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https://github.com/FWGS/xash3d-fwgs
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534 lines
14 KiB
C
534 lines
14 KiB
C
/*
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zone.c - zone memory allocation from DarkPlaces
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Copyright (C) 1996-1997 Id Software, Inc.
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Copyright (C) 2000-2007 DarkPlaces contributors
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Copyright (C) 2007 Uncle Mike
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Copyright (C) 2015-2023 Xash3D FWGS contributors
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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*/
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#include "common.h"
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#define MEMHEADER_SENTINEL1 0xDEADF00DU
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#define MEMHEADER_SENTINEL2 0xDFU
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#ifdef XASH_CUSTOM_SWAP
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#include "platform/swap/swap.h"
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#define Q_malloc SWAP_Malloc
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#define Q_free SWAP_Free
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static void *Q_realloc( void *mem, size_t size )
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{
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void *newmem;
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if( mem && size == 0 )
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{
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Q_free( mem );
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return NULL;
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}
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newmem = Q_malloc( size );
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if( mem && newmem )
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{
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memcpy( newmem, mem, size );
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Q_free( mem );
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}
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return newmem;
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}
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#else
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#define Q_malloc malloc
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#define Q_free free
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#define Q_realloc realloc
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#endif
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typedef struct memheader_s
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{
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struct memheader_s *next; // next and previous memheaders in chain belonging to pool
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struct memheader_s *prev;
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const char *filename; // file name and line where Mem_Alloc was called
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size_t size; // size of the memory after the header (excluding header and sentinel2)
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poolhandle_t poolptr; // pool this memheader belongs to
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int fileline;
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#if !XASH_64BIT
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uint32_t pad0; // doesn't have value, only to make Mem_Alloc return aligned addresses on ILP32
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#endif
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uint32_t sentinel1; // should always be MEMHEADER_SENTINEL1
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// immediately followed by data, which is followed by a MEMHEADER_SENTINEL2 byte
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} memheader_t;
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typedef struct mempool_s
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{
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uint32_t sentinel1; // should always be MEMHEADER_SENTINEL1
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struct memheader_s *chain; // chain of individual memory allocations
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size_t totalsize; // total memory allocated in this pool (inside memheaders)
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size_t realsize; // total memory allocated in this pool (actual malloc total)
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size_t lastchecksize; // updated each time the pool is displayed by memlist
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const char *filename; // file name and line where Mem_AllocPool was called
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int fileline;
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char name[64]; // name of the pool
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uint32_t sentinel2; // should always be MEMHEADER_SENTINEL1
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} mempool_t;
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static mempool_t *poolchain = NULL; // critical stuff
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static size_t poolcount = 0;
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// a1ba: due to mempool being passed with the model through reused 32-bit field
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// which makes engine incompatible with 64-bit pointers I changed mempool type
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// from pointer to 32-bit handle, thankfully mempool structure is private
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static mempool_t *Mem_FindPool( poolhandle_t poolptr )
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{
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if( likely( poolptr > 0 && poolptr <= poolcount ))
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return &poolchain[poolptr - 1];
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Sys_Error( "%s: not allocated or double freed pool %d", __FUNCTION__, poolptr );
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return NULL;
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}
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static poolhandle_t Mem_PoolIndex( mempool_t *mempool )
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{
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return (poolhandle_t)(mempool - poolchain) + 1;
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}
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static inline void Mem_PoolAdd( mempool_t *pool, size_t size )
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{
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pool->totalsize += size;
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pool->realsize += sizeof( memheader_t ) + size + sizeof( byte );
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}
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static inline void Mem_PoolSubtract( mempool_t *pool, size_t size )
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{
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pool->totalsize -= size;
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pool->realsize -= sizeof( memheader_t ) + size + sizeof( byte );
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}
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static inline void Mem_PoolLinkAlloc( mempool_t *pool, memheader_t *mem )
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{
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mem->next = pool->chain;
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if( mem->next ) mem->next->prev = mem;
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pool->chain = mem;
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mem->prev = NULL;
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mem->poolptr = Mem_PoolIndex( pool );
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}
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static inline void Mem_PoolUnlinkAlloc( mempool_t *pool, memheader_t *mem )
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{
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if( mem->next ) mem->next->prev = mem->prev;
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if( mem->prev ) mem->prev->next = mem->next;
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else pool->chain = mem->next;
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mem->poolptr = 0;
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}
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static inline void Mem_InitAlloc( memheader_t *mem, size_t size, const char *filename, int fileline )
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{
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mem->size = size;
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mem->filename = filename;
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mem->fileline = fileline;
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mem->sentinel1 = MEMHEADER_SENTINEL1;
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*((byte *)mem + sizeof( memheader_t ) + mem->size ) = MEMHEADER_SENTINEL2;
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}
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static const char *Mem_CheckFilename( const char *filename )
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{
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static const char *dummy = "<corrupted>\0";
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if( !COM_CheckString( filename ))
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return dummy;
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if( memchr( filename, '\0', MAX_OSPATH ) != NULL )
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return filename;
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return dummy;
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}
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static qboolean Mem_CheckAllocHeader( const char *func, const memheader_t *mem, const char *filename, int fileline )
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{
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const char *memfilename;
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if( mem->sentinel1 != MEMHEADER_SENTINEL1 )
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{
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memfilename = Mem_CheckFilename( mem->filename );
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Sys_Error( "%s: trashed header sentinel 1 (alloc at %s:%i, check at %s:%i)\n", func, memfilename, mem->fileline, filename, fileline );
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return false;
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}
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if( *((byte *)mem + sizeof( memheader_t ) + mem->size ) != MEMHEADER_SENTINEL2 )
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{
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memfilename = Mem_CheckFilename( mem->filename ); // make sure what we don't crash var_args
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Sys_Error( "%s: trashed header sentinel 2 (alloc at %s:%i, check at %s:%i)\n", func, memfilename, mem->fileline, filename, fileline );
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return false;
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}
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return true;
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}
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static qboolean Mem_CheckPool( const char *func, const mempool_t *pool, const char *filename, int fileline )
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{
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if( pool->sentinel1 != MEMHEADER_SENTINEL1 )
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{
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Sys_Error( "%s: trashed pool sentinel 1 (allocpool at %s:%i, freepool at %s:%i)\n", func, pool->filename, pool->fileline, filename, fileline );
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return false;
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}
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if( pool->sentinel2 != MEMHEADER_SENTINEL1 )
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{
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Sys_Error( "%s: trashed pool sentinel 2 (allocpool at %s:%i, freepool at %s:%i)\n", func, pool->filename, pool->fileline, filename, fileline );
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return false;
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}
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return true;
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}
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void *_Mem_Alloc( poolhandle_t poolptr, size_t size, qboolean clear, const char *filename, int fileline )
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{
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memheader_t *mem;
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mempool_t *pool;
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if( size <= 0 )
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return NULL;
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if( !poolptr )
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{
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Sys_Error( "%s: pool == NULL (alloc at %s:%i)\n", __func__, filename, fileline );
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return NULL;
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}
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mem = (memheader_t *)Q_malloc( sizeof( memheader_t ) + size + sizeof( byte ));
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if( mem == NULL )
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{
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Sys_Error( "%s: out of memory (alloc size %s at %s:%i)\n", __func__, Q_memprint( size ), filename, fileline );
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return NULL;
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}
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Mem_InitAlloc( mem, size, filename, fileline );
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pool = Mem_FindPool( poolptr );
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Mem_PoolAdd( pool, size );
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Mem_PoolLinkAlloc( pool, mem );
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if( clear )
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memset((void *)((byte *)mem + sizeof( memheader_t )), 0, mem->size );
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return (void *)((byte *)mem + sizeof( memheader_t ));
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}
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static void Mem_FreeBlock( memheader_t *mem, const char *filename, int fileline )
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{
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mempool_t *pool;
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if( !Mem_CheckAllocHeader( __func__, mem, filename, fileline ))
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return;
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pool = Mem_FindPool( mem->poolptr );
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// unlink memheader from doubly linked list
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if(( mem->prev ? mem->prev->next != mem : pool->chain != mem ) || ( mem->next && mem->next->prev != mem ))
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{
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Sys_Error( "%s: not allocated or double freed (free at %s:%i)\n", __func__, filename, fileline );
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return;
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}
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Mem_PoolSubtract( pool, mem->size );
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Mem_PoolUnlinkAlloc( pool, mem );
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Q_free( mem );
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}
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void _Mem_Free( void *data, const char *filename, int fileline )
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{
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if( data == NULL )
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{
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Sys_Error( "Mem_Free: data == NULL (called at %s:%i)\n", filename, fileline );
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return;
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}
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Mem_FreeBlock((memheader_t *)((byte *)data - sizeof( memheader_t )), filename, fileline );
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}
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void *_Mem_Realloc( poolhandle_t poolptr, void *data, size_t size, qboolean clear, const char *filename, int fileline )
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{
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memheader_t *mem;
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uintptr_t oldmem;
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mempool_t *pool;
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size_t oldsize;
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if( size <= 0 )
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return data; // no need to reallocate
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if( !poolptr )
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{
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Sys_Error( "Mem_Realloc: pool == NULL (alloc at %s:%i)\n", filename, fileline );
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return NULL;
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}
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if( !data )
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return _Mem_Alloc( poolptr, size, clear, filename, fileline );
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mem = (memheader_t *)((byte *)data - sizeof( memheader_t ));
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if( !Mem_CheckAllocHeader( "Mem_Realloc", mem, filename, fileline ))
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return NULL;
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oldsize = mem->size;
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if( size == oldsize )
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return data;
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pool = Mem_FindPool( poolptr );
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oldmem = (uintptr_t)mem;
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mem = Q_realloc( mem, sizeof( memheader_t ) + size + sizeof( byte ));
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if( mem == NULL )
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{
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Sys_Error( "Mem_Realloc: out of memory (alloc size %s at %s:%i)\n", Q_memprint( size ), filename, fileline );
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return NULL;
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}
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// Con_Printf( S_NOTE "%s: mem %s oldmem, size before %zu now %zu (alloc at %s:%i)\n",
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// __func__, (uintptr_t)mem != oldmem ? "!=" : "==", oldsize, size, filename, fileline );
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Mem_InitAlloc( mem, size, filename, fileline );
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if( size > oldsize )
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{
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Mem_PoolAdd( pool, size - oldsize );
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if( clear )
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memset((byte *)mem + sizeof( memheader_t ) + oldsize, 0, size - oldsize );
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}
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else Mem_PoolSubtract( pool, oldsize - size );
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// if allocation was migrated from one pool to another
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// (this is possible with original Mem_Realloc func)
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if( unlikely( mem->poolptr != poolptr ))
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{
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mempool_t *oldpool = Mem_FindPool( mem->poolptr );
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Mem_PoolUnlinkAlloc( oldpool, mem );
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Mem_PoolLinkAlloc( pool, mem );
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}
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else if( oldmem != (uintptr_t)mem ) // just relink pointers
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{
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if( mem->next ) mem->next->prev = mem;
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if( mem->prev ) mem->prev->next = mem;
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else pool->chain = mem;
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}
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return (void *)((byte *)mem + sizeof( memheader_t ));
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}
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static poolhandle_t Mem_InitPool( mempool_t *pool, const char *name, const char *filename, int fileline )
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{
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memset( pool, 0, sizeof( *pool ));
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// fill header
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pool->sentinel1 = MEMHEADER_SENTINEL1;
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pool->sentinel2 = MEMHEADER_SENTINEL1;
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pool->filename = filename;
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pool->fileline = fileline;
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pool->realsize = sizeof( mempool_t );
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Q_strncpy( pool->name, name, sizeof( pool->name ));
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return Mem_PoolIndex( pool );
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}
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poolhandle_t _Mem_AllocPool( const char *name, const char *filename, int fileline )
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{
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mempool_t *pool;
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size_t i;
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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{
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if( pool->filename == NULL )
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return Mem_InitPool( pool, name, filename, fileline );
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}
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pool = (mempool_t *)Q_realloc( poolchain, sizeof( *poolchain ) * ( poolcount + 1 ));
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if( pool == NULL )
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{
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Sys_Error( "Mem_AllocPool: out of memory (allocpool at %s:%i)\n", filename, fileline );
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return 0;
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}
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poolchain = pool;
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pool = &poolchain[poolcount++];
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return Mem_InitPool( pool, name, filename, fileline );
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}
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void _Mem_FreePool( poolhandle_t *poolptr, const char *filename, int fileline )
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{
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mempool_t *pool;
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if( *poolptr && ( pool = Mem_FindPool( *poolptr )))
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{
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if( !pool->filename )
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{
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Sys_Error( "Mem_FreePool: pool already free (freepool at %s:%i)\n", filename, fileline );
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*poolptr = 0;
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return;
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}
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Mem_CheckPool( "Mem_FreePool", pool, filename, fileline );
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// free memory owned by the pool
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while( pool->chain )
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Mem_FreeBlock( pool->chain, filename, fileline );
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// free the pool itself
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memset( pool, 0xBF, sizeof( mempool_t ));
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pool->chain = NULL;
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pool->filename = NULL; // mark as reusable
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*poolptr = 0;
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}
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}
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void _Mem_EmptyPool( poolhandle_t poolptr, const char *filename, int fileline )
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{
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mempool_t *pool = Mem_FindPool( poolptr );
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if( !poolptr )
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{
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Sys_Error( "Mem_EmptyPool: pool == NULL (emptypool at %s:%i)\n", filename, fileline );
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return;
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}
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Mem_CheckPool( "Mem_FreePool", pool, filename, fileline );
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// free memory owned by the pool
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while( pool->chain ) Mem_FreeBlock( pool->chain, filename, fileline );
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}
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static qboolean Mem_CheckAlloc( mempool_t *pool, void *data )
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{
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memheader_t *header, *target;
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if( pool )
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{
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// search only one pool
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target = (memheader_t *)((byte *)data - sizeof( memheader_t ));
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for( header = pool->chain; header; header = header->next )
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{
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if( header == target )
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return true;
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}
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}
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else
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{
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// search all pools
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size_t i;
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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{
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if( Mem_CheckAlloc( pool, data ))
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return true;
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}
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}
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return false;
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}
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/*
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========================
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Check pointer for memory
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========================
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*/
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qboolean Mem_IsAllocatedExt( poolhandle_t poolptr, void *data )
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{
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mempool_t *pool = NULL;
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if( poolptr )
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pool = Mem_FindPool( poolptr );
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return Mem_CheckAlloc( pool, data );
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}
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void _Mem_Check( const char *filename, int fileline )
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{
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memheader_t *mem;
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mempool_t *pool;
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size_t i;
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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Mem_CheckPool( "Mem_CheckSentinels", pool, filename, fileline );
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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for( mem = pool->chain; mem; mem = mem->next )
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Mem_CheckAllocHeader( "Mem_CheckSentinels", mem, filename, fileline );
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}
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void Mem_PrintStats( void )
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{
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size_t count = 0, size = 0, realsize = 0, i;
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mempool_t *pool;
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Mem_Check();
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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{
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if( !pool->filename )
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continue;
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count++;
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size += pool->totalsize;
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realsize += pool->realsize;
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}
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Con_Printf( "^3%lu^7 memory pools, totalling: ^1%s\n", count, Q_memprint( size ));
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Con_Printf( "total allocated size: ^1%s\n", Q_memprint( realsize ));
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}
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void Mem_PrintList( size_t minallocationsize )
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{
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mempool_t *pool;
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memheader_t *mem;
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size_t i;
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Mem_Check();
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Con_Printf( "memory pool list:\n" );
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Con_Printf( "\t^3size\t\t\t\tname\n");
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for( i = 0, pool = poolchain; i < poolcount; i++, pool++ )
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{
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long changed_size = (long)pool->totalsize - (long)pool->lastchecksize;
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if( !pool->filename )
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continue;
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// poolnames can contain color symbols, make sure what color is reset
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if( pool->lastchecksize != 0 && changed_size != 0 )
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{
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char sign = (changed_size < 0) ? '-' : '+';
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Con_Printf( "%10s (%10s real)\t%s (^7%c%s change)\n", Q_memprint( pool->totalsize ), Q_memprint( pool->realsize ),
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pool->name, sign, Q_memprint( abs( changed_size )));
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}
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else
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{
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Con_Printf( "%10s (%10s real)\t%s\n", Q_memprint( pool->totalsize ), Q_memprint( pool->realsize ), pool->name );
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}
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pool->lastchecksize = pool->totalsize;
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for( mem = pool->chain; mem; mem = mem->next )
|
|
{
|
|
if( mem->size >= minallocationsize )
|
|
Con_Printf( "%10s allocated at %s:%i\n", Q_memprint( mem->size ), mem->filename, mem->fileline );
|
|
}
|
|
}
|
|
}
|
|
|
|
/*
|
|
========================
|
|
Memory_Init
|
|
========================
|
|
*/
|
|
void Memory_Init( void )
|
|
{
|
|
poolchain = NULL; // init mem chain
|
|
}
|