// Copyright (c) 2013 GitHub, Inc. // Use of this source code is governed by the MIT license that can be // found in the LICENSE file. #include "atom/browser/osr_window.h" #include "third_party/WebKit/public/platform/WebScreenInfo.h" #include "components/display_compositor/gl_helper.h" #include "content/browser/renderer_host/render_widget_host_impl.h" #include "content/browser/renderer_host/render_widget_host_delegate.h" #include "content/public/browser/render_widget_host_view_frame_subscriber.h" #include "ui/events/latency_info.h" #include "content/common/view_messages.h" #include "ui/gfx/geometry/dip_util.h" #include "base/memory/ptr_util.h" #include "content/public/browser/context_factory.h" #include "base/single_thread_task_runner.h" #include "ui/compositor/layer.h" #include "ui/compositor/layer_type.h" #include "base/location.h" #include "base/time/time.h" #include "ui/gfx/native_widget_types.h" #include "ui/views/widget/widget.h" #include #include #include #include "third_party/skia/include/core/SkSurface.h" #include "third_party/skia/include/core/SkPixmap.h" #include "cc/output/output_surface_client.h" #include "cc/output/copy_output_request.h" #include "base/callback_helpers.h" #include "base/location.h" #include "base/logging.h" #include "content/public/browser/browser_thread.h" #include "cc/scheduler/delay_based_time_source.h" #include "content/common/host_shared_bitmap_manager.h" // const float kDefaultScaleFactor = 1.0; // The maximum number of retry counts if frame capture fails. const int kFrameRetryLimit = 2; // When accelerated compositing is enabled and a widget resize is pending, // we delay further resizes of the UI. The following constant is the maximum // length of time that we should delay further UI resizes while waiting for a // resized frame from a renderer. // const int kResizeLockTimeoutMs = 67; #define CEF_UIT content::BrowserThread::UI #define CEF_POST_TASK(id, task) \ content::BrowserThread::PostTask(id, FROM_HERE, task) #define CEF_POST_DELAYED_TASK(id, task, delay_ms) \ content::BrowserThread::PostDelayedTask(id, FROM_HERE, task, \ base::TimeDelta::FromMilliseconds(delay_ms)) namespace atom { class AtomCopyFrameGenerator { public: AtomCopyFrameGenerator(int frame_rate_threshold_ms, OffScreenWindow* view) : frame_rate_threshold_ms_(frame_rate_threshold_ms), view_(view), frame_pending_(false), frame_in_progress_(false), frame_retry_count_(0), weak_ptr_factory_(this) { last_time_ = base::Time::Now(); } void GenerateCopyFrame( bool force_frame, const gfx::Rect& damage_rect) { if (force_frame && !frame_pending_) frame_pending_ = true; // No frame needs to be generated at this time. if (!frame_pending_) return; // Keep track of |damage_rect| for when the next frame is generated. if (!damage_rect.IsEmpty()) pending_damage_rect_.Union(damage_rect); // Don't attempt to generate a frame while one is currently in-progress. if (frame_in_progress_) { return; } frame_in_progress_ = true; // Don't exceed the frame rate threshold. const int64_t frame_rate_delta = (base::TimeTicks::Now() - frame_start_time_).InMilliseconds(); if (frame_rate_delta < frame_rate_threshold_ms_) { // Generate the frame after the necessary time has passed. CEF_POST_DELAYED_TASK(CEF_UIT, base::Bind(&AtomCopyFrameGenerator::InternalGenerateCopyFrame, weak_ptr_factory_.GetWeakPtr()), frame_rate_threshold_ms_ - frame_rate_delta); return; } InternalGenerateCopyFrame(); } bool frame_pending() const { return frame_pending_; } void set_frame_rate_threshold_ms(int frame_rate_threshold_ms) { frame_rate_threshold_ms_ = frame_rate_threshold_ms; } private: void InternalGenerateCopyFrame() { frame_pending_ = false; frame_start_time_ = base::TimeTicks::Now(); if (!view_->render_widget_host()) return; const gfx::Rect damage_rect = pending_damage_rect_; pending_damage_rect_.SetRect(0, 0, 0, 0); // The below code is similar in functionality to // DelegatedFrameHost::CopyFromCompositingSurface but we reuse the same // SkBitmap in the GPU codepath and avoid scaling where possible. std::unique_ptr request = cc::CopyOutputRequest::CreateRequest(base::Bind( &AtomCopyFrameGenerator::CopyFromCompositingSurfaceHasResult, weak_ptr_factory_.GetWeakPtr(), damage_rect)); request->set_area(gfx::Rect(view_->GetPhysicalBackingSize())); view_->DelegatedFrameHostGetLayer()->RequestCopyOfOutput( std::move(request)); } void CopyFromCompositingSurfaceHasResult( const gfx::Rect& damage_rect, std::unique_ptr result) { // std::cout << "has result" << std::endl; if (result->IsEmpty() || result->size().IsEmpty() || !view_->render_widget_host()) { OnCopyFrameCaptureFailure(damage_rect); return; } if (result->HasTexture()) { PrepareTextureCopyOutputResult(damage_rect, std::move(result)); return; } DCHECK(result->HasBitmap()); PrepareBitmapCopyOutputResult(damage_rect, std::move(result)); } void PrepareTextureCopyOutputResult( const gfx::Rect& damage_rect, std::unique_ptr result) { DCHECK(result->HasTexture()); base::ScopedClosureRunner scoped_callback_runner( base::Bind(&AtomCopyFrameGenerator::OnCopyFrameCaptureFailure, weak_ptr_factory_.GetWeakPtr(), damage_rect)); const gfx::Size& result_size = result->size(); SkIRect bitmap_size; if (bitmap_) bitmap_->getBounds(&bitmap_size); if (!bitmap_ || bitmap_size.width() != result_size.width() || bitmap_size.height() != result_size.height()) { // Create a new bitmap if the size has changed. bitmap_.reset(new SkBitmap); bitmap_->allocN32Pixels(result_size.width(), result_size.height(), true); if (bitmap_->drawsNothing()) return; } content::ImageTransportFactory* factory = content::ImageTransportFactory::GetInstance(); display_compositor::GLHelper* gl_helper = factory->GetGLHelper(); if (!gl_helper) return; std::unique_ptr bitmap_pixels_lock( new SkAutoLockPixels(*bitmap_)); uint8_t* pixels = static_cast(bitmap_->getPixels()); cc::TextureMailbox texture_mailbox; std::unique_ptr release_callback; result->TakeTexture(&texture_mailbox, &release_callback); DCHECK(texture_mailbox.IsTexture()); if (!texture_mailbox.IsTexture()) return; ignore_result(scoped_callback_runner.Release()); gl_helper->CropScaleReadbackAndCleanMailbox( texture_mailbox.mailbox(), texture_mailbox.sync_token(), result_size, gfx::Rect(result_size), result_size, pixels, kN32_SkColorType, base::Bind( &AtomCopyFrameGenerator::CopyFromCompositingSurfaceFinishedProxy, weak_ptr_factory_.GetWeakPtr(), base::Passed(&release_callback), damage_rect, base::Passed(&bitmap_), base::Passed(&bitmap_pixels_lock)), display_compositor::GLHelper::SCALER_QUALITY_FAST); } static void CopyFromCompositingSurfaceFinishedProxy( base::WeakPtr generator, std::unique_ptr release_callback, const gfx::Rect& damage_rect, std::unique_ptr bitmap, std::unique_ptr bitmap_pixels_lock, bool result) { // This method may be called after the view has been deleted. gpu::SyncToken sync_token; if (result) { display_compositor::GLHelper* gl_helper = content::ImageTransportFactory::GetInstance()->GetGLHelper(); if (gl_helper) gl_helper->GenerateSyncToken(&sync_token); } const bool lost_resource = !sync_token.HasData(); release_callback->Run(sync_token, lost_resource); if (generator) { generator->CopyFromCompositingSurfaceFinished( damage_rect, std::move(bitmap), std::move(bitmap_pixels_lock), result); } else { bitmap_pixels_lock.reset(); bitmap.reset(); } } void CopyFromCompositingSurfaceFinished( const gfx::Rect& damage_rect, std::unique_ptr bitmap, std::unique_ptr bitmap_pixels_lock, bool result) { // Restore ownership of the bitmap to the view. DCHECK(!bitmap_); bitmap_ = std::move(bitmap); if (result) { OnCopyFrameCaptureSuccess(damage_rect, *bitmap_, std::move(bitmap_pixels_lock)); } else { bitmap_pixels_lock.reset(); OnCopyFrameCaptureFailure(damage_rect); } } void PrepareBitmapCopyOutputResult( const gfx::Rect& damage_rect, std::unique_ptr result) { DCHECK(result->HasBitmap()); std::unique_ptr source = result->TakeBitmap(); DCHECK(source); if (source) { std::unique_ptr bitmap_pixels_lock( new SkAutoLockPixels(*source)); OnCopyFrameCaptureSuccess(damage_rect, *source, std::move(bitmap_pixels_lock)); } else { OnCopyFrameCaptureFailure(damage_rect); } } void OnCopyFrameCaptureFailure( const gfx::Rect& damage_rect) { // Retry with the same |damage_rect|. pending_damage_rect_.Union(damage_rect); const bool force_frame = (++frame_retry_count_ <= kFrameRetryLimit); OnCopyFrameCaptureCompletion(force_frame); } void OnCopyFrameCaptureSuccess( const gfx::Rect& damage_rect, const SkBitmap& bitmap, std::unique_ptr bitmap_pixels_lock) { uint8_t* pixels = reinterpret_cast(bitmap.getPixels()); view_->OnPaint(damage_rect, bitmap.width(), bitmap.height(), pixels); // Reset the frame retry count on successful frame generation. if (frame_retry_count_ > 0) frame_retry_count_ = 0; OnCopyFrameCaptureCompletion(false); } void OnCopyFrameCaptureCompletion(bool force_frame) { frame_in_progress_ = false; if (frame_pending_) { // Another frame was requested while the current frame was in-progress. // Generate the pending frame now. CEF_POST_TASK(CEF_UIT, base::Bind(&AtomCopyFrameGenerator::GenerateCopyFrame, weak_ptr_factory_.GetWeakPtr(), force_frame, gfx::Rect())); } } int frame_rate_threshold_ms_; OffScreenWindow* view_; base::Time last_time_; base::TimeTicks frame_start_time_; bool frame_pending_; bool frame_in_progress_; int frame_retry_count_; std::unique_ptr bitmap_; gfx::Rect pending_damage_rect_; base::WeakPtrFactory weak_ptr_factory_; DISALLOW_COPY_AND_ASSIGN(AtomCopyFrameGenerator); }; // Used to control the VSync rate in subprocesses when BeginFrame scheduling is // enabled. class AtomBeginFrameTimer : public cc::DelayBasedTimeSourceClient { public: AtomBeginFrameTimer(int frame_rate_threshold_ms, const base::Closure& callback) : callback_(callback) { time_source_ = cc::DelayBasedTimeSource::Create( base::TimeDelta::FromMilliseconds(frame_rate_threshold_ms), content::BrowserThread::GetMessageLoopProxyForThread(CEF_UIT).get()); time_source_->SetClient(this); } void SetActive(bool active) { time_source_->SetActive(active); } bool IsActive() const { return time_source_->Active(); } void SetFrameRateThresholdMs(int frame_rate_threshold_ms) { time_source_->SetTimebaseAndInterval( base::TimeTicks::Now(), base::TimeDelta::FromMilliseconds(frame_rate_threshold_ms)); } private: // cc::TimerSourceClient implementation. void OnTimerTick() override { callback_.Run(); } const base::Closure callback_; std::unique_ptr time_source_; DISALLOW_COPY_AND_ASSIGN(AtomBeginFrameTimer); }; OffScreenWindow::OffScreenWindow( content::RenderWidgetHost* host, NativeWindow* native_window) : render_widget_host_(content::RenderWidgetHostImpl::From(host)), native_window_(native_window), software_output_device_(NULL), frame_rate_threshold_ms_(0), scale_factor_(1.0f), is_showing_(!render_widget_host_->is_hidden()), size_(gfx::Size(800, 600)), delegated_frame_host_(new content::DelegatedFrameHost(this)), compositor_widget_(gfx::kNullAcceleratedWidget), weak_ptr_factory_(this) { DCHECK(render_widget_host_); render_widget_host_->SetView(this); last_time_ = base::Time::Now(); root_layer_.reset(new ui::Layer(ui::LAYER_SOLID_COLOR)); #if defined(OS_MACOSX) CreatePlatformWidget(); #endif #if !defined(OS_MACOSX) // On OS X the ui::Compositor is created/owned by the platform view. compositor_widget_ = native_window_->GetAcceleratedWidget(); compositor_.reset( new ui::Compositor(content::GetContextFactory(), base::ThreadTaskRunnerHandle::Get())); compositor_->SetAcceleratedWidget(compositor_widget_); #endif compositor_->SetDelegate(this); compositor_->SetRootLayer(root_layer_.get()); ResizeRootLayer(); } void OffScreenWindow::ResizeRootLayer() { SetFrameRate(); // const float orgScaleFactor = scale_factor_; // SetDeviceScaleFactor(); // const bool scaleFactorDidChange = (orgScaleFactor != scale_factor_); // // gfx::Size size; // if (!IsPopupWidget()) // size = GetViewBounds().size(); // else // size = popup_position_.size(); // // if (!scaleFactorDidChange && size == root_layer_->bounds().size()) // return; // // const gfx::Size& size_in_pixels = // gfx::ConvertSizeToPixel(scale_factor_, size); // // root_layer_->SetBounds(gfx::Rect(size)); // compositor_->SetScaleAndSize(scale_factor_, size_in_pixels); } void OffScreenWindow::OnBeginFrameTimerTick() { const base::TimeTicks frame_time = base::TimeTicks::Now(); const base::TimeDelta vsync_period = base::TimeDelta::FromMilliseconds(frame_rate_threshold_ms_); SendBeginFrame(frame_time, vsync_period); } void OffScreenWindow::SendBeginFrame(base::TimeTicks frame_time, base::TimeDelta vsync_period) { base::TimeTicks display_time = frame_time + vsync_period; // TODO(brianderson): Use adaptive draw-time estimation. base::TimeDelta estimated_browser_composite_time = base::TimeDelta::FromMicroseconds( (1.0f * base::Time::kMicrosecondsPerSecond) / (3.0f * 60)); base::TimeTicks deadline = display_time - estimated_browser_composite_time; render_widget_host_->Send(new ViewMsg_BeginFrame( render_widget_host_->GetRoutingID(), cc::BeginFrameArgs::Create(BEGINFRAME_FROM_HERE, frame_time, deadline, vsync_period, cc::BeginFrameArgs::NORMAL))); // std::cout << "sent begin frame" << std::endl; } void OffScreenWindow::SetPaintCallback(const OnPaintCallback* callback) { paintCallback.reset(callback); } OffScreenWindow::~OffScreenWindow() { // std::cout << "~OffScreenWindow" << std::endl; if (is_showing_) delegated_frame_host_->WasHidden(); delegated_frame_host_->ResetCompositor(); delegated_frame_host_.reset(NULL); compositor_.reset(NULL); root_layer_.reset(NULL); } bool OffScreenWindow::OnMessageReceived(const IPC::Message& message) { // std::cout << "OnMessageReceived" << std::endl; bool handled = true; IPC_BEGIN_MESSAGE_MAP(OffScreenWindow, message) IPC_MESSAGE_HANDLER(ViewHostMsg_SetNeedsBeginFrames, OnSetNeedsBeginFrames) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() if (!handled) return content::RenderWidgetHostViewBase::OnMessageReceived(message); return handled; } void OffScreenWindow::InitAsChild(gfx::NativeView) { // std::cout << "InitAsChild" << std::endl; } content::RenderWidgetHost* OffScreenWindow::GetRenderWidgetHost() const { // std::cout << "GetRenderWidgetHost" << std::endl; return render_widget_host_; } void OffScreenWindow::SetSize(const gfx::Size& size) { // std::cout << "SetSize" << std::endl; size_ = size; // std::cout << size.width() << "x" << size.height() << std::endl; const gfx::Size& size_in_pixels = gfx::ConvertSizeToPixel(scale_factor_, size); root_layer_->SetBounds(gfx::Rect(size)); compositor_->SetScaleAndSize(scale_factor_, size_in_pixels); } void OffScreenWindow::SetBounds(const gfx::Rect& new_bounds) { // std::cout << "SetBounds" << std::endl; } gfx::Vector2dF OffScreenWindow::GetLastScrollOffset() const { // std::cout << "GetLastScrollOffset" << std::endl; return last_scroll_offset_; } gfx::NativeView OffScreenWindow::GetNativeView() const { // std::cout << "GetNativeView" << std::endl; return gfx::NativeView(); } gfx::NativeViewAccessible OffScreenWindow::GetNativeViewAccessible() { // std::cout << "GetNativeViewAccessible" << std::endl; return gfx::NativeViewAccessible(); } ui::TextInputClient* OffScreenWindow::GetTextInputClient() { // std::cout << "GetTextInputClient" << std::endl; return nullptr; } void OffScreenWindow::Focus() { // std::cout << "Focus" << std::endl; } bool OffScreenWindow::HasFocus() const { // std::cout << "HasFocus" << std::endl; return false; } bool OffScreenWindow::IsSurfaceAvailableForCopy() const { // std::cout << "IsSurfaceAvailableForCopy" << std::endl; return delegated_frame_host_->CanCopyToBitmap(); } void OffScreenWindow::Show() { // std::cout << "Show" << std::endl; if (is_showing_) return; is_showing_ = true; if (render_widget_host_) render_widget_host_->WasShown(ui::LatencyInfo()); delegated_frame_host_->SetCompositor(compositor_.get()); delegated_frame_host_->WasShown(ui::LatencyInfo()); } void OffScreenWindow::Hide() { // std::cout << "Hide" << std::endl; if (!is_showing_) return; if (render_widget_host_) render_widget_host_->WasHidden(); delegated_frame_host_->WasHidden(); delegated_frame_host_->ResetCompositor(); is_showing_ = false; } bool OffScreenWindow::IsShowing() { // std::cout << "IsShowing" << std::endl; return is_showing_; } gfx::Rect OffScreenWindow::GetViewBounds() const { // std::cout << "GetViewBounds" << std::endl; // std::cout << size_.width() << "x" << size_.height() << std::endl; return gfx::Rect(size_); } gfx::Size OffScreenWindow::GetVisibleViewportSize() const { // std::cout << "GetVisibleViewportSize" << std::endl; // std::cout << size_.width() << "x" << size_.height() << std::endl; return size_; } void OffScreenWindow::SetInsets(const gfx::Insets& insets) { // std::cout << "SetInsets" << std::endl; } bool OffScreenWindow::LockMouse() { // std::cout << "LockMouse" << std::endl; return false; } void OffScreenWindow::UnlockMouse() { // std::cout << "UnlockMouse" << std::endl; } bool OffScreenWindow::GetScreenColorProfile(std::vector*) { // std::cout << "GetScreenColorProfile" << std::endl; return false; } void OffScreenWindow::OnSwapCompositorFrame( uint32_t output_surface_id, std::unique_ptr frame) { // base::Time now = base::Time::Now(); // std::cout << "OnSwapCompositorFrame " << (now - last_time_).InMilliseconds() << " ms" << std::endl; // last_time_ = now; TRACE_EVENT0("electron", "OffScreenWindow::OnSwapCompositorFrame"); // std::cout << output_surface_id << std::endl; if (frame->metadata.root_scroll_offset != last_scroll_offset_) { last_scroll_offset_ = frame->metadata.root_scroll_offset; } if (frame->delegated_frame_data) { if (software_output_device_) { if (!begin_frame_timer_.get()) { software_output_device_->SetActive(true); } delegated_frame_host_->SwapDelegatedFrame(output_surface_id, std::move(frame)); } else { if (!copy_frame_generator_.get()) { copy_frame_generator_.reset( new AtomCopyFrameGenerator(frame_rate_threshold_ms_, this)); } cc::RenderPass* root_pass = frame->delegated_frame_data->render_pass_list.back().get(); gfx::Size frame_size = root_pass->output_rect.size(); gfx::Rect damage_rect = gfx::ToEnclosingRect(gfx::RectF(root_pass->damage_rect)); damage_rect.Intersect(gfx::Rect(frame_size)); delegated_frame_host_->SwapDelegatedFrame(output_surface_id, std::move(frame)); copy_frame_generator_->GenerateCopyFrame(true, damage_rect); } } } void OffScreenWindow::ClearCompositorFrame() { // std::cout << "ClearCompositorFrame" << std::endl; delegated_frame_host_->ClearDelegatedFrame(); } void OffScreenWindow::InitAsPopup( content::RenderWidgetHostView *, const gfx::Rect &) { // std::cout << "InitAsPopup" << std::endl; } void OffScreenWindow::InitAsFullscreen(content::RenderWidgetHostView *) { // std::cout << "InitAsFullscreen" << std::endl; } void OffScreenWindow::UpdateCursor(const content::WebCursor &) { // std::cout << "UpdateCursor" << std::endl; } void OffScreenWindow::SetIsLoading(bool loading) { // std::cout << "SetIsLoading" << std::endl; } void OffScreenWindow::TextInputStateChanged( const content::TextInputState& params) { // std::cout << "TextInputStateChanged" << std::endl; } void OffScreenWindow::ImeCancelComposition() { // std::cout << "ImeCancelComposition" << std::endl; } void OffScreenWindow::RenderProcessGone(base::TerminationStatus,int) { // std::cout << "RenderProcessGone" << std::endl; Destroy(); } void OffScreenWindow::Destroy() { // std::cout << "Destroy" << std::endl; } void OffScreenWindow::SetTooltipText(const base::string16 &) { // std::cout << "SetTooltipText" << std::endl; } void OffScreenWindow::SelectionBoundsChanged( const ViewHostMsg_SelectionBounds_Params &) { // std::cout << "SelectionBoundsChanged" << std::endl; } void OffScreenWindow::CopyFromCompositingSurface(const gfx::Rect& src_subrect, const gfx::Size& dst_size, const content::ReadbackRequestCallback& callback, const SkColorType preferred_color_type) { // std::cout << "CopyFromCompositingSurface" << std::endl; delegated_frame_host_->CopyFromCompositingSurface( src_subrect, dst_size, callback, preferred_color_type); } void OffScreenWindow::CopyFromCompositingSurfaceToVideoFrame( const gfx::Rect& src_subrect, const scoped_refptr& target, const base::Callback& callback) { // std::cout << "CopyFromCompositingSurfaceToVideoFrame" << std::endl; delegated_frame_host_->CopyFromCompositingSurfaceToVideoFrame( src_subrect, target, callback); } bool OffScreenWindow::CanCopyToVideoFrame() const { // std::cout << "CanCopyToVideoFrame" << std::endl; return delegated_frame_host_->CanCopyToVideoFrame(); } void OffScreenWindow::BeginFrameSubscription( std::unique_ptr subscriber) { // std::cout << "BeginFrameSubscription" << std::endl; delegated_frame_host_->BeginFrameSubscription(std::move(subscriber)); } void OffScreenWindow::EndFrameSubscription() { // std::cout << "EndFrameSubscription" << std::endl; delegated_frame_host_->EndFrameSubscription(); } bool OffScreenWindow::HasAcceleratedSurface(const gfx::Size &) { // std::cout << "HasAcceleratedSurface" << std::endl; return false; } void OffScreenWindow::GetScreenInfo(blink::WebScreenInfo* results) { // std::cout << "GetScreenInfo" << std::endl; // std::cout << size_.width() << "x" << size_.height() << std::endl; results->rect = gfx::Rect(size_); results->availableRect = gfx::Rect(size_); results->depth = 24; results->depthPerComponent = 8; results->deviceScaleFactor = scale_factor_; results->orientationAngle = 0; results->orientationType = blink::WebScreenOrientationLandscapePrimary; } bool OffScreenWindow::GetScreenColorProfile(blink::WebVector*) { // std::cout << "GetScreenColorProfile" << std::endl; return false; } gfx::Rect OffScreenWindow::GetBoundsInRootWindow() { // std::cout << "GetBoundsInRootWindow" << std::endl; // std::cout << size_.width() << "x" << size_.height() << std::endl; return gfx::Rect(size_); } void OffScreenWindow::LockCompositingSurface() { // std::cout << "LockCompositingSurface" << std::endl; } void OffScreenWindow::UnlockCompositingSurface() { // std::cout << "UnlockCompositingSurface" << std::endl; } void OffScreenWindow::ImeCompositionRangeChanged( const gfx::Range &, const std::vector&) { // std::cout << "ImeCompositionRangeChanged" << std::endl; } gfx::Size OffScreenWindow::GetPhysicalBackingSize() const { // std::cout << "GetPhysicalBackingSize" << std::endl; return size_; } gfx::Size OffScreenWindow::GetRequestedRendererSize() const { // std::cout << "GetRequestedRendererSize" << std::endl; return size_; } int OffScreenWindow::DelegatedFrameHostGetGpuMemoryBufferClientId() const { // std::cout << "DelegatedFrameHostGetGpuMemoryBufferClientId" << std::endl; return render_widget_host_->GetProcess()->GetID(); } ui::Layer* OffScreenWindow::DelegatedFrameHostGetLayer() const { // std::cout << "DelegatedFrameHostGetLayer" << std::endl; return const_cast(root_layer_.get()); } bool OffScreenWindow::DelegatedFrameHostIsVisible() const { // std::cout << "DelegatedFrameHostIsVisible" << std::endl; // std::cout << !render_widget_host_->is_hidden() << std::endl; return !render_widget_host_->is_hidden(); } SkColor OffScreenWindow::DelegatedFrameHostGetGutterColor(SkColor color) const { // std::cout << "DelegatedFrameHostGetGutterColor" << std::endl; return color; } gfx::Size OffScreenWindow::DelegatedFrameHostDesiredSizeInDIP() const { // std::cout << "DelegatedFrameHostDesiredSizeInDIP" << std::endl; // std::cout << size_.width() << "x" << size_.height() << std::endl; return size_; } bool OffScreenWindow::DelegatedFrameCanCreateResizeLock() const { // std::cout << "DelegatedFrameCanCreateResizeLock" << std::endl; return false; } std::unique_ptr OffScreenWindow::DelegatedFrameHostCreateResizeLock(bool) { // std::cout << "DelegatedFrameHostCreateResizeLock" << std::endl; return nullptr; } void OffScreenWindow::DelegatedFrameHostResizeLockWasReleased() { // std::cout << "DelegatedFrameHostResizeLockWasReleased" << std::endl; return render_widget_host_->WasResized(); } void OffScreenWindow::DelegatedFrameHostSendCompositorSwapAck( int output_surface_id, const cc::CompositorFrameAck& ack) { // std::cout << "DelegatedFrameHostSendCompositorSwapAck" << std::endl; // std::cout << output_surface_id << std::endl; render_widget_host_->Send(new ViewMsg_SwapCompositorFrameAck( render_widget_host_->GetRoutingID(), output_surface_id, ack)); } void OffScreenWindow::DelegatedFrameHostSendReclaimCompositorResources( int output_surface_id, const cc::CompositorFrameAck& ack) { // std::cout << "DelegatedFrameHostSendReclaimCompositorResources" << std::endl; // std::cout << output_surface_id << std::endl; render_widget_host_->Send(new ViewMsg_ReclaimCompositorResources( render_widget_host_->GetRoutingID(), output_surface_id, ack)); } void OffScreenWindow::DelegatedFrameHostOnLostCompositorResources() { // std::cout << "DelegatedFrameHostOnLostCompositorResources" << std::endl; render_widget_host_->ScheduleComposite(); } void OffScreenWindow::DelegatedFrameHostUpdateVSyncParameters( const base::TimeTicks& timebase, const base::TimeDelta& interval) { // std::cout << "DelegatedFrameHostUpdateVSyncParameters" << std::endl; render_widget_host_->UpdateVSyncParameters(timebase, interval); } std::unique_ptr OffScreenWindow::CreateSoftwareOutputDevice(ui::Compositor* compositor) { DCHECK_EQ(compositor_.get(), compositor); DCHECK(!copy_frame_generator_); DCHECK(!software_output_device_); software_output_device_ = new OffScreenOutputDevice(true, base::Bind(&OffScreenWindow::OnPaint, weak_ptr_factory_.GetWeakPtr())); return base::WrapUnique(software_output_device_); } void OffScreenWindow::OnSetNeedsBeginFrames(bool enabled) { SetFrameRate(); begin_frame_timer_->SetActive(enabled); if (software_output_device_) { software_output_device_->SetActive(enabled); } // std::cout << "OnSetNeedsBeginFrames" << enabled << std::endl; } void OffScreenWindow::SetFrameRate() { // Only set the frame rate one time. // if (frame_rate_threshold_ms_ != 0) // return; const int frame_rate = 60; frame_rate_threshold_ms_ = 1000 / frame_rate; // Configure the VSync interval for the browser process. compositor_->vsync_manager()->SetAuthoritativeVSyncInterval( base::TimeDelta::FromMilliseconds(frame_rate_threshold_ms_)); if (copy_frame_generator_.get()) { copy_frame_generator_->set_frame_rate_threshold_ms( frame_rate_threshold_ms_); } if (begin_frame_timer_.get()) { begin_frame_timer_->SetFrameRateThresholdMs(frame_rate_threshold_ms_); } else { begin_frame_timer_.reset(new AtomBeginFrameTimer( frame_rate_threshold_ms_, base::Bind(&OffScreenWindow::OnBeginFrameTimerTick, weak_ptr_factory_.GetWeakPtr()))); } } void OffScreenWindow::SetBeginFrameSource( cc::BeginFrameSource* source) { } bool OffScreenWindow::IsAutoResizeEnabled() const { return false; } void OffScreenWindow::OnPaint( const gfx::Rect& damage_rect, int bitmap_width, int bitmap_height, void* bitmap_pixels) { TRACE_EVENT0("electron", "OffScreenWindow::OnPaint"); if (paintCallback) { paintCallback->Run(damage_rect, bitmap_width, bitmap_height, bitmap_pixels); } } } // namespace atom