawDurationEstimate();
base::AutoReset<bool> mark_inside(&inside_draw_, true);
// Advance our animations.
base::TimeTicks monotonic_time =
layer_tree_host_impl_->CurrentFrameTimeTicks();
base::Time wall_clock_time = layer_tree_host_impl_->CurrentFrameTime();
// TODO(enne): This should probably happen post-animate.
if (layer_tree_host_impl_->pending_tree())
layer_tree_host_impl_->pending_tree()->UpdateDrawProperties();
layer_tree_host_impl_->Animate(monotonic_time, wall_clock_time);
// This method is called on a forced draw, regardless of whether we are able
// to produce a frame, as the calling site on main thread is blocked until its
// request completes, and we signal completion here. If CanDraw() is false, we
// will indicate success=false to the caller, but we must still signal
// completion to avoid deadlock.
// We guard PrepareToDraw() with CanDraw() because it always returns a valid
// frame, so can only be used when such a frame is possible. Since
// DrawLayers() depends on the result of PrepareToDraw(), it is guarded on
// CanDraw() as well.
bool drawing_for_readback =
readback_requested && !!readback_request_on_impl_thread_;
bool can_do_readback = layer_tree_host_impl_->renderer()->CanReadPixels();
LayerTreeHostImpl::FrameData frame;
bool draw_frame = false;
if (layer_tree_host_impl_->CanDraw() &&
(!drawing_for_readback || can_do_readback)) {
// If it is for a readback, make sure we draw the portion being read back.
gfx::Rect readback_rect;
if (drawing_for_readback)
readback_rect = readback_request_on_impl_thread_->rect;
if (layer_tree_host_impl_->PrepareToDraw(&frame, readback_rect) ||
forced_draw)
draw_frame = true;
}
if (draw_frame) {
layer_tree_host_impl_->DrawLayers(
&frame,
scheduler_on_impl_thread_->LastBeginImplFrameTime());
result.did_draw = true;
}
layer_tree_host_impl_->DidDrawAllLayers(frame);
bool start_ready_animations = draw_frame;
layer_tree_host_impl_->UpdateAnimationState(start_ready_animations);
// Check for a pending CompositeAndReadback.
if (drawing_for_readback) {
DCHECK(!swap_requested);
result.did_readback = false;
if (draw_frame && !layer_tree_host_impl_->IsContextLost()) {
layer_tree_host_impl_->Readback(readback_request_on_impl_thread_->pixels,
readback_request_on_impl_thread_->rect);
result.did_readback = true;
}
readback_request_on_impl_thread_->success = result.did_readback;
readback_request_on_impl_thread_->completion.Signal();
readback_request_on_impl_thread_ = NULL;
} else if (draw_frame) {
DCHECK(swap_requested);
result.did_swap = layer_tree_host_impl_->SwapBuffers(frame);
// We don't know if we have incomplete tiles if we didn't actually swap.
if (result.did_swap) {
DCHECK(!frame.has_no_damage);
SetSwapUsedIncompleteTileOnImplThread(frame.contains_incomplete_tile);
}
}
// Tell the main thread that the the newly-commited frame was drawn.
if (next_frame_is_newly_committed_frame_on_impl_thread_) {
next_frame_is_newly_committed_frame_on_impl_thread_ = false;
Proxy::MainThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::DidCommitAndDrawFrame, main_thread_weak_ptr_));
}
if (draw_frame) {
CheckOutputSurfaceStatusOnImplThread();
base::TimeDelta draw_duration = base::TimeTicks::HighResNow() - start_time;
draw_duration_history_.InsertSample(draw_duration);
base::TimeDelta draw_duration_overestimate;
base::TimeDelta draw_duration_underestimate;
if (draw_duration > draw_duration_estimate)
draw_duration_underestimate = draw_duration - draw_duration_estimate;
else
draw_duration_overestimate = draw_duration_estimate - draw_duration;
UMA_HISTOGRAM_CUSTOM_TIMES("Renderer.DrawDuration",
draw_duration,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMilliseconds(100),
50);
UMA_HISTOGRAM_CUSTOM_TIMES("Renderer.DrawDurationUnderestimate",
draw_duration_underestimate,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMilliseconds(100),
50);
UMA_HISTOGRAM_CUSTOM_TIMES("Renderer.DrawDurationOverestimate",
draw_duration_overestimate,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMilliseconds(100),
50);
}
return result;
}
void ThreadProxy::AcquireLayerTextures() {
// Called when the main thread needs to modify a layer texture that is used
// directly by the compositor.
// This method will block until the next compositor draw if there is a
// previously committed frame that is still undrawn. This is necessary to
// ensure that the main thread does not monopolize access to the textures.
DCHECK(IsMainThread());
if (textures_acquired_)
return;
TRACE_EVENT0("cc", "ThreadProxy::AcquireLayerTextures");
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::AcquireLayerTexturesForMainThreadOnImplThread,
impl_thread_weak_ptr_,
&completion));
// Block until it is safe to write to layer textures from the main thread.
completion.Wait();
textures_acquired_ = true;
can_cancel_commit_ = false;
}
void ThreadProxy::AcquireLayerTexturesForMainThreadOnImplThread(
CompletionEvent* completion) {
DCHECK(IsImplThread());
DCHECK(!texture_acquisition_completion_event_on_impl_thread_);
texture_acquisition_completion_event_on_impl_thread_ = completion;
scheduler_on_impl_thread_->SetMainThreadNeedsLayerTextures();
}
void ThreadProxy::ScheduledActionAcquireLayerTexturesForMainThread() {
DCHECK(texture_acquisition_completion_event_on_impl_thread_);
texture_acquisition_completion_event_on_impl_thread_->Signal();
texture_acquisition_completion_event_on_impl_thread_ = NULL;
}
void ThreadProxy::ScheduledActionManageTiles() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionManageTiles");
DCHECK(layer_tree_host_impl_->settings().impl_side_painting);
layer_tree_host_impl_->ManageTiles();
}
DrawSwapReadbackResult ThreadProxy::ScheduledActionDrawAndSwapIfPossible() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionDrawAndSwap");
bool forced_draw = false;
bool swap_requested = true;
bool readback_requested = false;
return DrawSwapReadbackInternal(
forced_draw, swap_requested, readback_requested);
}
DrawSwapReadbackResult ThreadProxy::ScheduledActionDrawAndSwapForced() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionDrawAndSwapForced");
bool forced_draw = true;
bool swap_requested = true;
bool readback_requested = false;
return DrawSwapReadbackInternal(
forced_draw, swap_requested, readback_requested);
}
DrawSwapReadbackResult ThreadProxy::ScheduledActionDrawAndReadback() {
TRACE_EVENT0("cc", "ThreadProxy::ScheduledActionDrawAndReadback");
bool forced_draw = true;
bool swap_requested = false;
bool readback_requested = true;
return DrawSwapReadbackInternal(
forced_draw, swap_requested, readback_requested);
}
void ThreadProxy::DidAnticipatedDrawTimeChange(base::TimeTicks time) {
if (current_resource_update_controller_on_impl_thread_)
current_resource_update_controller_on_impl_thread_->PerformMoreUpdates(
time);
}
base::TimeDelta ThreadProxy::DrawDurationEstimate() {
base::TimeDelta historical_estimate =
draw_duration_history_.Percentile(kDrawDurationEstimationPercentile);
base::TimeDelta padding = base::TimeDelta::FromMicroseconds(
kDrawDurationEstimatePaddingInMicroseconds);
return historical_estimate + padding;
}
base::TimeDelta ThreadProxy::BeginMainFrameToCommitDurationEstimate() {
return begin_main_frame_to_commit_duration_history_.Percentile(
kCommitAndActivationDurationEstimationPercentile);
}
base::TimeDelta ThreadProxy::CommitToActivateDurationEstimate() {
return commit_to_activate_duration_history_.Percentile(
kCommitAndActivationDurationEstimationPercentile);
}
void ThreadProxy::PostBeginImplFrameDeadline(const base::Closure& closure,
base::TimeTicks deadline) {
base::TimeDelta delta = deadline - gfx::FrameTime::Now();
if (delta <= base::TimeDelta())
delta = base::TimeDelta();
Proxy::ImplThreadTaskRunner()->PostDelayedTask(FROM_HERE, closure, delta);
}
void ThreadProxy::DidBeginImplFrameDeadline() {
layer_tree_host_impl_->ResetCurrentFrameTimeForNextFrame();
}
void ThreadProxy::ReadyToFinalizeTextureUpdates() {
DCHECK(IsImplThread());
scheduler_on_impl_thread_->FinishCommit();
}
void ThreadProxy::DidCommitAndDrawFrame() {
DCHECK(IsMainThread());
if (!layer_tree_host())
return;
layer_tree_host()->DidCommitAndDrawFrame();
}
void ThreadProxy::DidCompleteSwapBuffers() {
DCHECK(IsMainThread());
if (!layer_tree_host())
return;
layer_tree_host()->DidCompleteSwapBuffers();
}
void ThreadProxy::SetAnimationEvents(scoped_ptr<AnimationEventsVector> events,
base::Time wall_clock_time) {
TRACE_EVENT0("cc", "ThreadProxy::SetAnimationEvents");
DCHECK(IsMainThread());
if (!layer_tree_host())
return;
layer_tree_host()->SetAnimationEvents(events.Pass(), wall_clock_time);
}
void ThreadProxy::CreateAndInitializeOutputSurface() {
TRACE_EVENT0("cc", "ThreadProxy::CreateAndInitializeOutputSurface");
DCHECK(IsMainThread());
// Check that output surface has not been recreated by CompositeAndReadback
// after this task is posted but before it is run.
bool has_initialized_output_surface_on_impl_thread = true;
{
CompletionEvent completion;
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::HasInitializedOutputSurfaceOnImplThread,
impl_thread_weak_ptr_,
&completion,
&has_initialized_output_surface_on_impl_thread));
completion.Wait();
}
if (has_initialized_output_surface_on_impl_thread)
return;
layer_tree_host()->DidLoseOutputSurface();
output_surface_creation_callback_.Reset(base::Bind(
&ThreadProxy::DoCreateAndInitializeOutputSurface,
base::Unretained(this)));
output_surface_creation_callback_.callback().Run();
}
void ThreadProxy::HasInitializedOutputSurfaceOnImplThread(
CompletionEvent* completion,
bool* has_initialized_output_surface) {
DCHECK(IsImplThread());
*has_initialized_output_surface =
scheduler_on_impl_thread_->HasInitializedOutputSurface();
completion->Signal();
}
void ThreadProxy::InitializeImplOnImplThread(CompletionEvent* completion) {
TRACE_EVENT0("cc", "ThreadProxy::InitializeImplOnImplThread");
DCHECK(IsImplThread());
layer_tree_host_impl_ = layer_tree_host()->CreateLayerTreeHostImpl(this);
const LayerTreeSettings& settings = layer_tree_host()->settings();
SchedulerSettings scheduler_settings;
scheduler_settings.deadline_scheduling_enabled =
settings.deadline_scheduling_enabled;
scheduler_settings.impl_side_painting = settings.impl_side_painting;
scheduler_settings.timeout_and_draw_when_animation_checkerboards =
settings.timeout_and_draw_when_animation_checkerboards;
scheduler_settings.maximum_number_of_failed_draws_before_draw_is_forced_ =
settings.maximum_number_of_failed_draws_before_draw_is_forced_;
scheduler_settings.using_synchronous_renderer_compositor =
settings.using_synchronous_renderer_compositor;
scheduler_settings.throttle_frame_production =
settings.throttle_frame_production;
scheduler_on_impl_thread_ = Scheduler::Create(this, scheduler_settings,
layer_tree_host_id_);
scheduler_on_impl_thread_->SetVisible(layer_tree_host_impl_->visible());
impl_thread_weak_ptr_ = weak_factory_on_impl_thread_.GetWeakPtr();
completion->Signal();
}
void ThreadProxy::InitializeOutputSurfaceOnImplThread(
CompletionEvent* completion,
scoped_ptr<OutputSurface> output_surface,
scoped_refptr<ContextProvider> offscreen_context_provider,
bool* success,
RendererCapabilities* capabilities) {
TRACE_EVENT0("cc", "ThreadProxy::InitializeOutputSurfaceOnImplThread");
DCHECK(IsImplThread());
DCHECK(IsMainThreadBlocked());
DCHECK(success);
DCHECK(capabilities);
layer_tree_host()->DeleteContentsTexturesOnImplThread(
layer_tree_host_impl_->resource_provider());
*success = layer_tree_host_impl_->InitializeRenderer(output_surface.Pass());
if (*success) {
*capabilities = layer_tree_host_impl_->GetRendererCapabilities();
scheduler_on_impl_thread_->DidCreateAndInitializeOutputSurface();
} else if (offscreen_context_provider.get()) {
if (offscreen_context_provider->BindToCurrentThread())
offscreen_context_provider->VerifyContexts();
offscreen_context_provider = NULL;
}
layer_tree_host_impl_->SetOffscreenContextProvider(
offscreen_context_provider);
completion->Signal();
}
void ThreadProxy::FinishGLOnImplThread(CompletionEvent* completion) {
TRACE_EVENT0("cc", "ThreadProxy::FinishGLOnImplThread");
DCHECK(IsImplThread());
if (layer_tree_host_impl_->resource_provider())
layer_tree_host_impl_->resource_provider()->Finish();
completion->Signal();
}
void ThreadProxy::LayerTreeHostClosedOnImplThread(CompletionEvent* completion) {
TRACE_EVENT0("cc", "ThreadProxy::LayerTreeHostClosedOnImplThread");
DCHECK(IsImplThread());
layer_tree_host()->DeleteContentsTexturesOnImplThread(
layer_tree_host_impl_->resource_provider());
current_resource_update_controller_on_impl_thread_.reset();
layer_tree_host_impl_->SetNeedsBeginImplFrame(false);
scheduler_on_impl_thread_.reset();
layer_tree_host_impl_.reset();
weak_factory_on_impl_thread_.InvalidateWeakPtrs();
completion->Signal();
}
size_t ThreadProxy::MaxPartialTextureUpdates() const {
return ResourceUpdateController::MaxPartialTextureUpdates();
}
ThreadProxy::BeginMainFrameAndCommitState::BeginMainFrameAndCommitState()
: memory_allocation_limit_bytes(0),
memory_allocation_priority_cutoff(0),
evicted_ui_resources(false) {}
ThreadProxy::BeginMainFrameAndCommitState::~BeginMainFrameAndCommitState() {}
scoped_ptr<base::Value> ThreadProxy::AsValue() const {
scoped_ptr<base::DictionaryValue> state(new base::DictionaryValue());
CompletionEvent completion;
{
DebugScopedSetMainThreadBlocked main_thread_blocked(
const_cast<ThreadProxy*>(this));
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::AsValueOnImplThread,
impl_thread_weak_ptr_,
&completion,
state.get()));
completion.Wait();
}
return state.PassAs<base::Value>();
}
void ThreadProxy::AsValueOnImplThread(CompletionEvent* completion,
base::DictionaryValue* state) const {
state->Set("layer_tree_host_impl",
layer_tree_host_impl_->AsValue().release());
completion->Signal();
}
bool ThreadProxy::CommitPendingForTesting() {
DCHECK(IsMainThread());
CommitPendingRequest commit_pending_request;
{
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::CommitPendingOnImplThreadForTesting,
impl_thread_weak_ptr_,
&commit_pending_request));
commit_pending_request.completion.Wait();
}
return commit_pending_request.commit_pending;
}
void ThreadProxy::CommitPendingOnImplThreadForTesting(
CommitPendingRequest* request) {
DCHECK(IsImplThread());
if (layer_tree_host_impl_->output_surface())
request->commit_pending = scheduler_on_impl_thread_->CommitPending();
else
request->commit_pending = false;
request->completion.Signal();
}
scoped_ptr<base::Value> ThreadProxy::SchedulerStateAsValueForTesting() {
if (IsImplThread())
return scheduler_on_impl_thread_->StateAsValue().Pass();
SchedulerStateRequest scheduler_state_request;
{
DebugScopedSetMainThreadBlocked main_thread_blocked(this);
Proxy::ImplThreadTaskRunner()->PostTask(
FROM_HERE,
base::Bind(&ThreadProxy::SchedulerStateAsValueOnImplThreadForTesting,
impl_thread_weak_ptr_,
&scheduler_state_request));
scheduler_state_request.completion.Wait();
}
return scheduler_state_request.state.Pass();
}
void ThreadProxy::SchedulerStateAsValueOnImplThreadForTesting(
SchedulerStateRequest* request) {
DCHECK(IsImplThread());
request->state = scheduler_on_impl_thread_->StateAsValue();
request->completion.Signal();
}
void ThreadProxy::RenewTreePriority() {
DCHECK(IsImplThread());
bool smoothness_takes_priority =
layer_tree_host_impl_->pinch_gesture_active() ||
layer_tree_host_impl_->IsCurrentlyScrolling() ||
layer_tree_host_impl_->page_scale_animation_active();
base::TimeTicks now = layer_tree_host_impl_->CurrentPhysicalTimeTicks();
// Update expiration time if smoothness currently takes priority.
if (smoothness_takes_priority) {
smoothness_takes_priority_expiration_time_ =
now + base::TimeDelta::FromMilliseconds(
kSmoothnessTakesPriorityExpirationDelay * 1000);
}
// We use the same priority for both trees by default.
TreePriority priority = SAME_PRIORITY_FOR_BOTH_TREES;
// Smoothness takes priority if expiration time is in the future.
if (smoothness_takes_priority_expiration_time_ > now)
priority = SMOOTHNESS_TAKES_PRIORITY;
// New content always takes priority when the active tree has
// evicted resources or there is an invalid viewport size.
if (layer_tree_host_impl_->active_tree()->ContentsTexturesPurged() ||
layer_tree_host_impl_->active_tree()->ViewportSizeInvalid() ||
layer_tree_host_impl_->EvictedUIResourcesExist() ||
input_throttled_until_commit_)
priority = NEW_CONTENT_TAKES_PRIORITY;
layer_tree_host_impl_->SetTreePriority(priority);
scheduler_on_impl_thread_->SetSmoothnessTakesPriority(
priority == SMOOTHNESS_TAKES_PRIORITY);
// Notify the the client of this compositor via the output surface.
// TODO(epenner): Route this to compositor-thread instead of output-surface
// after GTFO refactor of compositor-thread (http://crbug/170828).
if (layer_tree_host_impl_->output_surface()) {
layer_tree_host_impl_->output_surface()->
UpdateSmoothnessTakesPriority(priority == SMOOTHNESS_TAKES_PRIORITY);
}
base::TimeDelta delay = smoothness_takes_priority_expiration_time_ - now;
// Need to make sure a delayed task is posted when we have smoothness
// takes priority expiration time in the future.
if (delay <= base::TimeDelta())
return;
if (renew_tree_priority_on_impl_thread_pending_)
return;
Proxy::ImplThreadTaskRunner()->PostDelayedTask(
FROM_HERE,
base::Bind(&ThreadProxy::RenewTreePriorityOnImplThread,
weak_factory_on_impl_thread_.GetWeakPtr()),
delay);
renew_tree_priority_on_impl_thread_pending_ = true;
}
void ThreadProxy::RenewTreePriorityOnImplThread() {
DCHECK(renew_tree_priority_on_impl_thread_pending_);
renew_tree_priority_on_impl_thread_pending_ = false;
RenewTreePriority();
}
void ThreadProxy::RequestScrollbarAnimationOnImplThread(base::TimeDelta delay) {
Proxy::ImplThreadTaskRunner()->PostDelayedTask(
FROM_HERE,
base::Bind(&ThreadProxy::StartScrollbarAnimationOnImplThread,
impl_thread_weak_ptr_),
delay);
}
void ThreadProxy::StartScrollbarAnimationOnImplThread() {
layer_tree_host_impl_->StartScrollbarAnimation();
}
void ThreadProxy::DidActivatePendingTree() {
DCHECK(IsImplThread());
TRACE_EVENT0("cc", "ThreadProxy::DidActivatePendingTreeOnImplThread");
if (completion_event_for_commit_held_on_tree_activation_ &&
!layer_tree_host_impl_->pending_tree()) {
TRACE_EVENT_INSTANT0("cc", "ReleaseCommitbyActivation",
TRACE_EVENT_SCOPE_THREAD);
DCHECK(layer_tree_host_impl_->settings().impl_side_painting);
completion_event_for_commit_held_on_tree_activation_->Signal();
completion_event_for_commit_held_on_tree_activation_ = NULL;
}
UpdateBackgroundAnimateTicking();
commit_to_activate_duration_history_.InsertSample(
base::TimeTicks::HighResNow() - commit_complete_time_);
}
void ThreadProxy::DidManageTiles() {
DCHECK(IsImplThread());
scheduler_on_impl_thread_->DidManageTiles();
}
} // namespace cc