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harbour-core/harbour/source/vm/fm.c
Przemyslaw Czerpak 5cbcaa09f0 2006-06-27 10:50 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/include/hbapi.h
  * harbour/source/vm/proc.c
    + added BOOL hb_procinfo( int iLevel, char * szName,
                              USHORT * puiLine, char * szFile )

  * harbour/include/hbstack.h
  * harbour/source/vm/estack.c
    + added hb_stackTotalItems(), hb_stackDateBuffer(),
      hb_stackGetStaticsBase(), hb_stackSetStaticsBase(),
      hb_stackBaseProcInfo()

  * harbour/source/vm/garbage.c
    * indenting

  * harbour/source/vm/classes.c
  * harbour/source/vm/codebloc.c
  * harbour/source/vm/extend.c
  * harbour/source/vm/fm.c
  * harbour/source/vm/hvm.c
    * replaced direct stack access by stack functions/macros

  * harbour/source/vm/debug.c
    * removed hb_stackLenGlobal() and replace it by hb_stackTopOffset()
      Warning!!! hb_stackTopOffset() returnes results smaller by 1.
      The TOP stack item is undefined and should not be accessed by
      debuger.
    * changed HB_DBG_VMSTKGLIST() to operate on functions/macros.
      It's possible that the above will badly interact with core debugger
      code so I stop farther modifications leaving them for someone who
      knows debugger core code.
2006-06-27 08:53:26 +00:00

840 lines
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/*
* $Id$
*/
/*
* Harbour Project source code:
* The Fixed Memory API
*
* Copyright 1999 Antonio Linares <alinares@fivetech.com>
* 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.
*
*/
/*
* The following parts are Copyright of the individual authors.
* www - http://www.harbour-project.org
*
* Copyright 1999 David G. Holm <dholm@jsd-llc.com>
* hb_xmemcpy()
* hb_xmemset()
*
* Copyright 1999-2001 Viktor Szakats <viktor.szakats@syenar.hu>
* hb_xquery()
* MEMORY()
*
* See doc/license.txt for licensing terms.
*
*/
#define HB_OS_WIN_32_USED
/* NOTE: For OS/2. Must be ahead of any and all #include statements */
#define INCL_BASE
#define INCL_DOSMISC
#define INCL_DOSERRORS
#define INCL_DOSPROCESS
/* malloc.h has been obsoleted by stdlib.h, which is included via
hbvmpub.h, which is include via hbapi.h
#include <malloc.h>
*/
#include "hbvmopt.h"
#include "hbapi.h"
#include "hbapiitm.h"
#include "hbstack.h"
#include "hbapierr.h"
#include "hbmemory.ch"
/* #define HB_PARANOID_MEM_CHECK */
/*#undef HB_FM_STATISTICS*/
#ifndef HB_FM_STATISTICS
# undef HB_PARANOID_MEM_CHECK
#endif
#if defined(HB_FM_STATISTICS) && !defined(HB_TR_LEVEL)
#define HB_TR_LEVEL HB_TR_ERROR
#endif
#ifdef HB_FM_STATISTICS
#ifndef HB_MEMFILER
# define HB_MEMFILER 0xff
#endif
#define HB_MEMINFO_SIGNATURE 0x19730403
typedef struct _HB_MEMINFO
{
UINT32 u32Signature;
ULONG ulSize;
USHORT uiProcLine;
char szProcName[ HB_SYMBOL_NAME_LEN + 1 ];
struct _HB_MEMINFO * pPrevBlock;
struct _HB_MEMINFO * pNextBlock;
} HB_MEMINFO, * PHB_MEMINFO;
#ifdef HB_ALLOC_ALIGNMENT
# define HB_MEMINFO_SIZE ( ( ( sizeof( HB_MEMINFO ) + HB_ALLOC_ALIGNMENT - 1 ) - \
( sizeof( HB_MEMINFO ) + HB_ALLOC_ALIGNMENT - 1 ) % HB_ALLOC_ALIGNMENT ) + \
HB_COUNTER_OFFSET )
#else
# define HB_MEMINFO_SIZE ( sizeof( HB_MEMINFO ) + HB_COUNTER_OFFSET )
#endif
#define HB_ALLOC_SIZE( n ) ( ( n ) + HB_MEMINFO_SIZE + sizeof( UINT32 ) )
#define HB_FM_PTR( p ) ( ( PHB_MEMINFO ) ( ( BYTE * ) ( p ) - HB_MEMINFO_SIZE ) )
#define HB_FM_GETSIG( p, n ) HB_GET_UINT32( ( BYTE * )( p ) + ( n ) )
#define HB_FM_SETSIG( p, n ) HB_PUT_UINT32( ( BYTE * )( p ) + ( n ), HB_MEMINFO_SIGNATURE )
#define HB_FM_CLRSIG( p, n ) HB_PUT_UINT32( ( BYTE * )( p ) + ( n ), 0 )
/* NOTE: we cannot use here HB_TRACE because it will overwrite the
* function name/line number of code which called hb_xalloc/hb_xgrab
*/
#define HB_TRACE_FM HB_TRACE_STEALTH
static LONG s_lMemoryBlocks = 0; /* memory blocks used */
static LONG s_lMemoryMaxBlocks = 0; /* maximum number of used memory blocks */
static LONG s_lMemoryMaxConsumed = 0; /* memory size consumed */
static LONG s_lMemoryConsumed = 0; /* memory max size consumed */
static PHB_MEMINFO s_pFirstBlock = NULL;
static PHB_MEMINFO s_pLastBlock = NULL;
#else /* ! HB_FM_STATISTICS */
typedef void * PHB_MEMINFO;
#define HB_MEMINFO_SIZE HB_COUNTER_OFFSET
#define HB_ALLOC_SIZE( n ) ( ( n ) + HB_MEMINFO_SIZE )
#define HB_FM_PTR( p ) HB_COUNTER_PTR( p )
#define HB_TRACE_FM HB_TRACE
#endif /* HB_FM_STATISTICS */
#define HB_MEM_PTR( p ) ( ( void * ) ( ( BYTE * ) ( p ) + HB_MEMINFO_SIZE ) )
HB_EXPORT void * hb_xalloc( ULONG ulSize ) /* allocates fixed memory, returns NULL on failure */
{
PHB_MEMINFO pMem;
HB_TRACE_FM(HB_TR_DEBUG, ("hb_xalloc(%lu)", ulSize));
if( ulSize == 0 )
hb_errInternal( HB_EI_XALLOCNULLSIZE, NULL, NULL, NULL );
pMem = ( PHB_MEMINFO ) malloc( HB_ALLOC_SIZE( ulSize ) );
if( ! pMem )
return pMem;
#ifdef HB_FM_STATISTICS
if( ! s_pFirstBlock )
{
pMem->pPrevBlock = NULL;
s_pFirstBlock = pMem;
}
else
{
pMem->pPrevBlock = s_pLastBlock;
s_pLastBlock->pNextBlock = pMem;
}
s_pLastBlock = pMem;
pMem->pNextBlock = NULL;
pMem->u32Signature = HB_MEMINFO_SIGNATURE;
HB_FM_SETSIG( HB_MEM_PTR( pMem ), ulSize );
pMem->ulSize = ulSize; /* size of the memory block */
if( hb_tr_level() >= HB_TR_DEBUG )
{
/* NOTE: PRG line number/procname is not very useful during hunting
* for memory leaks - this is why we are using the previously stored
* function/line info - this is a location of code that called
* hb_xalloc/hb_xgrab
*/
pMem->uiProcLine = hb_tr_line_; /* C line number */
strcpy( pMem->szProcName, hb_tr_file_ );
}
else
{
hb_stackBaseProcInfo( pMem->szProcName, &pMem->uiProcLine );
}
s_lMemoryConsumed += ulSize + sizeof( HB_COUNTER );
if( s_lMemoryMaxConsumed < s_lMemoryConsumed )
s_lMemoryMaxConsumed = s_lMemoryConsumed;
s_lMemoryBlocks++;
if( s_lMemoryMaxBlocks < s_lMemoryBlocks )
s_lMemoryMaxBlocks = s_lMemoryBlocks;
#ifdef HB_PARANOID_MEM_CHECK
memset( HB_MEM_PTR( pMem ), HB_MEMFILER, ulSize );
#endif
#endif
* HB_COUNTER_PTR( HB_MEM_PTR( pMem ) ) = 1;
return HB_MEM_PTR( pMem );
}
HB_EXPORT void * hb_xgrab( ULONG ulSize ) /* allocates fixed memory, exits on failure */
{
PHB_MEMINFO pMem;
HB_TRACE_FM(HB_TR_DEBUG, ("hb_xgrab(%lu)", ulSize));
if( ulSize == 0 )
hb_errInternal( HB_EI_XGRABNULLSIZE, NULL, NULL, NULL );
pMem = ( PHB_MEMINFO ) malloc( HB_ALLOC_SIZE( ulSize ) );
if( ! pMem )
hb_errInternal( HB_EI_XGRABALLOC, NULL, NULL, NULL );
#ifdef HB_FM_STATISTICS
if( ! s_pFirstBlock )
{
pMem->pPrevBlock = NULL;
s_pFirstBlock = pMem;
}
else
{
pMem->pPrevBlock = s_pLastBlock;
s_pLastBlock->pNextBlock = pMem;
}
s_pLastBlock = pMem;
pMem->pNextBlock = NULL;
pMem->u32Signature = HB_MEMINFO_SIGNATURE;
HB_FM_SETSIG( HB_MEM_PTR( pMem ), ulSize );
pMem->ulSize = ulSize; /* size of the memory block */
if( hb_tr_level() >= HB_TR_DEBUG )
{
/* NOTE: PRG line number/procname is not very useful during hunting
* for memory leaks - this is why we are using the previously stored
* function/line info - this is a location of code that called
* hb_xalloc/hb_xgrab
*/
pMem->uiProcLine = hb_tr_line_; /* C line number */
strcpy( pMem->szProcName, hb_tr_file_ );
}
else
{
hb_stackBaseProcInfo( pMem->szProcName, &pMem->uiProcLine );
}
s_lMemoryConsumed += ulSize + sizeof( HB_COUNTER );
if( s_lMemoryMaxConsumed < s_lMemoryConsumed )
s_lMemoryMaxConsumed = s_lMemoryConsumed;
s_lMemoryBlocks++;
if( s_lMemoryMaxBlocks < s_lMemoryBlocks )
s_lMemoryMaxBlocks = s_lMemoryBlocks;
#ifdef HB_PARANOID_MEM_CHECK
memset( HB_MEM_PTR( pMem ), HB_MEMFILER, ulSize );
#endif
#endif
* HB_COUNTER_PTR( HB_MEM_PTR( pMem ) ) = 1;
return HB_MEM_PTR( pMem );
}
HB_EXPORT void * hb_xrealloc( void * pMem, ULONG ulSize ) /* reallocates memory */
{
HB_TRACE_FM(HB_TR_DEBUG, ("hb_xrealloc(%p, %lu)", pMem, ulSize));
if( ! pMem )
hb_errInternal( HB_EI_XREALLOCNULL, NULL, NULL, NULL );
if( ulSize == 0 )
hb_errInternal( HB_EI_XREALLOCNULLSIZE, NULL, NULL, NULL );
#ifdef HB_FM_STATISTICS
{
PHB_MEMINFO pMemBlock;
ULONG ulMemSize;
pMemBlock = HB_FM_PTR( pMem );
if( pMemBlock->u32Signature != HB_MEMINFO_SIGNATURE )
hb_errInternal( HB_EI_XREALLOCINV, NULL, NULL, NULL );
ulMemSize = pMemBlock->ulSize;
if( HB_FM_GETSIG( pMem, ulMemSize ) != HB_MEMINFO_SIGNATURE )
hb_errInternal( HB_EI_XMEMOVERFLOW, NULL, NULL, NULL );
HB_FM_CLRSIG( pMem, ulMemSize );
#ifdef HB_PARANOID_MEM_CHECK
pMem = malloc( HB_ALLOC_SIZE( ulSize ) );
if( pMem )
{
if( ulSize > ulMemSize )
{
memcpy( pMem, pMemBlock, HB_ALLOC_SIZE( ulMemSize ) );
memset( ( BYTE * ) pMem + HB_ALLOC_SIZE( ulMemSize ), ulSize - ulMemSize );
}
else
memcpy( pMem, pMemBlock, HB_ALLOC_SIZE( ulSize ) );
}
memset( pMemBlock, HB_MEMFILER, HB_ALLOC_SIZE( ulMemSize ) );
free( pMemBlock );
#else
pMem = realloc( pMemBlock, HB_ALLOC_SIZE( ulSize ) );
#endif
s_lMemoryConsumed += ( ulSize - ulMemSize );
if( s_lMemoryMaxConsumed < s_lMemoryConsumed )
s_lMemoryMaxConsumed = s_lMemoryConsumed;
if( ! pMem )
hb_errInternal( HB_EI_XREALLOC, NULL, NULL, NULL );
( ( PHB_MEMINFO ) pMem )->ulSize = ulSize; /* size of the memory block */
HB_FM_SETSIG( HB_MEM_PTR( pMem ), ulSize );
if( ( ( PHB_MEMINFO ) pMem )->pPrevBlock )
( ( PHB_MEMINFO ) pMem )->pPrevBlock->pNextBlock = ( PHB_MEMINFO ) pMem;
if( ( ( PHB_MEMINFO ) pMem )->pNextBlock )
( ( PHB_MEMINFO ) pMem )->pNextBlock->pPrevBlock = ( PHB_MEMINFO ) pMem;
if( s_pFirstBlock == pMemBlock )
s_pFirstBlock = ( PHB_MEMINFO ) pMem;
if( s_pLastBlock == pMemBlock )
s_pLastBlock = ( PHB_MEMINFO ) pMem;
}
#else
pMem = realloc( HB_FM_PTR( pMem ), HB_ALLOC_SIZE( ulSize ) );
if( !pMem )
hb_errInternal( HB_EI_XREALLOC, NULL, NULL, NULL );
#endif
return HB_MEM_PTR( pMem );
}
HB_EXPORT void hb_xfree( void * pMem ) /* frees fixed memory */
{
HB_TRACE_FM(HB_TR_DEBUG, ("hb_xfree(%p)", pMem));
if( pMem )
{
#ifdef HB_FM_STATISTICS
PHB_MEMINFO pMemBlock = HB_FM_PTR( pMem );
if( pMemBlock->u32Signature != HB_MEMINFO_SIGNATURE )
hb_errInternal( HB_EI_XFREEINV, NULL, NULL, NULL );
if( HB_FM_GETSIG( pMem, pMemBlock->ulSize ) != HB_MEMINFO_SIGNATURE )
hb_errInternal( HB_EI_XMEMOVERFLOW, NULL, NULL, NULL );
s_lMemoryConsumed -= pMemBlock->ulSize + sizeof( HB_COUNTER );
s_lMemoryBlocks--;
if( pMemBlock->pPrevBlock )
pMemBlock->pPrevBlock->pNextBlock = pMemBlock->pNextBlock;
else
s_pFirstBlock = pMemBlock->pNextBlock;
if( pMemBlock->pNextBlock )
pMemBlock->pNextBlock->pPrevBlock = pMemBlock->pPrevBlock;
else
s_pLastBlock = pMemBlock->pPrevBlock;
pMemBlock->u32Signature = 0;
HB_FM_CLRSIG( pMem, pMemBlock->ulSize );
#ifdef HB_PARANOID_MEM_CHECK
memset( pMemBlock, HB_MEMFILER, HB_ALLOC_SIZE( pMemBlock->ulSize ) );
#endif
free( ( void * ) pMemBlock );
#else
free( HB_FM_PTR( pMem ) );
#endif
}
else
hb_errInternal( HB_EI_XFREENULL, NULL, NULL, NULL );
}
/* increment reference counter */
#undef hb_xRefInc
void hb_xRefInc( void * pMem )
{
++( * HB_COUNTER_PTR( pMem ) );
}
/* decrement reference counter, return TRUE when 0 reached */
#undef hb_xRefDec
BOOL hb_xRefDec( void * pMem )
{
return --( * HB_COUNTER_PTR( pMem ) ) == 0;
}
/* decrement reference counter and free the block when 0 reached */
#undef hb_xRefFree
void hb_xRefFree( void * pMem )
{
#ifdef HB_FM_STATISTICS
if( HB_FM_PTR( pMem )->u32Signature != HB_MEMINFO_SIGNATURE )
hb_errInternal( HB_EI_XFREEINV, NULL, NULL, NULL );
if( --( * HB_COUNTER_PTR( pMem ) ) == 0 )
hb_xfree( pMem );
#else
if( --( * HB_COUNTER_PTR( pMem ) ) == 0 )
free( HB_FM_PTR( pMem ) );
#endif
}
/* return number of references */
#undef hb_xRefCount
HB_COUNTER hb_xRefCount( void * pMem )
{
return * HB_COUNTER_PTR( pMem );
}
/* reallocates memory, create copy if reference counter greater then 1 */
#undef hb_xRefResize
void * hb_xRefResize( void * pMem, ULONG ulSave, ULONG ulSize )
{
#ifdef HB_FM_STATISTICS
if( * HB_COUNTER_PTR( pMem ) > 1 )
{
void * pMemNew = hb_xgrab( ulSize );
--( * HB_COUNTER_PTR( pMem ) );
memcpy( pMemNew, pMem, HB_MIN( ulSave, ulSize ) );
return pMemNew;
}
return hb_xrealloc( pMem, ulSize );
#else
if( * HB_COUNTER_PTR( pMem ) > 1 )
{
void * pMemNew = malloc( HB_ALLOC_SIZE( ulSize ) );
if( pMemNew )
{
--( * HB_COUNTER_PTR( pMem ) );
* HB_COUNTER_PTR( HB_MEM_PTR( pMemNew ) ) = 1;
memcpy( HB_MEM_PTR( pMemNew ), pMem, HB_MIN( ulSave, ulSize ) );
return HB_MEM_PTR( pMemNew );
}
}
else
{
pMem = realloc( HB_FM_PTR( pMem ), HB_ALLOC_SIZE ( ulSize ) );
if( pMem )
return HB_MEM_PTR( pMem );
}
hb_errInternal( HB_EI_XREALLOC, NULL, NULL, NULL );
return NULL;
#endif
}
/* NOTE: Debug function, it will always return 0 when HB_FM_STATISTICS is
not defined, don't use it for final code [vszakats] */
HB_EXPORT ULONG hb_xsize( void * pMem ) /* returns the size of an allocated memory block */
{
HB_TRACE(HB_TR_DEBUG, ("hb_xsize(%p)", pMem));
#ifdef HB_FM_STATISTICS
return HB_FM_PTR( pMem )->ulSize;
#else
HB_SYMBOL_UNUSED( pMem );
return 0;
#endif
}
HB_EXPORT void hb_xinit( void ) /* Initialize fixed memory subsystem */
{
HB_TRACE(HB_TR_DEBUG, ("hb_xinit()"));
}
HB_EXPORT void hb_xexit( void ) /* Deinitialize fixed memory subsystem */
{
HB_TRACE(HB_TR_DEBUG, ("hb_xexit()"));
#ifdef HB_FM_STATISTICS
if( s_lMemoryBlocks || hb_cmdargCheck( "INFO" ) )
{
PHB_MEMINFO pMemBlock;
USHORT ui;
char buffer[ 100 ];
hb_conOutErr( hb_conNewLine(), 0 );
hb_conOutErr( "----------------------------------------", 0 );
hb_conOutErr( hb_conNewLine(), 0 );
sprintf( buffer, "Total memory allocated: %li bytes (%li blocks)", s_lMemoryMaxConsumed, s_lMemoryMaxBlocks );
hb_conOutErr( buffer, 0 );
if( s_lMemoryBlocks )
{
hb_conOutErr( hb_conNewLine(), 0 );
sprintf( buffer, "WARNING! Memory allocated but not released: %li bytes (%li blocks)", s_lMemoryConsumed, s_lMemoryBlocks );
hb_conOutErr( buffer, 0 );
}
hb_conOutErr( hb_conNewLine(), 0 );
for( ui = 1, pMemBlock = s_pFirstBlock; pMemBlock; pMemBlock = pMemBlock->pNextBlock )
HB_TRACE( HB_TR_ERROR, ( "Block %i (size %lu) %s(%i)",
ui++,
pMemBlock->ulSize,
pMemBlock->szProcName,
pMemBlock->uiProcLine ) );
}
#endif
}
/* hb_xmemcpy and hb_xmemset are only needed when
unsigned int and unsigned long differ in length */
/* unfortunately it's not true - on 64bit platforms int is 32 bit
and long is 64.
we need these functions only when max(size_t) < max(long)
what could be detected and set in header files. Here check
only for hb_xmem* macro definition
#if UINT_MAX != ULONG_MAX
*/
#ifndef hb_xmemcpy
void * hb_xmemcpy( void * pDestArg, void * pSourceArg, ULONG ulLen )
{
BYTE * pDest;
BYTE * pSource;
ULONG ulRemaining;
int iCopySize;
HB_TRACE(HB_TR_DEBUG, ("hb_xmemcpy(%p, %p, %lu)", pDestArg, pSourceArg, ulLen));
pDest = ( BYTE * ) pDestArg;
pSource = ( BYTE * ) pSourceArg;
ulRemaining = ulLen;
while( ulRemaining )
{
/* Overcome the memcpy() size_t limitation */
if( ulRemaining > UINT_MAX )
{
iCopySize = UINT_MAX;
ulRemaining -= ( ULONG ) iCopySize;
}
else
{
iCopySize = ( int ) ulRemaining;
ulRemaining = 0;
}
memcpy( pDest, pSource, iCopySize );
pDest += iCopySize;
pSource += iCopySize;
}
return pDestArg;
}
#endif
#ifndef hb_xmemset
void * hb_xmemset( void * pDestArg, int iFill, ULONG ulLen )
{
BYTE * pDest;
ULONG ulRemaining;
int iSetSize;
HB_TRACE(HB_TR_DEBUG, ("hb_xmemset(%p, %d, %lu)", pDestArg, iFill, ulLen));
pDest = ( BYTE * ) pDestArg;
ulRemaining = ulLen;
while( ulRemaining )
{
/* Overcome the memset() size_t limitation */
if( ulRemaining > UINT_MAX )
{
iSetSize = UINT_MAX;
ulRemaining -= ( ULONG ) iSetSize;
}
else
{
iSetSize = ( int ) ulRemaining;
ulRemaining = 0;
}
memset( pDest, iFill, iSetSize );
pDest += iSetSize;
}
return pDestArg;
}
#endif
ULONG hb_xquery( USHORT uiMode )
{
ULONG ulResult;
HB_TRACE(HB_TR_DEBUG, ("hb_xquery(%hu)", uiMode));
/* TODO: Return the correct values instead of 9999 [vszakats] */
switch( uiMode )
{
case HB_MEM_CHAR: /* (Free Variable Space [KB]) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = memorystatus.dwAvailPhys / 1024;
}
#elif defined(HB_OS_OS2)
{
ULONG ulSysInfo = 0;
if( DosQuerySysInfo( QSV_TOTAVAILMEM, QSV_TOTAVAILMEM, &ulSysInfo, sizeof( ULONG ) ) != NO_ERROR )
ulResult = 0;
else
ulResult = ulSysInfo / 1024;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_BLOCK: /* (Largest String [KB]) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = HB_MIN( memorystatus.dwAvailPhys, ULONG_MAX ) / 1024;
}
#elif defined(HB_OS_OS2)
{
ULONG ulSysInfo = 0;
if( DosQuerySysInfo( QSV_TOTAVAILMEM, QSV_TOTAVAILMEM, &ulSysInfo, sizeof( ULONG ) ) != NO_ERROR )
ulResult = 0;
else
ulResult = HB_MIN( ulSysInfo, ULONG_MAX ) / 1024;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_RUN: /* (RUN Memory [KB]) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = memorystatus.dwAvailPhys / 1024;
}
#elif defined(HB_OS_OS2)
{
ULONG ulSysInfo = 0;
if( DosQuerySysInfo( QSV_TOTAVAILMEM, QSV_TOTAVAILMEM, &ulSysInfo, sizeof( ULONG ) ) != NO_ERROR )
ulResult = 0;
else
ulResult = ulSysInfo / 1024;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_VM: /* UNDOCUMENTED! (Virtual Memory [KB]) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = memorystatus.dwAvailVirtual / 1024;
}
#elif defined(HB_OS_OS2)
{
ULONG ulSysInfo = 0;
if( DosQuerySysInfo( QSV_TOTAVAILMEM, QSV_TOTAVAILMEM, &ulSysInfo, sizeof( ULONG ) ) != NO_ERROR )
ulResult = 0;
else
ulResult = ulSysInfo / 1024;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_EMS: /* UNDOCUMENTED! (Free Expanded Memory [KB]) (?) */
#if defined(HB_OS_WIN_32) || defined(HB_OS_OS2)
ulResult = 0;
#else
ulResult = 9999;
#endif
break;
case HB_MEM_FM: /* UNDOCUMENTED! (Fixed Memory/Heap [KB]) (?) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = memorystatus.dwTotalPhys / 1024;
}
#elif defined(HB_OS_OS2)
{
ULONG ulSysInfo = 0;
if( DosQuerySysInfo( QSV_MAXPRMEM, QSV_MAXPRMEM, &ulSysInfo, sizeof( ULONG ) ) != NO_ERROR )
ulResult = 0;
else
ulResult = ulSysInfo / 1024;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_FMSEGS: /* UNDOCUMENTED! (Segments in Fixed Memory/Heap) (?) */
#if defined(HB_OS_WIN_32) || defined(HB_OS_OS2)
ulResult = 1;
#else
ulResult = 9999;
#endif
break;
case HB_MEM_SWAP: /* UNDOCUMENTED! (Free Swap Memory [KB]) */
#if defined(HB_OS_WIN_32)
{
MEMORYSTATUS memorystatus;
GlobalMemoryStatus( &memorystatus );
ulResult = memorystatus.dwAvailPageFile / 1024;
}
#elif defined(HB_OS_OS2)
{
/* NOTE: There is no way to know how much a swap file can grow on an
OS/2 system. I think we should return free space on DASD
media which contains swap file [maurilio.longo] */
ulResult = 9999;
}
#else
ulResult = 9999;
#endif
break;
case HB_MEM_CONV: /* UNDOCUMENTED! (Free Conventional [KB]) */
#if defined(HB_OS_WIN_32) || defined(HB_OS_OS2)
ulResult = 0;
#else
ulResult = 9999;
#endif
break;
case HB_MEM_EMSUSED: /* UNDOCUMENTED! (Used Expanded Memory [KB]) (?) */
ulResult = 0;
break;
case HB_MEM_USED: /* Harbour extension (Memory used [bytes]) */
#ifdef HB_FM_STATISTICS
ulResult = s_lMemoryConsumed;
#else
ulResult = 0;
#endif
break;
case HB_MEM_USEDMAX: /* Harbour extension (Maximum memory used [bytes]) */
#ifdef HB_FM_STATISTICS
ulResult = s_lMemoryMaxConsumed;
#else
ulResult = 0;
#endif
break;
case HB_MEM_STACKITEMS: /* Harbour extension (Total items allocated for the stack) */
ulResult = hb_stackTotalItems();
break;
case HB_MEM_STACK: /* Harbour extension (Total memory size used by the stack [bytes]) */
ulResult = hb_stackTotalItems() * sizeof( HB_ITEM );
break;
case HB_MEM_STACK_TOP : /* Harbour extension (Total items currently on the stack) */
ulResult = hb_stackTopOffset( );
break;
default:
ulResult = 0;
}
return ulResult;
}
HB_FUNC( MEMORY )
{
hb_retnl( hb_xquery( hb_parni( 1 ) ) );
}
#ifdef HB_FM_STATISTICS
HB_FUNC( HB_FM_STAT ) {}
#else
HB_FUNC( HB_FM_NOSTAT ) {}
#endif
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