/* * Harbour Project source code: * The Extend API * * Copyright 1999 Antonio Linares * www - http://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.txt. 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://harbour-project.org * * Copyright 1999-2009 Viktor Szakats (harbour syenar.net) * hb_stor() * hb_retnlen() * hb_retnilen() * hb_retnllen() * hb_retndlen() * hb_retdl() * hb_parnidef() (based on idea by Mindaugas Kavaliauskas) * hb_parnldef() * * Copyright 2000 Jose Lalin * hb_retd() * * See COPYING.txt for licensing terms. * */ #include "hbvmopt.h" #include "hbapi.h" #include "hbapiitm.h" #include "hbset.h" #include "hbdate.h" #include "hbstack.h" /* NOTE: iParam = -1 can be used to access the return value. */ /* NOTE: iParam = 0 can be used to access the SELF object. */ PHB_ITEM hb_param( int iParam, long lMask ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_param(%d, %ld)", iParam, lMask ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( pItem->type & HB_IT_BYREF ) { pItem = hb_itemUnRef( pItem ); if( ( HB_TYPE ) lMask == HB_IT_BYREF ) return pItem; } if( ( pItem->type & ( HB_TYPE ) lMask ) || ( HB_TYPE ) lMask == HB_IT_ANY ) return pItem; } return NULL; } PHB_ITEM hb_paramError( int iParam ) { static HB_ITEM s_NIL; PHB_ITEM pParam = hb_param( iParam, HB_IT_ANY ); if( pParam == NULL ) { hb_itemClear( &s_NIL ); pParam = &s_NIL; } return pParam; } HB_ULONG hb_parinfo( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parinfo(%d)", iParam ) ); if( iParam == 0 ) return ( HB_ULONG ) hb_pcount(); else { if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_TYPE uiType = HB_ITEM_TYPE( pItem ); if( uiType & HB_IT_BYREF ) uiType |= HB_ITEM_TYPE( hb_itemUnRef( pItem ) ); return ( HB_ULONG ) uiType; } else return 0; } } HB_SIZE hb_parinfa( int iParamNum, HB_SIZE nArrayIndex ) { PHB_ITEM pArray; HB_TRACE( HB_TR_DEBUG, ( "hb_parinfa(%d, %" HB_PFS "u)", iParamNum, nArrayIndex ) ); pArray = hb_param( iParamNum, HB_IT_ARRAY ); if( pArray ) { if( nArrayIndex == 0 ) return hb_arrayLen( pArray ); else return ( HB_ISIZ ) hb_arrayGetType( pArray, nArrayIndex ); } else return 0; } HB_BOOL hb_extIsNil( int iParam ) { HB_STACK_TLS_PRELOAD PHB_ITEM pItem; HB_TRACE( HB_TR_DEBUG, ( "hb_extIsNil(%d)", iParam ) ); if( iParam == -1 ) pItem = hb_stackReturnItem(); else if( iParam >= 0 && iParam <= hb_pcount() ) pItem = hb_stackItemFromBase( iParam ); else return HB_TRUE; if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); return HB_IS_NIL( pItem ); } /* function to be called from pcode DLLs to detect if the extend system * is going to use an array item */ HB_BOOL hb_extIsArray( int iParam ) { HB_STACK_TLS_PRELOAD PHB_ITEM pItem; if( iParam == -1 ) pItem = hb_stackReturnItem(); else if( iParam >= 0 && iParam <= hb_pcount() ) pItem = hb_stackItemFromBase( iParam ); else return HB_FALSE; if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); return HB_IS_ARRAY( pItem ) && ! HB_ARRAY_OBJ( pItem ); } /* function to be called from pcode DLLs to detect if the extend system * is going to use an object item */ HB_BOOL hb_extIsObject( int iParam ) { HB_STACK_TLS_PRELOAD PHB_ITEM pItem; if( iParam == -1 ) pItem = hb_stackReturnItem(); else if( iParam >= 0 && iParam <= hb_pcount() ) pItem = hb_stackItemFromBase( iParam ); else return HB_FALSE; if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); return HB_IS_OBJECT( pItem ); } /* NOTE: Caller should not modify the buffer returned by this function. [vszakats] */ const char * hb_parc( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parc(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.value; } return NULL; } const char * hb_parcx( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parcx(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.value; } return ""; } HB_SIZE hb_parclen( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parclen(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.length; } return 0; } /* NOTE: Similar to _parclen() but returns the length including the terminating zero byte, and it only works for parameters passed by reference. [vszakats] */ HB_SIZE hb_parcsiz( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parcsiz(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); /* NOTE: hb_parcsiz() will only work for strings passed by reference. CA-Cl*pper works like this. [vszakats] */ if( HB_IS_BYREF( pItem ) ) { pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.length + 1; } } return 0; } /* NOTE: Using hb_stackDateBuffer() a temporary date buffer guaranties good behavior when multithreading. */ const char * hb_pards( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_pards(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_dateDecStr( hb_stackDateBuffer(), pItem->item.asDateTime.julian ); } return hb_dateDecStr( hb_stackDateBuffer(), 0 ); } /* NOTE: szDate must be a 9 chars wide buffer. [vszakats] */ char * hb_pardsbuff( char * szDate, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_pardsbuff(%p, %d)", szDate, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_dateDecStr( szDate, pItem->item.asDateTime.julian ); } return hb_dateDecStr( szDate, 0 ); } /* retrieve a date as long integer - number of days from Julian's day */ long hb_pardl( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_pardl(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return pItem->item.asDateTime.julian; } return hb_itemGetDL( NULL ); } double hb_partd( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_partd(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_timeStampPackDT( pItem->item.asDateTime.julian, pItem->item.asDateTime.time ); } return 0; } HB_BOOL hb_partdt( long * plJulian, long * plMilliSec, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_partdt(%p,%p,%d)", plJulian, plMilliSec, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) { *plJulian = pItem->item.asDateTime.julian; *plMilliSec = pItem->item.asDateTime.time; return HB_TRUE; } } return HB_FALSE; } int hb_parl( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parl(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LOGICAL( pItem ) ) return pItem->item.asLogical.value ? 1 : 0; } return 0; } int hb_parldef( int iParam, int iDefValue ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parldef(%d,%d)", iParam, iDefValue ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LOGICAL( pItem ) ) return pItem->item.asLogical.value ? 1 : 0; } return iDefValue; } double hb_parnd( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnd(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DOUBLE( pItem ) ) return pItem->item.asDouble.value; else if( HB_IS_INTEGER( pItem ) ) return ( double ) pItem->item.asInteger.value; else if( HB_IS_LONG( pItem ) ) return ( double ) pItem->item.asLong.value; } return 0; } int hb_parni( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parni(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_INTEGER( pItem ) ) return pItem->item.asInteger.value; else if( HB_IS_LONG( pItem ) ) return ( int ) pItem->item.asLong.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( int ) ( unsigned int ) pItem->item.asDouble.value; #else return ( int ) pItem->item.asDouble.value; #endif } return 0; } int hb_parnidef( int iParam, int iDefValue ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parni(%d, %d)", iParam, iDefValue ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_INTEGER( pItem ) ) return pItem->item.asInteger.value; else if( HB_IS_LONG( pItem ) ) return ( int ) pItem->item.asLong.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( int ) ( unsigned int ) pItem->item.asDouble.value; #else return ( int ) pItem->item.asDouble.value; #endif } return iDefValue; } long hb_parnl( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnl(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( long ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( long ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( long ) ( unsigned long ) pItem->item.asDouble.value; #else return ( long ) pItem->item.asDouble.value; #endif } return 0; } long hb_parnldef( int iParam, long lDefValue ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnldef(%d, %ld)", iParam, lDefValue ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( long ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( long ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( long ) ( unsigned long ) pItem->item.asDouble.value; #else return ( long ) pItem->item.asDouble.value; #endif } return lDefValue; } HB_ISIZ hb_parns( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parns(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_ISIZ ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_ISIZ ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) return ( HB_ISIZ ) pItem->item.asDouble.value; } return 0; } HB_ISIZ hb_parnsdef( int iParam, HB_ISIZ nDefValue ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnsdef(%d, %" HB_PFS "d)", iParam, nDefValue ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_ISIZ ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_ISIZ ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) return ( HB_ISIZ ) pItem->item.asDouble.value; } return nDefValue; } #ifndef HB_LONG_LONG_OFF HB_LONGLONG hb_parnll( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnll(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_LONGLONG ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_LONGLONG ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( HB_LONGLONG ) ( HB_ULONGLONG ) pItem->item.asDouble.value; #else return ( HB_LONGLONG ) pItem->item.asDouble.value; #endif } return 0; } #endif HB_MAXINT hb_parnint( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnint(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_MAXINT ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_MAXINT ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( HB_MAXINT ) ( HB_MAXUINT ) pItem->item.asDouble.value; #else return ( HB_MAXINT ) pItem->item.asDouble.value; #endif } return 0; } HB_MAXINT hb_parnintdef( int iParam, HB_MAXINT nDefValue ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parnintdef(%d, %" PFHL "d)", iParam, nDefValue ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_MAXINT ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_MAXINT ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( HB_MAXINT ) ( HB_MAXUINT ) pItem->item.asDouble.value; #else return ( HB_MAXINT ) pItem->item.asDouble.value; #endif } return nDefValue; } void * hb_parptr( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parptr(%d)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_POINTER( pItem ) ) return pItem->item.asPointer.value; } return NULL; } void * hb_parptrGC( const HB_GC_FUNCS * pFuncs, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parptrGC(%p,%d)", pFuncs, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_POINTER( pItem ) && pItem->item.asPointer.collect && hb_gcFuncs( pItem->item.asPointer.value ) == pFuncs ) return pItem->item.asPointer.value; } return NULL; } /* NOTE: Caller should not modify the buffer returned by this function. [vszakats] */ const char * hb_parvc( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvc(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.value; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); pItem = hb_arrayGetItemPtr( pItem, nArrayIndex ); return pItem && HB_IS_STRING( pItem ) ? hb_itemGetCPtr( pItem ) : NULL; } } return NULL; } const char * hb_parvcx( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvcx(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.value; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetCPtr( pItem, nArrayIndex ); } } return ""; } HB_SIZE hb_parvclen( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvclen(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.length; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetCLen( pItem, nArrayIndex ); } } return 0; } /* NOTE: Similar to _parclen() but returns the length including the terminating zero byte, and it only works for parameters passed by reference. [vszakats] */ HB_SIZE hb_parvcsiz( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvcsiz(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); /* NOTE: hb_parvcsiz() will only work for strings passed by reference. CA-Cl*pper works like this. [vszakats] */ if( HB_IS_BYREF( pItem ) ) { pItem = hb_itemUnRef( pItem ); if( HB_IS_STRING( pItem ) ) return pItem->item.asString.length + 1; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetCLen( pItem, nArrayIndex ) + 1; } } } return 0; } /* NOTE: Using hb_stackDateBuffer() a temporary date buffer guaranties good behavior when multithreading. */ const char * hb_parvds( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvds(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_dateDecStr( hb_stackDateBuffer(), pItem->item.asDateTime.julian ); else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetDS( pItem, nArrayIndex, hb_stackDateBuffer() ); } } return hb_dateDecStr( hb_stackDateBuffer(), 0 ); } /* NOTE: szDate must be a 9 chars wide buffer. [vszakats] */ char * hb_parvdsbuff( char * szDate, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvdsbuff(%p, %d, ...)", szDate, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_dateDecStr( szDate, pItem->item.asDateTime.julian ); else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetDS( pItem, nArrayIndex, szDate ); } } return hb_dateDecStr( szDate, 0 ); } /* retrieve a date as long integer - number of days from Julian's day */ long hb_parvdl( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvdl(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return pItem->item.asDateTime.julian; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetDL( pItem, nArrayIndex ); } } return hb_itemGetDL( NULL ); } double hb_parvtd( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvtd(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) return hb_timeStampPackDT( pItem->item.asDateTime.julian, pItem->item.asDateTime.time ); else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetTD( pItem, nArrayIndex ); } } return 0; } HB_BOOL hb_parvtdt( long * plJulian, long * plMilliSec, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvtdt(%p,%p,%d, ...)", plJulian, plMilliSec, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DATETIME( pItem ) ) { *plJulian = pItem->item.asDateTime.julian; *plMilliSec = pItem->item.asDateTime.time; return HB_TRUE; } else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetTDT( pItem, nArrayIndex, plJulian, plMilliSec ); } } return HB_FALSE; } int hb_parvl( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvl(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LOGICAL( pItem ) ) return pItem->item.asLogical.value ? 1 : 0; else if( HB_IS_INTEGER( pItem ) ) return pItem->item.asInteger.value != 0 ? 1 : 0; else if( HB_IS_LONG( pItem ) ) return pItem->item.asLong.value != 0 ? 1 : 0; else if( HB_IS_DOUBLE( pItem ) ) return pItem->item.asDouble.value != 0.0 ? 1 : 0; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetL( pItem, nArrayIndex ) ? 1 : 0; } } return 0; } double hb_parvnd( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvnd(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_DOUBLE( pItem ) ) return pItem->item.asDouble.value; else if( HB_IS_INTEGER( pItem ) ) return ( double ) pItem->item.asInteger.value; else if( HB_IS_LONG( pItem ) ) return ( double ) pItem->item.asLong.value; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetND( pItem, nArrayIndex ); } } return 0; } int hb_parvni( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvni(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_INTEGER( pItem ) ) return pItem->item.asInteger.value; else if( HB_IS_LONG( pItem ) ) return ( int ) pItem->item.asLong.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( int ) ( unsigned int ) pItem->item.asDouble.value; #else return ( int ) pItem->item.asDouble.value; #endif else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetNI( pItem, nArrayIndex ); } } return 0; } long hb_parvnl( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvnl(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( long ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( long ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( long ) ( unsigned long ) pItem->item.asDouble.value; #else return ( long ) pItem->item.asDouble.value; #endif /* CA-Cl*pper does it */ else if( HB_IS_DATETIME( pItem ) ) return ( long ) pItem->item.asDateTime.julian; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetNL( pItem, nArrayIndex ); } } return 0; } HB_ISIZ hb_parvns( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvns(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_ISIZ ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_ISIZ ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) return ( HB_ISIZ ) pItem->item.asDouble.value; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetNS( pItem, nArrayIndex ); } } return 0; } #ifndef HB_LONG_LONG_OFF HB_LONGLONG hb_parvnll( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvnll(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_LONGLONG ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_LONGLONG ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( HB_LONGLONG ) ( HB_ULONGLONG ) pItem->item.asDouble.value; #else return ( HB_LONGLONG ) pItem->item.asDouble.value; #endif else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetNLL( pItem, nArrayIndex ); } } return 0; } #endif HB_MAXINT hb_parvnint( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvnint(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_LONG( pItem ) ) return ( HB_MAXINT ) pItem->item.asLong.value; else if( HB_IS_INTEGER( pItem ) ) return ( HB_MAXINT ) pItem->item.asInteger.value; else if( HB_IS_DOUBLE( pItem ) ) #if defined( __GNUC__ ) return ( HB_MAXINT ) ( HB_MAXUINT ) pItem->item.asDouble.value; #else return ( HB_MAXINT ) pItem->item.asDouble.value; #endif else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetNInt( pItem, nArrayIndex ); } } return 0; } void * hb_parvptr( int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvptr(%d, ...)", iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_POINTER( pItem ) ) return pItem->item.asPointer.value; else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); return hb_arrayGetPtr( pItem, nArrayIndex ); } } return NULL; } void * hb_parvptrGC( const HB_GC_FUNCS * pFuncs, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_parvptrGC(%p,%d, ...)", pFuncs, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) pItem = hb_itemUnRef( pItem ); if( HB_IS_POINTER( pItem ) ) { if( pItem->item.asPointer.collect && hb_gcFuncs( pItem->item.asPointer.value ) == pFuncs ) return pItem->item.asPointer.value; } else if( HB_IS_ARRAY( pItem ) ) { va_list va; HB_SIZE nArrayIndex; va_start( va, iParam ); nArrayIndex = va_arg( va, HB_SIZE ); va_end( va ); pItem = hb_arrayGetItemPtr( pItem, nArrayIndex ); if( pItem && HB_IS_POINTER( pItem ) && pItem->item.asPointer.collect && hb_gcFuncs( pItem->item.asPointer.value ) == pFuncs ) return pItem->item.asPointer.value; } } return NULL; } #undef hb_ret void hb_ret( void ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_ret()" ) ); hb_itemClear( hb_stackReturnItem() ); } #undef hb_reta void hb_reta( HB_SIZE nLen ) /* undocumented hb_reta() */ { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_reta(%" HB_PFS "u)", nLen ) ); hb_arrayNew( hb_stackReturnItem(), nLen ); } #undef hb_retc void hb_retc( const char * szText ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retc(%s)", szText ) ); hb_itemPutC( hb_stackReturnItem(), szText ); } #undef hb_retc_null void hb_retc_null( void ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retc_null()" ) ); hb_itemPutC( hb_stackReturnItem(), NULL ); } #undef hb_retc_buffer void hb_retc_buffer( char * szText ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retc_buffer(%s)", szText ) ); hb_itemPutCPtr( hb_stackReturnItem(), szText ); } #undef hb_retc_const void hb_retc_const( const char * szText ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retc_const(%s)", szText ) ); hb_itemPutCConst( hb_stackReturnItem(), szText ); } #undef hb_retclen void hb_retclen( const char * szText, HB_SIZE nLen ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retclen(%.*s, %" HB_PFS "u)", ( int ) nLen, szText, nLen ) ); hb_itemPutCL( hb_stackReturnItem(), szText, nLen ); } #undef hb_retclen_buffer void hb_retclen_buffer( char * szText, HB_SIZE nLen ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retclen_buffer(%.*s, %" HB_PFS "u)", ( int ) nLen, szText, nLen ) ); hb_itemPutCLPtr( hb_stackReturnItem(), szText, nLen ); } #undef hb_retclen_const void hb_retclen_const( const char * szText, HB_SIZE nLen ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retclen_const(%.*s, %" HB_PFS "u)", ( int ) nLen, szText, nLen ) ); hb_itemPutCLConst( hb_stackReturnItem(), szText, nLen ); } /* szDate must have YYYYMMDD format */ #undef hb_retds void hb_retds( const char * szDate ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retds(%s)", szDate ) ); hb_itemPutDS( hb_stackReturnItem(), szDate ); } #undef hb_retd void hb_retd( int iYear, int iMonth, int iDay ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retd(%04i, %02i, %02i)", iYear, iMonth, iDay ) ); hb_itemPutD( hb_stackReturnItem(), iYear, iMonth, iDay ); } #undef hb_retdl void hb_retdl( long lJulian ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retdl(%ld)", lJulian ) ); hb_itemPutDL( hb_stackReturnItem(), lJulian ); } #undef hb_rettd void hb_rettd( double dTimeStamp ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_rettd(%lf)", dTimeStamp ) ); hb_itemPutTD( hb_stackReturnItem(), dTimeStamp ); } #undef hb_rettdt void hb_rettdt( long lJulian, long lMilliSec ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_rettdt(%ld, %ld)", lJulian, lMilliSec ) ); hb_itemPutTDT( hb_stackReturnItem(), lJulian, lMilliSec ); } #undef hb_retl void hb_retl( int iLogical ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retl(%d)", iLogical ) ); hb_itemPutL( hb_stackReturnItem(), iLogical ? HB_TRUE : HB_FALSE ); } #undef hb_retnd void hb_retnd( double dNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnd(%lf)", dNumber ) ); hb_itemPutND( hb_stackReturnItem(), dNumber ); } #undef hb_retni void hb_retni( int iNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retni(%d)", iNumber ) ); hb_itemPutNI( hb_stackReturnItem(), iNumber ); } #undef hb_retnl void hb_retnl( long lNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnl(%ld)", lNumber ) ); hb_itemPutNL( hb_stackReturnItem(), lNumber ); } #undef hb_retns void hb_retns( HB_ISIZ nNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retns(%" HB_PFS "d )", nNumber ) ); hb_itemPutNS( hb_stackReturnItem(), nNumber ); } #ifndef HB_LONG_LONG_OFF #undef hb_retnll void hb_retnll( HB_LONGLONG llNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnll(%" PFLL "d)", llNumber ) ); hb_itemPutNLL( hb_stackReturnItem(), llNumber ); } #endif #undef hb_retnint void hb_retnint( HB_MAXINT nNumber ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnl(%" PFHL "d )", nNumber ) ); hb_itemPutNInt( hb_stackReturnItem(), nNumber ); } #undef hb_retnlen void hb_retnlen( double dNumber, int iWidth, int iDec ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnlen(%lf, %d, %d)", dNumber, iWidth, iDec ) ); hb_itemPutNLen( hb_stackReturnItem(), dNumber, iWidth, iDec ); } #undef hb_retndlen void hb_retndlen( double dNumber, int iWidth, int iDec ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retndlen(%lf, %d, %d)", dNumber, iWidth, iDec ) ); hb_itemPutNDLen( hb_stackReturnItem(), dNumber, iWidth, iDec ); } #undef hb_retnilen void hb_retnilen( int iNumber, int iWidth ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnilen(%d, %d)", iNumber, iWidth ) ); hb_itemPutNILen( hb_stackReturnItem(), iNumber, iWidth ); } #undef hb_retnllen void hb_retnllen( long lNumber, int iWidth ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnllen(%ld, %d)", lNumber, iWidth ) ); hb_itemPutNLLen( hb_stackReturnItem(), lNumber, iWidth ); } #ifndef HB_LONG_LONG_OFF #undef hb_retnlllen void hb_retnlllen( HB_LONGLONG llNumber, int iWidth ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnlllen(%" PFLL "d, %d)", llNumber, iWidth ) ); hb_itemPutNLLLen( hb_stackReturnItem(), llNumber, iWidth ); } #endif #undef hb_retnintlen void hb_retnintlen( HB_MAXINT nNumber, int iWidth ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retnintlen(%" PFHL "d, %d)", nNumber, iWidth ) ); hb_itemPutNIntLen( hb_stackReturnItem(), nNumber, iWidth ); } #undef hb_retptr void hb_retptr( void * pointer ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retptr(%p)", pointer ) ); hb_itemPutPtr( hb_stackReturnItem(), pointer ); } #undef hb_retptrGC void hb_retptrGC( void * pointer ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_retptrGC(%p)", pointer ) ); hb_itemPutPtrGC( hb_stackReturnItem(), pointer ); } int hb_stor( int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stor(%d)", iParam ) ); if( iParam == -1 ) { hb_itemClear( hb_stackReturnItem() ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemClear( hb_itemUnRef( pItem ) ); return 1; } } return 0; } int hb_storc( const char * szText, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storc(%s, %d)", szText, iParam ) ); if( iParam == -1 ) { hb_itemPutC( hb_stackReturnItem(), szText ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutC( hb_itemUnRef( pItem ), szText ); return 1; } } return 0; } int hb_storclen( const char * szText, HB_SIZE nLen, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storclen(%.*s, %" HB_PFS "u, %d)", ( int ) nLen, szText, nLen, iParam ) ); if( iParam == -1 ) { hb_itemPutCL( hb_stackReturnItem(), szText, nLen ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutCL( hb_itemUnRef( pItem ), szText, nLen ); return 1; } } return 0; } int hb_storclen_buffer( char * szText, HB_SIZE nLen, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storclen_buffer(%.*s, %" HB_PFS "u, %d)", ( int ) nLen, szText, nLen, iParam ) ); if( iParam == -1 ) { hb_itemPutCLPtr( hb_stackReturnItem(), szText, nLen ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutCLPtr( hb_itemUnRef( pItem ), szText, nLen ); return 1; } } return 0; } /* szDate must have YYYYMMDD format */ int hb_stords( const char * szDate, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stords(%s, %d)", szDate, iParam ) ); if( iParam == -1 ) { hb_itemPutDS( hb_stackReturnItem(), szDate ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutDS( hb_itemUnRef( pItem ), szDate ); return 1; } } return 0; } int hb_stordl( long lJulian, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stordl(%ld, %d)", lJulian, iParam ) ); if( iParam == -1 ) { hb_itemPutDL( hb_stackReturnItem(), lJulian ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutDL( hb_itemUnRef( pItem ), lJulian ); return 1; } } return 0; } int hb_stortd( double dTimeStamp, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stortd(%lf, %d)", dTimeStamp, iParam ) ); if( iParam == -1 ) { hb_itemPutTD( hb_stackReturnItem(), dTimeStamp ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutTD( hb_itemUnRef( pItem ), dTimeStamp ); return 1; } } return 0; } int hb_stortdt( long lJulian, long lMilliSec, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stortd(%ld, %ld, %d)", lJulian, lMilliSec, iParam ) ); if( iParam == -1 ) { hb_itemPutTDT( hb_stackReturnItem(), lJulian, lMilliSec ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutTDT( hb_itemUnRef( pItem ), lJulian, lMilliSec ); return 1; } } return 0; } int hb_storl( int iLogical, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storl(%d, %d)", iLogical, iParam ) ); if( iParam == -1 ) { hb_itemPutL( hb_stackReturnItem(), iLogical ? HB_TRUE : HB_FALSE ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutL( hb_itemUnRef( pItem ), iLogical ? HB_TRUE : HB_FALSE ); return 1; } } return 0; } int hb_storni( int iValue, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storni(%d, %d)", iValue, iParam ) ); if( iParam == -1 ) { hb_itemPutNI( hb_stackReturnItem(), iValue ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutNI( hb_itemUnRef( pItem ), iValue ); return 1; } } return 0; } int hb_stornl( long lValue, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stornl(%ld, %d)", lValue, iParam ) ); if( iParam == -1 ) { hb_itemPutNL( hb_stackReturnItem(), lValue ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutNL( hb_itemUnRef( pItem ), lValue ); return 1; } } return 0; } int hb_storns( HB_ISIZ nValue, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storns(%" HB_PFS "d, %d)", nValue, iParam ) ); if( iParam == -1 ) { hb_itemPutNS( hb_stackReturnItem(), nValue ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutNS( hb_itemUnRef( pItem ), nValue ); return 1; } } return 0; } #ifndef HB_LONG_LONG_OFF int hb_stornll( HB_LONGLONG llValue, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stornll(%" PFLL "d, %d)", llValue, iParam ) ); if( iParam == -1 ) { hb_itemPutNLL( hb_stackReturnItem(), llValue ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutNLL( hb_itemUnRef( pItem ), llValue ); return 1; } } return 0; } #endif int hb_stornint( HB_MAXINT nValue, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stornint(%" PFHL "d, %d)", nValue, iParam ) ); if( iParam == -1 ) { hb_itemPutNInt( hb_stackReturnItem(), nValue ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutNInt( hb_itemUnRef( pItem ), nValue ); return 1; } } return 0; } int hb_stornd( double dNumber, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_stornd(%lf, %d)", dNumber, iParam ) ); if( iParam == -1 ) { hb_itemPutND( hb_stackReturnItem(), dNumber ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutND( hb_itemUnRef( pItem ), dNumber ); return 1; } } return 0; } int hb_storptr( void * pointer, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storptr(%p, %d)", pointer, iParam ) ); if( iParam == -1 ) { hb_itemPutPtr( hb_stackReturnItem(), pointer ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutPtr( hb_itemUnRef( pItem ), pointer ); return 1; } } return 0; } int hb_storptrGC( void * pointer, int iParam ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storptrGC(%p, %d)", pointer, iParam ) ); if( iParam == -1 ) { hb_itemPutPtrGC( hb_stackReturnItem(), pointer ); return 1; } else if( iParam >= 0 && iParam <= hb_pcount() ) { PHB_ITEM pItem = hb_stackItemFromBase( iParam ); if( HB_IS_BYREF( pItem ) ) { hb_itemPutPtrGC( hb_itemUnRef( pItem ), pointer ); return 1; } } return 0; } /* hb_storv*() similar to hb_stor*() but they accepts optional array index * just like Cl*pper's _stor*() functions */ int hb_storvc( const char * szText, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvc(%s, %d, ...)", szText, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetC( pItem, va_arg( va, HB_SIZE ), szText ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutC( pItem, szText ); return 1; } } return 0; } int hb_storvclen( const char * szText, HB_SIZE nLen, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvclen(%.*s, %" HB_PFS "u, %d, ...)", ( int ) nLen, szText, nLen, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetCL( pItem, va_arg( va, HB_SIZE ), szText, nLen ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutCL( pItem, szText, nLen ); return 1; } } return 0; } int hb_storvclen_buffer( char * szText, HB_SIZE nLen, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvclen_buffer(%.*s, %" HB_PFS "u, %d, ...)", ( int ) nLen, szText, nLen, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetCLPtr( pItem, va_arg( va, HB_SIZE ), szText, nLen ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutCLPtr( pItem, szText, nLen ); return 1; } } return 0; } /* szDate must have YYYYMMDD format */ int hb_storvds( const char * szDate, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvds(%s, %d, ...)", szDate, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetDS( pItem, va_arg( va, HB_SIZE ), szDate ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutDS( pItem, szDate ); return 1; } } return 0; } int hb_storvdl( long lJulian, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvdl(%ld, %d, ...)", lJulian, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetDL( pItem, va_arg( va, HB_SIZE ), lJulian ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutDL( pItem, lJulian ); return 1; } } return 0; } int hb_storvtd( double dTimeStamp, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvtd(%lf, %d, ...)", dTimeStamp, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetTD( pItem, va_arg( va, HB_SIZE ), dTimeStamp ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutTD( pItem, dTimeStamp ); return 1; } } return 0; } int hb_storvtdt( long lJulian, long lMilliSec, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvtd(%ld, %ld, %d, ...)", lJulian, lMilliSec, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetTDT( pItem, va_arg( va, HB_SIZE ), lJulian, lMilliSec ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutTDT( pItem, lJulian, lMilliSec ); return 1; } } return 0; } int hb_storvl( int iLogical, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvl(%d, %d, ...)", iLogical, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetL( pItem, va_arg( va, HB_SIZE ), iLogical ? HB_TRUE : HB_FALSE ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutL( pItem, iLogical ? HB_TRUE : HB_FALSE ); return 1; } } return 0; } int hb_storvni( int iValue, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvni(%d, %d, ...)", iValue, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetNI( pItem, va_arg( va, HB_SIZE ), iValue ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutNI( pItem, iValue ); return 1; } } return 0; } int hb_storvnl( long lValue, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvnl(%ld, %d, ...)", lValue, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetNL( pItem, va_arg( va, HB_SIZE ), lValue ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutNL( pItem, lValue ); return 1; } } return 0; } int hb_storvns( HB_ISIZ nValue, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvns(%" HB_PFS "d, %d, ...)", nValue, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetNS( pItem, va_arg( va, HB_SIZE ), nValue ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutNS( pItem, nValue ); return 1; } } return 0; } #ifndef HB_LONG_LONG_OFF int hb_storvnll( HB_LONGLONG llValue, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvnll(%" PFLL "d, %d, ...)", llValue, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetNLL( pItem, va_arg( va, HB_SIZE ), llValue ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutNLL( pItem, llValue ); return 1; } } return 0; } #endif int hb_storvnint( HB_MAXINT nValue, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvnint(%" PFHL "d, %d, ...)", nValue, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetNInt( pItem, va_arg( va, HB_SIZE ), nValue ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutNInt( pItem, nValue ); return 1; } } return 0; } int hb_storvnd( double dNumber, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvnd(%lf, %d, ...)", dNumber, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetND( pItem, va_arg( va, HB_SIZE ), dNumber ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutND( pItem, dNumber ); return 1; } } return 0; } int hb_storvptr( void * pointer, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvptr(%p, %d, ...)", pointer, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetPtr( pItem, va_arg( va, HB_SIZE ), pointer ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutPtr( pItem, pointer ); return 1; } } return 0; } int hb_storvptrGC( void * pointer, int iParam, ... ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_storvptrGC(%p, %d, ...)", pointer, iParam ) ); if( iParam >= -1 && iParam <= hb_pcount() ) { PHB_ITEM pItem = ( iParam == -1 ) ? hb_stackReturnItem() : hb_stackItemFromBase( iParam ); HB_BOOL bByRef = HB_IS_BYREF( pItem ); if( bByRef ) pItem = hb_itemUnRef( pItem ); if( HB_IS_ARRAY( pItem ) ) { int iRetVal; va_list va; va_start( va, iParam ); iRetVal = hb_arraySetPtrGC( pItem, va_arg( va, HB_SIZE ), pointer ) ? 1 : 0; va_end( va ); return iRetVal; } else if( bByRef || iParam == -1 ) { hb_itemPutPtrGC( pItem, pointer ); return 1; } } return 0; } #undef hb_pcount int hb_pcount( void ) { HB_STACK_TLS_PRELOAD HB_TRACE( HB_TR_DEBUG, ( "hb_pcount()" ) ); return ( int ) ( hb_stackBaseItem() )->item.asSymbol.paramcnt; }