File: CTempMemoryPoolContainerAllocationManager.cpp

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/*
 *		Copyright (C) 2013, 2014, 2015 by the Konclude Developer Team.
 *
 *		This file is part of the reasoning system Konclude.
 *		For details and support, see <http://konclude.com/>.
 *
 *		Konclude is free software: you can redistribute it and/or modify it under
 *		the terms of version 2.1 of the GNU Lesser General Public License (LGPL2.1)
 *		as published by the Free Software Foundation.
 *
 *		You should have received a copy of the GNU Lesser General Public License
 *		along with Konclude. If not, see <http://www.gnu.org/licenses/>.
 *
 *		Konclude is distributed in the hope that it will be useful,
 *		but WITHOUT ANY WARRANTY; without even the implied warranty of
 *		MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For more
 *		details, see GNU Lesser General Public License.
 *
 */

#include "CTempMemoryPoolContainerAllocationManager.h"


namespace Konclude {

	namespace Utilities {

		namespace Memory {


			CTempMemoryPoolContainerAllocationManager::CTempMemoryPoolContainerAllocationManager(CMemoryPoolContainer* memoryPoolContainer, CMemoryPoolProvider* memoryPoolProvider) {
				initTempMemoryPoolContainerAllocationManager(memoryPoolContainer,memoryPoolProvider);
			}

			CTempMemoryPoolContainerAllocationManager::CTempMemoryPoolContainerAllocationManager(CMemoryPoolProvider* memoryPoolProvider) {
				initTempMemoryPoolContainerAllocationManager(nullptr,memoryPoolProvider);
			}

			CTempMemoryPoolContainerAllocationManager::CTempMemoryPoolContainerAllocationManager() {
				initTempMemoryPoolContainerAllocationManager(nullptr,nullptr);
			}


			CTempMemoryPoolContainerAllocationManager::~CTempMemoryPoolContainerAllocationManager() {
			}

			CMemoryPool* CTempMemoryPoolContainerAllocationManager::getMemoryPools() {
				return mMemoryPoolContainer->getMemoryPools();
			}

			CMemoryPool* CTempMemoryPoolContainerAllocationManager::takeMemoryPools() {
				return mMemoryPoolContainer->takeMemoryPools();
			}


			CTempMemoryPoolContainerAllocationManager* CTempMemoryPoolContainerAllocationManager::initTempMemoryPoolContainerAllocationManager(CMemoryPoolContainer* memoryPoolContainer, CMemoryPoolProvider* memoryPoolProvider) {
				mMemoryPoolContainer = memoryPoolContainer;
				mMemoryPoolProvider = memoryPoolProvider;
				mStatPoolAllocCount = 0;
				mStatAllocPoolSize = 0;
				if (!mMemoryPoolContainer) {
					mMemoryPoolContainer = &mTmpMemoryPoolContainer;
				}
				return this;
			}


			void* CTempMemoryPoolContainerAllocationManager::allocate(size_t size) {
				void* memPtr = 0;
				char* memBlock = 0;
				if (size >= 8) {
					memBlock = getMemoryBlock(size*sizeof(char),8);
				} else if (size >= 4) {
					memBlock = getMemoryBlock(size*sizeof(char),4);
				} else if (size >= 2) {
					memBlock = getMemoryBlock(size*sizeof(char),2);
				} else {
					memBlock = getMemoryBlock(size*sizeof(char));
				}
				memPtr = memBlock;
				return memPtr;
			}

			CMemoryAllocationManager* CTempMemoryPoolContainerAllocationManager::release(void* address) {
				// not supported by this pool memory manager, stored all memory in memory pool container
				return this;
			}

			void* CTempMemoryPoolContainerAllocationManager::allocateAligned(size_t size, int alignment) {
				void* memPtr = 0;
				char* memBlock = getMemoryBlock(size*sizeof(char),alignment);
				memPtr = memBlock;
				return memPtr;
			}

			char* CTempMemoryPoolContainerAllocationManager::getMemoryBlock(cint64 memoryBlockSize) {
				char* memBlock = 0;
				bool allocated = false;
				CMemoryPool* memoryPool = mMemoryPoolContainer->getMemoryPools();
				while (!allocated) {
					if (!memoryPool) {
						memoryPool = mMemoryPoolProvider->acquireMemoryPool(memoryBlockSize);
						++mStatPoolAllocCount;
						if (memoryPool) {
							mStatAllocPoolSize += memoryPool->getMemoryBlockSize();
							mMemoryPoolContainer->appendMemoryPool(memoryPool);
						}
					}
					if (memoryPool) {
						char* memBlockEnd = memoryPool->getMemoryBlockEnd();
						char* memBlockPointer = memoryPool->getMemoryBlockPointer();
						if (memBlockPointer+memoryBlockSize <= memBlockEnd) {
							memBlock = memBlockPointer;
							memoryPool->setMemoryBlockPointer(memBlockPointer+memoryBlockSize);
							allocated = true;
						} else {
							memoryPool = nullptr;
						}
					}
				}
				return memBlock;
			}


			cint64 CTempMemoryPoolContainerAllocationManager::getOptimizedMoreAllocationSize(cint64 size) {
				CMemoryPool* memoryPool = mMemoryPoolContainer->getMemoryPools();
				if (memoryPool) {
					cint64 availableSizeThisPool = memoryPool->getMemoryBlockEnd() - memoryPool->getMemoryBlockData();
					if (availableSizeThisPool >= size) {
						return qMax(availableSizeThisPool,size<<2);
					} else if (memoryPool->getMemoryBlockSize() >= size) {
						return qMax(memoryPool->getMemoryBlockSize(),size<<2);
					}
				}
				return size;
			}



			char* CTempMemoryPoolContainerAllocationManager::getMemoryBlock(cint64 memoryBlockSize, cint64 alignment) {
				char* memBlock = 0;
				bool allocated = false;
				CMemoryPool* memoryPool = mMemoryPoolContainer->getMemoryPools();
				while (!allocated) {
					if (!memoryPool) {
						memoryPool = mMemoryPoolProvider->acquireMemoryPool(memoryBlockSize+alignment);
						++mStatPoolAllocCount;
						if (memoryPool) {
							mStatAllocPoolSize += memoryPool->getMemoryBlockSize();
							mMemoryPoolContainer->appendMemoryPool(memoryPool);
						}
					}
					if (memoryPool) {
						char* memBlockEnd = memoryPool->getMemoryBlockEnd();
						char* memBlockPointer = memoryPool->getMemoryBlockPointer();
						cint64 maxBlockAlloc = (cint64)(memBlockPointer)+(cint64)(memoryBlockSize+alignment);
						if (maxBlockAlloc <= (cint64)memBlockEnd) {
							// alignment is 2^N
							cint64 alignmentMask = alignment-1;
							memBlock = memBlockPointer;
							if (alignmentMask & cint64(memBlock)) {
								memBlock = (char*)((cint64(memBlock) & ~alignmentMask) + alignment);
							}
							memoryPool->setMemoryBlockPointer(memBlock+memoryBlockSize);
							allocated = true;
						} else {
							memoryPool = nullptr;
						}
					}
				}
				return memBlock;
			}


			void* CTempMemoryPoolContainerAllocationManager::allocateMemoryToContainer(size_t size, CMemoryPoolContainer* memoryPoolContainer, CMemoryPoolProvider* memoryPoolProvider) {
				cint64 memoryBlockSize = size;
				char* memBlock = 0;
				bool allocated = false;
				CMemoryPool* memoryPool = memoryPoolContainer->getMemoryPools();
				while (!allocated) {
					if (!memoryPool) {
						memoryPool = memoryPoolProvider->acquireMemoryPool(memoryBlockSize);
						memoryPoolContainer->appendMemoryPool(memoryPool);
					}
					if (memoryPool) {
						char* memBlockEnd = memoryPool->getMemoryBlockEnd();
						char* memBlockPointer = memoryPool->getMemoryBlockPointer();
						if (memBlockPointer+memoryBlockSize <= memBlockEnd) {
							memBlock = memBlockPointer;
							memoryPool->setMemoryBlockPointer(memBlockPointer+memoryBlockSize);
							allocated = true;
						} else {
							memoryPool = nullptr;
						}
					}
				}
				return memBlock;
			}

		}; // end namespace Memory

	}; // end namespace Utilities

}; // end namespace Konclude