/* * $Id$ */ /* * Harbour Project source code: * Memvar (PRIVATE/PUBLIC) runtime support * * Copyright 1999 Ryszard Glab * 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 1999-2001 Viktor Szakats * __MVSAVE() * __MVRESTORE() (Thanks to Dave Pearson and Jo French for the original * Clipper function (FReadMem()) to read .mem files) * * See doc/license.txt for licensing terms. * */ #include "hbvmopt.h" #include "hbapi.h" #include "hbapiitm.h" #include "hbapierr.h" #include "hbapifs.h" /* for __MVSAVE()/__MVRESTORE() */ #include "hbdate.h" /* for __MVSAVE()/__MVRESTORE() */ #include "hbcomp.h" /* for VS_* macros */ #include "error.ch" #include "hbmemvar.ch" #include "hbset.h" #include "hbstack.h" #if !defined( HB_MT_VM ) # define hb_dynsymGetMemvar( p ) ( ( PHB_ITEM ) (p)->pMemvar ) # define hb_dynsymSetMemvar( p, h ) do { (p)->pMemvar = (h); } while(0) #endif #define TABLE_INITHB_VALUE 100 #define TABLE_EXPANDHB_VALUE 50 struct mv_PUBLIC_var_info { int iPos; BOOL bFound; HB_DYNS_PTR pDynSym; }; struct mv_memvarArray_info { PHB_ITEM pArray; PHB_DYNS * pDyns; ULONG ulCount; int iScope; }; static void hb_memvarCreateFromDynSymbol( PHB_DYNS pDynVar, BYTE bScope, PHB_ITEM pValue ); static PHB_ITEM hb_memvarValueNew( void ) { PHB_ITEM pMemvar; HB_TRACE(HB_TR_DEBUG, ("hb_memvarValueNew()")); pMemvar = ( PHB_ITEM ) hb_xgrab( sizeof( HB_ITEM ) ); pMemvar->type = HB_IT_NIL; return pMemvar; } /* * This function increases the number of references to passed global value */ #undef hb_memvarValueIncRef void hb_memvarValueIncRef( PHB_ITEM pMemvar ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarValueIncRef(%p)", pMemvar)); hb_xRefInc( pMemvar ); } /* * This function decreases the number of references to passed global value. * If it is the last reference then this value is deleted. */ void hb_memvarValueDecRef( PHB_ITEM pMemvar ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarValueDecRef(%p)", pMemvar)); if( hb_xRefDec( pMemvar ) ) { if( HB_IS_COMPLEX( pMemvar ) ) hb_itemClear( pMemvar ); hb_xfree( pMemvar ); } } /* * Detach public or private variable (swap current value with a memvar handle) */ static void hb_memvarDetachDynSym( PHB_DYNS pDynSym, PHB_ITEM pPrevMemvar ) { PHB_ITEM pMemvar; HB_TRACE(HB_TR_DEBUG, ("hb_memvarDetachDynSym(%p,%p)", pDynSym, pPrevMemvar)); pMemvar = hb_dynsymGetMemvar( pDynSym ); hb_dynsymSetMemvar( pDynSym, pPrevMemvar ); hb_memvarValueDecRef( pMemvar ); } /* * Detach local variable (swap current value with a memvar handle) */ HB_ITEM_PTR hb_memvarDetachLocal( PHB_ITEM pLocal ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarDetachLocal(%p)", pLocal)); if( HB_IS_BYREF( pLocal ) ) { do { if( HB_IS_MEMVAR( pLocal ) ) break; else if( HB_IS_ENUM( pLocal ) && !pLocal->item.asEnum.valuePtr ) { PHB_ITEM pBase = HB_IS_BYREF( pLocal->item.asEnum.basePtr ) ? hb_itemUnRef( pLocal->item.asEnum.basePtr ) : pLocal->item.asEnum.basePtr; if( HB_IS_ARRAY( pBase ) ) { PHB_ITEM pItem = hb_itemNew( NULL ); hb_arrayGetItemRef( pBase, pLocal->item.asEnum.offset, pItem ); pLocal->item.asEnum.valuePtr = pItem; pLocal = pItem; break; } } else if( pLocal->item.asRefer.value >= 0 && pLocal->item.asRefer.offset == 0 ) break; pLocal = hb_itemUnRefOnce( pLocal ); } while( HB_IS_BYREF( pLocal ) ); } /* Change the value only if this variable is not referenced * by another codeblock yet. * In this case we have to copy the current value to a global memory * pool so it can be shared by codeblocks */ if( ! HB_IS_MEMVAR( pLocal ) ) { PHB_ITEM pMemvar = hb_memvarValueNew(); hb_itemRawCpy( pMemvar, pLocal ); pMemvar->type &= ~HB_IT_DEFAULT; pLocal->type = HB_IT_BYREF | HB_IT_MEMVAR; pLocal->item.asMemvar.value = pMemvar; } return pLocal; } /* * This function pushes passed dynamic symbol that belongs to PRIVATE variable * into the stack. The value will be popped from it if the variable falls * outside the scope (either by using RELEASE, CLEAR ALL, CLEAR MEMORY or by * an exit from the function/procedure) * */ static void hb_memvarAddPrivate( PHB_DYNS pDynSym, PHB_ITEM pValue ) { PHB_PRIVATE_STACK pPrivateStack; PHB_ITEM pMemvar; HB_TRACE(HB_TR_DEBUG, ("hb_memvarAddPrivate(%p,%p)", pDynSym, pValue)); pPrivateStack = hb_stackGetPrivateStack(); /* Allocate the value from the end of table */ if( pPrivateStack->count == pPrivateStack->size ) { /* No more free values in the table - expand the table */ if( pPrivateStack->size == 0 ) { pPrivateStack->stack = ( PHB_PRIVATE_ITEM ) hb_xgrab( sizeof( HB_PRIVATE_ITEM ) * TABLE_INITHB_VALUE ); pPrivateStack->size = TABLE_INITHB_VALUE; pPrivateStack->count = pPrivateStack->base = 0; } else { pPrivateStack->size += TABLE_EXPANDHB_VALUE; pPrivateStack->stack = ( PHB_PRIVATE_ITEM ) hb_xrealloc( pPrivateStack->stack, sizeof( HB_PRIVATE_ITEM ) * pPrivateStack->size ); } } pPrivateStack->stack[ pPrivateStack->count ].pDynSym = pDynSym; pPrivateStack->stack[ pPrivateStack->count++ ].pPrevMemvar = hb_dynsymGetMemvar( pDynSym ); pMemvar = hb_memvarValueNew(); hb_dynsymSetMemvar( pDynSym, pMemvar ); if( pValue ) { hb_itemCopy( pMemvar, pValue ); /* Remove MEMOFLAG if exists (assignment from field). */ pMemvar->type &= ~HB_IT_MEMOFLAG; } } /* * This function returns current PRIVATE variables stack base */ ULONG hb_memvarGetPrivatesBase( void ) { ULONG ulBase; HB_TRACE(HB_TR_DEBUG, ("hb_memvarGetPrivatesBase()")); ulBase = hb_stackGetPrivateStack()->base; hb_stackGetPrivateStack()->base = hb_stackGetPrivateStack()->count; return ulBase; } /* * This function releases PRIVATE variables created after passed base */ void hb_memvarSetPrivatesBase( ULONG ulBase ) { PHB_PRIVATE_STACK pPrivateStack; HB_TRACE(HB_TR_DEBUG, ("hb_memvarSetPrivatesBase(%lu)", ulBase)); pPrivateStack = hb_stackGetPrivateStack(); while( pPrivateStack->count > pPrivateStack->base ) { PHB_DYNS pDynSym = pPrivateStack->stack[ --pPrivateStack->count ].pDynSym; if( hb_dynsymGetMemvar( pDynSym ) ) { /* Restore previous value for variables that were overridden */ hb_memvarDetachDynSym( pDynSym, pPrivateStack->stack[ pPrivateStack->count ].pPrevMemvar ); } } pPrivateStack->base = ulBase; } /* * Update PRIVATE base ofsset so they will not be removed * when function return */ void hb_memvarUpdatePrivatesBase( void ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarUpdatePrivatesBase()")); hb_stackGetPrivateStack()->base = hb_stackGetPrivateStack()->count; } /* * This functions copies passed item value into the memvar pointed * by symbol * * pMemvar - symbol associated with a variable * pItem - value to store in memvar * */ void hb_memvarSetValue( PHB_SYMB pMemvarSymb, HB_ITEM_PTR pItem ) { PHB_DYNS pDyn; HB_TRACE(HB_TR_DEBUG, ("hb_memvarSetValue(%p, %p)", pMemvarSymb, pItem)); pDyn = pMemvarSymb->pDynSym; if( pDyn ) { PHB_ITEM pMemvar; pMemvar = hb_dynsymGetMemvar( pDyn ); HB_TRACE(HB_TR_INFO, ("Memvar item (%p)(%s) assigned", pMemvar, pMemvarSymb->szName)); if( pMemvar ) { /* value is already created */ hb_itemCopyToRef( pMemvar, pItem ); /* Remove MEMOFLAG if exists (assignment from field). */ pMemvar->type &= ~HB_IT_MEMOFLAG; } else { /* assignment to undeclared memvar - PRIVATE is assumed */ hb_memvarCreateFromDynSymbol( pDyn, VS_PRIVATE, pItem ); } } else hb_errInternal( HB_EI_MVBADSYMBOL, NULL, pMemvarSymb->szName, NULL ); } HB_ERRCODE hb_memvarGet( HB_ITEM_PTR pItem, PHB_SYMB pMemvarSymb ) { PHB_DYNS pDyn; HB_ERRCODE bSuccess = HB_FAILURE; HB_TRACE(HB_TR_DEBUG, ("hb_memvarGet(%p, %p)", pItem, pMemvarSymb)); pDyn = pMemvarSymb->pDynSym; if( pDyn ) { PHB_ITEM pMemvar; pMemvar = hb_dynsymGetMemvar( pDyn ); HB_TRACE(HB_TR_INFO, ("Memvar item (%p)(%s) queried", pMemvar, pMemvarSymb->szName)); if( pMemvar ) { /* value is already created */ if( HB_IS_BYREF( pMemvar ) ) hb_itemCopy( pItem, hb_itemUnRef( pMemvar ) ); else hb_itemCopy( pItem, pMemvar ); bSuccess = HB_SUCCESS; } } else hb_errInternal( HB_EI_MVBADSYMBOL, NULL, pMemvarSymb->szName, NULL ); return bSuccess; } void hb_memvarGetValue( HB_ITEM_PTR pItem, PHB_SYMB pMemvarSymb ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarGetValue(%p, %p)", pItem, pMemvarSymb)); if( hb_memvarGet( pItem, pMemvarSymb ) == HB_FAILURE ) { /* Generate an error with retry possibility * (user created error handler can create this variable) */ HB_ITEM_PTR pError; pError = hb_errRT_New( ES_ERROR, NULL, EG_NOVAR, 1003, NULL, pMemvarSymb->szName, 0, EF_CANRETRY ); while( hb_errLaunch( pError ) == E_RETRY ) { if( hb_memvarGet( pItem, pMemvarSymb ) == HB_SUCCESS ) break; } hb_errRelease( pError ); } } void hb_memvarGetRefer( HB_ITEM_PTR pItem, PHB_SYMB pMemvarSymb ) { PHB_DYNS pDyn; HB_TRACE(HB_TR_DEBUG, ("hb_memvarGetRefer(%p, %p)", pItem, pMemvarSymb)); pDyn = ( PHB_DYNS ) pMemvarSymb->pDynSym; if( pDyn ) { PHB_ITEM pMemvar; pMemvar = hb_dynsymGetMemvar( pDyn ); HB_TRACE(HB_TR_INFO, ("Memvar item (%p)(%s) referenced", pMemvar, pMemvarSymb->szName)); if( pMemvar ) { if( HB_IS_BYREF( pMemvar ) && !HB_IS_ENUM( pMemvar ) ) hb_itemCopy( pItem, pMemvar ); else { /* value is already created */ pItem->type = HB_IT_BYREF | HB_IT_MEMVAR; pItem->item.asMemvar.value = pMemvar; hb_xRefInc( pMemvar ); } } else { /* Generate an error with retry possibility * (user created error handler can make this variable accessible) */ HB_ITEM_PTR pError; pError = hb_errRT_New( ES_ERROR, NULL, EG_NOVAR, 1003, NULL, pMemvarSymb->szName, 0, EF_CANRETRY ); while( hb_errLaunch( pError ) == E_RETRY ) { pMemvar = hb_dynsymGetMemvar( pDyn ); if( pMemvar ) { if( HB_IS_BYREF( pMemvar ) && !HB_IS_ENUM( pMemvar ) ) hb_itemCopy( pItem, pMemvar ); else { /* value is already created */ pItem->type = HB_IT_BYREF | HB_IT_MEMVAR; pItem->item.asMemvar.value = pMemvar; hb_xRefInc( pMemvar ); } break; } } hb_errRelease( pError ); } } else hb_errInternal( HB_EI_MVBADSYMBOL, NULL, pMemvarSymb->szName, NULL ); } PHB_ITEM hb_memvarGetItem( PHB_SYMB pMemvarSymb ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarGetItem(%p)", pMemvarSymb)); if( pMemvarSymb->pDynSym ) { PHB_ITEM pMemvar = hb_dynsymGetMemvar( pMemvarSymb->pDynSym ); if( pMemvar ) { if( HB_IS_BYREF( pMemvar ) ) return hb_itemUnRef( pMemvar ); else return pMemvar; } } return NULL; } /* */ void hb_memvarNewParameter( PHB_SYMB pSymbol, PHB_ITEM pValue ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarNewParameter(%p, %p)", pSymbol, pValue)); hb_memvarCreateFromDynSymbol( pSymbol->pDynSym, VS_PRIVATE, pValue ); } static HB_DYNS_PTR hb_memvarFindSymbol( char * szArg, ULONG ulLen ) { HB_DYNS_PTR pDynSym = NULL; HB_TRACE(HB_TR_DEBUG, ("hb_memvarFindSymbol(%p,%lu)", szArg, ulLen)); if( ulLen && szArg && *szArg ) { char szUprName[ HB_SYMBOL_NAME_LEN + 1 ]; int iSize = 0; do { char cChar = *szArg++; if( cChar >= 'a' && cChar <= 'z' ) { szUprName[ iSize++ ] = cChar - ( 'a' - 'A' ); } else if( cChar == ' ' || cChar == '\t' || cChar == '\n' ) { if( iSize ) break; } else if( !cChar ) { break; } else { szUprName[ iSize++ ] = cChar; } } while( --ulLen && iSize < HB_SYMBOL_NAME_LEN ); if( iSize ) { szUprName[ iSize ] = '\0'; pDynSym = hb_dynsymFind( szUprName ); } } return pDynSym; } char * hb_memvarGetStrValuePtr( char * szVarName, ULONG *pulLen ) { HB_DYNS_PTR pDynVar; char * szValue = NULL; HB_TRACE(HB_TR_DEBUG, ("hb_memvarGetStrValuePtr(%s, %p)", szVarName, pulLen)); pDynVar = hb_memvarFindSymbol( szVarName, *pulLen ); if( pDynVar ) { /* there is dynamic symbol with the requested name - check if it is * a memvar variable */ PHB_ITEM pMemvar = hb_dynsymGetMemvar( pDynVar ); if( pMemvar ) { /* variable contains some data */ if( HB_IS_BYREF( pMemvar ) ) pMemvar = hb_itemUnRef( pMemvar ); if( HB_IS_STRING( pMemvar ) ) { szValue = pMemvar->item.asString.value; *pulLen = pMemvar->item.asString.length; } } } return szValue; } /* * This function creates a value for memvar variable * * pMemvar - an item that stores the name of variable - it can be either * the HB_IT_SYMBOL (if created by PUBLIC statement) or HB_IT_STRING * (if created by direct call to __MVPUBLIC function) * bScope - the scope of created variable - if a variable with the same name * exists already then it's value is hidden by new variable with * passed scope * pValue - optional item used to initialize the value of created variable * or NULL * */ void hb_memvarCreateFromItem( PHB_ITEM pMemvar, BYTE bScope, PHB_ITEM pValue ) { PHB_DYNS pDynVar = NULL; HB_TRACE(HB_TR_DEBUG, ("hb_memvarCreateFromItem(%p, %d, %p)", pMemvar, bScope, pValue)); /* find dynamic symbol or creeate one */ if( HB_IS_SYMBOL( pMemvar ) ) /* pDynVar = hb_dynsymGet( pMemvar->item.asSymbol.value->szName ); */ pDynVar = pMemvar->item.asSymbol.value->pDynSym; else if( HB_IS_STRING( pMemvar ) ) pDynVar = hb_dynsymGet( pMemvar->item.asString.value ); if( pDynVar ) hb_memvarCreateFromDynSymbol( pDynVar, bScope, pValue ); else hb_errRT_BASE( EG_ARG, 3008, NULL, "&", HB_ERR_ARGS_BASEPARAMS ); } static void hb_memvarCreateFromDynSymbol( PHB_DYNS pDynVar, BYTE bScope, PHB_ITEM pValue ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarCreateFromDynSymbol(%p, %d, %p)", pDynVar, bScope, pValue)); if( bScope & VS_PUBLIC ) { /* If the variable with the same name exists already * then the current value have to be unchanged */ if( ! hb_dynsymGetMemvar( pDynVar ) ) { PHB_ITEM pMemvar = hb_memvarValueNew(); hb_dynsymSetMemvar( pDynVar, pMemvar ); if( pValue ) { hb_itemCopy( pMemvar, pValue ); /* Remove MEMOFLAG if exists (assignment from field). */ pMemvar->type &= ~HB_IT_MEMOFLAG; } else { /* new PUBLIC variable - initialize it to .F. */ pMemvar->type = HB_IT_LOGICAL; /* NOTE: PUBLIC variables named CLIPPER and HARBOUR are initialized */ /* to .T., this is normal Clipper behaviour. [vszakats] */ pMemvar->item.asLogical.value = ( strcmp( pDynVar->pSymbol->szName, "HARBOUR" ) == 0 || strcmp( pDynVar->pSymbol->szName, "CLIPPER" ) == 0 ); } } } else { /* Create new PRIVATE var and add it to the PRIVATE variables stack */ hb_memvarAddPrivate( pDynVar, pValue ); } } /* This function releases all memory occupied by a memvar variable * It also restores the value that was hidden if there is another * PRIVATE variable with the same name. */ static void hb_memvarRelease( HB_ITEM_PTR pMemvar ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarRelease(%p)", pMemvar)); if( HB_IS_STRING( pMemvar ) ) { PHB_DYNS pDynSymbol = hb_memvarFindSymbol( pMemvar->item.asString.value, pMemvar->item.asString.length ); if( pDynSymbol && hb_dynsymGetMemvar( pDynSymbol ) ) { ULONG ulBase = hb_stackGetPrivateStack()->count; /* Find the variable with a requested name that is currently visible * Start from the top of the stack. */ while( ulBase > 0 ) { if( pDynSymbol == hb_stackGetPrivateStack()->stack[ --ulBase ].pDynSym ) { /* reset current value to NIL - the overriden variables will be * visible after exit from current procedure */ PHB_ITEM pMemvar = hb_dynsymGetMemvar( pDynSymbol ); if( pMemvar ) hb_itemClear( pMemvar ); return; } } /* No match found for PRIVATEs - it's PUBLIC so let's remove it. */ hb_memvarDetachDynSym( pDynSymbol, NULL ); } } else hb_errRT_BASE( EG_ARG, 3008, NULL, "RELEASE", HB_ERR_ARGS_BASEPARAMS ); } /* This function releases all memory occupied by a memvar variable and * assigns NIL value - it releases variables created in current * procedure only. * The scope of released variables are specified using passed name's mask */ static void hb_memvarReleaseWithMask( const char *szMask, BOOL bInclude ) { ULONG ulBase = hb_stackGetPrivateStack()->count; PHB_DYNS pDynVar; PHB_ITEM pMemvar; HB_TRACE(HB_TR_DEBUG, ("hb_memvarReleaseWithMask(%s, %d)", szMask, (int) bInclude)); while( ulBase > hb_stackGetPrivateStack()->base ) { --ulBase; pDynVar = hb_stackGetPrivateStack()->stack[ ulBase ].pDynSym; /* reset current value to NIL - the overriden variables will be * visible after exit from current procedure */ pMemvar = hb_dynsymGetMemvar( pDynVar ); if( pMemvar ) { BOOL fMatch = hb_strMatchCaseWildExact( pDynVar->pSymbol->szName, szMask ); if( bInclude ? fMatch : !fMatch ) hb_itemClear( pMemvar ); } } } /* Checks if passed dynamic symbol is a variable and returns its scope */ static int hb_memvarScopeGet( PHB_DYNS pDynVar ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarScopeGet(%p)", pDynVar)); if( hb_dynsymGetMemvar( pDynVar ) == 0 ) return HB_MV_UNKNOWN; else { ULONG ulBase = hb_stackGetPrivateStack()->count; /* start from the top of the stack */ while( ulBase ) { if( pDynVar == hb_stackGetPrivateStack()->stack[ --ulBase ].pDynSym ) { if( ulBase >= hb_stackGetPrivateStack()->base ) return HB_MV_PRIVATE_LOCAL; else return HB_MV_PRIVATE_GLOBAL; } } return HB_MV_PUBLIC; } } /* This function checks the scope of passed variable name */ int hb_memvarScope( char * szVarName, ULONG ulLength ) { PHB_DYNS pDynVar; HB_TRACE(HB_TR_DEBUG, ("hb_memvarScope(%s, %lu)", szVarName, ulLength)); pDynVar = hb_memvarFindSymbol( szVarName, ulLength ); if( pDynVar ) return hb_memvarScopeGet( pDynVar ); else return HB_MV_NOT_FOUND; } #if !defined( HB_MT_VM ) /* Releases memory occupied by a variable */ static HB_DYNS_FUNC( hb_memvarClear ) { HB_SYMBOL_UNUSED( Cargo ); if( hb_dynsymGetMemvar( pDynSymbol ) ) hb_memvarDetachDynSym( pDynSymbol, NULL ); return TRUE; } #endif /* Clear all memvar variables */ void hb_memvarsClear( void ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarsClear()")); hb_stackClearMemvarsBase(); hb_stackGetPrivateStack()->base = 0; hb_memvarSetPrivatesBase( 0 ); #if !defined( HB_MT_VM ) hb_dynsymEval( hb_memvarClear, NULL ); #else /* this is a little bit hacked but many times faster version * of memvars clearing because it scans only given thread stack * not global dynamic symbol table. It noticeable reduce the cost * of HVM thread releasing. */ hb_stackClearMemvars(); #endif } /* Checks passed dynamic symbol if it is a PUBLIC variable and * increments the counter eventually */ static HB_DYNS_FUNC( hb_memvarCountPublics ) { if( hb_memvarScopeGet( pDynSymbol ) == HB_MV_PUBLIC ) ( * ( ( int * )Cargo ) )++; return TRUE; } /* Count the number of variables with given scope */ static int hb_memvarCount( int iScope ) { HB_TRACE(HB_TR_DEBUG, ("hb_memvarCount(%d)", iScope)); if( iScope == HB_MV_PUBLIC ) { int iPublicCnt = 0; hb_dynsymProtectEval( hb_memvarCountPublics, ( void * ) &iPublicCnt ); return iPublicCnt; } else return hb_stackGetPrivateStack()->count; /* number of PRIVATE variables */ } /* Checks passed dynamic symbol if it is a PUBLIC variable and returns * a pointer to its dynamic symbol */ static HB_DYNS_FUNC( hb_memvarFindPublicByPos ) { BOOL bCont = TRUE; if( hb_memvarScopeGet( pDynSymbol ) == HB_MV_PUBLIC ) { struct mv_PUBLIC_var_info *pStruPub = (struct mv_PUBLIC_var_info *) Cargo; if( pStruPub->iPos-- == 0 ) { pStruPub->bFound = TRUE; pStruPub->pDynSym = pDynSymbol; bCont = FALSE; } } return bCont; } /* Returns the pointer to item that holds a value of variable (or NULL if * not found). It fills also the pointer to the variable name * Both pointers points to existing and used data - they shouldn't be * deallocated. */ static HB_ITEM_PTR hb_memvarDebugVariable( int iScope, int iPos, const char ** pszName ) { PHB_ITEM pValue = NULL; *pszName = NULL; HB_TRACE(HB_TR_DEBUG, ("hb_memvarDebugVariable(%d, %d, %p)", iScope, iPos, pszName)); if( iPos > 0 ) { --iPos; if( iScope == HB_MV_PUBLIC ) { struct mv_PUBLIC_var_info struPub; struPub.iPos = iPos; struPub.bFound = FALSE; /* enumerate existing dynamic symbols and fill this structure * with info for requested PUBLIC variable */ hb_dynsymProtectEval( hb_memvarFindPublicByPos, ( void * ) &struPub ); if( struPub.bFound ) { pValue = hb_dynsymGetMemvar( struPub.pDynSym ); *pszName = struPub.pDynSym->pSymbol->szName; } } else { if( ( ULONG ) iPos < hb_stackGetPrivateStack()->count ) { HB_DYNS_PTR pDynSym = hb_stackGetPrivateStack()->stack[ iPos ].pDynSym; pValue = hb_dynsymGetMemvar( pDynSym ); *pszName = pDynSym->pSymbol->szName; } } } return pValue; } static HB_DYNS_FUNC( hb_memvarCountVisible ) { PHB_ITEM pMemvar = hb_dynsymGetMemvar( pDynSymbol ); if( pMemvar ) { struct mv_memvarArray_info *pMVInfo = ( struct mv_memvarArray_info * ) Cargo; if( !pMVInfo->iScope || ( hb_memvarScopeGet( pDynSymbol ) & pMVInfo->iScope ) != 0 ) { pMVInfo->pDyns[ pMVInfo->ulCount++ ] = pDynSymbol; } } return TRUE; } PHB_ITEM hb_memvarSaveInArray( int iScope, BOOL fCopy ) { struct mv_memvarArray_info MVInfo; PHB_ITEM pArray, pItem, pMemvar; PHB_DYNS pDynSymbol; pArray = NULL; iScope &= HB_MV_PUBLIC | HB_MV_PRIVATE; if( iScope == ( HB_MV_PUBLIC | HB_MV_PRIVATE ) ) iScope = 0; #if !defined( HB_MT_VM ) MVInfo.pDyns = ( PHB_DYNS * ) hb_xgrab( hb_dynsymCount() * sizeof( PHB_DYNS ) ); #else MVInfo.pDyns = ( PHB_DYNS * ) hb_xgrab( hb_stackDynHandlesCount() * sizeof( PHB_DYNS ) ); #endif MVInfo.ulCount = 0; MVInfo.iScope = iScope; hb_dynsymProtectEval( hb_memvarCountVisible, ( void * ) &MVInfo ); if( MVInfo.ulCount > 0 ) { pArray = hb_itemArrayNew( MVInfo.ulCount ); do { pItem = hb_arrayGetItemPtr( pArray, MVInfo.ulCount ); pDynSymbol = MVInfo.pDyns[ --MVInfo.ulCount ]; pMemvar = hb_dynsymGetMemvar( pDynSymbol ), hb_arrayNew( pItem, 2 ); hb_arraySetSymbol( pItem, 1, pDynSymbol->pSymbol ); pItem = hb_arrayGetItemPtr( pItem, 2 ); if( fCopy ) { hb_itemCopy( pItem, pMemvar ); hb_memvarDetachLocal( pItem ); } else { pItem->type = HB_IT_BYREF | HB_IT_MEMVAR; pItem->item.asMemvar.value = pMemvar; hb_xRefInc( pMemvar ); } } while( MVInfo.ulCount ); } hb_xfree( MVInfo.pDyns ); return pArray; } void hb_memvarRestoreFromArray( PHB_ITEM pArray ) { ULONG ulCount, ulPos; ulCount = hb_arrayLen( pArray ); for( ulPos = 1; ulPos <= ulCount; ++ulPos ) { PHB_ITEM pItem = hb_arrayGetItemPtr( pArray, ulPos ); PHB_DYNS pDynSym = hb_arrayGetSymbol( pItem, 1 )->pDynSym; PHB_ITEM pMemvar = hb_arrayGetItemPtr( pItem, 2 )->item.asMemvar.value; hb_memvarValueIncRef( pMemvar ); if( hb_dynsymGetMemvar( pDynSym ) ) hb_memvarDetachDynSym( pDynSym, pMemvar ); else hb_dynsymSetMemvar( pDynSym, pMemvar ); } } /* ************************************************************************** */ static const char * hb_memvarGetMask( int iParam ) { const char * pszMask = hb_parc( iParam ); if( !pszMask || pszMask[ 0 ] == '*' ) pszMask = "*"; return pszMask; } HB_FUNC( __MVPUBLIC ) { int iCount = hb_pcount(); if( iCount ) { int i; for( i = 1; i <= iCount; i++ ) { PHB_ITEM pMemvar = hb_param( i, HB_IT_ANY ); if( pMemvar ) { if( HB_IS_ARRAY( pMemvar ) ) { /* we are accepting an one-dimensional array of strings only */ ULONG j, ulLen = hb_arrayLen( pMemvar ); for( j = 1; j <= ulLen; j++ ) { hb_memvarCreateFromItem( hb_arrayGetItemPtr( pMemvar, j ), VS_PUBLIC, NULL ); } } else hb_memvarCreateFromItem( pMemvar, VS_PUBLIC, NULL ); } } } } HB_FUNC( __MVPRIVATE ) { int iCount = hb_pcount(); if( iCount ) { int i; for( i = 1; i <= iCount; i++ ) { PHB_ITEM pMemvar = hb_param( i, HB_IT_ANY ); if( pMemvar ) { if( HB_IS_ARRAY( pMemvar ) ) { /* we are accepting an one-dimensional array of strings only */ ULONG j, ulLen = hb_arrayLen( pMemvar ); for( j = 1; j <= ulLen; j++ ) { hb_memvarCreateFromItem( hb_arrayGetItemPtr( pMemvar, j ), VS_PRIVATE, NULL ); } } else hb_memvarCreateFromItem( pMemvar, VS_PRIVATE, NULL ); } } hb_memvarUpdatePrivatesBase(); } } HB_FUNC( __MVXRELEASE ) { int iCount = hb_pcount(); if( iCount ) { int i; for( i = 1; i <= iCount; i++ ) { PHB_ITEM pMemvar = hb_param( i, HB_IT_ANY ); if( pMemvar ) { if( HB_IS_ARRAY( pMemvar ) ) { /* we are accepting an one-dimensional array of strings only */ ULONG j, ulLen = hb_arrayLen( pMemvar ); for( j = 1; j <= ulLen; j++ ) { hb_memvarRelease( hb_arrayGetItemPtr( pMemvar, j ) ); } } else hb_memvarRelease( pMemvar ); } } } } HB_FUNC( __MVRELEASE ) { int iCount = hb_pcount(); if( iCount && ISCHAR( 1 ) ) { BOOL bIncludeVar; const char * pszMask; pszMask = hb_memvarGetMask( 1 ); bIncludeVar = ( pszMask[ 0 ] == '*' && !pszMask[ 1 ] ) || iCount < 2 || hb_parl( 2 ); hb_memvarReleaseWithMask( pszMask, bIncludeVar ); } } HB_FUNC( __MVSCOPE ) { int iMemvar = HB_MV_ERROR; if( hb_pcount() ) { PHB_ITEM pVarName = hb_param( 1, HB_IT_STRING ); if( pVarName ) iMemvar = hb_memvarScope( pVarName->item.asString.value, pVarName->item.asString.length ); } hb_retni( iMemvar ); } HB_FUNC( __MVCLEAR ) { hb_memvarsClear(); } HB_FUNC( __MVDBGINFO ) { int iCount = hb_pcount(); if( iCount == 1 ) /* request for a number of variables */ hb_retni( hb_memvarCount( hb_parni( 1 ) ) ); else if( iCount >= 2 ) /* request for a value of variable */ { HB_ITEM_PTR pValue; const char * szName; pValue = hb_memvarDebugVariable( hb_parni( 1 ), hb_parni( 2 ), &szName ); if( pValue ) { /*the requested variable was found */ if( iCount >= 3 && ISBYREF( 3 ) ) { /* we have to use this variable regardless of its current value */ HB_ITEM_PTR pName = hb_param( 3, HB_IT_ANY ); hb_itemPutC( pName, szName ); /* clear an old value and copy a new one */ /* szName points directly to a symbol name - it cannot be released */ } hb_itemReturn( pValue ); /* pValue points directly to the item structure used by this variable * this item cannot be released */ } else { hb_ret(); /* return NIL value */ if( iCount >= 3 && ISBYREF( 3 ) ) { /* we have to use this variable regardless of its current value */ HB_ITEM_PTR pName = hb_param( 3, HB_IT_ANY ); hb_itemPutC( pName, "?" ); /* clear an old value and copy a new one */ } } } } HB_FUNC( __MVEXIST ) { PHB_DYNS pDyn; pDyn = hb_memvarFindSymbol( hb_parc( 1 ), hb_parclen( 1 ) ); hb_retl( pDyn && hb_dynsymGetMemvar( pDyn ) ); } HB_FUNC( __MVGET ) { HB_ITEM_PTR pName = hb_param( 1, HB_IT_STRING ); if( pName ) { HB_DYNS_PTR pDynVar = hb_memvarFindSymbol( pName->item.asString.value, pName->item.asString.length ); if( pDynVar ) { PHB_ITEM pValue = hb_stackAllocItem(); hb_memvarGetValue( pValue, pDynVar->pSymbol ); hb_itemReturnForward( pValue ); hb_stackDec(); } else { /* Generate an error with retry possibility * (user created error handler can create this variable) */ HB_ITEM_PTR pError; pError = hb_errRT_New( ES_ERROR, NULL, EG_NOVAR, 1003, NULL, pName->item.asString.value, 0, EF_CANRETRY ); while( hb_errLaunch( pError ) == E_RETRY ) { pDynVar = hb_memvarFindSymbol( hb_itemGetCPtr( pName ), hb_itemGetCLen( pName ) ); if( pDynVar ) { PHB_ITEM pValue = hb_stackAllocItem(); hb_memvarGetValue( pValue, pDynVar->pSymbol ); hb_itemReturnForward( pValue ); hb_stackDec(); break; } } hb_errRelease( pError ); } } else { /* either the first parameter is not specified or it has a wrong type * (it must be a string) * This is not a critical error - we can continue normal processing */ hb_errRT_BASE_SubstR( EG_ARG, 3009, NULL, NULL, HB_ERR_ARGS_BASEPARAMS ); } } HB_FUNC( __MVPUT ) { HB_ITEM_PTR pName = hb_param( 1, HB_IT_STRING ); HB_ITEM_PTR pValue = hb_paramError( 2 ); if( pName ) { /* the first parameter is a string with not empty variable name */ HB_DYNS_PTR pDynVar = hb_memvarFindSymbol( pName->item.asString.value, pName->item.asString.length ); if( pDynVar ) { /* variable was declared somwhere - assign a new value */ hb_memvarSetValue( pDynVar->pSymbol, pValue ); } else { /* attempt to assign a value to undeclared variable * create the PRIVATE one */ hb_memvarCreateFromDynSymbol( hb_dynsymGet( pName->item.asString.value ), VS_PRIVATE, pValue ); } hb_memvarUpdatePrivatesBase(); hb_itemReturn( pValue ); } else { /* either the first parameter is not specified or it has a wrong type * (it must be a string) * This is not a critical error - we can continue normal processing */ HB_ITEM_PTR pRetValue = hb_errRT_BASE_Subst( EG_ARG, 3010, NULL, NULL, HB_ERR_ARGS_BASEPARAMS ); if( pRetValue ) hb_itemRelease( pRetValue ); hb_itemReturn( pValue ); } } #define HB_MEM_REC_LEN 32 #define HB_MEM_NUM_LEN 8 typedef struct { const char * pszMask; BOOL bIncludeMask; BYTE * buffer; HB_FHANDLE fhnd; } MEMVARSAVE_CARGO; /* saves a variable to a mem file already open */ static HB_DYNS_FUNC( hb_memvarSave ) { const char * pszMask = ( ( MEMVARSAVE_CARGO * ) Cargo )->pszMask; BOOL bIncludeMask = ( ( MEMVARSAVE_CARGO * ) Cargo )->bIncludeMask; BYTE * buffer = ( ( MEMVARSAVE_CARGO * ) Cargo )->buffer; HB_FHANDLE fhnd = ( ( MEMVARSAVE_CARGO * ) Cargo )->fhnd; PHB_ITEM pMemvar; /* NOTE: Harbour name lengths are not limited, but the .mem file structure is not flexible enough to allow for it. [vszakats] */ pMemvar = hb_dynsymGetMemvar( pDynSymbol ); if( pMemvar ) { BOOL bMatch = hb_strMatchCaseWildExact( pDynSymbol->pSymbol->szName, pszMask ); /* Process it if it matches the passed mask */ if( bIncludeMask ? bMatch : ! bMatch ) { /* NOTE: Clipper will not initialize the record buffer with zeros, so they will look trashed. [vszakats] */ memset( buffer, 0, HB_MEM_REC_LEN ); /* NOTE: Save only the first 10 characters of the name */ hb_strncpy( ( char * ) buffer, pDynSymbol->pSymbol->szName, 10 ); if( HB_IS_STRING( pMemvar ) ) { /* Store the closing zero byte, too */ ULONG ulLen = hb_itemGetCLen( pMemvar ) + 1; int iOverFlow = 0; /* Clipper support only 64KB strings */ if( ulLen > USHRT_MAX ) { ulLen = USHRT_MAX; iOverFlow = 1; } buffer[ 11 ] = 'C' + 128; HB_PUT_LE_UINT16( &buffer[ 16 ], ulLen ); hb_fsWrite( fhnd, buffer, HB_MEM_REC_LEN ); hb_fsWriteLarge( fhnd, ( BYTE * ) hb_itemGetCPtr( pMemvar ), ulLen - iOverFlow ); if( iOverFlow ) hb_fsWrite( fhnd, ( const BYTE * ) "\0", 1 ); } else if( HB_IS_NUMERIC( pMemvar ) ) { double dNumber; int iWidth; int iDec; dNumber = hb_itemGetND( pMemvar ); hb_itemGetNLen( pMemvar, &iWidth, &iDec ); buffer[ 11 ] = 'N' + 128; #ifdef HB_C52_STRICT /* NOTE: This is the buggy, but fully CA-Cl*pper compatible method. [vszakats] */ buffer[ 16 ] = ( BYTE ) iWidth + ( HB_IS_DOUBLE( pMemvar ) ? ( BYTE ) ( iDec + 1 ) : 0 ); #else /* NOTE: This would be the correct method, but Clipper is buggy here. [vszakats] */ buffer[ 16 ] = ( BYTE ) iWidth + ( iDec == 0 ? 0 : ( BYTE ) ( iDec + 1 ) ); #endif buffer[ 17 ] = ( BYTE ) iDec; HB_PUT_LE_DOUBLE( &buffer[ HB_MEM_REC_LEN ], dNumber ); hb_fsWrite( fhnd, buffer, HB_MEM_REC_LEN + HB_MEM_NUM_LEN ); } else if( HB_IS_DATE( pMemvar ) ) { double dNumber = ( double ) hb_itemGetDL( pMemvar ); buffer[ 11 ] = 'D' + 128; buffer[ 16 ] = 1; buffer[ 17 ] = 0; HB_PUT_LE_DOUBLE( &buffer[ HB_MEM_REC_LEN ], dNumber ); hb_fsWrite( fhnd, buffer, HB_MEM_REC_LEN + HB_MEM_NUM_LEN ); } else if( HB_IS_LOGICAL( pMemvar ) ) { buffer[ 11 ] = 'L' + 128; buffer[ 16 ] = 1; buffer[ 17 ] = 0; buffer[ HB_MEM_REC_LEN ] = hb_itemGetL( pMemvar ) ? 1 : 0; hb_fsWrite( fhnd, buffer, HB_MEM_REC_LEN + 1 ); } } } return TRUE; } HB_FUNC( __MVSAVE ) { /* Clipper also checks for the number of arguments here */ if( hb_pcount() == 3 && ISCHAR( 1 ) && ISCHAR( 2 ) && ISLOG( 3 ) ) { PHB_ITEM pError = NULL; PHB_FNAME pFileName; char szFileName[ _POSIX_PATH_MAX + 1 ]; HB_FHANDLE fhnd; /* Generate filename */ pFileName = hb_fsFNameSplit( hb_parc( 1 ) ); if( pFileName->szExtension == NULL && hb_stackSetStruct()->HB_SET_DEFEXTENSIONS ) pFileName->szExtension = ".mem"; if( ! pFileName->szPath ) pFileName->szPath = hb_stackSetStruct()->HB_SET_DEFAULT; hb_fsFNameMerge( szFileName, pFileName ); hb_xfree( pFileName ); /* Create .mem file */ do { fhnd = hb_fsExtOpen( ( BYTE * ) szFileName, NULL, FXO_TRUNCATE | FO_READWRITE | FO_EXCLUSIVE | FXO_DEFAULTS | FXO_SHARELOCK, NULL, pError ); if( fhnd == FS_ERROR ) { pError = hb_errRT_FileError( pError, NULL, EG_CREATE, 2006, szFileName ); if( hb_errLaunch( pError ) != E_RETRY ) break; } } while( fhnd == FS_ERROR ); if( fhnd != FS_ERROR ) { BYTE buffer[ HB_MEM_REC_LEN + HB_MEM_NUM_LEN ]; MEMVARSAVE_CARGO msc; msc.pszMask = hb_memvarGetMask( 2 ); msc.bIncludeMask = hb_parl( 3 ); msc.buffer = buffer; msc.fhnd = fhnd; /* Walk through all visible memory variables and save each one */ hb_dynsymEval( hb_memvarSave, ( void * ) &msc ); buffer[ 0 ] = '\x1A'; hb_fsWrite( fhnd, buffer, 1 ); hb_fsClose( fhnd ); } if( pError ) hb_itemRelease( pError ); } else /* NOTE: Undocumented error message in CA-Cl*pper 5.2e and 5.3x. [ckedem] */ hb_errRT_BASE( EG_ARG, 2008, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS ); } /* NOTE: There's an extension in Harbour, which makes it possible to only load (or not load) variable names with a specific name mask. [vszakats] */ HB_FUNC( __MVRESTORE ) { /* Clipper checks for the number of arguments here here, but we cannot in Harbour since we have two optional parameters as an extension. */ #ifdef HB_C52_STRICT if( hb_pcount() == 2 && ISCHAR( 1 ) && ISLOG( 2 ) ) #else if( ISCHAR( 1 ) && ISLOG( 2 ) ) #endif { PHB_ITEM pError = NULL; PHB_FNAME pFileName; char szFileName[ _POSIX_PATH_MAX + 1 ]; HB_FHANDLE fhnd; BOOL bAdditive = hb_parl( 2 ); /* Clear all memory variables if not ADDITIVE */ if( ! bAdditive ) hb_memvarsClear(); /* Generate filename */ pFileName = hb_fsFNameSplit( hb_parc( 1 ) ); if( pFileName->szExtension == NULL && hb_stackSetStruct()->HB_SET_DEFEXTENSIONS ) pFileName->szExtension = ".mem"; if( ! pFileName->szPath ) pFileName->szPath = hb_stackSetStruct()->HB_SET_DEFAULT; hb_fsFNameMerge( szFileName, pFileName ); hb_xfree( pFileName ); /* Open .mem file */ do { fhnd = hb_fsExtOpen( ( BYTE * ) szFileName, NULL, FO_READ | FXO_DEFAULTS | FXO_SHARELOCK, NULL, pError ); if( fhnd == FS_ERROR ) { pError = hb_errRT_FileError( pError, NULL, EG_OPEN, 2005, szFileName ); if( hb_errLaunch( pError ) != E_RETRY ) break; } } while( fhnd == FS_ERROR ); if( fhnd != FS_ERROR ) { BOOL bIncludeMask; BYTE buffer[ HB_MEM_REC_LEN ]; const char * pszMask; char *szName; PHB_ITEM pItem = NULL; #ifdef HB_C52_STRICT pszMask = "*"; bIncludeMask = TRUE; #else pszMask = hb_memvarGetMask( 3 ); bIncludeMask = !ISLOG( 4 ) || hb_parl( 4 ); #endif while( hb_fsRead( fhnd, buffer, HB_MEM_REC_LEN ) == HB_MEM_REC_LEN ) { /* FoxPro does not add 128 to item type: 'N', 'C', 'D', 'L' * CA-Cl*pper respects it and read such files so we also should. */ USHORT uiType = ( USHORT ) ( buffer[ 11 ] & 0x7f ); USHORT uiWidth = ( USHORT ) buffer[ 16 ]; USHORT uiDec = ( USHORT ) buffer[ 17 ]; /* protect against corrupted files */ buffer[ 10 ] = '\0'; szName = ( char * ) buffer; switch( uiType ) { case 'C': { BYTE * pbyString; uiWidth += uiDec * 256; pbyString = ( BYTE * ) hb_xgrab( uiWidth ); if( hb_fsRead( fhnd, pbyString, uiWidth ) == uiWidth ) pItem = hb_itemPutCLPtr( pItem, ( char * ) pbyString, uiWidth - 1 ); else { hb_xfree( pbyString ); szName = NULL; } break; } case 'N': { BYTE pbyNumber[ HB_MEM_NUM_LEN ]; if( hb_fsRead( fhnd, pbyNumber, HB_MEM_NUM_LEN ) == HB_MEM_NUM_LEN ) pItem = hb_itemPutNLen( pItem, HB_GET_LE_DOUBLE( pbyNumber ), uiWidth - ( uiDec ? ( uiDec + 1 ) : 0 ), uiDec ); else szName = NULL; break; } case 'D': { BYTE pbyNumber[ HB_MEM_NUM_LEN ]; if( hb_fsRead( fhnd, pbyNumber, HB_MEM_NUM_LEN ) == HB_MEM_NUM_LEN ) pItem = hb_itemPutDL( pItem, ( long ) HB_GET_LE_DOUBLE( pbyNumber ) ); else szName = NULL; break; } case 'L': { BYTE pbyLogical[ 1 ]; if( hb_fsRead( fhnd, pbyLogical, 1 ) == 1 ) pItem = hb_itemPutL( pItem, pbyLogical[ 0 ] != 0 ); else szName = NULL; break; } default: szName = NULL; } if( szName ) { BOOL bMatch = hb_strMatchCaseWildExact( szName, pszMask ); /* Process it if it matches the passed mask */ if( bIncludeMask ? bMatch : ! bMatch ) { /* the first parameter is a string with not empty variable name */ HB_DYNS_PTR pDynVar = hb_memvarFindSymbol( szName, strlen( szName ) ); if( pDynVar ) /* variable was declared somwhere - assign a new value */ hb_memvarSetValue( pDynVar->pSymbol, pItem ); else /* attempt to assign a value to undeclared variable create the PRIVATE one */ hb_memvarCreateFromDynSymbol( hb_dynsymGet( szName ), VS_PRIVATE, pItem ); } } } hb_fsClose( fhnd ); hb_memvarUpdatePrivatesBase(); hb_itemReturnRelease( pItem ); } else hb_retl( FALSE ); if( pError ) hb_itemRelease( pError ); } else /* NOTE: Undocumented error message in CA-Cl*pper 5.2e and 5.3x. [ckedem] */ hb_errRT_BASE( EG_ARG, 2007, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS ); } /* * This is a hacking function which changes base private offset so * PRIVATE variables created in function which calls __MVSETBASE() * will not be released when the function exit but will be inherited * by its caller. [druzus] */ HB_FUNC( __MVSETBASE ) { long lOffset = hb_stackBaseProcOffset( 0 ); if( lOffset > 0 ) hb_stackItem( lOffset )->item.asSymbol.stackstate->ulPrivateBase = hb_memvarGetPrivatesBase(); } /* debugger function */ PHB_ITEM hb_memvarGetValueBySym( PHB_DYNS pDynSym ) { return hb_dynsymGetMemvar( pDynSym ); }