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d6c2e99434ef587cd6500f3b0f7fbb07e1b56a4e
harbour-core/harbour/source/vm/itemapi.c
Viktor Szakats 1e894d019e 2009-02-06 18:46 UTC+0100 Viktor Szakats (harbour.01 syenar hu) 
* include/hbdefs.h
    + Added HB_ISALNUM() macro.

  * include/hbpp.h
  * include/hbapicdp.h
  * contrib/hbct/pos1.c
  * contrib/hbct/ascpos.c
  * contrib/xhb/hbxml.c
  * contrib/hbtip/utils.c
  * contrib/examples/pp/hbppcore.c
  * source/vm/itemapi.c
  * source/vm/memvars.c
  * source/vm/set.c
  * source/vm/classes.c
  * source/debug/dbgentry.c
  * source/common/hbstr.c
  * source/common/expropt2.c
  * source/rtl/strcase.c
  * source/rtl/cdpapi.c
  * source/rtl/is.c
  * source/rtl/transfrm.c
  * source/rtl/dates.c
  * source/rtl/natmsg.c
  * source/rtl/soundex.c
  * source/rtl/hbffind.c
  * source/rdd/workarea.c
  * source/compiler/hbmain.c
  * source/compiler/harbour.yyc
  * source/compiler/harbour.y
    * Replaced:
      isdigit() -> HB_ISDIGIT()
      isalpha() -> HB_ISALPHA()
      isalnum() -> HB_ISALNUM()
      isupper() -> HB_ISUPPER()
      islower() -> HB_ISLOWER()
      tolower() -> HB_TOLOWER()
      toupper() -> HB_TOUPPER()

  * source/rtl/natmsg.c
    ! Fixed to use CP sensitive case conversion in
      __NATISNEGATIVE() and __NATISAFFIRM().

  * source/rtl/is.c
    ! Fixed typo in recently added hb_charIsUpper()/hb_charIsLower()
      functions.

  ; TODO: Remove DJGPP to*() hack.
  ; TODO: Replace HB_PP_UPPER(), HB_PP_ISDIGIT() with equivalent
          new macros.
  ; TOFIX: Some of the above macros should better be replaced
           by CP sensitive versions. F.e. the one in hbtip.
  ; TOFIX: Remove remaining #include <ctype.h> lines.
2009-02-06 17:47:46 +00:00

2590 lines
66 KiB
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/*
* $Id$
*/
/*
* Harbour Project source code:
* The Item API
*
* Copyright 1999 Antonio Linares <alinares@fivetech.com>
* www - http://www.harbour-project.org
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this software; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/).
*
* As a special exception, the Harbour Project gives permission for
* additional uses of the text contained in its release of Harbour.
*
* The exception is that, if you link the Harbour libraries with other
* files to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the Harbour library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the Harbour
* Project under the name Harbour. If you copy code from other
* Harbour Project or Free Software Foundation releases into a copy of
* Harbour, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for Harbour, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*
*/
/*
* The following parts are Copyright of the individual authors.
* www - http://www.harbour-project.org
*
* Copyright 1999-2007 Viktor Szakats <viktor.szakats@syenar.hu>
* hb_itemPCount()
* hb_itemParamPtr()
* hb_itemReturnPtr()
* hb_itemPutDL()
* hb_itemPutNI()
* hb_itemGetDL()
* hb_itemGetNI()
* hb_itemGetCPtr()
* hb_itemGetCLen()
* hb_itemGetNLen()
* hb_itemPutCConst()
* hb_itemPutCLConst()
* hb_itemPutNLen()
* hb_itemPutNDLen()
* hb_itemPutNILen()
* hb_itemPutNLLen()
* hb_itemPutD()
* hb_itemSetCMemo()
*
* Copyright 1999 Eddie Runia <eddie@runia.com>
* hb_itemStrCmp()
*
* Copyright 1999 David G. Holm <dholm@jsd-llc.com>
* hb_itemStr(), hb_itemString(), and hb_itemValToStr().
*
* See doc/license.txt for licensing terms.
*
*/
#if !defined(__DJGPP__)
# include <math.h> /* For log() */
#endif
#if defined(_MSC_VER) || defined(__IBMCPP__) || (__BORLANDC__ > 1040) || defined(__WATCOMC__) /* Use this only above Borland C++ 3.1 */
# include <float.h> /* for _finite() and _isnan() */
#endif
#include "hbvmopt.h"
#include "hbapi.h"
#include "hbvm.h"
#include "hbstack.h"
#include "hbapicls.h"
#include "hbapiitm.h"
#include "hbapilng.h"
#include "hbapierr.h"
#include "hbdate.h"
#include "hbset.h"
#include "hbmath.h"
#include "hbapicdp.h"
#if defined(HB_OS_SUNOS)
# include <ieeefp.h>
#endif
PHB_ITEM hb_itemNew( PHB_ITEM pNull )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemNew(%p)", pNull));
return hb_gcGripGet( pNull );
}
PHB_ITEM hb_itemParam( USHORT uiParam )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemParam(%hu)", uiParam));
return hb_itemNew( hb_param( uiParam, HB_IT_ANY ) );
}
/* Internal Item API. Use this with care. */
PHB_ITEM hb_itemParamPtr( USHORT uiParam, long lMask )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemParamPtr(%hu, %ld)", uiParam, lMask));
return hb_param( ( int ) uiParam, lMask );
}
BOOL hb_itemParamStore( USHORT uiParam, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemParamStore(%hu, %p)", uiParam, pItem));
if( hb_param( uiParam, HB_IT_BYREF ) )
{
hb_itemCopyToRef( hb_stackItemFromBase( uiParam ), pItem );
return TRUE;
}
return FALSE;
}
BOOL hb_itemParamStoreForward( USHORT uiParam, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemParamStoreForward(%hu, %p)", uiParam, pItem));
if( hb_param( uiParam, HB_IT_BYREF ) )
{
hb_itemMoveToRef( hb_stackItemFromBase( uiParam ), pItem );
return TRUE;
}
return FALSE;
}
USHORT hb_itemPCount( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPCount()"));
return ( USHORT ) hb_pcount();
}
BOOL hb_itemRelease( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemRelease(%p)", pItem));
if( pItem )
{
hb_gcGripDrop( pItem );
return TRUE;
}
else
return FALSE;
}
PHB_ITEM hb_itemArrayNew( ULONG ulLen )
{
PHB_ITEM pItem;
HB_TRACE(HB_TR_DEBUG, ("hb_itemArrayNew(%lu)", ulLen));
pItem = hb_itemNew( NULL );
hb_arrayNew( pItem, ulLen );
return pItem;
}
PHB_ITEM hb_itemArrayGet( PHB_ITEM pArray, ULONG ulIndex )
{
PHB_ITEM pItem;
HB_TRACE(HB_TR_DEBUG, ("hb_itemArrayGet(%p, %lu)", pArray, ulIndex));
pItem = hb_itemNew( NULL );
if( pArray )
hb_arrayGet( pArray, ulIndex, pItem );
return pItem;
}
PHB_ITEM hb_itemArrayPut( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemArrayPut(%p, %lu, %p)", pArray, ulIndex, pItem));
if( pArray )
hb_arraySet( pArray, ulIndex, pItem );
return pArray;
}
PHB_ITEM hb_itemPutC( PHB_ITEM pItem, const char * szText )
{
ULONG ulLen, ulAlloc;
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutC(%p, %s)", pItem, szText));
ulLen = szText ? strlen( szText ) : 0;
if( ulLen > 1 )
{
ulAlloc = ulLen + 1;
szText = ( char * ) hb_xmemcpy( hb_xgrab( ulAlloc ), szText, ulAlloc );
}
else
{
ulAlloc = 0;
szText = ( char * ) ( ulLen ? hb_szAscii[ ( unsigned char ) ( szText[ 0 ] ) ] : "" );
}
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_STRING;
pItem->item.asString.value = ( char * ) szText;
pItem->item.asString.length = ulLen;
pItem->item.asString.allocated = ulAlloc;
return pItem;
}
PHB_ITEM hb_itemPutCL( PHB_ITEM pItem, const char * szText, ULONG ulLen )
{
ULONG ulAlloc;
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutCL(%p, %s, %lu)", pItem, szText, ulLen));
if( ulLen > 1 )
{
ulAlloc = ulLen + 1;
szText = ( char * ) hb_xmemcpy( hb_xgrab( ulAlloc ), szText, ulLen );
( ( char * ) szText )[ ulLen ] = '\0';
}
else
{
ulAlloc = 0;
szText = ( char * ) ( ulLen ? hb_szAscii[ ( unsigned char ) ( szText[ 0 ] ) ] : "" );
}
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
/* NOTE: CA-Cl*pper seems to be buggy here, it will return ulLen bytes of
trash if the szText buffer is NULL, at least with hb_retclen().
[vszakats] */
pItem->type = HB_IT_STRING;
pItem->item.asString.value = ( char * ) szText;
pItem->item.asString.length = ulLen;
pItem->item.asString.allocated = ulAlloc;
return pItem;
}
PHB_ITEM hb_itemPutCConst( PHB_ITEM pItem, const char * szText )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutCConst(%p, %s)", pItem, szText));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_STRING;
pItem->item.asString.allocated = 0;
if( szText == NULL )
{
pItem->item.asString.value = ( char * ) "";
pItem->item.asString.length = 0;
}
else
{
pItem->item.asString.value = ( char * ) szText;
pItem->item.asString.length = strlen( szText );
}
return pItem;
}
PHB_ITEM hb_itemPutCLConst( PHB_ITEM pItem, const char * szText, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutCConst(%p, %s, %lu)", pItem, szText, ulLen));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
if( szText == NULL )
{
pItem->item.asString.value = ( char * ) "";
pItem->item.asString.length = 0;
}
else
{
if( szText[ ulLen ] != '\0' )
hb_errInternal( 6003, "Internal error: hb_itemPutCLConst() missing termination character", NULL, NULL );
pItem->item.asString.value = ( char * ) szText;
pItem->item.asString.length = ulLen;
}
pItem->type = HB_IT_STRING;
pItem->item.asString.allocated = 0;
return pItem;
}
PHB_ITEM hb_itemPutCPtr2( PHB_ITEM pItem, char * szText )
{
ULONG ulLen;
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutCPtr2(%p, %s)", pItem, szText));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
ulLen = szText ? strlen( szText ) : 0;
pItem->type = HB_IT_STRING;
pItem->item.asString.length = ulLen;
if( ulLen == 0 )
{
pItem->item.asString.allocated = 0;
pItem->item.asString.value = ( char * ) "";
hb_xfree( szText );
}
else if( ulLen == 1 )
{
pItem->item.asString.allocated = 0;
pItem->item.asString.value = ( char * ) hb_szAscii[ ( unsigned char ) ( szText[ 0 ] ) ];
hb_xfree( szText );
}
else
{
szText[ ulLen ] = '\0';
pItem->item.asString.allocated = ulLen + 1;
pItem->item.asString.value = szText;
}
return pItem;
}
PHB_ITEM hb_itemPutCPtr( PHB_ITEM pItem, char * szText, ULONG ulLen )
{
return hb_itemPutCLPtr( pItem, szText, ulLen );
}
PHB_ITEM hb_itemPutCLPtr( PHB_ITEM pItem, char * szText, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutCLPtr(%p, %s, %lu)", pItem, szText, ulLen));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_STRING;
pItem->item.asString.length = ulLen;
if( ulLen == 0 )
{
pItem->item.asString.allocated = 0;
pItem->item.asString.value = ( char * ) "";
hb_xfree( szText );
}
else if( ulLen == 1 )
{
pItem->item.asString.allocated = 0;
pItem->item.asString.value = ( char * ) hb_szAscii[ ( unsigned char ) ( szText[ 0 ] ) ];
hb_xfree( szText );
}
else
{
szText[ ulLen ] = '\0';
pItem->item.asString.allocated = ulLen + 1;
pItem->item.asString.value = szText;
}
return pItem;
}
void hb_itemSetCMemo( PHB_ITEM pItem )
{
if( pItem && HB_IS_STRING( pItem ) )
pItem->type |= HB_IT_MEMOFLAG;
}
/* NOTE: The caller should free the pointer if it's not NULL. [vszakats] */
char * hb_itemGetC( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetC(%p)", pItem));
if( pItem && HB_IS_STRING( pItem ) )
{
char * szResult = ( char * ) hb_xgrab( pItem->item.asString.length + 1 );
hb_xmemcpy( szResult, pItem->item.asString.value, pItem->item.asString.length );
szResult[ pItem->item.asString.length ] = '\0';
return szResult;
}
else
return NULL;
}
/* NOTE: Caller should not modify the buffer returned by this function.
[vszakats] */
char * hb_itemGetCPtr( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetCPtr(%p)", pItem));
if( pItem && HB_IS_STRING( pItem ) )
return pItem->item.asString.value;
else
return ( char * ) "";
}
ULONG hb_itemGetCLen( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetCLen(%p)", pItem));
if( pItem && HB_IS_STRING( pItem ) )
return pItem->item.asString.length;
else
return 0;
}
ULONG hb_itemCopyC( PHB_ITEM pItem, char * szBuffer, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemCopyC(%p, %s, %lu)", pItem, szBuffer, ulLen));
if( pItem && HB_IS_STRING( pItem ) )
{
if( ulLen == 0 || ulLen > pItem->item.asString.length )
ulLen = pItem->item.asString.length;
hb_xmemcpy( szBuffer, pItem->item.asString.value, ulLen );
return ulLen;
}
else
return 0;
}
BOOL hb_itemFreeC( char * szText )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemFreeC(%s)", szText));
if( szText )
{
hb_xfree( szText );
return TRUE;
}
else
return FALSE;
}
/* NOTE: Clipper is buggy and will not append a trailing zero, although
the NG says that it will. Check your buffers, since what may have
worked with Clipper could overrun the buffer with Harbour.
The correct buffer size is 9 bytes: char szDate[ 9 ]
[vszakats] */
char * hb_itemGetDS( PHB_ITEM pItem, char * szDate )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetDS(%p, %s)", pItem, szDate));
if( pItem && HB_IS_DATE( pItem ) )
return hb_dateDecStr( szDate, pItem->item.asDate.value );
else
return hb_dateDecStr( szDate, 0 );
}
long hb_itemGetDL( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetDL(%p)", pItem));
if( pItem && HB_IS_DATE( pItem ) )
return pItem->item.asDate.value;
else
return 0;
}
BOOL hb_itemGetL( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetL(%p)", pItem));
if( pItem )
{
if( HB_IS_LOGICAL( pItem ) )
return pItem->item.asLogical.value;
else if( HB_IS_INTEGER( pItem ) )
return pItem->item.asInteger.value != 0;
else if( HB_IS_LONG( pItem ) )
return pItem->item.asLong.value != 0;
else if( HB_IS_DOUBLE( pItem ) )
return pItem->item.asDouble.value != 0.0;
}
return FALSE;
}
double hb_itemGetND( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetND(%p)", pItem));
if( 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_itemGetNI( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNI(%p)", pItem));
if( 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 ) )
return ( int ) pItem->item.asDouble.value;
}
return 0;
}
LONG hb_itemGetNL( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNL(%p)", pItem));
if( 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 ) )
#ifdef __GNUC__
return ( LONG ) ( ULONG ) pItem->item.asDouble.value;
#else
return ( LONG ) pItem->item.asDouble.value;
#endif
else if( HB_IS_DATE( pItem ) )
return ( LONG ) pItem->item.asDate.value;
}
return 0;
}
HB_LONG hb_itemGetNInt( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNL(%p)", pItem));
if( pItem )
{
if( HB_IS_LONG( pItem ) )
return ( HB_LONG ) pItem->item.asLong.value;
else if( HB_IS_INTEGER( pItem ) )
return ( HB_LONG ) pItem->item.asInteger.value;
else if( HB_IS_DOUBLE( pItem ) )
#ifdef __GNUC__
return ( HB_LONG ) ( HB_ULONG ) pItem->item.asDouble.value;
#else
return ( HB_LONG ) pItem->item.asDouble.value;
#endif
else if( HB_IS_DATE( pItem ) )
return ( LONG ) pItem->item.asDate.value;
}
return 0;
}
#ifndef HB_LONG_LONG_OFF
LONGLONG hb_itemGetNLL( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNL(%p)", pItem));
if( pItem )
{
if( HB_IS_LONG( pItem ) )
return ( LONGLONG ) pItem->item.asLong.value;
else if( HB_IS_INTEGER( pItem ) )
return ( LONGLONG ) pItem->item.asInteger.value;
else if( HB_IS_DOUBLE( pItem ) )
#ifdef __GNUC__
return ( LONGLONG ) ( ULONGLONG ) pItem->item.asDouble.value;
#else
return ( LONGLONG ) pItem->item.asDouble.value;
#endif
else if( HB_IS_DATE( pItem ) )
return ( LONGLONG ) pItem->item.asDate.value;
}
return 0;
}
#endif
void * hb_itemGetPtr( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetPtr(%p)", pItem));
if( pItem && HB_IS_POINTER( pItem ) )
return pItem->item.asPointer.value;
else
return NULL;
}
void * hb_itemGetPtrGC( PHB_ITEM pItem, HB_GARBAGE_FUNC_PTR pFunc )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetPtrGC(%p,%p)", pItem, pFunc));
if( pItem && HB_IS_POINTER( pItem ) &&
pItem->item.asPointer.collect &&
hb_gcFunc( pItem->item.asPointer.value ) == pFunc )
return pItem->item.asPointer.value;
else
return NULL;
}
PHB_SYMB hb_itemGetSymbol( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetSymbol(%p)", pItem));
if( pItem && HB_IS_SYMBOL( pItem ) )
return pItem->item.asSymbol.value;
else
return NULL;
}
PHB_ITEM hb_itemReturn( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemReturn(%p)", pItem));
if( pItem )
hb_itemCopy( hb_stackReturnItem(), pItem );
return pItem;
}
PHB_ITEM hb_itemReturnForward( PHB_ITEM pItem )
{
HB_TRACE_STEALTH( HB_TR_DEBUG, ("hb_itemReturnForward(%p)", pItem ) );
if( pItem )
hb_itemMove( hb_stackReturnItem(), pItem );
return pItem;
}
void hb_itemReturnRelease( PHB_ITEM pItem )
{
HB_TRACE_STEALTH( HB_TR_DEBUG, ("hb_itemReturnRelease(%p)", pItem ) );
if( pItem )
{
hb_itemMove( hb_stackReturnItem(), pItem );
hb_itemRelease( pItem );
}
}
PHB_ITEM hb_itemPutDS( PHB_ITEM pItem, const char * szDate )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutDS(%p, %s)", pItem, szDate));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_DATE;
pItem->item.asDate.value = hb_dateEncStr( szDate );
return pItem;
}
PHB_ITEM hb_itemPutD( PHB_ITEM pItem, int iYear, int iMonth, int iDay )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutD(%p, %04i, %02i, %02i)", pItem, iYear, iMonth, iDay));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_DATE;
pItem->item.asDate.value = hb_dateEncode( iYear, iMonth, iDay );
return pItem;
}
PHB_ITEM hb_itemPutDL( PHB_ITEM pItem, long lJulian )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutDL(%p, %ld)", pItem, lJulian));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_DATE;
pItem->item.asDate.value = lJulian;
return pItem;
}
PHB_ITEM hb_itemPutL( PHB_ITEM pItem, BOOL bValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutL(%p, %d)", pItem, (int) bValue));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_LOGICAL;
pItem->item.asLogical.value = bValue;
return pItem;
}
PHB_ITEM hb_itemPutND( PHB_ITEM pItem, double dNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutND(%p, %lf)", pItem, dNumber));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_DOUBLE;
pItem->item.asDouble.length = HB_DBL_LENGTH( dNumber );
pItem->item.asDouble.decimal = hb_stackSetStruct()->HB_SET_DECIMALS;
pItem->item.asDouble.value = dNumber;
return pItem;
}
PHB_ITEM hb_itemPutNI( PHB_ITEM pItem, int iNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNI(%p, %d)", pItem, iNumber));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_INTEGER;
pItem->item.asInteger.value = iNumber;
pItem->item.asInteger.length = HB_INT_LENGTH( iNumber );
return pItem;
}
PHB_ITEM hb_itemPutNL( PHB_ITEM pItem, LONG lNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNL(%p, %ld)", pItem, lNumber));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
#if HB_INT_MAX >= LONG_MAX
pItem->type = HB_IT_INTEGER;
pItem->item.asInteger.value = (int) lNumber;
pItem->item.asInteger.length = HB_INT_LENGTH( lNumber );
#else
pItem->type = HB_IT_LONG;
pItem->item.asLong.value = (HB_LONG) lNumber;
pItem->item.asLong.length = HB_LONG_LENGTH( lNumber );
#endif
return pItem;
}
#ifndef HB_LONG_LONG_OFF
PHB_ITEM hb_itemPutNLL( PHB_ITEM pItem, LONGLONG llNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNL(%p, %" PFLL "d)", pItem, llNumber));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
#if HB_LONG_MAX >= LONGLONG_MAX
pItem->type = HB_IT_LONG;
pItem->item.asLong.value = (HB_LONG) llNumber;
pItem->item.asLong.length = HB_LONG_LENGTH( llNumber );
#else
pItem->type = HB_IT_DOUBLE;
pItem->item.asDouble.value = ( double ) llNumber;
pItem->item.asDouble.length = HB_DBL_LENGTH( pItem->item.asDouble.value );
pItem->item.asDouble.decimal = 0;
#endif
return pItem;
}
#endif
PHB_ITEM hb_itemPutNInt( PHB_ITEM pItem, HB_LONG lNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNInt(%p, %" PFHL "d)", pItem, lNumber));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
if( HB_LIM_INT( lNumber ) )
{
pItem->type = HB_IT_INTEGER;
pItem->item.asInteger.value = ( int ) lNumber;
/* EXP limit used intentionally */
pItem->item.asInteger.length = HB_INT_EXPLENGTH( lNumber );
}
else
{
pItem->type = HB_IT_LONG;
pItem->item.asLong.value = lNumber;
pItem->item.asLong.length = HB_LONG_LENGTH( lNumber );
}
return pItem;
}
PHB_ITEM hb_itemPutNIntLen( PHB_ITEM pItem, HB_LONG lNumber, int iWidth )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNIntLen(%p, %" PFHL "d, %d)", pItem, lNumber, iWidth));
if( HB_LIM_INT( lNumber ) )
{
return hb_itemPutNILen( pItem, ( int ) lNumber, iWidth );
}
else
{
#ifdef HB_LONG_LONG_OFF
return hb_itemPutNLLen( pItem, ( long ) lNumber, iWidth );
#else
return hb_itemPutNLLLen( pItem, ( LONGLONG ) lNumber, iWidth );
#endif
}
}
PHB_ITEM hb_itemPutNLen( PHB_ITEM pItem, double dNumber, int iWidth, int iDec )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNLen(%p, %lf, %d, %d)", pItem, dNumber, iWidth, iDec));
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_DBL_LENGTH( dNumber );
if( iDec < 0 )
iDec = hb_stackSetStruct()->HB_SET_DECIMALS;
if( iDec == 0 )
{
HB_LONG lNumber = ( HB_LONG ) dNumber;
if( ( double ) lNumber == dNumber )
{
if( HB_LIM_INT( lNumber ) )
return hb_itemPutNILen( pItem, ( int ) lNumber, iWidth );
else
#ifdef HB_LONG_LONG_OFF
return hb_itemPutNLLen( pItem, ( long ) lNumber, iWidth );
#else
return hb_itemPutNLLLen( pItem, ( LONGLONG ) lNumber, iWidth );
#endif
}
}
return hb_itemPutNDLen( pItem, dNumber, iWidth, iDec );
}
PHB_ITEM hb_itemPutNDLen( PHB_ITEM pItem, double dNumber, int iWidth, int iDec )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNDLen(%p, %lf, %d, %d)", pItem, dNumber, iWidth, iDec));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
if( iWidth <= 0 || iWidth > 99 )
{
#if (__BORLANDC__ > 1040) /* Use this only above Borland C++ 3.1 */
/* Borland C compiled app crashes if a "NaN" double is compared
* with another double [martin vogel]
*/
if( _isnan( dNumber ) )
{
iWidth = 20;
}
else
#endif
iWidth = HB_DBL_LENGTH( dNumber );
}
if( iDec < 0 )
iDec = hb_stackSetStruct()->HB_SET_DECIMALS;
pItem->type = HB_IT_DOUBLE;
pItem->item.asDouble.length = iWidth;
pItem->item.asDouble.decimal = iDec;
pItem->item.asDouble.value = dNumber;
return pItem;
}
PHB_ITEM hb_itemPutNDDec( PHB_ITEM pItem, double dNumber, int iDec )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemPutNDDec(%p, %lf, %i)", pItem, dNumber, iDec));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_DOUBLE;
pItem->item.asDouble.length = HB_DBL_LENGTH( dNumber );
if( iDec == HB_DEFAULT_DECIMALS )
{
pItem->item.asDouble.decimal = hb_stackSetStruct()->HB_SET_DECIMALS;
}
else
{
pItem->item.asDouble.decimal = iDec;
}
pItem->item.asDouble.value = dNumber;
return pItem;
}
double hb_itemGetNDDec( PHB_ITEM pItem, int * piDec )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNDDec(%p,%p)", pItem, piDec));
if( HB_IS_INTEGER( pItem ) )
{
*piDec = 0;
return ( double ) pItem->item.asInteger.value;
}
else if( HB_IS_LONG( pItem ) )
{
*piDec = 0;
return ( double ) pItem->item.asLong.value;
}
else if( HB_IS_DOUBLE( pItem ) )
{
*piDec = pItem->item.asDouble.decimal;
return pItem->item.asDouble.value;
}
*piDec = 0;
return 0.0;
}
PHB_ITEM hb_itemPutNILen( PHB_ITEM pItem, int iNumber, int iWidth )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNILen(%p, %d, %d)", pItem, iNumber, iWidth));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_INT_LENGTH( iNumber );
pItem->type = HB_IT_INTEGER;
pItem->item.asInteger.length = iWidth;
pItem->item.asInteger.value = iNumber;
return pItem;
}
PHB_ITEM hb_itemPutNLLen( PHB_ITEM pItem, LONG lNumber, int iWidth )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNLLen(%p, %ld, %d)", pItem, lNumber, iWidth));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
#if HB_INT_MAX == LONG_MAX
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_INT_LENGTH( lNumber );
pItem->type = HB_IT_INTEGER;
pItem->item.asInteger.value = (int) lNumber;
pItem->item.asInteger.length = iWidth;
#else
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_LONG_LENGTH( lNumber );
pItem->type = HB_IT_LONG;
pItem->item.asLong.value = (HB_LONG) lNumber;
pItem->item.asLong.length = iWidth;
#endif
return pItem;
}
#ifndef HB_LONG_LONG_OFF
PHB_ITEM hb_itemPutNLLLen( PHB_ITEM pItem, LONGLONG llNumber, int iWidth )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNLLLen(%p, %" PFLL "d, %d)", pItem, llNumber, iWidth));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
#if HB_LONG_MAX >= LONGLONG_MAX
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_LONG_LENGTH( llNumber );
pItem->type = HB_IT_LONG;
pItem->item.asLong.value = ( HB_LONG ) llNumber;
pItem->item.asLong.length = iWidth;
#else
pItem->type = HB_IT_DOUBLE;
pItem->item.asDouble.value = ( double ) llNumber;
if( iWidth <= 0 || iWidth > 99 )
iWidth = HB_LONG_LENGTH( pItem->item.asDouble.value );
pItem->item.asDouble.length = iWidth;
pItem->item.asDouble.decimal = 0;
#endif
return pItem;
}
#endif
PHB_ITEM hb_itemPutNumType( PHB_ITEM pItem, double dNumber, int iDec, int iType1, int iType2 )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutNumType( %p, %lf, %d, %i, %i)", pItem, dNumber, iDec, iType1, iType2));
if( iDec || iType1 & HB_IT_DOUBLE || iType2 & HB_IT_DOUBLE )
{
return hb_itemPutNDDec( pItem, dNumber, iDec );
}
else if( HB_DBL_LIM_INT( dNumber ) )
{
return hb_itemPutNI( pItem, ( int ) dNumber );
}
else if( HB_DBL_LIM_LONG( dNumber ) )
{
#ifdef HB_LONG_LONG_OFF
return hb_itemPutNL( pItem, ( long ) dNumber );
#else
return hb_itemPutNLL( pItem, ( LONGLONG ) dNumber );
#endif
}
else
{
return hb_itemPutND( pItem, dNumber );
}
}
PHB_ITEM hb_itemPutPtr( PHB_ITEM pItem, void * pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutPtr(%p, %p)", pItem, pValue));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_POINTER;
pItem->item.asPointer.value = pValue;
pItem->item.asPointer.collect =
pItem->item.asPointer.single = FALSE;
return pItem;
}
PHB_ITEM hb_itemPutPtrGC( PHB_ITEM pItem, void * pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutPtrGC(%p, %p)", pItem, pValue));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_POINTER;
pItem->item.asPointer.value = pValue;
pItem->item.asPointer.collect = TRUE;
pItem->item.asPointer.single = FALSE;
return pItem;
}
PHB_ITEM hb_itemPutSymbol( PHB_ITEM pItem, PHB_SYMB pSym )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemPutSymbol(%p,%p)", pItem, pSym));
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
pItem->type = HB_IT_SYMBOL;
pItem->item.asSymbol.value = pSym;
pItem->item.asSymbol.stackstate = NULL;
pItem->item.asSymbol.paramcnt =
pItem->item.asSymbol.paramdeclcnt = 0;
return pItem;
}
void hb_itemGetNLen( PHB_ITEM pItem, int * piWidth, int * piDecimal )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemGetNLen(%p, %p, %p)", pItem, piWidth, piDecimal));
if( pItem )
{
if( HB_IS_DOUBLE( pItem ) )
{
if( piWidth ) *piWidth = ( int ) pItem->item.asDouble.length;
if( piDecimal ) *piDecimal = ( int ) pItem->item.asDouble.decimal;
}
else if( HB_IS_INTEGER( pItem ) )
{
if( piWidth ) *piWidth = ( int ) pItem->item.asInteger.length;
if( piDecimal ) *piDecimal = 0;
}
else if( HB_IS_LONG( pItem ) )
{
if( piWidth ) *piWidth = ( int ) pItem->item.asLong.length;
if( piDecimal ) *piDecimal = 0;
}
else
{
if( piWidth ) *piWidth = 0;
if( piDecimal ) *piDecimal = 0;
}
}
}
ULONG hb_itemSize( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemSize(%p)", pItem));
if( pItem )
{
if( HB_IS_STRING( pItem ) )
return pItem->item.asString.length;
else if( HB_IS_ARRAY( pItem ) )
return hb_arrayLen( pItem );
else if( HB_IS_HASH( pItem ) )
return hb_hashLen( pItem );
}
return 0;
}
HB_TYPE hb_itemType( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemType(%p)", pItem));
if( pItem )
return ( HB_TYPE ) HB_ITEM_TYPE( pItem );
else
return HB_IT_NIL;
}
char * hb_itemTypeStr( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemTypeStr(%p)", pItem));
switch( HB_ITEM_TYPE( pItem ) )
{
case HB_IT_ARRAY:
return ( char * ) ( hb_arrayIsObject( pItem ) ? "O" : "A" );
case HB_IT_BLOCK:
return ( char * ) "B";
case HB_IT_DATE:
return ( char * ) "D";
case HB_IT_LOGICAL:
return ( char * ) "L";
case HB_IT_INTEGER:
case HB_IT_LONG:
case HB_IT_DOUBLE:
return ( char * ) "N";
case HB_IT_STRING:
return ( char * ) "C";
case HB_IT_MEMO:
return ( char * ) "M";
case HB_IT_HASH:
return ( char * ) "H";
case HB_IT_POINTER:
return ( char * ) "P";
case HB_IT_SYMBOL:
return ( char * ) "S";
}
return ( char * ) "U";
}
/* Internal API, not standard Clipper */
void hb_itemInit( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemInit(%p)", pItem));
if( pItem )
pItem->type = HB_IT_NIL;
}
void hb_itemClear( PHB_ITEM pItem )
{
HB_TYPE type;
HB_TRACE(HB_TR_DEBUG, ("hb_itemClear(%p)", pItem));
type = HB_ITEM_TYPERAW( pItem );
pItem->type = HB_IT_NIL;
/* GCLOCK enter */
if( type & HB_IT_STRING )
{
if( pItem->item.asString.allocated )
hb_xRefFree( pItem->item.asString.value );
}
else if( type & HB_IT_ARRAY )
hb_gcRefFree( pItem->item.asArray.value );
else if( type & HB_IT_BLOCK )
hb_gcRefFree( pItem->item.asBlock.value );
else if( type & HB_IT_HASH )
hb_gcRefFree( pItem->item.asHash.value );
else if( type & HB_IT_BYREF )
{
if( type & HB_IT_MEMVAR )
hb_memvarValueDecRef( pItem->item.asMemvar.value );
else if( type & HB_IT_ENUM ) /* FOR EACH control variable */
hb_vmEnumRelease( pItem->item.asEnum.basePtr,
pItem->item.asEnum.valuePtr );
else if( type & HB_IT_EXTREF )
pItem->item.asExtRef.func->clear( pItem->item.asExtRef.value );
else if( pItem->item.asRefer.offset == 0 && pItem->item.asRefer.value >= 0 )
hb_gcRefFree( pItem->item.asRefer.BasePtr.array );
}
else if( type & HB_IT_POINTER )
{
if( pItem->item.asPointer.collect )
hb_gcRefFree( pItem->item.asPointer.value );
}
/* GCLOCK leave */
}
/* Internal API, not standard Clipper */
void hb_itemCopy( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemCopy(%p, %p)", pDest, pSource));
if( pDest == pSource )
hb_errInternal( HB_EI_ITEMBADCOPY, NULL, "hb_itemCopy()", NULL );
if( HB_IS_COMPLEX( pDest ) )
hb_itemClear( pDest );
hb_itemRawCpy( pDest, pSource );
pDest->type &= ~HB_IT_DEFAULT;
if( HB_IS_COMPLEX( pSource ) )
{
/* GCLOCK enter */
if( HB_IS_STRING( pSource ) )
{
if( pSource->item.asString.allocated )
hb_xRefInc( pSource->item.asString.value );
}
else if( HB_IS_ARRAY( pSource ) )
hb_gcRefInc( pSource->item.asArray.value );
else if( HB_IS_BLOCK( pSource ) )
hb_gcRefInc( pSource->item.asBlock.value );
else if( HB_IS_HASH( pSource ) )
hb_gcRefInc( pSource->item.asHash.value );
else if( HB_IS_BYREF( pSource ) )
{
if( HB_IS_MEMVAR( pSource ) )
hb_memvarValueIncRef( pSource->item.asMemvar.value );
else if( HB_IS_ENUM( pSource ) ) /* enumerators cannnot be copied */
pDest->type = HB_IT_NIL;
else if( HB_IS_EXTREF( pSource ) )
pSource->item.asExtRef.func->copy( pDest );
else if( pSource->item.asRefer.offset == 0 && pSource->item.asRefer.value >= 0 )
hb_gcRefInc( pSource->item.asRefer.BasePtr.array );
}
else if( HB_IS_POINTER( pSource ) )
{
if( pSource->item.asPointer.collect )
{
if( pSource->item.asPointer.single )
pDest->item.asPointer.collect = FALSE;
else
hb_gcRefInc( pSource->item.asPointer.value );
}
}
/* GCLOCK leave */
}
}
/* Internal API, not standard Clipper */
void hb_itemCopyToRef( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemCopyToRef(%p, %p)", pDest, pSource));
if( HB_IS_BYREF( pDest ) )
{
pDest = hb_itemUnRefWrite( pDest, pSource );
if( !pDest || pDest == pSource )
/* extended reference or pDest is a reference to pSource
- do not copy */
return;
}
if( HB_IS_BYREF( pSource ) )
{
if( hb_itemUnRef( pSource ) == pDest )
/*
* assign will create cyclic reference
* pSource and pDest reference to the same item
* we can simply drop coping
*/
return;
}
if( HB_IS_OBJECT( pDest ) &&
hb_objOperatorCall( HB_OO_OP_ASSIGN, pDest, pDest, pSource, NULL ) )
return;
hb_itemCopy( pDest, pSource );
}
/* Internal API, not standard Clipper */
void hb_itemCopyFromRef( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemCopyFromRef(%p, %p)", pDest, pSource));
if( HB_IS_BYREF( pSource ) )
{
pSource = hb_itemUnRef( pSource );
if( pDest == pSource )
/* pSource is a reference to pDest - do not copy */
return;
}
hb_itemCopy( pDest, pSource );
}
/*
* copy (transfer) the value of item without increasing
* a reference counters, the pSource item is cleared
*/
void hb_itemMove( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemMove(%p, %p)", pDest, pSource));
if( pDest == pSource )
hb_errInternal( HB_EI_ITEMBADCOPY, NULL, "hb_itemMove()", NULL );
if( HB_IS_COMPLEX( pDest ) )
hb_itemClear( pDest );
/* GCLOCK enter */
hb_itemRawCpy( pDest, pSource );
pDest->type &= ~HB_IT_DEFAULT;
pSource->type = HB_IT_NIL;
/* GCLOCK leave */
}
/* Internal API, not standard Clipper */
void hb_itemMoveRef( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemMoveRef(%p, %p)", pDest, pSource));
if( HB_IS_BYREF( pSource ) )
{
if( hb_itemUnRef( pSource ) == ( HB_IS_BYREF( pDest ) ?
hb_itemUnRef( pDest ) : pDest ) )
{
/*
* assign will create cyclic reference
* pSource is a reference to pDest
* we can simply drop coping
*/
hb_itemSetNil( pSource );
return;
}
}
if( HB_IS_COMPLEX( pDest ) )
hb_itemClear( pDest );
/* GCLOCK enter */
hb_itemRawCpy( pDest, pSource );
pDest->type &= ~HB_IT_DEFAULT;
pSource->type = HB_IT_NIL;
/* GCLOCK leave */
}
/* Internal API, not standard Clipper */
void hb_itemMoveToRef( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemMoveToRef(%p, %p)", pDest, pSource));
if( HB_IS_BYREF( pDest ) )
{
pDest = hb_itemUnRefWrite( pDest, pSource );
if( !pDest || pDest == pSource )
{
/* extended reference or pDest is a reference to pSource
- do not copy */
hb_itemSetNil( pSource );
return;
}
}
if( HB_IS_BYREF( pSource ) )
{
if( hb_itemUnRef( pSource ) == pDest )
{
/*
* assign will create cyclic reference
* pSource and pDest reference to the same item
* we can simply drop coping
*/
hb_itemSetNil( pSource );
return;
}
}
if( HB_IS_OBJECT( pDest ) &&
hb_objOperatorCall( HB_OO_OP_ASSIGN, pDest, pDest, pSource, NULL ) )
{
hb_itemSetNil( pSource );
return;
}
if( HB_IS_COMPLEX( pDest ) )
hb_itemClear( pDest );
/* GCLOCK enter */
hb_itemRawCpy( pDest, pSource );
pDest->type &= ~HB_IT_DEFAULT;
pSource->type = HB_IT_NIL;
/* GCLOCK leave */
}
void hb_itemMoveFromRef( PHB_ITEM pDest, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemCopyFromRef(%p, %p)", pDest, pSource));
if( HB_IS_BYREF( pSource ) )
{
PHB_ITEM pUnRef = hb_itemUnRef( pSource );
if( pDest != pUnRef )
/* pSource is not a reference to pDest - make copy */
hb_itemCopy( pDest, pUnRef );
hb_itemClear( pSource );
}
else
hb_itemMove( pDest, pSource );
}
/* Internal API, not standard Clipper */
void hb_itemSwap( PHB_ITEM pItem1, PHB_ITEM pItem2 )
{
HB_ITEM temp;
HB_TRACE(HB_TR_DEBUG, ("hb_itemSwap(%p, %p)", pItem1, pItem2));
/*
* It's safe to use this version because our GC cannot be
* activated inside memcpy()
*/
/* GCLOCK enter */
hb_itemRawCpy( &temp, pItem2 );
hb_itemRawCpy( pItem2, pItem1 );
hb_itemRawCpy( pItem1, &temp );
pItem1->type &= ~HB_IT_DEFAULT;
pItem2->type &= ~HB_IT_DEFAULT;
/* GCLOCK leave */
}
/* Internal API, not standard Clipper */
/* De-references item passed by the reference */
PHB_ITEM hb_itemUnRefOnce( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemUnRefOnce(%p)", pItem));
if( HB_IS_BYREF( pItem ) )
{
if( HB_IS_MEMVAR( pItem ) )
{
pItem = pItem->item.asMemvar.value;
}
else if( HB_IS_ENUM( pItem ) ) /* FOR EACH control variable */
{
/* enumerator variable */
if( pItem->item.asEnum.valuePtr )
return pItem->item.asEnum.valuePtr;
else
{
PHB_ITEM pBase = HB_IS_BYREF( pItem->item.asEnum.basePtr ) ?
hb_itemUnRef( pItem->item.asEnum.basePtr ) :
pItem->item.asEnum.basePtr;
if( HB_IS_ARRAY( pBase ) )
{
pBase = hb_arrayGetItemPtr( pBase, pItem->item.asEnum.offset );
if( pBase )
return pBase;
}
else if( HB_IS_HASH( pBase ) )
{
pBase = hb_hashGetValueAt( pBase, pItem->item.asEnum.offset );
if( pBase )
return pBase;
}
else if( HB_IS_STRING( pBase ) )
{
if( pItem->item.asEnum.offset > 0 &&
( ULONG ) pItem->item.asEnum.offset <= pBase->item.asString.length )
{
pItem->item.asEnum.valuePtr = hb_itemPutCL( NULL,
pBase->item.asString.value + pItem->item.asEnum.offset - 1, 1 );
return pItem->item.asEnum.valuePtr;
}
}
/* put it here to avoid recursive RT error generation */
pItem->item.asEnum.valuePtr = hb_itemNew( NULL );
if( hb_vmRequestQuery() == 0 )
{
hb_itemPutNInt( hb_stackAllocItem(), pItem->item.asEnum.offset );
hb_errRT_BASE( EG_BOUND, 1132, NULL, hb_langDGetErrorDesc( EG_ARRACCESS ),
2, pItem->item.asEnum.basePtr, hb_stackItemFromTop( -1 ) );
hb_stackPop();
}
return pItem->item.asEnum.valuePtr;
}
}
else if( HB_IS_EXTREF( pItem ) )
{
pItem = pItem->item.asExtRef.func->read( pItem );
}
else
{
if( pItem->item.asRefer.value >= 0 )
{
if( pItem->item.asRefer.offset == 0 )
{
/* a reference to a static variable or array item */
if( ( ULONG ) pItem->item.asRefer.value <
pItem->item.asRefer.BasePtr.array->ulLen )
{
pItem = pItem->item.asRefer.BasePtr.array->pItems +
pItem->item.asRefer.value;
}
else if( hb_vmRequestQuery() == 0 )
{
hb_arrayPushBase( pItem->item.asRefer.BasePtr.array );
hb_itemPutNInt( hb_stackAllocItem(), pItem->item.asRefer.value + 1 );
hb_errRT_BASE( EG_BOUND, 1132, NULL, hb_langDGetErrorDesc( EG_ARRACCESS ),
2, hb_stackItemFromTop( -2 ), hb_stackItemFromTop( -1 ) );
hb_stackPop();
hb_stackPop();
/* check it again - user error handler can resize the array */
if( ( ULONG ) pItem->item.asRefer.value <
pItem->item.asRefer.BasePtr.array->ulLen )
{
pItem = pItem->item.asRefer.BasePtr.array->pItems +
pItem->item.asRefer.value;
}
else
/* It's safe to clear the item - if we are here then
the reference chain to this item does not start in
one of the pItem->item.asRefer.BasePtr.array items
or more then one reference to this array exists
so it will not be freed [druzus] */
hb_itemClear( pItem );
}
}
else
{
/* a reference to a local variable */
HB_ITEM_PTR *pLocal;
pLocal = *( pItem->item.asRefer.BasePtr.itemsbasePtr ) +
pItem->item.asRefer.offset + pItem->item.asRefer.value;
pItem = *pLocal;
}
}
else
{
/* local variable referenced in a codeblock */
pItem = hb_codeblockGetRef( pItem->item.asRefer.BasePtr.block,
pItem->item.asRefer.value );
}
}
}
return pItem;
}
/* Internal API, not standard Clipper */
/* De-references item passed by the reference */
PHB_ITEM hb_itemUnRef( PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemUnRef(%p)", pItem));
do
{
pItem = hb_itemUnRefOnce( pItem );
}
while( HB_IS_BYREF( pItem ) );
return pItem;
}
/* Unreference passed variable for writing
* Do not unreference string enumerators
*/
PHB_ITEM hb_itemUnRefWrite( PHB_ITEM pItem, PHB_ITEM pSource )
{
HB_TRACE(HB_TR_DEBUG, ("hb_itemUnRefWrite(%p,%p)", pItem, pSource));
if( HB_IS_EXTREF( pItem ) )
{
pItem = pItem->item.asExtRef.func->write( pItem, pSource );
}
else if( HB_IS_STRING( pSource ) &&
pSource->item.asString.length == 1 )
{
do
{
if( HB_IS_ENUM( pItem ) && HB_IS_BYREF( pItem->item.asEnum.basePtr ) &&
pItem->item.asEnum.offset >= 1 )
{
PHB_ITEM pBase = hb_itemUnRef( pItem->item.asEnum.basePtr );
if( HB_IS_STRING( pBase ) &&
( ULONG ) pItem->item.asEnum.offset <= pBase->item.asString.length )
{
hb_itemUnShareString( pBase );
pBase->item.asString.value[ pItem->item.asEnum.offset - 1 ] =
pSource->item.asString.value[ 0 ];
return pItem->item.asEnum.valuePtr;
}
}
pItem = hb_itemUnRefOnce( pItem );
}
while( HB_IS_BYREF( pItem ) );
}
else
pItem = hb_itemUnRef( pItem );
return pItem;
}
/* Unreference passed variable
* Do not unreference the last reference stored
*/
PHB_ITEM hb_itemUnRefRefer( PHB_ITEM pItem )
{
PHB_ITEM pLast;
HB_TRACE(HB_TR_DEBUG, ("hb_itemUnRefRefer(%p)", pItem));
do
{
pLast = pItem;
pItem = hb_itemUnRefOnce( pItem );
}
while( HB_IS_BYREF( pItem ) );
return pLast;
}
/* Internal API, not standard Clipper */
/* Resize string buffer of given string item */
PHB_ITEM hb_itemReSizeString( PHB_ITEM pItem, ULONG ulSize )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemReSizeString(%p,%lu)", pItem, ulSize));
if( pItem->item.asString.allocated == 0 )
{
char *szText = ( char* ) hb_xgrab( ulSize + 1 );
hb_xmemcpy( szText, pItem->item.asString.value,
pItem->item.asString.length );
szText[ ulSize ] = '\0';
pItem->item.asString.value = szText;
pItem->item.asString.length = ulSize;
pItem->item.asString.allocated = ulSize + 1;
}
else
{
ULONG ulAlloc = ulSize + 1 +
( pItem->item.asString.allocated <= ulSize ? ulSize : 0 );
pItem->item.asString.value = ( char* )
hb_xRefResize( pItem->item.asString.value,
pItem->item.asString.length,
ulAlloc, &pItem->item.asString.allocated );
pItem->item.asString.length = ulSize;
pItem->item.asString.value[ ulSize ] = '\0';
}
pItem->type &= ~HB_IT_DEFAULT;
return pItem;
}
/* Internal API, not standard Clipper */
/* UnShare string buffer of given string item */
PHB_ITEM hb_itemUnShareString( PHB_ITEM pItem )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemUnShareString(%p)", pItem));
if( pItem->item.asString.allocated == 0 ||
hb_xRefCount( pItem->item.asString.value ) > 1 )
{
ULONG ulLen = pItem->item.asString.length + 1;
char *szText = ( char* ) hb_xmemcpy( hb_xgrab( ulLen ),
pItem->item.asString.value, ulLen );
if( pItem->item.asString.allocated )
{
/* GCLOCK enter */
hb_xRefFree( pItem->item.asString.value );
/* GCLOCK leave */
}
pItem->item.asString.value = szText;
pItem->item.asString.allocated = ulLen;
}
pItem->type &= ~HB_IT_DEFAULT;
return pItem;
}
PHB_ITEM hb_itemUnShare( PHB_ITEM pItem )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemUnShare(%p)", pItem));
if( HB_IS_BYREF( pItem ) )
pItem = hb_itemUnRef( pItem );
if( HB_IS_STRING( pItem ) )
return hb_itemUnShareString( pItem );
else
return pItem;
}
/* Internal API, not standard Clipper */
/* clone the given item */
PHB_ITEM hb_itemClone( PHB_ITEM pItem )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemClone(%p)", pItem));
if( HB_IS_ARRAY( pItem ) )
{
return hb_arrayClone( pItem );
}
else if( HB_IS_HASH( pItem ) )
{
return hb_hashClone( pItem );
}
else
{
return hb_itemNew( pItem );
}
}
/* Internal API, not standard Clipper */
/* Check whether two strings are equal (0), smaller (-1), or greater (1) */
int hb_itemStrCmp( PHB_ITEM pFirst, PHB_ITEM pSecond, BOOL bForceExact )
{
const char * szFirst;
const char * szSecond;
ULONG ulLenFirst;
ULONG ulLenSecond;
ULONG ulMinLen;
int iRet = 0; /* Current status */
HB_TRACE(HB_TR_DEBUG, ("hb_itemStrCmp(%p, %p, %d)", pFirst, pSecond, (int) bForceExact));
szFirst = pFirst->item.asString.value;
szSecond = pSecond->item.asString.value;
ulLenFirst = pFirst->item.asString.length;
ulLenSecond = pSecond->item.asString.length;
if( hb_stackSetStruct()->HB_SET_EXACT && !bForceExact )
{
/* SET EXACT ON and not using == */
/* Don't include trailing spaces */
while( ulLenFirst > ulLenSecond && szFirst[ ulLenFirst - 1 ] == ' ' )
ulLenFirst--;
while( ulLenSecond > ulLenFirst && szSecond[ ulLenSecond - 1 ] == ' ' )
ulLenSecond--;
}
ulMinLen = ulLenFirst < ulLenSecond ? ulLenFirst : ulLenSecond;
/* Both strings not empty */
if( ulMinLen )
{
#ifndef HB_CDP_SUPPORT_OFF
PHB_CODEPAGE cdp = hb_vmCDP();
if( cdp && cdp->lSort )
iRet = hb_cdpcmp( szFirst, ulLenFirst, szSecond, ulLenSecond,
cdp, bForceExact || hb_stackSetStruct()->HB_SET_EXACT );
else
#endif
{
do
{
if( *szFirst != *szSecond )
{
iRet = ( ( UCHAR ) *szFirst < ( UCHAR ) *szSecond ) ? -1 : 1;
break;
}
szFirst++;
szSecond++;
}
while( --ulMinLen );
/* If equal and length is different ! */
if( !iRet && ulLenFirst != ulLenSecond )
{
/* Force an exact comparison? */
if( bForceExact || ulLenSecond > ulLenFirst ||
hb_stackSetStruct()->HB_SET_EXACT )
iRet = ( ulLenFirst < ulLenSecond ) ? -1 : 1;
}
}
}
else
{
/* Both empty ? */
if( ulLenFirst != ulLenSecond )
{
if( bForceExact || hb_stackSetStruct()->HB_SET_EXACT )
iRet = ( ulLenFirst < ulLenSecond ) ? -1 : 1;
else
iRet = ( ulLenSecond == 0 ) ? 0 : -1;
}
else
/* Both empty => Equal ! */
iRet = 0;
}
return iRet;
}
/* Check whether two strings are equal (0), smaller (-1), or greater (1), ignore case */
int hb_itemStrICmp( PHB_ITEM pFirst, PHB_ITEM pSecond, BOOL bForceExact )
{
const char * szFirst;
const char * szSecond;
ULONG ulLenFirst;
ULONG ulLenSecond;
ULONG ulMinLen;
int iRet = 0; /* Current status */
HB_TRACE(HB_TR_DEBUG, ("hb_itemStrICmp(%p, %p, %d)", pFirst, pSecond, (int) bForceExact));
szFirst = pFirst->item.asString.value;
szSecond = pSecond->item.asString.value;
ulLenFirst = pFirst->item.asString.length;
ulLenSecond = pSecond->item.asString.length;
if( !bForceExact || hb_stackSetStruct()->HB_SET_EXACT )
{
/* SET EXACT ON and not using == */
/* Don't include trailing spaces */
while( ulLenFirst > ulLenSecond && szFirst[ ulLenFirst - 1 ] == ' ' )
ulLenFirst--;
while( ulLenSecond > ulLenFirst && szSecond[ ulLenSecond - 1 ] == ' ' )
ulLenSecond--;
}
ulMinLen = ulLenFirst < ulLenSecond ? ulLenFirst : ulLenSecond;
/* Both strings not empty */
if( ulMinLen )
{
#ifndef HB_CDP_SUPPORT_OFF
PHB_CODEPAGE cdp = hb_vmCDP();
if( cdp && cdp->lSort )
iRet = hb_cdpicmp( szFirst, ulLenFirst, szSecond, ulLenSecond,
cdp, bForceExact || hb_stackSetStruct()->HB_SET_EXACT );
else
#endif
{
do
{
int i1 = HB_TOUPPER( ( UCHAR ) *szFirst );
int i2 = HB_TOUPPER( ( UCHAR ) *szSecond );
if( i1 != i2 )
{
iRet = ( i1 < i2 ) ? -1 : 1;
break;
}
szFirst++;
szSecond++;
}
while( --ulMinLen );
/* If equal and length is different ! */
if( !iRet && ulLenFirst != ulLenSecond )
{
/* Force an exact comparison? */
if( bForceExact || ulLenSecond > ulLenFirst ||
hb_stackSetStruct()->HB_SET_EXACT )
iRet = ( ulLenFirst < ulLenSecond ) ? -1 : 1;
}
}
}
else
{
/* Both empty ? */
if( ulLenFirst != ulLenSecond )
{
if( bForceExact || hb_stackSetStruct()->HB_SET_EXACT )
iRet = ( ulLenFirst < ulLenSecond ) ? -1 : 1;
else
iRet = ( ulLenSecond == 0 ) ? 0 : -1;
}
else
/* Both empty => Equal ! */
iRet = 0;
}
return iRet;
}
/* converts a numeric to a string with optional width & precision. */
BOOL hb_itemStrBuf( char *szResult, PHB_ITEM pNumber, int iSize, int iDec )
{
int iPos, iDot;
BOOL fNeg;
if( iDec < 0 )
{
iDec = 0;
}
if( iDec > 0 )
{
iPos = iDot = iSize - iDec - 1;
}
else
{
iPos = iSize;
iDot = 0;
}
if( HB_IS_DOUBLE( pNumber ) )
{
double dNumber = hb_itemGetND( pNumber );
/* TODO: look if finite()/_finite() or isinf()/_isinf and isnan()/_isnan
does exist for your compiler and add this to the check below */
#if defined(__RSXNT__) || defined(__EMX__) || \
defined(__XCC__) || defined(__POCC__) || \
defined(HB_OS_HPUX)
# define HB_FINITE_DBL(d) ( isfinite(d)!=0 )
#elif defined(__WATCOMC__) || defined(__BORLANDC__) || defined(_MSC_VER)
# define HB_FINITE_DBL(d) ( _finite(d)!=0 )
#elif defined(__GNUC__) || defined(__DJGPP__) || defined(__MINGW32__) || \
defined(__LCC__)
# define HB_FINITE_DBL(d) ( finite(d)!=0 )
#else
/* added infinity check for Borland C [martin vogel] */
/* Borland C 5.5 has _finite() function, if it's necessary
we can reenable this code for older DOS BCC versions
Now this code is for generic C compilers undefined above
[druzus] */
static BOOL s_bInfinityInit = FALSE;
static double s_dInfinity = 0;
if( ! s_bInfinityInit )
{
/* set math handler to NULL for evaluating log(0),
to avoid error messages [martin vogel]*/
HB_MATH_HANDLERPROC fOldMathHandler = hb_mathSetHandler (NULL);
s_dInfinity = -log( ( double ) 0 );
hb_mathSetHandler (fOldMathHandler);
s_bInfinityInit = TRUE;
}
# define HB_FINITE_DBL(d) ( (d) != s_dInfinity && (d) != -s_dInfinity )
#endif
if( pNumber->item.asDouble.length == 99 || !HB_FINITE_DBL( dNumber ) )
{
/* Numeric overflow */
iPos = -1;
}
else
{
double dInt, dFract, dDig, doBase = 10.0;
int iPrec, iFirst = -1;
/* dNumber = hb_numRound( dNumber, iDec ); */
#ifdef HB_NUM_PRECISION
iPrec = HB_NUM_PRECISION;
#else
iPrec = 16;
#endif
if( dNumber < 0 )
{
fNeg = TRUE;
dFract = modf( -dNumber, &dInt );
}
else
{
fNeg = FALSE;
dFract = modf( dNumber, &dInt );
}
while( iPos-- > 0 )
{
dDig = modf( dInt / doBase + 0.01, &dInt ) * doBase;
szResult[ iPos ] = '0' + ( char ) ( dDig + 0.01 );
if( szResult[ iPos ] != '0' )
iFirst = iPos;
if( dInt < 1 )
break;
}
if( iPos > 0 )
{
memset( szResult, ' ', iPos );
}
if( iDec > 0 && iPos >= 0 )
{
for( iPos = iDot + 1; iPos < iSize; iPos++ )
{
dFract = modf( dFract * doBase, &dDig );
szResult[ iPos ] = '0' + ( char ) ( dDig + 0.01 );
if( iFirst < 0 )
{
if( szResult[ iPos ] != '0' )
{
iFirst = iPos - 1;
}
}
else if( iPos - iFirst >= iPrec )
{
break;
}
}
}
/* now try to round the results and set 0 in places over defined
precision, the same is done by Clipper */
if( iPos >= 0 )
{
int iZer, iLast;
if( iFirst < 0 )
{
iZer = 0;
}
else
{
iZer = iSize - iFirst - iPrec - ( iDec > 0 ? 1 : 0 );
}
dFract = modf( dFract * doBase, &dDig );
iLast = ( int ) ( dDig + 0.01 );
/* hack for x.xxxx4999999999, f.e. 8.995 ~FL 8.994999999999999218.. */
if( iLast == 4 && iZer < 0 )
{
for( iPos = -iZer; iPos > 0; --iPos )
{
dFract = modf( dFract * doBase, &dDig );
if( dDig + 0.01 < 9 && ( iPos != 1 || dDig < 2 ) )
break;
}
if( iPos == 0 )
iLast = 5;
}
iLast = iLast >= 5 ? 1 : 0;
iPos = iSize;
while ( iPos-- > 0 )
{
if( iDec == 0 || iPos != iDot )
{
if( iZer > 0 )
{
if( iDec == 0 || iPos <= iDot + 1 )
{
iLast = szResult[ iPos ] >= '5' ? 1 : 0;
}
szResult[ iPos ] = '0';
--iZer;
}
else if( iLast > 0 )
{
if( szResult[ iPos ] == '9' )
{
szResult[ iPos ] = '0';
}
else
{
if( szResult[ iPos ] < '0' ) /* '-' or ' ' */
{
szResult[ iPos ] = '1';
iFirst = iPos;
}
else
{
szResult[ iPos ]++;
if( iFirst < 0 )
{
iFirst = iPos;
}
}
break;
}
}
else
{
break;
}
}
}
if( fNeg && iFirst >= 0 && iPos >= 0 )
{
iPos = ( iDot > 0 && iFirst >= iDot ) ? iDot - 2 : iFirst - 1;
if( iPos >= 0 )
{
szResult[ iPos ] = '-';
}
}
}
}
}
else
{
HB_LONG lNumber;
if( HB_IS_INTEGER( pNumber ) )
lNumber = pNumber->item.asInteger.value;
else if( HB_IS_LONG( pNumber ) )
lNumber = pNumber->item.asLong.value;
else if( HB_IS_DATE( pNumber ) )
lNumber = pNumber->item.asDate.value;
else if( HB_IS_STRING( pNumber ) )
lNumber = pNumber->item.asString.value[ 0 ];
else
{
lNumber = 0;
iPos = -1;
}
fNeg = ( lNumber < 0 );
while ( iPos-- > 0 )
{
szResult[ iPos ] = '0' + ( char ) ( fNeg ? -( lNumber % 10 ) : ( lNumber % 10 ) );
lNumber /= 10;
if( lNumber == 0 )
break;
}
if( fNeg && iPos-- > 0 )
szResult[ iPos ] = '-';
if( iPos > 0 )
memset( szResult, ' ', iPos );
if( iDec > 0 && iPos >= 0 )
memset( &szResult[iSize - iDec], '0', iDec );
}
szResult[ iSize ] = '\0';
/* Set to asterisks in case of overflow */
if( iPos < 0 )
{
memset( szResult, '*', iSize );
return FALSE;
}
else if( iDot > 0 )
{
szResult[ iDot ] = '.';
}
return TRUE;
}
/* converts a numeric to a string with optional width & precision.
This function should be used by any function that wants to format numeric
data for displaying, printing, or putting in a database.
Note: The caller is responsible for calling hb_xfree to free the results
buffer, but ONLY if the return value is not a NULL pointer! (If a NULL
pointer is returned, then there was a conversion error.)
*/
char * hb_itemStr( PHB_ITEM pNumber, PHB_ITEM pWidth, PHB_ITEM pDec )
{
char * szResult = NULL;
HB_TRACE(HB_TR_DEBUG, ("hb_itemStr(%p, %p, %p)", pNumber, pWidth, pDec));
if( pNumber )
{
/* Default to the width and number of decimals specified by the item,
with a limit of 90 integer places, plus one space for the sign. */
int iWidth, iDec, iSize;
hb_itemGetNLen( pNumber, &iWidth, &iDec );
if( iWidth > 90 )
iWidth = 90;
if( pWidth && HB_IS_NUMERIC( pWidth ) )
{
/* If the width parameter is specified, override the default value
and set the number of decimals to zero */
iWidth = hb_itemGetNI( pWidth );
if( iWidth < 1 )
iWidth = 10; /* If 0 or negative, use default */
iDec = 0;
}
/* Clipper ignores decimal places when iWidth is 1 */
if( iWidth > 1 && pDec && HB_IS_NUMERIC( pDec ) )
{
/* This function does not include the decimal places in the width,
so the width must be adjusted downwards, if the decimal places
parameter is greater than 0 */
iDec = hb_itemGetNI( pDec );
if( iDec <= 0 )
iDec = 0;
else if( pWidth )
iWidth -= ( iDec + 1 );
}
iSize = ( iDec > 0 ? iWidth + 1 + iDec : iWidth );
if( iSize > 0 )
{
szResult = ( char * ) hb_xgrab( iSize + 1 );
hb_itemStrBuf( szResult, pNumber, iSize, iDec );
}
}
return szResult;
}
/* NOTE: The caller must free the pointer if the bFreeReq param gets set to
TRUE, this trick is required to stay thread safe, while minimize
memory allocation and buffer copying.
As a side effect the caller should never modify the returned buffer
since it may point to a constant value. [vszakats] */
char * hb_itemString( PHB_ITEM pItem, ULONG * ulLen, BOOL * bFreeReq )
{
char * buffer;
HB_TRACE(HB_TR_DEBUG, ("hb_itemString(%p, %p, %p)", pItem, ulLen, bFreeReq));
switch( HB_ITEM_TYPE( pItem ) )
{
case HB_IT_STRING:
case HB_IT_MEMO:
buffer = hb_itemGetCPtr( pItem );
* ulLen = hb_itemGetCLen( pItem );
* bFreeReq = FALSE;
break;
case HB_IT_DATE:
{
char szDate[ 9 ];
hb_dateDecStr( szDate, pItem->item.asDate.value );
buffer = ( char * ) hb_xgrab( 11 );
hb_dateFormat( szDate, buffer, hb_stackSetStruct()->HB_SET_DATEFORMAT );
* ulLen = strlen( buffer );
* bFreeReq = TRUE;
}
break;
case HB_IT_DOUBLE:
case HB_IT_INTEGER:
case HB_IT_LONG:
if( hb_stackSetStruct()->HB_SET_FIXED )
{
/* If fixed mode is enabled, use the default number of decimal places. */
hb_itemPutNI( hb_stackAllocItem(), hb_stackSetStruct()->HB_SET_DECIMALS );
buffer = hb_itemStr( pItem, NULL, hb_stackItemFromTop( -1 ) );
hb_stackPop();
}
else
buffer = hb_itemStr( pItem, NULL, NULL );
if( buffer )
{
* ulLen = strlen( buffer );
* bFreeReq = TRUE;
}
else
{
buffer = ( char * ) "";
* ulLen = 0;
* bFreeReq = FALSE;
}
break;
case HB_IT_NIL:
buffer = ( char * ) "NIL";
* ulLen = 3;
* bFreeReq = FALSE;
break;
case HB_IT_LOGICAL:
buffer = ( char * ) ( hb_itemGetL( pItem ) ? ".T." : ".F." );
* ulLen = 3;
* bFreeReq = FALSE;
break;
case HB_IT_POINTER:
{
int size = ( sizeof( void * ) << 1 ) + 3; /* n bytes for address + 0x + \0 */
HB_PTRDIFF addr = ( HB_PTRDIFF ) hb_itemGetPtr( pItem );
* ulLen = size - 1;
* bFreeReq = TRUE;
buffer = ( char * ) hb_xgrab( size );
buffer[ 0 ] = '0';
buffer[ 1 ] = 'x';
buffer[ --size ] = '\0';
do
{
UCHAR uc = ( UCHAR ) ( addr & 0xf );
buffer[ --size ] = ( char ) ( uc + ( uc < 10 ? '0' : 'A' - 10 ) );
addr >>= 4;
}
while( size > 2 );
break;
}
default:
buffer = ( char * ) "";
* ulLen = 0;
* bFreeReq = FALSE;
}
return buffer;
}
/* This function is used by all of the PAD functions to prepare the argument
being padded. If date, convert to string using hb_dateFormat(). If numeric,
convert to unpadded string. Return pointer to string and set string length */
char * hb_itemPadConv( PHB_ITEM pItem, ULONG * pulSize, BOOL * bFreeReq )
{
HB_TRACE_STEALTH(HB_TR_DEBUG, ("hb_itemPadConv(%p, %p, %p)", pItem, pulSize, bFreeReq));
if( pItem )
{
switch( HB_ITEM_TYPE( pItem ) )
{
case HB_IT_STRING:
case HB_IT_MEMO:
case HB_IT_DATE:
return hb_itemString( pItem, pulSize, bFreeReq );
case HB_IT_DOUBLE:
case HB_IT_INTEGER:
case HB_IT_LONG:
{
int i;
char * buffer = hb_itemString( pItem, pulSize, bFreeReq );
/* remove leading spaces if any, a little bit redundant but
* I don't want to complicate the API interface more. Druzus
*/
for( i = 0; buffer[i] == ' '; i++ ) {};
if( i > 0 )
{
int j = 0;
* pulSize -= i;
do
{
buffer[j++] = buffer[i];
}
while( buffer[i++] );
}
return buffer;
}
default:
break;
}
}
return NULL;
}
PHB_ITEM hb_itemValToStr( PHB_ITEM pItem )
{
PHB_ITEM pResult;
char * buffer;
ULONG ulLen;
BOOL bFreeReq;
HB_TRACE(HB_TR_DEBUG, ("hb_itemValToStr(%p)", pItem));
buffer = hb_itemString( pItem, &ulLen, &bFreeReq );
if( bFreeReq )
pResult = hb_itemPutCLPtr( NULL, buffer, ulLen );
else
pResult = hb_itemPutCL( NULL, buffer, ulLen );
return pResult;
}
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