chromium/src/third_party/blink/renderer/modules/video_rvfc/video_frame_callback_requester_impl.cc - manifest_repos/chromium_src - Git at Google

 // Copyright 2019 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 "third_party/blink/renderer/modules/video_rvfc/video_frame_callback_requester_impl.h"

 #include <memory>
 #include <utility>

 #include "base/trace_event/trace_event.h"
 #include "third_party/blink/renderer/bindings/modules/v8/v8_video_frame_metadata.h"
 #include "third_party/blink/renderer/core/dom/document.h"
 #include "third_party/blink/renderer/core/dom/scripted_animation_controller.h"
 #include "third_party/blink/renderer/core/execution_context/execution_context.h"
 #include "third_party/blink/renderer/core/loader/document_loader.h"
 #include "third_party/blink/renderer/core/timing/performance.h"
 #include "third_party/blink/renderer/core/timing/time_clamper.h"
 #include "third_party/blink/renderer/modules/video_rvfc/video_frame_request_callback_collection.h"
 #include "third_party/blink/renderer/modules/xr/xr_frame_provider.h"
 #include "third_party/blink/renderer/modules/xr/xr_session.h"
 #include "third_party/blink/renderer/modules/xr/xr_system.h"
 #include "third_party/blink/renderer/platform/wtf/functional.h"

 namespace blink {

 namespace {
 // Returns whether or not a video's frame rate is close to the browser's frame
 // rate, as measured by their rendering intervals. For example, on a 60hz
 // screen, this should return false for a 25fps video and true for a 60fps
 // video. On a 144hz screen, both videos would return false.
 static bool IsFrameRateRelativelyHigh(base::TimeDelta rendering_interval,
                                       base::TimeDelta average_frame_duration) {
   if (average_frame_duration.is_zero())
     return false;

   constexpr double kThreshold = 0.05;
   return kThreshold >
          std::abs(1.0 - (rendering_interval / average_frame_duration));
 }

 }  // namespace

 VideoFrameCallbackRequesterImpl::VideoFrameCallbackRequesterImpl(
     HTMLVideoElement& element)
     : VideoFrameCallbackRequester(element),
       callback_collection_(
           MakeGarbageCollected<VideoFrameRequestCallbackCollection>(
               element.GetExecutionContext())) {}

 VideoFrameCallbackRequesterImpl::~VideoFrameCallbackRequesterImpl() = default;

 // static
 VideoFrameCallbackRequesterImpl& VideoFrameCallbackRequesterImpl::From(
     HTMLVideoElement& element) {
   VideoFrameCallbackRequesterImpl* supplement =
       Supplement<HTMLVideoElement>::From<VideoFrameCallbackRequesterImpl>(
           element);
   if (!supplement) {
     supplement = MakeGarbageCollected<VideoFrameCallbackRequesterImpl>(element);
     Supplement<HTMLVideoElement>::ProvideTo(element, supplement);
   }

   return *supplement;
 }

 // static
 int VideoFrameCallbackRequesterImpl::requestVideoFrameCallback(
     HTMLVideoElement& element,
     V8VideoFrameRequestCallback* callback) {
   return VideoFrameCallbackRequesterImpl::From(element)
       .requestVideoFrameCallback(callback);
 }

 // static
 void VideoFrameCallbackRequesterImpl::cancelVideoFrameCallback(
     HTMLVideoElement& element,
     int callback_id) {
   VideoFrameCallbackRequesterImpl::From(element).cancelVideoFrameCallback(
       callback_id);
 }

 void VideoFrameCallbackRequesterImpl::OnWebMediaPlayerCreated() {
   DCHECK(RuntimeEnabledFeatures::RequestVideoFrameCallbackEnabled());
   if (!callback_collection_->IsEmpty())
     GetSupplementable()->GetWebMediaPlayer()->RequestVideoFrameCallback();
 }

 void VideoFrameCallbackRequesterImpl::OnWebMediaPlayerCleared() {
   // Clear existing issued weak pointers from the factory, so that
   // pending ScheduleVideoFrameCallbacksExecution are cancelled.
   weak_factory_.InvalidateWeakPtrs();
 }

 void VideoFrameCallbackRequesterImpl::ScheduleWindowRaf() {
   GetSupplementable()
       ->GetDocument()
       .GetScriptedAnimationController()
       .ScheduleVideoFrameCallbacksExecution(
           WTF::Bind(&VideoFrameCallbackRequesterImpl::OnExecution,
                     weak_factory_.GetWeakPtr()));
 }

 void VideoFrameCallbackRequesterImpl::ScheduleExecution() {
   TRACE_EVENT1("blink", "VideoFrameCallbackRequesterImpl::ScheduleExecution",
                "did_schedule", !pending_execution_);

   if (pending_execution_)
     return;

   pending_execution_ = true;

   if (TryScheduleImmersiveXRSessionRaf())
     return;

   ScheduleWindowRaf();
 }

 void VideoFrameCallbackRequesterImpl::OnImmersiveSessionStart() {
   in_immersive_session_ = true;

   if (pending_execution_ && !callback_collection_->IsEmpty())
     TryScheduleImmersiveXRSessionRaf();
 }

 void VideoFrameCallbackRequesterImpl::OnImmersiveSessionEnd() {
   in_immersive_session_ = false;

   if (pending_execution_ && !callback_collection_->IsEmpty())
     ScheduleWindowRaf();
 }

 void VideoFrameCallbackRequesterImpl::OnImmersiveFrame() {
   if (callback_collection_->IsEmpty())
     return;

   if (auto* player = GetSupplementable()->GetWebMediaPlayer())
     player->UpdateFrameIfStale();
 }

 XRFrameProvider* VideoFrameCallbackRequesterImpl::GetXRFrameProvider() {
   // Do not force the lazy creation of the XRSystem.
   // If it doesn't exist already exist, the webpage isn't using XR.
   auto* system = XRSystem::FromIfExists(GetSupplementable()->GetDocument());
   return system ? system->frameProvider() : nullptr;
 }

 bool VideoFrameCallbackRequesterImpl::TryScheduleImmersiveXRSessionRaf() {
   // Nothing to do here, we will be notified via OnImmersiveSessionStart() when
   // a new immersive session starts.
   if (observing_immersive_session_ && !in_immersive_session_)
     return false;

   auto* frame_provider = GetXRFrameProvider();

   if (!frame_provider)
     return false;

   if (!observing_immersive_session_) {
     frame_provider->AddImmersiveSessionObserver(this);
     observing_immersive_session_ = true;
   }

   XRSession* session = frame_provider->immersive_session();

   in_immersive_session_ = session && !session->ended();

   if (!in_immersive_session_)
     return false;

   session->ScheduleVideoFrameCallbacksExecution(
       WTF::Bind(&VideoFrameCallbackRequesterImpl::OnExecution,
                 weak_factory_.GetWeakPtr()));

   return true;
 }

 void VideoFrameCallbackRequesterImpl::OnRequestVideoFrameCallback() {
   DCHECK(RuntimeEnabledFeatures::RequestVideoFrameCallbackEnabled());
   TRACE_EVENT1("blink",
                "VideoFrameCallbackRequesterImpl::OnRequestVideoFrameCallback",
                "has_callbacks", !callback_collection_->IsEmpty());

   // Skip this work if there are no registered callbacks.
   if (callback_collection_->IsEmpty())
     return;

   ScheduleExecution();
 }

 void VideoFrameCallbackRequesterImpl::ExecuteVideoFrameCallbacks(
     double high_res_now_ms,
     std::unique_ptr<WebMediaPlayer::VideoFramePresentationMetadata>
         frame_metadata) {
   TRACE_EVENT0("blink",
                "VideoFrameCallbackRequesterImpl::ExecuteVideoFrameCallbacks");

   last_presented_frames_ = frame_metadata->presented_frames;

   auto* metadata = VideoFrameMetadata::Create();
   auto& time_converter =
       GetSupplementable()->GetDocument().Loader()->GetTiming();

   metadata->setPresentationTime(GetClampedTimeInMillis(
       time_converter.MonotonicTimeToZeroBasedDocumentTime(
           frame_metadata->presentation_time)));

   metadata->setExpectedDisplayTime(GetClampedTimeInMillis(
       time_converter.MonotonicTimeToZeroBasedDocumentTime(
           frame_metadata->expected_display_time)));

   metadata->setPresentedFrames(frame_metadata->presented_frames);

   metadata->setWidth(frame_metadata->width);
   metadata->setHeight(frame_metadata->height);

   metadata->setMediaTime(frame_metadata->media_time.InSecondsF());

   if (frame_metadata->metadata.processing_time) {
     metadata->setProcessingDuration(GetCoarseClampedTimeInSeconds(
         *frame_metadata->metadata.processing_time));
   }

   if (frame_metadata->metadata.capture_begin_time) {
     metadata->setCaptureTime(GetClampedTimeInMillis(
         time_converter.MonotonicTimeToZeroBasedDocumentTime(
             *frame_metadata->metadata.capture_begin_time)));
   }

   if (frame_metadata->metadata.receive_time) {
     metadata->setReceiveTime(GetClampedTimeInMillis(
         time_converter.MonotonicTimeToZeroBasedDocumentTime(
             *frame_metadata->metadata.receive_time)));
   }

   if (frame_metadata->metadata.rtp_timestamp) {
     double rtp_timestamp = *frame_metadata->metadata.rtp_timestamp;
     base::CheckedNumeric<uint32_t> uint_rtp_timestamp = rtp_timestamp;
     if (uint_rtp_timestamp.IsValid())
       metadata->setRtpTimestamp(rtp_timestamp);
   }

   callback_collection_->ExecuteFrameCallbacks(high_res_now_ms, metadata);
 }

 void VideoFrameCallbackRequesterImpl::OnExecution(double high_res_now_ms) {
   TRACE_EVENT1("blink", "VideoFrameCallbackRequesterImpl::OnRenderingSteps",
                "has_callbacks", !callback_collection_->IsEmpty());
   pending_execution_ = false;

   // Callbacks could have been canceled from the time we scheduled their
   // execution.
   // We could also be executing a leftover callback scheduled through the
   // ScriptedAnimationController, right after exiting an immersive XR session.
   if (callback_collection_->IsEmpty())
     return;

   auto* player = GetSupplementable()->GetWebMediaPlayer();
   if (!player)
     return;

   auto metadata = player->GetVideoFramePresentationMetadata();

   const bool is_hfr = IsFrameRateRelativelyHigh(
       metadata->rendering_interval, metadata->average_frame_duration);

   // Check if we have a new frame or not.
   if (last_presented_frames_ == metadata->presented_frames) {
     ++consecutive_stale_frames_;
   } else {
     consecutive_stale_frames_ = 0;
     ExecuteVideoFrameCallbacks(high_res_now_ms, std::move(metadata));
   }

   // If the video's frame rate is relatively close to the screen's refresh rate
   // (or brower's current frame rate), schedule ourselves immediately.
   // Otherwise, jittering and thread hopping means that the call to
   // OnRequestVideoFrameCallback() would barely miss the rendering steps, and we
   // would miss a frame.
   // Also check |consecutive_stale_frames_| to make sure we don't schedule
   // executions when paused, or in other scenarios where potentially scheduling
   // extra rendering steps would be wasteful.
   if (is_hfr && !callback_collection_->IsEmpty() &&
       consecutive_stale_frames_ < 2) {
     ScheduleExecution();
   }
 }

 // static
 double VideoFrameCallbackRequesterImpl::GetClampedTimeInMillis(
     base::TimeDelta time) {
   return Performance::ClampTimeResolution(time.InSecondsF()) *
          base::Time::kMillisecondsPerSecond;
 }

 // static
 double VideoFrameCallbackRequesterImpl::GetCoarseClampedTimeInSeconds(
     base::TimeDelta time) {
   constexpr auto kCoarseResolution = base::TimeDelta::FromMicroseconds(100);
   // Add this assert, in case TimeClamper's resolution were to change to be
   // stricter.
   static_assert(kCoarseResolution >= base::TimeDelta::FromSecondsD(
                                          TimeClamper::kResolutionSeconds),
                 "kCoarseResolution should be at least as coarse as other clock "
                 "resolutions");

   return time.FloorToMultiple(kCoarseResolution).InSecondsF();
 }

 int VideoFrameCallbackRequesterImpl::requestVideoFrameCallback(
     V8VideoFrameRequestCallback* callback) {
   TRACE_EVENT0("blink",
                "VideoFrameCallbackRequesterImpl::requestVideoFrameCallback");

   if (auto* player = GetSupplementable()->GetWebMediaPlayer())
     player->RequestVideoFrameCallback();

   auto* frame_callback = MakeGarbageCollected<
       VideoFrameRequestCallbackCollection::V8VideoFrameCallback>(callback);

   return callback_collection_->RegisterFrameCallback(frame_callback);
 }

 void VideoFrameCallbackRequesterImpl::RegisterCallbackForTest(
     VideoFrameRequestCallbackCollection::VideoFrameCallback* callback) {
   pending_execution_ = true;

   callback_collection_->RegisterFrameCallback(callback);
 }

 void VideoFrameCallbackRequesterImpl::cancelVideoFrameCallback(int id) {
   callback_collection_->CancelFrameCallback(id);
 }

 void VideoFrameCallbackRequesterImpl::Trace(Visitor* visitor) const {
   visitor->Trace(callback_collection_);
   Supplement<HTMLVideoElement>::Trace(visitor);
 }

 }  // namespace blink
	// Copyright 2019 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 "third_party/blink/renderer/modules/video_rvfc/video_frame_callback_requester_impl.h"

	#include <memory>
	#include <utility>

	#include "base/trace_event/trace_event.h"
	#include "third_party/blink/renderer/bindings/modules/v8/v8_video_frame_metadata.h"
	#include "third_party/blink/renderer/core/dom/document.h"
	#include "third_party/blink/renderer/core/dom/scripted_animation_controller.h"
	#include "third_party/blink/renderer/core/execution_context/execution_context.h"
	#include "third_party/blink/renderer/core/loader/document_loader.h"
	#include "third_party/blink/renderer/core/timing/performance.h"
	#include "third_party/blink/renderer/core/timing/time_clamper.h"
	#include "third_party/blink/renderer/modules/video_rvfc/video_frame_request_callback_collection.h"
	#include "third_party/blink/renderer/modules/xr/xr_frame_provider.h"
	#include "third_party/blink/renderer/modules/xr/xr_session.h"
	#include "third_party/blink/renderer/modules/xr/xr_system.h"
	#include "third_party/blink/renderer/platform/wtf/functional.h"

	namespace blink {

	namespace {
	// Returns whether or not a video's frame rate is close to the browser's frame
	// rate, as measured by their rendering intervals. For example, on a 60hz
	// screen, this should return false for a 25fps video and true for a 60fps
	// video. On a 144hz screen, both videos would return false.
	static bool IsFrameRateRelativelyHigh(base::TimeDelta rendering_interval,
	base::TimeDelta average_frame_duration) {
	if (average_frame_duration.is_zero())
	return false;

	constexpr double kThreshold = 0.05;
	return kThreshold >
	std::abs(1.0 - (rendering_interval / average_frame_duration));
	}

	} // namespace

	VideoFrameCallbackRequesterImpl::VideoFrameCallbackRequesterImpl(
	HTMLVideoElement& element)
	: VideoFrameCallbackRequester(element),
	callback_collection_(
	MakeGarbageCollected<VideoFrameRequestCallbackCollection>(
	element.GetExecutionContext())) {}

	VideoFrameCallbackRequesterImpl::~VideoFrameCallbackRequesterImpl() = default;

	// static
	VideoFrameCallbackRequesterImpl& VideoFrameCallbackRequesterImpl::From(
	HTMLVideoElement& element) {
	VideoFrameCallbackRequesterImpl* supplement =
	Supplement<HTMLVideoElement>::From<VideoFrameCallbackRequesterImpl>(
	element);
	if (!supplement) {
	supplement = MakeGarbageCollected<VideoFrameCallbackRequesterImpl>(element);
	Supplement<HTMLVideoElement>::ProvideTo(element, supplement);
	}

	return *supplement;
	}

	// static
	int VideoFrameCallbackRequesterImpl::requestVideoFrameCallback(
	HTMLVideoElement& element,
	V8VideoFrameRequestCallback* callback) {
	return VideoFrameCallbackRequesterImpl::From(element)
	.requestVideoFrameCallback(callback);
	}

	// static
	void VideoFrameCallbackRequesterImpl::cancelVideoFrameCallback(
	HTMLVideoElement& element,
	int callback_id) {
	VideoFrameCallbackRequesterImpl::From(element).cancelVideoFrameCallback(
	callback_id);
	}

	void VideoFrameCallbackRequesterImpl::OnWebMediaPlayerCreated() {
	DCHECK(RuntimeEnabledFeatures::RequestVideoFrameCallbackEnabled());
	if (!callback_collection_->IsEmpty())
	GetSupplementable()->GetWebMediaPlayer()->RequestVideoFrameCallback();
	}

	void VideoFrameCallbackRequesterImpl::OnWebMediaPlayerCleared() {
	// Clear existing issued weak pointers from the factory, so that
	// pending ScheduleVideoFrameCallbacksExecution are cancelled.
	weak_factory_.InvalidateWeakPtrs();
	}

	void VideoFrameCallbackRequesterImpl::ScheduleWindowRaf() {
	GetSupplementable()
	->GetDocument()
	.GetScriptedAnimationController()
	.ScheduleVideoFrameCallbacksExecution(
	WTF::Bind(&VideoFrameCallbackRequesterImpl::OnExecution,
	weak_factory_.GetWeakPtr()));
	}

	void VideoFrameCallbackRequesterImpl::ScheduleExecution() {
	TRACE_EVENT1("blink", "VideoFrameCallbackRequesterImpl::ScheduleExecution",
	"did_schedule", !pending_execution_);

	if (pending_execution_)
	return;

	pending_execution_ = true;

	if (TryScheduleImmersiveXRSessionRaf())
	return;

	ScheduleWindowRaf();
	}

	void VideoFrameCallbackRequesterImpl::OnImmersiveSessionStart() {
	in_immersive_session_ = true;

	if (pending_execution_ && !callback_collection_->IsEmpty())
	TryScheduleImmersiveXRSessionRaf();
	}

	void VideoFrameCallbackRequesterImpl::OnImmersiveSessionEnd() {
	in_immersive_session_ = false;

	if (pending_execution_ && !callback_collection_->IsEmpty())
	ScheduleWindowRaf();
	}

	void VideoFrameCallbackRequesterImpl::OnImmersiveFrame() {
	if (callback_collection_->IsEmpty())
	return;

	if (auto* player = GetSupplementable()->GetWebMediaPlayer())
	player->UpdateFrameIfStale();
	}

	XRFrameProvider* VideoFrameCallbackRequesterImpl::GetXRFrameProvider() {
	// Do not force the lazy creation of the XRSystem.
	// If it doesn't exist already exist, the webpage isn't using XR.
	auto* system = XRSystem::FromIfExists(GetSupplementable()->GetDocument());
	return system ? system->frameProvider() : nullptr;
	}

	bool VideoFrameCallbackRequesterImpl::TryScheduleImmersiveXRSessionRaf() {
	// Nothing to do here, we will be notified via OnImmersiveSessionStart() when
	// a new immersive session starts.
	if (observing_immersive_session_ && !in_immersive_session_)
	return false;

	auto* frame_provider = GetXRFrameProvider();

	if (!frame_provider)
	return false;

	if (!observing_immersive_session_) {
	frame_provider->AddImmersiveSessionObserver(this);
	observing_immersive_session_ = true;
	}

	XRSession* session = frame_provider->immersive_session();

	in_immersive_session_ = session && !session->ended();

	if (!in_immersive_session_)
	return false;

	session->ScheduleVideoFrameCallbacksExecution(
	WTF::Bind(&VideoFrameCallbackRequesterImpl::OnExecution,
	weak_factory_.GetWeakPtr()));

	return true;
	}

	void VideoFrameCallbackRequesterImpl::OnRequestVideoFrameCallback() {
	DCHECK(RuntimeEnabledFeatures::RequestVideoFrameCallbackEnabled());
	TRACE_EVENT1("blink",
	"VideoFrameCallbackRequesterImpl::OnRequestVideoFrameCallback",
	"has_callbacks", !callback_collection_->IsEmpty());

	// Skip this work if there are no registered callbacks.
	if (callback_collection_->IsEmpty())
	return;

	ScheduleExecution();
	}

	void VideoFrameCallbackRequesterImpl::ExecuteVideoFrameCallbacks(
	double high_res_now_ms,
	std::unique_ptr<WebMediaPlayer::VideoFramePresentationMetadata>
	frame_metadata) {
	TRACE_EVENT0("blink",
	"VideoFrameCallbackRequesterImpl::ExecuteVideoFrameCallbacks");

	last_presented_frames_ = frame_metadata->presented_frames;

	auto* metadata = VideoFrameMetadata::Create();
	auto& time_converter =
	GetSupplementable()->GetDocument().Loader()->GetTiming();

	metadata->setPresentationTime(GetClampedTimeInMillis(
	time_converter.MonotonicTimeToZeroBasedDocumentTime(
	frame_metadata->presentation_time)));

	metadata->setExpectedDisplayTime(GetClampedTimeInMillis(
	time_converter.MonotonicTimeToZeroBasedDocumentTime(
	frame_metadata->expected_display_time)));

	metadata->setPresentedFrames(frame_metadata->presented_frames);

	metadata->setWidth(frame_metadata->width);
	metadata->setHeight(frame_metadata->height);

	metadata->setMediaTime(frame_metadata->media_time.InSecondsF());

	if (frame_metadata->metadata.processing_time) {
	metadata->setProcessingDuration(GetCoarseClampedTimeInSeconds(
	*frame_metadata->metadata.processing_time));
	}

	if (frame_metadata->metadata.capture_begin_time) {
	metadata->setCaptureTime(GetClampedTimeInMillis(
	time_converter.MonotonicTimeToZeroBasedDocumentTime(
	*frame_metadata->metadata.capture_begin_time)));
	}

	if (frame_metadata->metadata.receive_time) {
	metadata->setReceiveTime(GetClampedTimeInMillis(
	time_converter.MonotonicTimeToZeroBasedDocumentTime(
	*frame_metadata->metadata.receive_time)));
	}

	if (frame_metadata->metadata.rtp_timestamp) {
	double rtp_timestamp = *frame_metadata->metadata.rtp_timestamp;
	base::CheckedNumeric<uint32_t> uint_rtp_timestamp = rtp_timestamp;
	if (uint_rtp_timestamp.IsValid())
	metadata->setRtpTimestamp(rtp_timestamp);
	}

	callback_collection_->ExecuteFrameCallbacks(high_res_now_ms, metadata);
	}

	void VideoFrameCallbackRequesterImpl::OnExecution(double high_res_now_ms) {
	TRACE_EVENT1("blink", "VideoFrameCallbackRequesterImpl::OnRenderingSteps",
	"has_callbacks", !callback_collection_->IsEmpty());
	pending_execution_ = false;

	// Callbacks could have been canceled from the time we scheduled their
	// execution.
	// We could also be executing a leftover callback scheduled through the
	// ScriptedAnimationController, right after exiting an immersive XR session.
	if (callback_collection_->IsEmpty())
	return;

	auto* player = GetSupplementable()->GetWebMediaPlayer();
	if (!player)
	return;

	auto metadata = player->GetVideoFramePresentationMetadata();

	const bool is_hfr = IsFrameRateRelativelyHigh(
	metadata->rendering_interval, metadata->average_frame_duration);

	// Check if we have a new frame or not.
	if (last_presented_frames_ == metadata->presented_frames) {
	++consecutive_stale_frames_;
	} else {
	consecutive_stale_frames_ = 0;
	ExecuteVideoFrameCallbacks(high_res_now_ms, std::move(metadata));
	}

	// If the video's frame rate is relatively close to the screen's refresh rate
	// (or brower's current frame rate), schedule ourselves immediately.
	// Otherwise, jittering and thread hopping means that the call to
	// OnRequestVideoFrameCallback() would barely miss the rendering steps, and we
	// would miss a frame.
	// Also check \|consecutive_stale_frames_\| to make sure we don't schedule
	// executions when paused, or in other scenarios where potentially scheduling
	// extra rendering steps would be wasteful.
	if (is_hfr && !callback_collection_->IsEmpty() &&
	consecutive_stale_frames_ < 2) {
	ScheduleExecution();
	}
	}

	// static
	double VideoFrameCallbackRequesterImpl::GetClampedTimeInMillis(
	base::TimeDelta time) {
	return Performance::ClampTimeResolution(time.InSecondsF()) *
	base::Time::kMillisecondsPerSecond;
	}

	// static
	double VideoFrameCallbackRequesterImpl::GetCoarseClampedTimeInSeconds(
	base::TimeDelta time) {
	constexpr auto kCoarseResolution = base::TimeDelta::FromMicroseconds(100);
	// Add this assert, in case TimeClamper's resolution were to change to be
	// stricter.
	static_assert(kCoarseResolution >= base::TimeDelta::FromSecondsD(
	TimeClamper::kResolutionSeconds),
	"kCoarseResolution should be at least as coarse as other clock "
	"resolutions");

	return time.FloorToMultiple(kCoarseResolution).InSecondsF();
	}

	int VideoFrameCallbackRequesterImpl::requestVideoFrameCallback(
	V8VideoFrameRequestCallback* callback) {
	TRACE_EVENT0("blink",
	"VideoFrameCallbackRequesterImpl::requestVideoFrameCallback");

	if (auto* player = GetSupplementable()->GetWebMediaPlayer())
	player->RequestVideoFrameCallback();

	auto* frame_callback = MakeGarbageCollected<
	VideoFrameRequestCallbackCollection::V8VideoFrameCallback>(callback);

	return callback_collection_->RegisterFrameCallback(frame_callback);
	}

	void VideoFrameCallbackRequesterImpl::RegisterCallbackForTest(
	VideoFrameRequestCallbackCollection::VideoFrameCallback* callback) {
	pending_execution_ = true;

	callback_collection_->RegisterFrameCallback(callback);
	}

	void VideoFrameCallbackRequesterImpl::cancelVideoFrameCallback(int id) {
	callback_collection_->CancelFrameCallback(id);
	}

	void VideoFrameCallbackRequesterImpl::Trace(Visitor* visitor) const {
	visitor->Trace(callback_collection_);
	Supplement<HTMLVideoElement>::Trace(visitor);
	}

	} // namespace blink