flow/compositor_context.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter 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 "flutter/flow/compositor_context.h"

 #include "flutter/flow/layers/layer_tree.h"
 #include "third_party/skia/include/core/SkCanvas.h"

 namespace flutter {

 CompositorContext::CompositorContext(fml::Milliseconds frame_budget)
     : raster_time_(frame_budget), ui_time_(frame_budget) {}

 CompositorContext::~CompositorContext() = default;

 void CompositorContext::BeginFrame(ScopedFrame& frame,
                                    bool enable_instrumentation) {
   if (enable_instrumentation) {
     frame_count_.Increment();
     raster_time_.Start();
   }
 }

 void CompositorContext::EndFrame(ScopedFrame& frame,
                                  bool enable_instrumentation) {
   raster_cache_.SweepAfterFrame();
   if (enable_instrumentation) {
     raster_time_.Stop();
   }
 }

 std::unique_ptr<CompositorContext::ScopedFrame> CompositorContext::AcquireFrame(
     GrContext* gr_context,
     SkCanvas* canvas,
     ExternalViewEmbedder* view_embedder,
     const SkMatrix& root_surface_transformation,
     bool instrumentation_enabled,
     bool surface_supports_readback,
     fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger) {
   return std::make_unique<ScopedFrame>(
       *this, gr_context, canvas, view_embedder, root_surface_transformation,
       instrumentation_enabled, surface_supports_readback, raster_thread_merger);
 }

 CompositorContext::ScopedFrame::ScopedFrame(
     CompositorContext& context,
     GrContext* gr_context,
     SkCanvas* canvas,
     ExternalViewEmbedder* view_embedder,
     const SkMatrix& root_surface_transformation,
     bool instrumentation_enabled,
     bool surface_supports_readback,
     fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger)
     : context_(context),
       gr_context_(gr_context),
       canvas_(canvas),
       view_embedder_(view_embedder),
       root_surface_transformation_(root_surface_transformation),
       instrumentation_enabled_(instrumentation_enabled),
       surface_supports_readback_(surface_supports_readback),
       raster_thread_merger_(raster_thread_merger) {
   context_.BeginFrame(*this, instrumentation_enabled_);
 }

 CompositorContext::ScopedFrame::~ScopedFrame() {
   context_.EndFrame(*this, instrumentation_enabled_);
 }

 RasterStatus CompositorContext::ScopedFrame::Raster(
     flutter::LayerTree& layer_tree,
     bool ignore_raster_cache) {
   TRACE_EVENT0("flutter", "CompositorContext::ScopedFrame::Raster");
   bool root_needs_readback = layer_tree.Preroll(*this, ignore_raster_cache);
   bool needs_save_layer = root_needs_readback && !surface_supports_readback();
   PostPrerollResult post_preroll_result = PostPrerollResult::kSuccess;
   if (view_embedder_ && raster_thread_merger_) {
     post_preroll_result =
         view_embedder_->PostPrerollAction(raster_thread_merger_);
   }

   if (post_preroll_result == PostPrerollResult::kResubmitFrame) {
     return RasterStatus::kResubmit;
   }
   // Clearing canvas after preroll reduces one render target switch when preroll
   // paints some raster cache.
   if (canvas()) {
     if (needs_save_layer) {
       FML_LOG(INFO) << "Using SaveLayer to protect non-readback surface";
       SkRect bounds = SkRect::Make(layer_tree.frame_size());
       SkPaint paint;
       paint.setBlendMode(SkBlendMode::kSrc);
       canvas()->saveLayer(&bounds, &paint);
     }
     canvas()->clear(SK_ColorTRANSPARENT);
   }
   layer_tree.Paint(*this, ignore_raster_cache);
   if (canvas() && needs_save_layer) {
     canvas()->restore();
   }
   return RasterStatus::kSuccess;
 }

 void CompositorContext::OnGrContextCreated() {
   texture_registry_.OnGrContextCreated();
   raster_cache_.Clear();
 }

 void CompositorContext::OnGrContextDestroyed() {
   texture_registry_.OnGrContextDestroyed();
   raster_cache_.Clear();
 }

 }  // namespace flutter
	// Copyright 2013 The Flutter 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 "flutter/flow/compositor_context.h"

	#include "flutter/flow/layers/layer_tree.h"
	#include "third_party/skia/include/core/SkCanvas.h"

	namespace flutter {

	CompositorContext::CompositorContext(fml::Milliseconds frame_budget)
	: raster_time_(frame_budget), ui_time_(frame_budget) {}

	CompositorContext::~CompositorContext() = default;

	void CompositorContext::BeginFrame(ScopedFrame& frame,
	bool enable_instrumentation) {
	if (enable_instrumentation) {
	frame_count_.Increment();
	raster_time_.Start();
	}
	}

	void CompositorContext::EndFrame(ScopedFrame& frame,
	bool enable_instrumentation) {
	raster_cache_.SweepAfterFrame();
	if (enable_instrumentation) {
	raster_time_.Stop();
	}
	}

	std::unique_ptr<CompositorContext::ScopedFrame> CompositorContext::AcquireFrame(
	GrContext* gr_context,
	SkCanvas* canvas,
	ExternalViewEmbedder* view_embedder,
	const SkMatrix& root_surface_transformation,
	bool instrumentation_enabled,
	bool surface_supports_readback,
	fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger) {
	return std::make_unique<ScopedFrame>(
	*this, gr_context, canvas, view_embedder, root_surface_transformation,
	instrumentation_enabled, surface_supports_readback, raster_thread_merger);
	}

	CompositorContext::ScopedFrame::ScopedFrame(
	CompositorContext& context,
	GrContext* gr_context,
	SkCanvas* canvas,
	ExternalViewEmbedder* view_embedder,
	const SkMatrix& root_surface_transformation,
	bool instrumentation_enabled,
	bool surface_supports_readback,
	fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger)
	: context_(context),
	gr_context_(gr_context),
	canvas_(canvas),
	view_embedder_(view_embedder),
	root_surface_transformation_(root_surface_transformation),
	instrumentation_enabled_(instrumentation_enabled),
	surface_supports_readback_(surface_supports_readback),
	raster_thread_merger_(raster_thread_merger) {
	context_.BeginFrame(*this, instrumentation_enabled_);
	}

	CompositorContext::ScopedFrame::~ScopedFrame() {
	context_.EndFrame(*this, instrumentation_enabled_);
	}

	RasterStatus CompositorContext::ScopedFrame::Raster(
	flutter::LayerTree& layer_tree,
	bool ignore_raster_cache) {
	TRACE_EVENT0("flutter", "CompositorContext::ScopedFrame::Raster");
	bool root_needs_readback = layer_tree.Preroll(*this, ignore_raster_cache);
	bool needs_save_layer = root_needs_readback && !surface_supports_readback();
	PostPrerollResult post_preroll_result = PostPrerollResult::kSuccess;
	if (view_embedder_ && raster_thread_merger_) {
	post_preroll_result =
	view_embedder_->PostPrerollAction(raster_thread_merger_);
	}

	if (post_preroll_result == PostPrerollResult::kResubmitFrame) {
	return RasterStatus::kResubmit;
	}
	// Clearing canvas after preroll reduces one render target switch when preroll
	// paints some raster cache.
	if (canvas()) {
	if (needs_save_layer) {
	FML_LOG(INFO) << "Using SaveLayer to protect non-readback surface";
	SkRect bounds = SkRect::Make(layer_tree.frame_size());
	SkPaint paint;
	paint.setBlendMode(SkBlendMode::kSrc);
	canvas()->saveLayer(&bounds, &paint);
	}
	canvas()->clear(SK_ColorTRANSPARENT);
	}
	layer_tree.Paint(*this, ignore_raster_cache);
	if (canvas() && needs_save_layer) {
	canvas()->restore();
	}
	return RasterStatus::kSuccess;
	}

	void CompositorContext::OnGrContextCreated() {
	texture_registry_.OnGrContextCreated();
	raster_cache_.Clear();
	}

	void CompositorContext::OnGrContextDestroyed() {
	texture_registry_.OnGrContextDestroyed();
	raster_cache_.Clear();
	}

	} // namespace flutter