forked from minhngoc25a/freetype2
399 lines
16 KiB
C++
399 lines
16 KiB
C++
/****************************************************************************
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*
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* ftmemory.h
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*
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* The FreeType memory management macros (specification).
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*
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* Copyright (C) 1996-2022 by
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* David Turner, Robert Wilhelm, and Werner Lemberg
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*
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* This file is part of the FreeType project, and may only be used,
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* modified, and distributed under the terms of the FreeType project
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* license, LICENSE.TXT. By continuing to use, modify, or distribute
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* this file you indicate that you have read the license and
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* understand and accept it fully.
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*
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*/
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#ifndef FTMEMORY_H_
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#define FTMEMORY_H_
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#include <ft2build.h>
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#include FT_CONFIG_CONFIG_H
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#include <freetype/fttypes.h>
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#include "compiler-macros.h"
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FT_BEGIN_HEADER
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/**************************************************************************
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*
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* @macro:
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* FT_SET_ERROR
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*
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* @description:
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* This macro is used to set an implicit 'error' variable to a given
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* expression's value (usually a function call), and convert it to a
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* boolean which is set whenever the value is != 0.
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*/
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#undef FT_SET_ERROR
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#define FT_SET_ERROR( expression ) \
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( ( error = (expression) ) != 0 )
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/*************************************************************************/
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/*************************************************************************/
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/*************************************************************************/
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/**** ****/
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/**** ****/
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/**** M E M O R Y ****/
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/**** ****/
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/**** ****/
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/*************************************************************************/
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/*************************************************************************/
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/*************************************************************************/
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/* The calculation `NULL + n' is undefined in C. Even if the resulting */
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/* pointer doesn't get dereferenced, this causes warnings with */
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/* sanitizers. */
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/* */
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/* We thus provide a macro that should be used if `base' can be NULL. */
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#define FT_OFFSET( base, count ) ( (base) ? (base) + (count) : NULL )
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/*
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* C++ refuses to handle statements like p = (void*)anything, with `p' a
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* typed pointer. Since we don't have a `typeof' operator in standard C++,
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* we have to use a template to emulate it.
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*/
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#ifdef __cplusplus
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extern "C++"
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{
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template <typename T> inline T*
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cplusplus_typeof( T*,
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void *v )
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{
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return static_cast <T*> ( v );
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}
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}
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#define FT_ASSIGNP( p, val ) (p) = cplusplus_typeof( (p), (val) )
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#else
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#define FT_ASSIGNP( p, val ) (p) = (val)
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#endif
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#ifdef FT_DEBUG_MEMORY
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FT_BASE( const char* ) _ft_debug_file;
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FT_BASE( long ) _ft_debug_lineno;
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#define FT_DEBUG_INNER( exp ) ( _ft_debug_file = __FILE__, \
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_ft_debug_lineno = __LINE__, \
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(exp) )
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#define FT_ASSIGNP_INNER( p, exp ) ( _ft_debug_file = __FILE__, \
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_ft_debug_lineno = __LINE__, \
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FT_ASSIGNP( p, exp ) )
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#else /* !FT_DEBUG_MEMORY */
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#define FT_DEBUG_INNER( exp ) (exp)
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#define FT_ASSIGNP_INNER( p, exp ) FT_ASSIGNP( p, exp )
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#endif /* !FT_DEBUG_MEMORY */
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/*
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* The allocation functions return a pointer, and the error code is written
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* to through the `p_error' parameter.
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*/
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/* The `q' variants of the functions below (`q' for `quick') don't fill */
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/* the allocated or reallocated memory with zero bytes. */
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FT_BASE( FT_Pointer )
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ft_mem_alloc( FT_Memory memory,
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FT_Long size,
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FT_Error *p_error );
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FT_BASE( FT_Pointer )
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ft_mem_qalloc( FT_Memory memory,
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FT_Long size,
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FT_Error *p_error );
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FT_BASE( FT_Pointer )
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ft_mem_realloc( FT_Memory memory,
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FT_Long item_size,
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FT_Long cur_count,
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FT_Long new_count,
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void* block,
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FT_Error *p_error );
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FT_BASE( FT_Pointer )
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ft_mem_qrealloc( FT_Memory memory,
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FT_Long item_size,
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FT_Long cur_count,
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FT_Long new_count,
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void* block,
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FT_Error *p_error );
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FT_BASE( void )
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ft_mem_free( FT_Memory memory,
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const void* P );
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/* The `Q' variants of the macros below (`Q' for `quick') don't fill */
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/* the allocated or reallocated memory with zero bytes. */
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#define FT_MEM_ALLOC( ptr, size ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_alloc( memory, \
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(FT_Long)(size), \
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&error ) )
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#define FT_MEM_FREE( ptr ) \
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FT_BEGIN_STMNT \
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FT_DEBUG_INNER( ft_mem_free( memory, (ptr) ) ); \
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(ptr) = NULL; \
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FT_END_STMNT
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#define FT_MEM_NEW( ptr ) \
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FT_MEM_ALLOC( ptr, sizeof ( *(ptr) ) )
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#define FT_MEM_REALLOC( ptr, cursz, newsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \
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1, \
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(FT_Long)(cursz), \
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(FT_Long)(newsz), \
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(ptr), \
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&error ) )
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#define FT_MEM_QALLOC( ptr, size ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qalloc( memory, \
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(FT_Long)(size), \
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&error ) )
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#define FT_MEM_QNEW( ptr ) \
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FT_MEM_QALLOC( ptr, sizeof ( *(ptr) ) )
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#define FT_MEM_QREALLOC( ptr, cursz, newsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \
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1, \
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(FT_Long)(cursz), \
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(FT_Long)(newsz), \
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(ptr), \
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&error ) )
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#define FT_MEM_ALLOC_MULT( ptr, count, item_size ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \
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(FT_Long)(item_size), \
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0, \
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(FT_Long)(count), \
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NULL, \
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&error ) )
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#define FT_MEM_REALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \
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(FT_Long)(itmsz), \
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(FT_Long)(oldcnt), \
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(FT_Long)(newcnt), \
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(ptr), \
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&error ) )
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#define FT_MEM_QALLOC_MULT( ptr, count, item_size ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \
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(FT_Long)(item_size), \
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0, \
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(FT_Long)(count), \
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NULL, \
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&error ) )
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#define FT_MEM_QREALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \
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(FT_Long)(itmsz), \
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(FT_Long)(oldcnt), \
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(FT_Long)(newcnt), \
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(ptr), \
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&error ) )
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#define FT_MEM_SET_ERROR( cond ) ( (cond), error != 0 )
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#define FT_MEM_SET( dest, byte, count ) \
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ft_memset( dest, byte, (FT_Offset)(count) )
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#define FT_MEM_COPY( dest, source, count ) \
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ft_memcpy( dest, source, (FT_Offset)(count) )
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#define FT_MEM_MOVE( dest, source, count ) \
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ft_memmove( dest, source, (FT_Offset)(count) )
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#define FT_MEM_ZERO( dest, count ) FT_MEM_SET( dest, 0, count )
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#define FT_ZERO( p ) FT_MEM_ZERO( p, sizeof ( *(p) ) )
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#define FT_ARRAY_ZERO( dest, count ) \
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FT_MEM_ZERO( dest, \
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(FT_Offset)(count) * sizeof ( *(dest) ) )
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#define FT_ARRAY_COPY( dest, source, count ) \
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FT_MEM_COPY( dest, \
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source, \
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(FT_Offset)(count) * sizeof ( *(dest) ) )
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#define FT_ARRAY_MOVE( dest, source, count ) \
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FT_MEM_MOVE( dest, \
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source, \
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(FT_Offset)(count) * sizeof ( *(dest) ) )
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/*
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* Return the maximum number of addressable elements in an array. We limit
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* ourselves to INT_MAX, rather than UINT_MAX, to avoid any problems.
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*/
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#define FT_ARRAY_MAX( ptr ) ( FT_INT_MAX / sizeof ( *(ptr) ) )
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#define FT_ARRAY_CHECK( ptr, count ) ( (count) <= FT_ARRAY_MAX( ptr ) )
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/**************************************************************************
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*
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* The following functions macros expect that their pointer argument is
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* _typed_ in order to automatically compute array element sizes.
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*/
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#define FT_MEM_NEW_ARRAY( ptr, count ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \
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sizeof ( *(ptr) ), \
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0, \
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(FT_Long)(count), \
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NULL, \
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&error ) )
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#define FT_MEM_RENEW_ARRAY( ptr, cursz, newsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \
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sizeof ( *(ptr) ), \
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(FT_Long)(cursz), \
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(FT_Long)(newsz), \
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(ptr), \
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&error ) )
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#define FT_MEM_QNEW_ARRAY( ptr, count ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \
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sizeof ( *(ptr) ), \
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0, \
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(FT_Long)(count), \
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NULL, \
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&error ) )
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#define FT_MEM_QRENEW_ARRAY( ptr, cursz, newsz ) \
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FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \
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sizeof ( *(ptr) ), \
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(FT_Long)(cursz), \
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(FT_Long)(newsz), \
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(ptr), \
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&error ) )
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#define FT_ALLOC( ptr, size ) \
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FT_MEM_SET_ERROR( FT_MEM_ALLOC( ptr, size ) )
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#define FT_REALLOC( ptr, cursz, newsz ) \
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FT_MEM_SET_ERROR( FT_MEM_REALLOC( ptr, cursz, newsz ) )
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#define FT_ALLOC_MULT( ptr, count, item_size ) \
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FT_MEM_SET_ERROR( FT_MEM_ALLOC_MULT( ptr, count, item_size ) )
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#define FT_REALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \
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FT_MEM_SET_ERROR( FT_MEM_REALLOC_MULT( ptr, oldcnt, \
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newcnt, itmsz ) )
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#define FT_QALLOC( ptr, size ) \
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FT_MEM_SET_ERROR( FT_MEM_QALLOC( ptr, size ) )
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#define FT_QREALLOC( ptr, cursz, newsz ) \
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FT_MEM_SET_ERROR( FT_MEM_QREALLOC( ptr, cursz, newsz ) )
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#define FT_QALLOC_MULT( ptr, count, item_size ) \
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FT_MEM_SET_ERROR( FT_MEM_QALLOC_MULT( ptr, count, item_size ) )
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#define FT_QREALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \
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FT_MEM_SET_ERROR( FT_MEM_QREALLOC_MULT( ptr, oldcnt, \
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newcnt, itmsz ) )
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#define FT_FREE( ptr ) FT_MEM_FREE( ptr )
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#define FT_NEW( ptr ) FT_MEM_SET_ERROR( FT_MEM_NEW( ptr ) )
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#define FT_NEW_ARRAY( ptr, count ) \
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FT_MEM_SET_ERROR( FT_MEM_NEW_ARRAY( ptr, count ) )
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#define FT_RENEW_ARRAY( ptr, curcnt, newcnt ) \
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FT_MEM_SET_ERROR( FT_MEM_RENEW_ARRAY( ptr, curcnt, newcnt ) )
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#define FT_QNEW( ptr ) FT_MEM_SET_ERROR( FT_MEM_QNEW( ptr ) )
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#define FT_QNEW_ARRAY( ptr, count ) \
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FT_MEM_SET_ERROR( FT_MEM_QNEW_ARRAY( ptr, count ) )
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#define FT_QRENEW_ARRAY( ptr, curcnt, newcnt ) \
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FT_MEM_SET_ERROR( FT_MEM_QRENEW_ARRAY( ptr, curcnt, newcnt ) )
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FT_BASE( FT_Pointer )
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ft_mem_strdup( FT_Memory memory,
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const char* str,
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FT_Error *p_error );
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FT_BASE( FT_Pointer )
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ft_mem_dup( FT_Memory memory,
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const void* address,
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FT_ULong size,
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FT_Error *p_error );
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#define FT_MEM_STRDUP( dst, str ) \
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(dst) = (char*)ft_mem_strdup( memory, (const char*)(str), &error )
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#define FT_STRDUP( dst, str ) \
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FT_MEM_SET_ERROR( FT_MEM_STRDUP( dst, str ) )
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#define FT_MEM_DUP( dst, address, size ) \
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(dst) = ft_mem_dup( memory, (address), (FT_ULong)(size), &error )
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#define FT_DUP( dst, address, size ) \
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FT_MEM_SET_ERROR( FT_MEM_DUP( dst, address, size ) )
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/* Return >= 1 if a truncation occurs. */
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/* Return 0 if the source string fits the buffer. */
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/* This is *not* the same as strlcpy(). */
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FT_BASE( FT_Int )
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ft_mem_strcpyn( char* dst,
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const char* src,
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FT_ULong size );
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#define FT_STRCPYN( dst, src, size ) \
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ft_mem_strcpyn( (char*)dst, (const char*)(src), (FT_ULong)(size) )
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FT_END_HEADER
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#endif /* FTMEMORY_H_ */
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/* END */
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