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harbour-core/harbour/source/compiler/hbopt.c
Mindaugas Kavaliauskas 1fcc352cbb 2007-11-19 19:03 UTC+0200 Mindaugas Kavaliauskas (dbtopas/at/dbtopas.lt) 
* harbour/source/compiler/hbopt.c
    ! fixed HB_P_MACROFUNC optimization
2007-11-19 17:04:06 +00:00

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/*
* $Id$
*/
/*
* Harbour Project source code:
* Compiler PCODE optimizer
*
* Copyright 2007 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, 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.
*
*/
#include "hbcomp.h"
#include "hbassert.h"
typedef struct HB_stru_opt_info
{
HB_COMP_DECL;
} HB_OPT_INFO, * HB_OPT_INFO_PTR;
#define HB_OPT_FUNC( func ) HB_PCODE_FUNC( func, HB_OPT_INFO_PTR )
typedef HB_OPT_FUNC( HB_OPT_FUNC_ );
typedef HB_OPT_FUNC_ * HB_OPT_FUNC_PTR;
static HB_OPT_FUNC( hb_p_poplocal )
{
BYTE * pVar = &pFunc->pCode[ lPCodePos + 1 ];
SHORT iVar = HB_PCODE_MKSHORT( pVar );
HB_SYMBOL_UNUSED( cargo );
if( HB_LIM_INT8( iVar ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_POPLOCALNEAR;
hb_compNOOPfill( pFunc, lPCodePos + 2, 1, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_pushlocal )
{
BYTE * pVar = &pFunc->pCode[ lPCodePos + 1 ];
SHORT iVar = HB_PCODE_MKSHORT( pVar );
if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POPLOCAL &&
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 4 ] ) == iVar &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 6, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POPLOCALNEAR &&
( SCHAR ) pFunc->pCode[ lPCodePos + 4 ] == iVar &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 5, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POP &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
}
else if( HB_LIM_INT8( iVar ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_PUSHLOCALNEAR;
hb_compNOOPfill( pFunc, lPCodePos + 2, 1, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_pushlocalnear )
{
if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_POPLOCAL &&
( SCHAR ) pFunc->pCode[ lPCodePos + 1 ] ==
HB_PCODE_MKSHORT( &pFunc->pCode[ lPCodePos + 3 ] ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 2 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 5, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_POPLOCALNEAR &&
pFunc->pCode[ lPCodePos + 1 ] == pFunc->pCode[ lPCodePos + 3 ] &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 2 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_POP &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 2 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 3, FALSE, FALSE );
}
return 2;
}
static HB_OPT_FUNC( hb_p_localaddint )
{
BYTE * pVar = &pFunc->pCode[ lPCodePos + 1 ];
SHORT iVar = HB_PCODE_MKSHORT( pVar );
HB_SYMBOL_UNUSED( cargo );
if( HB_LIM_INT8( iVar ) )
{
pVar[ 0 ] = HB_P_LOCALNEARADDINT;
pVar[ 1 ] = HB_LOBYTE( iVar );
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
}
return 5;
}
static HB_OPT_FUNC( hb_p_pushstatic )
{
if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POPSTATIC &&
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) ==
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 4 ] ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 6, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POP &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_pushmemvar )
{
if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POPMEMVAR &&
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ) ==
HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 4 ] ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 6, FALSE, FALSE );
}
else if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_POP &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_pushnil )
{
if( pFunc->pCode[ lPCodePos + 1 ] == HB_P_POP &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 2, FALSE, FALSE );
}
return 1;
}
static HB_OPT_FUNC( hb_p_false )
{
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_POP:
case HB_P_NOT:
case HB_P_JUMPFALSENEAR:
case HB_P_JUMPFALSE:
case HB_P_JUMPFALSEFAR:
case HB_P_JUMPTRUENEAR:
case HB_P_JUMPTRUE:
case HB_P_JUMPTRUEFAR:
if( ! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) )
{
int iCount = 1;
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_JUMPFALSENEAR:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMPNEAR;
break;
case HB_P_JUMPFALSE:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMP;
break;
case HB_P_JUMPFALSEFAR:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMPFAR;
break;
case HB_P_NOT:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_TRUE;
break;
case HB_P_POP:
iCount = 2;
break;
case HB_P_JUMPTRUENEAR:
iCount = 3;
break;
case HB_P_JUMPTRUE:
iCount = 4;
break;
case HB_P_JUMPTRUEFAR:
iCount = 5;
break;
}
hb_compNOOPfill( pFunc, lPCodePos, iCount, FALSE, FALSE );
}
break;
}
return 1;
}
static HB_OPT_FUNC( hb_p_true )
{
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_POP:
case HB_P_NOT:
case HB_P_JUMPTRUENEAR:
case HB_P_JUMPTRUE:
case HB_P_JUMPTRUEFAR:
case HB_P_JUMPFALSENEAR:
case HB_P_JUMPFALSE:
case HB_P_JUMPFALSEFAR:
if( ! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) )
{
int iCount = 1;
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_JUMPTRUENEAR:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMPNEAR;
break;
case HB_P_JUMPTRUE:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMP;
break;
case HB_P_JUMPTRUEFAR:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_JUMPFAR;
break;
case HB_P_NOT:
pFunc->pCode[ lPCodePos + 1 ] = HB_P_FALSE;
break;
case HB_P_POP:
iCount = 2;
break;
case HB_P_JUMPFALSENEAR:
iCount = 3;
break;
case HB_P_JUMPFALSE:
iCount = 4;
break;
case HB_P_JUMPFALSEFAR:
iCount = 5;
break;
}
hb_compNOOPfill( pFunc, lPCodePos, iCount, FALSE, FALSE );
}
break;
}
return 1;
}
static HB_OPT_FUNC( hb_p_duplicate )
{
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_JUMPTRUEFAR:
case HB_P_JUMPFALSEFAR:
if( pFunc->pCode[ lPCodePos + 5 ] == HB_P_POP )
{
BYTE * pAddr = &pFunc->pCode[ lPCodePos + 2 ];
LONG lOffset = HB_PCODE_MKINT24( pAddr ), lLastOffset = 0;
ULONG ulNewPos = lPCodePos + 1 + lOffset;
BOOL fNot = FALSE, fRepeat = TRUE;
do
{
if( pFunc->pCode[ ulNewPos ] == HB_P_DUPLICATE )
{
if( lOffset > 0 )
hb_p_duplicate( pFunc, ulNewPos, cargo );
}
if( pFunc->pCode[ ulNewPos ] == HB_P_NOOP )
{
ulNewPos++;
lOffset++;
}
else if( pFunc->pCode[ ulNewPos ] == HB_P_NOT )
{
ulNewPos++;
lOffset++;
fNot = !fNot;
}
else if( pFunc->pCode[ ulNewPos ] == HB_P_DUPLICATE &&
( pFunc->pCode[ ulNewPos + 1 ] == HB_P_JUMPTRUEFAR ||
pFunc->pCode[ ulNewPos + 1 ] == HB_P_JUMPFALSEFAR ) )
{
LONG lJump;
if( pFunc->pCode[ ulNewPos + 1 ] != pFunc->pCode[ lPCodePos + 1 ] )
fNot = !fNot;
lJump = fNot ? 4 : HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 2 ] );
lOffset += lJump + 1;
ulNewPos = lPCodePos + 1 + lOffset;
fRepeat = lJump > 0;
}
else
fRepeat = FALSE;
if( !fNot )
lLastOffset = lOffset;
}
while( fRepeat );
if( ( pFunc->pCode[ ulNewPos ] == HB_P_JUMPTRUEFAR ||
pFunc->pCode[ ulNewPos ] == HB_P_JUMPFALSEFAR ) &&
!hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) &&
!hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 5 ) )
{
if( pFunc->pCode[ ulNewPos ] != pFunc->pCode[ lPCodePos + 1 ] )
fNot = !fNot;
if( fNot )
lOffset += 4;
else
lOffset += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
HB_PUT_LE_UINT24( pAddr, lOffset );
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
hb_compNOOPfill( pFunc, lPCodePos + 5, 1, FALSE, FALSE );
}
else if( lLastOffset )
{
HB_PUT_LE_UINT24( pAddr, lLastOffset );
}
}
break;
}
return 1;
}
static HB_OPT_FUNC( hb_p_not )
{
BYTE opcode;
switch( pFunc->pCode[ lPCodePos + 1 ] )
{
case HB_P_NOT:
opcode = HB_P_NOOP;
break;
case HB_P_JUMPTRUENEAR:
opcode = HB_P_JUMPFALSENEAR;
break;
case HB_P_JUMPTRUE:
opcode = HB_P_JUMPFALSE;
break;
case HB_P_JUMPTRUEFAR:
opcode = HB_P_JUMPFALSEFAR;
break;
case HB_P_JUMPFALSENEAR:
opcode = HB_P_JUMPTRUENEAR;
break;
case HB_P_JUMPFALSE:
opcode = HB_P_JUMPTRUE;
break;
case HB_P_JUMPFALSEFAR:
opcode = HB_P_JUMPTRUEFAR;
break;
/* This optimization will be enabled in the future in a little bit differ form */
#if 0
case HB_P_DUPLICATE:
if( ( pFunc->pCode[ lPCodePos + 2 ] == HB_P_JUMPTRUEFAR ||
pFunc->pCode[ lPCodePos + 2 ] == HB_P_JUMPFALSEFAR ) &&
pFunc->pCode[ lPCodePos + 6 ] == HB_P_POP )
{
BYTE * pAddr = &pFunc->pCode[ lPCodePos + 3 ];
LONG lOffset = HB_PCODE_MKINT24( pAddr );
if( lOffset > 0 )
{
hb_p_duplicate( pFunc, lPCodePos + 1, cargo );
lOffset = HB_PCODE_MKINT24( pAddr );
}
if( ( pFunc->pCode[ lPCodePos + 1 ] == HB_P_NOT ||
( pFunc->pCode[ lPCodePos + 1 ] == HB_P_DUPLICATE &&
pFunc->pCode[ lPCodePos + lOffset + 2 ] == HB_P_NOT ) ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_JUMPTRUEFAR )
pFunc->pCode[ lPCodePos + 2 ] = HB_P_JUMPFALSEFAR;
else
pFunc->pCode[ lPCodePos + 2 ] = HB_P_JUMPTRUEFAR;
if( pFunc->pCode[ lPCodePos + 1 ] == HB_P_DUPLICATE )
{
++lOffset;
HB_PUT_LE_UINT24( pAddr, lOffset );
}
}
}
/* no break; */
#endif
default:
opcode = HB_P_LAST_PCODE;
break;
}
if( opcode < HB_P_LAST_PCODE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 1 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
if( opcode == HB_P_NOOP )
hb_compNOOPfill( pFunc, lPCodePos + 1, 1, FALSE, FALSE );
else
pFunc->pCode[ lPCodePos + 1 ] = opcode;
}
return 1;
}
static HB_OPT_FUNC( hb_p_jumpfar )
{
BYTE * pAddr = &pFunc->pCode[ lPCodePos + 1 ];
LONG lOffset = HB_PCODE_MKINT24( pAddr );
ULONG ulNewPos = lPCodePos + lOffset;
BOOL fLine = FALSE;
HB_SYMBOL_UNUSED( cargo );
if( lOffset == 4 )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
}
else
{
if( pFunc->pCode[ ulNewPos ] == HB_P_LINE )
{
fLine = TRUE;
ulNewPos += 3;
lOffset += 3;
}
switch( pFunc->pCode[ ulNewPos ] )
{
case HB_P_JUMPFAR:
lOffset += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
if( !fLine || pFunc->pCode[ lPCodePos + lOffset ] == HB_P_LINE )
HB_PUT_LE_UINT24( pAddr, lOffset );
break;
case HB_P_JUMPFALSEFAR:
ulNewPos += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
if( ulNewPos == lPCodePos + 4 && ( !fLine ||
( pFunc->pCode[ ulNewPos ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + lOffset + 4 ] == HB_P_LINE ) ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_JUMPTRUEFAR;
HB_PUT_LE_UINT24( pAddr, lOffset + 4 );
}
break;
case HB_P_JUMPTRUEFAR:
ulNewPos += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
if( ulNewPos == lPCodePos + 4 && ( !fLine ||
( pFunc->pCode[ ulNewPos ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + lOffset + 4 ] == HB_P_LINE ) ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_JUMPFALSEFAR;
HB_PUT_LE_UINT24( pAddr, lOffset + 4 );
}
break;
}
}
return 4;
}
static HB_OPT_FUNC( hb_p_jumpfalsefar )
{
BYTE * pAddr = &pFunc->pCode[ lPCodePos + 1 ];
LONG lOffset = HB_PCODE_MKINT24( pAddr );
ULONG ulNewPos = lPCodePos + lOffset;
BOOL fLine = FALSE;
HB_SYMBOL_UNUSED( cargo );
if( lOffset == 8 && pFunc->pCode[ lPCodePos + 4 ] == HB_P_JUMPFAR &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 4 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
pFunc->pCode[ lPCodePos + 4 ] = HB_P_JUMPTRUEFAR;
}
else if( lOffset == 11 && pFunc->pCode[ lPCodePos + 4 ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + 11 ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + 7 ] == HB_P_JUMPFAR &&
pFunc->pCode[ lPCodePos + 7 +
HB_PCODE_MKINT24( &pFunc->pCode[ lPCodePos + 8 ] ) ] == HB_P_LINE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 4 ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 7 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 7, FALSE, FALSE );
pFunc->pCode[ lPCodePos + 7 ] = HB_P_JUMPTRUEFAR;
}
else
{
if( pFunc->pCode[ ulNewPos ] == HB_P_LINE )
{
fLine = TRUE;
ulNewPos += 3;
lOffset += 3;
}
if( pFunc->pCode[ ulNewPos ] == HB_P_JUMPFAR )
{
lOffset += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
if( !fLine || pFunc->pCode[ lPCodePos + lOffset ] == HB_P_LINE )
HB_PUT_LE_UINT24( pAddr, lOffset );
}
}
return 4;
}
static HB_OPT_FUNC( hb_p_jumptruefar )
{
BYTE * pAddr = &pFunc->pCode[ lPCodePos + 1 ];
LONG lOffset = HB_PCODE_MKINT24( pAddr );
ULONG ulNewPos = lPCodePos + lOffset;
BOOL fLine = FALSE;
HB_SYMBOL_UNUSED( cargo );
if( lOffset == 8 && pFunc->pCode[ lPCodePos + 4 ] == HB_P_JUMPFAR &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 4 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 4, FALSE, FALSE );
pFunc->pCode[ lPCodePos + 4 ] = HB_P_JUMPFALSEFAR;
}
else if( lOffset == 11 && pFunc->pCode[ lPCodePos + 4 ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + 11 ] == HB_P_LINE &&
pFunc->pCode[ lPCodePos + 7 ] == HB_P_JUMPFAR &&
pFunc->pCode[ lPCodePos + 7 +
HB_PCODE_MKINT24( &pFunc->pCode[ lPCodePos + 8 ] ) ] == HB_P_LINE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 4 ) &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 7 ) )
{
hb_compNOOPfill( pFunc, lPCodePos, 7, FALSE, FALSE );
pFunc->pCode[ lPCodePos + 7 ] = HB_P_JUMPFALSEFAR;
}
else
{
if( pFunc->pCode[ ulNewPos ] == HB_P_LINE )
{
fLine = TRUE;
ulNewPos += 3;
lOffset += 3;
}
if( pFunc->pCode[ ulNewPos ] == HB_P_JUMPFAR )
{
lOffset += HB_PCODE_MKINT24( &pFunc->pCode[ ulNewPos + 1 ] );
if( !fLine || pFunc->pCode[ lPCodePos + lOffset ] == HB_P_LINE )
HB_PUT_LE_UINT24( pAddr, lOffset );
}
}
return 4;
}
static HB_OPT_FUNC( hb_p_switch )
{
USHORT usCases = HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] ), us;
ULONG ulStart = lPCodePos;
HB_SYMBOL_UNUSED( cargo );
lPCodePos += 3;
for( us = 0; us < usCases; ++us )
{
switch( pFunc->pCode[ lPCodePos ] )
{
case HB_P_PUSHBYTE:
lPCodePos += 2;
break;
case HB_P_PUSHINT:
lPCodePos += 3;
break;
case HB_P_PUSHLONG:
case HB_P_PUSHDATE:
lPCodePos += 5;
break;
case HB_P_PUSHLONGLONG:
lPCodePos += 9;
break;
case HB_P_PUSHSTRSHORT:
lPCodePos += 2 + pFunc->pCode[ lPCodePos + 1 ];
break;
case HB_P_PUSHSTR:
lPCodePos += 3 + HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
break;
case HB_P_PUSHSTRLARGE:
lPCodePos += 4 + HB_PCODE_MKUINT24( &pFunc->pCode[ lPCodePos + 1 ] );
break;
case HB_P_PUSHNIL:
/* default clause */
us = usCases;
lPCodePos++;
break;
}
switch( pFunc->pCode[ lPCodePos ] )
{
case HB_P_JUMPNEAR:
lPCodePos += 2;
break;
case HB_P_JUMP:
lPCodePos += 3;
break;
/*case HB_P_JUMPFAR:*/
default:
lPCodePos += 4;
break;
}
}
return lPCodePos - ulStart;
}
static HB_OPT_FUNC( hb_p_function )
{
if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_RETVALUE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_DO;
hb_compNOOPfill( pFunc, lPCodePos + 3, 1, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_functionshort )
{
if( pFunc->pCode[ lPCodePos + 2 ] == HB_P_RETVALUE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 2 ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_DOSHORT;
hb_compNOOPfill( pFunc, lPCodePos + 2, 1, FALSE, FALSE );
}
return 2;
}
static HB_OPT_FUNC( hb_p_macrofunc )
{
if( pFunc->pCode[ lPCodePos + 3 ] == HB_P_RETVALUE &&
! hb_compIsJump( cargo->HB_COMP_PARAM, pFunc, lPCodePos + 3 ) )
{
pFunc->pCode[ lPCodePos ] = HB_P_MACRODO;
hb_compNOOPfill( pFunc, lPCodePos + 3, 1, FALSE, FALSE );
}
return 3;
}
static HB_OPT_FUNC( hb_p_endblock )
{
HB_SYMBOL_UNUSED( cargo );
if( lPCodePos + 1 < pFunc->lPCodePos &&
pFunc->pCode[ lPCodePos + 1 ] == HB_P_ENDBLOCK )
{
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
}
return 1;
}
static HB_OPT_FUNC( hb_p_endproc )
{
HB_SYMBOL_UNUSED( cargo );
if( lPCodePos + 1 < pFunc->lPCodePos &&
pFunc->pCode[ lPCodePos + 1 ] == HB_P_ENDPROC )
{
hb_compNOOPfill( pFunc, lPCodePos, 1, FALSE, FALSE );
}
return 1;
}
/* NOTE: The order of functions have to match the order of opcodes mnemonics
*/
static const HB_OPT_FUNC_PTR s_opt_table[] =
{
NULL, /* HB_P_AND, */
NULL, /* HB_P_ARRAYPUSH, */
NULL, /* HB_P_ARRAYPOP, */
NULL, /* HB_P_ARRAYDIM, */
NULL, /* HB_P_ARRAYGEN, */
NULL, /* HB_P_EQUAL, */
hb_p_endblock, /* HB_P_ENDBLOCK, */
hb_p_endproc, /* HB_P_ENDPROC, */
NULL, /* HB_P_EXACTLYEQUAL, */
hb_p_false, /* HB_P_FALSE, */
NULL, /* HB_P_FORTEST, */
hb_p_function, /* HB_P_FUNCTION, */
hb_p_functionshort, /* HB_P_FUNCTIONSHORT, */
NULL, /* HB_P_FRAME, */
NULL, /* HB_P_FUNCPTR, */
NULL, /* HB_P_GREATER, */
NULL, /* HB_P_GREATEREQUAL, */
NULL, /* HB_P_DEC, */
NULL, /* HB_P_DIVIDE, */
NULL, /* HB_P_DO, */
NULL, /* HB_P_DOSHORT, */
hb_p_duplicate, /* HB_P_DUPLICATE, */
NULL, /* HB_P_DUPLTWO, */
NULL, /* HB_P_INC, */
NULL, /* HB_P_INSTRING, */
NULL, /* HB_P_JUMPNEAR, */
NULL, /* HB_P_JUMP, */
hb_p_jumpfar, /* HB_P_JUMPFAR, */
NULL, /* HB_P_JUMPFALSENEAR, */
NULL, /* HB_P_JUMPFALSE, */
hb_p_jumpfalsefar, /* HB_P_JUMPFALSEFAR, */
NULL, /* HB_P_JUMPTRUENEAR, */
NULL, /* HB_P_JUMPTRUE, */
hb_p_jumptruefar, /* HB_P_JUMPTRUEFAR, */
NULL, /* HB_P_LESSEQUAL, */
NULL, /* HB_P_LESS, */
NULL, /* HB_P_LINE, */
NULL, /* HB_P_LOCALNAME, */
NULL, /* HB_P_MACROPOP, */
NULL, /* HB_P_MACROPOPALIASED, */
NULL, /* HB_P_MACROPUSH, */
NULL, /* HB_P_MACROARRAYGEN, */
NULL, /* HB_P_MACROPUSHLIST, */
NULL, /* HB_P_MACROPUSHINDEX, */
NULL, /* HB_P_MACROPUSHPARE, */
NULL, /* HB_P_MACROPUSHALIASED, */
NULL, /* HB_P_MACROSYMBOL, */
NULL, /* HB_P_MACROTEXT, */
NULL, /* HB_P_MESSAGE, */
NULL, /* HB_P_MINUS, */
NULL, /* HB_P_MODULUS, */
NULL, /* HB_P_MODULENAME, */
/* start: pcodes generated by macro compiler */
NULL, /* HB_P_MMESSAGE, */
NULL, /* HB_P_MPOPALIASEDFIELD, */
NULL, /* HB_P_MPOPALIASEDVAR, */
NULL, /* HB_P_MPOPFIELD, */
NULL, /* HB_P_MPOPMEMVAR, */
NULL, /* HB_P_MPUSHALIASEDFIELD, */
NULL, /* HB_P_MPUSHALIASEDVAR, */
NULL, /* HB_P_MPUSHBLOCK, */
NULL, /* HB_P_MPUSHFIELD, */
NULL, /* HB_P_MPUSHMEMVAR, */
NULL, /* HB_P_MPUSHMEMVARREF, */
NULL, /* HB_P_MPUSHSYM, */
NULL, /* HB_P_MPUSHVARIABLE, */
/* end: */
NULL, /* HB_P_MULT, */
NULL, /* HB_P_NEGATE, */
NULL, /* HB_P_NOOP, */
hb_p_not, /* HB_P_NOT, */
NULL, /* HB_P_NOTEQUAL, */
NULL, /* HB_P_OR, */
NULL, /* HB_P_PARAMETER, */
NULL, /* HB_P_PLUS, */
NULL, /* HB_P_POP, */
NULL, /* HB_P_POPALIAS, */
NULL, /* HB_P_POPALIASEDFIELD, */
NULL, /* HB_P_POPALIASEDFIELDNEAR, */
NULL, /* HB_P_POPALIASEDVAR, */
NULL, /* HB_P_POPFIELD, */
hb_p_poplocal, /* HB_P_POPLOCAL, */
NULL, /* HB_P_POPLOCALNEAR, */
NULL, /* HB_P_POPMEMVAR, */
NULL, /* HB_P_POPSTATIC, */
NULL, /* HB_P_POPVARIABLE, */
NULL, /* HB_P_POWER, */
NULL, /* HB_P_PUSHALIAS, */
NULL, /* HB_P_PUSHALIASEDFIELD, */
NULL, /* HB_P_PUSHALIASEDFIELDNEAR, */
NULL, /* HB_P_PUSHALIASEDVAR, */
NULL, /* HB_P_PUSHBLOCK, */
NULL, /* HB_P_PUSHBLOCKSHORT, */
NULL, /* HB_P_PUSHFIELD, */
NULL, /* HB_P_PUSHBYTE, */
NULL, /* HB_P_PUSHINT, */
hb_p_pushlocal, /* HB_P_PUSHLOCAL, */
hb_p_pushlocalnear, /* HB_P_PUSHLOCALNEAR, */
NULL, /* HB_P_PUSHLOCALREF, */
NULL, /* HB_P_PUSHLONG, */
hb_p_pushmemvar, /* HB_P_PUSHMEMVAR, */
NULL, /* HB_P_PUSHMEMVARREF, */
hb_p_pushnil, /* HB_P_PUSHNIL, */
NULL, /* HB_P_PUSHDOUBLE, */
NULL, /* HB_P_PUSHSELF, */
hb_p_pushstatic, /* HB_P_PUSHSTATIC, */
NULL, /* HB_P_PUSHSTATICREF, */
NULL, /* HB_P_PUSHSTR, */
NULL, /* HB_P_PUSHSTRSHORT, */
NULL, /* HB_P_PUSHSYM, */
NULL, /* HB_P_PUSHSYMNEAR, */
NULL, /* HB_P_PUSHVARIABLE, */
NULL, /* HB_P_RETVALUE, */
NULL, /* HB_P_SEND, */
NULL, /* HB_P_SENDSHORT, */
NULL, /* HB_P_SEQBEGIN, */
NULL, /* HB_P_SEQEND, */
NULL, /* HB_P_SEQRECOVER, */
NULL, /* HB_P_SFRAME, */
NULL, /* HB_P_STATICS, */
NULL, /* HB_P_STATICNAME, */
NULL, /* HB_P_SWAPALIAS, */
hb_p_true, /* HB_P_TRUE, */
NULL, /* HB_P_ZERO, */
NULL, /* HB_P_ONE, */
hb_p_macrofunc, /* HB_P_MACROFUNC, */
NULL, /* HB_P_MACRODO, */
NULL, /* HB_P_MPUSHSTR, */
NULL, /* HB_P_LOCALNEARADDINT, */
NULL, /* HB_P_MACROPUSHREF */
NULL, /* HB_P_PUSHLONGLONG */
NULL, /* HB_P_ENUMSTART */
NULL, /* HB_P_ENUMNEXT */
NULL, /* HB_P_ENUMPREV */
NULL, /* HB_P_ENUMEND */
hb_p_switch, /* HB_P_SWITCH */
NULL, /* HB_P_PUSHDATE */
NULL, /* HB_P_PLUSEQPOP */
NULL, /* HB_P_MINUSEQPOP */
NULL, /* HB_P_MULTEQPOP */
NULL, /* HB_P_DIVEQPOP */
NULL, /* HB_P_PLUSEQ */
NULL, /* HB_P_MINUSEQ */
NULL, /* HB_P_MULTEQ */
NULL, /* HB_P_DIVEQ */
NULL, /* HB_P_WITHOBJECTSTART */
NULL, /* HB_P_WITHOBJECTMESSAGE */
NULL, /* HB_P_WITHOBJECTEND */
NULL, /* HB_P_MACROSEND */
NULL, /* HB_P_PUSHOVARREF */
NULL, /* HB_P_ARRAYPUSHREF */
NULL, /* HB_P_VFRAME */
NULL, /* HB_P_LARGEFRAME */
NULL, /* HB_P_LARGEVFRAME */
NULL, /* HB_P_PUSHSTRHIDDEN */
hb_p_localaddint, /* HB_P_LOCALADDINT */
NULL, /* HB_P_MODEQPOP */
NULL, /* HB_P_EXPEQPOP */
NULL, /* HB_P_MODEQ */
NULL, /* HB_P_EXPEQ */
NULL, /* HB_P_DUPLUNREF */
NULL, /* HB_P_MPUSHBLOCKLARGE */
NULL, /* HB_P_MPUSHSTRLARGE */
NULL, /* HB_P_PUSHBLOCKLARGE */
NULL, /* HB_P_PUSHSTRLARGE */
NULL, /* HB_P_SWAP */
NULL, /* HB_P_PUSHVPARAMS */
NULL, /* HB_P_PUSHUNREF */
NULL, /* HB_P_SEQALWAYS */
NULL, /* HB_P_ALWAYSBEGIN */
NULL, /* HB_P_ALWAYSEND */
NULL, /* HB_P_DECEQPOP */
NULL, /* HB_P_INCEQPOP */
NULL, /* HB_P_DECEQ */
NULL, /* HB_P_INCEQ */
NULL, /* HB_P_LOCALDEC */
NULL, /* HB_P_LOCALINC */
NULL, /* HB_P_LOCALINCPUSH */
NULL, /* HB_P_PUSHFUNCSYM */
NULL, /* HB_P_HASHGEN */
NULL /* HB_P_SEQBLOCK */
};
void hb_compOptimizePCode( HB_COMP_DECL, PFUNCTION pFunc )
{
const HB_OPT_FUNC_PTR * pFuncTable = s_opt_table;
HB_OPT_INFO opt_info;
opt_info.HB_COMP_PARAM = HB_COMP_PARAM;
assert( HB_P_LAST_PCODE == sizeof( s_opt_table ) / sizeof( HB_OPT_FUNC_PTR ) );
hb_compPCodeEval( pFunc, ( const HB_PCODE_FUNC_PTR * ) pFuncTable, ( void * ) &opt_info );
}
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