src/libANGLE/Observer.h - experimental/angle/angle - Git at Google

 //
 // Copyright 2016 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // Observer:
 //   Implements the Observer pattern for sending state change notifications
 //   from Subject objects to dependent Observer objects.
 //
 //   See design document:
 //   https://docs.google.com/document/d/15Edfotqg6_l1skTEL8ADQudF_oIdNa7i8Po43k6jMd4/

 #ifndef LIBANGLE_OBSERVER_H_
 #define LIBANGLE_OBSERVER_H_

 #include "common/FastVector.h"
 #include "common/angleutils.h"
 #include "libANGLE/Constants.h"

 namespace angle
 {
 template <typename HaystackT, typename NeedleT>
 bool IsInContainer(const HaystackT &haystack, const NeedleT &needle)
 {
     return std::find(haystack.begin(), haystack.end(), needle) != haystack.end();
 }

 using SubjectIndex = size_t;

 // Messages are used to distinguish different Subject events that get sent to a single Observer.
 // It could be possible to improve the handling by using different callback functions instead
 // of a single handler function. But in some cases we want to share a single binding between
 // Observer and Subject and handle different types of events.
 enum class SubjectMessage
 {
     // Used by gl::VertexArray to notify gl::Context of a gl::Buffer binding count change. Triggers
     // a validation cache update. Also used by gl::Texture to notify gl::Framebuffer of loops.
     BindingChanged,

     // Only the contents (pixels, bytes, etc) changed in this Subject. Distinct from the object
     // storage.
     ContentsChanged,

     // Sent by gl::Sampler, gl::Texture, gl::Framebuffer and others to notifiy gl::Context. This
     // flag indicates to call syncState before next use.
     DirtyBitsFlagged,

     // Generic state change message. Used in multiple places for different purposes.
     SubjectChanged,

     // Indicates a bound gl::Buffer is now mapped or unmapped. Passed from gl::Buffer, through
     // gl::VertexArray, into gl::Context. Used to track validation.
     SubjectMapped,
     SubjectUnmapped,
     // Indicates a bound buffer's storage was reallocated due to glBufferData call or optimizations
     // to prevent having to flush pending commands and waiting for the GPU to become idle.
     InternalMemoryAllocationChanged,

     // Indicates an external change to the default framebuffer.
     SurfaceChanged,
     // Indicates the system framebuffer's swapchain changed, i.e. color buffer changed but no
     // depth/stencil buffer change.
     SwapchainImageChanged,

     // Indicates a separable program's textures or images changed in the ProgramExecutable.
     ProgramTextureOrImageBindingChanged,
     // Indicates a program or pipeline is being re-linked.  This is used to make sure the Context or
     // ProgramPipeline that reference the program/pipeline wait for it to finish linking.
     ProgramUnlinked,
     // Indicates a program or pipeline was successfully re-linked.
     ProgramRelinked,
     // Indicates a separable program's sampler uniforms were updated.
     SamplerUniformsUpdated,
     // Other types of uniform change.
     ProgramUniformUpdated,
     // Indicates a program's uniform block binding has changed (one message per binding)
     ProgramUniformBlockBindingZeroUpdated,
     ProgramUniformBlockBindingLastUpdated = ProgramUniformBlockBindingZeroUpdated +
                                             gl::IMPLEMENTATION_MAX_COMBINED_SHADER_UNIFORM_BUFFERS -
                                             1,

     // Indicates a Storage of back-end in gl::Texture has been released.
     StorageReleased,

     // Sent when the GLuint ID for a gl::Texture is being deleted via glDeleteTextures. The
     // texture may stay alive due to orphaning, but will no longer be directly accessible by the GL
     // API.
     TextureIDDeleted,

     // Indicates that all pending updates are complete in the subject.
     InitializationComplete,

     // Indicates a change in foveated rendering state in the subject.
     FoveatedRenderingStateChanged,
 };

 inline bool IsProgramUniformBlockBindingUpdatedMessage(SubjectMessage message)
 {
     return message >= SubjectMessage::ProgramUniformBlockBindingZeroUpdated &&
            message <= SubjectMessage::ProgramUniformBlockBindingLastUpdated;
 }
 inline SubjectMessage ProgramUniformBlockBindingUpdatedMessageFromIndex(uint32_t blockIndex)
 {
     return static_cast<SubjectMessage>(
         static_cast<uint32_t>(SubjectMessage::ProgramUniformBlockBindingZeroUpdated) + blockIndex);
 }
 inline uint32_t ProgramUniformBlockBindingUpdatedMessageToIndex(SubjectMessage message)
 {
     return static_cast<uint32_t>(message) -
            static_cast<uint32_t>(SubjectMessage::ProgramUniformBlockBindingZeroUpdated);
 }

 // The observing class inherits from this interface class.
 class ObserverInterface
 {
   public:
     virtual ~ObserverInterface();
     virtual void onSubjectStateChange(SubjectIndex index, SubjectMessage message) = 0;
 };

 class ObserverBindingBase
 {
   public:
     ObserverBindingBase(ObserverInterface *observer, SubjectIndex subjectIndex)
         : mObserver(observer), mIndex(subjectIndex)
     {}
     virtual ~ObserverBindingBase() {}

     ObserverBindingBase(const ObserverBindingBase &other)            = default;
     ObserverBindingBase &operator=(const ObserverBindingBase &other) = default;

     ObserverInterface *getObserver() const { return mObserver; }
     SubjectIndex getSubjectIndex() const { return mIndex; }

     virtual void onSubjectReset() {}

   private:
     ObserverInterface *mObserver;
     SubjectIndex mIndex;
 };

 constexpr size_t kMaxFixedObservers = 8;

 // Maintains a list of observer bindings. Sends update messages to the observer.
 class Subject : NonCopyable
 {
   public:
     Subject();
     virtual ~Subject();

     void onStateChange(SubjectMessage message) const;
     bool hasObservers() const;
     void resetObservers();
     ANGLE_INLINE size_t getObserversCount() const { return mObservers.size(); }

     ANGLE_INLINE void addObserver(ObserverBindingBase *observer)
     {
         ASSERT(!IsInContainer(mObservers, observer));
         mObservers.push_back(observer);
     }
     ANGLE_INLINE void removeObserver(ObserverBindingBase *observer)
     {
         ASSERT(IsInContainer(mObservers, observer));
         mObservers.remove_and_permute(observer);
     }

   private:
     // Keep a short list of observers so we can allocate/free them quickly. But since we support
     // unlimited bindings, have a spill-over list of that uses dynamic allocation.
     angle::FastVector<ObserverBindingBase *, kMaxFixedObservers> mObservers;
 };

 // Keeps a binding between a Subject and Observer, with a specific subject index.
 class ObserverBinding final : public ObserverBindingBase
 {
   public:
     ObserverBinding();
     ObserverBinding(ObserverInterface *observer, SubjectIndex index);
     ~ObserverBinding() override;
     ObserverBinding(const ObserverBinding &other);
     ObserverBinding &operator=(const ObserverBinding &other);

     void bind(Subject *subject);

     ANGLE_INLINE void reset() { bind(nullptr); }

     void onStateChange(SubjectMessage message) const;
     void onSubjectReset() override;

     ANGLE_INLINE const Subject *getSubject() const { return mSubject; }

     ANGLE_INLINE void assignSubject(Subject *subject) { mSubject = subject; }

   private:
     Subject *mSubject;
 };

 }  // namespace angle

 #endif  // LIBANGLE_OBSERVER_H_
	//
	// Copyright 2016 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// Observer:
	// Implements the Observer pattern for sending state change notifications
	// from Subject objects to dependent Observer objects.
	//
	// See design document:
	// https://docs.google.com/document/d/15Edfotqg6_l1skTEL8ADQudF_oIdNa7i8Po43k6jMd4/

	#ifndef LIBANGLE_OBSERVER_H_
	#define LIBANGLE_OBSERVER_H_

	#include "common/FastVector.h"
	#include "common/angleutils.h"
	#include "libANGLE/Constants.h"

	namespace angle
	{
	template <typename HaystackT, typename NeedleT>
	bool IsInContainer(const HaystackT &haystack, const NeedleT &needle)
	{
	return std::find(haystack.begin(), haystack.end(), needle) != haystack.end();
	}

	using SubjectIndex = size_t;

	// Messages are used to distinguish different Subject events that get sent to a single Observer.
	// It could be possible to improve the handling by using different callback functions instead
	// of a single handler function. But in some cases we want to share a single binding between
	// Observer and Subject and handle different types of events.
	enum class SubjectMessage
	{
	// Used by gl::VertexArray to notify gl::Context of a gl::Buffer binding count change. Triggers
	// a validation cache update. Also used by gl::Texture to notify gl::Framebuffer of loops.
	BindingChanged,

	// Only the contents (pixels, bytes, etc) changed in this Subject. Distinct from the object
	// storage.
	ContentsChanged,

	// Sent by gl::Sampler, gl::Texture, gl::Framebuffer and others to notifiy gl::Context. This
	// flag indicates to call syncState before next use.
	DirtyBitsFlagged,

	// Generic state change message. Used in multiple places for different purposes.
	SubjectChanged,

	// Indicates a bound gl::Buffer is now mapped or unmapped. Passed from gl::Buffer, through
	// gl::VertexArray, into gl::Context. Used to track validation.
	SubjectMapped,
	SubjectUnmapped,
	// Indicates a bound buffer's storage was reallocated due to glBufferData call or optimizations
	// to prevent having to flush pending commands and waiting for the GPU to become idle.
	InternalMemoryAllocationChanged,

	// Indicates an external change to the default framebuffer.
	SurfaceChanged,
	// Indicates the system framebuffer's swapchain changed, i.e. color buffer changed but no
	// depth/stencil buffer change.
	SwapchainImageChanged,

	// Indicates a separable program's textures or images changed in the ProgramExecutable.
	ProgramTextureOrImageBindingChanged,
	// Indicates a program or pipeline is being re-linked. This is used to make sure the Context or
	// ProgramPipeline that reference the program/pipeline wait for it to finish linking.
	ProgramUnlinked,
	// Indicates a program or pipeline was successfully re-linked.
	ProgramRelinked,
	// Indicates a separable program's sampler uniforms were updated.
	SamplerUniformsUpdated,
	// Other types of uniform change.
	ProgramUniformUpdated,
	// Indicates a program's uniform block binding has changed (one message per binding)
	ProgramUniformBlockBindingZeroUpdated,
	ProgramUniformBlockBindingLastUpdated = ProgramUniformBlockBindingZeroUpdated +
	gl::IMPLEMENTATION_MAX_COMBINED_SHADER_UNIFORM_BUFFERS -
	1,

	// Indicates a Storage of back-end in gl::Texture has been released.
	StorageReleased,

	// Sent when the GLuint ID for a gl::Texture is being deleted via glDeleteTextures. The
	// texture may stay alive due to orphaning, but will no longer be directly accessible by the GL
	// API.
	TextureIDDeleted,

	// Indicates that all pending updates are complete in the subject.
	InitializationComplete,

	// Indicates a change in foveated rendering state in the subject.
	FoveatedRenderingStateChanged,
	};

	inline bool IsProgramUniformBlockBindingUpdatedMessage(SubjectMessage message)
	{
	return message >= SubjectMessage::ProgramUniformBlockBindingZeroUpdated &&
	message <= SubjectMessage::ProgramUniformBlockBindingLastUpdated;
	}
	inline SubjectMessage ProgramUniformBlockBindingUpdatedMessageFromIndex(uint32_t blockIndex)
	{
	return static_cast<SubjectMessage>(
	static_cast<uint32_t>(SubjectMessage::ProgramUniformBlockBindingZeroUpdated) + blockIndex);
	}
	inline uint32_t ProgramUniformBlockBindingUpdatedMessageToIndex(SubjectMessage message)
	{
	return static_cast<uint32_t>(message) -
	static_cast<uint32_t>(SubjectMessage::ProgramUniformBlockBindingZeroUpdated);
	}

	// The observing class inherits from this interface class.
	class ObserverInterface
	{
	public:
	virtual ~ObserverInterface();
	virtual void onSubjectStateChange(SubjectIndex index, SubjectMessage message) = 0;
	};

	class ObserverBindingBase
	{
	public:
	ObserverBindingBase(ObserverInterface *observer, SubjectIndex subjectIndex)
	: mObserver(observer), mIndex(subjectIndex)
	{}
	virtual ~ObserverBindingBase() {}

	ObserverBindingBase(const ObserverBindingBase &other) = default;
	ObserverBindingBase &operator=(const ObserverBindingBase &other) = default;

	ObserverInterface *getObserver() const { return mObserver; }
	SubjectIndex getSubjectIndex() const { return mIndex; }

	virtual void onSubjectReset() {}

	private:
	ObserverInterface *mObserver;
	SubjectIndex mIndex;
	};

	constexpr size_t kMaxFixedObservers = 8;

	// Maintains a list of observer bindings. Sends update messages to the observer.
	class Subject : NonCopyable
	{
	public:
	Subject();
	virtual ~Subject();

	void onStateChange(SubjectMessage message) const;
	bool hasObservers() const;
	void resetObservers();
	ANGLE_INLINE size_t getObserversCount() const { return mObservers.size(); }

	ANGLE_INLINE void addObserver(ObserverBindingBase *observer)
	{
	ASSERT(!IsInContainer(mObservers, observer));
	mObservers.push_back(observer);
	}
	ANGLE_INLINE void removeObserver(ObserverBindingBase *observer)
	{
	ASSERT(IsInContainer(mObservers, observer));
	mObservers.remove_and_permute(observer);
	}

	private:
	// Keep a short list of observers so we can allocate/free them quickly. But since we support
	// unlimited bindings, have a spill-over list of that uses dynamic allocation.
	angle::FastVector<ObserverBindingBase *, kMaxFixedObservers> mObservers;
	};

	// Keeps a binding between a Subject and Observer, with a specific subject index.
	class ObserverBinding final : public ObserverBindingBase
	{
	public:
	ObserverBinding();
	ObserverBinding(ObserverInterface *observer, SubjectIndex index);
	~ObserverBinding() override;
	ObserverBinding(const ObserverBinding &other);
	ObserverBinding &operator=(const ObserverBinding &other);

	void bind(Subject *subject);

	ANGLE_INLINE void reset() { bind(nullptr); }

	void onStateChange(SubjectMessage message) const;
	void onSubjectReset() override;

	ANGLE_INLINE const Subject *getSubject() const { return mSubject; }

	ANGLE_INLINE void assignSubject(Subject *subject) { mSubject = subject; }

	private:
	Subject *mSubject;
	};

	} // namespace angle

	#endif // LIBANGLE_OBSERVER_H_