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eb214d1e4b7f5665ce46ba1e85594de5027af488
harbour-core/harbour/source/vm/arrays.c
Przemyslaw Czerpak ca6779b236 2009-02-04 01:36 UTC+0100 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/source/vm/arrays.c
    ! protection against possible GPF in hb_rAscan() if user block
      reduces the array size

  * harbour/source/debug/tbrwtext.prg
    ! fixed source color text to be more Clipper compatible.
      Borrowed from xHarbour by Phil Krylov

  * harbour/source/debug/debugger.prg
    ! added missing :forceStable() to refresh the screen after break point
      setting
2009-02-04 00:31:51 +00:00

1495 lines
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/*
* $Id$
*/
/*
* Harbour Project source code:
* The Array API (C level)
*
* 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 1999-2001 Viktor Szakats <viktor.szakats@syenar.hu>
* hb_arrayIsObject()
* hb_arrayCopyC()
* hb_arrayGetC()
*
* Copyright 2001 Ron Pinkas <ron@profit-master.com>
* hb_arrayClone()
* hb_arrayFromStack()
* hb_arrayFromParams()
*
* See doc/license.txt for licensing terms.
*
*/
#include "hbvmopt.h"
#include "hbapi.h"
#include "hbapiitm.h"
#include "hbapicls.h"
#include "hbapierr.h"
#include "hbapilng.h"
#include "hbvm.h"
#include "hbstack.h"
static void hb_arrayReleaseItems( PHB_BASEARRAY pBaseArray )
{
if( pBaseArray->ulLen )
{
HB_ITEM_PTR pItems = pBaseArray->pItems;
ULONG ulLen = pBaseArray->ulLen;
/*
* clear the pBaseArray->pItems to avoid infinite loop in cross
* referenced items when pBaseArray is not freed due to buggy
* object destructor [druzus]
*/
pBaseArray->pItems = NULL;
pBaseArray->ulLen = 0;
while( ulLen-- )
{
if( HB_IS_COMPLEX( pItems + ulLen ) )
hb_itemClear( pItems + ulLen );
}
hb_xfree( pItems );
}
}
void hb_arrayPushBase( PHB_BASEARRAY pBaseArray )
{
PHB_ITEM pItem = hb_stackAllocItem();
pItem->type = HB_IT_ARRAY;
pItem->item.asArray.value = pBaseArray;
hb_gcRefInc( pBaseArray );
}
/* This releases array when called from the garbage collector */
static HB_GARBAGE_FUNC( hb_arrayReleaseGarbage )
{
PHB_BASEARRAY pBaseArray = ( PHB_BASEARRAY ) Cargo;
if( pBaseArray->uiClass )
{
/*
* do not execute destructor for supercasted objects [druzus]
*/
if( pBaseArray->uiPrevCls == 0 &&
hb_clsHasDestructor( pBaseArray->uiClass ) )
{
hb_arrayPushBase( pBaseArray );
hb_objDestructorCall( hb_stackItemFromTop( -1 ) );
/* Clear object properities before hb_stackPop(), [druzus] */
pBaseArray->uiClass = 0;
hb_stackPop();
/*
* release array items before hb_gcRefCheck() to avoid double
* pBaseArray freeing when it will have cross references to
* self after executing buggy destructor [druzus]
*/
hb_arrayReleaseItems( pBaseArray );
hb_gcRefCheck( pBaseArray );
return;
}
/*
* This is only some additional protection for buggy code
* which can store reference to this object in other class
* destructor when executed from GC and it will only cause
* RT error when user will try to send any message to this
* object [druzus]
*/
pBaseArray->uiClass = 0;
}
hb_arrayReleaseItems( pBaseArray );
}
BOOL hb_arrayNew( PHB_ITEM pItem, ULONG ulLen ) /* creates a new array */
{
PHB_BASEARRAY pBaseArray;
PHB_ITEM pItems;
ULONG ulPos;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayNew(%p, %lu)", pItem, ulLen));
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
/*
* allocate memory for items before hb_gcAlloc() to be
* safe for automatic GC activation in hb_xgrab() without
* calling hb_gcLock()/hb_gcUnlock(). [druzus]
*/
if( ulLen > 0 )
{
pItems = ( PHB_ITEM ) hb_xgrab( sizeof( HB_ITEM ) * ulLen );
for( ulPos = 0; ulPos < ulLen; ++ulPos )
( pItems + ulPos )->type = HB_IT_NIL;
}
else
pItems = NULL;
pBaseArray = ( PHB_BASEARRAY ) hb_gcAlloc( sizeof( HB_BASEARRAY ), hb_arrayReleaseGarbage );
pBaseArray->pItems = pItems;
pBaseArray->ulLen = ulLen;
pBaseArray->uiClass = 0;
pBaseArray->uiPrevCls = 0;
pBaseArray->ulAllocated= ulLen;
pItem->type = HB_IT_ARRAY;
pItem->item.asArray.value = pBaseArray;
return TRUE;
}
BOOL hb_arraySize( PHB_ITEM pArray, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySize(%p, %lu)", pArray, ulLen));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
if( ulLen != pBaseArray->ulLen )
{
ULONG ulPos;
if( pBaseArray->ulLen == 0 )
{
pBaseArray->pItems = ( PHB_ITEM ) hb_xgrab( ulLen * sizeof( HB_ITEM ) );
pBaseArray->ulAllocated = ulLen;
for( ulPos = 0; ulPos < ulLen; ulPos++ )
( pBaseArray->pItems + ulPos )->type = HB_IT_NIL;
}
else
{
if( pBaseArray->ulLen < ulLen )
{
if( pBaseArray->ulAllocated < ulLen )
{
/*
A common practice is to double allocation buffer size. Thus, making
reallocation count logarithmic to total number of added numbers.
I've used here a little different formula. ulAllocated is divided by
factor 2 ( >> 1 ) and 1 is added to requested size. This algorithm
has properties:
- reallocation count remains asymptoticaly logarithmic;
- saves memory for large arrays, because reallocation buffer
size is not doubled, but multiplied by 1.5;
- adding of 1, allows reduce reallocation count for small arrays.
*/
pBaseArray->ulAllocated = ( pBaseArray->ulAllocated >> 1 ) + 1 + ulLen;
pBaseArray->pItems = ( PHB_ITEM ) hb_xrealloc( pBaseArray->pItems, sizeof( HB_ITEM ) * pBaseArray->ulAllocated );
}
/* set value for new items */
for( ulPos = pBaseArray->ulLen; ulPos < ulLen; ulPos++ )
( pBaseArray->pItems + ulPos )->type = HB_IT_NIL;
}
else if( pBaseArray->ulLen > ulLen )
{
/* release old items */
for( ulPos = ulLen; ulPos < pBaseArray->ulLen; ulPos++ )
{
if( HB_IS_COMPLEX( pBaseArray->pItems + ulPos ) )
hb_itemClear( pBaseArray->pItems + ulPos );
}
if( ulLen == 0 )
{
hb_xfree( pBaseArray->pItems );
pBaseArray->pItems = NULL;
}
else if( ulLen < ( pBaseArray->ulAllocated >> 1 ) )
{
pBaseArray->ulAllocated = ulLen;
pBaseArray->pItems = ( PHB_ITEM ) hb_xrealloc( pBaseArray->pItems, sizeof( HB_ITEM ) * ulLen );
}
}
}
pBaseArray->ulLen = ulLen;
}
return TRUE;
}
else
return FALSE;
}
ULONG hb_arrayLen( PHB_ITEM pArray )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayLen(%p)", pArray));
if( HB_IS_ARRAY( pArray ) )
return pArray->item.asArray.value->ulLen;
else
return 0;
}
BOOL hb_arrayIsObject( PHB_ITEM pArray )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayIsObject(%p)", pArray));
if( HB_IS_ARRAY( pArray ) )
return pArray->item.asArray.value->uiClass != 0;
else
return FALSE;
}
/* retrives the array unique ID */
void * hb_arrayId( PHB_ITEM pArray )
{
if( HB_IS_ARRAY( pArray ) )
return ( void * ) pArray->item.asArray.value;
else
return NULL;
}
BOOL hb_arrayAdd( PHB_ITEM pArray, PHB_ITEM pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayAdd(%p, %p)", pArray, pValue));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = ( PHB_BASEARRAY ) pArray->item.asArray.value;
if( pBaseArray->ulLen < ULONG_MAX )
{
hb_arraySize( pArray, pBaseArray->ulLen + 1 );
pBaseArray = ( PHB_BASEARRAY ) pArray->item.asArray.value;
hb_itemCopy( pBaseArray->pItems + ( pBaseArray->ulLen - 1 ), pValue );
return TRUE;
}
}
return FALSE;
}
BOOL hb_arrayAddForward( PHB_ITEM pArray, PHB_ITEM pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayAddForward(%p, %p)", pArray, pValue));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = ( PHB_BASEARRAY ) pArray->item.asArray.value;
if( pBaseArray->ulLen < ULONG_MAX )
{
hb_arraySize( pArray, pBaseArray->ulLen + 1 );
pBaseArray = ( PHB_BASEARRAY ) pArray->item.asArray.value;
hb_itemForwardValue( pBaseArray->pItems + ( pBaseArray->ulLen - 1 ), pValue );
return TRUE;
}
}
return FALSE;
}
BOOL hb_arrayDel( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayDel(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) )
{
ULONG ulLen = pArray->item.asArray.value->ulLen;
if( ulIndex > 0 && ulIndex <= ulLen )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
if( ulIndex == ulLen )
{
hb_itemSetNil( pBaseArray->pItems + ulIndex - 1 );
}
else
{
for( ; ulIndex < ulLen; ++ulIndex ) /* move items */
hb_itemMoveRef( pBaseArray->pItems + ulIndex - 1,
pBaseArray->pItems + ulIndex );
}
return TRUE;
}
}
return FALSE;
}
BOOL hb_arrayIns( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayIns(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) )
{
ULONG ulLen = pArray->item.asArray.value->ulLen;
if( ulIndex > 0 && ulIndex <= ulLen )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
if( ulIndex == ulLen )
{
hb_itemSetNil( pBaseArray->pItems + ulIndex - 1 );
}
else
{
while( --ulLen >= ulIndex ) /* move items */
hb_itemMoveRef( pBaseArray->pItems + ulLen,
pBaseArray->pItems + ulLen - 1 );
}
return TRUE;
}
}
return FALSE;
}
BOOL hb_arraySet( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySet(%p, %lu, %p)", pArray, ulIndex, pItem));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemCopy( pArray->item.asArray.value->pItems + ( ulIndex - 1 ), pItem );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetForward( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetForward(%p, %lu, %p)", pArray, ulIndex, pItem));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemMove( pArray->item.asArray.value->pItems + ( ulIndex - 1 ), pItem );
return TRUE;
}
else
{
hb_itemClear( pItem );
return FALSE;
}
}
BOOL hb_arrayGet( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGet(%p, %lu, %p)", pArray, ulIndex, pItem));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemCopy( pItem, pArray->item.asArray.value->pItems + ( ulIndex - 1 ) );
return TRUE;
}
else
{
hb_itemSetNil( pItem );
return FALSE;
}
}
BOOL hb_arrayGetItemRef( PHB_ITEM pArray, ULONG ulIndex, PHB_ITEM pItem )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetItemRef(%p, %lu, %p)", pArray, ulIndex, pItem));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
if( pArray != pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
hb_gcRefInc( pArray->item.asArray.value );
}
pItem->type = HB_IT_BYREF;
pItem->item.asRefer.BasePtr.array = pArray->item.asArray.value;
pItem->item.asRefer.value = ulIndex - 1;
pItem->item.asRefer.offset = 0;
return TRUE;
}
else
{
hb_itemSetNil( pItem );
return FALSE;
}
}
/*
* This function returns a pointer to an item occupied by the specified
* array element - it doesn't return an item's value
*/
PHB_ITEM hb_arrayGetItemPtr( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetItemPtr(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return pArray->item.asArray.value->pItems + ulIndex - 1;
else
return NULL;
}
char * hb_arrayGetDS( PHB_ITEM pArray, ULONG ulIndex, char * szDate )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetDS(%p, %lu, %s)", pArray, ulIndex, szDate));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetDS( pArray->item.asArray.value->pItems + ulIndex - 1, szDate );
else
/* NOTE: Intentionally calling it with a bad parameter in order to get
the default value from hb_itemGetDS(). [vszakats] */
return hb_itemGetDS( NULL, szDate );
}
long hb_arrayGetDL( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetDL(%p, %lu)", pArray, ulIndex ));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetDL( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
/* NOTE: Intentionally calling it with a bad parameter in order to get
the default value from hb_itemGetDL(). [vszakats] */
return hb_itemGetDL( NULL );
}
BOOL hb_arrayGetL( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetL(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetL( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return FALSE;
}
int hb_arrayGetNI( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetNI(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetNI( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
long hb_arrayGetNL( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetNL(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetNL( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
#ifndef HB_LONG_LONG_OFF
LONGLONG hb_arrayGetNLL( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetNLL(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetNLL( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
#endif
HB_LONG hb_arrayGetNInt( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetNLL(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetNInt( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
double hb_arrayGetND( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetND(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetND( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
ULONG hb_arrayCopyC( PHB_ITEM pArray, ULONG ulIndex, char * szBuffer, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayCopyC(%p, %lu, %s, %lu)", pArray, ulIndex, szBuffer, ulLen));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemCopyC( pArray->item.asArray.value->pItems + ulIndex - 1, szBuffer, ulLen );
else
return 0;
}
char * hb_arrayGetC( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetC(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetC( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return NULL;
}
char * hb_arrayGetCPtr( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetCPtr(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetCPtr( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return ( char * ) "";
}
ULONG hb_arrayGetCLen( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetCLen(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetCLen( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
void * hb_arrayGetPtr( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetPtr(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetPtr( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return NULL;
}
void * hb_arrayGetPtrGC( PHB_ITEM pArray, ULONG ulIndex, HB_GARBAGE_FUNC_PTR pFunc )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetPtrGC(%p, %lu, %p)", pArray, ulIndex, pFunc));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetPtrGC( pArray->item.asArray.value->pItems + ulIndex - 1, pFunc );
else
return NULL;
}
PHB_SYMB hb_arrayGetSymbol( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetSymbol(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemGetSymbol( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return NULL;
}
HB_TYPE hb_arrayGetType( PHB_ITEM pArray, ULONG ulIndex )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayGetType(%p, %lu)", pArray, ulIndex));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
return hb_itemType( pArray->item.asArray.value->pItems + ulIndex - 1 );
else
return 0;
}
BOOL hb_arraySetDS( PHB_ITEM pArray, ULONG ulIndex, const char * szDate )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetDS(%p, %lu, %s)", pArray, ulIndex, szDate));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutDS( pArray->item.asArray.value->pItems + ulIndex - 1, szDate );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetDL( PHB_ITEM pArray, ULONG ulIndex, LONG lDate )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetDL(%p, %lu, %ld)", pArray, ulIndex, lDate));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutDL( pArray->item.asArray.value->pItems + ulIndex - 1, lDate );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetL( PHB_ITEM pArray, ULONG ulIndex, BOOL fValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetL(%p, %lu, %d)", pArray, ulIndex, fValue));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutL( pArray->item.asArray.value->pItems + ulIndex - 1, fValue );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetNI( PHB_ITEM pArray, ULONG ulIndex, int iNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetNI(%p, %lu, %d)", pArray, ulIndex, iNumber));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutNI( pArray->item.asArray.value->pItems + ulIndex - 1, iNumber );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetNL( PHB_ITEM pArray, ULONG ulIndex, LONG lNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetNL(%p, %lu, %lu)", pArray, ulIndex, lNumber));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutNL( pArray->item.asArray.value->pItems + ulIndex - 1, lNumber );
return TRUE;
}
else
return FALSE;
}
#ifndef HB_LONG_LONG_OFF
BOOL hb_arraySetNLL( PHB_ITEM pArray, ULONG ulIndex, LONGLONG llNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetNLL(%p, %lu, %" PFLL "d)", pArray, ulIndex, llNumber));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutNLL( pArray->item.asArray.value->pItems + ulIndex - 1, llNumber );
return TRUE;
}
else
return FALSE;
}
#endif
BOOL hb_arraySetNInt( PHB_ITEM pArray, ULONG ulIndex, HB_LONG lNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetNInt(%p, %lu, %" PFHL "d)", pArray, ulIndex, lNumber));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutNInt( pArray->item.asArray.value->pItems + ulIndex - 1, lNumber );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetND( PHB_ITEM pArray, ULONG ulIndex, double dNumber )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetND(%p, %lu, %lf)", pArray, ulIndex, dNumber));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutND( pArray->item.asArray.value->pItems + ulIndex - 1, dNumber );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetC( PHB_ITEM pArray, ULONG ulIndex, const char * szText )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetC(%p, %lu, %p)", pArray, ulIndex, szText));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutC( pArray->item.asArray.value->pItems + ulIndex - 1, szText );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetCL( PHB_ITEM pArray, ULONG ulIndex, const char * szText, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetC(%p, %lu, %p, %lu)", pArray, ulIndex, szText, ulLen));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutCL( pArray->item.asArray.value->pItems + ulIndex - 1, szText, ulLen );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetCPtr( PHB_ITEM pArray, ULONG ulIndex, char * szText, ULONG ulLen )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetCPtr(%p, %lu, %p, %lu)", pArray, ulIndex, szText, ulLen));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutCLPtr( pArray->item.asArray.value->pItems + ulIndex - 1, szText, ulLen );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetPtr( PHB_ITEM pArray, ULONG ulIndex, void * pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetPtr(%p, %lu, %p)", pArray, ulIndex, pValue));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutPtr( pArray->item.asArray.value->pItems + ulIndex - 1, pValue );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetPtrGC( PHB_ITEM pArray, ULONG ulIndex, void * pValue )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetPtrGC(%p, %lu, %p)", pArray, ulIndex, pValue));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutPtrGC( pArray->item.asArray.value->pItems + ulIndex - 1, pValue );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arraySetSymbol( PHB_ITEM pArray, ULONG ulIndex, PHB_SYMB pSymbol )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arraySetSymbol(%p, %lu, %p)", pArray, ulIndex, pSymbol));
if( HB_IS_ARRAY( pArray ) && ulIndex > 0 && ulIndex <= pArray->item.asArray.value->ulLen )
{
hb_itemPutSymbol( pArray->item.asArray.value->pItems + ulIndex - 1, pSymbol );
return TRUE;
}
else
return FALSE;
}
BOOL hb_arrayLast( PHB_ITEM pArray, PHB_ITEM pResult )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayLast(%p, %p)", pArray, pResult));
if( HB_IS_ARRAY( pArray ) )
{
if( pArray->item.asArray.value->ulLen > 0 )
hb_itemCopy( pResult, pArray->item.asArray.value->pItems +
( pArray->item.asArray.value->ulLen - 1 ) );
else
hb_itemSetNil( pResult );
return TRUE;
}
hb_itemSetNil( pResult );
return FALSE;
}
BOOL hb_arrayFill( PHB_ITEM pArray, PHB_ITEM pValue, ULONG * pulStart, ULONG * pulCount )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayFill(%p, %p, %p, %p)", pArray, pValue, pulStart, pulCount));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
ULONG ulLen = pBaseArray->ulLen;
ULONG ulStart;
ULONG ulCount;
if( pulStart && *pulStart )
ulStart = *pulStart - 1;
else
ulStart = 0;
if( ulStart < ulLen )
{
ulCount = ulLen - ulStart;
if( pulCount && *pulCount < ulCount )
ulCount = *pulCount;
if( ulCount > 0 )
{
do
{
hb_itemCopy( pBaseArray->pItems + ulStart++, pValue );
}
while( --ulCount > 0 );
}
}
return TRUE;
}
else
return FALSE;
}
ULONG hb_arrayScan( PHB_ITEM pArray, PHB_ITEM pValue, ULONG * pulStart, ULONG * pulCount, BOOL fExact )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayScan(%p, %p, %p, %p, %d)", pArray, pValue, pulStart, pulCount, (int) fExact));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
ULONG ulLen = pBaseArray->ulLen;
ULONG ulStart;
ULONG ulCount;
if( pulStart && *pulStart )
ulStart = *pulStart - 1;
else
ulStart = 0;
if( ulStart < ulLen )
{
ulCount = ulLen - ulStart;
if( pulCount && *pulCount < ulCount )
ulCount = *pulCount;
if( ulCount > 0 )
{
/* Make separate search loops for different types to find, so that
the loop can be faster. */
if( HB_IS_BLOCK( pValue ) )
{
do
{
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( pValue );
hb_vmPush( pBaseArray->pItems + ulStart );
hb_vmPushLong( ++ulStart );
hb_vmDo( 2 );
if( HB_IS_LOGICAL( hb_stackReturnItem() ) && hb_stackReturnItem()->item.asLogical.value )
return ulStart;
}
while( --ulCount > 0 && ulStart < pBaseArray->ulLen );
}
else if( HB_IS_STRING( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
/* NOTE: The order of the pItem and pValue parameters passed to
hb_itemStrCmp() is significant, please don't change it. [vszakats] */
if( HB_IS_STRING( pItem ) && hb_itemStrCmp( pItem, pValue, fExact ) == 0 )
return ulStart;
}
while( --ulCount > 0 );
}
else if( HB_IS_NUMERIC( pValue ) )
{
double dValue = hb_itemGetND( pValue );
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_NUMERIC( pItem ) && hb_itemGetND( pItem ) == dValue )
return ulStart;
}
while( --ulCount > 0 );
}
else if( HB_IS_DATE( pValue ) )
{
long lValue = hb_itemGetDL( pValue ); /* NOTE: This is correct: Get the date as a long value. [vszakats] */
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_DATE( pItem ) && hb_itemGetDL( pItem ) == lValue )
return ulStart;
}
while( --ulCount > 0 );
}
else if( HB_IS_LOGICAL( pValue ) )
{
BOOL bValue = hb_itemGetL( pValue );
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_LOGICAL( pItem ) && hb_itemGetL( pItem ) == bValue )
return ulStart;
}
while( --ulCount > 0 );
}
else if( HB_IS_NIL( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_NIL( pItem ) )
return ulStart;
}
while( --ulCount > 0 );
}
else if( HB_IS_POINTER( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_POINTER( pItem ) &&
pItem->item.asPointer.value == pValue->item.asPointer.value )
return ulStart;
}
while( --ulCount > 0 );
}
else if( fExact && HB_IS_ARRAY( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_ARRAY( pItem ) &&
pItem->item.asArray.value == pValue->item.asArray.value )
return ulStart;
}
while( --ulCount > 0 );
}
else if( fExact && HB_IS_HASH( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart++;
if( HB_IS_HASH( pItem ) &&
pItem->item.asHash.value == pValue->item.asHash.value )
return ulStart;
}
while( --ulCount > 0 );
}
}
}
}
return 0;
}
ULONG hb_arrayRevScan( PHB_ITEM pArray, PHB_ITEM pValue, ULONG * pulStart, ULONG * pulCount, BOOL fExact )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayRevScan(%p, %p, %p, %p, %d)", pArray, pValue, pulStart, pulCount, (int) fExact));
if( HB_IS_ARRAY( pArray ) )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
ULONG ulLen = pBaseArray->ulLen;
ULONG ulStart;
ULONG ulCount;
if( pulStart && *pulStart )
ulStart = *pulStart - 1;
else
ulStart = ulLen - 1;
if( ulStart < ulLen )
{
ulCount = ulStart + 1;
if( pulCount && *pulCount < ulCount )
ulCount = *pulCount;
if( ulCount > 0 )
{
/* Make separate search loops for different types to find, so that
the loop can be faster. */
if( HB_IS_BLOCK( pValue ) )
{
do
{
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( pValue );
if( ulStart < pBaseArray->ulLen )
hb_vmPush( pBaseArray->pItems + ulStart );
else
hb_vmPushNil();
hb_vmPushLong( ulStart + 1 );
hb_vmDo( 2 );
if( HB_IS_LOGICAL( hb_stackReturnItem() ) && hb_stackReturnItem()->item.asLogical.value )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_STRING( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
/* NOTE: The order of the pItem and pValue parameters passed to
hb_itemStrCmp() is significant, please don't change it. [vszakats] */
if( HB_IS_STRING( pItem ) && hb_itemStrCmp( pItem, pValue, fExact ) == 0 )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_NUMERIC( pValue ) )
{
double dValue = hb_itemGetND( pValue );
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_NUMERIC( pItem ) && hb_itemGetND( pItem ) == dValue )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_DATE( pValue ) )
{
long lValue = hb_itemGetDL( pValue ); /* NOTE: This is correct: Get the date as a long value. [vszakats] */
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_DATE( pItem ) && hb_itemGetDL( pItem ) == lValue )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_LOGICAL( pValue ) )
{
BOOL bValue = hb_itemGetL( pValue );
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_LOGICAL( pItem ) && hb_itemGetL( pItem ) == bValue )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_NIL( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_NIL( pItem ) )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( HB_IS_POINTER( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_POINTER( pItem ) &&
pItem->item.asPointer.value == pValue->item.asPointer.value )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( fExact && HB_IS_ARRAY( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_ARRAY( pItem ) &&
pItem->item.asArray.value == pValue->item.asArray.value )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
else if( fExact && HB_IS_HASH( pValue ) )
{
do
{
PHB_ITEM pItem = pBaseArray->pItems + ulStart;
if( HB_IS_HASH( pItem ) &&
pItem->item.asHash.value == pValue->item.asHash.value )
return ulStart + 1;
}
while( --ulCount && ulStart-- );
}
}
}
}
return 0;
}
BOOL hb_arrayEval( PHB_ITEM pArray, PHB_ITEM bBlock, ULONG * pulStart, ULONG * pulCount )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayEval(%p, %p, %p, %p)", pArray, bBlock, pulStart, pulCount));
if( HB_IS_ARRAY( pArray ) && HB_IS_BLOCK( bBlock ) )
{
PHB_BASEARRAY pBaseArray = pArray->item.asArray.value;
ULONG ulLen = pBaseArray->ulLen;
ULONG ulStart;
ULONG ulCount;
if( pulStart && *pulStart )
ulStart = *pulStart - 1;
else
ulStart = 0;
if( ulStart < ulLen )
{
ulCount = ulLen - ulStart;
if( pulCount && *pulCount < ulCount )
ulCount = *pulCount;
if( ulCount > 0 )
{
do
{
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( bBlock );
hb_vmPush( pBaseArray->pItems + ulStart );
hb_vmPushLong( ulStart + 1 );
hb_vmDo( 2 );
}
while( --ulCount > 0 && ++ulStart < pBaseArray->ulLen );
/*
* checking for ulStart < pBaseArray->ulLen is fix for
* possible GPF when codeblock decrease array size
*/
}
}
return TRUE;
}
else
return FALSE;
}
/* NOTE: CA-Cl*pper 5.3a has a fix for the case when the starting position
is greater than the length of the array. [vszakats] */
BOOL hb_arrayCopy( PHB_ITEM pSrcArray, PHB_ITEM pDstArray, ULONG * pulStart,
ULONG * pulCount, ULONG * pulTarget )
{
HB_TRACE(HB_TR_DEBUG, ("hb_arrayCopy(%p, %p, %p, %p, %p)", pSrcArray, pDstArray, pulStart, pulCount, pulTarget));
if( HB_IS_ARRAY( pSrcArray ) && HB_IS_ARRAY( pDstArray ) )
{
PHB_BASEARRAY pSrcBaseArray = pSrcArray->item.asArray.value;
PHB_BASEARRAY pDstBaseArray = pDstArray->item.asArray.value;
ULONG ulSrcLen = pSrcBaseArray->ulLen;
ULONG ulDstLen = pDstBaseArray->ulLen;
ULONG ulStart;
ULONG ulCount;
ULONG ulTarget;
if( pulStart && ( *pulStart >= 1 ) )
ulStart = *pulStart;
else
ulStart = 1;
if( pulTarget && ( *pulTarget >= 1 ) )
ulTarget = *pulTarget;
else
ulTarget = 1;
#ifdef HB_COMPAT_C53 /* From CA-Cl*pper 5.3a */
if( ulStart <= ulSrcLen )
#else
if( ulSrcLen > 0 )
#endif
{
#ifndef HB_COMPAT_C53 /* From CA-Cl*pper 5.3a */
if( ulStart > ulSrcLen )
ulStart = ulSrcLen;
#endif
if( pulCount && ( *pulCount <= ulSrcLen - ulStart ) )
ulCount = *pulCount;
else
ulCount = ulSrcLen - ulStart + 1;
/* This is probably a bug, present in all versions of CA-Cl*pper. */
#if defined( HB_C52_STRICT ) || 1
if( ulDstLen > 0 )
{
if( ulTarget > ulDstLen )
ulTarget = ulDstLen;
#else
if( ulTarget <= ulDstLen )
{
#endif
if( ulCount > ulDstLen - ulTarget )
ulCount = ulDstLen - ulTarget + 1;
for( ulTarget--, ulStart--; ulCount > 0; ulCount--, ulStart++, ulTarget++ )
hb_itemCopy( pDstBaseArray->pItems + ulTarget, pSrcBaseArray->pItems + ulStart );
}
}
return TRUE;
}
else
return FALSE;
}
static void hb_arrayCloneBody( PHB_BASEARRAY pSrcBaseArray, PHB_BASEARRAY pDstBaseArray, PHB_NESTED_CLONED pClonedList )
{
PHB_ITEM pSrcItem, pDstItem;
ULONG ulLen;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayCloneBody(%p, %p, %p)", pSrcBaseArray, pDstBaseArray, pClonedList));
pSrcItem = pSrcBaseArray->pItems;
pDstItem = pDstBaseArray->pItems;
pDstBaseArray->uiClass = pSrcBaseArray->uiClass;
for( ulLen = pSrcBaseArray->ulLen; ulLen; --ulLen, ++pSrcItem, ++pDstItem )
hb_cloneNested( pDstItem, pSrcItem, pClonedList );
}
void hb_cloneNested( PHB_ITEM pDstItem, PHB_ITEM pSrcItem, PHB_NESTED_CLONED pClonedList )
{
/* Clipper clones nested array ONLY if NOT an Object!!! */
if( HB_IS_ARRAY( pSrcItem ) && pSrcItem->item.asArray.value->uiClass == 0 )
{
PHB_NESTED_CLONED pCloned = pClonedList;
PHB_BASEARRAY pBaseArray = pSrcItem->item.asArray.value;
do
{
if( pCloned->value == ( void * ) pBaseArray )
break;
pCloned = pCloned->pNext;
}
while( pCloned );
if( pCloned )
hb_itemCopy( pDstItem, pCloned->pDest );
else
{
hb_arrayNew( pDstItem, pBaseArray->ulLen );
pCloned = ( PHB_NESTED_CLONED ) hb_xgrab( sizeof( HB_NESTED_CLONED ) );
pCloned->value = ( void * ) pBaseArray;
pCloned->pDest = pDstItem;
pCloned->pNext = pClonedList->pNext;
pClonedList->pNext = pCloned;
hb_arrayCloneBody( pBaseArray, pDstItem->item.asArray.value, pClonedList );
}
}
else if( HB_IS_HASH( pSrcItem ) )
{
PHB_NESTED_CLONED pCloned = pClonedList;
PHB_BASEHASH pBaseHash = pSrcItem->item.asHash.value;
do
{
if( pCloned->value == ( void * ) pBaseHash )
break;
pCloned = pCloned->pNext;
}
while( pCloned );
if( pCloned )
hb_itemCopy( pDstItem, pCloned->pDest );
else
{
pCloned = ( PHB_NESTED_CLONED ) hb_xgrab( sizeof( HB_NESTED_CLONED ) );
pCloned->value = ( void * ) pBaseHash;
pCloned->pDest = pDstItem;
pCloned->pNext = pClonedList->pNext;
pClonedList->pNext = pCloned;
hb_hashCloneBody( pSrcItem, pDstItem, pClonedList );
}
}
else
hb_itemCopy( pDstItem, pSrcItem );
}
PHB_ITEM hb_arrayClone( PHB_ITEM pSrcArray )
{
PHB_ITEM pDstArray;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayClone(%p)", pSrcArray));
pDstArray = hb_itemNew( NULL );
if( HB_IS_ARRAY( pSrcArray ) )
{
PHB_NESTED_CLONED pClonedList, pCloned;
PHB_BASEARRAY pSrcBaseArray = pSrcArray->item.asArray.value;
ULONG ulSrcLen = pSrcBaseArray->ulLen;
hb_arrayNew( pDstArray, ulSrcLen );
pClonedList = ( PHB_NESTED_CLONED ) hb_xgrab( sizeof( HB_NESTED_CLONED ) );
pClonedList->value = ( void * ) pSrcBaseArray;
pClonedList->pDest = pDstArray;
pClonedList->pNext = NULL;
hb_arrayCloneBody( pSrcBaseArray, pDstArray->item.asArray.value, pClonedList );
do
{
pCloned = pClonedList;
pClonedList = pClonedList->pNext;
hb_xfree( pCloned );
}
while( pClonedList );
}
return pDstArray;
}
PHB_ITEM hb_arrayFromStack( USHORT uiLen )
{
PHB_ITEM pArray = hb_itemNew( NULL );
USHORT uiPos;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayFromStack(%hu)", uiLen));
hb_arrayNew( pArray, uiLen );
for( uiPos = 1; uiPos <= uiLen; uiPos++ )
{
hb_arraySet( pArray, uiPos, hb_stackItemFromTop( uiPos - uiLen - 1 ) );
}
return pArray;
}
PHB_ITEM hb_arrayFromParams( int iLevel )
{
PHB_ITEM pArray;
USHORT uiPos, uiPCount;
LONG lBaseOffset;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayFromParams(%d)", iLevel));
lBaseOffset = hb_stackBaseProcOffset( iLevel );
if( lBaseOffset > 0 )
uiPCount = hb_stackItem( lBaseOffset )->item.asSymbol.paramcnt;
else
uiPCount = 0;
pArray = hb_itemArrayNew( uiPCount );
for( uiPos = 1; uiPos <= uiPCount; uiPos++ )
{
hb_arraySet( pArray, uiPos, hb_stackItem( lBaseOffset + uiPos + 1 ) );
}
return pArray;
}
PHB_ITEM hb_arrayBaseParams( void )
{
PHB_ITEM pArray;
USHORT uiPos, uiPCount;
HB_TRACE(HB_TR_DEBUG, ("hb_arrayBaseParams()"));
pArray = hb_itemNew( NULL );
uiPCount = hb_stackBaseItem()->item.asSymbol.paramcnt;
hb_arrayNew( pArray, uiPCount );
for( uiPos = 1; uiPos <= uiPCount; uiPos++ )
{
hb_arraySet( pArray, uiPos, hb_stackItemFromBase( uiPos ) );
}
return pArray;
}
PHB_ITEM hb_arraySelfParams( void )
{
PHB_ITEM pArray;
USHORT uiPos, uiPCount;
HB_TRACE(HB_TR_DEBUG, ("hb_arraySelfParams()"));
pArray = hb_itemNew( NULL );
uiPCount = hb_stackBaseItem()->item.asSymbol.paramcnt;
hb_arrayNew( pArray, uiPCount + 1 );
for( uiPos = 0; uiPos <= uiPCount; uiPos++ )
{
hb_arraySet( pArray, uiPos + 1, hb_stackItemFromBase( uiPos ) );
}
return pArray;
}
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