flow/scene_update_context.h - 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.

 #ifndef FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_
 #define FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_

 #include <cfloat>
 #include <memory>
 #include <set>
 #include <vector>

 #include "flutter/flow/compositor_context.h"
 #include "flutter/flow/raster_cache_key.h"
 #include "flutter/fml/compiler_specific.h"
 #include "flutter/fml/logging.h"
 #include "flutter/fml/macros.h"
 #include "lib/ui/scenic/cpp/resources.h"
 #include "third_party/skia/include/core/SkRect.h"
 #include "third_party/skia/include/core/SkSurface.h"

 namespace flutter {

 class Layer;

 // Scenic currently lacks an API to enable rendering of alpha channel; this only
 // happens if there is a OpacityNode higher in the tree with opacity != 1. For
 // now, clamp to a infinitesimally smaller value than 1, which does not cause
 // visual problems in practice.
 constexpr float kOneMinusEpsilon = 1 - FLT_EPSILON;

 // How much layers are separated in Scenic z elevation.
 constexpr float kScenicZElevationBetweenLayers = 10.f;

 class SceneUpdateContext {
  public:
   class SurfaceProducerSurface {
    public:
     virtual ~SurfaceProducerSurface() = default;

     virtual size_t AdvanceAndGetAge() = 0;

     virtual bool FlushSessionAcquireAndReleaseEvents() = 0;

     virtual bool IsValid() const = 0;

     virtual SkISize GetSize() const = 0;

     virtual void SignalWritesFinished(
         const std::function<void(void)>& on_writes_committed) = 0;

     virtual scenic::Image* GetImage() = 0;

     virtual sk_sp<SkSurface> GetSkiaSurface() const = 0;
   };

   class SurfaceProducer {
    public:
     virtual ~SurfaceProducer() = default;

     // The produced surface owns the entity_node and has a layer_key for
     // retained rendering. The surface will only be retained if the layer_key
     // has a non-null layer pointer (layer_key.id()).
     virtual std::unique_ptr<SurfaceProducerSurface> ProduceSurface(
         const SkISize& size,
         const LayerRasterCacheKey& layer_key,
         std::unique_ptr<scenic::EntityNode> entity_node) = 0;

     // Query a retained entity node (owned by a retained surface) for retained
     // rendering.
     virtual bool HasRetainedNode(const LayerRasterCacheKey& key) const = 0;
     virtual scenic::EntityNode* GetRetainedNode(
         const LayerRasterCacheKey& key) = 0;

     virtual void SubmitSurface(
         std::unique_ptr<SurfaceProducerSurface> surface) = 0;
   };

   class Entity {
    public:
     Entity(SceneUpdateContext& context);
     virtual ~Entity();

     SceneUpdateContext& context() { return context_; }
     scenic::EntityNode& entity_node() { return entity_node_; }
     virtual scenic::ContainerNode& embedder_node() { return entity_node_; }

    private:
     SceneUpdateContext& context_;
     Entity* const previous_entity_;

     scenic::EntityNode entity_node_;
   };

   class Transform : public Entity {
    public:
     Transform(SceneUpdateContext& context, const SkMatrix& transform);
     Transform(SceneUpdateContext& context,
               float scale_x,
               float scale_y,
               float scale_z);
     virtual ~Transform();

    private:
     float const previous_scale_x_;
     float const previous_scale_y_;
   };

   class Frame : public Entity {
    public:
     // When layer is not nullptr, the frame is associated with a layer subtree
     // rooted with that layer. The frame may then create a surface that will be
     // retained for that layer.
     Frame(SceneUpdateContext& context,
           const SkRRect& rrect,
           SkColor color,
           SkAlpha opacity,
           std::string label,
           float z_translation = 0.0f,
           Layer* layer = nullptr);
     virtual ~Frame();

     scenic::ContainerNode& embedder_node() override { return opacity_node_; }

     void AddPaintLayer(Layer* layer);

    private:
     const SkRRect rrect_;
     SkColor const color_;
     SkAlpha const opacity_;

     scenic::OpacityNodeHACK opacity_node_;
     std::vector<Layer*> paint_layers_;
     SkRect paint_bounds_;
     Layer* layer_;
   };

   class Clip : public Entity {
    public:
     Clip(SceneUpdateContext& context, const SkRect& shape_bounds);
     ~Clip() = default;
   };

   SceneUpdateContext(scenic::Session* session,
                      SurfaceProducer* surface_producer);
   ~SceneUpdateContext() = default;

   scenic::Session* session() { return session_; }

   Entity* top_entity() { return top_entity_; }

   bool has_metrics() const { return !!metrics_; }
   void set_metrics(fuchsia::ui::gfx::MetricsPtr metrics) {
     metrics_ = std::move(metrics);
   }
   const fuchsia::ui::gfx::MetricsPtr& metrics() const { return metrics_; }

   void set_dimensions(const SkISize& frame_physical_size,
                       float frame_physical_depth,
                       float frame_device_pixel_ratio) {
     frame_physical_size_ = frame_physical_size;
     frame_physical_depth_ = frame_physical_depth;
     frame_device_pixel_ratio_ = frame_device_pixel_ratio;
   }
   const SkISize& frame_size() const { return frame_physical_size_; }
   float frame_physical_depth() const { return frame_physical_depth_; }
   float frame_device_pixel_ratio() const { return frame_device_pixel_ratio_; }

   // TODO(chinmaygarde): This method must submit the surfaces as soon as paint
   // tasks are done. However, given that there is no support currently for
   // Vulkan semaphores, we need to submit all the surfaces after an explicit
   // CPU wait. Once Vulkan semaphores are available, this method must return
   // void and the implementation must submit surfaces on its own as soon as the
   // specific canvas operations are done.
   [[nodiscard]] std::vector<std::unique_ptr<SurfaceProducerSurface>>
   ExecutePaintTasks(CompositorContext::ScopedFrame& frame);

   float ScaleX() const { return metrics_->scale_x * top_scale_x_; }
   float ScaleY() const { return metrics_->scale_y * top_scale_y_; }

   // The transformation matrix of the current context. It's used to construct
   // the LayerRasterCacheKey for a given layer.
   SkMatrix Matrix() const { return SkMatrix::MakeScale(ScaleX(), ScaleY()); }

   bool HasRetainedNode(const LayerRasterCacheKey& key) const {
     return surface_producer_->HasRetainedNode(key);
   }
   scenic::EntityNode* GetRetainedNode(const LayerRasterCacheKey& key) {
     return surface_producer_->GetRetainedNode(key);
   }

   // The cumulative alpha value based on all the parent OpacityLayers.
   void set_alphaf(float alpha) { alpha_ = alpha; }
   float alphaf() { return alpha_; }

   // The global scenic elevation at a given point in the traversal.
   float scenic_elevation() { return scenic_elevation_; }

   void set_scenic_elevation(float elevation) { scenic_elevation_ = elevation; }

   float GetGlobalElevationForNextScenicLayer() {
     float elevation = topmost_global_scenic_elevation_;
     topmost_global_scenic_elevation_ += kScenicZElevationBetweenLayers;
     return elevation;
   }

  private:
   struct PaintTask {
     std::unique_ptr<SurfaceProducerSurface> surface;
     SkScalar left;
     SkScalar top;
     SkScalar scale_x;
     SkScalar scale_y;
     SkColor background_color;
     std::vector<Layer*> layers;
   };

   // Setup the entity_node as a frame that materialize all the paint_layers. In
   // most cases, this creates a VulkanSurface (SurfaceProducerSurface) by
   // calling SetShapeTextureOrColor and GenerageImageIfNeeded. Such surface will
   // own the associated entity_node. If the layer pointer isn't nullptr, the
   // surface (and thus the entity_node) will be retained for that layer to
   // improve the performance.
   void CreateFrame(scenic::EntityNode entity_node,
                    const SkRRect& rrect,
                    SkColor color,
                    SkAlpha opacity,
                    const SkRect& paint_bounds,
                    std::vector<Layer*> paint_layers,
                    Layer* layer);
   void SetMaterialTextureAndColor(scenic::Material& material,
                                   SkColor color,
                                   SkAlpha opacity,
                                   SkScalar scale_x,
                                   SkScalar scale_y,
                                   const SkRect& paint_bounds,
                                   std::vector<Layer*> paint_layers,
                                   Layer* layer,
                                   scenic::EntityNode entity_node);
   void SetMaterialColor(scenic::Material& material,
                         SkColor color,
                         SkAlpha opacity);
   scenic::Image* GenerateImageIfNeeded(SkColor color,
                                        SkScalar scale_x,
                                        SkScalar scale_y,
                                        const SkRect& paint_bounds,
                                        std::vector<Layer*> paint_layers,
                                        Layer* layer,
                                        scenic::EntityNode entity_node);

   Entity* top_entity_ = nullptr;
   float top_scale_x_ = 1.f;
   float top_scale_y_ = 1.f;

   scenic::Session* const session_;
   SurfaceProducer* const surface_producer_;

   fuchsia::ui::gfx::MetricsPtr metrics_;
   SkISize frame_physical_size_;
   float frame_physical_depth_ = 0.0f;
   float frame_device_pixel_ratio_ =
       1.0f;  // Ratio between logical and physical pixels.

   float alpha_ = 1.0f;
   float scenic_elevation_ = 0.f;
   float topmost_global_scenic_elevation_ = kScenicZElevationBetweenLayers;

   std::vector<PaintTask> paint_tasks_;

   FML_DISALLOW_COPY_AND_ASSIGN(SceneUpdateContext);
 };

 }  // namespace flutter

 #endif  // FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_
	// 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.

	#ifndef FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_
	#define FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_

	#include <cfloat>
	#include <memory>
	#include <set>
	#include <vector>

	#include "flutter/flow/compositor_context.h"
	#include "flutter/flow/raster_cache_key.h"
	#include "flutter/fml/compiler_specific.h"
	#include "flutter/fml/logging.h"
	#include "flutter/fml/macros.h"
	#include "lib/ui/scenic/cpp/resources.h"
	#include "third_party/skia/include/core/SkRect.h"
	#include "third_party/skia/include/core/SkSurface.h"

	namespace flutter {

	class Layer;

	// Scenic currently lacks an API to enable rendering of alpha channel; this only
	// happens if there is a OpacityNode higher in the tree with opacity != 1. For
	// now, clamp to a infinitesimally smaller value than 1, which does not cause
	// visual problems in practice.
	constexpr float kOneMinusEpsilon = 1 - FLT_EPSILON;

	// How much layers are separated in Scenic z elevation.
	constexpr float kScenicZElevationBetweenLayers = 10.f;

	class SceneUpdateContext {
	public:
	class SurfaceProducerSurface {
	public:
	virtual ~SurfaceProducerSurface() = default;

	virtual size_t AdvanceAndGetAge() = 0;

	virtual bool FlushSessionAcquireAndReleaseEvents() = 0;

	virtual bool IsValid() const = 0;

	virtual SkISize GetSize() const = 0;

	virtual void SignalWritesFinished(
	const std::function<void(void)>& on_writes_committed) = 0;

	virtual scenic::Image* GetImage() = 0;

	virtual sk_sp<SkSurface> GetSkiaSurface() const = 0;
	};

	class SurfaceProducer {
	public:
	virtual ~SurfaceProducer() = default;

	// The produced surface owns the entity_node and has a layer_key for
	// retained rendering. The surface will only be retained if the layer_key
	// has a non-null layer pointer (layer_key.id()).
	virtual std::unique_ptr<SurfaceProducerSurface> ProduceSurface(
	const SkISize& size,
	const LayerRasterCacheKey& layer_key,
	std::unique_ptr<scenic::EntityNode> entity_node) = 0;

	// Query a retained entity node (owned by a retained surface) for retained
	// rendering.
	virtual bool HasRetainedNode(const LayerRasterCacheKey& key) const = 0;
	virtual scenic::EntityNode* GetRetainedNode(
	const LayerRasterCacheKey& key) = 0;

	virtual void SubmitSurface(
	std::unique_ptr<SurfaceProducerSurface> surface) = 0;
	};

	class Entity {
	public:
	Entity(SceneUpdateContext& context);
	virtual ~Entity();

	SceneUpdateContext& context() { return context_; }
	scenic::EntityNode& entity_node() { return entity_node_; }
	virtual scenic::ContainerNode& embedder_node() { return entity_node_; }

	private:
	SceneUpdateContext& context_;
	Entity* const previous_entity_;

	scenic::EntityNode entity_node_;
	};

	class Transform : public Entity {
	public:
	Transform(SceneUpdateContext& context, const SkMatrix& transform);
	Transform(SceneUpdateContext& context,
	float scale_x,
	float scale_y,
	float scale_z);
	virtual ~Transform();

	private:
	float const previous_scale_x_;
	float const previous_scale_y_;
	};

	class Frame : public Entity {
	public:
	// When layer is not nullptr, the frame is associated with a layer subtree
	// rooted with that layer. The frame may then create a surface that will be
	// retained for that layer.
	Frame(SceneUpdateContext& context,
	const SkRRect& rrect,
	SkColor color,
	SkAlpha opacity,
	std::string label,
	float z_translation = 0.0f,
	Layer* layer = nullptr);
	virtual ~Frame();

	scenic::ContainerNode& embedder_node() override { return opacity_node_; }

	void AddPaintLayer(Layer* layer);

	private:
	const SkRRect rrect_;
	SkColor const color_;
	SkAlpha const opacity_;

	scenic::OpacityNodeHACK opacity_node_;
	std::vector<Layer*> paint_layers_;
	SkRect paint_bounds_;
	Layer* layer_;
	};

	class Clip : public Entity {
	public:
	Clip(SceneUpdateContext& context, const SkRect& shape_bounds);
	~Clip() = default;
	};

	SceneUpdateContext(scenic::Session* session,
	SurfaceProducer* surface_producer);
	~SceneUpdateContext() = default;

	scenic::Session* session() { return session_; }

	Entity* top_entity() { return top_entity_; }

	bool has_metrics() const { return !!metrics_; }
	void set_metrics(fuchsia::ui::gfx::MetricsPtr metrics) {
	metrics_ = std::move(metrics);
	}
	const fuchsia::ui::gfx::MetricsPtr& metrics() const { return metrics_; }

	void set_dimensions(const SkISize& frame_physical_size,
	float frame_physical_depth,
	float frame_device_pixel_ratio) {
	frame_physical_size_ = frame_physical_size;
	frame_physical_depth_ = frame_physical_depth;
	frame_device_pixel_ratio_ = frame_device_pixel_ratio;
	}
	const SkISize& frame_size() const { return frame_physical_size_; }
	float frame_physical_depth() const { return frame_physical_depth_; }
	float frame_device_pixel_ratio() const { return frame_device_pixel_ratio_; }

	// TODO(chinmaygarde): This method must submit the surfaces as soon as paint
	// tasks are done. However, given that there is no support currently for
	// Vulkan semaphores, we need to submit all the surfaces after an explicit
	// CPU wait. Once Vulkan semaphores are available, this method must return
	// void and the implementation must submit surfaces on its own as soon as the
	// specific canvas operations are done.
	[[nodiscard]] std::vector<std::unique_ptr<SurfaceProducerSurface>>
	ExecutePaintTasks(CompositorContext::ScopedFrame& frame);

	float ScaleX() const { return metrics_->scale_x * top_scale_x_; }
	float ScaleY() const { return metrics_->scale_y * top_scale_y_; }

	// The transformation matrix of the current context. It's used to construct
	// the LayerRasterCacheKey for a given layer.
	SkMatrix Matrix() const { return SkMatrix::MakeScale(ScaleX(), ScaleY()); }

	bool HasRetainedNode(const LayerRasterCacheKey& key) const {
	return surface_producer_->HasRetainedNode(key);
	}
	scenic::EntityNode* GetRetainedNode(const LayerRasterCacheKey& key) {
	return surface_producer_->GetRetainedNode(key);
	}

	// The cumulative alpha value based on all the parent OpacityLayers.
	void set_alphaf(float alpha) { alpha_ = alpha; }
	float alphaf() { return alpha_; }

	// The global scenic elevation at a given point in the traversal.
	float scenic_elevation() { return scenic_elevation_; }

	void set_scenic_elevation(float elevation) { scenic_elevation_ = elevation; }

	float GetGlobalElevationForNextScenicLayer() {
	float elevation = topmost_global_scenic_elevation_;
	topmost_global_scenic_elevation_ += kScenicZElevationBetweenLayers;
	return elevation;
	}

	private:
	struct PaintTask {
	std::unique_ptr<SurfaceProducerSurface> surface;
	SkScalar left;
	SkScalar top;
	SkScalar scale_x;
	SkScalar scale_y;
	SkColor background_color;
	std::vector<Layer*> layers;
	};

	// Setup the entity_node as a frame that materialize all the paint_layers. In
	// most cases, this creates a VulkanSurface (SurfaceProducerSurface) by
	// calling SetShapeTextureOrColor and GenerageImageIfNeeded. Such surface will
	// own the associated entity_node. If the layer pointer isn't nullptr, the
	// surface (and thus the entity_node) will be retained for that layer to
	// improve the performance.
	void CreateFrame(scenic::EntityNode entity_node,
	const SkRRect& rrect,
	SkColor color,
	SkAlpha opacity,
	const SkRect& paint_bounds,
	std::vector<Layer*> paint_layers,
	Layer* layer);
	void SetMaterialTextureAndColor(scenic::Material& material,
	SkColor color,
	SkAlpha opacity,
	SkScalar scale_x,
	SkScalar scale_y,
	const SkRect& paint_bounds,
	std::vector<Layer*> paint_layers,
	Layer* layer,
	scenic::EntityNode entity_node);
	void SetMaterialColor(scenic::Material& material,
	SkColor color,
	SkAlpha opacity);
	scenic::Image* GenerateImageIfNeeded(SkColor color,
	SkScalar scale_x,
	SkScalar scale_y,
	const SkRect& paint_bounds,
	std::vector<Layer*> paint_layers,
	Layer* layer,
	scenic::EntityNode entity_node);

	Entity* top_entity_ = nullptr;
	float top_scale_x_ = 1.f;
	float top_scale_y_ = 1.f;

	scenic::Session* const session_;
	SurfaceProducer* const surface_producer_;

	fuchsia::ui::gfx::MetricsPtr metrics_;
	SkISize frame_physical_size_;
	float frame_physical_depth_ = 0.0f;
	float frame_device_pixel_ratio_ =
	1.0f; // Ratio between logical and physical pixels.

	float alpha_ = 1.0f;
	float scenic_elevation_ = 0.f;
	float topmost_global_scenic_elevation_ = kScenicZElevationBetweenLayers;

	std::vector<PaintTask> paint_tasks_;

	FML_DISALLOW_COPY_AND_ASSIGN(SceneUpdateContext);
	};

	} // namespace flutter

	#endif // FLUTTER_FLOW_SCENE_UPDATE_CONTEXT_H_