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harbour-core/harbour/source/compiler/hbpcode.c
Przemyslaw Czerpak 48f8dba263 2007-02-08 23:55 UTC+0100 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/include/hbgtinfo.ch
  * harbour/contrib/libct/ctwin.c
  * harbour/source/rtl/gtalleg/gtalleg.c
  * harbour/source/rtl/gtcrs/gtcrs.c
  * harbour/source/rtl/gtdos/gtdos.c
  * harbour/source/rtl/gtos2/gtos2.c
  * harbour/source/rtl/gtpca/gtpca.c
  * harbour/source/rtl/gtsln/gtsln.c
  * harbour/source/rtl/gtstd/gtstd.c
  * harbour/source/rtl/gtwin/gtwin.c
  * harbour/source/rtl/gtwvt/gtwvt.c
  * harbour/source/rtl/gtxwc/gtxwc.c
    + added support for GTI_FULLSCREEN, GTI_KBDSUPPORT, GTI_ISCTWIN

  * harbour/source/rtl/hbgtcore.c
    ! fixed line and box drawing when the coordinates are out of screen size

  * harbour/include/hbapi.h
  * harbour/include/hbcomp.h
  * harbour/include/hbpcode.h
  * harbour/include/hbstack.h
  * harbour/include/hbvm.h
  * harbour/include/hbxvm.h
  * harbour/source/compiler/complex.c
  * harbour/source/compiler/genc.c
  * harbour/source/compiler/gencc.c
  * harbour/source/compiler/harbour.c
  * harbour/source/compiler/harbour.y
  * harbour/source/compiler/harbour.yyc
  * harbour/source/compiler/harbour.yyh
  * harbour/source/compiler/hbdead.c
  * harbour/source/compiler/hbfix.c
  * harbour/source/compiler/hblbl.c
  * harbour/source/compiler/hbpcode.c
  * harbour/source/compiler/hbstripl.c
  * harbour/source/vm/classes.c
  * harbour/source/vm/estack.c
  * harbour/source/vm/hvm.c
  * harbour/source/vm/itemapi.c
    ! added protection against cyclic references in arrays
    * eliminated action parameter from hb_vmRequestReenter() /
      hb_vmRequestRestore()
    * moved s_lRecoverBase and s_uiActionRequest to HB_STACK structure
      for future MT HVM version
    + added internal item structure hb_struRecover - it's not real item
      but this structure is used to keep information about BEGIN SEQUENCE
      data - it reduce HB_STACK usage
    + added support for ALWAYS clause in BEGIN SEQUENCE
      The syntax is:
         BEGIN SEQUENCE
            <code>
         [ RECOVER [ USING oErr ] ]
            <recoverCode>
         [ ALWAYS ]
            <alwaysCode>
         END [ SEQUENCE ]
      It's guaranteed that <alwaysCode> is _ALWAYS_ executed even if
      inside <code> or <recoverCode> some new exceptions like RETURN,
      BREAK or QUIT will appear.
      Please note that when the following code is executed:
         BEGIN SEQUENCE
            <code>
         ALWAYS
            <alwaysCode>
         END
      (without RECOVER clause) then BREAK exception inside <code> is not
      recovered, <alwaysCode> is executed and then BREAK exception is
      passed to outer BEGIN SEQUENCE. This is the same semantic as
      used in TRY / [ CATCH ] / FINALLY / END
      Those of you who prefer to use TRY / CATCH / FINALLY / END instead
      of BEGIN SEQUENCE / RECOVER / ALWAYS / END can simply add to your
      source code:
         #command TRY               => BEGIN SEQUENCE
         #command CATCH [ oErr ]    => RECOVER [ USING <oErr> ]
      and:
         errorBlock( {|oErr| break( oErr ) } )
      Though instead of 'break( oErr )' I suggest to use some small function
      which will support some basic recovery/substitute operations like in
      default errorsys() and LockErrHandler() to not break existing code
      which may depends on the default behavior.
      If you want I can add direct support for TRY / CATCH / FINALLY / END
      but I'm not sure it's really necessary.
      Please note also that in Harbour ALWAYS code is execute even for QUIT
      excpetion.
      When <alwaysCode> is executed current exception is stored and restored
      when is finished. If new exception appears inside <alwaysCode> then
      restored exception depends on the priority in the following order:
         QUIT     // highest priority
         BREAK
         RETURN
      If both exceptions have the same priority and contain additional value
      (error object in BREAK or return value in RETURN) then the recently set
      one is restored. It's similar behavior to destructor code.

  * harbour/source/common/hbstr.c
    * moved one character length string table (hb_szAscii) from hvm.c
      to use it also in compiler and preprocessor

  * harbour/source/compiler/ppcomp.c
  * harbour/source/pp/ppcore.c
  * harbour/source/pp/pplib.c
    * tuned error messages to be more Clipper compatible
    % use static strings from hb_szAscii

  * harbour/source/rtl/alert.prg
    * use hb_gtInfo( GTI_FULLSCREEN ) to detect type of GT driver
    ! some minor fixes
      TOFIX: we have to also use GTI_ISCTWIN or add window allocation
             to standard GT drivers to be Clipper compatible when CTWIN
	     is used - In Clipper Tools ALERT() works in differ way then
	     the standard one. It creates separate window box to display
	     data, supports SETKEY(), etc. I'll think about adding some
	     extended support for ALERT() and similar operations (f.e.
	     separate debugger windows) to GT API so it will be also
	     possible to overload standard alert() command by GUI message
	     box in GTGUI and similar GT drivers.

  * harbour/source/rtl/binnumx.c
    ! fixed U2BIN() - wrong casting
2007-02-08 22:56:31 +00:00

674 lines
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/*
* $Id$
*/
/*
* Harbour Project source code:
* Compiler PCode generation functions
*
* 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 RonPinkas <Ron@Profit-Master.com>
* hb_compStrongType()
*
* See doc/license.txt for licensing terms.
*
*/
#include <assert.h>
#include "hbcomp.h"
#define HB_PSIZE_FUNC( func ) HB_PCODE_FUNC( func, HB_VOID_PTR )
/*
* functions for variable size PCODE tracing
*/
static HB_PSIZE_FUNC( hb_p_pushstrshort )
{
HB_SYMBOL_UNUSED( cargo );
return 2 + pFunc->pCode[ lPCodePos + 1 ];
}
static HB_PSIZE_FUNC( hb_p_pushstr )
{
HB_SYMBOL_UNUSED( cargo );
return 3 + HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
}
static HB_PSIZE_FUNC( hb_p_pushstrlarge )
{
HB_SYMBOL_UNUSED( cargo );
return 4 + HB_PCODE_MKUINT24( &pFunc->pCode[ lPCodePos + 1 ] );
}
static HB_PSIZE_FUNC( hb_p_pushstrhidden )
{
HB_SYMBOL_UNUSED( cargo );
return 4 + HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 2 ] );
}
static HB_PSIZE_FUNC( hb_p_pushblock )
{
HB_SYMBOL_UNUSED( cargo );
return HB_PCODE_MKUSHORT( &pFunc->pCode[ lPCodePos + 1 ] );
}
static HB_PSIZE_FUNC( hb_p_pushblockshort )
{
HB_SYMBOL_UNUSED( cargo );
return pFunc->pCode[ lPCodePos + 1 ];
}
static HB_PSIZE_FUNC( hb_p_pushblocklarge )
{
HB_SYMBOL_UNUSED( cargo );
return HB_PCODE_MKUINT24( &pFunc->pCode[ lPCodePos + 1 ] );
}
static HB_PSIZE_FUNC( hb_p_localname )
{
ULONG ulStart = lPCodePos;
HB_SYMBOL_UNUSED( cargo );
lPCodePos += 3;
while( pFunc->pCode[ lPCodePos++ ] );
return ( lPCodePos - ulStart );
}
static HB_PSIZE_FUNC( hb_p_modulename )
{
ULONG ulStart = lPCodePos;
HB_SYMBOL_UNUSED( cargo );
lPCodePos += 3;
while( pFunc->pCode[ lPCodePos++ ]);
return ( lPCodePos - ulStart );
}
static HB_PSIZE_FUNC( hb_p_staticname )
{
ULONG ulStart = lPCodePos;
HB_SYMBOL_UNUSED( cargo );
lPCodePos += 4;
while( pFunc->pCode[ lPCodePos++ ] );
return ( lPCodePos - ulStart );
}
const BYTE hb_comp_pcode_len[] = {
1, /* HB_P_AND, */
1, /* HB_P_ARRAYPUSH, */
1, /* HB_P_ARRAYPOP, */
3, /* HB_P_ARRAYDIM, */
3, /* HB_P_ARRAYGEN, */
1, /* HB_P_EQUAL, */
1, /* HB_P_ENDBLOCK, */
1, /* HB_P_ENDPROC, */
1, /* HB_P_EXACTLYEQUAL, */
1, /* HB_P_FALSE, */
1, /* HB_P_FORTEST, */
3, /* HB_P_FUNCTION, */
2, /* HB_P_FUNCTIONSHORT, */
3, /* HB_P_FRAME, */
1, /* HB_P_FUNCPTR, */
1, /* HB_P_GREATER, */
1, /* HB_P_GREATEREQUAL, */
1, /* HB_P_DEC, */
1, /* HB_P_DIVIDE, */
3, /* HB_P_DO, */
2, /* HB_P_DOSHORT, */
1, /* HB_P_DUPLICATE, */
1, /* HB_P_DUPLTWO, */
1, /* HB_P_INC, */
1, /* HB_P_INSTRING, */
2, /* HB_P_JUMPNEAR, */
3, /* HB_P_JUMP, */
4, /* HB_P_JUMPFAR, */
2, /* HB_P_JUMPFALSENEAR, */
3, /* HB_P_JUMPFALSE, */
4, /* HB_P_JUMPFALSEFAR, */
2, /* HB_P_JUMPTRUENEAR, */
3, /* HB_P_JUMPTRUE, */
4, /* HB_P_JUMPTRUEFAR, */
1, /* HB_P_LESSEQUAL, */
1, /* HB_P_LESS, */
3, /* HB_P_LINE, */
0, /* HB_P_LOCALNAME, */
2, /* HB_P_MACROPOP, */
2, /* HB_P_MACROPOPALIASED, */
2, /* HB_P_MACROPUSH, */
3, /* HB_P_MACROARRAYGEN, */
2, /* HB_P_MACROPUSHLIST, */
1, /* HB_P_MACROPUSHINDEX, */
2, /* HB_P_MACROPUSHPARE, */
2, /* HB_P_MACROPUSHALIASED, */
1, /* HB_P_MACROSYMBOL, */
1, /* HB_P_MACROTEXT, */
3, /* HB_P_MESSAGE, */
1, /* HB_P_MINUS, */
1, /* HB_P_MODULUS, */
0, /* HB_P_MODULENAME, */
/* start: pcodes generated by macro compiler */
3, /* HB_P_MMESSAGE, */
3, /* HB_P_MPOPALIASEDFIELD, */
3, /* HB_P_MPOPALIASEDVAR, */
3, /* HB_P_MPOPFIELD, */
3, /* HB_P_MPOPMEMVAR, */
3, /* HB_P_MPUSHALIASEDFIELD, */
3, /* HB_P_MPUSHALIASEDVAR, */
0, /* HB_P_MPUSHBLOCK, */
3, /* HB_P_MPUSHFIELD, */
3, /* HB_P_MPUSHMEMVAR, */
3, /* HB_P_MPUSHMEMVARREF, */
3, /* HB_P_MPUSHSYM, */
3, /* HB_P_MPUSHVARIABLE, */
/* end: */
1, /* HB_P_MULT, */
1, /* HB_P_NEGATE, */
1, /* HB_P_NOOP, */
1, /* HB_P_NOT, */
1, /* HB_P_NOTEQUAL, */
1, /* HB_P_OR, */
4, /* HB_P_PARAMETER, */
1, /* HB_P_PLUS, */
1, /* HB_P_POP, */
1, /* HB_P_POPALIAS, */
3, /* HB_P_POPALIASEDFIELD, */
2, /* HB_P_POPALIASEDFIELDNEAR, */
3, /* HB_P_POPALIASEDVAR, */
3, /* HB_P_POPFIELD, */
3, /* HB_P_POPLOCAL, */
2, /* HB_P_POPLOCALNEAR, */
3, /* HB_P_POPMEMVAR, */
3, /* HB_P_POPSTATIC, */
3, /* HB_P_POPVARIABLE, */
1, /* HB_P_POWER, */
1, /* HB_P_PUSHALIAS, */
3, /* HB_P_PUSHALIASEDFIELD, */
2, /* HB_P_PUSHALIASEDFIELDNEAR, */
3, /* HB_P_PUSHALIASEDVAR, */
0, /* HB_P_PUSHBLOCK, */
0, /* HB_P_PUSHBLOCKSHORT, */
3, /* HB_P_PUSHFIELD, */
2, /* HB_P_PUSHBYTE, */
3, /* HB_P_PUSHINT, */
3, /* HB_P_PUSHLOCAL, */
2, /* HB_P_PUSHLOCALNEAR, */
3, /* HB_P_PUSHLOCALREF, */
5, /* HB_P_PUSHLONG, */
3, /* HB_P_PUSHMEMVAR, */
3, /* HB_P_PUSHMEMVARREF, */
1, /* HB_P_PUSHNIL, */
1 + sizeof( double ) + sizeof( BYTE ) + sizeof( BYTE ), /* HB_P_PUSHDOUBLE, */
1, /* HB_P_PUSHSELF, */
3, /* HB_P_PUSHSTATIC, */
3, /* HB_P_PUSHSTATICREF, */
0, /* HB_P_PUSHSTR, */
0, /* HB_P_PUSHSTRSHORT, */
3, /* HB_P_PUSHSYM, */
2, /* HB_P_PUSHSYMNEAR, */
3, /* HB_P_PUSHVARIABLE, */
1, /* HB_P_RETVALUE, */
3, /* HB_P_SEND, */
2, /* HB_P_SENDSHORT, */
4, /* HB_P_SEQBEGIN, */
4, /* HB_P_SEQEND, */
1, /* HB_P_SEQRECOVER, */
3, /* HB_P_SFRAME, */
5, /* HB_P_STATICS, */
0, /* HB_P_STATICNAME, */
1, /* HB_P_SWAPALIAS, */
1, /* HB_P_TRUE, */
1, /* HB_P_ZERO, */
1, /* HB_P_ONE, */
3, /* HB_P_MACROFUNC, */
3, /* HB_P_MACRODO, */
0, /* HB_P_MPUSHSTR */
4, /* HB_P_LOCALNEARADDINT, */
1, /* HB_P_MACROPUSHREF */
9, /* HB_P_PUSHLONGLONG */
3, /* HB_P_ENUMSTART */
1, /* HB_P_ENUMNEXT */
1, /* HB_P_ENUMPREV */
1, /* HB_P_ENUMEND */
3, /* HB_P_SWITCH */
5, /* HB_P_PUSHDATE, */
/* optimalization of inlined math operations */
1, /* HB_P_PLUSEQPOP, */
1, /* HB_P_MINUSEQPOP, */
1, /* HB_P_MULTEQPOP, */
1, /* HB_P_DIVEQPOP, */
1, /* HB_P_PLUSEQ, */
1, /* HB_P_MINUSEQ, */
1, /* HB_P_MULTEQ, */
1, /* HB_P_DIVEQ, */
1, /* HB_P_WITHOBJECTSTART, */
3, /* HB_P_WITHOBJECTMESSAGE, */
1, /* HB_P_WITHOBJECTEND, */
3, /* HB_P_MACROSEND, */
1, /* HB_P_PUSHOVARREF, */
1, /* HB_P_ARRAYPUSHREF */
3, /* HB_P_VFRAME */
4, /* HB_P_LARGEFRAME */
4, /* HB_P_LARGEVFRAME */
0, /* HB_P_PUSHSTRHIDDEN */
5, /* HB_P_LOCALADDINT */
1, /* HB_P_MODEQPOP */
1, /* HB_P_EXPEQPOP */
1, /* HB_P_MODEQ */
1, /* HB_P_EXPEQ */
1, /* HB_P_DUPLUNREF */
0, /* HB_P_MPUSHBLOCKLARGE, */
0, /* HB_P_MPUSHSTRLARGE */
0, /* HB_P_PUSHBLOCKLAREG, */
0, /* HB_P_PUSHSTRLARGE */
2, /* HB_P_SWAP */
1, /* HB_P_PUSHVPARAMS */
1, /* HB_P_PUSHUNREF */
4, /* HB_P_SEQALWAYS */
4, /* HB_P_ALWAYSBEGIN */
1 /* HB_P_ALWAYSEND */
};
/*
* this table has pointers to functions which count
* real size of variable size PCODEs
*/
static HB_PCODE_FUNC_PTR s_psize_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, */
NULL, /* HB_P_ENDBLOCK, */
NULL, /* HB_P_ENDPROC, */
NULL, /* HB_P_EXACTLYEQUAL, */
NULL, /* HB_P_FALSE, */
NULL, /* HB_P_FORTEST, */
NULL, /* HB_P_FUNCTION, */
NULL, /* 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, */
NULL, /* HB_P_DUPLICATE, */
NULL, /* HB_P_DUPLTWO, */
NULL, /* HB_P_INC, */
NULL, /* HB_P_INSTRING, */
NULL, /* HB_P_JUMPNEAR, */
NULL, /* HB_P_JUMP, */
NULL, /* HB_P_JUMPFAR, */
NULL, /* HB_P_JUMPFALSENEAR, */
NULL, /* HB_P_JUMPFALSE, */
NULL, /* HB_P_JUMPFALSEFAR, */
NULL, /* HB_P_JUMPTRUENEAR, */
NULL, /* HB_P_JUMPTRUE, */
NULL, /* HB_P_JUMPTRUEFAR, */
NULL, /* HB_P_LESSEQUAL, */
NULL, /* HB_P_LESS, */
NULL, /* HB_P_LINE, */
hb_p_localname, /* 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, */
hb_p_modulename, /* 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, */
NULL, /* 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, */
NULL, /* 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, */
hb_p_pushblock, /* HB_P_PUSHBLOCK, */
hb_p_pushblockshort, /* HB_P_PUSHBLOCKSHORT, */
NULL, /* HB_P_PUSHFIELD, */
NULL, /* HB_P_PUSHBYTE, */
NULL, /* HB_P_PUSHINT, */
NULL, /* HB_P_PUSHLOCAL, */
NULL, /* HB_P_PUSHLOCALNEAR, */
NULL, /* HB_P_PUSHLOCALREF, */
NULL, /* HB_P_PUSHLONG, */
NULL, /* HB_P_PUSHMEMVAR, */
NULL, /* HB_P_PUSHMEMVARREF, */
NULL, /* HB_P_PUSHNIL, */
NULL, /* HB_P_PUSHDOUBLE, */
NULL, /* HB_P_PUSHSELF, */
NULL, /* HB_P_PUSHSTATIC, */
NULL, /* HB_P_PUSHSTATICREF, */
hb_p_pushstr, /* HB_P_PUSHSTR, */
hb_p_pushstrshort, /* 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, */
hb_p_staticname, /* HB_P_STATICNAME, */
NULL, /* HB_P_SWAPALIAS, */
NULL, /* HB_P_TRUE, */
NULL, /* HB_P_ZERO, */
NULL, /* HB_P_ONE, */
NULL, /* 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 */
NULL, /* HB_P_SWITCH */
NULL, /* HB_P_PUSHDATE */
/* optimalization of inlined math operations */
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 */
hb_p_pushstrhidden, /* HB_P_PUSHSTRHIDDEN */
NULL, /* 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 */
hb_p_pushblocklarge, /* HB_P_PUSHBLOCKLARGE, */
hb_p_pushstrlarge, /* 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 */
};
LONG hb_compPCodeSize( PFUNCTION pFunc, ULONG ulOffset )
{
LONG lSize = 0;
BYTE opcode = pFunc->pCode[ ulOffset ];
if( opcode < HB_P_LAST_PCODE )
{
lSize = hb_comp_pcode_len[ opcode ];
if( lSize == 0 )
{
HB_PCODE_FUNC_PTR pCall = s_psize_table[ opcode ];
if( pCall != NULL )
lSize = pCall( pFunc, ulOffset, NULL );
}
}
return lSize;
}
void hb_compPCodeEval( PFUNCTION pFunc, HB_PCODE_FUNC_PTR * pFunctions, void * cargo )
{
ULONG ulPos = 0;
ULONG ulSkip;
BYTE opcode;
HB_PCODE_FUNC_PTR pCall;
/* Make sure that table is correct */
assert( sizeof( hb_comp_pcode_len ) == HB_P_LAST_PCODE );
assert( sizeof( s_psize_table ) / sizeof( HB_PCODE_FUNC_PTR ) == HB_P_LAST_PCODE );
while( ulPos < pFunc->lPCodePos )
{
opcode = pFunc->pCode[ ulPos ];
if( opcode < HB_P_LAST_PCODE )
{
pCall = pFunctions[ opcode ];
ulSkip = pCall ? pCall( pFunc, ulPos, cargo ) : 0;
if( ulSkip == 0 )
{
ulSkip = hb_comp_pcode_len[ opcode ];
if( ulSkip == 0 )
{
HB_PCODE_FUNC_PTR pCall = s_psize_table[ opcode ];
if( pCall != NULL )
ulSkip = pCall( pFunc, ulPos, NULL );
}
}
if( ulSkip == 0 )
{
fprintf( hb_comp_errFile, "--- Invalid (zero) opcode %i size in hb_compPCodeEval() ---\n", opcode );
++ulPos;
}
#if 0
/*
* Test code to validate return values by PCODE eval functions,
* in some cases the eval functions can return intentionally differ
* values so it's not enabled by default. [druzus]
*/
if( hb_comp_pcode_len[ opcode ] != 0 && hb_comp_pcode_len[ opcode ] != ulSkip )
{
fprintf( stderr, "Wrong PCODE (%d) size (%ld!=%d)\n", opcode, ulSkip, hb_comp_pcode_len[ opcode ] );
fflush(stderr);
}
#endif
ulPos += ulSkip;
}
else
{
fprintf( hb_comp_errFile, "--- Invalid opcode %i in hb_compPCodeEval() ---\n", opcode );
++ulPos;
}
}
}
void hb_compPCodeTrace( PFUNCTION pFunc, HB_PCODE_FUNC_PTR * pFunctions, void * cargo )
{
ULONG ulPos = 0;
BYTE opcode;
HB_PCODE_FUNC_PTR pCall;
/* Make sure that table is correct */
assert( sizeof( hb_comp_pcode_len ) == HB_P_LAST_PCODE );
while( ulPos < pFunc->lPCodePos )
{
opcode = pFunc->pCode[ ulPos ];
if( opcode < HB_P_LAST_PCODE )
{
pCall = pFunctions[ opcode ];
if( pCall )
ulPos = pCall( pFunc, ulPos, cargo );
else
ulPos += hb_comp_pcode_len[ opcode ];
}
else
{
fprintf( hb_comp_errFile, "--- Invalid opcode %i in hb_compPCodeTrace() ---\n", opcode );
++ulPos;
}
}
}
void hb_compGenPCode1( BYTE byte, HB_COMP_DECL )
{
PFUNCTION pFunc = HB_COMP_PARAM->functions.pLast; /* get the currently defined Clipper function */
if( ! pFunc->pCode ) /* has been created the memory block to hold the pcode ? */
{
pFunc->pCode = ( BYTE * ) hb_xgrab( HB_PCODE_CHUNK );
pFunc->lPCodeSize = HB_PCODE_CHUNK;
pFunc->lPCodePos = 0;
}
else if( ( pFunc->lPCodeSize - pFunc->lPCodePos ) < 1 )
pFunc->pCode = ( BYTE * ) hb_xrealloc( pFunc->pCode, pFunc->lPCodeSize += HB_PCODE_CHUNK );
pFunc->pCode[ pFunc->lPCodePos++ ] = byte;
}
void hb_compGenPCode2( BYTE byte1, BYTE byte2, HB_COMP_DECL )
{
PFUNCTION pFunc = HB_COMP_PARAM->functions.pLast; /* get the currently defined Clipper function */
if( ! pFunc->pCode ) /* has been created the memory block to hold the pcode ? */
{
pFunc->pCode = ( BYTE * ) hb_xgrab( HB_PCODE_CHUNK );
pFunc->lPCodeSize = HB_PCODE_CHUNK;
pFunc->lPCodePos = 0;
}
else if( ( pFunc->lPCodeSize - pFunc->lPCodePos ) < 2 )
pFunc->pCode = ( BYTE * ) hb_xrealloc( pFunc->pCode, pFunc->lPCodeSize += HB_PCODE_CHUNK );
pFunc->pCode[ pFunc->lPCodePos++ ] = byte1;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte2;
}
void hb_compGenPCode3( BYTE byte1, BYTE byte2, BYTE byte3, HB_COMP_DECL )
{
PFUNCTION pFunc = HB_COMP_PARAM->functions.pLast; /* get the currently defined Clipper function */
if( ! pFunc->pCode ) /* has been created the memory block to hold the pcode ? */
{
pFunc->pCode = ( BYTE * ) hb_xgrab( HB_PCODE_CHUNK );
pFunc->lPCodeSize = HB_PCODE_CHUNK;
pFunc->lPCodePos = 0;
}
else if( ( pFunc->lPCodeSize - pFunc->lPCodePos ) < 3 )
pFunc->pCode = ( BYTE * ) hb_xrealloc( pFunc->pCode, pFunc->lPCodeSize += HB_PCODE_CHUNK );
pFunc->pCode[ pFunc->lPCodePos++ ] = byte1;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte2;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte3;
}
void hb_compGenPCode4( BYTE byte1, BYTE byte2, BYTE byte3, BYTE byte4, HB_COMP_DECL )
{
PFUNCTION pFunc = HB_COMP_PARAM->functions.pLast; /* get the currently defined Clipper function */
if( ! pFunc->pCode ) /* has been created the memory block to hold the pcode ? */
{
pFunc->pCode = ( BYTE * ) hb_xgrab( HB_PCODE_CHUNK );
pFunc->lPCodeSize = HB_PCODE_CHUNK;
pFunc->lPCodePos = 0;
}
else if( ( pFunc->lPCodeSize - pFunc->lPCodePos ) < 4 )
pFunc->pCode = ( BYTE * ) hb_xrealloc( pFunc->pCode, pFunc->lPCodeSize += HB_PCODE_CHUNK );
pFunc->pCode[ pFunc->lPCodePos++ ] = byte1;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte2;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte3;
pFunc->pCode[ pFunc->lPCodePos++ ] = byte4;
}
void hb_compGenPCodeN( BYTE * pBuffer, ULONG ulSize, HB_COMP_DECL )
{
PFUNCTION pFunc = HB_COMP_PARAM->functions.pLast; /* get the currently defined Clipper function */
if( ! pFunc->pCode ) /* has been created the memory block to hold the pcode ? */
{
pFunc->lPCodeSize = ( ( ulSize / HB_PCODE_CHUNK ) + 1 ) * HB_PCODE_CHUNK;
pFunc->pCode = ( BYTE * ) hb_xgrab( pFunc->lPCodeSize );
pFunc->lPCodePos = 0;
}
else if( pFunc->lPCodePos + ulSize > pFunc->lPCodeSize )
{
/* not enough free space in pcode buffer - increase it */
pFunc->lPCodeSize += ( ( ( ulSize / HB_PCODE_CHUNK ) + 1 ) * HB_PCODE_CHUNK );
pFunc->pCode = ( BYTE * ) hb_xrealloc( pFunc->pCode, pFunc->lPCodeSize );
}
memcpy( pFunc->pCode + pFunc->lPCodePos, pBuffer, ulSize );
pFunc->lPCodePos += ulSize;
}
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