src/gpu/GrResourceCache.h - skia - Git at Google


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrResourceCache_DEFINED
 #define GrResourceCache_DEFINED

 #include "GrDrawTargetCaps.h"
 #include "GrResourceKey.h"
 #include "SkTMultiMap.h"
 #include "SkMessageBus.h"
 #include "SkTInternalLList.h"

 class GrGpuResource;
 class GrResourceCache;
 class GrResourceCacheEntry;


 // The cache listens for these messages to purge junk resources proactively.
 struct GrResourceInvalidatedMessage {
     GrResourceKey key;
 };

 ///////////////////////////////////////////////////////////////////////////////

 class GrResourceCacheEntry {
 public:
     GrGpuResource* resource() const { return fResource; }
     const GrResourceKey& key() const { return fKey; }

     static const GrResourceKey& GetKey(const GrResourceCacheEntry& e) { return e.key(); }
     static uint32_t Hash(const GrResourceKey& key) { return key.getHash(); }
 #ifdef SK_DEBUG
     void validate() const;
 #else
     void validate() const {}
 #endif

     /**
      *  Update the cached size for this entry and inform the resource cache that
      *  it has changed. Usually invoked from GrGpuResource::didChangeGpuMemorySize,
      *  not directly from here.
      */
     void didChangeResourceSize();

 private:
     GrResourceCacheEntry(GrResourceCache* resourceCache,
                          const GrResourceKey& key,
                          GrGpuResource* resource);
     ~GrResourceCacheEntry();

     GrResourceCache* fResourceCache;
     GrResourceKey    fKey;
     GrGpuResource*   fResource;
     size_t           fCachedSize;
     bool             fIsExclusive;

     // Linked list for the LRU ordering.
     SK_DECLARE_INTERNAL_LLIST_INTERFACE(GrResourceCacheEntry);

     friend class GrResourceCache;
     friend class GrContext;
 };

 ///////////////////////////////////////////////////////////////////////////////

 /**
  *  Cache of GrGpuResource objects.
  *
  *  These have a corresponding GrResourceKey, built from 128bits identifying the
  *  resource. Multiple resources can map to same GrResourceKey.
  *
  *  The cache stores the entries in a double-linked list, which is its LRU.
  *  When an entry is "locked" (i.e. given to the caller), it is moved to the
  *  head of the list. If/when we must purge some of the entries, we walk the
  *  list backwards from the tail, since those are the least recently used.
  *
  *  For fast searches, we maintain a hash map based on the GrResourceKey.
  *
  *  It is a goal to make the GrResourceCache the central repository and bookkeeper
  *  of all resources. It should replace the linked list of GrGpuResources that
  *  GrGpu uses to call abandon/release.
  */
 class GrResourceCache {
 public:
     GrResourceCache(const GrDrawTargetCaps*, int maxCount, size_t maxBytes);
     ~GrResourceCache();

     /**
      *  Return the current resource cache limits.
      *
      *  @param maxResource If non-null, returns maximum number of resources
      *                     that can be held in the cache.
      *  @param maxBytes    If non-null, returns maximum number of bytes of
      *                     gpu memory that can be held in the cache.
      */
     void getLimits(int* maxResources, size_t* maxBytes) const;

     /**
      *  Specify the resource cache limits. If the current cache exceeds either
      *  of these, it will be purged (LRU) to keep the cache within these limits.
      *
      *  @param maxResources The maximum number of resources that can be held in
      *                      the cache.
      *  @param maxBytes     The maximum number of bytes of resource memory that
      *                      can be held in the cache.
      */
     void setLimits(int maxResources, size_t maxResourceBytes);

     /**
      *  The callback function used by the cache when it is still over budget
      *  after a purge. The passed in 'data' is the same 'data' handed to
      *  setOverbudgetCallback. The callback returns true if some resources
      *  have been freed.
      */
     typedef bool (*PFOverbudgetCB)(void* data);

     /**
      *  Set the callback the cache should use when it is still over budget
      *  after a purge. The 'data' provided here will be passed back to the
      *  callback. Note that the cache will attempt to purge any resources newly
      *  freed by the callback.
      */
     void setOverbudgetCallback(PFOverbudgetCB overbudgetCB, void* data) {
         fOverbudgetCB = overbudgetCB;
         fOverbudgetData = data;
     }

     /**
      * Returns the number of bytes consumed by cached resources.
      */
     size_t getCachedResourceBytes() const { return fEntryBytes; }

     /**
      * Returns the number of cached resources.
      */
     int getCachedResourceCount() const { return fEntryCount; }

     /**
      *  Search for an entry with the same Key. If found, return it.
      *  If not found, return null.
      */
     GrGpuResource* find(const GrResourceKey& key);

     void makeResourceMRU(GrGpuResource*);

     /** Called by GrGpuResources when they detects that they are newly purgable. */
     void notifyPurgable(const GrGpuResource*);

     /**
      *  Add the new resource to the cache (by creating a new cache entry based
      *  on the provided key and resource).
      *
      *  Ownership of the resource is transferred to the resource cache,
      *  which will unref() it when it is purged or deleted.
      */
     void addResource(const GrResourceKey& key, GrGpuResource* resource);

     /**
      * Determines if the cache contains an entry matching a key. If a matching
      * entry exists but was detached then it will not be found.
      */
     bool hasKey(const GrResourceKey& key) const { return SkToBool(fCache.find(key)); }

     /**
      * Notify the cache that the size of a resource has changed.
      */
     void didIncreaseResourceSize(const GrResourceCacheEntry*, size_t amountInc);
     void didDecreaseResourceSize(const GrResourceCacheEntry*, size_t amountDec);

     /**
      * Remove a resource from the cache and delete it!
      */
     void deleteResource(GrResourceCacheEntry* entry);

     /**
      * Removes every resource in the cache that isn't locked.
      */
     void purgeAllUnlocked();

     /**
      * Allow cache to purge unused resources to obey resource limitations
      * Note: this entry point will be hidden (again) once totally ref-driven
      * cache maintenance is implemented. Note that the overbudget callback
      * will be called if the initial purge doesn't get the cache under
      * its budget.
      *
      * extraCount and extraBytes are added to the current resource allocation
      * to make sure enough room is available for future additions (e.g,
      * 10MB across 10 textures is about to be added).
      */
     void purgeAsNeeded(int extraCount = 0, size_t extraBytes = 0);

 #ifdef SK_DEBUG
     void validate() const;
 #else
     void validate() const {}
 #endif

 #if GR_CACHE_STATS
     void printStats();
 #endif

 private:
     void internalDetach(GrResourceCacheEntry*);
     void attachToHead(GrResourceCacheEntry*);
     void purgeInvalidated();
     void internalPurge(int extraCount, size_t extraBytes);
 #ifdef SK_DEBUG
     static size_t countBytes(const SkTInternalLList<GrResourceCacheEntry>& list);
 #endif

     typedef SkTMultiMap<GrResourceCacheEntry, GrResourceKey> CacheMap;
     CacheMap                                fCache;

     // We're an internal doubly linked list
     typedef SkTInternalLList<GrResourceCacheEntry> EntryList;
     EntryList                               fList;

     // our budget, used in purgeAsNeeded()
     int                                     fMaxCount;
     size_t                                  fMaxBytes;

     // our current stats, related to our budget
 #if GR_CACHE_STATS
     int                                     fHighWaterEntryCount;
     size_t                                  fHighWaterEntryBytes;
 #endif

     int                                     fEntryCount;
     size_t                                  fEntryBytes;

     // prevents recursive purging
     bool                                    fPurging;

     PFOverbudgetCB                          fOverbudgetCB;
     void*                                   fOverbudgetData;

     SkAutoTUnref<const GrDrawTargetCaps>    fCaps;

     // Listen for messages that a resource has been invalidated and purge cached junk proactively.
    typedef  SkMessageBus<GrResourceInvalidatedMessage>::Inbox Inbox;
    Inbox                                    fInvalidationInbox;
 };

 ///////////////////////////////////////////////////////////////////////////////

 #ifdef SK_DEBUG
     class GrAutoResourceCacheValidate {
     public:
         GrAutoResourceCacheValidate(GrResourceCache* cache) : fCache(cache) {
             cache->validate();
         }
         ~GrAutoResourceCacheValidate() {
             fCache->validate();
         }
     private:
         GrResourceCache* fCache;
     };
 #else
     class GrAutoResourceCacheValidate {
     public:
         GrAutoResourceCacheValidate(GrResourceCache*) {}
     };
 #endif

 #endif

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrResourceCache_DEFINED
	#define GrResourceCache_DEFINED

	#include "GrDrawTargetCaps.h"
	#include "GrResourceKey.h"
	#include "SkTMultiMap.h"
	#include "SkMessageBus.h"
	#include "SkTInternalLList.h"

	class GrGpuResource;
	class GrResourceCache;
	class GrResourceCacheEntry;


	// The cache listens for these messages to purge junk resources proactively.
	struct GrResourceInvalidatedMessage {
	GrResourceKey key;
	};

	///////////////////////////////////////////////////////////////////////////////

	class GrResourceCacheEntry {
	public:
	GrGpuResource* resource() const { return fResource; }
	const GrResourceKey& key() const { return fKey; }

	static const GrResourceKey& GetKey(const GrResourceCacheEntry& e) { return e.key(); }
	static uint32_t Hash(const GrResourceKey& key) { return key.getHash(); }
	#ifdef SK_DEBUG
	void validate() const;
	#else
	void validate() const {}
	#endif

	/**
	* Update the cached size for this entry and inform the resource cache that
	* it has changed. Usually invoked from GrGpuResource::didChangeGpuMemorySize,
	* not directly from here.
	*/
	void didChangeResourceSize();

	private:
	GrResourceCacheEntry(GrResourceCache* resourceCache,
	const GrResourceKey& key,
	GrGpuResource* resource);
	~GrResourceCacheEntry();

	GrResourceCache* fResourceCache;
	GrResourceKey fKey;
	GrGpuResource* fResource;
	size_t fCachedSize;
	bool fIsExclusive;

	// Linked list for the LRU ordering.
	SK_DECLARE_INTERNAL_LLIST_INTERFACE(GrResourceCacheEntry);

	friend class GrResourceCache;
	friend class GrContext;
	};

	///////////////////////////////////////////////////////////////////////////////

	/**
	* Cache of GrGpuResource objects.
	*
	* These have a corresponding GrResourceKey, built from 128bits identifying the
	* resource. Multiple resources can map to same GrResourceKey.
	*
	* The cache stores the entries in a double-linked list, which is its LRU.
	* When an entry is "locked" (i.e. given to the caller), it is moved to the
	* head of the list. If/when we must purge some of the entries, we walk the
	* list backwards from the tail, since those are the least recently used.
	*
	* For fast searches, we maintain a hash map based on the GrResourceKey.
	*
	* It is a goal to make the GrResourceCache the central repository and bookkeeper
	* of all resources. It should replace the linked list of GrGpuResources that
	* GrGpu uses to call abandon/release.
	*/
	class GrResourceCache {
	public:
	GrResourceCache(const GrDrawTargetCaps*, int maxCount, size_t maxBytes);
	~GrResourceCache();

	/**
	* Return the current resource cache limits.
	*
	* @param maxResource If non-null, returns maximum number of resources
	* that can be held in the cache.
	* @param maxBytes If non-null, returns maximum number of bytes of
	* gpu memory that can be held in the cache.
	*/
	void getLimits(int* maxResources, size_t* maxBytes) const;

	/**
	* Specify the resource cache limits. If the current cache exceeds either
	* of these, it will be purged (LRU) to keep the cache within these limits.
	*
	* @param maxResources The maximum number of resources that can be held in
	* the cache.
	* @param maxBytes The maximum number of bytes of resource memory that
	* can be held in the cache.
	*/
	void setLimits(int maxResources, size_t maxResourceBytes);

	/**
	* The callback function used by the cache when it is still over budget
	* after a purge. The passed in 'data' is the same 'data' handed to
	* setOverbudgetCallback. The callback returns true if some resources
	* have been freed.
	*/
	typedef bool (PFOverbudgetCB)(void data);

	/**
	* Set the callback the cache should use when it is still over budget
	* after a purge. The 'data' provided here will be passed back to the
	* callback. Note that the cache will attempt to purge any resources newly
	* freed by the callback.
	*/
	void setOverbudgetCallback(PFOverbudgetCB overbudgetCB, void* data) {
	fOverbudgetCB = overbudgetCB;
	fOverbudgetData = data;
	}

	/**
	* Returns the number of bytes consumed by cached resources.
	*/
	size_t getCachedResourceBytes() const { return fEntryBytes; }

	/**
	* Returns the number of cached resources.
	*/
	int getCachedResourceCount() const { return fEntryCount; }

	/**
	* Search for an entry with the same Key. If found, return it.
	* If not found, return null.
	*/
	GrGpuResource* find(const GrResourceKey& key);

	void makeResourceMRU(GrGpuResource*);

	/** Called by GrGpuResources when they detects that they are newly purgable. */
	void notifyPurgable(const GrGpuResource*);

	/**
	* Add the new resource to the cache (by creating a new cache entry based
	* on the provided key and resource).
	*
	* Ownership of the resource is transferred to the resource cache,
	* which will unref() it when it is purged or deleted.
	*/
	void addResource(const GrResourceKey& key, GrGpuResource* resource);

	/**
	* Determines if the cache contains an entry matching a key. If a matching
	* entry exists but was detached then it will not be found.
	*/
	bool hasKey(const GrResourceKey& key) const { return SkToBool(fCache.find(key)); }

	/**
	* Notify the cache that the size of a resource has changed.
	*/
	void didIncreaseResourceSize(const GrResourceCacheEntry*, size_t amountInc);
	void didDecreaseResourceSize(const GrResourceCacheEntry*, size_t amountDec);

	/**
	* Remove a resource from the cache and delete it!
	*/
	void deleteResource(GrResourceCacheEntry* entry);

	/**
	* Removes every resource in the cache that isn't locked.
	*/
	void purgeAllUnlocked();

	/**
	* Allow cache to purge unused resources to obey resource limitations
	* Note: this entry point will be hidden (again) once totally ref-driven
	* cache maintenance is implemented. Note that the overbudget callback
	* will be called if the initial purge doesn't get the cache under
	* its budget.
	*
	* extraCount and extraBytes are added to the current resource allocation
	* to make sure enough room is available for future additions (e.g,
	* 10MB across 10 textures is about to be added).
	*/
	void purgeAsNeeded(int extraCount = 0, size_t extraBytes = 0);

	#ifdef SK_DEBUG
	void validate() const;
	#else
	void validate() const {}
	#endif

	#if GR_CACHE_STATS
	void printStats();
	#endif

	private:
	void internalDetach(GrResourceCacheEntry*);
	void attachToHead(GrResourceCacheEntry*);
	void purgeInvalidated();
	void internalPurge(int extraCount, size_t extraBytes);
	#ifdef SK_DEBUG
	static size_t countBytes(const SkTInternalLList<GrResourceCacheEntry>& list);
	#endif

	typedef SkTMultiMap<GrResourceCacheEntry, GrResourceKey> CacheMap;
	CacheMap fCache;

	// We're an internal doubly linked list
	typedef SkTInternalLList<GrResourceCacheEntry> EntryList;
	EntryList fList;

	// our budget, used in purgeAsNeeded()
	int fMaxCount;
	size_t fMaxBytes;

	// our current stats, related to our budget
	#if GR_CACHE_STATS
	int fHighWaterEntryCount;
	size_t fHighWaterEntryBytes;
	#endif

	int fEntryCount;
	size_t fEntryBytes;

	// prevents recursive purging
	bool fPurging;

	PFOverbudgetCB fOverbudgetCB;
	void* fOverbudgetData;

	SkAutoTUnref<const GrDrawTargetCaps> fCaps;

	// Listen for messages that a resource has been invalidated and purge cached junk proactively.
	typedef SkMessageBus<GrResourceInvalidatedMessage>::Inbox Inbox;
	Inbox fInvalidationInbox;
	};

	///////////////////////////////////////////////////////////////////////////////

	#ifdef SK_DEBUG
	class GrAutoResourceCacheValidate {
	public:
	GrAutoResourceCacheValidate(GrResourceCache* cache) : fCache(cache) {
	cache->validate();
	}
	~GrAutoResourceCacheValidate() {
	fCache->validate();
	}
	private:
	GrResourceCache* fCache;
	};
	#else
	class GrAutoResourceCacheValidate {
	public:
	GrAutoResourceCacheValidate(GrResourceCache*) {}
	};
	#endif

	#endif