src/third_party/angle/src/libANGLE/SizedMRUCache.h - cobalt - Git at Google

 //
 // Copyright 2017 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.
 //
 // SizedMRUCache.h: A hashing map that stores blobs of sized, untyped data.

 #ifndef LIBANGLE_SIZED_MRU_CACHE_H_
 #define LIBANGLE_SIZED_MRU_CACHE_H_

 #include <anglebase/containers/mru_cache.h>

 namespace angle
 {

 template <typename Key, typename Value>
 class SizedMRUCache final : angle::NonCopyable
 {
   public:
     SizedMRUCache(size_t maximumTotalSize)
         : mMaximumTotalSize(maximumTotalSize),
           mCurrentSize(0),
           mStore(SizedMRUCacheStore::NO_AUTO_EVICT)
     {}

     // Returns nullptr on failure.
     const Value *put(const Key &key, Value &&value, size_t size)
     {
         if (size > mMaximumTotalSize)
         {
             return nullptr;
         }

         // Check for existing key.
         eraseByKey(key);

         auto retVal = mStore.Put(key, ValueAndSize(std::move(value), size));
         mCurrentSize += size;

         shrinkToSize(mMaximumTotalSize);

         return &retVal->second.value;
     }

     bool get(const Key &key, const Value **valueOut)
     {
         const auto &iter = mStore.Get(key);
         if (iter == mStore.end())
         {
             return false;
         }
         *valueOut = &iter->second.value;
         return true;
     }

     bool getAt(size_t index, const Key **keyOut, const Value **valueOut)
     {
         if (index < mStore.size())
         {
             auto it = mStore.begin();
             std::advance(it, index);
             *keyOut   = &it->first;
             *valueOut = &it->second.value;
             return true;
         }
         *valueOut = nullptr;
         return false;
     }

     bool empty() const { return mStore.empty(); }

     void clear()
     {
         mStore.Clear();
         mCurrentSize = 0;
     }

     bool eraseByKey(const Key &key)
     {
         // Check for existing key.
         auto existing = mStore.Peek(key);
         if (existing != mStore.end())
         {
             mCurrentSize -= existing->second.size;
             mStore.Erase(existing);
             return true;
         }

         return false;
     }

     size_t entryCount() const { return mStore.size(); }

     size_t size() const { return mCurrentSize; }

     // Also discards the cache contents.
     void resize(size_t maximumTotalSize)
     {
         clear();
         mMaximumTotalSize = maximumTotalSize;
     }

     // Reduce current memory usage.
     size_t shrinkToSize(size_t limit)
     {
         size_t initialSize = mCurrentSize;

         while (mCurrentSize > limit)
         {
             ASSERT(!mStore.empty());
             auto iter = mStore.rbegin();
             mCurrentSize -= iter->second.size;
             mStore.Erase(iter);
         }

         return (initialSize - mCurrentSize);
     }

     size_t maxSize() const { return mMaximumTotalSize; }

   private:
     struct ValueAndSize
     {
         ValueAndSize() : value(), size(0) {}
         ValueAndSize(Value &&value, size_t size) : value(std::move(value)), size(size) {}
         ValueAndSize(ValueAndSize &&other) : ValueAndSize() { *this = std::move(other); }
         ValueAndSize &operator=(ValueAndSize &&other)
         {
             std::swap(value, other.value);
             std::swap(size, other.size);
             return *this;
         }

         Value value;
         size_t size;
     };

     using SizedMRUCacheStore = base::HashingMRUCache<Key, ValueAndSize>;

     size_t mMaximumTotalSize;
     size_t mCurrentSize;
     SizedMRUCacheStore mStore;
 };

 // Helper function used in a few places.
 template <typename T>
 void TrimCache(size_t maxStates, size_t gcLimit, const char *name, T *cache)
 {
     const size_t kGarbageCollectionLimit = maxStates / 2 + gcLimit;

     if (cache->size() >= kGarbageCollectionLimit)
     {
         WARN() << "Overflowed the " << name << " cache limit of " << (maxStates / 2)
                << " elements, removing the least recently used to make room.";
         cache->ShrinkToSize(maxStates / 2);
     }
 }
 }  // namespace angle
 #endif  // LIBANGLE_SIZED_MRU_CACHE_H_
	//
	// Copyright 2017 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.
	//
	// SizedMRUCache.h: A hashing map that stores blobs of sized, untyped data.

	#ifndef LIBANGLE_SIZED_MRU_CACHE_H_
	#define LIBANGLE_SIZED_MRU_CACHE_H_

	#include <anglebase/containers/mru_cache.h>

	namespace angle
	{

	template <typename Key, typename Value>
	class SizedMRUCache final : angle::NonCopyable
	{
	public:
	SizedMRUCache(size_t maximumTotalSize)
	: mMaximumTotalSize(maximumTotalSize),
	mCurrentSize(0),
	mStore(SizedMRUCacheStore::NO_AUTO_EVICT)
	{}

	// Returns nullptr on failure.
	const Value *put(const Key &key, Value &&value, size_t size)
	{
	if (size > mMaximumTotalSize)
	{
	return nullptr;
	}

	// Check for existing key.
	eraseByKey(key);

	auto retVal = mStore.Put(key, ValueAndSize(std::move(value), size));
	mCurrentSize += size;

	shrinkToSize(mMaximumTotalSize);

	return &retVal->second.value;
	}

	bool get(const Key &key, const Value **valueOut)
	{
	const auto &iter = mStore.Get(key);
	if (iter == mStore.end())
	{
	return false;
	}
	*valueOut = &iter->second.value;
	return true;
	}

	bool getAt(size_t index, const Key keyOut, const Value valueOut)
	{
	if (index < mStore.size())
	{
	auto it = mStore.begin();
	std::advance(it, index);
	*keyOut = &it->first;
	*valueOut = &it->second.value;
	return true;
	}
	*valueOut = nullptr;
	return false;
	}

	bool empty() const { return mStore.empty(); }

	void clear()
	{
	mStore.Clear();
	mCurrentSize = 0;
	}

	bool eraseByKey(const Key &key)
	{
	// Check for existing key.
	auto existing = mStore.Peek(key);
	if (existing != mStore.end())
	{
	mCurrentSize -= existing->second.size;
	mStore.Erase(existing);
	return true;
	}

	return false;
	}

	size_t entryCount() const { return mStore.size(); }

	size_t size() const { return mCurrentSize; }

	// Also discards the cache contents.
	void resize(size_t maximumTotalSize)
	{
	clear();
	mMaximumTotalSize = maximumTotalSize;
	}

	// Reduce current memory usage.
	size_t shrinkToSize(size_t limit)
	{
	size_t initialSize = mCurrentSize;

	while (mCurrentSize > limit)
	{
	ASSERT(!mStore.empty());
	auto iter = mStore.rbegin();
	mCurrentSize -= iter->second.size;
	mStore.Erase(iter);
	}

	return (initialSize - mCurrentSize);
	}

	size_t maxSize() const { return mMaximumTotalSize; }

	private:
	struct ValueAndSize
	{
	ValueAndSize() : value(), size(0) {}
	ValueAndSize(Value &&value, size_t size) : value(std::move(value)), size(size) {}
	ValueAndSize(ValueAndSize &&other) : ValueAndSize() { *this = std::move(other); }
	ValueAndSize &operator=(ValueAndSize &&other)
	{
	std::swap(value, other.value);
	std::swap(size, other.size);
	return *this;
	}

	Value value;
	size_t size;
	};

	using SizedMRUCacheStore = base::HashingMRUCache<Key, ValueAndSize>;

	size_t mMaximumTotalSize;
	size_t mCurrentSize;
	SizedMRUCacheStore mStore;
	};

	// Helper function used in a few places.
	template <typename T>
	void TrimCache(size_t maxStates, size_t gcLimit, const char name, T cache)
	{
	const size_t kGarbageCollectionLimit = maxStates / 2 + gcLimit;

	if (cache->size() >= kGarbageCollectionLimit)
	{
	WARN() << "Overflowed the " << name << " cache limit of " << (maxStates / 2)
	<< " elements, removing the least recently used to make room.";
	cache->ShrinkToSize(maxStates / 2);
	}
	}
	} // namespace angle
	#endif // LIBANGLE_SIZED_MRU_CACHE_H_