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harbour-core/harbour/include/hbdefs.h
Przemyslaw Czerpak 3672e94c50 2009-04-01 22:10 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/doc/Makefile
    ! removed unexisting license.txt file

  * harbour/include/hbapidbg.h
    * do not export Harbour debugger functions. If someone wants to create
      3-rd party debugger then we should agree the list of functions which
      should be public.

  * harbour/include/hbstack.h
    * minor cleanup in some definitions

  * harbour/include/hbdefs.h
    + added HB_DLL_ENTRY_POINT macro to set default DLL entry point for
      different Windows compilers

  * harbour/source/vm/maindllh.c
  * harbour/source/vm/maindllp.c
    * use HB_DLL_ENTRY_POINT macro

  * harbour/include/hbsetup.h
    * added internal macro to disable flatten optimization

  * harbour/include/hbmath.h
  * harbour/source/rtl/math.c
    * make default math error handler function static

  * harbour/include/hbatomic.h
    + added atomic inc/dec inline asm code to OW x86 builds

  * harbour/source/rtl/console.c
    * small code reorganization to not mix public and private function calls

  * harbour/source/rtl/hbregex.c
  * harbour/source/hbpcre/_hbpcreg.c
    * do not use hb_xfree() function pointer directly to avoid problems
      with different calling conventions.

  * harbour/config/win/owatcom.cf
  * harbour/config/os2/owatcom.cf
    * removed unnecessary in recent OpenWatcom versions explicit wlink.lnk
      including.
2009-04-01 20:04:37 +00:00

1418 lines
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/*
* $Id$
*/
/*
* Harbour Project source code:
* Header file for compiler and runtime basic type declarations
*
* Copyright 1999 {list of individual authors and e-mail addresses}
* www - http://www.harbour-project.org
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program 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. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this software; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/).
*
* As a special exception, the Harbour Project gives permission for
* additional uses of the text contained in its release of Harbour.
*
* The exception is that, if you link the Harbour libraries with other
* files to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the Harbour library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the Harbour
* Project under the name Harbour. If you copy code from other
* Harbour Project or Free Software Foundation releases into a copy of
* Harbour, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for Harbour, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*
*/
#ifndef HB_DEFS_H_
#define HB_DEFS_H_
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include "hbsetup.h"
#include "hbver.h"
/* Compatibility. Do not use HB_OS_WIN_32_USED anymore. */
#ifdef HB_LEGACY_LEVEL2
#if defined( HB_OS_WIN_32_USED ) && ! defined( HB_OS_WIN_USED )
#define HB_OS_WIN_USED
#endif
#endif
#if defined( __XCC__ ) || defined( __POCC__ ) || defined( __LCC__ ) || \
defined( __MINGW32__ ) || defined(__DMC__) || \
( defined( __BORLANDC__ ) && __BORLANDC__ >= 1410 ) || \
( defined( __WATCOMC__ ) && __WATCOMC__ >= 1270 ) || \
( defined( __GNUC__ ) && \
( defined( _ISOC99_SOURCE ) || \
( defined( __STDC_VERSION__ ) && __STDC_VERSION__ >= 199901L ) || \
( defined( __DJGPP__ ) && \
( __DJGPP__ > 2 || ( __DJGPP__ == 2 && __DJGPP_MINOR__ >= 4 ) ) ) || \
defined( HB_OS_LINUX ) || defined( HB_OS_DARWIN ) || defined( HB_OS_SUNOS ) ) )
#include <stdint.h>
/* workaround for BCC 5.8 bug */
#if ( defined( __BORLANDC__ ) && __BORLANDC__ >= 1410 )
#undef INT32_MIN
#define INT32_MIN ((int32_t) (-INT32_MAX-1))
#undef INT64_MIN
#define INT64_MIN (9223372036854775807i64-1)
#undef INT64_MAX
#define INT64_MAX 9223372036854775807i64
#endif
#endif
/*
#define HB_CLIPPER_INT_ITEMS
#define HB_LONG_LONG_OFF
*/
#if defined( HB_OS_WIN ) || defined( HB_OS_WIN_64 )
#if defined( HB_OS_WIN_64 )
#undef HB_LONG_LONG_OFF
#define HB_STRICT_ALIGNMENT
#if !defined( HB_OS_WIN )
#define HB_OS_WIN
#endif
#endif
#if !defined( HB_IO_WIN_OFF )
#define HB_IO_WIN
#endif
#if defined( HB_IO_WIN ) && !defined( HB_OS_WIN_USED )
/* disabled to avoid problems with windows.h */
/* #define HB_OS_WIN_USED */
#endif
#else
#undef HB_IO_WIN
#undef HB_OS_WIN_USED
#endif
/* Include windows.h if applicable and requested */
#if defined( HB_OS_WIN_USED ) && defined( HB_OS_WIN )
#include <windows.h>
#if defined( __GNUC__ )
#define HB_DONT_DEFINE_BASIC_TYPES
#endif
#elif defined( HB_OS_OS2 )
/* With the exception of WORD, the IBM Visual Age C++ compiler has
its own definitions of the Harbour types most of which conflict with the
Harbour #undefs, due to typedef being the prevalent method of
defining the types in IBMCPP, whereas Harbour assumes that the
definitions that it is replacing have been defined using
#define. Therefore, it is necessary to skip the Harbour
definition section when using the IBMCPP compiiler, include
the IBMCPP type definitions, and then add the definition for WORD
NOTE: This only applies to the common types that most C compilers
define. Any new types, particulary those that start with
HB_, must be placed AFTER the #endif __IBMCPP__ line!
*/
/* 28/03/2000 - maurilio.longo@libero.it
The same holds true when using GCC under OS/2
*/
#define INCL_TYPES
#define INCL_DOSEXCEPTIONS /* DOS exception values */
#define INCL_ERRORS /* DOS error values */
#define INCL_LONGLONG /* include native compiler LONGLONG definition */
#include <os2.h>
#undef INT
#undef UINT
#define HB_DONT_DEFINE_BASIC_TYPES
#elif defined( HB_OS_DOS )
#include <dos.h>
#if defined(__WATCOMC__) && defined(__386__) && !defined(__WINDOWS_386__)
#define HB_DOS_INT86 int386
#define HB_DOS_INT86X int386x
#define HB_XREGS w
#elif defined(__RSX32__)
#define HB_DOS_INT86 _int86
#define HB_DOS_INT86X _int86x
#define HB_XREGS x
#elif defined( __DJGPP__ )
#define HB_DOS_INT86 int86
#define HB_DOS_INT86X int86x
#define HB_XREGS w
#else
#define HB_DOS_INT86 int86
#define HB_DOS_INT86X int86x
#define HB_XREGS x
#endif
#elif defined( HB_OS_DARWIN )
/* Detect if it is Darwin < 6.x */
#include <pthread.h>
#ifndef PTHREAD_MUTEX_RECURSIVE
#define HB_OS_DARWIN_5
#endif
#endif
#if defined( HB_OS_WIN )
#include "hbwince.h"
#endif
#if ! defined( HB_DONT_DEFINE_BASIC_TYPES )
#if ! defined( HB_DONT_DEFINE_BOOL )
#undef BOOL /* boolean */
typedef int BOOL;
#endif
#undef UINT /* varies with platform */
typedef unsigned int UINT;
#undef SCHAR /* 1 byte signed */
typedef signed char SCHAR;
#undef UCHAR /* 1 byte unsigned */
typedef unsigned char UCHAR;
#if ! defined( HB_DONT_DEFINE_BYTE )
#undef BYTE /* 1 byte unsigned */
typedef unsigned char BYTE;
#endif
#undef SHORT /* 2 bytes signed */
typedef short int SHORT;
#undef USHORT /* 2 bytes unsigned */
typedef unsigned short int USHORT;
#if ! defined( HB_DONT_DEFINE_LONG )
#undef LONG /* 4 or 8 bytes signed */
typedef long LONG;
#endif
#undef ULONG /* 4 or 8 bytes unsigned */
typedef unsigned long ULONG;
#undef FALSE
#define FALSE 0
#undef TRUE
#define TRUE (!0)
#else /* HB_DONT_DEFINE_BASIC_TYPES */
/*
* if HB_DONT_DEFINE_BASIC_TYPES excluded some types which are not
* defined in included platform dependent header files then please
* add necessary definitions here.
*/
/* SCHAR is needed using GCC on OS/2 */
#if ! defined( SCHAR )
typedef signed char SCHAR; /* 1 byte signed */
#endif
#endif /* HB_DONT_DEFINE_BASIC_TYPES */
#ifndef HB_LONG_LONG_OFF
#if ! defined(HB_DONT_DEFINE_BASIC_TYPES) && ! defined(_WINNT_H)
#if !defined(LONGLONG)
#if defined(__GNUC__)
typedef long long LONGLONG;
#else
typedef __int64 LONGLONG;
#endif
#endif
#if !defined(ULONGLONG)
#if defined(__GNUC__)
typedef unsigned long long ULONGLONG;
#else
typedef unsigned __int64 ULONGLONG;
#endif
#endif
#endif
#if !defined(ULONGLONG_MAX)
#if defined(_UI64_MAX)
#define ULONGLONG_MAX _UI64_MAX
#elif defined(ULLONG_MAX)
#define ULONGLONG_MAX ULLONG_MAX
#elif defined(ULONG_LONG_MAX)
#define ULONGLONG_MAX ULONG_LONG_MAX
#else
#define ULONGLONG_MAX 18446744073709551615ULL
#endif
#endif
#if !defined(LONGLONG_MAX)
#if defined(_I64_MAX)
#define LONGLONG_MAX _I64_MAX
#elif defined(LLONG_MAX)
#define LONGLONG_MAX LLONG_MAX
#elif defined(LONG_LONG_MAX)
#define LONGLONG_MAX LONG_LONG_MAX
#else
#define LONGLONG_MAX 9223372036854775807LL
#endif
#endif
#if !defined(LONGLONG_MIN)
#if defined(_I64_MIN)
#define LONGLONG_MIN _I64_MIN
#elif defined(LLONG_MIN)
#define LONGLONG_MIN LLONG_MIN
#elif defined(LONG_LONG_MIN)
#define LONGLONG_MIN LONG_LONG_MIN
#else
#define LONGLONG_MIN (-LONGLONG_MAX - 1LL)
#endif
#endif
#endif /* HB_LONG_LONG_OFF */
/*
* below are some hacks which don't have to be true on some machines
* please update it if necessary
*/
#if defined( HB_OS_WIN_64 )
# define HB_ARCH_64BIT
#elif ULONG_MAX > UINT_MAX && UINT_MAX > USHRT_MAX
# define HB_ARCH_64BIT
#elif ULONG_MAX == UINT_MAX && UINT_MAX > USHRT_MAX
# define HB_ARCH_32BIT
#elif ULONG_MAX > UINT_MAX && UINT_MAX == USHRT_MAX
# define HB_ARCH_16BIT
#endif
#if USHRT_MAX == 0xffff
typedef short int hbI16;
typedef unsigned short int hbU16;
#define hbI16Min SHRT_MIN
#define hbI16Max SHRT_MAX
#define hbU16Max USHRT_MAX
# if !defined( UINT16 )
typedef USHORT UINT16;
# endif
# if !defined( INT16 )
typedef SHORT INT16;
# endif
# if !defined( UINT16_MAX )
# define UINT16_MAX USHRT_MAX
# endif
# if !defined( INT16_MAX )
# define INT16_MAX SHRT_MAX
# endif
# if !defined( INT16_MIN )
# define INT16_MIN SHRT_MIN
# endif
#else
typedef short int hbI16;
typedef unsigned short int hbU16;
#define hbI16Min SHRT_MIN
#define hbI16Max SHRT_MAX
#define hbU16Max USHRT_MAX
#endif
#if UINT_MAX == 0xFFFFFFFF
typedef int hbI32;
typedef unsigned int hbU32;
#define hbI32Min INT_MIN
#define hbI32Max INT_MAX
#define hbU32Max UINT_MAX
# if !defined( UINT32 )
typedef UINT UINT32;
# endif
# if !defined( INT32 )
typedef int INT32;
# endif
# if !defined( UINT32_MAX )
# define UINT32_MAX UINT_MAX
# endif
# if !defined( INT32_MAX )
# define INT32_MAX INT_MAX
# endif
# if !defined( INT32_MIN )
# define INT32_MIN INT_MIN
# endif
#elif ULONG_MAX == 0xFFFFFFFF
typedef long hbI32;
typedef unsigned long hbU32;
#define hbI32Min LONG_MIN
#define hbI32Max LONG_MAX
#define hbU32Max ULONG_MAX
# if !defined( UINT32 )
typedef ULONG UINT32;
# endif
# if !defined( INT32 )
typedef LONG INT32;
# endif
# if !defined( UINT32_MAX )
# define UINT32_MAX ULONG_MAX
# endif
# if !defined( INT32_MAX )
# define INT32_MAX LONG_MAX
# endif
# if !defined( INT32_MIN )
# define INT32_MIN LONG_MIN
# endif
#endif
#if !defined( UCHAR_MAX )
# define UCHAR_MAX 0x0FF
#endif
#if !defined( UINT24_MAX )
# define UINT24_MAX 0x0FFFFFFL
#endif
#if !defined( INT24_MAX )
# define INT24_MAX 8388607L
#endif
#if !defined( INT24_MIN )
# define INT24_MIN -8388608L
#endif
#if defined( HB_ARCH_64BIT ) && !defined( HB_OS_WIN_64 )
typedef long hbI64;
typedef unsigned long hbU64;
#define hbI64Min LONG_MIN
#define hbI64Max LONG_MAX
#define hbU64Max ULONG_MAX
# if !defined( UINT64 )
typedef ULONG UINT64;
# endif
# if !defined( INT64 )
typedef LONG INT64;
# endif
# if !defined( UINT64_MAX )
# define UINT64_MAX ULONG_MAX
# endif
# if !defined( INT64_MAX )
# define INT64_MAX LONG_MAX
# endif
# if !defined( INT64_MIN )
# define INT64_MIN LONG_MIN
# endif
#elif !defined( HB_LONG_LONG_OFF )
typedef LONGLONG hbI64;
typedef ULONGLONG hbU64;
#define hbI64Min LONGLONG_MIN
#define hbI64Max LONGLONG_MAX
#define hbU64Max ULONGLONG_MAX
# if !defined( UINT64 )
typedef ULONGLONG UINT64;
# endif
# if !defined( INT64 )
typedef LONGLONG INT64;
# endif
# if !defined( UINT64_MAX )
# define UINT64_MAX ULONGLONG_MAX
# endif
# if !defined( INT64_MAX )
# define INT64_MAX LONGLONG_MAX
# endif
# if !defined( INT64_MIN )
# define INT64_MIN LONGLONG_MIN
# endif
#endif
#ifndef HB_LONG_DOUBLE_OFF
typedef long double HB_MAXDBL;
#else
typedef double HB_MAXDBL;
#endif
#if defined( HB_CLIPPER_INT_ITEMS )
# define HB_INT_MAX SHRT_MAX
# define HB_INT_MIN SHRT_MIN
# define HB_LONG_MAX LONG_MAX
# define HB_LONG_MIN LONG_MIN
# define HB_ULONG_MAX ULONG_MAX
typedef LONG HB_LONG;
typedef ULONG HB_ULONG;
# define PFHL "l"
#elif !defined( HB_LONG_LONG_OFF ) && ULONG_MAX == UINT_MAX
# define HB_INT_MAX INT_MAX
# define HB_INT_MIN INT_MIN
# define HB_LONG_MAX LONGLONG_MAX
# define HB_LONG_MIN LONGLONG_MIN
# define HB_ULONG_MAX ULONGLONG_MAX
typedef LONGLONG HB_LONG;
typedef ULONGLONG HB_ULONG;
#else
# define HB_INT_MAX INT_MAX
# define HB_INT_MIN INT_MIN
# define HB_LONG_MAX LONG_MAX
# define HB_LONG_MIN LONG_MIN
# define HB_ULONG_MAX ULONG_MAX
typedef LONG HB_LONG;
typedef ULONG HB_ULONG;
# define PFHL "l"
#endif
#define HB_DBL_LIM_INT(d) ( HB_INT_MIN <= (d) && (d) <= HB_INT_MAX )
#define HB_DBL_LIM_LONG(d) ( (HB_MAXDBL) HB_LONG_MIN <= (HB_MAXDBL) (d) && (HB_MAXDBL) (d) <= (HB_MAXDBL) HB_LONG_MAX )
#define HB_LIM_INT(l) ( HB_INT_MIN <= (l) && (l) <= HB_INT_MAX )
#define HB_LIM_LONG(l) ( HB_LONG_MIN <= (l) && (l) <= HB_LONG_MAX )
#define HB_DBL_LIM_INT8(d) ( -128 <= (d) && (d) <= 127 )
#define HB_DBL_LIM_INT16(d) ( INT16_MIN <= (d) && (d) <= INT16_MAX )
#define HB_DBL_LIM_INT24(d) ( INT24_MIN <= (d) && (d) <= INT24_MAX )
#define HB_DBL_LIM_INT32(d) ( INT32_MIN <= (d) && (d) <= INT32_MAX )
#define HB_DBL_LIM_INT64(d) ( (HB_MAXDBL) INT64_MIN <= (HB_MAXDBL) (d) && (HB_MAXDBL) (d) <= (HB_MAXDBL) INT64_MAX )
#define HB_LIM_INT8(l) ( -128 <= (l) && (l) <= 127 )
#define HB_LIM_INT16(l) ( INT16_MIN <= (l) && (l) <= INT16_MAX )
#define HB_LIM_INT24(l) ( INT24_MIN <= (l) && (l) <= INT24_MAX )
#define HB_LIM_INT32(l) ( INT32_MIN <= (l) && (l) <= INT32_MAX )
#define HB_LIM_INT64(l) ( INT64_MIN <= (l) && (l) <= INT64_MAX )
/*
* It's a hack for compilers which don't support LL suffix for LONGLONG
* numeric constant. This suffix is necessary for some compilers -
* without it they cut the number to LONG
*/
#if defined( __BORLANDC__ )
# if __BORLANDC__ >= 1328
# define HB_LL( num ) num##i64
# define HB_ULL( num ) num##ui64
# else
# define HB_LL( num ) num
# define HB_ULL( num ) num
# endif
#elif defined( _MSC_VER )
# define HB_LL( num ) num
# define HB_ULL( num ) num
#else
# define HB_LL( num ) num##LL
# define HB_ULL( num ) num##ULL
#endif
/* HB_*_EXPLENGTH() macros are used by HVM to set the size of
* math operations, HB_*_LENGTH() macros are used when new
* item is created. [druzus]
*/
/* NOTE: the positive number limit 999999999 in HB_INT_LENGTH()
* (HB_LONG_LENGTH() on 16-bit platforms) below is not
* compatible with other limits. Clipper have such limit
* but IMHO it's result of some typo or wrong compiler
* warnings cleanup when someone removed one digit from
* upper limit instead of removing the whole limit.
* It's also possible that it comes from DBASE and was
* intentionally replicated. I think we should keep it
* only in strict compatibility mode. [druzus]
*/
#if HB_INT_MIN < -999999999
# define HB_INT_LENGTH( i ) ( ( (i) < -999999999 || (i) > 999999999 ) ? 20 : 10 )
#else
# define HB_INT_LENGTH( i ) 10
# define HB_INT_EXPLENGTH( i ) 10
# if HB_LONG_MIN < -999999999
# define HB_LONG_LENGTH( i ) ( ( (i) < -999999999 || (i) > 999999999 ) ? 20 : 10 )
# endif
#endif
#if !defined( HB_LONG_LONG_OFF )
# if HB_LONG_MAX > HB_LL( 9999999999 )
# define HB_LONG_LENGTH( l ) ( ( (l) < -999999999 || (l) > HB_LL( 9999999999 ) ) ? 20 : 10 )
# endif
# if HB_INT_MAX > HB_LL( 9999999999 )
# define HB_INT_EXPLENGTH( i ) HB_LONG_LENGTH( i )
# endif
#endif
#if !defined( HB_LONG_LENGTH )
# define HB_LONG_LENGTH( l ) ( ( (l) < -999999999 ) ? 20 : 10 )
#endif
#if !defined( HB_INT_EXPLENGTH )
# define HB_INT_EXPLENGTH( i ) ( ( (i) < -999999999 ) ? 20 : 10 )
#endif
#if !defined( HB_LONG_EXPLENGTH )
# define HB_LONG_EXPLENGTH( l ) HB_LONG_LENGTH( l )
#endif
/* HB_DBL_LENGTH() is used by VAL() for strings longer then 10 characters
* (counted to '.') and to set the size of math operations and new
* double item - it's CA-Cl*pper compatible range. For doubles we do
* not have separated limit for result of math operations. [druzus]
*/
#define HB_DBL_LENGTH( d ) ( ( (d) > 9999999999.0 || (d) < -999999999.0 ) ? 20 : 10 )
/* uncomment this if you need strict Clipper compatibility */
/* #define PCODE_LONG_LIM(l) HB_LIM_INT32( l ) */
/* #define PCODE_LONG_LIM(l) HB_LIM_LONG( l ) */
/* type of HB_ITEM */
/* typedef USHORT HB_TYPE; */
typedef UINT32 HB_TYPE;
/* type of reference counter */
typedef unsigned long HB_COUNTER;
#if ULONG_MAX <= UINT32_MAX
# define HB_COUNTER_SIZE 4
#else
# define HB_COUNTER_SIZE 8
#endif
/* type for memory pointer diff */
#if defined( HB_OS_WIN_64 )
typedef LONGLONG HB_PTRDIFF;
typedef ULONGLONG HB_PTRUINT;
#else
typedef long HB_PTRDIFF;
typedef unsigned long HB_PTRUINT;
#endif
#ifdef HB_LONG_LONG_OFF
typedef LONG HB_FOFFSET;
/* we can add hack with double as work around what should
effectively give 52bit file size limit */
#else
typedef LONGLONG HB_FOFFSET;
#endif
#if defined( HB_IO_WIN )
#if 1
typedef HB_PTRDIFF HB_FHANDLE;
#else
typedef void * HB_FHANDLE;
#endif
typedef HB_PTRDIFF HB_NHANDLE;
# define hb_numToHandle( h ) ( ( HB_FHANDLE ) ( HB_NHANDLE ) ( h ) )
#else
typedef int HB_FHANDLE;
typedef int HB_NHANDLE;
# define hb_numToHandle( h ) ( ( int ) ( h ) )
#endif
/* maximum length of double number in decimal representation:
log10(2^1024) ~ 308.25 */
#define HB_MAX_DOUBLE_LENGTH 320
/* This value is used to hack the double FL value in round/int
operation - similar thing is done by CL5.3 - I do not know
only the exact factor value but it should be close to this one.
When HB_C52_STRICT is set this macro is not used.
*/
#define HB_DBLFL_PREC_FACTOR 1.0000000000000002;
/* try to detect byte order if not explicitly set */
#if !defined( HB_PDP_ENDIAN ) && !defined( HB_BIG_ENDIAN ) && \
!defined( HB_LITTLE_ENDIAN )
/* I intentionaly move the first two #if/#elif to the begining
to avoid compiler error when this macro will be defined as
empty statement in next conditions, F.e. SunOS
*/
# if ( defined( __LITTLE_ENDIAN__ ) && ! defined( __BIG_ENDIAN__ ) ) || \
( defined( __LITTLE_ENDIAN ) && ! defined( __BIG_ENDIAN ) ) || \
( defined( _LITTLE_ENDIAN ) && ! defined( _BIG_ENDIAN ) ) || \
( defined( LITTLE_ENDIAN ) && ! defined( BIG_ENDIAN ) )
# define HB_LITTLE_ENDIAN
# elif ( ! defined( __LITTLE_ENDIAN__ ) && defined( __BIG_ENDIAN__ ) ) || \
( ! defined( __LITTLE_ENDIAN ) && defined( __BIG_ENDIAN ) ) || \
( ! defined( _LITTLE_ENDIAN ) && defined( _BIG_ENDIAN ) ) || \
( ! defined( LITTLE_ENDIAN ) && defined( BIG_ENDIAN ) )
# define HB_BIG_ENDIAN
# elif ( defined( __BYTE_ORDER ) && defined( __LITTLE_ENDIAN ) && __BYTE_ORDER == __LITTLE_ENDIAN ) || \
( defined( _BYTE_ORDER ) && defined( _LITTLE_ENDIAN ) && _BYTE_ORDER == _LITTLE_ENDIAN ) || \
( defined( BYTE_ORDER ) && defined( LITTLE_ENDIAN ) && BYTE_ORDER == LITTLE_ENDIAN )
# define HB_LITTLE_ENDIAN
# elif ( defined( __BYTE_ORDER ) && defined( __BIG_ENDIAN ) && __BYTE_ORDER == __BIG_ENDIAN ) || \
( defined( _BYTE_ORDER ) && defined( _BIG_ENDIAN ) && _BYTE_ORDER == _BIG_ENDIAN ) || \
( defined( BYTE_ORDER ) && defined( BIG_ENDIAN ) && BYTE_ORDER == BIG_ENDIAN )
# define HB_BIG_ENDIAN
# elif ( defined( __BYTE_ORDER ) && defined( __PDP_ENDIAN ) && __BYTE_ORDER == __PDP_ENDIAN ) || \
( defined( _BYTE_ORDER ) && defined( _PDP_ENDIAN ) && _BYTE_ORDER == _PDP_ENDIAN ) || \
( defined( BYTE_ORDER ) && defined( PDP_ENDIAN ) && BYTE_ORDER == PDP_ENDIAN )
# define HB_PDP_ENDIAN
# else /* We cannot detect byte order, we will have to guess */
# if defined( HB_OS_DARWIN ) || defined( HB_OS_SUNOS ) || defined( HB_OS_HPUX )
# define HB_BIG_ENDIAN
# else
# define HB_LITTLE_ENDIAN
# endif
# endif
#endif
/* New Harbour types (Planning stage) */
/*
ANSI C types:
void,
[ [un]signed ] char, [ [un]signed ] short, [ [un]signed ] int,
[ [un]signed ] long, double
*/
/* TODO: Remove dependence on old types */
/* Harbour overloaded types: */
typedef char hbChar; /* TOFIX */
typedef SCHAR hbSChar;
typedef UCHAR hbUChar;
typedef short hbShort;
typedef unsigned short hbUShort;
typedef int hbInt;
typedef unsigned int hbUInt;
typedef long hbLong;
typedef unsigned long hbULong;
typedef LONGLONG hbLongLong;
typedef ULONGLONG hbULongLong;
typedef double hbDouble;
/* typedef hbIntMax; */ /* TOFIX */
/* typedef hbDoubleMax; */ /* TOFIX */
typedef unsigned short hbCounter;
typedef long hbSize;
typedef HB_PTRDIFF hbPtrDiff;
typedef void * hbPtrVal; /* TOFIX */
/* typedef hbPointer; */ /* TOFIX */
/* typedef hbWChar; */ /* TOFIX */
/* Harbour strict bit types: */
typedef signed char hbI8;
typedef unsigned char hbU8;
/* Types which depends on internal HVM/compilation settings: */
/* NOTE: hbMaxVMInt - maximal integer which can be storred in HVM item
(HB_IT_LONG). It's current HB_LONG, usually will be
the same as hbIntMax unless for some reasons it will
not be reduced, f.e. compiler may support 128bit
integers as hbIntMax but we may don't use it for
HB_IT_LONG due to performance reduction. */
typedef long hbVMIntMax; /* TOFIX */
#define HB_MAX( a, b ) ( ( ( a ) > ( b ) ) ? ( a ) : ( b ) )
#define HB_MIN( a, b ) ( ( ( a ) < ( b ) ) ? ( a ) : ( b ) )
#define HB_LOBYTE( w ) ( ( BYTE ) ( w ) )
#define HB_HIBYTE( w ) ( ( BYTE ) ( ( ( w ) >> 8 ) & 0xFF ) )
#define HB_ULBYTE( w ) ( ( BYTE ) ( ( ( w ) >> 16 ) & 0xFF ) )
#define HB_UHBYTE( w ) ( ( BYTE ) ( ( ( w ) >> 24 ) & 0xFF ) )
#define HB_LOWORD( l ) ( ( UINT16 ) ( l ) )
#define HB_HIWORD( l ) ( ( UINT16 ) ( ( ( l ) >> 16 ) & 0xFFFF ) )
#define HB_MKSHORT( lo, hi ) ( ( SHORT ) ( ( ( INT16 ) ( hi ) ) << 8 ) | ( lo ) )
#define HB_MKUSHORT( lo, hi ) ( ( USHORT ) ( ( ( UINT16 ) ( hi ) ) << 8 ) | ( lo ) )
#define HB_MKLONG( b1, b2, b3, b4 ) ( ( LONG ) \
( ( ( ( INT32 ) ( b4 ) ) << 24 ) | \
( ( ( INT32 ) ( b3 ) ) << 16 ) | \
( ( ( INT32 ) ( b2 ) ) << 8 ) | \
( ( ( INT32 ) ( b1 ) ) ) ) )
#define HB_MKULONG( b1, b2, b3, b4 ) ( ( ULONG ) \
( ( ( ( UINT32 ) ( b4 ) ) << 24 ) | \
( ( ( UINT32 ) ( b3 ) ) << 16 ) | \
( ( ( UINT32 ) ( b2 ) ) << 8 ) | \
( ( ( UINT32 ) ( b1 ) ) ) ) )
#define HB_SWAP_UINT16( w ) ( ( UINT16 ) ( ( ( ( UINT16 ) ( w ) & 0xFF00 ) >> 8 ) | \
( ( ( UINT16 ) ( w ) & 0x00FF ) << 8 ) ) )
#define HB_SWAP_UINT32( w ) ( ( UINT32 ) ( ( ( ( UINT32 ) ( w ) & 0x000000FF ) << 24 ) | \
( ( ( UINT32 ) ( w ) & 0x0000FF00 ) << 8 ) | \
( ( ( UINT32 ) ( w ) & 0x00FF0000 ) >> 8 ) | \
( ( ( UINT32 ) ( w ) & 0xFF000000 ) >> 24 ) ) )
#ifndef PFLL
# if defined( __BORLANDC__ ) || defined( _MSC_VER ) || defined( __MINGW32__ )
# define PFLL "I64"
# else
# define PFLL "ll"
# endif
#endif
#ifndef PFHL
# define PFHL PFLL
#endif
#define HB_SWAP_UINT64( w ) ( ( UINT64 ) ( ( ( ( UINT64 ) ( w ) & HB_LL( 0x00000000000000FF ) ) << 56 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x000000000000FF00 ) ) << 40 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x0000000000FF0000 ) ) >> 24 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x00000000FF000000 ) ) >> 8 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x000000FF00000000 ) ) >> 8 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x0000FF0000000000 ) ) >> 24 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0x00FF000000000000 ) ) >> 40 ) | \
( ( ( UINT64 ) ( w ) & HB_LL( 0xFF00000000000000 ) ) >> 56 ) ) )
/*
* on some machines it's not safe to directly access pointers stored
* at byte buffer they have to be stored at odd (or other alignment)
* addresses.
* For example SPARC which needs 4 byte alignment for pointers
* and 8 byte alignment for doubles and structures (when GCC is used)
* IMHO need HB_ARCH_<arch> macro yet - the same OS can be used with
* different architectures - SPARC + LINUX, ALPHA + LINUX
*/
#if !defined( HB_STRICT_ALIGNMENT )
# if defined( HB_OS_SUNOS ) || defined( HB_OS_HPUX ) || defined( _M_ARM )
# define HB_STRICT_ALIGNMENT
# endif
#endif
#if defined( HB_STRICT_ALIGNMENT )
# if !defined( HB_ALLOC_ALIGNMENT ) || ( HB_ALLOC_ALIGNMENT + 1 == 1 )
# define HB_ALLOC_ALIGNMENT 8
# endif
#endif
#if defined( HB_ALLOC_ALIGNMENT ) && HB_COUNTER_SIZE < HB_ALLOC_ALIGNMENT + 0
# define HB_COUNTER_OFFSET HB_ALLOC_ALIGNMENT
#else
# define HB_COUNTER_OFFSET HB_COUNTER_SIZE
#endif
#define HB_COUNTER_PTR( p ) ((HB_COUNTER*) ((BYTE *) (p)-HB_COUNTER_OFFSET))
/*
* These macros are necessary for architectures which need
* strict alignment for pointers.
*/
#if defined( HB_BIG_ENDIAN )
# if defined( HB_ARCH_64BIT )
# define HB_PUT_LONG( p, v ) HB_PUT_BE_UINT64( p, ( UINT64 ) ( v ) )
# define HB_GET_LONG( p ) HB_GET_BE_UINT64( p )
# else
# define HB_PUT_LONG( p, v ) HB_PUT_BE_UINT32( p, ( UINT32 ) ( v ) )
# define HB_GET_LONG( p ) HB_GET_BE_UINT32( p )
# endif
# define HB_PUT_UINT32( p, v ) HB_PUT_BE_UINT32( p, ( UINT32 ) ( v ) )
# define HB_GET_UINT32( p ) HB_GET_BE_UINT32( p )
#else
# if defined( HB_ARCH_64BIT )
# define HB_PUT_LONG( p, v ) HB_PUT_LE_UINT64( p, ( UINT64 ) ( v ) )
# define HB_GET_LONG( p ) HB_GET_LE_UINT64( p )
# else
# define HB_PUT_LONG( p, v ) HB_PUT_LE_UINT32( p, ( UINT32 ) ( v ) )
# define HB_GET_LONG( p ) HB_GET_LE_UINT32( p )
# endif
# define HB_PUT_UINT32( p, v ) HB_PUT_LE_UINT32( p, ( UINT32 ) ( v ) )
# define HB_GET_UINT32( p ) HB_GET_LE_UINT32( p )
#endif
#if !defined( HB_STRICT_ALIGNMENT )
# define HB_PUT_PTR( p, v ) do { *( void ** ) ( p ) = ( void * ) ( v ); } while ( 0 )
# define HB_GET_PTR( p ) ( *( void ** ) ( p ) )
#else
# define HB_PUT_PTR( p, v ) HB_PUT_LONG( p, v )
# define HB_GET_PTR( p ) ( ( void * ) HB_GET_LONG( p ) )
#endif
/* Macros to store/retrive double value */
#if defined( __GNUC__ )
# define HB_GET_REV_DOUBLE( p ) \
( { \
union { \
double dbl; \
BYTE buffer[ 8 ]; \
} u; \
u.buffer[ 0 ] = (( BYTE * )( p ))[ 7 ]; \
u.buffer[ 1 ] = (( BYTE * )( p ))[ 6 ]; \
u.buffer[ 2 ] = (( BYTE * )( p ))[ 5 ]; \
u.buffer[ 3 ] = (( BYTE * )( p ))[ 4 ]; \
u.buffer[ 4 ] = (( BYTE * )( p ))[ 3 ]; \
u.buffer[ 5 ] = (( BYTE * )( p ))[ 2 ]; \
u.buffer[ 6 ] = (( BYTE * )( p ))[ 1 ]; \
u.buffer[ 7 ] = (( BYTE * )( p ))[ 0 ]; \
u.dbl; \
} )
# define HB_GET_STD_DOUBLE( p ) \
( { \
union { \
double dbl; \
BYTE buffer[ 8 ]; \
} u; \
u.buffer[ 0 ] = (( BYTE * )( p ))[ 0 ]; \
u.buffer[ 1 ] = (( BYTE * )( p ))[ 1 ]; \
u.buffer[ 2 ] = (( BYTE * )( p ))[ 2 ]; \
u.buffer[ 3 ] = (( BYTE * )( p ))[ 3 ]; \
u.buffer[ 4 ] = (( BYTE * )( p ))[ 4 ]; \
u.buffer[ 5 ] = (( BYTE * )( p ))[ 5 ]; \
u.buffer[ 6 ] = (( BYTE * )( p ))[ 6 ]; \
u.buffer[ 7 ] = (( BYTE * )( p ))[ 7 ]; \
u.dbl; \
} )
#else
# define HB_GET_REV_DOUBLE( p ) hb_get_rev_double( ( BYTE * ) ( p ) )
# define HB_GET_STD_DOUBLE( p ) hb_get_std_double( ( BYTE * ) ( p ) )
#endif
#define HB_PUT_REV_DOUBLE( p, d ) \
do { \
union { \
double dbl; \
BYTE buffer[ 8 ]; \
} u; \
u.dbl = ( double ) ( d ); \
(( BYTE * )( p ))[ 7 ] = u.buffer[ 0 ]; \
(( BYTE * )( p ))[ 6 ] = u.buffer[ 1 ]; \
(( BYTE * )( p ))[ 5 ] = u.buffer[ 2 ]; \
(( BYTE * )( p ))[ 4 ] = u.buffer[ 3 ]; \
(( BYTE * )( p ))[ 3 ] = u.buffer[ 4 ]; \
(( BYTE * )( p ))[ 2 ] = u.buffer[ 5 ]; \
(( BYTE * )( p ))[ 1 ] = u.buffer[ 6 ]; \
(( BYTE * )( p ))[ 0 ] = u.buffer[ 7 ]; \
} while ( 0 )
#define HB_PUT_STD_DOUBLE( p, d ) \
do { \
union { \
double dbl; \
BYTE buffer[ 8 ]; \
} u; \
u.dbl = ( double ) ( d ); \
(( BYTE * )( p ))[ 0 ] = u.buffer[ 0 ]; \
(( BYTE * )( p ))[ 1 ] = u.buffer[ 1 ]; \
(( BYTE * )( p ))[ 2 ] = u.buffer[ 2 ]; \
(( BYTE * )( p ))[ 3 ] = u.buffer[ 3 ]; \
(( BYTE * )( p ))[ 4 ] = u.buffer[ 4 ]; \
(( BYTE * )( p ))[ 5 ] = u.buffer[ 5 ]; \
(( BYTE * )( p ))[ 6 ] = u.buffer[ 6 ]; \
(( BYTE * )( p ))[ 7 ] = u.buffer[ 7 ]; \
} while ( 0 )
/*
* HB_FORCE_IEEE754_DOUBLE will can be used on platforms which use differ
* double format and we want to force storing double number as IEEE754
* double value for sharing binary data (f.e. PCODE in .hrb files or CDX
* indexes or DBFs with "B" fields.
*/
#if defined( HB_FORCE_IEEE754_DOUBLE )
# define HB_GET_LE_DOUBLE( p ) hb_get_ieee754( ( BYTE * ) ( p ) )
# define HB_PUT_LE_DOUBLE( p, d ) hb_put_ieee754( ( BYTE * ) ( p ), ( d ) )
# define HB_DBL2ORD( d, o ) hb_put_ord_ieee754( ( o ), *( d ) )
# define HB_ORD2DBL( o, d ) do { \
*d = hb_get_ord_ieee754( ( BYTE * ) ( o ) ); \
} while( 0 )
#elif defined( HB_STRICT_ALIGNMENT )
# if defined( HB_LITTLE_ENDIAN )
# define HB_GET_LE_DOUBLE( p ) HB_GET_STD_DOUBLE( ( p ) )
# define HB_PUT_LE_DOUBLE( p, d ) HB_PUT_STD_DOUBLE( ( p ), ( d ) )
# elif defined( HB_BIG_ENDIAN )
# define HB_GET_LE_DOUBLE( p ) HB_GET_REV_DOUBLE( ( p ) )
# define HB_PUT_LE_DOUBLE( p, d ) HB_PUT_REV_DOUBLE( ( p ), ( d ) )
# endif
#else
# if defined( HB_LITTLE_ENDIAN )
# define HB_GET_LE_DOUBLE( p ) ( *( double * )( p ) )
# define HB_PUT_LE_DOUBLE( p, d ) ( *( double * )( p ) = ( double ) ( d ) )
# elif defined( HB_BIG_ENDIAN )
# define HB_GET_LE_DOUBLE( p ) HB_GET_REV_DOUBLE( ( p ) )
# define HB_PUT_LE_DOUBLE( p, d ) HB_PUT_REV_DOUBLE( ( p ), ( d ) )
# endif
#endif
/* Now the rest of endian macros */
#if defined( HB_STRICT_ALIGNMENT ) || !defined( HB_LITTLE_ENDIAN )
#define HB_GET_LE_UINT16( p ) ( ( UINT16 ) \
( ( ( UINT16 ) (( BYTE * )( p ))[0] ) | \
( ( UINT16 ) (( BYTE * )( p ))[1] << 8 ) ) )
#define HB_GET_LE_UINT32( p ) ( ( UINT32 ) \
( ( ( UINT32 ) (( BYTE * )( p ))[0] ) | \
( ( UINT32 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( UINT32 ) (( BYTE * )( p ))[2] << 16 ) | \
( ( UINT32 ) (( BYTE * )( p ))[3] << 24 ) ) )
#define HB_GET_LE_UINT64( p ) ( ( UINT64 ) \
( ( ( UINT64 ) (( BYTE * )( p ))[0] ) | \
( ( UINT64 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( UINT64 ) (( BYTE * )( p ))[2] << 16 ) | \
( ( UINT64 ) (( BYTE * )( p ))[3] << 24 ) | \
( ( UINT64 ) (( BYTE * )( p ))[4] << 32 ) | \
( ( UINT64 ) (( BYTE * )( p ))[5] << 40 ) | \
( ( UINT64 ) (( BYTE * )( p ))[6] << 48 ) | \
( ( UINT64 ) (( BYTE * )( p ))[7] << 56 ) ) )
#define HB_PUT_LE_UINT16( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( w ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 8 ); \
} while ( 0 )
#define HB_PUT_LE_UINT32( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( w ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[2] = ( BYTE )( (w) >> 16 ); \
(( BYTE * )( p ))[3] = ( BYTE )( (w) >> 24 ); \
} while ( 0 )
#define HB_PUT_LE_UINT64( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( w ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[2] = ( BYTE )( (w) >> 16 ); \
(( BYTE * )( p ))[3] = ( BYTE )( (w) >> 24 ); \
(( BYTE * )( p ))[4] = ( BYTE )( (w) >> 32 ); \
(( BYTE * )( p ))[5] = ( BYTE )( (w) >> 40 ); \
(( BYTE * )( p ))[6] = ( BYTE )( (w) >> 48 ); \
(( BYTE * )( p ))[7] = ( BYTE )( (w) >> 56 ); \
} while ( 0 )
#endif
#if defined( HB_STRICT_ALIGNMENT ) || !defined( HB_BIG_ENDIAN )
#define HB_GET_BE_UINT16( p ) ( ( UINT16 ) \
( ( ( UINT16 ) (( BYTE * )( p ))[0] << 8 ) | \
( ( UINT16 ) (( BYTE * )( p ))[1] ) ) )
#define HB_GET_BE_UINT32( p ) ( ( UINT32 ) \
( ( ( UINT32 ) (( BYTE * )( p ))[0] << 24 ) | \
( ( UINT32 ) (( BYTE * )( p ))[1] << 16 ) | \
( ( UINT32 ) (( BYTE * )( p ))[2] << 8 ) | \
( ( UINT32 ) (( BYTE * )( p ))[3] ) ) )
#define HB_GET_BE_UINT64( p ) ( ( UINT64 ) \
( ( ( UINT64 ) (( BYTE * )( p ))[0] << 56 ) | \
( ( UINT64 ) (( BYTE * )( p ))[1] << 48 ) | \
( ( UINT64 ) (( BYTE * )( p ))[2] << 40 ) | \
( ( UINT64 ) (( BYTE * )( p ))[3] << 32 ) | \
( ( UINT64 ) (( BYTE * )( p ))[4] << 24 ) | \
( ( UINT64 ) (( BYTE * )( p ))[5] << 16 ) | \
( ( UINT64 ) (( BYTE * )( p ))[6] << 8 ) | \
( ( UINT64 ) (( BYTE * )( p ))[7] ) ) )
#define HB_PUT_BE_UINT16( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[1] = ( BYTE )( w ); \
} while ( 0 )
#define HB_PUT_BE_UINT32( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( (w) >> 24 ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 16 ); \
(( BYTE * )( p ))[2] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[3] = ( BYTE )( w ); \
} while ( 0 )
#define HB_PUT_BE_UINT64( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( (w) >> 56 ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 48 ); \
(( BYTE * )( p ))[2] = ( BYTE )( (w) >> 40 ); \
(( BYTE * )( p ))[3] = ( BYTE )( (w) >> 32 ); \
(( BYTE * )( p ))[4] = ( BYTE )( (w) >> 24 ); \
(( BYTE * )( p ))[5] = ( BYTE )( (w) >> 16 ); \
(( BYTE * )( p ))[6] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[7] = ( BYTE )( w ); \
} while ( 0 )
#endif
/*
* 24 bit integers are not directly supported by any processor we used so far
* so we always have to build them from BYTEs and cannot use C casting
*/
#define HB_GET_LE_INT24( p ) ( ( INT32 ) \
( ( ( INT32 ) (( BYTE * )( p ))[0] ) | \
( ( INT32 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( INT32 ) (( BYTE * )( p ))[2] << 16 ) | \
( ( INT32 ) ((( BYTE * )( p ))[2] & 0x80 ? 0xFF : 0x00 ) << 24 ) ) )
#define HB_GET_LE_UINT24( p ) ( ( UINT32 ) \
( ( ( UINT32 ) (( BYTE * )( p ))[0] ) | \
( ( UINT32 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( UINT32 ) (( BYTE * )( p ))[2] << 16 ) ) )
#define HB_PUT_LE_UINT24( p, w ) do { \
(( BYTE * )( p ))[0] = ( BYTE )( w ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[2] = ( BYTE )( (w) >> 16 ); \
} while ( 0 )
#define HB_GET_BE_INT24( p ) ( ( INT32 ) \
( ( ( INT32 ) (( BYTE * )( p ))[2] ) | \
( ( INT32 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( INT32 ) (( BYTE * )( p ))[0] << 16 ) | \
( ( INT32 ) ((( BYTE * )( p ))[0] & 0x80 ? 0xFF : 0x00 ) << 24 ) ) )
#define HB_GET_BE_UINT24( p ) ( ( UINT32 ) \
( ( ( UINT32 ) (( BYTE * )( p ))[2] ) | \
( ( UINT32 ) (( BYTE * )( p ))[1] << 8 ) | \
( ( UINT32 ) (( BYTE * )( p ))[0] << 16 ) ) )
#define HB_PUT_BE_UINT24( p, w ) do { \
(( BYTE * )( p ))[2] = ( BYTE )( w ); \
(( BYTE * )( p ))[1] = ( BYTE )( (w) >> 8 ); \
(( BYTE * )( p ))[0] = ( BYTE )( (w) >> 16 ); \
} while ( 0 )
#if defined( HB_PDP_ENDIAN )
#error PDP-Endian support unimplemented. If you have such machine do it yourself.
#elif defined( HB_BIG_ENDIAN )
/* We use Big-Endian here */
# ifndef HB_STRICT_ALIGNMENT
#define HB_GET_BE_UINT16( p ) ( *( UINT16 * )( p ) )
#define HB_PUT_BE_UINT16( p, w ) ( *( UINT16 * )( p ) = ( UINT16 ) ( w ) )
#define HB_GET_BE_UINT32( p ) ( *( UINT32 * )( p ) )
#define HB_PUT_BE_UINT32( p, l ) ( *( UINT32 * )( p ) = ( UINT32 ) ( l ) )
#define HB_GET_BE_UINT64( p ) ( *( UINT64 * )( p ) )
#define HB_PUT_BE_UINT64( p, l ) ( *( UINT64 * )( p ) = ( UINT64 ) ( l ) )
# endif
#define HB_USHORT_FROM_LE( w ) HB_MKUSHORT( HB_HIBYTE( w ), HB_LOBYTE( w ) )
#define HB_ULONG_FROM_LE( l ) HB_MKULONG( HB_UHBYTE( l ), HB_ULBYTE( l ), HB_HIBYTE( l ), HB_LOBYTE( l ) )
#define HB_USHORT_TO_LE( w ) HB_USHORT_FROM_LE( w )
#define HB_ULONG_TO_LE( l ) HB_ULONG_FROM_LE( l )
# ifndef HB_FORCE_IEEE754_DOUBLE
#define HB_ORD2DBL( o, d ) do { \
if ( ( ( BYTE * ) ( o ) )[ 0 ] & 0x80 ) { \
( ( BYTE * ) ( d ) )[ 0 ] = ( ( BYTE * ) ( o ) )[ 0 ]; \
( ( BYTE * ) ( d ) )[ 1 ] = ( ( BYTE * ) ( o ) )[ 1 ]; \
( ( BYTE * ) ( d ) )[ 2 ] = ( ( BYTE * ) ( o ) )[ 2 ]; \
( ( BYTE * ) ( d ) )[ 3 ] = ( ( BYTE * ) ( o ) )[ 3 ]; \
( ( BYTE * ) ( d ) )[ 4 ] = ( ( BYTE * ) ( o ) )[ 4 ]; \
( ( BYTE * ) ( d ) )[ 5 ] = ( ( BYTE * ) ( o ) )[ 5 ]; \
( ( BYTE * ) ( d ) )[ 6 ] = ( ( BYTE * ) ( o ) )[ 6 ]; \
( ( BYTE * ) ( d ) )[ 7 ] = ( ( BYTE * ) ( o ) )[ 7 ] ^ ( BYTE ) 0x80; \
} else { \
( ( BYTE * ) ( d ) )[ 0 ] = ( ( BYTE * ) ( o ) )[ 0 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 1 ] = ( ( BYTE * ) ( o ) )[ 1 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 2 ] = ( ( BYTE * ) ( o ) )[ 2 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 3 ] = ( ( BYTE * ) ( o ) )[ 3 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 4 ] = ( ( BYTE * ) ( o ) )[ 4 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 5 ] = ( ( BYTE * ) ( o ) )[ 5 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 6 ] = ( ( BYTE * ) ( o ) )[ 6 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 7 ] = ( ( BYTE * ) ( o ) )[ 7 ] ^ ( BYTE ) 0xFF; \
} } while ( 0 )
#define HB_DBL2ORD( d, o ) do { \
if ( *( double * )( d ) >= 0.0 ) { \
if( *( double * )( d ) == -0.0 ) *( double * )( d ) = 0.0; \
( ( BYTE * ) ( o ) )[ 0 ] = ( ( BYTE * ) ( d ) )[ 0 ] ^ ( BYTE ) 0x80; \
( ( BYTE * ) ( o ) )[ 1 ] = ( ( BYTE * ) ( d ) )[ 1 ]; \
( ( BYTE * ) ( o ) )[ 2 ] = ( ( BYTE * ) ( d ) )[ 2 ]; \
( ( BYTE * ) ( o ) )[ 3 ] = ( ( BYTE * ) ( d ) )[ 3 ]; \
( ( BYTE * ) ( o ) )[ 4 ] = ( ( BYTE * ) ( d ) )[ 4 ]; \
( ( BYTE * ) ( o ) )[ 5 ] = ( ( BYTE * ) ( d ) )[ 5 ]; \
( ( BYTE * ) ( o ) )[ 6 ] = ( ( BYTE * ) ( d ) )[ 6 ]; \
( ( BYTE * ) ( o ) )[ 7 ] = ( ( BYTE * ) ( d ) )[ 7 ]; \
} else { \
( ( BYTE * ) ( o ) )[ 0 ] = ( ( BYTE * ) ( d ) )[ 0 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 1 ] = ( ( BYTE * ) ( d ) )[ 1 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 2 ] = ( ( BYTE * ) ( d ) )[ 2 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 3 ] = ( ( BYTE * ) ( d ) )[ 3 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 4 ] = ( ( BYTE * ) ( d ) )[ 4 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 5 ] = ( ( BYTE * ) ( d ) )[ 5 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 6 ] = ( ( BYTE * ) ( d ) )[ 6 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 7 ] = ( ( BYTE * ) ( d ) )[ 7 ] ^ ( BYTE ) 0xFF; \
} } while ( 0 )
# endif
#else /* HB_LITTLE_ENDIAN */
/* We use Little-Endian here */
# ifndef HB_STRICT_ALIGNMENT
#define HB_GET_LE_UINT16( p ) ( *( UINT16 * )( p ) )
#define HB_PUT_LE_UINT16( p, w ) ( *( UINT16 * )( p ) = ( UINT16 ) ( w ) )
#define HB_GET_LE_UINT32( p ) ( *( UINT32 * )( p ) )
#define HB_PUT_LE_UINT32( p, l ) ( *( UINT32 * )( p ) = ( UINT32 ) ( l ) )
#define HB_GET_LE_UINT64( p ) ( *( UINT64 * )( p ) )
#define HB_PUT_LE_UINT64( p, l ) ( *( UINT64 * )( p ) = ( UINT64 ) ( l ) )
# endif
#define HB_USHORT_FROM_LE( w ) ( ( USHORT )( w ) )
#define HB_ULONG_FROM_LE( l ) ( ( ULONG )( l ) )
#define HB_USHORT_TO_LE( w ) ( ( USHORT )( w ) )
#define HB_ULONG_TO_LE( l ) ( ( ULONG )( l ) )
# ifndef HB_FORCE_IEEE754_DOUBLE
#define HB_ORD2DBL( o, d ) do { \
if ( ( ( BYTE * ) ( o ) )[ 0 ] & 0x80 ) { \
( ( BYTE * ) ( d ) )[ 0 ] = ( ( BYTE * ) ( o ) )[ 7 ]; \
( ( BYTE * ) ( d ) )[ 1 ] = ( ( BYTE * ) ( o ) )[ 6 ]; \
( ( BYTE * ) ( d ) )[ 2 ] = ( ( BYTE * ) ( o ) )[ 5 ]; \
( ( BYTE * ) ( d ) )[ 3 ] = ( ( BYTE * ) ( o ) )[ 4 ]; \
( ( BYTE * ) ( d ) )[ 4 ] = ( ( BYTE * ) ( o ) )[ 3 ]; \
( ( BYTE * ) ( d ) )[ 5 ] = ( ( BYTE * ) ( o ) )[ 2 ]; \
( ( BYTE * ) ( d ) )[ 6 ] = ( ( BYTE * ) ( o ) )[ 1 ]; \
( ( BYTE * ) ( d ) )[ 7 ] = ( ( BYTE * ) ( o ) )[ 0 ] ^ ( BYTE ) 0x80; \
} else { \
( ( BYTE * ) ( d ) )[ 0 ] = ( ( BYTE * ) ( o ) )[ 7 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 1 ] = ( ( BYTE * ) ( o ) )[ 6 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 2 ] = ( ( BYTE * ) ( o ) )[ 5 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 3 ] = ( ( BYTE * ) ( o ) )[ 4 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 4 ] = ( ( BYTE * ) ( o ) )[ 3 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 5 ] = ( ( BYTE * ) ( o ) )[ 2 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 6 ] = ( ( BYTE * ) ( o ) )[ 1 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( d ) )[ 7 ] = ( ( BYTE * ) ( o ) )[ 0 ] ^ ( BYTE ) 0xFF; \
} } while ( 0 )
#define HB_DBL2ORD( d, o ) do { \
if ( *( double * )( d ) >= 0.0 ) { \
if( *( double * )( d ) == -0.0 ) *( double * )( d ) = 0.0; \
( ( BYTE * ) ( o ) )[ 0 ] = ( ( BYTE * ) ( d ) )[ 7 ] ^ ( BYTE ) 0x80; \
( ( BYTE * ) ( o ) )[ 1 ] = ( ( BYTE * ) ( d ) )[ 6 ]; \
( ( BYTE * ) ( o ) )[ 2 ] = ( ( BYTE * ) ( d ) )[ 5 ]; \
( ( BYTE * ) ( o ) )[ 3 ] = ( ( BYTE * ) ( d ) )[ 4 ]; \
( ( BYTE * ) ( o ) )[ 4 ] = ( ( BYTE * ) ( d ) )[ 3 ]; \
( ( BYTE * ) ( o ) )[ 5 ] = ( ( BYTE * ) ( d ) )[ 2 ]; \
( ( BYTE * ) ( o ) )[ 6 ] = ( ( BYTE * ) ( d ) )[ 1 ]; \
( ( BYTE * ) ( o ) )[ 7 ] = ( ( BYTE * ) ( d ) )[ 0 ]; \
} else { \
( ( BYTE * ) ( o ) )[ 0 ] = ( ( BYTE * ) ( d ) )[ 7 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 1 ] = ( ( BYTE * ) ( d ) )[ 6 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 2 ] = ( ( BYTE * ) ( d ) )[ 5 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 3 ] = ( ( BYTE * ) ( d ) )[ 4 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 4 ] = ( ( BYTE * ) ( d ) )[ 3 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 5 ] = ( ( BYTE * ) ( d ) )[ 2 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 6 ] = ( ( BYTE * ) ( d ) )[ 1 ] ^ ( BYTE ) 0xFF; \
( ( BYTE * ) ( o ) )[ 7 ] = ( ( BYTE * ) ( d ) )[ 0 ] ^ ( BYTE ) 0xFF; \
} } while ( 0 )
# endif
#endif
#define HB_GET_LE_INT16( p ) (( INT16 ) HB_GET_LE_UINT16( p ))
#define HB_GET_LE_INT32( p ) (( INT32 ) HB_GET_LE_UINT32( p ))
#define HB_GET_LE_INT64( p ) (( INT64 ) HB_GET_LE_UINT64( p ))
#define HB_PCODE_MKSHORT( p ) (( SHORT ) HB_GET_LE_INT16( p ))
#define HB_PCODE_MKUSHORT( p ) (( USHORT ) HB_GET_LE_UINT16( p ))
#define HB_PCODE_MKLONG( p ) (( LONG ) HB_GET_LE_INT32( p ))
#define HB_PCODE_MKULONG( p ) (( ULONG ) HB_GET_LE_UINT32( p ))
#define HB_PCODE_MKLONGLONG( p ) (( LONGLONG ) HB_GET_LE_INT64( p ))
#define HB_PCODE_MKULONGLONG( p ) (( ULONGLONG ) HB_GET_LE_UINT64( p ))
#define HB_PCODE_MKDOUBLE( p ) (( double ) HB_GET_LE_DOUBLE( p ))
#define HB_PCODE_MKINT24( p ) (( LONG ) HB_GET_LE_INT24( p ))
#define HB_PCODE_MKUINT24( p ) (( ULONG ) HB_GET_LE_UINT24( p ))
/*
* Below are hacked version of INT64 macros which operates on double
* when INT64 is not supported - they are necessary for PCODE and
* database access
*/
#if defined( HB_LONG_LONG_OFF ) && !defined( HB_ARCH_64BIT )
#undef HB_GET_LE_INT64
#undef HB_GET_LE_UINT64
#undef HB_PUT_LE_UINT64
#undef HB_PCODE_MKLONGLONG
#undef HB_PCODE_MKULONGLONG
#undef HB_DBL_LIM_INT64
#define UINT64_MAXDBL ( (( double ) UINT32_MAX + 1.0) * \
(( double ) UINT32_MAX + 1.0) - 1.0 )
#define HB_GET_LE_INT64( p ) hb_get_le_int64( ( BYTE * ) ( p ) )
#define HB_GET_LE_UINT64( p ) hb_get_le_uint64( ( BYTE * ) ( p ) )
#define HB_PUT_LE_UINT64( p, d ) hb_put_le_uint64( ( BYTE * ) ( p ), \
( double ) ( d ) )
#define HB_PCODE_MKLONGLONG( p ) (( double ) HB_GET_LE_INT64( p ))
#define HB_PCODE_MKULONGLONG( p ) (( double ) HB_GET_LE_UINT64( p ))
#define HB_DBL_LIM_INT64(d) ( (HB_MAXDBL) -UINT64_MAXDBL / 2 - 1 <= \
(HB_MAXDBL) (d) && (HB_MAXDBL) (d) <= \
(HB_MAXDBL) UINT64_MAXDBL / 2 )
#endif
#define HB_MACRO2STRING( macro ) HB_MACRO2STRING_( macro )
#define HB_MACRO2STRING_( macro ) #macro
#define HB_SIZEOFARRAY( var ) ( sizeof( var ) / sizeof( *var ) )
#if defined( __POCC__ ) || defined( __XCC__ )
#define HB_SYMBOL_UNUSED( symbol ) do if( symbol ) {;} while( 0 )
#else
#define HB_SYMBOL_UNUSED( symbol ) ( void ) symbol
#endif
/* ***********************************************************************
* The name of starting procedure
* Note: You have to define it in case when Harbour cannot find the proper
* starting procedure (due to unknown order of static data initialization)
*/
#define HB_START_PROCEDURE "MAIN"
#if defined(__WATCOMC__) || defined(__DMC__) || \
( defined(__GNUC__) && !defined(__DJGPP__) && !defined(HB_OS_OS2_GCC) )
#define HB_START_PROC_STRICT
#endif
#if defined(__WATCOMC__) || defined(__DMC__) || \
defined(_MSC_VER) || defined(__POCC__)
#define HB_DLL_ENTRY_POINT DllMain
#else
#define HB_DLL_ENTRY_POINT DllEntryPoint
#endif
#if defined(HB_FUNC_CALLCONV)
#define HARBOUR void HB_FUNC_CALLCONV
#else
#define HARBOUR void
#endif
typedef HARBOUR ( * PHB_FUNC )( void );
typedef PHB_FUNC HB_FUNC_PTR;
#if defined( HB_DYNLIB )
#if defined( __RSXNT__ )
/* RSXNT does not support any type of export keyword.
Exported (i.e., public) names can be obtained via
the emxexp utility and the output can be used for
input to a module definition file. See emxdev.doc
in the RSXNT doc/ directory for more information. */
#define HB_EXPORT
#elif defined( __GNUC__ ) && defined( HB_OS_WIN )
#define HB_EXPORT __attribute__ (( dllexport ))
#elif defined( __GNUC__ ) && defined( HB_OS_LINUX )
#define HB_EXPORT __attribute__ ((visibility ("default")))
#elif defined( __BORLANDC__ )
#define HB_EXPORT __declspec( dllexport )
#elif defined( __WATCOMC__ )
#define HB_EXPORT __declspec( dllexport )
#elif defined( ASANLM ) || defined( ASANT )
#define HB_EXPORT
#elif defined( HB_OS_WIN )
#define HB_EXPORT _declspec( dllexport )
#else
#define HB_EXPORT
#endif
#else
#define HB_EXPORT
#endif
#if defined( __RSXNT__ )
/* RSXNT does not support any type of export keyword.
Exported (i.e., public) names can be obtained via
the emxexp utility and the output can be used for
input to a module definition file. See emxdev.doc
in the RSXNT doc/ directory for more information. */
#define HB_IMPORT
#elif defined( __GNUC__ ) && defined( HB_OS_WIN )
#define HB_IMPORT __attribute__ (( dllimport ))
#elif defined( __BORLANDC__ )
#define HB_IMPORT __declspec( dllimport )
#elif defined( __WATCOMC__ )
#define HB_IMPORT __declspec( dllimport )
#elif defined( ASANLM ) || defined( ASANT )
#define HB_IMPORT
#elif defined( HB_OS_WIN )
#define HB_IMPORT _declspec( dllimport )
#else
#define HB_IMPORT
#endif
/* Function declaration macros */
/* NOTE: The prefix is "HB_FUN_" currently, this is needed to
avoid collision with any other declared symbol.
Note that "HB_" is not enough, since the Harbour internals
are also prefixed with HB_. [vszakats] */
#define HB_FUNCNAME( funcname ) HB_FUN_##funcname
#define HB_INIT_FUNCNAME( funcname ) HB_FUN_init_##funcname
#define HB_EXIT_FUNCNAME( funcname ) HB_FUN_exit_##funcname
#define HB_INITSTATICS_FUNCNAME() hb_INITSTATICS
#if defined( __cplusplus ) && !defined( HB_FUNC_USE_DECORATION )
#define HB_EXTERN_C_ extern "C"
#define HB_EXTERN_
#else
#define HB_EXTERN_C_
#define HB_EXTERN_ extern
#endif
#define HB_FUNC_EXEC( funcname ) HB_FUN_##funcname();
#define HB_FUNC( funcname ) HB_EXTERN_C_ HB_EXPORT HARBOUR HB_FUN_##funcname ( void )
#define HB_FUNC_EXTERN( funcname ) HB_EXTERN_C_ HB_EXTERN_ HARBOUR HB_EXPORT HB_FUN_##funcname ( void )
#define HB_FUNC_STATIC( funcname ) static HARBOUR HB_FUN_##funcname ( void )
#define HB_FUNC_INIT( funcname ) static HARBOUR HB_FUN_init_##funcname ( void )
#define HB_FUNC_EXIT( funcname ) static HARBOUR HB_FUN_exit_##funcname ( void )
#define HB_FUNC_INITSTATICS( ) static HARBOUR hb_INITSTATICS( void )
#define HB_FUNC_INITLINES( ) static HARBOUR hb_INITLINES( void )
typedef SHORT HB_SYMBOLSCOPE; /* stores symbol's scope */
typedef BYTE HB_CHAR;
typedef BYTE HB_ATTR;
typedef BYTE HB_COLOR;
/* Some common character constants */
#define HB_CHAR_NUL '\0' /* 0 - NUL */
#define HB_CHAR_EOS HB_CHAR_NUL
#define HB_CHAR_BEL '\a' /* 7 - Bell */
#define HB_CHAR_BS '\b' /* 8 - Backspace */
#define HB_CHAR_HT '\t' /* 9 - Tab horizontal */
#define HB_CHAR_LF '\n' /* 10 - Linefeed */
#define HB_CHAR_VT '\v' /* 11 - Tab vertical */
#define HB_CHAR_FF '\f' /* 12 - Formfeed */
#define HB_CHAR_CR '\r' /* 13 - Carriage return */
#define HB_CHAR_EOF '\x1A' /* 26 - End of file marker */
/* Harbour specific character constants */
#define HB_CHAR_HARD1 ( ( char ) HB_CHAR_CR )
#define HB_CHAR_HARD2 ( ( char ) HB_CHAR_LF )
#define HB_CHAR_SOFT1 ( ( char ) 141 )
#define HB_CHAR_SOFT2 ( ( char ) HB_CHAR_LF )
#define HB_ISUPPER( c ) ( ( c ) >= 'A' && ( c ) <= 'Z' )
#define HB_ISLOWER( c ) ( ( c ) >= 'a' && ( c ) <= 'z' )
#define HB_TOUPPER( c ) ( ( c ) >= 'a' && ( c ) <= 'z' ? ( c ) - ( 'a' - 'A' ) : ( c ) )
#define HB_TOLOWER( c ) ( ( c ) >= 'A' && ( c ) <= 'Z' ? ( c ) + ( 'a' - 'A' ) : ( c ) )
#define HB_ISDIGIT( c ) ( ( c ) >= '0' && ( c ) <= '9' )
#define HB_ISALPHA( c ) ( HB_ISUPPER( c ) || HB_ISLOWER( c ) )
#define HB_ISALNUM( c ) ( HB_ISALPHA( c ) || HB_ISDIGIT( c ) )
#define HB_ISXDIGIT( c ) ( HB_ISDIGIT(c) || \
( (c) >= 'A' && (c) <= 'F' ) || \
( (c) >= 'a' && (c) <= 'f' ) )
#define HB_ISSPACE( c ) ( ( c ) == ' ' || \
( c ) == HB_CHAR_HT || \
( c ) == HB_CHAR_LF || \
( c ) == HB_CHAR_CR )
#define HB_ISFIRSTIDCHAR( c ) ( HB_ISALPHA( c ) || ( c ) == '_' )
#define HB_ISNEXTIDCHAR( c ) ( HB_ISFIRSTIDCHAR(c) || HB_ISDIGIT( c ) )
#include "hbtrace.h"
#endif /* HB_DEFS_H_ */
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