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8414073d1c2ca7c04bb417ce57fbc00a5feb6f2b
harbour-core/harbour/source/vm/estack.c
Przemyslaw Czerpak 917c8057e6 2006-06-14 13:05 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/config/linux/dir.cf
  * harbour/config/linux/gcc.cf
    * formatting

  * harbour/config/linux/global.cf
  * harbour/config/linux/install.cf
    * added -ldl to linked library list and RANLIB executing after library
      creation

  * harbour/contrib/ole/ole2.c
    * added #include "hbapicls.h"

  + harbour/include/hbapicls.h
  * harbour/include/hbapi.h
    + added HB_IT_ENUM item
    + added collect member to HB_IT_POINTER structure for POINTER items
      inspected by GC
    * changed the order of HB_CODEBLOCK members to safe few bytes on
      alignment
    * removed counters from HB_CODEBLOCK and HB_BASEARRAY structure
    + added hb_xRefInc(), hb_xRefDec(), hb_xRefFree(), hb_xRefCount(),
      hb_xRefResize() functions. They are internal Harbour VM functions
      and covered by internal API macro. Should not be used by 3-rd
      party code because we may change them in the future or even remove.
    + added hb_gcRefInc(), hb_gcRefDec(), hb_gcRefFree(), hb_gcRefCount()
      functions. These are also internal function which corresponds to the
      above hb_x*() ones.
    - removed hb_arrayRelease() function. This function is not longer
      necessary and it should never be public function - it was implemented
      in very dangerous way.
    - removed hb_codeblockDelete() function.
    - removed hb_memvarValueDecGarbageRef()
    + added USHORT usLen parameter to hb_codeblockMacroNew() - when sets
      to non 0 value it informs that PCODE should be copied to dynamically
      allocated buffer.
    * moved all classes/object functions to separate file: hbapicls.h
    + added hb_retptrGC()
    + added internal function hb_memvarGetItem()

  * harbour/include/hbapiitm.h
    - removed hb_itemForwardValue() and added macro which translates
      hb_itemForwardValue() to hb_itemMove()
    + added hb_itemUnShareString() and hb_itemReSizeString() functions
    + added hb_itemSetNil() macro

  * harbour/include/hbdefs.h
    * some cleanups in macro definitions

  * harbour/include/hbexprb.c
    * indenting

  * harbour/include/hbvm.h
  * harbour/include/hbinit.h
    + added hb_vmProcessSymbolsExt(), hb_vmRegisterSymbols(),
      hb_vmFreeSymbols(), hb_vmBeginSymbolGroup(),
      hb_vmInitSymbolGroup(), hb_vmExitSymbolGroup()
    * changed hb_vmProcessSymbols() to return address of register symbol
      table. For normal code it's the same address as given in parameter
      so it does not break backward binary compatibility.
    * changed symbol init macros to work correctly with modified address
      of symbol table

  * harbour/include/hbsetup.h
    * added support for HB_USE_PROFILER macro. Now profiler code is
      is disable in HVM by default
    * commented out HB_ASORT_OPT_ITEMCOPY - it's not longer used - see note.

  * harbour/include/hbstack.h
    * added missing parenthesis in hb_stackItem() macro

  * harbour/include/hbtypes.h
    * updated VM_PROCESS_DLL_SYMBOLS definition
    + added VM_PROCESS_SYMBOLS_EXT
    - removed HB_ARRAYRELEASE

  * harbour/include/hbver.h
    * changed revision number to 2

  * harbour/include/hbvmpub.h
    - remove pFunPtr from HB_DYNS and cover profiler member by
      #ifndef HB_NO_PROFILER
    + added HB_PCODEFUNC structure
    + added HB_FS_PCODEFUNC, HB_FS_DYNCODE and HB_FS_LOCAL - the last one
      is not used yet.

  * harbour/include/hbxvm.h
    * added some multipcode functions for some speed optimization in -gc3
      output

  * harbour/include/hbapicdp.h
  * harbour/source/codepage/cpbg866.c
  * harbour/source/codepage/cpbgiso.c
  * harbour/source/codepage/cpbgwin.c
  * harbour/source/codepage/cpeldos.c
  * harbour/source/codepage/cpelwin.c
  * harbour/source/codepage/cpesdos.c
  * harbour/source/codepage/cpesmwi.c
  * harbour/source/codepage/cpeswin.c
  * harbour/source/codepage/cpgedos.c
  * harbour/source/codepage/cpgewin.c
  * harbour/source/codepage/cphu852.c
  * harbour/source/codepage/cphuiso.c
  * harbour/source/codepage/cphuwin.c
  * harbour/source/codepage/cppl852.c
  * harbour/source/codepage/cppliso.c
  * harbour/source/codepage/cpplmaz.c
  * harbour/source/codepage/cpplwin.c
  * harbour/source/codepage/cppt850.c
  * harbour/source/codepage/cpptiso.c
  * harbour/source/codepage/cpru866.c
  * harbour/source/codepage/cprukoi.c
  * harbour/source/codepage/cpruwin.c
  * harbour/source/codepage/cpsl437.c
  * harbour/source/codepage/cpsl852.c
  * harbour/source/codepage/cpsliso.c
  * harbour/source/codepage/cpslwin.c
  * harbour/source/codepage/cpsrwin.c
  * harbour/source/common/hbfhnd.c
  * harbour/source/common/hbstr.c
  * harbour/source/common/hbver.c
  * harbour/source/compiler/gencli.c
  * harbour/source/rtl/fstemp.c
  * harbour/source/rtl/hbgtcore.c
  * harbour/source/rtl/langapi.c
  * harbour/source/rtl/gtalleg/gtalleg.c
  * harbour/source/rtl/gtalleg/ssf.h
  * harbour/source/rtl/gtcgi/gtcgi.c
  * harbour/source/rtl/gtcrs/gtcrs.c
  * harbour/source/rtl/gtdos/gtdos.c
  * harbour/source/rtl/gtos2/gtos2.c
  * harbour/source/rtl/gtpca/gtpca.c
  * harbour/source/rtl/gtsln/gtsln.c
  * harbour/source/rtl/gtstd/gtstd.c
  * harbour/source/rtl/gtwin/gtwin.c
  * harbour/source/rtl/gtwvt/gtwvt.c
  * harbour/source/rtl/gtxwc/gtxwc.c
    * cleaned the code to avoid warnings for some non ANSI C constructions

  * harbour/source/compiler/cmdcheck.c
    * formatting

  * harbour/source/compiler/gencc.c
    * added some multipcode optimizations

  * harbour/source/compiler/genc.c
    * keep function name set by compiler for static initstatics

  * harbour/source/compiler/harbour.c
    * extend init statics name with the number of used static variables
    * formatting

  * harbour/source/compiler/hbusage.c
    + added my name to developers list - I hope that there is enough
      of my code in Harbour (BTW for quite long time) ;-)

  * harbour/source/rdd/dbcmd.c
    - removed DBF2TEXT() function

  * harbour/source/rdd/dbf1.c
  * harbour/source/rdd/dbffpt/dbffpt1.c
    * generate RT error when someone tries to create DBF with memo fields
      without MEMO RDD linked.

  * harbour/source/rtl/errorapi.c
    * replace all hb_vmDo() with hb_vmSend()

  * harbour/source/rtl/math.c
    * use hb_errPutArgs() to pass parameters to error object

  * harbour/source/rtl/philes.c
  * harbour/source/rtl/space.c
  * harbour/source/rtl/strpeek.c
    * some minor optimizations

  * harbour/source/vm/arrays.c
    - removed hb_arrayRelease() function.
    * changed hb_arrayReleaseGarbage() to be safe for recursive call
    * updated to use GC counters

  * harbour/source/vm/arrayshb.c
    * use stack function/macros instead of direct accessing HB_STACK members

  * harbour/source/vm/asort.c
    * removed unused HB_ASORT_OPT_ITEMCOPY

  * harbour/source/vm/classes.c
    * added class code from HVM
    % added fast overloaded operator detection and execution
    + added hb_objHasOperator(), hb_objOperatorCall()
    + added separated overloading of "=" and "==" operators
    * operate on PHB_SYMB not PHB_FUNC - support for pure PCODE function
      without any machine code
    * use stack function/macros instead of direct accessing HB_STACK members
    * separated profiler code
    * some code cleaning

  * harbour/source/vm/codebloc.c
    + added USHORT usLen parameter to hb_codeblockMacroNew() - when sets
      to non 0 value it informs that PCODE should be copied to dynamically
      allocated buffer.
    * updated to use GC counters
    - removed hb_codeblockDelete() function.
    * changed hb_codeblockDeleteGarbage() to be safe for recursive call
    - removed restoring statics base in hb_codeblockEvaluate()

  * harbour/source/vm/debug.c
    * cleaned and optimized some code

  * harbour/source/vm/dynlibhb.c
    + added support for loading and unloading dynamic libraries with PCODE
    + added support for dynamic libraries in Linux (.so)
    + added HB_LIBERROR() - returns error string with last error in
      HB_LIBLOAD() - now works only in Linux

  * harbour/source/vm/dynsym.c
    * separated profiler code
    + use pDynSym->pSymbol->value.pFunPtr instead of pDynSym->pFunPtr

  * harbour/source/vm/estack.c
    + added #include "hbapicls.h"
    + added hb_stackPushReturn(), hb_stackPopReturn()

  * harbour/source/vm/eval.c
  * harbour/source/vm/extend.c
    * use stack function/macros instead of direct accessing HB_STACK members
    + added hb_retptrGC()

  * harbour/source/vm/fm.c
    + added hb_xRefInc(), hb_xRefDec(), hb_xRefFree(), hb_xRefCount(),
      hb_xRefResize() functions. They are internal Harbour VM functions
      and covered by internal API macro. Should not be used by 3-rd
      party code because we may change them in the future or even remove.

  * harbour/source/vm/garbage.c
    + added hb_gcRefInc(), hb_gcRefDec(), hb_gcRefFree(), hb_gcRefCount()
      functions. These are also internal function which corresponds to the
      above hb_x*() ones.
    * changed Step 3 of GC pass and execution of clean-up function to be
      safe for recursive calls and additional activity.
      Ryszard see my note and s_pDeletedBlock
    + added GC inspected HB_IT_POINTER items.

  * harbour/source/vm/hvm.c
    * separated profiler code
    * separated class code from HVM
    + added support for loading and unloading libraries with PCODE modules
    + added support for pure PCODE functions
    + added support for string item resizing and preallocating string buffer
    + added some new multipcode functions for -gc3 optimization
    + added hb_vmProcessSymbolsExt(), hb_vmRegisterSymbols(),
      hb_vmFreeSymbols(), hb_vmBeginSymbolGroup(),
      hb_vmInitSymbolGroup(), hb_vmExitSymbolGroup()
    * changed hb_vmProcessSymbols() to return address of register symbol
      table. For normal code it's the same address as given in parameter
      so it does not break backward binary compatibility.
    + use new code for operator overloading
    * changed FOR EACH to dynamically check iteration scope in
      hb_vmEnumNext()/hb_vmEnumPrev() and remove max number of iteration
      stored on HVM stack
    * temporary use hb_itemUnRefOnce() instead of hb_itemUnRefRefer() as
      workaround for possible GPF. I'd like Ryszard will chose the final
      version

  * harbour/source/vm/itemapi.c
    + added support for preallocating string buffer size
    + added hb_itemUnShareString() and hb_itemReSizeString()
    * updated string items to use counters allocated with each
      memory block by xh_xgrab()/hb_xalloc()
    * updated codeblock and array items to use GC reference counters
    + added GC inspected HB_IT_POINTER items.
    * generate RT error in hb_itemUnreOnce() for enumerator items
      out of scope
    + added hb_itemPutPtrGC()

  * harbour/source/vm/macro.c
    * use pDynSym->pSymbol->value.pFunPtr instead of pDynSym->pFunPtr

  * harbour/source/vm/maindllp.c
    * updated usage of hb_vmProcessSymbols()
    * added hb_vmProcessSymbolsExt()

  * harbour/source/vm/memvars.c
    + added hb_memvarGetItem()
    - removed hb_memvarValueDecGarbageRef()

  * harbour/source/vm/proc.c
    + added #include "hbapicls.h"

  * harbour/source/vm/pvalue.c
    * do not access stack structure directly but use hb_stack*()
      functions (macros)

  * harbour/source/vm/runner.c
    * synced with xHarbour

  * harbour/utils/hbtest/rt_misc.prg
   * added overloading "=" operator. Now "==" and "=" can be overloaded
     with different methods

   All names I used for new functions/macros can be changed. Please look at
   it and if you will some better propositions then we can use it.
   hb_vmProcessSymbolsExt() is added but not used yet.
2006-06-14 11:21:26 +00:00

521 lines
14 KiB
C
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/*
* $Id$
*/
/*
* Harbour Project source code:
* The eval stack management functions
*
* 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.
*
*/
#if defined(HB_INCLUDE_WINEXCHANDLER)
#define HB_OS_WIN_32_USED
#endif
#include "hbvmopt.h"
#include "hbapi.h"
#include "hbapicls.h"
#include "hbdefs.h"
#include "hbstack.h"
#include "hbapiitm.h"
#include "hbapierr.h"
HB_EXTERN_BEGIN
/* ------------------------------- */
#if !defined( STACK_INITHB_ITEMS )
#define STACK_INITHB_ITEMS 200
#endif
#if !defined( STACK_EXPANDHB_ITEMS )
#define STACK_EXPANDHB_ITEMS 20
#endif
HB_STACK hb_stack;
/* ------------------------------- */
#undef hb_stackPop
void hb_stackPop( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackPop()"));
if( --hb_stack.pPos < hb_stack.pItems )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
if( HB_IS_COMPLEX( * hb_stack.pPos ) )
hb_itemClear( * hb_stack.pPos );
}
#undef hb_stackPopReturn
void hb_stackPopReturn( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackPopReturn()"));
if( HB_IS_COMPLEX( &hb_stack.Return ) )
hb_itemClear( &hb_stack.Return );
if( --hb_stack.pPos < hb_stack.pItems )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
hb_itemRawMove( &hb_stack.Return, * hb_stack.pPos );
}
#undef hb_stackDec
void hb_stackDec( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackDec()"));
if( --hb_stack.pPos < hb_stack.pItems )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
}
#undef hb_stackDecrease
void hb_stackDecrease( ULONG ulItems )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackDec()"));
if( ( hb_stack.pPos -= ulItems ) < hb_stack.pItems )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
}
void hb_stackFree( void )
{
LONG i;
HB_TRACE(HB_TR_DEBUG, ("hb_stackFree()"));
i = hb_stack.wItems - 1;
while( i >= 0 )
hb_xfree( hb_stack.pItems[ i-- ] );
hb_xfree( hb_stack.pItems );
}
#undef hb_stackPush
void hb_stackPush( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackPush()"));
/* enough room for another item ? */
if( ++hb_stack.pPos == hb_stack.pEnd )
hb_stackIncrease();
/* now, push it: */
( * hb_stack.pPos )->type = HB_IT_NIL;
}
#undef hb_stackPushReturn
void hb_stackPushReturn( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackPushReturn()"));
hb_itemRawMove( * hb_stack.pPos, &hb_stack.Return );
/* enough room for another item ? */
if( ++hb_stack.pPos == hb_stack.pEnd )
hb_stackIncrease();
/* now, push it: */
( * hb_stack.pPos )->type = HB_IT_NIL;
}
void hb_stackIncrease( void )
{
LONG BaseIndex; /* index of stack base */
LONG CurrIndex; /* index of current top item */
LONG EndIndex; /* index of current top item */
HB_TRACE(HB_TR_DEBUG, ("hb_stackIncrease()"));
BaseIndex = hb_stack.pBase - hb_stack.pItems;
CurrIndex = hb_stack.pPos - hb_stack.pItems;
EndIndex = hb_stack.pEnd - hb_stack.pItems;
/* no, make more headroom: */
/* hb_stackDispLocal(); */
hb_stack.pItems = ( PHB_ITEM * ) hb_xrealloc( ( void * ) hb_stack.pItems,
sizeof( PHB_ITEM ) * ( hb_stack.wItems + STACK_EXPANDHB_ITEMS ) );
/* fix possibly modified by realloc pointers: */
hb_stack.pPos = hb_stack.pItems + CurrIndex;
hb_stack.pBase = hb_stack.pItems + BaseIndex;
hb_stack.wItems += STACK_EXPANDHB_ITEMS;
hb_stack.pEnd = hb_stack.pItems + hb_stack.wItems;
while( EndIndex < hb_stack.wItems )
hb_stack.pItems[ EndIndex++ ] = ( PHB_ITEM ) hb_xgrab( sizeof( HB_ITEM ) );
}
void hb_stackInit( void )
{
LONG i;
HB_TRACE(HB_TR_DEBUG, ("hb_stackInit()"));
hb_stack.pItems = ( PHB_ITEM * ) hb_xgrab( sizeof( PHB_ITEM ) * STACK_INITHB_ITEMS );
hb_stack.pBase = hb_stack.pItems;
hb_stack.pPos = hb_stack.pItems; /* points to the first stack item */
hb_stack.wItems = STACK_INITHB_ITEMS;
hb_stack.pEnd = hb_stack.pItems + hb_stack.wItems;
for( i=0; i < hb_stack.wItems; ++i )
hb_stack.pItems[ i ] = ( PHB_ITEM ) hb_xgrab( sizeof( HB_ITEM ) );
}
void hb_stackRemove( LONG lUntilPos )
{
HB_ITEM_PTR * pEnd = hb_stack.pItems + lUntilPos;
while( hb_stack.pPos > pEnd )
hb_stackPop();
}
HB_ITEM_PTR hb_stackNewFrame( HB_STACK_STATE * pStack, USHORT uiParams )
{
HB_ITEM_PTR pItem;
pItem = hb_stackItemFromTop( - uiParams - 2 ); /* procedure name */
if( ! HB_IS_SYMBOL( pItem ) )
{
/* QUESTION: Is this call needed ? [vszakats] */
hb_stackDispLocal();
hb_errInternal( HB_EI_VMNOTSYMBOL, NULL, "hb_vmDo()", NULL );
}
pStack->lBaseItem = hb_stack.pBase - hb_stack.pItems;
pStack->iStatics = hb_stack.iStatics;
pItem->item.asSymbol.lineno = 0;
pItem->item.asSymbol.paramcnt = uiParams;
hb_stack.pBase = hb_stack.pItems + pItem->item.asSymbol.stackbase;
pItem->item.asSymbol.stackbase = pStack->lBaseItem;
return pItem;
}
void hb_stackOldFrame( HB_STACK_STATE * pStack )
{
while( hb_stack.pPos > hb_stack.pBase )
hb_stackPop();
hb_stack.pBase = hb_stack.pItems + pStack->lBaseItem;
hb_stack.iStatics = pStack->iStatics;
}
#undef hb_stackItem
HB_ITEM_PTR hb_stackItem( LONG iItemPos )
{
if( iItemPos < 0 )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
return ( * ( hb_stack.pItems + iItemPos ) );
}
#undef hb_stackItemFromTop
HB_ITEM_PTR hb_stackItemFromTop( int nFromTop )
{
if( nFromTop > 0 )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
return ( * ( hb_stack.pPos + nFromTop ) );
}
#undef hb_stackItemFromBase
HB_ITEM_PTR hb_stackItemFromBase( int nFromBase )
{
if( nFromBase <= 0 )
hb_errInternal( HB_EI_STACKUFLOW, NULL, NULL, NULL );
return ( * ( hb_stack.pBase + nFromBase + 1 ) );
}
#undef hb_stackTopItem
HB_ITEM_PTR hb_stackTopItem( void )
{
return * hb_stack.pPos;
}
#undef hb_stackBaseItem
HB_ITEM_PTR hb_stackBaseItem( void )
{
return * hb_stack.pBase;
}
/* Returns SELF object, an evaluated codeblock or NIL for normal func/proc
*/
#undef hb_stackSelfItem
HB_ITEM_PTR hb_stackSelfItem( void )
{
return * ( hb_stack.pBase + 1 );
}
#undef hb_stackReturnItem
HB_ITEM_PTR hb_stackReturnItem( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_stackReturnItem()"));
return &hb_stack.Return;
}
#undef hb_stackTopOffset
LONG hb_stackTopOffset( void )
{
return hb_stack.pPos - hb_stack.pItems;
}
#undef hb_stackBaseOffset
LONG hb_stackBaseOffset( void )
{
return hb_stack.pBase - hb_stack.pItems + 1;
}
/* NOTE: DEBUG function */
void hb_stackDispLocal( void )
{
PHB_ITEM * pBase;
HB_TRACE(HB_TR_DEBUG, ("hb_stackDispLocal()"));
printf( hb_conNewLine() );
printf( HB_I_("Virtual Machine Stack Dump at %s(%i):"), ( *(hb_stack.pBase) )->item.asSymbol.value->szName, ( *(hb_stack.pBase) )->item.asSymbol.lineno );
printf( hb_conNewLine() );
printf( "--------------------------" );
for( pBase = hb_stack.pBase; pBase <= hb_stack.pPos; pBase++ )
{
printf( hb_conNewLine() );
switch( hb_itemType( *pBase ) )
{
case HB_IT_NIL:
printf( HB_I_("NIL ") );
break;
case HB_IT_ARRAY:
if( hb_arrayIsObject( *pBase ) )
printf( HB_I_("OBJECT = %s "), hb_objGetClsName( *pBase ) );
else
printf( HB_I_("ARRAY ") );
break;
case HB_IT_BLOCK:
printf( HB_I_("BLOCK ") );
break;
case HB_IT_DATE:
{
char szDate[ 9 ];
printf( HB_I_("DATE = \"%s\" "), hb_itemGetDS( *pBase, szDate ) );
}
break;
case HB_IT_DOUBLE:
printf( HB_I_("DOUBLE = %f "), hb_itemGetND( *pBase ) );
break;
case HB_IT_LOGICAL:
printf( HB_I_("LOGICAL = %s "), hb_itemGetL( *pBase ) ? ".T." : ".F." );
break;
case HB_IT_LONG:
printf( HB_I_("LONG = %" PFHL "i ") , hb_itemGetNInt( *pBase ) );
break;
case HB_IT_INTEGER:
printf( HB_I_("INTEGER = %i "), hb_itemGetNI( *pBase ) );
break;
case HB_IT_STRING:
printf( HB_I_("STRING = \"%s\" "), hb_itemGetCPtr( *pBase ) );
break;
case HB_IT_SYMBOL:
printf( HB_I_("SYMBOL = %s "), ( *pBase )->item.asSymbol.value->szName );
break;
case HB_IT_POINTER:
printf( HB_I_("POINTER = %p "), ( *pBase )->item.asPointer.value );
break;
default:
printf( HB_I_("UNKNOWN = TYPE %i "), hb_itemType( *pBase ) );
break;
}
}
}
void hb_stackDispCall( void )
{
PHB_ITEM * pBase = hb_stack.pBase;
HB_TRACE(HB_TR_DEBUG, ("hb_stackDispCall()"));
while( pBase != hb_stack.pItems )
{
char buffer[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 32 ];
pBase = hb_stack.pItems + ( *pBase )->item.asSymbol.stackbase;
if( ( *( pBase + 1 ) )->type == HB_IT_ARRAY )
sprintf( buffer, HB_I_("Called from %s:%s(%i)"), hb_objGetClsName( *(pBase + 1) ),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
else
sprintf( buffer, HB_I_("Called from %s(%i)"),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
hb_conOutErr( buffer, 0 );
hb_conOutErr( hb_conNewLine(), 0 );
}
}
/* ------------------------------------------------------------------------ */
/* The garbage collector interface */
/* ------------------------------------------------------------------------ */
/* Mark all locals as used so they will not be released by the
* garbage collector
*/
void hb_vmIsLocalRef( void )
{
HB_TRACE(HB_TR_DEBUG, ("hb_vmIsLocalRef()"));
if( hb_stack.pPos > hb_stack.pItems )
{
/* the eval stack is not cleared yet */
HB_ITEM_PTR * pItem = hb_stack.pPos - 1;
while( pItem != hb_stack.pItems )
{
if( HB_IS_GCITEM( *pItem ) )
hb_gcItemRef( *pItem );
--pItem;
}
}
}
#ifdef HB_INCLUDE_WINEXCHANDLER
#if defined(HB_OS_WIN_32)
LONG WINAPI hb_UnhandledExceptionFilter( struct _EXCEPTION_POINTERS * ExceptionInfo )
{
PHB_ITEM *pBase = hb_stack.pBase;
char msg[ ( HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 32 ) * 32 ];
HB_SYMBOL_UNUSED( ExceptionInfo );
msg[ 0 ] = '\0';
do
{
char buffer[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 32 ];
if( ( *( pBase + 1 ) )->type == HB_IT_ARRAY )
sprintf( buffer, HB_I_("Called from %s:%s(%i)\n"), hb_objGetClsName( *(pBase + 1) ),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
else
sprintf( buffer, HB_I_("Called from %s(%i)\n"),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
strcat( msg, buffer );
pBase = hb_stack.pItems + ( *pBase )->item.asSymbol.stackbase;
}
while( pBase != hb_stack.pItems );
MessageBox( NULL, msg, HB_I_("Harbour Exception"), MB_ICONSTOP );
return EXCEPTION_CONTINUE_SEARCH; /* EXCEPTION_EXECUTE_HANDLER; */
}
#endif
#endif
#if defined(HB_OS_OS2)
ULONG _System OS2TermHandler(PEXCEPTIONREPORTRECORD p1,
PEXCEPTIONREGISTRATIONRECORD p2,
PCONTEXTRECORD p3,
PVOID pv) {
PHB_ITEM *pBase = hb_stack.pBase;
HB_SYMBOL_UNUSED(p1);
HB_SYMBOL_UNUSED(p2);
HB_SYMBOL_UNUSED(p3);
HB_SYMBOL_UNUSED(pv);
/* Don't print stack trace if inside unwind, normal process termination or process killed or
during debugging */
if (p1->ExceptionNum != XCPT_UNWIND && p1->ExceptionNum < XCPT_BREAKPOINT) {
fprintf(stderr, HB_I_("\nException %lx at address %p \n"), p1->ExceptionNum, p1->ExceptionAddress);
do
{
if( ( *( pBase + 1 ) )->type == HB_IT_ARRAY )
fprintf( stderr, HB_I_("Called from %s:%s(%i)\n"), hb_objGetClsName( *(pBase + 1) ),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
else
fprintf( stderr, HB_I_("Called from %s(%i)\n"),
( *pBase )->item.asSymbol.value->szName,
( *pBase )->item.asSymbol.lineno );
pBase = hb_stack.pItems + ( *pBase )->item.asSymbol.stackbase;
}
while( pBase != hb_stack.pItems );
}
return XCPT_CONTINUE_SEARCH; /* Exception not resolved... */
}
#endif
HB_EXTERN_END
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