/* * $Id$ */ /* * Harbour Project source code: * Support for #pragma directive and related functions * * Copyright 2000 Jose Lalin * 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. * */ /* * See doc/pragma.txt to learn more about Harbour pragmas. */ #include "hbpp.h" #include "hbcomp.h" static BOOL StringToBool( char *, BOOL ); static int StringToInt( char *, int ); static BOOL IsOnOffSwitch( char *, BOOL ); static void DebugPragma( char *, int, BOOL ); static BOOL s_bTracePragma = FALSE; /* Size of abreviated pragma commands */ #define PRAGMAS_LEN 8 #if defined(__WATCOMC__) extern BOOL hb_pp_bInline; #endif /* TODO: Add support for: RequestLib /R */ void hb_pp_ParsePragma( char * szLine ) { HB_TRACE(HB_TR_DEBUG, ("hb_pp_ParsePragma(%s)", szLine)); HB_SKIPTABSPACES( szLine ); if( HB_ISOPTSEP( szLine[ 0 ] ) ) { switch( szLine[ 1 ] ) { case 'a': case 'A': hb_comp_bAutoMemvarAssume = IsOnOffSwitch( szLine, hb_comp_bAutoMemvarAssume ); DebugPragma( szLine, -1, hb_comp_bAutoMemvarAssume ); break; case 'b': case 'B': hb_comp_bDebugInfo = IsOnOffSwitch( szLine, hb_comp_bDebugInfo ); hb_comp_bLineNumbers = hb_comp_bDebugInfo; DebugPragma( szLine, -1, hb_comp_bDebugInfo ); break; case 'e': case 'E': if( szLine[ 2 ] == 's' || szLine[ 2 ] == 'S' ) { switch( szLine[ 3 ] ) { case '\0': case '0': hb_comp_iExitLevel = HB_EXITLEVEL_DEFAULT; break; case '1': hb_comp_iExitLevel = HB_EXITLEVEL_SETEXIT; break; case '2': hb_comp_iExitLevel = HB_EXITLEVEL_DELTARGET; break; default: hb_compGenError( hb_pp_szErrors, 'F', HB_PP_ERR_PRAGMA_BAD_VALUE, NULL, NULL ); } DebugPragma( szLine, hb_comp_iExitLevel, FALSE ); } break; case 'l': case 'L': hb_comp_bLineNumbers = IsOnOffSwitch( szLine, hb_comp_bLineNumbers ); DebugPragma( szLine, -1, hb_comp_bLineNumbers ); break; case 'n': case 'N': hb_comp_bStartProc = IsOnOffSwitch( szLine, hb_comp_bStartProc ); DebugPragma( szLine, -1, hb_comp_bStartProc ); break; case 'p': case 'P': hb_comp_bPPO = IsOnOffSwitch( szLine, hb_comp_bPPO ); DebugPragma( szLine, -1, hb_comp_bPPO ); break; case 'v': case 'V': hb_comp_bForceMemvars = IsOnOffSwitch( szLine, hb_comp_bForceMemvars ); DebugPragma( szLine, -1, hb_comp_bForceMemvars ); break; case 'w': case 'W': if( szLine[ 2 ] != '\0' ) { /* Check for +/- */ if( szLine[ strlen( szLine ) - 1 ] == '+' || szLine[ strlen( szLine ) - 1 ] == '-' ) hb_comp_iWarnings = IsOnOffSwitch( szLine, hb_comp_iWarnings != 0 ) ? 1 : 0; else { /* There is -w<0,1,2,3> probably */ hb_comp_iWarnings = szLine[ 2 ] - '0'; if( hb_comp_iWarnings < 0 || hb_comp_iWarnings > 3 ) hb_compGenError( hb_pp_szErrors, 'F', HB_PP_ERR_PRAGMA_BAD_VALUE, NULL, NULL ); DebugPragma( szLine, -1, hb_comp_iWarnings ); } } break; case 'z': case 'Z': hb_comp_bShortCuts = IsOnOffSwitch( szLine, hb_comp_bShortCuts ); DebugPragma( szLine, -1, hb_comp_bShortCuts ); break; default: break; } } else { hb_strupr( szLine ); if( memcmp( szLine, "AUTOMEMVAR", PRAGMAS_LEN ) == 0 ) { hb_comp_bAutoMemvarAssume = StringToBool( szLine, hb_comp_bAutoMemvarAssume ); DebugPragma( szLine, -1, hb_comp_bAutoMemvarAssume ); } else if( memcmp( szLine, "BEGINDUMP", PRAGMAS_LEN ) == 0 ) { char sBuffer[ HB_PP_STR_SIZE ], *pBuffer, sDirective[9] ; int iSize; #ifndef __WATCOMC__ extern BOOL hb_pp_bInline; #endif PINLINE pInline; if( hb_comp_bPPO ) { hb_pp_WrStr( hb_comp_yyppo, "#pragma BEGINDUMP" ); } hb_pp_bInline = TRUE; pInline = hb_compInlineAdd( NULL ); DigestInline : iSize = hb_pp_Internal( hb_comp_bPPO ? hb_comp_yyppo : NULL, sBuffer ); if( iSize == 0 ) { hb_pp_bInline = FALSE; return; } pBuffer = (char*) sBuffer; while( *pBuffer == ' ' || *pBuffer == '\t' ) { pBuffer++; } if( *pBuffer == '#' ) { pBuffer++; while( *pBuffer == ' ' || *pBuffer == '\t' ) { pBuffer++; } hb_strncpyUpper( sDirective, pBuffer, 6 ); if( memcmp( sDirective, "PRAGMA", 6 ) == 0 ) { pBuffer += 6; } while( *pBuffer == ' ' || *pBuffer == '\t' ) { pBuffer++; } hb_strncpyUpper( sDirective, pBuffer, 7 ); if( memcmp( sDirective, "ENDDUMP", 7 ) == 0 ) { hb_pp_bInline = FALSE; return; } } if( pInline->pCode == NULL ) { pInline->pCode = (BYTE *) hb_xgrab( ( iSize = strlen( (char*) sBuffer ) ) + 1 ); strcpy( (char*) pInline->pCode, (char*) sBuffer ); } else { pInline->pCode = (BYTE *) hb_xrealloc( pInline->pCode, pInline->lPCodeSize + ( iSize = strlen( (char*) sBuffer ) ) + 1 ); strcpy( (char *) (pInline->pCode + pInline->lPCodeSize), (char*) sBuffer ); } pInline->lPCodeSize += iSize; goto DigestInline; } else if( memcmp( szLine, "DEBUGINFO", PRAGMAS_LEN ) == 0 ) { hb_comp_bDebugInfo = StringToBool( szLine, hb_comp_bDebugInfo ); hb_comp_bLineNumbers = hb_comp_bDebugInfo; DebugPragma( szLine, -1, hb_comp_bDebugInfo ); } else if( memcmp( szLine, "ENABLEWARNINGS", PRAGMAS_LEN ) == 0 ) { hb_comp_iWarnings = StringToBool( szLine, hb_comp_iWarnings != 0 ) ? 1 : 0; DebugPragma( szLine, hb_comp_iWarnings, FALSE ); } else if( memcmp( szLine, "EXITSEVERITY", PRAGMAS_LEN ) == 0 ) { hb_comp_iExitLevel = StringToInt( szLine, hb_comp_iExitLevel ); if( hb_comp_iExitLevel != HB_EXITLEVEL_DEFAULT && hb_comp_iExitLevel != HB_EXITLEVEL_SETEXIT && hb_comp_iExitLevel != HB_EXITLEVEL_DELTARGET ) hb_compGenError( hb_pp_szErrors, 'F', HB_PP_ERR_PRAGMA_BAD_VALUE, NULL, NULL ); DebugPragma( szLine, hb_comp_iExitLevel, FALSE ); } else if( memcmp( szLine, "DYNAMICMEMVAR", PRAGMAS_LEN ) == 0 ) { hb_comp_bForceMemvars = StringToBool( szLine, hb_comp_bForceMemvars ); DebugPragma( szLine, -1, hb_comp_bForceMemvars ); } else if( memcmp( szLine, "LINENUMBER", PRAGMAS_LEN ) == 0 ) { hb_comp_bLineNumbers = StringToBool( szLine, hb_comp_bLineNumbers ); DebugPragma( szLine, -1, hb_comp_bLineNumbers ); } else if( memcmp( szLine, "NOSTARTPROC", PRAGMAS_LEN ) == 0 ) { hb_comp_bStartProc = StringToBool( szLine, hb_comp_bStartProc ); DebugPragma( szLine, -1, hb_comp_bStartProc ); } else if( memcmp( szLine, "PREPROCESSING", PRAGMAS_LEN ) == 0 ) { hb_comp_bPPO = StringToBool( szLine, hb_comp_bPPO ); DebugPragma( szLine, -1, hb_comp_bPPO ); } else if( memcmp( szLine, "SHORTCUT", PRAGMAS_LEN ) == 0 ) { hb_comp_bShortCuts = StringToBool( szLine, hb_comp_bShortCuts ); DebugPragma( szLine, -1, hb_comp_bShortCuts ); } else if( memcmp( szLine, "WARNINGLEVEL", PRAGMAS_LEN ) == 0 ) { hb_comp_iWarnings = StringToInt( szLine, hb_comp_iWarnings ); if( hb_comp_iWarnings < 0 || hb_comp_iWarnings > 3 ) hb_compGenError( hb_pp_szErrors, 'F', HB_PP_ERR_PRAGMA_BAD_VALUE, NULL, NULL ); DebugPragma( szLine, hb_comp_iWarnings, FALSE ); } else if( memcmp( szLine, "TRACEPRAGMAS", PRAGMAS_LEN ) == 0 ) { s_bTracePragma = StringToBool( szLine, s_bTracePragma ); DebugPragma( szLine, -1, s_bTracePragma ); } } } /* Checks for +/- within the string, sets bDefault if not found */ static BOOL IsOnOffSwitch( char * pszStr, BOOL bValue ) { int iPos = strlen( pszStr ) - 1; if( pszStr[ iPos ] == '+' ) bValue = TRUE; else if( pszStr[ iPos ] == '-' ) bValue = FALSE; return bValue; } /* Checks for ON/OFF within the string, sets bDefault if not found */ static BOOL StringToBool( char * pszStr, BOOL bValue ) { char * pos = strchr( pszStr, '=' ); if( ! pos ) pos = strchr( pszStr, '(' ); if( pos ) { pos++; HB_SKIPTABSPACES( pos ); if( memcmp( pos, "ON", 2 ) == 0 ) bValue = TRUE; else if( memcmp( pos, "OFF", 3 ) == 0 ) bValue = FALSE; } return bValue; } /* Returns value after =, sets iDefault if not found */ static int StringToInt( char * pszStr, int iValue ) { char * pos = strchr( pszStr, '=' ); if( ! pos ) pos = strchr( pszStr, '(' ); if( pos ) { pos++; HB_SKIPTABSPACES( pos ); if( *pos >= '0' && *pos <= '9' ) iValue = *pos - '0'; } return iValue; } /* This is only to debug pragmas now */ static void DebugPragma( char * pszStr, int iValue, BOOL bValue ) { if( s_bTracePragma ) { if( iValue >= 0 ) printf( "#pragma set to %i \'%s\'\n", iValue, pszStr ); else printf( "#pragma set to %s \'%s\'\n", bValue ? "ON" : "OFF", pszStr ); } }