src/gpu/graphite/GlobalCache.h - skia - Git at Google

 /*
  * Copyright 2022 Google LLC
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef skgpu_graphite_GlobalCache_DEFINED
 #define skgpu_graphite_GlobalCache_DEFINED

 #include "include/core/SkRefCnt.h"
 #include "include/private/SkSpinlock.h"
 #include "src/core/SkLRUCache.h"
 #include "src/gpu/ResourceKey.h"


 namespace skgpu::graphite {

 class ComputePipeline;
 class GraphicsPipeline;
 class Resource;
 class ShaderCodeDictionary;

 /**
  * GlobalCache holds GPU resources that should be shared by every Recorder. The common requirement
  * of these resources are they are static/read-only, have long lifetimes, and are likely to be used
  * by multiple Recorders. The canonical example of this are pipelines.
  *
  * GlobalCache is thread safe, but intentionally splits queries and storing operations so that they
  * are not atomic. The pattern is to query for a resource, which has a high likelihood of a cache
  * hit. If it's not found, the Recorder creates the resource on its own, without locking the
  * GlobalCache. After the resource is created, it is added to the GlobalCache, atomically returning
  * the winning Resource in the event of a race between Recorders for the same UniqueKey.
  */
 class GlobalCache {
 public:
     GlobalCache();
     ~GlobalCache();

     // Find a cached GraphicsPipeline that matches the associated key.
     sk_sp<GraphicsPipeline> findGraphicsPipeline(const UniqueKey&) SK_EXCLUDES(fSpinLock);
     // Associate the given pipeline with the key. If the key has already had a separate pipeline
     // associated with the key, that pipeline is returned and the passed-in pipeline is discarded.
     // Otherwise, the passed-in pipeline is held by the GlobalCache and also returned back.
     sk_sp<GraphicsPipeline> addGraphicsPipeline(const UniqueKey&,
                                                 sk_sp<GraphicsPipeline>) SK_EXCLUDES(fSpinLock);

 #if GRAPHITE_TEST_UTILS
     int numGraphicsPipelines() const SK_EXCLUDES(fSpinLock);
     void resetGraphicsPipelines() SK_EXCLUDES(fSpinLock);
 #endif

     // Find amd add operations for ComputePipelines, with the same pattern as GraphicsPipelines.
     sk_sp<ComputePipeline> findComputePipeline(const UniqueKey&) SK_EXCLUDES(fSpinLock);
     sk_sp<ComputePipeline> addComputePipeline(const UniqueKey&,
                                               sk_sp<ComputePipeline>) SK_EXCLUDES(fSpinLock);

     // The GlobalCache holds a ref on the given Resource until the cache is destroyed, keeping it
     // alive for the lifetime of the SharedContext. This should be used only for Resources that are
     // immutable after initialization so that anyone can use the resource without synchronization
     // or reference tracking.
     void addStaticResource(sk_sp<Resource>) SK_EXCLUDES(fSpinLock);

 private:
     struct KeyHash {
         uint32_t operator()(const UniqueKey& key) const { return key.hash(); }
     };

     using GraphicsPipelineCache = SkLRUCache<UniqueKey, sk_sp<GraphicsPipeline>, KeyHash>;
     using ComputePipelineCache  = SkLRUCache<UniqueKey, sk_sp<ComputePipeline>,  KeyHash>;

     // TODO: can we do something better given this should have write-seldom/read-often behavior?
     mutable SkSpinlock fSpinLock;

     // GraphicsPipelines and ComputePipelines are expensive to create, likely to be used by multiple
     // Recorders, and are ideally pre-compiled on process startup so thread write-contention is
     // expected to be low. For these reasons we store pipelines globally instead of per-Recorder.
     GraphicsPipelineCache fGraphicsPipelineCache SK_GUARDED_BY(fSpinLock);
     ComputePipelineCache  fComputePipelineCache  SK_GUARDED_BY(fSpinLock);

     SkTArray<sk_sp<Resource>> fStaticResource SK_GUARDED_BY(fSpinLock);
 };

 } // namespace skgpu::graphite

 #endif // skgpu_graphite_GlobalCache_DEFINED
	/*
	* Copyright 2022 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef skgpu_graphite_GlobalCache_DEFINED
	#define skgpu_graphite_GlobalCache_DEFINED

	#include "include/core/SkRefCnt.h"
	#include "include/private/SkSpinlock.h"
	#include "src/core/SkLRUCache.h"
	#include "src/gpu/ResourceKey.h"


	namespace skgpu::graphite {

	class ComputePipeline;
	class GraphicsPipeline;
	class Resource;
	class ShaderCodeDictionary;

	/**
	* GlobalCache holds GPU resources that should be shared by every Recorder. The common requirement
	* of these resources are they are static/read-only, have long lifetimes, and are likely to be used
	* by multiple Recorders. The canonical example of this are pipelines.
	*
	* GlobalCache is thread safe, but intentionally splits queries and storing operations so that they
	* are not atomic. The pattern is to query for a resource, which has a high likelihood of a cache
	* hit. If it's not found, the Recorder creates the resource on its own, without locking the
	* GlobalCache. After the resource is created, it is added to the GlobalCache, atomically returning
	* the winning Resource in the event of a race between Recorders for the same UniqueKey.
	*/
	class GlobalCache {
	public:
	GlobalCache();
	~GlobalCache();

	// Find a cached GraphicsPipeline that matches the associated key.
	sk_sp<GraphicsPipeline> findGraphicsPipeline(const UniqueKey&) SK_EXCLUDES(fSpinLock);
	// Associate the given pipeline with the key. If the key has already had a separate pipeline
	// associated with the key, that pipeline is returned and the passed-in pipeline is discarded.
	// Otherwise, the passed-in pipeline is held by the GlobalCache and also returned back.
	sk_sp<GraphicsPipeline> addGraphicsPipeline(const UniqueKey&,
	sk_sp<GraphicsPipeline>) SK_EXCLUDES(fSpinLock);

	#if GRAPHITE_TEST_UTILS
	int numGraphicsPipelines() const SK_EXCLUDES(fSpinLock);
	void resetGraphicsPipelines() SK_EXCLUDES(fSpinLock);
	#endif

	// Find amd add operations for ComputePipelines, with the same pattern as GraphicsPipelines.
	sk_sp<ComputePipeline> findComputePipeline(const UniqueKey&) SK_EXCLUDES(fSpinLock);
	sk_sp<ComputePipeline> addComputePipeline(const UniqueKey&,
	sk_sp<ComputePipeline>) SK_EXCLUDES(fSpinLock);

	// The GlobalCache holds a ref on the given Resource until the cache is destroyed, keeping it
	// alive for the lifetime of the SharedContext. This should be used only for Resources that are
	// immutable after initialization so that anyone can use the resource without synchronization
	// or reference tracking.
	void addStaticResource(sk_sp<Resource>) SK_EXCLUDES(fSpinLock);

	private:
	struct KeyHash {
	uint32_t operator()(const UniqueKey& key) const { return key.hash(); }
	};

	using GraphicsPipelineCache = SkLRUCache<UniqueKey, sk_sp<GraphicsPipeline>, KeyHash>;
	using ComputePipelineCache = SkLRUCache<UniqueKey, sk_sp<ComputePipeline>, KeyHash>;

	// TODO: can we do something better given this should have write-seldom/read-often behavior?
	mutable SkSpinlock fSpinLock;

	// GraphicsPipelines and ComputePipelines are expensive to create, likely to be used by multiple
	// Recorders, and are ideally pre-compiled on process startup so thread write-contention is
	// expected to be low. For these reasons we store pipelines globally instead of per-Recorder.
	GraphicsPipelineCache fGraphicsPipelineCache SK_GUARDED_BY(fSpinLock);
	ComputePipelineCache fComputePipelineCache SK_GUARDED_BY(fSpinLock);

	SkTArray<sk_sp<Resource>> fStaticResource SK_GUARDED_BY(fSpinLock);
	};

	} // namespace skgpu::graphite

	#endif // skgpu_graphite_GlobalCache_DEFINED