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286 lines
7.1 KiB
C
286 lines
7.1 KiB
C
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#ifndef __MEMORY_POOL_H
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#define __MEMORY_POOL_H
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#ifndef __APPLE__
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// Use stdlib and not malloc for compatibility
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#include <stdlib.h>
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#endif
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#include <assert.h>
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#include "Export.h"
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#include "RakMemoryOverride.h"
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// DS_MEMORY_POOL_MAX_FREE_PAGES must be > 1
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#define DS_MEMORY_POOL_MAX_FREE_PAGES 4
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// #define _DISABLE_MEMORY_POOL
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namespace DataStructures
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{
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/// Very fast memory pool for allocating and deallocating structures that don't have constructors or destructors.
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/// Contains a list of pages, each of which has an array of the user structures
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template <class MemoryBlockType>
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class RAK_DLL_EXPORT MemoryPool : public RakNet::RakMemoryOverride
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{
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public:
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struct Page;
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struct MemoryWithPage
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{
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MemoryBlockType userMemory;
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Page *parentPage;
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};
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struct Page
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{
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MemoryWithPage** availableStack;
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int availableStackSize;
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MemoryWithPage* block;
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Page *next, *prev;
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};
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MemoryPool();
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~MemoryPool();
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void SetPageSize(int size); // Defaults to 16384
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MemoryBlockType *Allocate(void);
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void Release(MemoryBlockType *m);
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void Clear(void);
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int GetAvailablePagesSize(void) const {return availablePagesSize;}
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int GetUnavailablePagesSize(void) const {return unavailablePagesSize;}
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int GetMemoryPoolPageSize(void) const {return memoryPoolPageSize;}
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protected:
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int BlocksPerPage(void) const;
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void AllocateFirst(void);
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bool InitPage(Page *page, Page *prev);
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// availablePages contains pages which have room to give the user new blocks. We return these blocks from the head of the list
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// unavailablePages are pages which are totally full, and from which we do not return new blocks.
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// Pages move from the head of unavailablePages to the tail of availablePages, and from the head of availablePages to the tail of unavailablePages
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Page *availablePages, *unavailablePages;
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int availablePagesSize, unavailablePagesSize;
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int memoryPoolPageSize;
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};
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template<class MemoryBlockType>
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MemoryPool<MemoryBlockType>::MemoryPool()
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{
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#ifndef _DISABLE_MEMORY_POOL
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//AllocateFirst();
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availablePagesSize=0;
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unavailablePagesSize=0;
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memoryPoolPageSize=16384;
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#endif
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}
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template<class MemoryBlockType>
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MemoryPool<MemoryBlockType>::~MemoryPool()
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{
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#ifndef _DISABLE_MEMORY_POOL
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Clear();
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#endif
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}
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template<class MemoryBlockType>
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void MemoryPool<MemoryBlockType>::SetPageSize(int size)
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{
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memoryPoolPageSize=size;
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}
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template<class MemoryBlockType>
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MemoryBlockType* MemoryPool<MemoryBlockType>::Allocate(void)
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{
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#ifdef _DISABLE_MEMORY_POOL
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return new MemoryBlockType;
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#endif
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if (availablePagesSize>0)
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{
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MemoryBlockType *retVal;
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Page *curPage;
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curPage=availablePages;
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retVal = (MemoryBlockType*) curPage->availableStack[--(curPage->availableStackSize)];
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if (curPage->availableStackSize==0)
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{
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--availablePagesSize;
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availablePages=curPage->next;
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assert(availablePagesSize==0 || availablePages->availableStackSize>0);
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curPage->next->prev=curPage->prev;
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curPage->prev->next=curPage->next;
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if (unavailablePagesSize++==0)
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{
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unavailablePages=curPage;
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curPage->next=curPage;
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curPage->prev=curPage;
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}
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else
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{
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curPage->next=unavailablePages;
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curPage->prev=unavailablePages->prev;
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unavailablePages->prev->next=curPage;
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unavailablePages->prev=curPage;
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}
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}
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assert(availablePagesSize==0 || availablePages->availableStackSize>0);
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return retVal;
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}
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availablePages = (Page *) rakMalloc(sizeof(Page));
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if (availablePages==0)
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return 0;
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availablePagesSize=1;
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if (InitPage(availablePages, availablePages)==false)
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return 0;
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assert(availablePages->availableStackSize>1);
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return (MemoryBlockType *) availablePages->availableStack[--availablePages->availableStackSize];
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}
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template<class MemoryBlockType>
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void MemoryPool<MemoryBlockType>::Release(MemoryBlockType *m)
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{
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#ifdef _DISABLE_MEMORY_POOL
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delete m;
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return;
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#endif
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// Find the page this block is in and return it.
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Page *curPage;
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MemoryWithPage *memoryWithPage = (MemoryWithPage*)m;
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curPage=memoryWithPage->parentPage;
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if (curPage->availableStackSize==0)
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{
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// The page is in the unavailable list so move it to the available list
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curPage->availableStack[curPage->availableStackSize++]=memoryWithPage;
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unavailablePagesSize--;
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// As this page is no longer totally empty, move it to the end of available pages
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curPage->next->prev=curPage->prev;
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curPage->prev->next=curPage->next;
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if (unavailablePagesSize>0 && curPage==unavailablePages)
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unavailablePages=unavailablePages->next;
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if (availablePagesSize++==0)
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{
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availablePages=curPage;
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curPage->next=curPage;
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curPage->prev=curPage;
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}
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else
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{
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curPage->next=availablePages;
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curPage->prev=availablePages->prev;
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availablePages->prev->next=curPage;
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availablePages->prev=curPage;
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}
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}
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else
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{
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curPage->availableStack[curPage->availableStackSize++]=memoryWithPage;
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if (curPage->availableStackSize==BlocksPerPage() &&
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availablePagesSize>=DS_MEMORY_POOL_MAX_FREE_PAGES)
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{
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// After a certain point, just deallocate empty pages rather than keep them around
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if (curPage==availablePages)
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{
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availablePages=curPage->next;
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assert(availablePages->availableStackSize>0);
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}
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curPage->prev->next=curPage->next;
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curPage->next->prev=curPage->prev;
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availablePagesSize--;
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rakFree(curPage->availableStack);
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rakFree(curPage->block);
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rakFree(curPage);
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}
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}
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}
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template<class MemoryBlockType>
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void MemoryPool<MemoryBlockType>::Clear(void)
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{
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#ifdef _DISABLE_MEMORY_POOL
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return;
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#endif
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Page *cur, *freed;
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if (availablePagesSize>0)
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{
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cur = availablePages;
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#ifdef _MSC_VER
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#pragma warning(disable:4127) // conditional expression is constant
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#endif
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while (true)
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// do
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{
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rakFree(cur->availableStack);
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rakFree(cur->block);
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freed=cur;
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cur=cur->next;
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if (cur==availablePages)
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{
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rakFree(freed);
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break;
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}
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rakFree(freed);
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}// while(cur!=availablePages);
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}
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if (unavailablePagesSize>0)
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{
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cur = unavailablePages;
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while (1)
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//do
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{
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rakFree(cur->availableStack);
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rakFree(cur->block);
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freed=cur;
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cur=cur->next;
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if (cur==unavailablePages)
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{
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rakFree(freed);
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break;
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}
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rakFree(freed);
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} // while(cur!=unavailablePages);
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}
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availablePagesSize=0;
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unavailablePagesSize=0;
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}
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template<class MemoryBlockType>
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int MemoryPool<MemoryBlockType>::BlocksPerPage(void) const
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{
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return memoryPoolPageSize / sizeof(MemoryWithPage);
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}
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template<class MemoryBlockType>
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bool MemoryPool<MemoryBlockType>::InitPage(Page *page, Page *prev)
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{
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int i=0;
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const int bpp = BlocksPerPage();
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page->block=(MemoryWithPage*) rakMalloc(memoryPoolPageSize);
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if (page->block==0)
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return false;
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page->availableStack=(MemoryWithPage**)rakMalloc(sizeof(MemoryWithPage*)*bpp);
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if (page->availableStack==0)
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{
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rakFree(page->block);
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return false;
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}
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MemoryWithPage *curBlock = page->block;
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MemoryWithPage **curStack = page->availableStack;
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while (i < bpp)
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{
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curBlock->parentPage=page;
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curStack[i]=curBlock++;
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i++;
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}
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page->availableStackSize=bpp;
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page->next=availablePages;
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page->prev=prev;
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return true;
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}
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}
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#endif
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