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harbour-core/contrib/xhb/cstructc.c
Viktor Szakats e00f50079e 2017-09-11 13:12 UTC Viktor Szakats (vszakats users.noreply.github.com) 
* contrib/gtqtc/gtqtc1.cpp
  * contrib/gtwvg/gtwgud.c
  * contrib/gtwvw/wvwdraw.c
  * contrib/hbamf/amfdec.c
  * contrib/hbamf/amfstdio.c
  * contrib/hbbz2io/bz2io.c
  * contrib/hbgzio/gzio.c
  * contrib/hbhpdf/core.c
  * contrib/hbmemio/memio.c
  * contrib/hbmisc/irm.c
  * contrib/hbmisc/spd.c
  * contrib/hbnetio/netiosrv.c
  * contrib/hbssl/ssl_sock.c
  * contrib/hbwin/olecore.c
  * contrib/hbwin/wapi_commctrl.c
  * contrib/hbwin/wapi_winuser.c
  * contrib/hbwin/win_bmpd.c
  * contrib/hbwin/win_misc.c
  * contrib/hbzebra/qrcode.c
  * contrib/rddads/ads1.c
  * contrib/rddads/adsfunc.c
  * contrib/rddsql/sqlmix.c
  * contrib/sddfb/core.c
  * contrib/xhb/cstructc.c
  * contrib/xhb/hboutdbg.c
  * contrib/xhb/hbserv.c
  * include/hbdefs.h
  * include/hbexprb.c
  * include/hbrddcdx.h
  * include/hbthread.h
  * include/hbwmain.c
  * src/common/hbffind.c
  * src/compiler/complex.c
  * src/compiler/hbmain.c
  * src/compiler/hbopt.c
  * src/debug/dbgentry.c
  * src/rdd/dbf1.c
  * src/rdd/dbfcdx/dbfcdx1.c
  * src/rdd/dbffpt/dbffpt1.c
  * src/rdd/dbfnsx/dbfnsx1.c
  * src/rdd/dbfntx/dbfntx1.c
  * src/rdd/hbsix/sxcompr.c
  * src/rdd/wacore.c
  * src/rdd/workarea.c
  * src/rtl/cputime.c
  * src/rtl/dates.c
  * src/rtl/gtchrmap.c
  * src/rtl/gtcrs/gtcrs.c
  * src/rtl/gtpca/gtpca.c
  * src/rtl/gtsln/gtsln.c
  * src/rtl/gtsln/kbsln.c
  * src/rtl/gtsln/keytrans.c
  * src/rtl/gtstd/gtstd.c
  * src/rtl/gttrm/gttrm.c
  * src/rtl/gtwvt/gtwvt.c
  * src/rtl/gtxwc/gtxwc.c
  * src/rtl/hbcom.c
  * src/rtl/hbproces.c
  * src/rtl/itemseri.c
  * src/rtl/langapi.c
  * src/rtl/run.c
  * src/rtl/sha1.c
  * src/rtl/space.c
  * src/vm/classes.c
  * src/vm/hvm.c
  * src/vm/itemapi.c
  * src/vm/set.c
  * src/vm/thread.c
    * convert commented C code to #if 0 blocks, or clean them up in
      different ways
2017-09-11 13:27:12 +00:00

1381 lines
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/*
* C Structure Support.
*
* Copyright 2000 Ron Pinkas <ronpinkas@profit-master.com>
*
* 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 program; see the file LICENSE.txt. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA (or visit https://www.gnu.org/licenses/).
*
* 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.
*
*/
#include "hbvmint.h" /* FIXME: clean the code to not access any internal HVM structures */
#include "hbapi.h"
#include "hbvm.h"
#include "hbstack.h"
#include "hbapiitm.h"
#include "hbapicls.h"
#include "hbapierr.h"
#include "hbapilng.h"
#include "hbset.h"
#include "hbctypes.ch"
static PHB_ITEM hb_itemPutCRaw( PHB_ITEM pItem, const char * szText, HB_SIZE nLen )
{
HB_TRACE( HB_TR_DEBUG, ( "hb_itemPutCRaw(%p, %s, %" HB_PFS "u)", ( void * ) pItem, szText, nLen ) );
if( pItem )
{
if( HB_IS_COMPLEX( pItem ) )
hb_itemClear( pItem );
}
else
pItem = hb_itemNew( NULL );
if( nLen == 0 )
{
if( szText )
hb_xfree( HB_UNCONST( szText ) );
szText = "";
}
pItem->type = HB_IT_STRING;
pItem->item.asString.length = nLen;
pItem->item.asString.value = ( char * ) HB_UNCONST( szText );
pItem->item.asString.allocated = nLen;
return pItem;
}
#undef hb_itemPutCRawStatic
static PHB_ITEM hb_itemPutCRawStatic( PHB_ITEM pItem, const char * szText, HB_SIZE nLen )
{
HB_TRACE( HB_TR_DEBUG, ( "hb_itemPutCRawStatic(%p, %s, %" HB_PFS "u)", ( void * ) pItem, szText, nLen ) );
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;
pItem->item.asString.length = nLen;
pItem->item.asString.value = ( char * ) HB_UNCONST( szText );
return pItem;
}
#if 0
#undef hb_retclenAdoptRaw
void hb_retclenAdoptRaw( const char * szText, HB_SIZE nLen )
{
hb_itemPutCRaw( hb_stackReturnItem(), szText, nLen );
}
#undef hb_retclenStatic
void hb_retclenStatic( const char * szText, HB_SIZE nLen )
{
hb_itemPutCRawStatic( hb_stackReturnItem(), szText, nLen );
}
#endif
static HB_UINT SizeOfCStructure( PHB_ITEM aDef, HB_UINT uiAlign )
{
PHB_BASEARRAY pBaseDef = aDef->item.asArray.value;
HB_SIZE nLen = pBaseDef->nLen;
HB_SIZE nIndex;
HB_UINT uiSize = 0, uiMemberSize;
HB_BYTE cShift;
HB_UINT uiPad;
for( nIndex = 0; nIndex < nLen; nIndex++ )
{
if( ( pBaseDef->pItems + nIndex )->type != HB_IT_INTEGER )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "SizeOfCStructure", 1, hb_paramError( 1 ) );
return 0;
}
switch( ( pBaseDef->pItems + nIndex )->item.asInteger.value )
{
case CTYPE_CHAR: /* char */
case CTYPE_UNSIGNED_CHAR: /* unsigned char */
uiMemberSize = sizeof( char );
break;
case CTYPE_CHAR_PTR: /* char * */
case CTYPE_UNSIGNED_CHAR_PTR: /* unsigned char * */
uiMemberSize = sizeof( char * );
break;
case CTYPE_SHORT: /* short */
case CTYPE_UNSIGNED_SHORT: /* unsigned short */
uiMemberSize = sizeof( short );
break;
case CTYPE_SHORT_PTR: /* short */
case CTYPE_UNSIGNED_SHORT_PTR: /* unsigned short */
uiMemberSize = sizeof( short * );
break;
case CTYPE_INT: /* int */
case CTYPE_UNSIGNED_INT: /* unsigned int */
uiMemberSize = sizeof( int );
break;
case CTYPE_INT_PTR: /* int * */
case CTYPE_UNSIGNED_INT_PTR: /* unsigned int * */
uiMemberSize = sizeof( int * );
break;
case CTYPE_LONG: /* long */
case CTYPE_UNSIGNED_LONG: /* unsigned long */
uiMemberSize = sizeof( long );
break;
case CTYPE_LONG_PTR: /* long * */
case CTYPE_UNSIGNED_LONG_PTR: /* unsigned long * */
uiMemberSize = sizeof( long * );
break;
case CTYPE_FLOAT: /* float */
uiMemberSize = sizeof( float );
break;
case CTYPE_FLOAT_PTR: /* float * */
uiMemberSize = sizeof( float * );
break;
case CTYPE_DOUBLE: /* double */
uiMemberSize = sizeof( double );
break;
case CTYPE_DOUBLE_PTR: /* double * */
uiMemberSize = sizeof( double * );
break;
case CTYPE_VOID_PTR: /* void * (pointer) */
uiMemberSize = sizeof( void * );
break;
default:
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value >= CTYPE_STRUCTURE_PTR )
{
uiMemberSize = sizeof( void * );
}
else if( ( pBaseDef->pItems + nIndex )->item.asInteger.value >= CTYPE_STRUCTURE )
{
PHB_ITEM pID = hb_itemPutNI( NULL, ( pBaseDef->pItems + nIndex )->item.asInteger.value );
PHB_ITEM pStructure = hb_itemDoC( "HB_CSTRUCTUREFROMID", 1, pID );
hb_itemRelease( pID );
if( HB_IS_OBJECT( pStructure ) )
{
hb_objSendMsg( pStructure, "SizeOf", 0 );
uiMemberSize = ( HB_UINT ) hb_parns( -1 );
hb_itemRelease( pStructure );
}
else
{
hb_itemRelease( pStructure );
hb_errRT_BASE( EG_ARG, 2023, NULL, "SizeOfCStructure", 1, hb_paramError( 1 ) );
return 0;
}
}
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "SizeOfCStructure", 1, hb_paramError( 1 ) );
return 0;
}
}
if( uiSize )
{
uiPad = ( ( uiMemberSize < uiAlign ) ? uiMemberSize : uiAlign );
if( ( cShift = ( HB_BYTE ) ( uiSize % uiPad ) ) > 0 )
uiSize += uiPad - cShift;
}
uiSize += uiMemberSize;
#if 0
printf( "#%" HB_PFS "u Size: %u Align: %u Pad: %u Shift %i Size: %u\n", nIndex, uiMemberSize, uiAlign, uiPad, cShift, uiSize );
#endif
}
if( ( cShift = ( HB_BYTE ) ( uiSize % uiAlign ) ) > 0 )
uiSize += uiAlign - cShift;
#if 0
printf( "#%" HB_PFS "u Size: %u Align: %u Pad: %u Shift %i Size: %u\n", nIndex, uiMemberSize, uiAlign, uiPad, cShift, uiSize );
#endif
return uiSize;
}
HB_FUNC( HB_SIZEOFCSTRUCTURE )
{
PHB_ITEM aDef = hb_param( 1, HB_IT_ARRAY );
if( aDef )
{
PHB_ITEM pAlign = hb_param( 2, HB_IT_INTEGER );
HB_UINT uiAlign;
if( pAlign )
uiAlign = ( HB_BYTE ) pAlign->item.asInteger.value;
else
uiAlign = 8;
hb_retni( SizeOfCStructure( aDef, uiAlign ) );
}
else
hb_errRT_BASE( EG_ARG, 2023, NULL, "SizeOfCStructure", 2, hb_paramError( 1 ), hb_paramError( 2 ) );
}
static HB_BYTE * ArrayToStructure( PHB_ITEM aVar, PHB_ITEM aDef, HB_UINT uiAlign, HB_UINT * puiSize )
{
PHB_BASEARRAY pBaseVar = aVar->item.asArray.value;
PHB_BASEARRAY pBaseDef = aDef->item.asArray.value;
HB_SIZE nLen = pBaseDef->nLen;
HB_SIZE nIndex;
HB_BYTE * Buffer;
HB_UINT uiOffset = 0, uiMemberSize;
HB_BYTE cShift;
*puiSize = SizeOfCStructure( aDef, uiAlign );
#if 0
printf( "Size: %i\n", *puiSize );
#endif
Buffer = ( HB_BYTE * ) hb_xgrab( *puiSize + 1 );
for( nIndex = 0; nIndex < nLen; nIndex++ )
{
#if 0
printf( "#: %i\n", nIndex );
#endif
switch( ( pBaseDef->pItems + nIndex )->item.asInteger.value )
{
case CTYPE_CHAR: /* char */
case CTYPE_UNSIGNED_CHAR: /* unsigned char */
if( ( pBaseVar->pItems + nIndex )->type && ! HB_IS_NUMERIC( pBaseVar->pItems + nIndex ) )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( char );
break;
case CTYPE_CHAR_PTR: /* char * */
case CTYPE_UNSIGNED_CHAR_PTR: /* unsigned char * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_STRING &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( char * );
break;
case CTYPE_SHORT: /* short */
case CTYPE_UNSIGNED_SHORT: /* unsigned short */
/* Type check performed in actual translation... */
uiMemberSize = sizeof( short );
break;
case CTYPE_SHORT_PTR: /* short * */
case CTYPE_UNSIGNED_SHORT_PTR: /* unsigned short * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( short * );
break;
case CTYPE_INT: /* int */
case CTYPE_UNSIGNED_INT: /* unsigned int */
/* Type check performed in actual translation... */
uiMemberSize = sizeof( int );
break;
case CTYPE_INT_PTR: /* int * */
case CTYPE_UNSIGNED_INT_PTR: /* unsigned int * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( int * );
break;
case CTYPE_LONG: /* long */
case CTYPE_UNSIGNED_LONG: /* unsigned long */
/* Type check performed in actual translation... */
uiMemberSize = sizeof( long );
break;
case CTYPE_LONG_PTR: /* long * */
case CTYPE_UNSIGNED_LONG_PTR: /* unsigned long * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( long * );
break;
case CTYPE_FLOAT: /* float */
if( ( pBaseVar->pItems + nIndex )->type && ( pBaseVar->pItems + nIndex )->type != HB_IT_DOUBLE )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( float );
break;
case CTYPE_FLOAT_PTR: /* float * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_DOUBLE &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( float * );
break;
case CTYPE_DOUBLE: /* double */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_DOUBLE )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( double );
break;
case CTYPE_DOUBLE_PTR: /* double * */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_DOUBLE &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( double * );
break;
case CTYPE_VOID_PTR: /* void * (pointer) */
if( ( pBaseVar->pItems + nIndex )->type &&
( pBaseVar->pItems + nIndex )->type != HB_IT_POINTER &&
( pBaseVar->pItems + nIndex )->type != HB_IT_LONG &&
( pBaseVar->pItems + nIndex )->type != HB_IT_STRING )
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
uiMemberSize = sizeof( void * );
break;
default:
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value >= CTYPE_STRUCTURE_PTR )
{
uiMemberSize = sizeof( void * );
}
else if( ( pBaseDef->pItems + nIndex )->item.asInteger.value >= CTYPE_STRUCTURE )
{
PHB_ITEM pID = hb_itemPutNI( NULL, ( pBaseDef->pItems + nIndex )->item.asInteger.value );
PHB_ITEM pStructure = hb_itemDoC( "HB_CSTRUCTUREFROMID", 1, pID );
hb_itemRelease( pID );
if( HB_IS_OBJECT( pStructure ) )
{
hb_objSendMsg( pStructure, "SizeOf", 0 );
uiMemberSize = ( HB_UINT ) hb_parns( -1 );
hb_itemRelease( pStructure );
}
else
{
hb_itemRelease( pStructure );
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
}
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
}
if( uiOffset )
{
HB_UINT uiPad = ( ( uiMemberSize < uiAlign ) ? uiMemberSize : uiAlign );
if( ( cShift = ( HB_BYTE ) ( uiOffset % uiPad ) ) > 0 )
uiOffset += uiPad - cShift;
}
#if 0
printf( "* Size: %i Offset: %i\n", uiMemberSize, uiOffset );
#endif
switch( ( pBaseDef->pItems + nIndex )->item.asInteger.value )
{
case CTYPE_CHAR: /* char */
if( ( pBaseVar->pItems + nIndex )->type )
*( ( char * ) ( Buffer + uiOffset ) ) = ( char ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else
*( ( char * ) ( Buffer + uiOffset ) ) = 0;
break;
case CTYPE_UNSIGNED_CHAR: /* unsigned char */
if( ( pBaseVar->pItems + nIndex )->type )
*( ( HB_BYTE * ) ( Buffer + uiOffset ) ) = ( HB_BYTE ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else
*( ( HB_BYTE * ) ( Buffer + uiOffset ) ) = 0;
break;
case CTYPE_CHAR_PTR: /* char * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_STRING:
*( ( char ** ) ( Buffer + uiOffset ) ) = ( pBaseVar->pItems + nIndex )->item.asString.value;
break;
case HB_IT_POINTER:
*( ( char ** ) ( Buffer + uiOffset ) ) = ( char * ) ( pBaseVar->pItems + nIndex )->item.asPointer.value;
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( char ** ) ( Buffer + uiOffset ) ) = ( char * ) ( HB_PTRUINT ) ( pBaseVar->pItems + nIndex )->item.asInteger.value;
break;
#endif
case HB_IT_LONG:
*( ( char ** ) ( Buffer + uiOffset ) ) = ( char * ) ( HB_PTRUINT ) ( pBaseVar->pItems + nIndex )->item.asLong.value;
break;
default:
*( ( char ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_UNSIGNED_CHAR_PTR: /* unsigned char * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_STRING:
*( ( HB_BYTE ** ) ( Buffer + uiOffset ) ) = ( HB_BYTE * ) ( ( pBaseVar->pItems + nIndex )->item.asString.value );
break;
case HB_IT_POINTER:
*( ( HB_BYTE ** ) ( Buffer + uiOffset ) ) = ( HB_BYTE * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( HB_BYTE ** ) ( Buffer + uiOffset ) ) = ( HB_BYTE * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( HB_BYTE ** ) ( Buffer + uiOffset ) ) = ( HB_BYTE * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( HB_BYTE ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_SHORT: /* short */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( short * ) ( Buffer + uiOffset ) ) = ( short ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( short * ) ( Buffer + uiOffset ) ) = ( short ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( short * ) ( Buffer + uiOffset ) ) = ( short ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( short * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_UNSIGNED_SHORT: /* unsigned short */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( unsigned short * ) ( Buffer + uiOffset ) ) = ( unsigned short ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( unsigned short * ) ( Buffer + uiOffset ) ) = ( unsigned short ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( unsigned short * ) ( Buffer + uiOffset ) ) = ( unsigned short ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( unsigned short * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_SHORT_PTR: /* short * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( short ** ) ( Buffer + uiOffset ) ) = ( short * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( short ** ) ( Buffer + uiOffset ) ) = ( short * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( short ** ) ( Buffer + uiOffset ) ) = ( short * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( short ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_UNSIGNED_SHORT_PTR: /* unsigned short * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( unsigned short ** ) ( Buffer + uiOffset ) ) = ( unsigned short * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( unsigned short ** ) ( Buffer + uiOffset ) ) = ( unsigned short * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( unsigned short ** ) ( Buffer + uiOffset ) ) = ( unsigned short * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( unsigned short ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_INT: /* int */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( int * ) ( Buffer + uiOffset ) ) = ( int ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( int * ) ( Buffer + uiOffset ) ) = ( int ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( int * ) ( Buffer + uiOffset ) ) = ( int ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( int * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_UNSIGNED_INT: /* unsigned int */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( unsigned int * ) ( Buffer + uiOffset ) ) = ( unsigned int ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( unsigned int * ) ( Buffer + uiOffset ) ) = ( unsigned int ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( unsigned int * ) ( Buffer + uiOffset ) ) = ( unsigned int ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( unsigned int * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_INT_PTR: /* int * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( int ** ) ( Buffer + uiOffset ) ) = ( int * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( int ** ) ( Buffer + uiOffset ) ) = ( int * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( int ** ) ( Buffer + uiOffset ) ) = ( int * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( int ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_UNSIGNED_INT_PTR: /* unsigned int * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( unsigned int ** ) ( Buffer + uiOffset ) ) = ( unsigned int * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( unsigned int ** ) ( Buffer + uiOffset ) ) = ( unsigned int * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( unsigned int ** ) ( Buffer + uiOffset ) ) = ( unsigned int * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( unsigned int ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_LONG: /* long */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( long * ) ( Buffer + uiOffset ) ) = ( long ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( long * ) ( Buffer + uiOffset ) ) = ( long ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( long * ) ( Buffer + uiOffset ) ) = ( long ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( long * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_UNSIGNED_LONG: /* unsigned long */
if( ( pBaseVar->pItems + nIndex )->type == HB_IT_INTEGER )
*( ( unsigned long * ) ( Buffer + uiOffset ) ) = ( unsigned long ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_LONG )
*( ( unsigned long * ) ( Buffer + uiOffset ) ) = ( unsigned long ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_DOUBLE )
*( ( unsigned long * ) ( Buffer + uiOffset ) ) = ( unsigned long ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
else if( ( pBaseVar->pItems + nIndex )->type == HB_IT_NIL )
*( ( unsigned long * ) ( Buffer + uiOffset ) ) = 0;
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return NULL;
}
break;
case CTYPE_LONG_PTR: /* long * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( long ** ) ( Buffer + uiOffset ) ) = ( long * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( long ** ) ( Buffer + uiOffset ) ) = ( long * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( long ** ) ( Buffer + uiOffset ) ) = ( long * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( long ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_UNSIGNED_LONG_PTR: /* unsigned long * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( unsigned long ** ) ( Buffer + uiOffset ) ) = ( unsigned long * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( unsigned long ** ) ( Buffer + uiOffset ) ) = ( unsigned long * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( unsigned long ** ) ( Buffer + uiOffset ) ) = ( unsigned long * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( unsigned long ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_FLOAT: /* float */
if( ( pBaseVar->pItems + nIndex )->type )
*( ( float * ) ( Buffer + uiOffset ) ) = ( float ) ( pBaseVar->pItems + nIndex )->item.asDouble.value;
else
*( ( float * ) ( Buffer + uiOffset ) ) = 0;
break;
case CTYPE_FLOAT_PTR: /* float * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( float ** ) ( Buffer + uiOffset ) ) = ( float * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( float ** ) ( Buffer + uiOffset ) ) = ( float * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( float ** ) ( Buffer + uiOffset ) ) = ( float * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
/* Is this correct??? IMHO It's a bug */
case HB_IT_DOUBLE:
**( ( float ** ) ( Buffer + uiOffset ) ) = ( float ) ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
break;
default:
*( ( float ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_DOUBLE: /* double */
if( ( pBaseVar->pItems + nIndex )->type )
*( ( double * ) ( Buffer + uiOffset ) ) = ( pBaseVar->pItems + nIndex )->item.asDouble.value;
else
*( ( double * ) ( Buffer + uiOffset ) ) = 0;
break;
case CTYPE_DOUBLE_PTR: /* double * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( double ** ) ( Buffer + uiOffset ) ) = ( double * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( double ** ) ( Buffer + uiOffset ) ) = ( double * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( double ** ) ( Buffer + uiOffset ) ) = ( double * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
/* Is this correct??? IMHO It's a bug */
case HB_IT_DOUBLE:
**( ( double ** ) ( Buffer + uiOffset ) ) = ( ( pBaseVar->pItems + nIndex )->item.asDouble.value );
break;
default:
*( ( double ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
case CTYPE_VOID_PTR: /* void * */
switch( ( pBaseVar->pItems + nIndex )->type )
{
case HB_IT_POINTER:
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) ( ( pBaseVar->pItems + nIndex )->item.asPointer.value );
break;
#if UINT_MAX == ULONG_MAX
case HB_IT_INTEGER:
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asInteger.value );
break;
#endif
case HB_IT_LONG:
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) ( HB_PTRUINT ) ( ( pBaseVar->pItems + nIndex )->item.asLong.value );
break;
default:
*( ( void ** ) ( Buffer + uiOffset ) ) = NULL;
break;
}
break;
default:
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE )
{
PHB_ITEM pStructure = pBaseVar->pItems + nIndex;
if( HB_IS_LONG( pStructure ) )
{
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) ( HB_PTRUINT ) pStructure->item.asLong.value;
else
memcpy( ( void * ) ( Buffer + uiOffset ), ( void * ) ( HB_PTRUINT ) pStructure->item.asLong.value, uiMemberSize );
}
#if UINT_MAX == ULONG_MAX
else if( HB_IS_INTEGER( pStructure ) )
{
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) ( HB_PTRUINT ) pStructure->item.asInteger.value;
else
memcpy( ( void * ) ( Buffer + uiOffset ), ( void * ) ( HB_PTRUINT ) pStructure->item.asInteger.value, uiMemberSize );
}
#endif
else if( HB_IS_NIL( pStructure ) )
{
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
*( ( void ** ) ( Buffer + uiOffset ) ) = NULL;
else
memset( ( void * ) ( Buffer + uiOffset ), 0, uiMemberSize );
}
else if( strncmp( hb_objGetClsName( pStructure ), "C Structure", 11 ) == 0 )
{
PHB_BASEARRAY pBaseStructure = pStructure->item.asArray.value;
PHB_ITEM pInternalBuffer = pBaseStructure->pItems + pBaseStructure->nLen - 1;
hb_objSendMsg( pStructure, "VALUE", 0 );
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
*( ( void ** ) ( Buffer + uiOffset ) ) = ( void * ) pInternalBuffer->item.asString.value;
else
memcpy( ( void * ) ( Buffer + uiOffset ), ( void * ) pInternalBuffer->item.asString.value, uiMemberSize );
}
else
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
}
else
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
}
#if 0
printf( "Wrote %i bytes at Offset %i\n", uiMemberSize, uiOffset );
#endif
uiOffset += uiMemberSize;
}
return Buffer;
}
HB_FUNC( HB_ARRAYTOSTRUCTURE )
{
PHB_ITEM aVar = hb_param( 1, HB_IT_ARRAY );
PHB_ITEM aDef = hb_param( 2, HB_IT_ARRAY );
PHB_ITEM pAlign = hb_param( 3, HB_IT_INTEGER );
if( aVar && aDef )
{
HB_UINT uiSize;
HB_UINT uiAlign;
HB_BYTE * Buffer;
if( pAlign )
uiAlign = ( HB_BYTE ) pAlign->item.asInteger.value;
else
uiAlign = 8;
Buffer = ArrayToStructure( aVar, aDef, uiAlign, &uiSize );
hb_retclen_buffer( ( char * ) Buffer, uiSize );
}
else
hb_errRT_BASE( EG_ARG, 2023, NULL, "ArrayToStructure", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
}
static PHB_ITEM StructureToArray( HB_BYTE * Buffer, HB_SIZE nBufferLen, PHB_ITEM aDef, HB_UINT uiAlign, HB_BOOL bAdoptNested, PHB_ITEM pRet )
{
PHB_BASEARRAY pBaseDef = aDef->item.asArray.value;
HB_SIZE nLen = pBaseDef->nLen;
HB_SIZE nIndex;
HB_UINT uiOffset, uiMemberSize;
HB_BYTE cShift;
#if 0
PHB_ITEM pRet = hb_itemNew( NULL );
#endif
PHB_BASEARRAY pBaseVar;
#if 0
TraceLog( NULL, "StructureToArray(%p, %p, %u, %i) ->%u\n", ( const void * ) Buffer, ( void * ) aDef, uiAlign, bAdoptNested, nLen );
#endif
#if 0
hb_arrayNew( pRet, nLen );
#endif
pBaseVar = pRet->item.asArray.value;
uiOffset = 0;
for( nIndex = 0; nIndex < nLen; nIndex++ )
{
switch( ( pBaseDef->pItems + nIndex )->item.asInteger.value )
{
case CTYPE_CHAR: /* char */
case CTYPE_UNSIGNED_CHAR: /* unsigned char */
uiMemberSize = sizeof( char );
break;
case CTYPE_CHAR_PTR: /* char * */
case CTYPE_UNSIGNED_CHAR_PTR: /* unsigned char * */
uiMemberSize = sizeof( char * );
break;
case CTYPE_SHORT: /* short */
case CTYPE_UNSIGNED_SHORT: /* unsigned short */
uiMemberSize = sizeof( short );
break;
case CTYPE_SHORT_PTR: /* short * */
case CTYPE_UNSIGNED_SHORT_PTR: /* unsigned short * */
uiMemberSize = sizeof( short * );
break;
case CTYPE_INT: /* int */
case CTYPE_UNSIGNED_INT: /* unsigned int */
uiMemberSize = sizeof( int );
break;
case CTYPE_INT_PTR: /* int * */
case CTYPE_UNSIGNED_INT_PTR: /* unsigned int * */
uiMemberSize = sizeof( int * );
break;
case CTYPE_LONG: /* long */
case CTYPE_UNSIGNED_LONG: /* unsigned long */
uiMemberSize = sizeof( long );
break;
case CTYPE_LONG_PTR: /* long * */
case CTYPE_UNSIGNED_LONG_PTR: /* unsigned long * */
uiMemberSize = sizeof( long * );
break;
case CTYPE_FLOAT: /* float */
uiMemberSize = sizeof( float );
break;
case CTYPE_FLOAT_PTR: /* float * */
uiMemberSize = sizeof( float * );
break;
case CTYPE_DOUBLE: /* double */
uiMemberSize = sizeof( double );
break;
case CTYPE_DOUBLE_PTR: /* double * */
uiMemberSize = sizeof( double * );
break;
case CTYPE_VOID_PTR: /* void * (pointer) */
uiMemberSize = sizeof( void * );
break;
default:
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
{
uiMemberSize = sizeof( void * );
}
else if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE )
{
PHB_ITEM pID = hb_itemPutNI( NULL, ( pBaseDef->pItems + nIndex )->item.asInteger.value );
PHB_ITEM pStructure = hb_itemDoC( "HB_CSTRUCTUREFROMID", 1, pID );
hb_itemRelease( pID );
if( HB_IS_OBJECT( pStructure ) )
{
hb_objSendMsg( pStructure, "SizeOf", 0 );
uiMemberSize = ( HB_UINT ) hb_parns( -1 );
hb_itemRelease( pStructure );
}
else
{
hb_itemRelease( pStructure );
hb_errRT_BASE( EG_ARG, 2023, NULL, "StructureToArray", 1, hb_paramError( 1 ) );
return pRet;
}
}
else
{
hb_errRT_BASE( EG_ARG, 2023, NULL, "StructureToArray", 3, hb_paramError( 1 ), hb_paramError( 2 ), hb_paramError( 3 ) );
return pRet;
}
}
if( uiOffset )
{
HB_UINT uiPad = ( ( uiMemberSize < uiAlign ) ? uiMemberSize : uiAlign );
if( ( cShift = ( HB_BYTE ) ( uiOffset % uiPad ) ) > 0 )
uiOffset += uiPad - cShift;
#if 0
TraceLog( NULL, "* Size: %i Offset: %i Pad: %i\n", uiMemberSize, uiOffset, uiPad );
#endif
}
else
{
#if 0
TraceLog( NULL, "* Size: %i Offset: %i\n", uiMemberSize, uiOffset );
#endif
}
if( ( uiOffset + uiMemberSize ) > nBufferLen )
break;
switch( ( pBaseDef->pItems + nIndex )->item.asInteger.value )
{
case CTYPE_CHAR: /* char */
hb_itemPutNI( pBaseVar->pItems + nIndex, ( int ) *( ( char * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_UNSIGNED_CHAR: /* unsigned char */
hb_itemPutNI( pBaseVar->pItems + nIndex, ( int ) *( ( HB_BYTE * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_CHAR_PTR: /* char * */
if( HB_IS_STRING( pBaseVar->pItems + nIndex ) && ( pBaseVar->pItems + nIndex )->item.asString.value == *( ( char ** ) ( Buffer + uiOffset ) ) )
{
#if 0
TraceLog( NULL, "IDENTICAL: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
}
else if( ! bAdoptNested )
{
#if 0
TraceLog( NULL, "Static: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
hb_itemPutCConst( pBaseVar->pItems + nIndex, *( ( char ** ) ( Buffer + uiOffset ) ) );
}
else
{
#if 0
TraceLog( NULL, "Adopt: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
hb_itemPutC( pBaseVar->pItems + nIndex, *( ( char ** ) ( Buffer + uiOffset ) ) );
}
break;
case CTYPE_UNSIGNED_CHAR_PTR: /* unsigned char * */
if( HB_IS_STRING( pBaseVar->pItems + nIndex ) && ( pBaseVar->pItems + nIndex )->item.asString.value == *( ( char ** ) ( Buffer + uiOffset ) ) )
{
#if 0
TraceLog( NULL, "IDENTICAL: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
}
else if( ! bAdoptNested )
{
#if 0
TraceLog( NULL, "Static: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
hb_itemPutCConst( pBaseVar->pItems + nIndex, *( ( char ** ) ( Buffer + uiOffset ) ) );
}
else
{
#if 0
TraceLog( NULL, "Adopt: %s\n", *( ( char ** ) ( Buffer + uiOffset ) ) );
#endif
hb_itemPutC( pBaseVar->pItems + nIndex, *( ( char ** ) ( Buffer + uiOffset ) ) );
}
break;
case CTYPE_SHORT: /* short */
hb_itemPutNI( pBaseVar->pItems + nIndex, *( ( short * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_UNSIGNED_SHORT: /* unsigned short */
hb_itemPutNI( pBaseVar->pItems + nIndex, ( short ) *( ( unsigned short * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_SHORT_PTR: /* short * */
case CTYPE_UNSIGNED_SHORT_PTR: /* unsigned short * */
hb_itemPutPtr( pBaseVar->pItems + nIndex, ( void * ) ( Buffer + uiOffset ) );
break;
case CTYPE_INT: /* int */
hb_itemPutNI( pBaseVar->pItems + nIndex, *( ( int * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_UNSIGNED_INT: /* unsigned int */
hb_itemPutNI( pBaseVar->pItems + nIndex, ( int ) *( ( unsigned int * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_INT_PTR: /* int * */
case CTYPE_UNSIGNED_INT_PTR: /* unsigned int * */
hb_itemPutPtr( pBaseVar->pItems + nIndex, ( void * ) ( Buffer + uiOffset ) );
break;
case CTYPE_LONG: /* long */
hb_itemPutNL( pBaseVar->pItems + nIndex, *( ( long * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_UNSIGNED_LONG: /* unsigned long */
hb_itemPutNL( pBaseVar->pItems + nIndex, ( long ) *( ( unsigned long * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_LONG_PTR: /* long * */
case CTYPE_UNSIGNED_LONG_PTR: /* unsigned long * */
hb_itemPutPtr( pBaseVar->pItems + nIndex, ( void * ) ( Buffer + uiOffset ) );
break;
case CTYPE_FLOAT: /* float */
hb_itemPutND( pBaseVar->pItems + nIndex, ( double ) *( ( float * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_FLOAT_PTR: /* float * */
hb_itemPutPtr( pBaseVar->pItems + nIndex, ( void * ) ( Buffer + uiOffset ) );
break;
case CTYPE_DOUBLE: /* double */
hb_itemPutND( pBaseVar->pItems + nIndex, *( ( double * ) ( Buffer + uiOffset ) ) );
break;
case CTYPE_DOUBLE_PTR: /* double * */
case CTYPE_VOID_PTR: /* void * */
hb_itemPutPtr( pBaseVar->pItems + nIndex, ( void * ) ( Buffer + uiOffset ) );
break;
default:
{
HB_UINT uiNestedSize /*, uiNestedAlign */;
PHB_ITEM pID = hb_itemPutNI( NULL, ( pBaseDef->pItems + nIndex )->item.asInteger.value );
PHB_ITEM pStructure = hb_itemDoC( "HB_CSTRUCTUREFROMID", 1, pID );
hb_itemRelease( pID );
if( ! HB_IS_OBJECT( pStructure ) )
{
hb_itemRelease( pStructure );
hb_errRT_BASE( EG_ARG, 2023, NULL, "StructureToArray", 2, hb_paramError( 1 ), hb_paramError( 2 ) );
return pRet;
}
hb_objSendMsg( pStructure, "NALIGN", 0 );
hb_objSendMsg( pStructure, "SizeOf", 0 );
uiNestedSize = ( HB_UINT ) hb_parns( -1 );
#if 0
TraceLog( NULL, "* NestedSize: %i Offset: %i\n", uiNestedSize, uiOffset );
#endif
if( ( pBaseDef->pItems + nIndex )->item.asInteger.value > CTYPE_STRUCTURE_PTR )
{
#if 0
printf( "Offset %i Pointer: %p\n", uiOffset, *( char ** ) ( (long ** )( Buffer + uiOffset ) ) );
#endif
if( *( char ** ) ( ( long ** ) ( Buffer + uiOffset ) ) )
{
PHB_BASEARRAY pBaseStructure = pStructure->item.asArray.value;
PHB_ITEM pInternalBuffer = pBaseStructure->pItems + pBaseStructure->nLen - 1;
if( ! bAdoptNested )
hb_itemPutCRawStatic( pInternalBuffer, *( char ** ) ( ( long ** ) ( Buffer + uiOffset ) ), uiNestedSize );
else
hb_itemPutCRaw( pInternalBuffer, *( char ** ) ( ( long ** ) ( Buffer + uiOffset ) ), uiNestedSize );
hb_objSendMsg( pStructure, "DEVALUE", 0 );
}
else
{
#if 0
hb_objSendMsg( pStructure, "RESET", 0 );
#endif
hb_itemClear( pStructure );
}
}
else
{
PHB_BASEARRAY pBaseStructure = pStructure->item.asArray.value;
PHB_ITEM pInternalBuffer = pBaseStructure->pItems + pBaseStructure->nLen - 1;
HB_ITEM Adopt;
Adopt.type = HB_IT_LOGICAL;
Adopt.item.asLogical.value = bAdoptNested;
#if 0
TraceLog( NULL, "Before Devalue\n" );
#endif
hb_itemPutCRawStatic( pInternalBuffer, ( char * ) ( HB_BYTE * ) ( Buffer + uiOffset ), uiNestedSize );
hb_objSendMsg( pStructure, "DEVALUE", 1, &Adopt );
#if 0
TraceLog( NULL, "After Devalue\n" );
#endif
}
hb_itemMove( pBaseVar->pItems + nIndex, pStructure );
hb_itemRelease( pStructure );
}
}
uiOffset += uiMemberSize;
#if 0
TraceLog( NULL, "AFTER Size: %i Offset: %i\n", uiMemberSize, uiOffset );
#endif
}
return pRet;
}
HB_FUNC( HB_STRUCTURETOARRAY )
{
PHB_ITEM Structure = hb_param( 1, HB_IT_STRING );
PHB_ITEM aDef = hb_param( 2, HB_IT_ARRAY );
PHB_ITEM pAlign = hb_param( 3, HB_IT_INTEGER );
PHB_ITEM pAdopt = hb_param( 4, HB_IT_LOGICAL );
PHB_ITEM pRet = hb_param( 5, HB_IT_ARRAY );
if( Structure && aDef )
{
HB_BYTE * Buffer = ( HB_BYTE * ) Structure->item.asString.value;
HB_UINT uiAlign;
HB_BOOL bAdopt;
if( pAlign )
uiAlign = ( HB_BYTE ) pAlign->item.asInteger.value;
else
uiAlign = 8;
if( pAdopt )
bAdopt = pAdopt->item.asLogical.value;
else
bAdopt = HB_FALSE;
hb_itemReturnForward( StructureToArray( Buffer, Structure->item.asString.length, aDef, uiAlign, bAdopt, pRet ) );
}
else
hb_errRT_BASE( EG_ARG, 2023, NULL, "StructureToArray", 2, hb_paramError( 1 ), hb_paramError( 2 ) );
}
HB_FUNC( HB_POINTER2STRING )
{
PHB_ITEM pPointer = hb_param( 1, HB_IT_ANY );
PHB_ITEM pLen = hb_param( 2, HB_IT_NUMERIC );
if( HB_IS_POINTER( pPointer ) && pLen )
hb_retclen( ( char * ) hb_itemGetPtr( pPointer ), hb_itemGetNS( pLen ) );
else if( HB_IS_INTEGER( pPointer ) && pLen )
hb_retclen( ( char * ) ( HB_PTRUINT ) hb_itemGetNI( pPointer ), hb_itemGetNS( pLen ) );
else if( HB_IS_LONG( pPointer ) && pLen )
hb_retclen( ( char * ) ( HB_PTRUINT ) hb_itemGetNL( pPointer ), hb_itemGetNS( pLen ) );
else
hb_errRT_BASE_SubstR( EG_ARG, 1099, NULL, HB_ERR_FUNCNAME, 2, hb_paramError( 1 ), hb_paramError( 2 ) );
}
HB_FUNC( HB_STRING2POINTER )
{
const char * pszString = hb_parc( 1 );
if( pszString )
hb_retptr( HB_UNCONST( pszString ) );
else
hb_errRT_BASE_SubstR( EG_ARG, 1099, NULL, HB_ERR_FUNCNAME, 1, hb_paramError( 1 ) );
}
HB_FUNC( __CSTR_COPYTO )
{
static PHB_DYNS s_pVALUE = NULL;
PHB_ITEM pTarget = hb_param( 1, HB_IT_ANY );
PHB_ITEM pStructure;
void * pPointer;
if( s_pVALUE == NULL )
s_pVALUE = hb_dynsymGetCase( "VALUE" );
if( HB_IS_LONG( pTarget ) )
pPointer = ( void * ) ( HB_PTRUINT ) hb_itemGetNInt( pTarget );
#if UINT_MAX == ULONG_MAX
else if( HB_IS_INTEGER( pTarget ) )
pPointer = ( void * ) ( HB_PTRUINT ) hb_itemGetNInt( pTarget );
#endif
else if( HB_IS_POINTER( pTarget ) )
pPointer = hb_itemGetPtr( pTarget );
else
{
hb_errRT_BASE_SubstR( EG_ARG, 1099, NULL, "C Structure:CopyTo()", 1, hb_paramError( 1 ) );
return;
}
pStructure = hb_stackSelfItem();
hb_vmPushDynSym( s_pVALUE );
hb_vmPush( pStructure );
hb_vmSend( 0 );
memcpy( pPointer, hb_parc( -1 ), hb_arrayGetNI( pStructure, hb_arrayLen( pStructure ) - 2 ) );
}
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