/* mem.h Memory manipulation functions */ /* * C/C++ Run Time Library - Version 10.0 * * Copyright (c) 1987, 2000 by Inprise Corporation * All Rights Reserved. * */ /* $Revision: 9.4.1.0 $ */ #if !defined(__MEM_H) #define __MEM_H #ifndef ___STDDEF_H #include <_stddef.h> #endif #if !defined(RC_INVOKED) #if defined(__STDC__) #pragma warn -nak #endif #endif /* !RC_INVOKED */ #ifdef __cplusplus extern "C" { #endif /* Intrinsic functions, defined outside of the namespace */ void _FAR * _RTLENTRY _EXPFUNC16 __memchr__(const void _FAR * __s, int __c, _SIZE_T __n); int _RTLENTRY _EXPFUNC16 __memcmp__(const void _FAR * __s1, const void _FAR * __s2, _SIZE_T __n); void _FAR * _RTLENTRY _EXPFUNC16 __memcpy__(void _FAR * __dest, const void _FAR * __src, _SIZE_T __n); void _FAR * _RTLENTRYF _EXPFUNC16 __memset__(void _FAR * __s, int __c, _SIZE_T __n); #ifdef __cplusplus namespace std { #endif void _FAR * _RTLENTRY _EXPFUNC memccpy(void _FAR *__dest, const void _FAR *__src, int __c, _SIZE_T __n); int _RTLENTRY _EXPFUNC memcmp(const void _FAR *__s1, const void _FAR *__s2, _SIZE_T __n); void _FAR * _RTLENTRY _EXPFUNC memcpy(void _FAR *__dest, const void _FAR *__src, _SIZE_T __n); int _RTLENTRY _EXPFUNC memicmp(const void _FAR *__s1, const void _FAR *__s2, _SIZE_T __n); void _FAR * _RTLENTRYF _EXPFUNC memmove(void _FAR *__dest, const void _FAR *__src, _SIZE_T __n); void _FAR * _RTLENTRYF _EXPFUNC memset(void _FAR *__s, int __c, _SIZE_T __n); void * _RTLENTRY _EXPFUNC _wmemset(void *__s, int __c, _SIZE_T __n); void * _RTLENTRY _EXPFUNC _wmemcpy(void *__dest, const void *__src, _SIZE_T __n); #if defined(__cplusplus) extern "C++" { void _FAR * _RTLENTRY _EXPFUNC32 memchr(void _FAR *__s, int __c, _SIZE_T __n); const void _FAR * _RTLENTRY _EXPFUNC32 memchr(const void _FAR *__s, int __c, _SIZE_T __n); void * _RTLENTRY _EXPFUNC32 _wmemchr(void *__s, int __c, _SIZE_T __n); const void * _RTLENTRY _EXPFUNC32 _wmemchr(const void *__s, int __c, _SIZE_T __n); } #else void _FAR * _RTLENTRY _EXPFUNC32 memchr(const void _FAR *__s, int __c, _SIZE_T __n); void * _RTLENTRY _EXPFUNC32 _wmemchr(const void *__s, int __c, _SIZE_T __n); #endif #define movmem(src,dest,length) (void)memmove(dest,src,length) #define setmem(dest,length,value) (void)memset(dest,value,length) #if !defined(__STDC__) /* NON_ANSI */ #define _fmemccpy memccpy #define _fmemchr memchr #define _fmemcmp memcmp #define _fmemcpy memcpy #define _fmemicmp memicmp #define _fmemmove memmove #define _fmemset memset #define _fmovmem movmem #define _fsetmem setmem #endif /* __STDC__ */ #ifdef __cplusplus } // std } // extern "C" #endif #if !defined(RC_INVOKED) #if defined(__STDC__) #pragma warn .nak #endif #endif /* !RC_INVOKED */ #endif /* __MEM_H */ #if defined(__cplusplus) && !defined(__USING_CNAME__) && !defined(__MEM_H_USING_LIST) #define __MEM_H_USING_LIST using std::_wmemchr; using std::_wmemcpy; using std::_wmemset; using std::memccpy; using std::memicmp; using std::memmove; /* Handle intrinsics specially. If intrinsics are on, the compiler creates a macro of the normal function mapping to the __ intrinsic version, ie: #define strcpy __strcpy__ Thus, we can test the normal name as a macro to see if it's defined, and only preform a using statement if it's not an intrinsic */ # ifndef memchr using std::memchr; # endif // ifndef memchr # ifndef memcmp using std::memcmp; # endif // ifndef memcmp # ifndef memcpy using std::memcpy; # endif // ifndef memcpy # ifndef memset using std::memset; # endif // ifndef memset #endif /* __USING_CNAME__ */