/* * $Id$ */ /* * xHarbour Project source code: * Debugger entry routine * * Copyright 2005 Phil Krylov * www - http://www.xharbour.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, xHarbour license gives permission for * additional uses of the text contained in its release of xHarbour. * * The exception is that, if you link the xHarbour 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 xHarbour 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 with this xHarbour * explicit exception. If you add/copy code from other sources, * as the General Public License permits, the above 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 xHarbour, 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 #include "hbvmopt.h" #include "hbapidbg.h" #include "hbapiitm.h" #include "hbapicls.h" #include "hbapirdd.h" #include "hbstack.h" #include "hbvm.h" #include "hbdebug.ch" #include "hbmacro.ch" /* dummy function declaration */ static BOOL hb_clsSetScope( BOOL fScope ) { return fScope; } #if defined( HB_OS_UNIX_COMPATIBLE ) #define FILENAME_EQUAL(s1, s2) ( !strcmp( (s1), (s2) ) ) #else #define FILENAME_EQUAL(s1, s2) ( !hb_stricmp( (s1), (s2) ) ) #endif #define ALLOC hb_xgrab #define FREE hb_xfree #define STRDUP hb_strdup #define STRNDUP( dest, source, len ) ( dest = hb_strndup( (source), (len) ) ) #define ARRAY_ADD( type, array, length ) \ ( ( ++length == 1 ) ? ( array = ( type * ) hb_xgrab( sizeof( type ) ) ) : \ ( ( array = ( type * ) hb_xrealloc( array, sizeof( type ) * length ) ) + \ length - 1 ) ) #define ARRAY_DEL( type, array, length, index ) \ do { \ if ( !--length ) \ hb_xfree( array ); \ else if( index < length ) \ memmove( array + index, array + index + 1, sizeof( type ) * ( length - index ) ); \ } while( 0 ) typedef struct { char *szModule; int nLine; char *szFunction; } HB_BREAKPOINT; typedef struct { int nIndex; PHB_ITEM xValue; } HB_TRACEPOINT; typedef struct { char *szName; char cType; int nFrame; int nIndex; } HB_VARINFO; typedef struct { char *szExpr; PHB_ITEM pBlock; int nVars; char **aVars; HB_VARINFO *aScopes; } HB_WATCHPOINT; typedef struct { char *szModule; char *szFunction; int nLine; int nProcLevel; int nLocals; HB_VARINFO *aLocals; int nStatics; HB_VARINFO *aStatics; } HB_CALLSTACKINFO; typedef struct { char *szModule; int nStatics; HB_VARINFO *aStatics; int nGlobals; HB_VARINFO *aGlobals; int nExternGlobals; HB_VARINFO *aExternGlobals; } HB_MODULEINFO; typedef struct { BOOL bQuit; BOOL bGo; BOOL bInside; int nBreakPoints; HB_BREAKPOINT *aBreak; int nTracePoints; HB_TRACEPOINT *aTrace; int nWatchPoints; HB_WATCHPOINT *aWatch; BOOL bTraceOver; int nTraceLevel; BOOL bNextRoutine; BOOL bCodeBlock; BOOL bToCursor; int nToCursorLine; char *szToCursorModule; int nProcLevel; int nCallStackLen; HB_CALLSTACKINFO *aCallStack; int nModules; HB_MODULEINFO *aModules; BOOL bCBTrace; BOOL ( *pFunInvoke )( void ); BOOL bInitGlobals; BOOL bInitStatics; BOOL bInitLines; PHB_ITEM pStopLines; } HB_DEBUGINFO; static HB_DEBUGINFO s_Info = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* bCBTrace */ TRUE, 0, 0, 0, 0, 0 }; static HB_DEBUGINFO *s_pInfo = &s_Info; static PHB_ITEM hb_dbgActivateBreakArray( HB_DEBUGINFO *info ); static PHB_ITEM hb_dbgActivateModuleArray( HB_DEBUGINFO *info ); static PHB_ITEM hb_dbgActivateVarArray( int nVars, HB_VARINFO *aVars ); static void hb_dbgAddLocal( HB_DEBUGINFO *info, char *szName, int nIndex, int nFrame ); static void hb_dbgAddModule( HB_DEBUGINFO *info, char *szName ); static void hb_dbgAddStack( HB_DEBUGINFO *info, char *szName, int nProcLevel ); static void hb_dbgAddStatic( HB_DEBUGINFO *info, char *szName, int nIndex, int nFrame ); static void hb_dbgAddStopLines( HB_DEBUGINFO *info, PHB_ITEM pItem ); static void hb_dbgAddVar( int *nVars, HB_VARINFO **aVars, char *szName, char cType, int nIndex, int nFrame ); static void hb_dbgEndProc( HB_DEBUGINFO *info ); static PHB_ITEM hb_dbgEval( HB_DEBUGINFO *info, HB_WATCHPOINT *watch ); static PHB_ITEM hb_dbgEvalMacro( char *szExpr, PHB_ITEM pItem ); static PHB_ITEM hb_dbgEvalMakeBlock( HB_WATCHPOINT *watch ); static PHB_ITEM hb_dbgEvalResolve( HB_DEBUGINFO *info, HB_WATCHPOINT *watch ); static BOOL hb_dbgIsAltD( void ); static BOOL hb_dbgIsBreakPoint( HB_DEBUGINFO *info, char *szModule, int nLine ); static BOOL hb_dbgEqual( PHB_ITEM pItem1, PHB_ITEM pItem2 ); static void hb_dbgQuit( HB_DEBUGINFO *info ); static PHB_ITEM hb_dbgVarGet( HB_VARINFO *scope ); static void hb_dbgVarSet( HB_VARINFO *scope, PHB_ITEM xNewValue ); static void hb_dbgActivate( HB_DEBUGINFO *info ) { PHB_DYNS pDynSym = hb_dynsymFind( "__DBGENTRY" ); if( pDynSym && pDynSym->pSymbol->value.pFunPtr ) { int i; PHB_ITEM aCallStack = hb_itemArrayNew( info->nCallStackLen ); PHB_ITEM aModules; PHB_ITEM aBreak; for ( i = 0; i < info->nCallStackLen; i++ ) { HB_CALLSTACKINFO *pEntry = &info->aCallStack[ i ]; PHB_ITEM aEntry = hb_itemArrayNew( 6 ); PHB_ITEM pItem; hb_arraySetC( aEntry, 1, pEntry->szModule ); hb_arraySetC( aEntry, 2, pEntry->szFunction ); hb_arraySetNL( aEntry, 3, pEntry->nLine ); hb_arraySetNL( aEntry, 4, pEntry->nProcLevel ); pItem = hb_dbgActivateVarArray( pEntry->nLocals, pEntry->aLocals ); hb_arraySet( aEntry, 5, pItem ); hb_itemRelease( pItem ); pItem = hb_dbgActivateVarArray( pEntry->nStatics, pEntry->aStatics ); hb_arraySet( aEntry, 6, pItem ); hb_itemRelease( pItem ); hb_arraySet( aCallStack, info->nCallStackLen - i, aEntry ); hb_itemRelease( aEntry ); } aModules = hb_dbgActivateModuleArray( info ); aBreak = hb_dbgActivateBreakArray( info ); hb_vmPushDynSym( pDynSym ); hb_vmPushNil(); hb_vmPushLong( HB_DBG_ACTIVATE ); hb_vmPushPointer( info ); hb_vmPushLong( info->nProcLevel ); hb_vmPush( aCallStack ); hb_vmPush( aModules ); hb_vmPush( aBreak ); hb_itemRelease( aCallStack ); hb_itemRelease( aModules ); hb_itemRelease( aBreak ); hb_vmDo( 6 ); } } static PHB_ITEM hb_dbgActivateBreakArray( HB_DEBUGINFO *info ) { int i; PHB_ITEM pArray = hb_itemArrayNew( info->nBreakPoints ); for ( i = 0; i < info->nBreakPoints; i++ ) { PHB_ITEM pBreak = hb_itemArrayNew( 3 ); if ( !info->aBreak[ i ].szFunction ) { hb_arraySetNI( pBreak, 1, info->aBreak[ i ].nLine ); hb_arraySetC( pBreak, 2, info->aBreak[ i ].szModule ); } else { hb_arraySetC( pBreak, 3, info->aBreak[ i ].szFunction ); } hb_arraySet( pArray, i + 1, pBreak ); hb_itemRelease( pBreak ); } return pArray; } static PHB_ITEM hb_dbgActivateModuleArray( HB_DEBUGINFO *info ) { int i; PHB_ITEM pArray = hb_itemArrayNew( info->nModules ); for ( i = 0; i < info->nModules; i++ ) { PHB_ITEM pModule = hb_itemArrayNew( 4 ); PHB_ITEM item; hb_arraySetC( pModule, 1, info->aModules[ i ].szModule ); item = hb_dbgActivateVarArray( info->aModules[ i ].nStatics, info->aModules[ i ].aStatics ); hb_arraySet( pModule, 2, item ); hb_itemRelease( item ); item = hb_dbgActivateVarArray( info->aModules[ i ].nGlobals, info->aModules[ i ].aGlobals ); hb_arraySet( pModule, 3, item ); hb_itemRelease( item ); item = hb_dbgActivateVarArray( info->aModules[ i ].nExternGlobals, info->aModules[ i ].aExternGlobals ); hb_arraySet( pModule, 4, item ); hb_itemRelease( item ); hb_arraySet( pArray, i + 1, pModule ); hb_itemRelease( pModule ); } return pArray; } static PHB_ITEM hb_dbgActivateVarArray( int nVars, HB_VARINFO *aVars ) { int i; PHB_ITEM pArray = hb_itemArrayNew( nVars ); for ( i = 0; i < nVars; i++ ) { PHB_ITEM aVar = hb_itemArrayNew( 4 ); hb_arraySetC( aVar, 1, aVars[ i ].szName ); hb_arraySetNL( aVar, 2, aVars[ i ].nIndex ); hb_arraySetCL( aVar, 3, &aVars[ i ].cType, 1 ); hb_arraySetNL( aVar, 4, aVars[ i ].nFrame ); hb_arraySet( pArray, i + 1, aVar ); hb_itemRelease( aVar ); } return pArray; } HB_EXPORT void hb_dbgEntry( int nMode, int nLine, char *szName, int nIndex, int nFrame ) { int i; ULONG nProcLevel; char szProcName[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 5 ]; HB_DEBUGINFO *info = s_pInfo; if ( ( info->bInside || info->bQuit ) && nMode != HB_DBG_VMQUIT ) return; switch ( nMode ) { case HB_DBG_MODULENAME: HB_TRACE( HB_TR_DEBUG, ( "MODULENAME %s", szName ) ); if ( szName[ strlen( szName ) - 1 ] == ':' ) return; hb_procinfo( 0, szProcName, NULL, NULL ); if ( !strncmp( szProcName, "(_INITSTATICS", 13 ) ) info->bInitStatics = TRUE; else if ( !strncmp( szProcName, "(_INITGLOBALS", 13 ) ) info->bInitGlobals = TRUE; else if ( !strncmp( szProcName, "(_INITLINES", 11 ) ) info->bInitLines = TRUE; if ( info->bInitStatics || info->bInitGlobals ) hb_dbgAddModule( info, szName ); else if ( !strncmp( szProcName, "(b)", 3 ) ) info->bCodeBlock = TRUE; else if ( info->bNextRoutine ) info->bNextRoutine = FALSE; hb_dbgAddStack( info, szName, hb_dbg_ProcLevel() ); for ( i = 0; i < info->nBreakPoints; i++ ) { if ( info->aBreak[ i ].szFunction && !strcmp( info->aBreak[ i ].szFunction, szProcName ) ) { hb_dbg_InvokeDebug( TRUE ); break; } } return; case HB_DBG_LOCALNAME: HB_TRACE( HB_TR_DEBUG, ( "LOCALNAME %s index %d", szName, nIndex ) ); hb_dbgAddLocal( info, szName, nIndex, hb_dbg_ProcLevel() ); return; case HB_DBG_STATICNAME: HB_TRACE( HB_TR_DEBUG, ( "STATICNAME %s index %d frame %d", szName, nIndex, nFrame ) ); hb_dbgAddStatic( info, szName, nIndex, nFrame ); return; case HB_DBG_SHOWLINE: { HB_CALLSTACKINFO *pTop = &info->aCallStack[ info->nCallStackLen - 1 ]; BOOL bOldClsScope; HB_TRACE( HB_TR_DEBUG, ( "SHOWLINE %d", nLine ) ); nProcLevel = hb_dbg_ProcLevel(); /* Check if we've hit a tracepoint */ bOldClsScope = hb_clsSetScope( FALSE ); for ( i = 0; i < info->nTracePoints; i++ ) { HB_TRACEPOINT *tp = &info->aTrace[ i ]; PHB_ITEM xValue; xValue = hb_dbgEval( info, &info->aWatch[ tp->nIndex ] ); if ( !xValue ) xValue = hb_itemNew( NULL ); if ( xValue->type != tp->xValue->type || !hb_dbgEqual( xValue, tp->xValue ) ) { hb_itemCopy( tp->xValue, xValue ); hb_itemRelease( xValue ); pTop->nLine = nLine; info->nProcLevel = nProcLevel - ( hb_dbgIsAltD() ? 2 : 0 ); info->bTraceOver = FALSE; info->bCodeBlock = FALSE; info->bGo = FALSE; if ( info->bToCursor ) { info->bToCursor = FALSE; FREE( info->szToCursorModule ); } info->bNextRoutine = FALSE; hb_dbgActivate( info ); return; } hb_itemRelease( xValue ); } hb_clsSetScope( bOldClsScope ); if ( hb_dbgIsBreakPoint( info, pTop->szModule, nLine ) || hb_dbg_InvokeDebug( FALSE ) || ( info->pFunInvoke && info->pFunInvoke() ) ) { info->bTraceOver = FALSE; if ( info->bToCursor ) { info->bToCursor = FALSE; FREE( info->szToCursorModule ); } info->bNextRoutine = FALSE; info->bGo = FALSE; } /* Check if we must skip every level above info->nTraceLevel */ if ( info->bTraceOver ) { if ( info->nTraceLevel < info->nCallStackLen ) return; info->bTraceOver = FALSE; } /* Check if we're skipping to a specific line of source */ if ( info->bToCursor ) { if ( nLine == info->nToCursorLine && FILENAME_EQUAL( pTop->szModule, info->szToCursorModule ) ) { FREE( info->szToCursorModule ); info->bToCursor = FALSE; } else { return; } } /* Check if'we skipping to the end of current routine */ if ( info->bNextRoutine ) return; if ( info->bCodeBlock ) { info->bCodeBlock = FALSE; if ( !info->bCBTrace ) return; } pTop->nLine = nLine; if ( !info->bGo ) { info->nProcLevel = nProcLevel - ( hb_dbgIsAltD() ? 2 : 0 ); hb_dbgActivate( info ); } return; } case HB_DBG_ENDPROC: if ( info->bQuit ) return; HB_TRACE( HB_TR_DEBUG, ( "ENDPROC", nLine ) ); if ( info->bInitLines ) { hb_dbgAddStopLines( info, hb_stackReturnItem() ); } info->bCodeBlock = FALSE; info->bInitStatics = FALSE; info->bInitGlobals = FALSE; info->bInitLines = FALSE; hb_dbgEndProc( info ); return; case HB_DBG_VMQUIT: hb_dbgQuit( info ); return; } } HB_EXPORT void hb_dbgAddBreak( void *handle, char *cModule, int nLine, char *szFunction ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; HB_BREAKPOINT *pBreak; pBreak = ARRAY_ADD( HB_BREAKPOINT, info->aBreak, info->nBreakPoints ); pBreak->szModule = STRDUP( cModule ); pBreak->nLine = nLine; if ( szFunction ) { pBreak->szFunction = STRDUP( szFunction ); } else { pBreak->szFunction = NULL; } } static void hb_dbgAddLocal( HB_DEBUGINFO *info, char *szName, int nIndex, int nFrame ) { if ( info->bInitGlobals ) { HB_MODULEINFO *module = &info->aModules[ info->nModules - 1 ]; hb_dbgAddVar( &module->nGlobals, &module->aGlobals, szName, 'G', nIndex, hb_dbg_vmVarGCount() ); } else { HB_CALLSTACKINFO *top = &info->aCallStack[ info->nCallStackLen - 1 ]; hb_dbgAddVar( &top->nLocals, &top->aLocals, szName, 'L', nIndex, nFrame ); } } static void hb_dbgAddModule( HB_DEBUGINFO *info, char *szName ) { char *ptr; if ( NULL != ( ptr = strrchr( szName, '/' ) ) ) { szName = ptr + 1; } if ( NULL != ( ptr = strrchr( szName, '\\' ) ) ) { szName = ptr + 1; } if ( !info->nModules || strcmp( info->aModules[ info->nModules - 1 ].szModule, szName ) ) { HB_MODULEINFO *pModule; pModule = ARRAY_ADD( HB_MODULEINFO, info->aModules, info->nModules ); pModule->szModule = szName; pModule->nStatics = 0; pModule->nGlobals = 0; pModule->nExternGlobals = 0; } } static void hb_dbgAddStack( HB_DEBUGINFO *info, char *szName, int nProcLevel ) { char szBuff[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 5 ]; HB_CALLSTACKINFO *top; char *szFunction = strrchr( szName, ':' ); char *tmp; if ( szFunction ) { szFunction++; } top = ARRAY_ADD( HB_CALLSTACKINFO, info->aCallStack, info->nCallStackLen ); if ( info->bCodeBlock ) { memcpy( szBuff, "(b)", 3 ); hb_strncpy( szBuff + 3, szFunction, sizeof( szBuff ) - 4 ); top->szFunction = STRDUP( szBuff ); } else { if ( szFunction ) { top->szFunction = STRDUP( szFunction ); } else { /* We're in an (_INITSTATICSnnnnn) pseudo-function */ hb_procinfo( 0, szBuff, NULL, NULL ); top->szFunction = STRDUP( szBuff ); } } tmp = strrchr( szName, '/' ); if ( tmp ) szName = tmp + 1; tmp = strrchr( szName, '\\' ); if ( tmp ) szName = tmp + 1; if ( szFunction ) { STRNDUP( top->szModule, szName, szFunction - szName - 1 ); } else { top->szModule = STRDUP( szName ); } top->nProcLevel = nProcLevel; top->nLine = 0; top->nLocals = 0; top->nStatics = 0; } static void hb_dbgAddStatic( HB_DEBUGINFO *info, char *szName, int nIndex, int nFrame ) { if ( info->bInitGlobals ) { HB_MODULEINFO *module = &info->aModules[ info->nModules - 1 ]; hb_dbgAddVar( &module->nExternGlobals, &module->aExternGlobals, szName, 'G', nIndex, hb_dbg_vmVarGCount() ); } else if ( info->bInitStatics ) { HB_MODULEINFO *module = &info->aModules[ info->nModules - 1 ]; hb_dbgAddVar( &module->nStatics, &module->aStatics, szName, 'S', nIndex, nFrame ); } else { HB_CALLSTACKINFO *top = &info->aCallStack[ info->nCallStackLen - 1 ]; hb_dbgAddVar( &top->nStatics, &top->aStatics, szName, 'S', nIndex, nFrame ); } } static void hb_dbgAddStopLines( HB_DEBUGINFO *info, PHB_ITEM pItem ) { int i, nLinesLen; if ( !info->pStopLines ) { info->pStopLines = hb_itemNew( pItem ); } else { int j; int nItemLen = hb_itemSize( pItem ); nLinesLen = hb_itemSize( info->pStopLines ); for ( i = 1; i <= nItemLen; i++ ) { PHB_ITEM pEntry = hb_arrayGetItemPtr( pItem, i ); char *szModule = hb_arrayGetCPtr( pEntry, 1 ); char *p; BOOL bFound = FALSE; if ( ( p = strrchr( szModule, '/' ) ) != NULL || ( p = strrchr( szModule, '\\' ) ) != NULL ) { szModule = p + 1; } for ( j = 1; j <= nLinesLen; j++ ) { PHB_ITEM pLines = hb_arrayGetItemPtr( info->pStopLines, j ); if ( !strcmp( hb_arrayGetCPtr( pLines, 1 ), szModule ) ) { /* Merge stopline info */ int nOrigMin = hb_arrayGetNL( pLines, 2 ); int nNewMin = hb_arrayGetNL( pEntry, 2 ); int nOrigLen = hb_arrayGetCLen( pLines, 3 ); int nNewLen = hb_arrayGetCLen( pEntry, 3 ); int nMin = HB_MIN( nNewMin, nOrigMin ); int nMax = HB_MAX( nNewMin + nNewLen * 8, nOrigMin + nOrigLen * 8 ); char *pOrigBuffer = hb_arrayGetCPtr( pLines, 3 ); char *pNewBuffer = hb_arrayGetCPtr( pEntry, 3 ); int nLen = ( nMax + 1 - nMin + 7 ) / 8 + 1; int k; char *pBuffer = (char *) hb_xgrab( nLen ); hb_xmemset( pBuffer, 0, nLen ); memmove( &( pBuffer[ ( nNewMin - nMin ) / 8 ] ), pNewBuffer, nNewLen ); for ( k = 0; k < nOrigLen; k++ ) { pBuffer[ nOrigMin / 8 + k - nMin / 8 ] |= pOrigBuffer[ k ]; } hb_arraySetNL( pLines, 2, nMin ); hb_arraySetCPtr( pLines, 3, pBuffer, nLen - 1 ); bFound = TRUE; break; } } if ( !bFound ) { hb_arrayAddForward( info->pStopLines, pEntry ); } } } nLinesLen = hb_itemSize( info->pStopLines ); for ( i = 1; i <= nLinesLen; i++ ) { PHB_ITEM pEntry = hb_arrayGetItemPtr( info->pStopLines, i ); char *szModule = hb_arrayGetCPtr( pEntry, 1 ); char *p; if ( ( p = strrchr( szModule, '/' ) ) != NULL || ( p = strrchr( szModule, '\\' ) ) != NULL ) { char *szName = hb_strdup( p + 1 ); hb_arraySetCPtr( pEntry, 1, szName, strlen( szName ) ); } } } static void hb_dbgAddVar( int *nVars, HB_VARINFO **aVars, char *szName, char cType, int nIndex, int nFrame ) { HB_VARINFO *var; var = ARRAY_ADD( HB_VARINFO, *aVars, *nVars ); var->szName = szName; var->cType = cType; var->nIndex = nIndex; var->nFrame = nFrame; } HB_EXPORT void hb_dbgAddWatch( void *handle, char *szExpr, BOOL bTrace ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; HB_WATCHPOINT *pWatch; pWatch = ARRAY_ADD( HB_WATCHPOINT, info->aWatch, info->nWatchPoints ); pWatch->szExpr = STRDUP( szExpr ); pWatch->pBlock = NULL; pWatch->nVars = 0; if ( bTrace ) { HB_TRACEPOINT *pTrace = ARRAY_ADD( HB_TRACEPOINT, info->aTrace, info->nTracePoints ); pTrace->nIndex = info->nWatchPoints - 1; pTrace->xValue = hb_dbgEval( info, pWatch ); } } static void hb_dbgClearWatch( HB_WATCHPOINT *pWatch ) { FREE( pWatch->szExpr ); if ( pWatch->pBlock ) { hb_itemRelease( pWatch->pBlock ); } if ( pWatch->nVars ) { int i; for (i = 0; i < pWatch->nVars; i++) { FREE( pWatch->aVars[ i ] ); } FREE( pWatch->aVars ); } } HB_EXPORT void hb_dbgDelBreak( void *handle, int nBreak ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; HB_BREAKPOINT *pBreak = &info->aBreak[ nBreak ]; FREE( pBreak->szModule ); if ( pBreak->szFunction ) { FREE( pBreak->szFunction ); } ARRAY_DEL( HB_BREAKPOINT, info->aBreak, info->nBreakPoints, nBreak ); } HB_EXPORT void hb_dbgDelWatch( void *handle, int nWatch ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; HB_WATCHPOINT *pWatch = &info->aWatch[ nWatch ]; int i; hb_dbgClearWatch( pWatch ); ARRAY_DEL( HB_WATCHPOINT, info->aWatch, info->nWatchPoints, nWatch ); for ( i = 0; i < info->nTracePoints; i++ ) { HB_TRACEPOINT *pTrace = &info->aTrace[ i ]; if ( pTrace->nIndex == nWatch ) { if ( pTrace->xValue ) { hb_itemRelease( pTrace->xValue ); } ARRAY_DEL( HB_TRACEPOINT, info->aTrace, info->nTracePoints, i ); i--; } else if ( pTrace->nIndex > nWatch ) { pTrace->nIndex--; } } } static void hb_dbgEndProc( HB_DEBUGINFO *info ) { HB_CALLSTACKINFO *top; if ( !info->nCallStackLen ) return; top = &info->aCallStack[ --info->nCallStackLen ]; FREE( top->szFunction ); FREE( top->szModule ); if ( top->nLocals ) { FREE( top->aLocals ); } if ( top->nStatics ) { FREE( top->aStatics ); } if ( !info->nCallStackLen ) { FREE( info->aCallStack ); info->aCallStack = NULL; } } static BOOL hb_dbgEqual( PHB_ITEM pItem1, PHB_ITEM pItem2 ) { if ( pItem1->type != pItem2->type ) return FALSE; if ( HB_IS_NIL( pItem1 ) ) return HB_IS_NIL( pItem2 ); if ( HB_IS_LOGICAL( pItem1 ) ) return ( pItem1->item.asLogical.value == pItem2->item.asLogical.value ); if ( HB_IS_POINTER( pItem1 ) ) return ( pItem1->item.asPointer.value == pItem2->item.asPointer.value ); if ( HB_IS_STRING( pItem1 ) ) return !hb_itemStrCmp( pItem1, pItem2, TRUE ); if ( HB_IS_NUMINT( pItem1 ) ) return ( HB_ITEM_GET_NUMINTRAW( pItem1 ) == HB_ITEM_GET_NUMINTRAW( pItem2 ) ); if ( HB_IS_NUMERIC( pItem1 ) ) return ( hb_itemGetND( pItem1 ) == hb_itemGetND( pItem2 ) ); if ( HB_IS_ARRAY( pItem1 ) ) return ( pItem1->item.asArray.value == pItem2->item.asArray.value ); if ( HB_IS_HASH( pItem1 ) ) return ( pItem1->item.asHash.value == pItem2->item.asHash.value ); return FALSE; } static PHB_ITEM hb_dbgEval( HB_DEBUGINFO *info, HB_WATCHPOINT *watch ) { PHB_ITEM xResult = NULL; HB_TRACE( HB_TR_DEBUG, ( "expr %s", watch->szExpr ) ); /* Check if we have a cached pBlock */ if ( !watch->pBlock ) { watch->pBlock = hb_dbgEvalMakeBlock( watch ); } if ( watch->pBlock ) { PHB_ITEM aVars = hb_dbgEvalResolve( info, watch ); PHB_ITEM aNewVars = hb_itemArrayNew( watch->nVars ); int i; hb_arrayCopy( aVars, aNewVars, NULL, NULL, NULL ); info->bInside = TRUE; xResult = hb_itemDo( watch->pBlock, 1, aNewVars ); info->bInside = FALSE; for ( i = 0; i < watch->nVars; i++ ) { PHB_ITEM xOldValue = hb_itemArrayGet( aVars, i + 1 ); PHB_ITEM xNewValue = hb_itemArrayGet( aNewVars, i + 1 ); if ( !hb_dbgEqual( xOldValue, xNewValue ) ) { hb_dbgVarSet( &watch->aScopes[ i ], xNewValue ); } hb_itemRelease( xOldValue ); hb_itemRelease( xNewValue ); } hb_itemRelease( aVars ); hb_itemRelease( aNewVars ); for ( i = 0; i < watch->nVars; i++ ) { if ( watch->aScopes[ i ].cType == 'M' ) { FREE( watch->aScopes[ i ].szName ); } } if ( watch->nVars ) { FREE( watch->aScopes ); } } return xResult; } static PHB_ITEM hb_dbgEvalMacro( char *szExpr, PHB_ITEM pItem ) { PHB_ITEM pStr; const char *type; pStr = hb_itemPutC( NULL, szExpr ); type = hb_macroGetType( pStr ); hb_itemRelease( pStr ); if ( ( !strcmp( type, "U" ) || !strcmp( type, "UE" ) ) ) { return NULL; } hb_vmPushString( szExpr, strlen( szExpr ) ); hb_macroGetValue( hb_stackItemFromTop( -1 ), 0, HB_SM_RT_MACRO ); hb_itemForwardValue( pItem, hb_stackItemFromTop( -1 ) ); hb_stackPop(); return pItem; } #define IS_IDENT_START( c ) ( isalpha( (UCHAR) (c) ) || (c) == '_' ) #define IS_IDENT_CHAR( c ) ( IS_IDENT_START( (c) ) || isdigit( (UCHAR) (c) ) ) static int hb_dbgEvalSubstituteVar( HB_WATCHPOINT *watch, char *szWord, int nStart, int nLen ) { int j; char *t; for ( j = 0; j < watch->nVars; j++ ) { if ( !strcmp( szWord, watch->aVars[ j ] ) ) { break; } } if ( j == watch->nVars ) { *ARRAY_ADD( char *, watch->aVars, watch->nVars ) = szWord; } else { FREE( szWord ); } t = (char *) ALLOC( strlen( watch->szExpr ) - nLen + 9 + 1 ); memmove( t, watch->szExpr, nStart ); memmove( t + nStart, "__dbg[", 6 ); t[ nStart + 6 ] = '0' + ( ( j + 1 ) / 10 ); t[ nStart + 7 ] = '0' + ( ( j + 1 ) % 10 ); t[ nStart + 8 ] = ']'; strcpy( t + nStart + 9, watch->szExpr + nStart + nLen ); FREE( watch->szExpr ); watch->szExpr = t; return nStart + 9; } static PHB_ITEM hb_dbgEvalMakeBlock( HB_WATCHPOINT *watch ) { int i = 0; PHB_ITEM pBlock; BOOL bAfterId = FALSE; char *s; int buffsize; watch->nVars = 0; while ( watch->szExpr[ i ] ) { char c = watch->szExpr[ i ]; if ( IS_IDENT_START( c ) ) { int nStart = i, nLen; int j = i; char *szWord; while ( c && IS_IDENT_CHAR( c ) ) { j++; c = watch->szExpr[ j ]; } nLen = j - i; STRNDUP( szWord, watch->szExpr + i, nLen ); i = j; if ( c ) { while ( watch->szExpr[ i ] && watch->szExpr[ i ] == ' ' ) { i++; } if ( watch->szExpr[ i ] == '(' ) { FREE( szWord ); continue; } if ( watch->szExpr[ i ] == '-' && watch->szExpr[ i + 1 ] == '>' ) { i += 2; while ( ( c = watch->szExpr[ i ] ) != '\0' && IS_IDENT_CHAR( c ) ) { i++; } FREE( szWord ); continue; } } hb_strupr( szWord ); i = hb_dbgEvalSubstituteVar( watch, szWord, nStart, nLen ); bAfterId = TRUE; continue; } if ( c == '.' ) { if ( watch->szExpr[ i + 1 ] && strchr( "TtFf", watch->szExpr[ i + 1 ] ) && watch->szExpr[ i + 2 ] == '.' ) { i += 3; } else if ( !hb_strnicmp( watch->szExpr + i + 1, "OR.", 3 ) ) { i += 4; } else if ( !hb_strnicmp( watch->szExpr + i + 1, "AND.", 4 ) || !hb_strnicmp( watch->szExpr + i + 1, "NOT.", 4 ) ) { i += 5; } else { i++; } bAfterId = FALSE; continue; } if ( c == ':' || ( c == '-' && watch->szExpr[ i + 1 ] == '>' && IS_IDENT_START( watch->szExpr[ i + 2 ] ) ) ) { if ( c == ':' && watch->szExpr[ i + 1 ] == ':' ) { i = hb_dbgEvalSubstituteVar( watch, hb_strdup( "SELF" ), i, 1 ); bAfterId = TRUE; continue; } if ( c == '-' ) { i++; } i++; while ( watch->szExpr[ i ] && IS_IDENT_CHAR( watch->szExpr[ i ] ) ) { i++; } bAfterId = TRUE; continue; } if ( strchr( " !#$=<>(+-*/%^|,{&", c ) ) { i++; bAfterId = FALSE; continue; } if ( c == '\'' || c == '\"' ) { i++; while ( watch->szExpr[ i ] && watch->szExpr[ i ] != c ) { i++; } if ( watch->szExpr[ i ] ) { i++; } bAfterId = TRUE; continue; } if ( c == '[' ) { i++; if ( bAfterId ) { bAfterId = FALSE; } else { while ( watch->szExpr[ i ] && watch->szExpr[ i ] != ']' ) { i++; } if ( watch->szExpr[ i ] ) { i++; } bAfterId = TRUE; } continue; } i++; } buffsize = 8 + strlen( watch->szExpr ) + 1; s = ( char * ) ALLOC( buffsize + 1 ); hb_strncpy( s, "{|__dbg|", buffsize ); hb_strncat( s, watch->szExpr, buffsize ); hb_strncat( s, "}", buffsize ); pBlock = hb_itemNew( NULL ); if( ! hb_dbgEvalMacro( s, pBlock ) ) { hb_itemRelease( pBlock ); pBlock = NULL; } FREE( s ); return pBlock; } static PHB_ITEM hb_dbgEvalResolve( HB_DEBUGINFO *info, HB_WATCHPOINT *watch ) { int i; HB_CALLSTACKINFO *top = &info->aCallStack[ info->nCallStackLen - 1 ]; PHB_ITEM aVars = hb_itemArrayNew( watch->nVars ); HB_VARINFO *scopes; HB_MODULEINFO *module = NULL; int nProcLevel; if ( !watch->nVars ) { return aVars; } scopes = (HB_VARINFO *) ALLOC( watch->nVars * sizeof( HB_VARINFO ) ); nProcLevel = hb_dbg_ProcLevel(); for ( i = 0; i < info->nModules; i++ ) { if ( !strcmp( info->aModules[ i ].szModule, top->szModule ) ) { module = &info->aModules[ i ]; break; } } for ( i = 0; i < watch->nVars; i++ ) { char *name = watch->aVars[ i ]; HB_VARINFO *var; int j; PHB_ITEM pItem; for ( j = 0; j < top->nLocals; j++ ) { var = &top->aLocals[ j ]; if ( !strcmp( name, var->szName ) ) { scopes[ i ].cType = 'L'; scopes[ i ].nFrame = nProcLevel - var->nFrame; scopes[ i ].nIndex = var->nIndex; hb_itemArrayPut( aVars, i + 1, hb_dbgVarGet( &scopes[ i ] ) ); break; } } if ( j < top->nLocals ) continue; for ( j = 0; j < top->nStatics; j++ ) { var = &top->aStatics[ j ]; if ( !strcmp( name, var->szName ) ) { scopes[ i ].cType = 'S'; scopes[ i ].nFrame = var->nFrame; scopes[ i ].nIndex = var->nIndex; hb_itemArrayPut( aVars, i + 1, hb_dbgVarGet( &scopes[ i ] ) ); break; } } if ( j < top->nStatics ) continue; if ( module ) { for ( j = 0; j < module->nStatics; j++ ) { var = &module->aStatics[ j ]; if ( !strcmp( name, var->szName ) ) { scopes[ i ].cType = 'S'; scopes[ i ].nFrame = var->nFrame; scopes[ i ].nIndex = var->nIndex; hb_itemArrayPut( aVars, i + 1, hb_dbgVarGet( &scopes[ i ] ) ); break; } } if ( j < module->nStatics ) continue; for ( j = 0; j < module->nGlobals; j++ ) { var = &module->aGlobals[ j ]; if ( !strcmp( name, var->szName ) ) { scopes[ i ].cType = 'G'; scopes[ i ].nFrame = var->nFrame; scopes[ i ].nIndex = var->nIndex; hb_itemArrayPut( aVars, i + 1, hb_dbgVarGet( &scopes[ i ] ) ); break; } } if ( j < module->nGlobals ) continue; for ( j = 0; j < module->nExternGlobals; j++ ) { var = &module->aExternGlobals[ j ]; if ( !strcmp( name, var->szName ) ) { scopes[ i ].cType = 'G'; scopes[ i ].nFrame = var->nFrame; scopes[ i ].nIndex = var->nIndex; hb_itemArrayPut( aVars, i + 1, hb_dbgVarGet( &scopes[ i ] ) ); break; } } if ( j < module->nExternGlobals ) continue; } scopes[ i ].cType = 'M'; scopes[ i ].szName = STRDUP( name ); pItem = hb_dbgVarGet( &scopes[ i ] ); if ( pItem ) { hb_itemArrayPut( aVars, i + 1, pItem ); } if ( scopes[ i ].cType == 'F' ) { hb_itemRelease( pItem ); } } watch->aScopes = scopes; return aVars; } HB_EXPORT PHB_ITEM hb_dbgGetExpressionValue( void *handle, char *expression ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; PHB_ITEM result; HB_WATCHPOINT point; point.szExpr = STRDUP( expression ); point.pBlock = NULL; point.nVars = 0; result = hb_dbgEval( info, &point ); hb_dbgClearWatch( &point ); return result; } HB_EXPORT PHB_ITEM hb_dbgGetSourceFiles( void *handle ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; int nModules = hb_itemSize( info->pStopLines ); PHB_ITEM ret = hb_itemArrayNew( nModules ); int i; for ( i = 1; i <= nModules; i++ ) { hb_arraySet( ret, i, hb_arrayGetItemPtr( hb_arrayGetItemPtr( info->pStopLines, i ), 1 ) ); } return ret; } HB_EXPORT PHB_ITEM hb_dbgGetWatchValue( void *handle, int nWatch ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; return hb_dbgEval( info, &( info->aWatch[ nWatch ] ) ); } static BOOL hb_dbgIsAltD( void ) { char szName[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 5]; hb_procinfo( 1, szName, NULL, NULL ); return !strcmp( szName, "ALTD" ); } static BOOL hb_dbgIsBreakPoint( HB_DEBUGINFO *info, char *szModule, int nLine ) { int i; for ( i = 0; i < info->nBreakPoints; i++ ) { HB_BREAKPOINT *point = &info->aBreak[ i ]; if ( point->nLine == nLine && FILENAME_EQUAL( szModule, point->szModule ) ) return TRUE; } return FALSE; } HB_EXPORT BOOL hb_dbgIsValidStopLine( void *handle, char *szModule, int nLine ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; int nModules = hb_itemSize( info->pStopLines ); int i; for ( i = 1; i <= nModules; i++ ) { PHB_ITEM pEntry = hb_arrayGetItemPtr( info->pStopLines, i ); if ( FILENAME_EQUAL( hb_arrayGetCPtr( pEntry, 1 ), szModule ) ) { int nMin = hb_arrayGetNL( pEntry, 2 ); int nOfs = nLine - nMin; if ( nLine < nMin || (ULONG)( nOfs / 8 ) > hb_arrayGetCLen( pEntry, 3 ) ) { return FALSE; } return ( hb_arrayGetCPtr( pEntry, 3 )[ nOfs / 8 ] & ( 1 << ( nOfs % 8 ) ) ) != 0; } } return FALSE; } static void hb_dbgQuit( HB_DEBUGINFO *info ) { while ( info->nWatchPoints ) { hb_dbgDelWatch( info, info->nWatchPoints - 1 ); } while ( info->nBreakPoints ) { hb_dbgDelBreak( info, info->nBreakPoints - 1 ); } while ( info->nCallStackLen ) { hb_dbgEndProc( info ); } if ( info->pStopLines ) { hb_itemRelease( info->pStopLines ); } while ( info->nModules ) { int nModules = info->nModules - 1; HB_MODULEINFO *module = &info->aModules[ nModules ]; if ( module->nStatics ) { FREE( module->aStatics ); } ARRAY_DEL( HB_MODULEINFO, info->aModules, info->nModules, nModules ); } if ( info->bToCursor ) { info->bToCursor = FALSE; FREE( info->szToCursorModule ); } } HB_EXPORT void hb_dbgSetCBTrace( void *handle, BOOL bCBTrace ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bCBTrace = bCBTrace; } HB_EXPORT void hb_dbgSetGo( void *handle ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bGo = TRUE; } HB_EXPORT void hb_dbgSetInvoke( void *handle, BOOL ( *pFunInvoke )( void ) ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->pFunInvoke = pFunInvoke; } HB_EXPORT void hb_dbgSetNextRoutine( void *handle ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bNextRoutine = TRUE; } HB_EXPORT void hb_dbgSetQuit( void *handle ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bQuit = TRUE; } HB_EXPORT void hb_dbgSetToCursor( void *handle, char *szModule, int nLine ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bToCursor = TRUE; info->szToCursorModule = STRDUP( szModule ); info->nToCursorLine = nLine; } HB_EXPORT void hb_dbgSetTrace( void *handle ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; info->bTraceOver = TRUE; info->nTraceLevel = info->nCallStackLen; } HB_EXPORT void hb_dbgSetWatch( void *handle, int nWatch, char *szExpr, BOOL bTrace ) { HB_DEBUGINFO *info = (HB_DEBUGINFO *)handle; HB_WATCHPOINT *pWatch = &info->aWatch[ nWatch ]; int i; hb_dbgClearWatch( pWatch ); pWatch->szExpr = STRDUP( szExpr ); pWatch->pBlock = NULL; for ( i = 0; i < info->nTracePoints; i++ ) { HB_TRACEPOINT *pTrace = &info->aTrace[ i ]; if ( pTrace->nIndex == nWatch ) { if ( pTrace->xValue ) { hb_itemRelease( pTrace->xValue ); } ARRAY_DEL( HB_TRACEPOINT, info->aTrace, info->nTracePoints, i ); break; } } if ( bTrace ) { HB_TRACEPOINT *pTrace = ARRAY_ADD( HB_TRACEPOINT, info->aTrace, info->nTracePoints ); pTrace->nIndex = nWatch; pTrace->xValue = hb_dbgEval( info, pWatch ); } } static PHB_ITEM hb_dbgVarGet( HB_VARINFO *scope ) { switch ( scope->cType ) { case 'G': return hb_dbg_vmVarGGet( scope->nFrame, scope->nIndex ); case 'L': return hb_dbg_vmVarLGet( scope->nFrame, scope->nIndex ); case 'S': return hb_dbg_vmVarSGet( scope->nFrame, scope->nIndex ); case 'M': { PHB_DYNS pDyn; pDyn = hb_dynsymFind( scope->szName ); if ( pDyn != NULL ) { if ( pDyn->hMemvar == 0 ) { PHB_ITEM pItem = hb_itemNew( NULL ); if ( hb_rddFieldGet( pItem, pDyn->pSymbol ) == SUCCESS ) { scope->cType = 'F'; return pItem; } hb_itemRelease( pItem ); } else { return hb_memvarGetValueByHandle( pDyn->hMemvar ); } } return NULL; } default: return NULL; } } static void hb_dbgVarSet( HB_VARINFO *scope, PHB_ITEM xNewValue ) { switch ( scope->cType ) { case 'G': case 'L': case 'S': hb_itemCopy( hb_dbgVarGet( scope ), xNewValue ); break; case 'M': { PHB_DYNS pDynSym = hb_dynsymFind( "__MVPUT" ); if ( pDynSym && pDynSym->pSymbol->value.pFunPtr ) { hb_vmPushDynSym( pDynSym ); hb_vmPushNil(); hb_vmPushString( scope->szName, strlen( scope->szName ) ); hb_vmPush( xNewValue ); hb_vmDo( 2 ); } break; } } } /* * .prg functions */ HB_FUNC( HB_DBG_SETENTRY ) { hb_dbg_SetEntry( hb_dbgEntry ); } HB_FUNC( HB_DBG_SETGO ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetGo( ptr ); } HB_FUNC( HB_DBG_SETTRACE ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetTrace( ptr ); } HB_FUNC( HB_DBG_SETCBTRACE ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetCBTrace( ptr, hb_parl( 2 ) ); } HB_FUNC( HB_DBG_SETNEXTROUTINE ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetNextRoutine( ptr ); } HB_FUNC( HB_DBG_SETQUIT ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetQuit( ptr ); } HB_FUNC( HB_DBG_SETTOCURSOR ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetToCursor( ptr, hb_parc( 2 ), hb_parni( 3 ) ); } HB_FUNC( HB_DBG_GETEXPRVALUE ) { void * ptr = hb_parptr( 1 ); if( ptr ) { PHB_ITEM pItem; if( ISCHAR( 2 ) ) pItem = hb_dbgGetExpressionValue( hb_parptr( 1 ), hb_parc( 2 ) ); else pItem = hb_dbgGetWatchValue( hb_parptr( 1 ), hb_parni( 2 ) - 1 ); if( pItem ) { hb_storl( TRUE, 3 ); hb_itemRelease( hb_itemReturn( pItem ) ); } else hb_storl( FALSE, 3 ); } } HB_FUNC( HB_DBG_GETSOURCEFILES ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_itemRelease( hb_itemReturn( hb_dbgGetSourceFiles( ptr ) ) ); } HB_FUNC( HB_DBG_ISVALIDSTOPLINE ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_retl( hb_dbgIsValidStopLine( ptr, hb_parc( 2 ), hb_parni( 3 ) ) ); } HB_FUNC( HB_DBG_ADDBREAK ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgAddBreak( ptr, hb_parc( 2 ), hb_parni( 3 ), NULL ); } HB_FUNC( HB_DBG_DELBREAK ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgDelBreak( ptr, hb_parni( 2 ) ); } HB_FUNC( HB_DBG_ADDWATCH ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgAddWatch( ptr, hb_parc( 2 ), hb_parl( 3 ) ); } HB_FUNC( HB_DBG_DELWATCH ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgDelWatch( ptr, hb_parni( 2 ) ); } HB_FUNC( HB_DBG_SETWATCH ) { void * ptr = hb_parptr( 1 ); if( ptr ) hb_dbgSetWatch( ptr, hb_parni( 2 ), hb_parc( 3 ), hb_parl( 4 ) ); } HB_FUNC( HB_DBG_SENDMSG ) { hb_dbgObjSendMessage( hb_parnl( 1 ), hb_param( 2, HB_IT_ANY ), hb_param( 3, HB_IT_ANY ), 4 ); }