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harbour-core/harbour/source/compiler/gencc.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

1630 lines
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/*
* $Id$
*/
/*
* Harbour Project source code:
* Compiler C source with real code generation
*
* Copyright 2006 Przemyslaw Czerpak < druzus /at/ priv.onet.pl >
* 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.
*
* 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/).
*
*/
#include <assert.h>
#include "hbcomp.h"
#include "hbdate.h"
extern void hb_compGenCRealCode( PFUNCTION pFunc, FILE * yyc );
#define HB_GENC_FUNC( func ) HB_PCODE_FUNC( func, PHB_LABEL_INFO )
typedef HB_GENC_FUNC( HB_GENC_FUNC_ );
typedef HB_GENC_FUNC_ * HB_GENC_FUNC_PTR;
#define HB_GENC_GETLABEL(l) ( l < pFunc->lPCodePos ? cargo->pulLabels[ l ] : 0 )
#define HB_GENC_LABEL() do { \
ULONG ulLab = HB_GENC_GETLABEL( lPCodePos ); \
if( ulLab != 0 ) \
fprintf( cargo->yyc, "lab%05ld: ;\n", ulLab ); \
} while( 0 )
#define HB_GENC_ERROR(s) do { \
fprintf( cargo->yyc, "\t#error: \"" s "\"\n" ); \
} while( 0 )
static void hb_gencc_string_put( FILE * yyc, BYTE * pText, USHORT usLen )
{
USHORT usPos;
fputc( '"', yyc );
for( usPos = 0; usPos < usLen; usPos++ )
{
BYTE uchr = ( BYTE ) pText[ usPos ];
/*
* NOTE: After optimization some CHR(n) can be converted
* into a string containing nonprintable characters.
*
* TODO: add switch to use hexadecimal format "%#04x"
*
* ? is escaped to avoid conflicts with trigraph sequences which
* are part of ANSI C standard
*/
if( uchr == '"' || uchr == '\\' || uchr == '?' )
fprintf( yyc, "\\%c", uchr );
else if( uchr < ( BYTE ) ' ' || uchr >= 127 )
fprintf( yyc, "\\%03o", uchr );
else
fprintf( yyc, "%c", uchr );
}
fputc( '"', yyc );
}
static int hb_gencc_checkNumAhead( LONG lValue, PFUNCTION pFunc, ULONG lPCodePos, PHB_LABEL_INFO cargo )
{
if( HB_GENC_GETLABEL( lPCodePos ) == 0 )
{
switch( pFunc->pCode[ lPCodePos ] )
{
case HB_P_ARRAYPUSH:
if( lValue > 0 )
{
fprintf( cargo->yyc, "\tif( hb_xvmArrayItemPush( %ld ) ) break;\n", lValue );
return 1;
}
break;
case HB_P_ARRAYPOP:
if( lValue > 0 )
{
fprintf( cargo->yyc, "\tif( hb_xvmArrayItemPop( %ld ) ) break;\n", lValue );
return 1;
}
break;
case HB_P_MULT:
fprintf( cargo->yyc, "\tif( hb_xvmMultByInt( %ld ) ) break;\n", lValue );
return 1;
case HB_P_DIVIDE:
fprintf( cargo->yyc, "\tif( hb_xvmDivideByInt( %ld ) ) break;\n", lValue );
return 1;
case HB_P_PLUS:
fprintf( cargo->yyc, "\tif( hb_xvmAddInt( %ld ) ) break;\n", lValue );
return 1;
case HB_P_MINUS:
fprintf( cargo->yyc, "\tif( hb_xvmAddInt( -%ld ) ) break;\n", lValue );
return 1;
}
}
return 0;
}
static HB_GENC_FUNC( hb_p_and )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmAnd() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_arraypush )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmArrayPush() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_arraypop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmArrayPop() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_dec )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDec() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_arraydim )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmArrayDim( %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_divide )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDivide() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_do )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDo( %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_doshort )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDo( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_duplicate )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmDuplicate();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_dupltwo )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmDuplTwo();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_equal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmEqual( FALSE ) ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_exactlyequal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmEqual( TRUE ) ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_endblock )
{
HB_GENC_LABEL();
HB_GENC_ERROR( "HB_P_ENDBLOCK" );
return 1;
}
static HB_GENC_FUNC( hb_p_endproc )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\t/* *** END PROC *** */\n" );
if( lPCodePos < pFunc->lPCodePos - 1 )
{
fprintf( cargo->yyc, "\tbreak;\n" );
}
return 1;
}
static HB_GENC_FUNC( hb_p_false )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLogical( FALSE );\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_fortest )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmForTest() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_frame )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmFrame( %hu, %hu );\n",
pFunc->pCode[ lPCodePos + 1 ], pFunc->pCode[ lPCodePos + 2 ] );
return 3;
}
static HB_GENC_FUNC( hb_p_funcptr )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmFuncPtr();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_function )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmFunction( %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_functionshort )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmFunction( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_arraygen )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmArrayGen( %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_greater )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmGreater() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_greaterequal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmGreaterEqual() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_inc )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmInc() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_instring )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmInstring() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_jumpnear )
{
LONG lOffset = ( signed char ) ( pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 2;
}
static HB_GENC_FUNC( hb_p_jump )
{
LONG lOffset = HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 3;
}
static HB_GENC_FUNC( hb_p_jumpfar )
{
LONG lOffset = HB_PCODE_MKINT24( &pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 4;
}
static HB_GENC_FUNC( hb_p_jumpfalsenear )
{
LONG lOffset = ( signed char ) ( pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( !fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 2;
}
static HB_GENC_FUNC( hb_p_jumpfalse )
{
LONG lOffset = HB_PCODE_MKSHORT( &( pFunc->pCode[ lPCodePos + 1 ] ) );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( !fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 3;
}
static HB_GENC_FUNC( hb_p_jumpfalsefar )
{
LONG lOffset = HB_PCODE_MKINT24( &( pFunc->pCode[ lPCodePos + 1 ] ) );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( !fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 4;
}
static HB_GENC_FUNC( hb_p_jumptruenear )
{
LONG lOffset = ( signed char ) ( pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 2;
}
static HB_GENC_FUNC( hb_p_jumptrue )
{
LONG lOffset = HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 3;
}
static HB_GENC_FUNC( hb_p_jumptruefar )
{
LONG lOffset = HB_PCODE_MKINT24( &( pFunc->pCode[ lPCodePos + 1 ] ) );
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopLogical( &fValue ) ) break;\n\tif( fValue )\n\t\tgoto lab%05ld;\n",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 4;
}
static HB_GENC_FUNC( hb_p_less )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmLess() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_lessequal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmLessEqual() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_line )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmSetLine( %d );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_localname )
{
USHORT usLen;
HB_GENC_LABEL();
usLen = strlen( ( char * ) &pFunc->pCode[ lPCodePos + 3 ] );
fprintf( cargo->yyc, "\thb_xvmLocalName( %hu, ",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 3 ], usLen );
fprintf( cargo->yyc, " );\n" );
return usLen + 4;
}
static HB_GENC_FUNC( hb_p_macropop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPop( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropopaliased )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPopAliased( %d ) ) break;\n", pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropush )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPush( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropushref )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushRef() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_macropusharg )
{
USHORT usSize, usSymbol;
HB_GENC_LABEL();
if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_PUSHSYMNEAR )
{
usSymbol = pFunc->pCode[ lPCodePos + 3 ];
usSize = 4;
}
else
{
usSymbol = HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 3 ] );
usSize = 5;
}
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushArg( symbols + %hu, %d ) ) break;\n",
usSymbol, pFunc->pCode[ lPCodePos + 1 ] );
return usSize;
}
static HB_GENC_FUNC( hb_p_macropushlist )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushList( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropushindex )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushIndex( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropushpare )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushPare( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macropushaliased )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroPushAliased( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_macrosymbol )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroSymbol() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_macrotext )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMacroText() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_message )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushSymbol( symbols + %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_minus )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMinus() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_modulename )
{
USHORT usLen;
HB_GENC_LABEL();
usLen = strlen( ( char * ) &pFunc->pCode[ lPCodePos + 1 ] );
fprintf( cargo->yyc, "\thb_xvmModuleName( " );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 1 ], usLen );
fprintf( cargo->yyc, " );\n" );
return usLen + 2;
}
static HB_GENC_FUNC( hb_p_modulus )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmModulus() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_mult )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMult() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_negate )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmNegate() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_not )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmNot() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_notequal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmNotEqual() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_or )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmOr() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_parameter )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmParameter( symbols + %hu, %d );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ),
pFunc->pCode[ lPCodePos + 3 ] );
return 4;
}
static HB_GENC_FUNC( hb_p_plus )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPlus() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_stackPop();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_popalias )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopAlias() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_popaliasedfield )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopAliasedField( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_popaliasedfieldnear )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopAliasedField( symbols + %hu ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_popaliasedvar )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopAliasedVar( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_popfield )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopField( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_poplocal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPopLocal( %hd );\n",
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_poplocalnear )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPopLocal( %hd );\n",
( signed char ) pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_popmemvar )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopMemvar( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_popstatic )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPopStatic( %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_popvariable )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPopVariable( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_power )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPower() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pushalias )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushAlias() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pushaliasedfield )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushAliasedField( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushaliasedfieldnear )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushAliasedField( symbols + %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_pushaliasedvar )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushAliasedVar( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushblock )
{
USHORT usSize, us;
HB_GENC_LABEL();
usSize = HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) - 3;
fprintf( cargo->yyc, "\t{\n\t\tstatic const BYTE codeblock[ %hd ] = {", usSize );
for( us = 0; us < usSize; ++us )
{
if( ( us & 0x0f ) == 0 )
fprintf( cargo->yyc, "\n\t\t\t" );
if( us == usSize - 1 )
fprintf( cargo->yyc, "%d", pFunc->pCode[ lPCodePos + 3 + us ] );
else
fprintf( cargo->yyc, "%d, ", pFunc->pCode[ lPCodePos + 3 + us ] );
}
fprintf( cargo->yyc, " };\n\t\thb_xvmPushBlock( codeblock, symbols );\n\t}\n" );
return 3 + usSize;
}
static HB_GENC_FUNC( hb_p_pushblockshort )
{
USHORT usSize, us;
HB_GENC_LABEL();
usSize = pFunc->pCode[ lPCodePos + 1 ] - 2;
fprintf( cargo->yyc, "\t{\n\t\tstatic const BYTE codeblock[ %hd ] = {", usSize );
for( us = 0; us < usSize; ++us )
{
if( ( us & 0x0f ) == 0 )
fprintf( cargo->yyc, "\n\t\t\t" );
if( us == usSize - 1 )
fprintf( cargo->yyc, "%d", pFunc->pCode[ lPCodePos + 2 + us ] );
else
fprintf( cargo->yyc, "%d, ", pFunc->pCode[ lPCodePos + 2 + us ] );
}
fprintf( cargo->yyc, " };\n\t\thb_xvmPushBlockShort( codeblock, symbols );\n\t}\n" );
return 2 + usSize;
}
static HB_GENC_FUNC( hb_p_pushdouble )
{
HB_GENC_LABEL();
#if 0
fprintf( cargo->yyc, "\thb_xvmPushDouble( %.*f, %d, %d );\n",
pFunc->pCode[ lPCodePos + 1 + sizeof( double ) + sizeof( BYTE ) ] + 1,
HB_PCODE_MKDOUBLE( &pFunc->pCode[ lPCodePos + 1 ] ),
pFunc->pCode[ lPCodePos + 1 + sizeof( double ) ],
pFunc->pCode[ lPCodePos + 1 + sizeof( double ) + sizeof( BYTE ) ] );
#else
/*
* This version keeps double calculation compatible with RT FL functions
*/
fprintf( cargo->yyc, "\thb_xvmPushDouble( * ( double * ) " );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 1 ], sizeof( double ) );
fprintf( cargo->yyc, ", %d, %d );\n",
pFunc->pCode[ lPCodePos + 1 + sizeof( double ) ],
pFunc->pCode[ lPCodePos + 1 + sizeof( double ) + sizeof( BYTE ) ] );
#endif
return sizeof( double ) + sizeof( BYTE ) + sizeof( BYTE ) + 1;
}
static HB_GENC_FUNC( hb_p_pushfield )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushField( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushbyte )
{
int iVal = ( signed char ) pFunc->pCode[ lPCodePos + 1 ], iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( iVal, pFunc, lPCodePos + 2, cargo );
if( iSkip == 0 )
fprintf( cargo->yyc, "\thb_xvmPushInteger( %d );\n", iVal );
return 2 + iSkip;
}
static HB_GENC_FUNC( hb_p_pushint )
{
int iVal = HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] ), iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( iVal, pFunc, lPCodePos + 3, cargo );
if( iSkip == 0 )
fprintf( cargo->yyc, "\thb_xvmPushInteger( %d );\n", iVal );
return 3 + iSkip;
}
static HB_GENC_FUNC( hb_p_pushlocal )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLocal( %d );\n",
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushlocalnear )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLocal( %d );\n",
( signed char ) pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_pushlocalref )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLocalByRef( %d );\n",
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushlong )
{
LONG lVal = HB_PCODE_MKLONG( &pFunc->pCode[ lPCodePos + 1 ] ), iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( lVal, pFunc, lPCodePos + 5, cargo );
if( iSkip == 0 )
{
#if HB_INT_MAX >= INT32_MAX
fprintf( cargo->yyc, "\thb_xvmPushInteger( %d );\n", ( int ) lVal );
#else
fprintf( cargo->yyc, "\thb_xvmPushLong( %ldL );\n", ( long ) lVal );
#endif
}
return 5 + iSkip;
}
static HB_GENC_FUNC( hb_p_pushlonglong )
{
#ifdef HB_LONG_LONG_OFF
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLongLong( %.1f );\n", HB_PCODE_MKLONGLONG( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 9;
#elif LONG_MAX == LONGLONG_MAX
LONGLONG llVal = HB_PCODE_MKLONGLONG( &pFunc->pCode[ lPCodePos + 1 ] ), iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( llVal, pFunc, lPCodePos + 9, cargo );
if( iSkip == 0 )
{
fprintf( cargo->yyc, "\thb_xvmPushLong( %ldL );\n", ( long ) llVal );
}
return 9 + iSkip;
#else
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLongLong( HB_LL( %" PFLL "i ) );\n", HB_PCODE_MKLONGLONG( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 9;
#endif
}
static HB_GENC_FUNC( hb_p_pushmemvar )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushMemvar( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushmemvarref )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushMemvarByRef( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushnil )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushNil();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pushself )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushSelf();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pushstatic )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushStatic( %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushstaticref )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushStaticByRef( %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushstr )
{
USHORT usLen = HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) - 1;
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushStringConst( " );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 3 ], usLen );
fprintf( cargo->yyc, ", %hu );\n", usLen );
return 4 + usLen;
}
static HB_GENC_FUNC( hb_p_pushstrshort )
{
USHORT usLen = pFunc->pCode[ lPCodePos + 1 ] - 1;
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushStringConst( " );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 2 ], usLen );
fprintf( cargo->yyc, ", %hu );\n", usLen );
return 3 + usLen;
}
static HB_GENC_FUNC( hb_p_pushsym )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushSymbol( symbols + %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_pushsymnear )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushSymbol( symbols + %d );\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_pushvariable )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPushVariable( symbols + %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_retvalue )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmRetValue();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_send )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmSend( %hu ) ) break;\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_sendshort )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmSend( %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ] );
return 2;
}
static HB_GENC_FUNC( hb_p_seqbegin )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmSeqBegin();\n\tdo {\n" );
return 4;
}
static HB_GENC_FUNC( hb_p_seqend )
{
LONG lOffset = HB_PCODE_MKINT24( &pFunc->pCode[ lPCodePos + 1 ] );
HB_GENC_LABEL();
if( lOffset == 4 ) /* no RECOVER clasue */
fprintf( cargo->yyc, "\t} while( 0 );\n\thb_xvmSeqEnd( %s );\n",
cargo->fForEach ? "&lForEachBase" : "NULL" );
else /* RECOVER exists */
fprintf( cargo->yyc, "\thb_xvmSeqEnd( %s );\n\tgoto lab%05ld;\n\t} while( 0 );\n",
cargo->fForEach ? "&lForEachBase" : "NULL",
HB_GENC_GETLABEL( lPCodePos + lOffset ) );
return 4;
}
static HB_GENC_FUNC( hb_p_seqrecover )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmSeqRecover( %s );\n",
cargo->fForEach ? "&lForEachBase" : "NULL" );
return 1;
}
static HB_GENC_FUNC( hb_p_sframe )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmSFrame( symbols + %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 3;
}
static HB_GENC_FUNC( hb_p_statics )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmStatics( symbols + %hu, %hu );\n",
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ),
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 3 ] ) );
return 5;
}
static HB_GENC_FUNC( hb_p_staticname )
{
USHORT usLen;
HB_GENC_LABEL();
usLen = strlen( ( char * ) &pFunc->pCode[ lPCodePos + 4 ] );
fprintf( cargo->yyc, "\thb_xvmStaticName( %hu, %hu, ",
( USHORT ) pFunc->pCode[ lPCodePos + 1 ],
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 2 ] ) );
hb_gencc_string_put( cargo->yyc, &pFunc->pCode[ lPCodePos + 4 ], usLen );
fprintf( cargo->yyc, " );\n" );
return usLen + 5;
}
static HB_GENC_FUNC( hb_p_swapalias )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmSwapAlias() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_true )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushLogical( TRUE );\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_one )
{
int iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( 1, pFunc, lPCodePos + 1, cargo );
if( iSkip == 0 )
fprintf( cargo->yyc, "\thb_xvmPushInteger( 1 );\n" );
return 1 + iSkip;
}
static HB_GENC_FUNC( hb_p_zero )
{
int iSkip;
HB_GENC_LABEL();
iSkip = hb_gencc_checkNumAhead( 0, pFunc, lPCodePos + 1, cargo );
if( iSkip == 0 )
fprintf( cargo->yyc, "\thb_xvmPushInteger( 0 );\n" );
return 1 + iSkip;
}
static HB_GENC_FUNC( hb_p_noop )
{
HB_GENC_LABEL();
return 1;
}
static HB_GENC_FUNC( hb_p_dummy )
{
HB_SYMBOL_UNUSED( cargo );
HB_SYMBOL_UNUSED( pFunc );
HB_SYMBOL_UNUSED( lPCodePos );
return 1;
}
static HB_GENC_FUNC( hb_p_macrolist )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmMacroList();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_macrolistend )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmMacroListEnd();\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_enumstart )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmEnumStart( %d, %d, &lForEachBase ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ], pFunc->pCode[ lPCodePos + 2 ] );
return 3;
}
static HB_GENC_FUNC( hb_p_enumnext )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmEnumNext() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_enumprev )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmEnumPrev() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_enumend )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmEnumEnd( &lForEachBase );\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_switch )
{
USHORT usCases = HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ), us;
ULONG ulStart = lPCodePos, ulNewPos;
HB_GENC_LABEL();
fprintf( cargo->yyc, "\t{\n\t\tPHB_ITEM pSwitch = hb_stackItemFromTop( -1 );\n"
"\t\tHB_TYPE type = hb_itemType( pSwitch );\n"
"\t\tchar * pszText = (type & HB_IT_STRING) ? hb_itemGetCPtr( pSwitch ) : NULL;\n"
"\t\tlong lVal = (type & HB_IT_NUMINT) ? hb_itemGetNL( pSwitch ) : 0;\n\n" );
lPCodePos += 3;
for( us = 0; us < usCases; ++us )
{
#if 0
/* only for test function - can be removed */
if( lPCodePos >= pFunc->lPCodePos )
break;
#endif
switch( pFunc->pCode[ lPCodePos ] )
{
case HB_P_PUSHLONG:
fprintf( cargo->yyc, "\t\tif( (type & HB_IT_NUMINT) != 0 && lVal == %ldL )\n",
HB_PCODE_MKLONG( &pFunc->pCode[ lPCodePos + 1 ] ) );
lPCodePos += 5;
break;
case HB_P_PUSHSTRSHORT:
fprintf( cargo->yyc, "\t\tif( pszText && !strcmp( pszText, \"%s\" ) )\n",
&pFunc->pCode[ lPCodePos + 2 ] );
lPCodePos += 2 + pFunc->pCode[ lPCodePos + 1 ];
break;
case HB_P_PUSHNIL:
/* default clause */
lPCodePos++;
break;
}
switch( pFunc->pCode[ lPCodePos ] )
{
case HB_P_JUMPNEAR:
ulNewPos = lPCodePos + ( signed char ) pFunc->pCode[ lPCodePos + 1 ];
lPCodePos += 2;
break;
case HB_P_JUMP:
ulNewPos = lPCodePos + HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
lPCodePos += 3;
break;
/*case HB_P_JUMPFAR:*/
default:
ulNewPos = lPCodePos + HB_PCODE_MKINT24( &pFunc->pCode[ lPCodePos + 1 ] );
lPCodePos += 4;
break;
}
fprintf( cargo->yyc, "\t\t{\n\t\t\thb_stackPop();\n\t\t\tgoto lab%05ld;\n\t\t}\n",
HB_GENC_GETLABEL( ulNewPos ) );
}
fprintf( cargo->yyc, "\t}\n" );
return lPCodePos - ulStart;
}
static HB_GENC_FUNC( hb_p_pushdate )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\thb_xvmPushDate( %ldL );\n",
( long ) HB_PCODE_MKLONG( &pFunc->pCode[ lPCodePos + 1 ] ) );
return 5;
}
static HB_GENC_FUNC( hb_p_localnearaddint )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmLocalAddInt( %d, %d ) ) break;\n",
pFunc->pCode[ lPCodePos + 1 ],
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 2 ] ) );
return 4;
}
static HB_GENC_FUNC( hb_p_pluseqpop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPlusEqPop() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_minuseqpop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMinusEqPop() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_multeqpop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMultEqPop() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_diveqpop )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDivEqPop() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_pluseq )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmPlusEq() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_minuseq )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMinusEq() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_multeq )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmMultEq() ) break;\n" );
return 1;
}
static HB_GENC_FUNC( hb_p_diveq )
{
HB_GENC_LABEL();
fprintf( cargo->yyc, "\tif( hb_xvmDivEq() ) break;\n" );
return 1;
}
/* NOTE: The order of functions have to match the order of opcodes
* mnemonics
*/
static HB_GENC_FUNC_PTR s_verbose_table[] = {
hb_p_and,
hb_p_arraypush,
hb_p_arraypop,
hb_p_arraydim,
hb_p_arraygen,
hb_p_equal,
hb_p_endblock,
hb_p_endproc,
hb_p_exactlyequal,
hb_p_false,
hb_p_fortest,
hb_p_function,
hb_p_functionshort,
hb_p_frame,
hb_p_funcptr,
hb_p_greater,
hb_p_greaterequal,
hb_p_dec,
hb_p_divide,
hb_p_do,
hb_p_doshort,
hb_p_duplicate,
hb_p_dupltwo,
hb_p_inc,
hb_p_instring,
hb_p_jumpnear,
hb_p_jump,
hb_p_jumpfar,
hb_p_jumpfalsenear,
hb_p_jumpfalse,
hb_p_jumpfalsefar,
hb_p_jumptruenear,
hb_p_jumptrue,
hb_p_jumptruefar,
hb_p_lessequal,
hb_p_less,
hb_p_line,
hb_p_localname,
hb_p_macropop,
hb_p_macropopaliased,
hb_p_macropush,
hb_p_macropusharg,
hb_p_macropushlist,
hb_p_macropushindex,
hb_p_macropushpare,
hb_p_macropushaliased,
hb_p_macrosymbol,
hb_p_macrotext,
hb_p_message,
hb_p_minus,
hb_p_modulus,
hb_p_modulename,
/* start: pcodes generated by macro compiler */
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
hb_p_dummy,
/* end: */
hb_p_mult,
hb_p_negate,
hb_p_noop,
hb_p_not,
hb_p_notequal,
hb_p_or,
hb_p_parameter,
hb_p_plus,
hb_p_pop,
hb_p_popalias,
hb_p_popaliasedfield,
hb_p_popaliasedfieldnear,
hb_p_popaliasedvar,
hb_p_popfield,
hb_p_poplocal,
hb_p_poplocalnear,
hb_p_popmemvar,
hb_p_popstatic,
hb_p_popvariable,
hb_p_power,
hb_p_pushalias,
hb_p_pushaliasedfield,
hb_p_pushaliasedfieldnear,
hb_p_pushaliasedvar,
hb_p_pushblock,
hb_p_pushblockshort,
hb_p_pushfield,
hb_p_pushbyte,
hb_p_pushint,
hb_p_pushlocal,
hb_p_pushlocalnear,
hb_p_pushlocalref,
hb_p_pushlong,
hb_p_pushmemvar,
hb_p_pushmemvarref,
hb_p_pushnil,
hb_p_pushdouble,
hb_p_pushself,
hb_p_pushstatic,
hb_p_pushstaticref,
hb_p_pushstr,
hb_p_pushstrshort,
hb_p_pushsym,
hb_p_pushsymnear,
hb_p_pushvariable,
hb_p_retvalue,
hb_p_send,
hb_p_sendshort,
hb_p_seqbegin,
hb_p_seqend,
hb_p_seqrecover,
hb_p_sframe,
hb_p_statics,
hb_p_staticname,
hb_p_swapalias,
hb_p_true,
hb_p_zero,
hb_p_one,
hb_p_macrolist,
hb_p_macrolistend,
/* start: more pcodes generated by macro compiler */
hb_p_dummy,
/* end: */
hb_p_localnearaddint,
hb_p_macropushref,
hb_p_pushlonglong,
hb_p_enumstart,
hb_p_enumnext,
hb_p_enumprev,
hb_p_enumend,
hb_p_switch,
hb_p_pushdate,
/* optimalization of inlined math operations (+=, -= */
hb_p_pluseqpop,
hb_p_minuseqpop,
hb_p_multeqpop,
hb_p_diveqpop,
hb_p_pluseq,
hb_p_minuseq,
hb_p_multeq,
hb_p_diveq
};
void hb_compGenCRealCode( PFUNCTION pFunc, FILE * yyc )
{
HB_LABEL_INFO label_info;
/* Make sure that table is correct */
assert( HB_P_LAST_PCODE == sizeof( s_verbose_table ) / sizeof( HB_GENC_FUNC_PTR ) );
label_info.yyc = yyc;
label_info.fVerbose = ( hb_comp_iGenCOutput == HB_COMPGENC_VERBOSE );
label_info.fSetSeqBegin = FALSE;
label_info.fCondJump = label_info.fForEach = FALSE;
if( pFunc->lPCodePos == 0 )
label_info.pulLabels = NULL;
else
{
label_info.pulLabels = ( ULONG * ) hb_xgrab( pFunc->lPCodePos * sizeof( ULONG ) );
memset( label_info.pulLabels, 0, pFunc->lPCodePos * sizeof( ULONG ) );
hb_compGenLabelTable( pFunc, &label_info );
}
fprintf( yyc, "{\n" );
fprintf( yyc, " ULONG ulPrivateBase = hb_memvarGetPrivatesBase();\n" );
if( label_info.fForEach )
fprintf( yyc, " LONG lForEachBase = 0;\n" );
if( label_info.fCondJump )
fprintf( yyc, " BOOL fValue;\n" );
fprintf( yyc, " do {\n" );
hb_compPCodeEval( pFunc, ( HB_PCODE_FUNC_PTR * ) s_verbose_table, ( void * ) &label_info );
fprintf( yyc, " } while ( 0 );\n" );
if( label_info.fForEach )
fprintf( yyc, " while( lForEachBase )\n {\n\thb_stackRemove( lForEachBase );\n\thb_xvmEnumEnd( &lForEachBase );\n }\n" );
fprintf( yyc, " hb_xvmExitPorc( ulPrivateBase );\n" );
fprintf( yyc, "}\n" );
if( label_info.pulLabels )
hb_xfree( label_info.pulLabels );
}
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