/* * $Id$ */ /* * Harbour Project source code: * Windows pcode DLL entry point and VM/RTL routing functions * * Copyright 2001 Antonio Linares * 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 of the License, or * (at your option) any later version, with one exception: * * 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. * */ #define HB_OS_WIN_32_USED #include "hbtypes.h" #if defined(HB_OS_WIN_32) BOOL HB_EXPORT WINAPI DllEntryPoint( HINSTANCE hInstance, DWORD fdwReason, PVOID pvReserved ) { HB_TRACE( HB_TR_DEBUG, ("DllEntryPoint(%p, %p, %d)", hInstance, fdwReason, pvReserved ) ); HB_SYMBOL_UNUSED( hInstance ); HB_SYMBOL_UNUSED( fdwReason ); HB_SYMBOL_UNUSED( pvReserved ); switch( fdwReason ) { case DLL_PROCESS_ATTACH: break; case DLL_PROCESS_DETACH: break; } return TRUE; } /* module symbols initialization */ void hb_vmProcessSymbols( PHB_SYMB pModuleSymbols, USHORT uiModuleSymbols ) { /* notice hb_vmProcessDllSymbols() must be used, and not * hb_vmProcessSymbols(), as some special symbols pointers * adjustments are required */ FARPROC pProcessSymbols = GetProcAddress( GetModuleHandle( NULL ), "_hb_vmProcessDllSymbols" ); if( pProcessSymbols ) ( ( VM_PROCESS_DLL_SYMBOLS ) pProcessSymbols ) ( pModuleSymbols, uiModuleSymbols ); /* else * may we issue an error ? */ } void hb_vmExecute( const BYTE * pCode, PHB_SYMB pSymbols ) { FARPROC pExecute = GetProcAddress( GetModuleHandle( NULL ), "_hb_vmExecute" ); if( pExecute ) ( ( VM_DLL_EXECUTE ) pExecute ) ( pCode, pSymbols ); /* else * may we issue an error ? */ } /* extend API implementation for pcode DLLs */ char * hb_parc( int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pParC = GetProcAddress( GetModuleHandle( NULL ), "_hb_parc" ); if( pExtIsArray && pParC ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( EXT_PARC2 ) pParC )( iParam, ulArrayIndex ); } else return ( ( EXT_PARC1 ) pParC )( iParam ); } else return ""; } PHB_ITEM hb_param( int iParam, int iMask ) /* retrieve a generic parameter */ { PHB_ITEM pReturn; FARPROC pParam=GetProcAddress( GetModuleHandle( NULL ), "_hb_param" ); if (pParam) pReturn=((HB_PARAM)pParam)(iParam,iMask); return pReturn; } PHB_ITEM hb_paramError( int iParam ) /* Returns either the generic parameter or a NIL item if param not provided */ { PHB_ITEM pReturn; FARPROC pParamError=GetProcAddress( GetModuleHandle( NULL ), "_hb_paramError" ); if (pParamError) pReturn=((HB_PARAMERROR)pParamError)(iParam); return pReturn; } int hb_pcount( void ) /* returns the number of suplied parameters */ { int iReturn; FARPROC pCounts=GetProcAddress(GetModuleHandle( NULL ), "_hb_pcount" ); if (pCounts) iReturn=((HB_PCOUNTS)pCounts)(); return iReturn; } void hb_retc( char * szText ) /* returns a string */ { FARPROC pRetc=GetProcAddress(GetModuleHandle( NULL ), "_hb_retc" ); if (pRetc) ((HB_RETC)pRetc)(szText); } void hb_retclen( char * szText, ULONG ulLen ) /* returns a string with a specific length */ { FARPROC pRetclen=GetProcAddress(GetModuleHandle( NULL ), "_hb_retclen" ); if (pRetclen) ((HB_RETCLEN)pRetclen)(szText,ulLen); } void hb_retds( char * szDate ) /* returns a date, must use yyyymmdd format */ { FARPROC pRetds=GetProcAddress(GetModuleHandle( NULL ), "_hb_retds" ); if (pRetds) ((HB_RETDS)pRetds)(szDate); } void hb_retd( long lYear, long lMonth, long lDay ) /* returns a date */ { FARPROC pRetd=GetProcAddress(GetModuleHandle( NULL ), "_hb_retd" ); if (pRetd) ((HB_RETD)pRetd)(lYear,lMonth,lDay); } void hb_retdl( long lJulian ) /* returns a long value as a julian date */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retdl" ); if (pRet) ((HB_RETDL)pRet)(lJulian); } void hb_retl( int iTrueFalse ) /* returns a logical integer */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retl" ); if (pRet) ((HB_RETDL)pRet)(iTrueFalse); } void hb_retnd( double dNumber ) /* returns a double */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retnd" ); if (pRet) ((HB_RETND)pRet)(dNumber); } void hb_retni( int iNumber ) /* returns a integer number */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retni" ); if (pRet) ((HB_RETNI)pRet)(iNumber); } void hb_retnl( long lNumber ) /* returns a long number */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retnl" ); if (pRet) ((HB_RETNL)pRet)(lNumber); } void hb_retnlen( double dNumber, int iWidth, int iDec ) /* returns a double, with specific width and decimals */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retnlen" ); if (pRet) ((HB_RETNLEN)pRet)(dNumber,iWidth,iDec); } void hb_retndlen( double dNumber, int iWidth, int iDec ) /* returns a double, with specific width and decimals */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retndlen" ); if (pRet) ((HB_RETNDLEN)pRet)(dNumber,iWidth,iDec); } void hb_retnilen( int iNumber, int iWidth ) /* returns a integer number, with specific width */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retnilen" ); if (pRet) ((HB_RETNILEN)pRet)(iNumber,iWidth); } void hb_retnllen( long lNumber, int iWidth ) /* returns a long number, with specific width */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_retnilen" ); if (pRet) ((HB_RETNLLEN)pRet)(lNumber,iWidth); } void hb_reta( ULONG ulLen ) /* returns an array with a specific length */ { FARPROC pRet=GetProcAddress(GetModuleHandle( NULL ), "_hb_reta" ); if (pRet) ((HB_RETA)pRet)(ulLen); } ULONG hb_parinfa( int iParamNum, ULONG uiArrayIndex ) /* retrieve length or element type of an array parameter */ { ULONG ulReturn; FARPROC pParinfa=GetProcAddress( GetModuleHandle( NULL ), "_hb_parinfa" ); if (pParinfa) ulReturn=((HB_PARINFA)pParinfa)(iParamNum,uiArrayIndex); return ulReturn; } int hb_parinfo( int iParam ) /* Determine the param count or data type */ { int iReturn; FARPROC pParinfo=GetProcAddress( GetModuleHandle( NULL ), "_hb_parinfo" ); if (pParinfo) iReturn=((HB_PARINFO)pParinfo)(iParam); return iReturn; } ULONG hb_parclen( int iParam, ... ) /* retrieve a string parameter length */ { FARPROC pParC= GetProcAddress( GetModuleHandle( NULL ), "_hb_parclen" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParC ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARCLEN2 ) pParC )( iParam, ulArrayIndex ); } else return ( ( HB_PARCLEN ) pParC )( iParam ); } else return 0; } ULONG hb_parcsiz( int iParam, ... )/* retrieve a by-reference string parameter length, including terminator */ { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pParcSiz= GetProcAddress( GetModuleHandle( NULL ), "_hb_parcsiz" ); if( pExtIsArray && pParcSiz ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARCSIZ2 ) pParcSiz )( iParam, ulArrayIndex ); } else return ( ( HB_PARCSIZ ) pParcSiz )( iParam ); } else return 0; } char * hb_pards( int iParam, ... ) /* retrieve a date as a string yyyymmdd */ { FARPROC pParDs= GetProcAddress( GetModuleHandle( NULL ), "_hb_pards" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParDs ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARDS2 ) pParDs )( iParam, ulArrayIndex ); } else return ( ( HB_PARDS ) pParDs )( iParam ); } else return ""; } char * hb_pardsbuff( char * szDate, int iParam, ... ) /* retrieve a date as a string yyyymmdd */ { FARPROC pParDsBuff = GetProcAddress( GetModuleHandle( NULL ), "_hb_pardsbuff" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParDsBuff ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARDSBUFF2 ) pParDsBuff )( szDate, iParam, ulArrayIndex ); } else return ( ( HB_PARDSBUFF ) pParDsBuff )( szDate, iParam ); } else return ""; } int hb_parl( int iParam, ... ) /* retrieve a logical parameter as an int */ { /* int iReturn; */ FARPROC pParL=GetProcAddress( GetModuleHandle( NULL ), "_hb_parl" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParL ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARL2 ) pParL )( iParam, ulArrayIndex ); } else return ( ( HB_PARL ) pParL )( iParam ); } else return 0; } double hb_parnd( int iParam, ... ) /* retrieve a numeric parameter as a double */ { FARPROC pParNd=GetProcAddress( GetModuleHandle( NULL ), "_hb_parnd" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParNd ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARND2 ) pParNd )( iParam, ulArrayIndex ); } else return ( ( HB_PARND ) pParNd )( iParam ); } else return 0; } int hb_parni( int iParam, ... ) /* retrieve a numeric parameter as a integer */ { /* int iReturn; */ FARPROC pParNi=GetProcAddress( GetModuleHandle( NULL ), "_hb_parni" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParNi ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARNI2 ) pParNi )( iParam, ulArrayIndex ); } else return ( ( HB_PARNI ) pParNi )( iParam ); } else return 0; } long hb_parnl( int iParam, ... ) /* retrieve a numeric parameter as a long */ { FARPROC pParNl=GetProcAddress( GetModuleHandle( NULL ), "_hb_parnl" ); FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); if( pExtIsArray && pParNl ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); return ( ( HB_PARNL2 ) pParNl )( iParam, ulArrayIndex ); } else return ( ( HB_PARNL ) pParNl )( iParam ); } else return 0; } void hb_storc( char * szText, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorC = GetProcAddress( GetModuleHandle( NULL ), "_hb_storc" ); if( pExtIsArray && pStorC ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORC2) pStorC )( szText, iParam, ulArrayIndex ); } else ( ( HB_STORC ) pStorC )( szText, iParam ); } } void hb_storclen( char * szText, ULONG ulLen, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorC = GetProcAddress( GetModuleHandle( NULL ), "_hb_storclen" ); if( pExtIsArray && pStorC ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORCLEN2) pStorC )( szText, ulLen, iParam, ulArrayIndex ); } else ( ( HB_STORCLEN ) pStorC )( szText, ulLen, iParam ); } } void hb_stords( char * szDate, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorDs = GetProcAddress( GetModuleHandle( NULL ), "_hb_stords" ); if( pExtIsArray && pStorDs ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORDS2) pStorDs )( szDate, iParam, ulArrayIndex ); } else ( ( HB_STORDS ) pStorDs )( szDate, iParam ); } } void hb_storl( int iLogical, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorL = GetProcAddress( GetModuleHandle( NULL ), "_hb_storl" ); if( pExtIsArray && pStorL ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORL2) pStorL )( iLogical, iParam, ulArrayIndex ); } else ( ( HB_STORL ) pStorL )( iLogical, iParam ); } } void hb_storni( int iValue, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorNi = GetProcAddress( GetModuleHandle( NULL ), "_hb_storni" ); if( pExtIsArray && pStorNi ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORNI2) pStorNi )( iValue, iParam, ulArrayIndex ); } else ( ( HB_STORNI) pStorNi )( iValue, iParam ); } } void hb_stornl( long lValue, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorNl = GetProcAddress( GetModuleHandle( NULL ), "_hb_stornl" ); if( pExtIsArray && pStorNl ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORNL2) pStorNl )( lValue, iParam, ulArrayIndex ); } else ( ( HB_STORNL) pStorNl )( lValue, iParam ); } } void hb_stornd( double dNumber, int iParam, ... ) { FARPROC pExtIsArray = GetProcAddress( GetModuleHandle( NULL ), "_hb_extIsArray" ); FARPROC pStorNd = GetProcAddress( GetModuleHandle( NULL ), "_hb_stornd" ); if( pExtIsArray && pStorNd ) { if( ( ( EXT_IS_ARRAY ) pExtIsArray ) ( iParam ) ) { va_list va; ULONG ulArrayIndex; va_start( va, iParam ); ulArrayIndex = va_arg( va, ULONG ); va_end( va ); ( ( HB_STORND2) pStorNd )( dNumber, iParam, ulArrayIndex ); } else ( ( HB_STORND) pStorNd )( dNumber, iParam ); } } BOOL hb_arrayNew( PHB_ITEM pItem, ULONG ulLen ) /* creates a new array */ { HB_ARRAYNEW pArrayNew =(HB_ARRAYNEW) GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayNew" ); if (pArrayNew) return pArrayNew( pItem, ulLen ); else return FALSE; } ULONG hb_arrayLen( PHB_ITEM pArray ) /* retrives the array len */ { HB_ARRAYLEN pArrayLen = (HB_ARRAYLEN)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayLen" ); if (pArrayLen) return pArrayLen( pArray ); else return 0; } BOOL hb_arrayIsObject( PHB_ITEM pArray ) /* retrives if the array is an object */ { HB_ARRAYISOBJECT pArrayIsObject = (HB_ARRAYISOBJECT)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayIsObject" ); if (pArrayIsObject) return pArrayIsObject( pArray ); else return FALSE; } BOOL hb_arrayAdd( PHB_ITEM pArray, PHB_ITEM pItemValue ) /* add a new item to the end of an array item */ { HB_ARRAYADD pArrayAdd = (HB_ARRAYADD)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayAdd" ); if (pArrayAdd) return pArrayAdd( pArray, pItemValue ); else return FALSE; } BOOL hb_arrayIns( PHB_ITEM pArray, ULONG ulIndex ) /* insert a nil item into an array, without changing the length */ { HB_ARRAYINS pArrayIns = (HB_ARRAYINS)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayIns" ); if (pArrayIns) return pArrayIns( pArray, ulIndex ); else return FALSE; } BOOL hb_arrayDel( PHB_ITEM pArray, ULONG ulIndex ) /* delete an array item, without changing length */ { HB_ARRAYDEL pArrayDel = (HB_ARRAYDEL)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayDel" ); if (pArrayDel) return pArrayDel( pArray, ulIndex ); else return FALSE; } BOOL hb_arraySize( PHB_ITEM pArray, ULONG ulLen ) /* sets the array total length */ { HB_ARRAYSIZE pArraySize = (HB_ARRAYSIZE)GetProcAddress( GetModuleHandle( NULL ), "_hb_arraySize" ); if (pArraySize) return pArraySize( pArray, ulLen ); else return FALSE; } BOOL hb_arrayLast( PHB_ITEM pArray, PHB_ITEM pResult ) /* retrieve last item in an array */ { HB_ARRAYLAST pArrayLast= (HB_ARRAYLAST)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayLast" ); if (pArrayLast) return pArrayLast( pArray, pResult ); else return FALSE; } BOOL hb_arrayRelease( PHB_ITEM pArray ) /* releases an array - don't call it - use ItemRelease() !!! */ { HB_ARRAYRELEASE pArrayRelease = (HB_ARRAYRELEASE)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayRelease" ); if (pArrayRelease) return pArrayRelease( pArray ); else return FALSE; } BOOL hb_arraySet( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem ) /* sets an array element */ { HB_ARRAYSET pArraySet = (HB_ARRAYSET)GetProcAddress( GetModuleHandle( NULL ), "_hb_arraySet" ); if (pArraySet) return pArraySet( pArray, ulIndex, pItem); else return FALSE; } BOOL hb_arrayGet( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem ) /* retrieves an item */ { HB_ARRAYGET pArrayGet = (HB_ARRAYGET)GetProcAddress( GetModuleHandle( NULL ), "_hb_arrayGet" ); if (pArrayGet) return pArrayGet( pArray, ulIndex, pItem); else return FALSE; } void hb_xinit( void ) /* Initialize fixed memory subsystem */ { HB_XINIT pXinit = (HB_XINIT)GetProcAddress( GetModuleHandle( NULL ), "_hb_xinit" ); if (pXinit) pXinit(); } void hb_xexit( void ) /* Deinitialize fixed memory subsystem */ { HB_XEXIT pXexit = (HB_XEXIT)GetProcAddress( GetModuleHandle( NULL ), "_hb_xexit" ); if (pXexit) pXexit(); } void * hb_xalloc( ULONG ulSize ) /* allocates memory, returns NULL on failure */ { void * pRet; HB_XALLOC pXalloc = (HB_XALLOC)GetProcAddress( GetModuleHandle( NULL ), "_hb_xalloc" ); if (pXalloc) pRet=pXalloc(ulSize); return pRet; } void * hb_xgrab( ULONG ulSize ) /* allocates memory, exits on failure */ { void * pRet; HB_XGRAB pXgrab = (HB_XGRAB)GetProcAddress( GetModuleHandle( NULL ), "_hb_xgrab" ); if (pXgrab) pRet=pXgrab(ulSize); return pRet; } void hb_xfree( void * pMem ) /* frees memory */ { HB_XFREE pXfree = (HB_XFREE)GetProcAddress( GetModuleHandle( NULL ), "_hb_xfree" ); if (pXfree) pXfree(pMem); } void * hb_xrealloc( void * pMem, ULONG ulSize ) /* reallocates memory */ { void * pRet; HB_XREALLOC pXrealloc = (HB_XREALLOC)GetProcAddress( GetModuleHandle( NULL ), "_hb_xrealloc" ); if (pXrealloc) pRet= (void*)pXrealloc( pMem, ulSize ); return pRet; } ULONG hb_xsize( void * pMem ) /* returns the size of an allocated memory block */ { HB_XSIZE pXsize = (HB_XSIZE)GetProcAddress( GetModuleHandle( NULL ), "_hb_xsize" ); ULONG ulReturn=0; if (pXsize) ulReturn= pXsize((void *)pMem); return ulReturn; } #endif