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35ca6dae3337cd3abb6b8a69ae00d428cd34cbde
harbour-core/harbour/source/compiler/cmdcheck.c
Przemyslaw Czerpak d495e5ad00 2006-05-19 21:05 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/bin/hb-func.sh
    * added support -go[0-3] and other -g* switches to xhb* scripts

  * harbour/include/hbapi.h
    + added ISSYMBOL() macro
    * formatting

  * harbour/include/hbapirdd.h
    * changed definition of SUPERTABLE for optional dynamic overloading
      this modification will not effect existing code

  * harbour/include/hbrddfpt.h
  * harbour/source/rdd/dbffpt/dbffpt1.c
    * added support for NIL value in SIX3 FPT files

  * harbour/include/hbcomp.h
  * harbour/source/compiler/harbour.c
  * harbour/source/compiler/genc.c
  * harbour/source/compiler/gencli.c
  * harbour/source/compiler/genhrb.c
  * harbour/source/compiler/genjava.c
    ! message symbols are not function symbols - cleaned the HB_FS_MESSAGE
      usage and fix the problem with registering static function in global
      symbol table

  * harbour/source/compiler/gencc.c
    ! fixed typo in compilation for platforms 64 bit LONG

  * harbour/include/hbvmpub.h
  * harbour/source/compiler/cmdcheck.c
  * harbour/source/vm/asort.c
  * harbour/source/vm/evalhb.c
    * formatting

  * harbour/source/rdd/dbcmd.c
    * formatting and some minor clean-up

  * harbour/source/rdd/workarea.c
    * added default SYSNAME method
    ! fixed possible memory leak when APPEND failed in TRANSREC method

  * harbour/source/rdd/hsx/hsx.c
    ! fixed using HS_ADD()/HS_REPLACE() without STRING/BLOCK expression

  * harbour/source/rtl/cdpapi.c
    * cleaned GCC4 warning

  * harbour/source/rtl/do.c
    * changed to keep parameter references in DO() function. Now it works
      like IIF()/EVAL()

  * harbour/source/vm/classes.c
    * removed some definitions repared from hbapi.h
    + added support to passing function references as HB_IT_SYMBOL

  * harbour/source/vm/dynlibhb.c
    ! fixed GPF in HB_LIBDO called with wrong parameter

  * harbour/source/vm/hvm.c
    ! fixed hb_rddGetFieldValue() to not operate on unallocated stack area
      it could cause unpredictable results when RDD had to access HVM, f.e.
      for evaluation some pending relations. The whole code should be
      carefully checked and to not operate on hb_stackTopItem() if other
      functions are called to make the HVM fully reentrant.
    + added commented out support for passing HB_IT_SYMBOL as function
      pointer
    * formatting

  * harbour/source/vm/itemapi.c
    * return "S" for HB_IT_SYMBOL by hb_itemType()
    * formatting
2006-05-19 19:06:45 +00:00

1000 lines
31 KiB
C
Raw Blame History

/*
* $Id$
*/
/*
* Harbour Project source code:
* Compiler command line and HARBOURCMD/CLIPPERCMD checking
*
* Copyright 1999 {list of individual authors and e-mail addresses}
* 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 of the License, or
* (at your option) any later version, with one exception:
*
* 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; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA (or visit
* their web site at http://www.gnu.org/).
*
*/
/*
* The following parts are Copyright of the individual authors.
* www - http://www.harbour-project.org
*
* Copyright 2000 Ron Pinkas <Ron@Profit-Master.com>
* hb_compChkCompilerSwitch()
*
* Copyright 1999 Jose Lalin <dezac@corevia.com>
* hb_compChkEnvironVar()
*
* Copyright 1999-2001 Viktor Szakats <viktor.szakats@syenar.hu>
* PackDateTime()
* hb_compChkDefineSwitch()
* hb_compChkDefines()
*
* See doc/license.txt for licensing terms.
*
*/
#include <time.h>
#include "hbcomp.h"
extern int hb_pp_ParseDefine( char * );
/* TODO: Add support for this compiler switches
-r -t || hb_getenv( "TMP" )
*/
/* NOTE: Making the date and time info to fit into 32 bits can only be done
in a "lossy" way, in practice that means it's not possible to unpack
the exact date/time info from the resulting ULONG. Since the year
is only stored in 6 bits, 1980 will result in the same bit pattern
as 2044. The purpose of this value is only used to *differenciate*
between the dates ( the exact dates are not significant ), so this
can be used here without problems. [vszakats] */
/* 76543210765432107654321076543210
|.......|.......|.......|.......
|____| Year 6 bits
|__| Month 4 bits
|___| Day 5 bits
|___| Hour 5 bits
|____| Minute 6 bits
|____| Second 6 bits */
static ULONG PackDateTime( void )
{
BYTE szString[ 4 ];
BYTE nValue;
time_t t;
struct tm * oTime;
time( &t );
oTime = localtime( &t );
nValue = ( BYTE ) ( ( ( oTime->tm_year + 1900 ) - 1980 ) & ( 2 ^ 6 ) ) ; /* 6 bits */
szString[ 0 ] = nValue << 2;
nValue = ( BYTE ) ( oTime->tm_mon + 1 ); /* 4 bits */
szString[ 0 ] |= nValue >> 2;
szString[ 1 ] = nValue << 6;
nValue = ( BYTE ) ( oTime->tm_mday ); /* 5 bits */
szString[ 1 ] |= nValue << 1;
nValue = ( BYTE ) oTime->tm_hour; /* 5 bits */
szString[ 1 ] = nValue >> 4;
szString[ 2 ] = nValue << 4;
nValue = ( BYTE ) oTime->tm_min; /* 6 bits */
szString[ 2 ] |= nValue >> 2;
szString[ 3 ] = nValue << 6;
nValue = ( BYTE ) oTime->tm_sec; /* 6 bits */
szString[ 3 ] |= nValue;
return HB_MKLONG( szString[ 3 ], szString[ 2 ], szString[ 1 ], szString[ 0 ] );
}
void hb_compChkCompilerSwitch( int iArg, char * Args[] )
{
/* If iArg is passed check the command line options */
if( iArg )
{
int i;
/* Check all switches in command line
They start with an OS_OPT_DELIMITER char
*/
for( i = 0; i < iArg; i++ )
{
if( ! HB_ISOPTSEP( Args[ i ][0] ) )
continue;
if( Args[ i ][0] == '-' )
{
int j = 1;
char Switch[7];
Switch[0] = '-';
while( Args[ i ][j] )
{
Switch[1] = Args[ i ][j];
if( Args[ i ][j + 1 ] && Args[ i ][j + 1 ] == '-' )
{
Switch[2] = '-';
Switch[3] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 2;
continue;
}
else
{
switch( Switch[1] )
{
case 'b' :
case 'B' :
if( Args[i][j + 1] && toupper( Args[i][j + 1] ) == 'U' &&
Args[i][j + 2] && toupper( Args[i][j + 2] ) == 'I' &&
Args[i][j + 3] && toupper( Args[i][j + 3] ) == 'L' &&
Args[i][j + 4] && toupper( Args[i][j + 4] ) == 'D' )
{
Switch[2] = 'U';
Switch[3] = 'I';
Switch[4] = 'L';
Switch[5] = 'D';
Switch[6] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 5;
continue;
}
else if( !Args[i][j + 1] )
{
Switch[2] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 1;
continue;
}
break;
case 'c' :
case 'C' :
if( Args[i][j + 1] && toupper( Args[i][j + 1] ) == 'R' &&
Args[i][j + 2] && toupper( Args[i][j + 2] ) == 'E' &&
Args[i][j + 3] && toupper( Args[i][j + 3] ) == 'D' )
{
Switch[2] = 'R';
Switch[3] = 'E';
Switch[4] = 'D';
Switch[5] = '\0';
j += 4;
if( Args[i][j] && toupper( Args[i][j] ) == 'I' )
{
j++;
if( Args[i][j] && toupper( Args[i][j] ) == 'T' )
{
j++;
if( Args[i][j] && toupper( Args[i][j] ) == 'S' )
{
j++;
}
}
}
hb_compChkEnvironVar( (char*) Switch );
continue;
}
else
{
Switch[2] = '\0';
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, (char*) Switch, NULL );
}
case 'd' :
case 'D' :
Args[i] += ( j - 1 );
hb_compChkEnvironVar( Args[i] );
/* Accept rest as part of #define and continue with next Args[]. */
j = strlen( Args[i] );
continue;
case 'e' :
case 'E' :
if( Args[i][j + 1] && toupper( ( BYTE ) Args[i][j + 1] ) == 'S' && Args[i][j + 2] && isdigit( ( BYTE ) Args[i][j + 2] ) )
{
Switch[2] = 'S';
Switch[3] = Args[i][j + 2];
Switch[4] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 3;
continue;
}
else
{
Switch[2] = '\0';
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, (char*) Switch, NULL );
}
break;
case 'g' :
case 'G' :
/* Required argument */
Switch[2] = Args[i][j + 1];
if( isdigit( ( BYTE ) Args[i][j + 2] ) )
{
/* Optional argument */
Switch[3] = Args[i][j + 2];
Switch[4] = '\0';
j += 3;
}
else
{
/* No optional argument */
Switch[3] = '\0';
j += 2;
}
hb_compChkEnvironVar( (char*) Switch );
continue;
case 'i' :
case 'I' :
Args[i] += (j - 1);
hb_compChkEnvironVar( Args[i] );
/* Accept rest as IncludePath and continue with next Args[]. */
j = strlen( Args[i] );
continue;
case 'k' :
case 'K' :
Args[i] += ( j - 1 );
hb_compChkEnvironVar( Args[i] );
/* Accept rest as part of #define and continue with next Args[]. */
j = strlen( Args[i] );
continue;
case 'n' :
case 'N' :
/* Required argument */
if ( Args[i][j + 1] )
{
/* Optional argument */
Switch[2] = Args[i][j + 1];
Switch[3] = '\0';
j += 2;
}
else
{
/* No optional argument */
Switch[2] = '\0';
j += 1;
}
hb_compChkEnvironVar( (char*) Switch );
continue;
case 'o' :
case 'O' :
Args[i] += (j - 1);
hb_compChkEnvironVar( Args[i] );
/* Accept rest as OutputPath and continue with next Args[]. */
j = strlen( Args[i] );
continue;
case 'p' :
case 'P' :
if( Args[i][ j+1 ] )
{
Args[i] += (j - 1);
hb_compChkEnvironVar( Args[i] );
/* Accept rest as PPOPath and continue with next Args[]. */
j += strlen( Args[i] ) -1;
}
else
{
Switch[2] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j++;
}
continue;
case 'q' :
case 'Q' :
if( Args[i][j + 1] && isdigit( ( BYTE ) Args[i][j + 1] ) )
{
Switch[2] = Args[i][j + 1];
Switch[3] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 2;
continue;
}
else
{
Switch[2] = '\0';
hb_compChkEnvironVar( (char*) Switch );
}
break;
case 'r' :
case 'R' :
hb_compChkEnvironVar( Args[i] );
j = strlen( Args[i] ) - 1;
break;
case 'u' :
case 'U' :
Args[i] += (j - 1);
hb_compChkEnvironVar( Args[i] );
/* Accept rest as part of .CH Path or "undef:<id>" and continue with next Args[]. */
j = strlen( Args[i] );
continue;
case 'w' :
case 'W' :
if( Args[i][j + 1] && isdigit( ( BYTE ) Args[i][j + 1] ) )
{
Switch[2] = Args[i][j + 1];
Switch[3] = '\0';
hb_compChkEnvironVar( (char*) Switch );
j += 2;
continue;
}
else
{
Switch[2] = '\0';
hb_compChkEnvironVar( (char*) Switch );
}
break;
case 'x' :
case 'X' :
Args[i] += (j - 1);
hb_compChkEnvironVar( Args[i] );
/* Accept rest as INIT Symbol and continue with next Args[]. */
j = strlen( Args[i] );
continue;
default :
Switch[2] = '\0';
hb_compChkEnvironVar( (char*) Switch );
}
}
j++;
}
continue;
}
CheckMultiSlashSwitch :
{
int j = 1;
while( Args[ i ][j] && ! HB_ISOPTSEP( Args[ i ][j] ) ) j++;
if( Args[ i ][j] && Args[ i ][j] == '/' )
{
char cSep = Args[ i ][j];
Args[ i ][j] = 0;
hb_compChkEnvironVar( Args[ i ] );
Args[ i ] += j;
Args[i][0] = cSep;
goto CheckMultiSlashSwitch;
}
else
{
hb_compChkEnvironVar( Args[ i ] );
}
}
}
}
else
/* Chech the environment variables */
{
/* NOTE: CLIPPERCMD enviroment variable
is overriden if HARBOURCMD exists
*/
char * szStrEnv = hb_getenv( "HARBOURCMD" );
if( !szStrEnv || szStrEnv[ 0 ] == '\0' )
{
if( szStrEnv )
hb_xfree( ( void * ) szStrEnv );
szStrEnv = hb_getenv( "CLIPPERCMD" );
}
if( szStrEnv && szStrEnv[ 0 ] != '\0' )
{
char * szSwitch = strtok( szStrEnv, " " );
/* Check the environment var
while it isn't empty.
*/
while( szSwitch != NULL )
{
hb_compChkEnvironVar( szSwitch );
szSwitch = strtok( NULL, " " );
}
}
if( szStrEnv )
hb_xfree( ( void * ) szStrEnv );
}
}
void hb_compChkEnvironVar( char * szSwitch )
{
if( szSwitch )
{
char * s = szSwitch;
/* If szSwitch doesn't start with a HB_OSOPTSEP char
show an error
*/
/*
printf( "Switch: %s\n", s );
*/
if( !HB_ISOPTSEP( *s ) )
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
else
{
s++;
switch( *s )
{
case 'a':
case 'A':
if( *( s + 1 ) == '-' )
hb_comp_bAutoMemvarAssume = FALSE;
else
hb_comp_bAutoMemvarAssume = TRUE;
break;
case 'b':
case 'B':
{
unsigned int i = 0;
char * szOption = hb_strupr( hb_strdup( s ) );
while( i < strlen( szOption ) && !HB_ISOPTSEP( szOption[ i ] ) )
i++;
szOption[ i ] = '\0';
if( strcmp( szOption, "BUILD" ) == 0 )
hb_comp_bBuildInfo = TRUE;
else
{
if( *( s + 1 ) == '-' )
hb_comp_bDebugInfo = FALSE;
else
{
hb_comp_bDebugInfo = TRUE;
hb_comp_bLineNumbers = TRUE;
}
}
hb_xfree( szOption );
}
break;
case 'c':
case 'C':
{
unsigned int i = 0;
char * szOption = hb_strupr( hb_strdup( s ) );
while( i < strlen( szOption ) && !HB_ISOPTSEP( szOption[ i ] ) )
i++;
szOption[ i ] = '\0';
if( strcmp( szOption, "CREDITS" ) == 0 ||
strcmp( szOption, "CREDIT" ) == 0 ||
strcmp( szOption, "CREDI" ) == 0 ||
strcmp( szOption, "CRED" ) == 0 )
hb_comp_bCredits = TRUE;
else
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, szOption, NULL );
hb_xfree( szOption );
}
break;
case 'd':
case 'D':
/* NOTE: Ignore these -d switches will be processed separately */
break;
case 'e':
case 'E':
if( *( s + 1 ) == 's' || *( s + 1 ) == 'S' )
{
switch( *( s + 2 ) )
{
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_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
}
}
else
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
break;
case 'g':
case 'G':
switch( *( s + 1 ) )
{
case 'c':
case 'C':
hb_comp_iLanguage = LANG_C;
switch( *( s + 2 ) )
{
case '3':
hb_comp_iGenCOutput = HB_COMPGENC_REALCODE;
break;
case '\0':
case '2':
hb_comp_iGenCOutput = HB_COMPGENC_VERBOSE;
break;
case '1':
hb_comp_iGenCOutput = HB_COMPGENC_NORMAL;
break;
case '0':
hb_comp_iGenCOutput = HB_COMPGENC_COMPACT;
break;
default:
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
}
break;
case 'j':
case 'J':
hb_comp_iLanguage = LANG_JAVA;
break;
case 'h':
case 'H':
hb_comp_iLanguage = LANG_PORT_OBJ;
break;
case 'i':
case 'I':
hb_comp_iLanguage = LANG_CLI;
break;
case 'o':
case 'O':
hb_comp_iLanguage = LANG_OBJ_MODULE;
break;
case 'w':
case 'W':
hb_comp_iLanguage = LANG_OBJ32;
break;
default:
printf( "\nUnsupported output language option\n" );
hb_compMainExit();
exit( EXIT_FAILURE );
}
break;
/* NOTE:
h or H from HELP or help
*/
case 'h':
case 'H':
case '?':
break;
/* NOTE:
It already has support for several include files
*/
case 'i':
case 'I':
hb_fsAddSearchPath( s + 1, &hb_comp_pIncludePath );
break;
case 'k':
case 'K':
{
int i = 1;
while( s[ i ] )
{
switch( s[ i++ ] )
{
case '?':
hb_compPrintLogo();
hb_compPrintModes();
hb_comp_bLogo = FALSE;
hb_comp_bQuiet = TRUE;
break;
case 'h':
/* default Harbour mode */
hb_comp_Supported |= HB_COMPFLAG_HARBOUR;
break;
case 'c':
/* clear all flags - minimal set of features */
hb_comp_Supported = HB_COMPFLAG_OPTJUMP;
break;
case 'x':
hb_comp_Supported |= HB_COMPFLAG_XBASE;
break;
case 'i':
hb_comp_Supported |= HB_COMPFLAG_HB_INLINE;
break;
case 'J':
hb_comp_Supported &= ~HB_COMPFLAG_OPTJUMP;
break;
case 'r':
hb_comp_Supported |= HB_COMPFLAG_RT_MACRO;
break;
case 's':
hb_comp_Supported |= HB_COMPFLAG_ARRSTR;
break;
default:
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
break;
}
}
}
break;
case 'l':
case 'L':
if( *( s + 1 ) == '-' )
hb_comp_bLineNumbers = TRUE;
else
hb_comp_bLineNumbers = FALSE;
break;
case 'm':
case 'M':
if( *( s + 1 ) == '-' )
hb_comp_bAutoOpen = TRUE;
else
hb_comp_bAutoOpen = FALSE;
break;
case 'n':
case 'N':
/*
-n1 no start up procedure and no implicit start up procedure
*/
if( *( s + 1 ) == '1' )
{
hb_comp_bStartProc = FALSE;
hb_comp_bNoStartUp = TRUE;
}
/*
-n or -n0 no implicit start up procedure
*/
else if ( ( *( s + 1 ) == '0' ) || ( *( s + 1 ) == '\0' ) )
hb_comp_bStartProc = FALSE;
/*
-n- ceates implicit start up procedure
*/
else if( *( s + 1 ) == '-' )
hb_comp_bStartProc = TRUE;
/*
invalid command
*/
else
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
break;
case 'o':
case 'O':
{
char * szPath = hb_strdup( s + 1 );
hb_comp_pOutPath = hb_fsFNameSplit( szPath );
hb_xfree( szPath );
}
break;
/* Added for preprocessor needs */
case 'p':
case 'P':
if( *( s + 1 ) == '-' )
hb_comp_bPPO = 0;
else
{
char * szPath = hb_strdup( s + 1 );
hb_comp_pPpoPath = hb_fsFNameSplit( szPath );
hb_xfree( szPath );
hb_comp_bPPO = 1;
}
break;
case 'q':
case 'Q':
if( *( s + 1 ) == '0' )
hb_comp_bLogo = FALSE;
hb_comp_bQuiet = TRUE;
break;
case 'r':
case 'R':
if( *( s + 1 ) == '=' )
{
int iOverflow;
int iCycles = hb_strValInt( s + 2, &iOverflow );
if( ! iOverflow && iCycles > 0 )
hb_pp_MaxTranslateCycles = (unsigned int)iCycles;
}
else
{
/* TODO: Implement this switch */
printf( "Not yet supported command line option: %s\n", s );
}
break;
case 's':
case 'S':
if( *( s + 1 ) == '-' )
hb_comp_bSyntaxCheckOnly = FALSE;
else
hb_comp_bSyntaxCheckOnly = TRUE;
break;
case 't':
case 'T':
/* TODO: Implement this switch */
printf( "Not yet supported command line option: %s\n", s );
break;
case 'u':
case 'U':
if ( s[1] && toupper( s[1] ) == 'N'
&& s[2] && toupper( s[2] ) == 'D'
&& s[3] && toupper( s[3] ) == 'E'
&& s[4] && toupper( s[4] ) == 'F'
&& s[5] == ':' )
{
/* NOTE: Ignore these -undef: switches will be processed separately */
break;
}
hb_pp_STD_CH = hb_strdup( s + 1 );
break;
case 'v':
case 'V':
if( *( s + 1 ) == '-' )
hb_comp_bForceMemvars = FALSE;
else
hb_comp_bForceMemvars = TRUE;
break;
case 'w':
case 'W':
hb_comp_iWarnings = 1;
if( s[ 1 ] )
{ /*there is -w<0,1,2,3> probably */
hb_comp_iWarnings = s[ 1 ] - '0';
if( hb_comp_iWarnings < 0 || hb_comp_iWarnings > 4 )
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
}
break;
case 'x':
case 'X':
{
unsigned int i = 0;
char * szPrefix = hb_strdup( s + 1 );
while( i < strlen( szPrefix ) && !HB_ISOPTSEP( szPrefix[ i ] ) )
i++;
szPrefix[ i ] = '\0';
if( strlen( szPrefix ) == 0 )
sprintf( szPrefix, "%08lX_", PackDateTime() );
strncpy( hb_comp_szPrefix, szPrefix, 16 );
hb_comp_szPrefix[ 16 ] = '\0';
strcat( hb_comp_szPrefix, "_" );
hb_xfree( szPrefix );
}
break;
#ifdef YYDEBUG
case 'y':
case 'Y':
yydebug = TRUE;
break;
#endif
case 'z':
case 'Z':
if( *( s + 1 ) == '-' )
hb_comp_bShortCuts = TRUE;
else
hb_comp_bShortCuts = FALSE;
break;
default:
hb_compGenError( hb_comp_szErrors, 'F', HB_COMP_ERR_BADOPTION, s, NULL );
break;
}
}
}
}
void hb_compChkPaths( void )
{
char * szInclude = hb_getenv( "INCLUDE" );
if( szInclude )
{
if( szInclude[ 0 ] != '\0' )
hb_fsAddSearchPath( szInclude, &hb_comp_pIncludePath );
hb_xfree( ( void * ) szInclude );
}
}
static void hb_compChkDefineSwitch( char * pszSwitch )
{
if( pszSwitch && HB_ISOPTSEP( pszSwitch[ 0 ] ) )
{
if ( pszSwitch[ 1 ] == 'd' || pszSwitch[ 1 ] == 'D' )
{
char *szDefText = hb_strdup( pszSwitch + 2 ), *pAssign, *sDefLine;
unsigned int i = 0;
while( i < strlen( szDefText ) && ! HB_ISOPTSEP( szDefText[ i ] ) )
i++;
szDefText[ i ] = '\0';
if( szDefText )
{
if( ( pAssign = strchr( szDefText, '=' ) ) == NULL )
{
hb_pp_AddDefine( szDefText, 0 );
}
else
{
szDefText[ pAssign - szDefText ] = '\0';
/* hb_pp_AddDefine( szDefText, pAssign + 1 ); */
sDefLine = ( char* ) hb_xgrab( strlen( szDefText ) + 1 + strlen( pAssign + 1 ) + 1 );
sprintf( sDefLine, "%s %s", szDefText, pAssign + 1 );
hb_pp_ParseDefine( sDefLine );
hb_xfree( sDefLine );
}
}
hb_xfree( szDefText );
}
else if ( pszSwitch[1] && toupper( pszSwitch[1] ) == 'U' &&
pszSwitch[2] && toupper( pszSwitch[2] ) == 'N' &&
pszSwitch[3] && toupper( pszSwitch[3] ) == 'D' &&
pszSwitch[4] && toupper( pszSwitch[4] ) == 'E' &&
pszSwitch[5] && toupper( pszSwitch[5] ) == 'F' &&
pszSwitch[6] == ':' )
{
char *szDefText = hb_strdup( pszSwitch + 7 );
char *szDefLine;
unsigned int i = 0;
while ( szDefText[ i ] && ! HB_ISOPTSEP( szDefText[ i ] ) )
{
i++;
}
szDefText[ i ] = '\0';
if ( szDefText[ 0 ] )
{
szDefLine = (char *) hb_xgrab( 7 + strlen( szDefText ) + 1 );
sprintf( szDefLine, "#undef %s", szDefText );
hb_pp_ParseDirective( szDefLine );
hb_xfree( szDefLine );
}
hb_xfree( szDefText );
}
}
}
void hb_compChkDefines( int iArg, char * Args[] )
{
/* Chech the environment variables */
{
/* NOTE: CLIPPERCMD enviroment variable is overriden
if HARBOURCMD exists */
char * szStrEnv = hb_getenv( "HARBOURCMD" );
if( !szStrEnv || szStrEnv[ 0 ] == '\0' )
{
if( szStrEnv )
hb_xfree( ( void * ) szStrEnv );
szStrEnv = hb_getenv( "CLIPPERCMD" );
}
if( szStrEnv && szStrEnv[ 0 ] != '\0' )
{
char * szSwitch = strtok( szStrEnv, " " );
/* Check the environment var while it isn't empty. */
while( szSwitch != NULL )
{
hb_compChkDefineSwitch( szSwitch );
szSwitch = strtok( NULL, " " );
}
}
if( szStrEnv )
hb_xfree( ( void * ) szStrEnv );
}
/* Check the command line options */
{
int i;
/* Check all switches in command line They start with an OS_OPT_DELIMITER
char */
for( i = 0; i < iArg; i++ )
hb_compChkDefineSwitch( Args[ i ] );
}
}
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