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db15dcf12e0143e4a954e39b906239e5bc299cc0
harbour-core/harbour/include/hbexprb.c
Przemyslaw Czerpak f181406951 2008-04-16 14:41 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/include/hbclass.ch
    ! removed:
         MESSAGE <msgName> IS <mthName>
      used as synonym of:
         MESSAGE <msgName> METHOD <mthName>
      If someone was using the removed version then please update the
      code to MESSAGE ... METHOD ...
      The removed command has special meaning in Class(y) and it allow
      to define alternate names for existing messages. I'll add support
      for them in the future.

  * harbour/contrib/hbct/ctwin.c
    * added disabled code which is a workaround for some possible
      bad side effect caused by online shadow showing by CTWIN.

  * harbour/source/rtl/errorint.c
    ! fixed displaying internal error message

  * harbour/source/common/hbver.c
    * added "Rev." prefix to shown revision number

  * harbour/include/hbexprop.h
  * harbour/include/hbexprb.c
  * harbour/source/common/expropt1.c
  * harbour/source/common/expropt2.c
    + added hb_compExprReduceNegate()
    ! fixed wrong negate optimizations for platforms where HB_LONG_MAX
      is smaller then -HB_LONG_MIN, f.e. all x86 based CPUs.
    ! fixed setting the size in optimized negative numbers
    ! fixed some math optimizations to not use casting to double value
      when it's not necessary - when double precision is smaller then HB_LONG
      (f.e. on x86 it's 53 bits and HB_LONG has 64bit) such casting can damage
      up to 11 less significant bits in big 64 bit numbers.

  * harbour/source/rtl/hbinet.c
    * replaced MAKEWORD() macro with HB_MKWORD() to pacify BCC58 warnings

  * harbour/include/hbdefs.h
    + added #include <limits.h>
      It should hide some warnings related to redefined integer size constants
      Viktor if it will not help for BCC58 warnings then you will have to add
         #include <stdint.h>
      few lines below but please remember that older BCC version does not
      have it so check for the exact compiler version.
    ! changed macros which setting default numeric item size for more strict
      Clipper compatible mode. I'm not a fun of some Clipper behavior in
      calculating number size and I left some notes about it in hbdefs.h
      Anyhow this and some other modifications below should cover the
      differences you've found recently. Some things are not addressed by
      me intentionally, f.e. _itemPutNL() in Clipper always set size to 10
      without checking the maximum size so it's too small for values less
      then -999999999. Harbour compiler makes more compile time optimizations
      then Clipper. The formatting rules used by compiler are a little bit
      different then by VM so this can be source of some other differences
      to Clipper. I can easy create some examples. Harbour supports 64bit
      signed integers and Clipper doesn't. This is yet another situation
      when we may have different results then Clipper. Most of them can
      be hidden if we add new PCODE(s) for integer number with explicit
      size but I do not think it's such important to increase PCODE list.
      In few cases it will be necessary to disable some optimizations at
      all and I do not like it. In the future when I will be adding some
      new optimizations I also add compiler switch to disable/enable
      optimizations which can have such side effects for people who need
      strict formatting.

  * harbour/include/hbvmpub.h
  * harbour/source/common/hbstr.c
  * harbour/source/vm/hvm.c
  * harbour/source/vm/itemapi.c
  * harbour/source/rtl/round.c
    * updated for more Clipper compatible number formating using new macros
2008-04-16 12:42:05 +00:00

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/*
* $Id$
*/
/*
* Harbour Project source code:
* Compiler Expression Optimizer
*
* Copyright 1999 Ryszard Glab
* 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 <math.h>
#include "hbcomp.h"
#include "hbmacro.ch"
#if !defined( HB_HASH_USES_ARRAY_INDEXES )
# define HB_HASH_USES_ARRAY_INDEXES
#endif
#define HB_USE_ARRAYAT_REF
/* Temporary disabled optimization with references to object variables
until we will not have extended reference items in our HVM [druzus] */
/* #define HB_USE_OBJMSG_REF */
/* Forward declarations
*/
/* forward declaration of callback functions
*/
static HB_EXPR_FUNC( hb_compExprUseDummy );
static HB_EXPR_FUNC( hb_compExprUseNil );
static HB_EXPR_FUNC( hb_compExprUseNumeric );
static HB_EXPR_FUNC( hb_compExprUseDate );
static HB_EXPR_FUNC( hb_compExprUseString );
static HB_EXPR_FUNC( hb_compExprUseCodeblock );
static HB_EXPR_FUNC( hb_compExprUseLogical );
static HB_EXPR_FUNC( hb_compExprUseSelf );
static HB_EXPR_FUNC( hb_compExprUseArray );
static HB_EXPR_FUNC( hb_compExprUseHash );
static HB_EXPR_FUNC( hb_compExprUseVarRef );
static HB_EXPR_FUNC( hb_compExprUseRef );
static HB_EXPR_FUNC( hb_compExprUseFunRef );
static HB_EXPR_FUNC( hb_compExprUseIIF );
static HB_EXPR_FUNC( hb_compExprUseList );
static HB_EXPR_FUNC( hb_compExprUseArgList );
static HB_EXPR_FUNC( hb_compExprUseMacroArgList );
static HB_EXPR_FUNC( hb_compExprUseArrayAt );
static HB_EXPR_FUNC( hb_compExprUseMacro );
static HB_EXPR_FUNC( hb_compExprUseFunCall );
static HB_EXPR_FUNC( hb_compExprUseAliasVar );
static HB_EXPR_FUNC( hb_compExprUseAliasExpr );
static HB_EXPR_FUNC( hb_compExprUseSend );
static HB_EXPR_FUNC( hb_compExprUseFunName );
static HB_EXPR_FUNC( hb_compExprUseAlias );
static HB_EXPR_FUNC( hb_compExprUseRTVariable );
static HB_EXPR_FUNC( hb_compExprUseVariable );
static HB_EXPR_FUNC( hb_compExprUseAssign );
static HB_EXPR_FUNC( hb_compExprUseEqual );
static HB_EXPR_FUNC( hb_compExprUsePlus );
static HB_EXPR_FUNC( hb_compExprUseMinus );
static HB_EXPR_FUNC( hb_compExprUseMult );
static HB_EXPR_FUNC( hb_compExprUseDiv );
static HB_EXPR_FUNC( hb_compExprUseMod );
static HB_EXPR_FUNC( hb_compExprUsePower );
static HB_EXPR_FUNC( hb_compExprUsePostInc );
static HB_EXPR_FUNC( hb_compExprUsePostDec );
static HB_EXPR_FUNC( hb_compExprUsePreInc );
static HB_EXPR_FUNC( hb_compExprUsePreDec );
static HB_EXPR_FUNC( hb_compExprUsePlusEq );
static HB_EXPR_FUNC( hb_compExprUseMinusEq );
static HB_EXPR_FUNC( hb_compExprUseMultEq );
static HB_EXPR_FUNC( hb_compExprUseDivEq );
static HB_EXPR_FUNC( hb_compExprUseModEq );
static HB_EXPR_FUNC( hb_compExprUseExpEq );
static HB_EXPR_FUNC( hb_compExprUseAnd );
static HB_EXPR_FUNC( hb_compExprUseOr );
static HB_EXPR_FUNC( hb_compExprUseNot );
static HB_EXPR_FUNC( hb_compExprUseEQ );
static HB_EXPR_FUNC( hb_compExprUseLT );
static HB_EXPR_FUNC( hb_compExprUseGT );
static HB_EXPR_FUNC( hb_compExprUseLE );
static HB_EXPR_FUNC( hb_compExprUseGE );
static HB_EXPR_FUNC( hb_compExprUseNE );
static HB_EXPR_FUNC( hb_compExprUseIN );
static HB_EXPR_FUNC( hb_compExprUseNegate );
/* other helper functions
*/
#if defined( HB_MACRO_SUPPORT )
static void hb_compExprCodeblockPush( HB_EXPR_PTR, HB_COMP_DECL );
#else
static void hb_compExprCodeblockPush( HB_EXPR_PTR, BOOL, HB_COMP_DECL );
static void hb_compExprCodeblockEarly( HB_EXPR_PTR, HB_COMP_DECL );
static void hb_compExprCodeblockExtPush( HB_EXPR_PTR pSelf, HB_COMP_DECL );
#endif
static void hb_compExprPushSendPop( HB_EXPR_PTR pSelf, HB_COMP_DECL );
static void hb_compExprPushSendPush( HB_EXPR_PTR pSelf, HB_COMP_DECL );
static void hb_compExprPushOperEq( HB_EXPR_PTR pSelf, BYTE bOpEq, HB_COMP_DECL );
static void hb_compExprUseOperEq( HB_EXPR_PTR pSelf, BYTE bOpEq, HB_COMP_DECL );
static void hb_compExprPushPreOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL );
static void hb_compExprPushPostOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL );
static void hb_compExprUsePreOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL );
static void hb_compExprUseAliasMacro( HB_EXPR_PTR pAliasedVar, BYTE bAction, HB_COMP_DECL );
static ULONG hb_compExprReduceList( HB_EXPR_PTR pExpr, HB_COMP_DECL );
const HB_EXPR_FUNC_PTR hb_comp_ExprTable[ HB_EXPR_COUNT ] = {
hb_compExprUseDummy,
hb_compExprUseNil,
hb_compExprUseNumeric,
hb_compExprUseDate,
hb_compExprUseString,
hb_compExprUseCodeblock,
hb_compExprUseLogical,
hb_compExprUseSelf,
hb_compExprUseArray,
hb_compExprUseHash,
hb_compExprUseVarRef,
hb_compExprUseRef,
hb_compExprUseFunRef,
hb_compExprUseIIF,
hb_compExprUseList,
hb_compExprUseArgList,
hb_compExprUseMacroArgList,
hb_compExprUseArrayAt,
hb_compExprUseMacro,
hb_compExprUseFunCall,
hb_compExprUseAliasVar,
hb_compExprUseAliasExpr,
hb_compExprUseSend,
hb_compExprUseFunName,
hb_compExprUseAlias,
hb_compExprUseRTVariable,
hb_compExprUseVariable,
hb_compExprUsePostInc, /* post-operators -> lowest precedence */
hb_compExprUsePostDec,
hb_compExprUseAssign, /* assigments */
hb_compExprUsePlusEq,
hb_compExprUseMinusEq,
hb_compExprUseMultEq,
hb_compExprUseDivEq,
hb_compExprUseModEq,
hb_compExprUseExpEq,
hb_compExprUseOr, /* logical operators */
hb_compExprUseAnd,
hb_compExprUseNot,
hb_compExprUseEqual, /* relational operators */
hb_compExprUseEQ,
hb_compExprUseNE,
hb_compExprUseIN,
hb_compExprUseLT,
hb_compExprUseGT,
hb_compExprUseLE,
hb_compExprUseGE,
hb_compExprUsePlus, /* addition */
hb_compExprUseMinus,
hb_compExprUseMult, /* multiple */
hb_compExprUseDiv,
hb_compExprUseMod,
hb_compExprUsePower,
hb_compExprUseNegate, /* sign operator */
hb_compExprUsePreInc,
hb_compExprUsePreDec /* highest precedence */
};
/* ************************************************************************* */
static HB_EXPR_FUNC( hb_compExprUseDummy )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PCode1, HB_P_PUSHNIL );
break;
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_NIL expression
*/
static HB_EXPR_FUNC( hb_compExprUseNil )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* NIL cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PCode1, HB_P_PUSHNIL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_NUMERIC expression
*/
static HB_EXPR_FUNC( hb_compExprUseNumeric )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
if( pSelf->value.asNum.NumType == HB_ET_DOUBLE )
HB_GEN_FUNC3( PushDouble, pSelf->value.asNum.val.d, pSelf->value.asNum.bWidth, pSelf->value.asNum.bDec );
else
HB_GEN_FUNC1( PushLong, pSelf->value.asNum.val.l );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_DATE expression
*/
static HB_EXPR_FUNC( hb_compExprUseDate )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
#ifdef HB_HASH_USES_ARRAY_INDEXES
if( !HB_SUPPORT_HARBOUR )
#endif
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* Date cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PushDate, pSelf->value.asNum.val.l );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_STRING expression
*/
static HB_EXPR_FUNC( hb_compExprUseString )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
#ifdef HB_HASH_USES_ARRAY_INDEXES
if( !HB_SUPPORT_HARBOUR )
#endif
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* string cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
HB_GEN_FUNC2( PushString, pSelf->value.asString.string,
pSelf->ulLength + 1 );
#if ! defined( HB_MACRO_SUPPORT )
if( HB_COMP_PARAM->fTextSubst &&
hb_compIsValidMacroText( HB_COMP_PARAM,
pSelf->value.asString.string,
pSelf->ulLength ) )
#else
if( hb_macroIsValidMacroText( pSelf->value.asString.string,
pSelf->ulLength ) )
#endif
{
HB_GEN_FUNC1( PCode1, HB_P_MACROTEXT );
}
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
break;
case HB_EA_DELETE:
if( pSelf->value.asString.dealloc )
hb_xfree( pSelf->value.asString.string );
break;
}
return pSelf;
}
/* actions for HB_ET_CODEBLOCK expression
*/
static HB_EXPR_FUNC( hb_compExprUseCodeblock )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* codeblock cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
#if defined(HB_MACRO_SUPPORT)
HB_EXPR_PCODE1( hb_compExprCodeblockPush, pSelf );
#else
if( pSelf->value.asCodeblock.flags & HB_BLOCK_EXT )
hb_compExprCodeblockExtPush( pSelf, HB_COMP_PARAM );
else if( ( pSelf->value.asCodeblock.flags & HB_BLOCK_MACRO ) &&
!( pSelf->value.asCodeblock.flags &
( HB_BLOCK_LATEEVAL | HB_BLOCK_VPARAMS ) ) )
/* early evaluation of a macro */
hb_compExprCodeblockEarly( pSelf, HB_COMP_PARAM );
else
hb_compExprCodeblockPush( pSelf, TRUE, HB_COMP_PARAM );
#endif
break;
}
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
break;
case HB_EA_DELETE:
{
HB_EXPR_PTR pExp = pSelf->value.asCodeblock.pExprList;
HB_EXPR_PTR pNext;
hb_compExprCBVarDel( pSelf->value.asCodeblock.pLocals );
if( pSelf->value.asCodeblock.string )
hb_xfree( pSelf->value.asCodeblock.string );
/* Delete all expressions of the block. */
while( pExp )
{
pNext = pExp->pNext;
HB_COMP_EXPR_DELETE( pExp );
pExp = pNext;
}
break;
}
}
return pSelf;
}
/* actions for HB_ET_LOGICAL expression
*/
static HB_EXPR_FUNC( hb_compExprUseLogical )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* logical cannot be used as array index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PushLogical, pSelf->value.asLogical );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_SELF expression
*/
static HB_EXPR_FUNC( hb_compExprUseSelf )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
/* Clipper allows such operation and because some valid Clipper
* code needs it then I disabled error message, [druzus]
*/
/* HB_COMP_ERROR_TYPE( pSelf ); */
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* SELF cannot be used as array index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PCode1, HB_P_PUSHSELF );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for a literal array { , , , ... }
*/
static HB_EXPR_FUNC( hb_compExprUseArray )
{
switch( iMessage )
{
case HB_EA_REDUCE:
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* array cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
USHORT usItems = ( USHORT ) hb_compExprParamListCheck( HB_COMP_PARAM, pSelf );
if( usItems == 0 )
{
HB_GEN_FUNC3( PCode3, HB_P_ARRAYGEN, 0, 0 );
}
else
{
BOOL fArgsList = pSelf->ExprType == HB_ET_MACROARGLIST;
if( !fArgsList )
{
/* Note: direct type change */
pSelf->ExprType = HB_ET_ARGLIST;
}
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
/* restore original expression type */
pSelf->ExprType = HB_ET_ARRAY;
if( fArgsList )
{
HB_GEN_FUNC3( PCode3, HB_P_MACROARRAYGEN,
HB_LOBYTE( usItems ), HB_HIBYTE( usItems ) );
}
else
{
HB_GEN_FUNC3( PCode3, HB_P_ARRAYGEN,
HB_LOBYTE( usItems ), HB_HIBYTE( usItems ) );
}
}
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
{
HB_EXPR_PTR pElem = pSelf->value.asList.pExprList;
/* Push non-constant values only
*/
while( pElem )
{
HB_EXPR_USE( pElem, HB_EA_PUSH_POP );
pElem = pElem->pNext;
}
}
break;
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
break;
case HB_EA_DELETE:
{
HB_EXPR_PTR pElem = pSelf->value.asList.pExprList;
/* Delete all elements of the array
*/
HB_EXPR_PTR pNext;
while( pElem )
{
pNext = pElem->pNext;
HB_COMP_EXPR_DELETE( pElem );
pElem = pNext;
}
}
break;
}
return pSelf;
}
/* actions for HB_ET_HASH literal hash
* { key1=>val1, key2=>val2, ... keyN=>valN }
*/
static HB_EXPR_FUNC( hb_compExprUseHash )
{
switch( iMessage )
{
case HB_EA_REDUCE:
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf ); /* array cannot be used as index element */
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
USHORT usItems = ( USHORT ) ( pSelf->ulLength >> 1 );
/* Note: direct type change */
pSelf->ExprType = HB_ET_ARGLIST;
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
/* restore original expression type */
pSelf->ExprType = HB_ET_HASH;
HB_GEN_FUNC3( PCode3, HB_P_HASHGEN, HB_LOBYTE( usItems ), HB_HIBYTE( usItems ) );
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
{
HB_EXPR_PTR pElem = pSelf->value.asList.pExprList;
/* Push non-constant values only */
while( pElem )
{
HB_EXPR_USE( pElem, HB_EA_PUSH_POP );
pElem = pElem->pNext;
}
}
break;
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
break;
case HB_EA_DELETE:
{
HB_EXPR_PTR pElem = pSelf->value.asList.pExprList;
/* Delete all elements of the array
*/
HB_EXPR_PTR pNext;
while( pElem )
{
pNext = pElem->pNext;
HB_COMP_EXPR_DELETE( pElem );
pElem = pNext;
}
}
break;
}
return pSelf;
}
/* actions for HB_ET_VARREF expression
*/
static HB_EXPR_FUNC( hb_compExprUseVarRef )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PushVarRef, pSelf->value.asSymbol );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_FUNREF expression
*/
static HB_EXPR_FUNC( hb_compExprUseFunRef )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PushFunRef, pSelf->value.asSymbol );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
break;
}
return pSelf;
}
/* actions for HB_ET_REFERENCE expression
*/
static HB_EXPR_FUNC( hb_compExprUseRef )
{
switch( iMessage )
{
case HB_EA_REDUCE:
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
HB_EXPR_PTR pExp = pSelf->value.asReference;
if( pExp->ExprType == HB_ET_MACRO )
{
pExp->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pExp, HB_EA_PUSH_PCODE );
break;
}
else if( pExp->ExprType == HB_ET_ARRAYAT )
{
pExp->value.asList.reference = TRUE;
HB_EXPR_USE( pExp, HB_EA_PUSH_PCODE );
break;
}
else if( pExp->ExprType == HB_ET_SEND )
{
/* HB_EXPR_PTR pSend = pExp->value.asMessage.pObject;
if( !pSend || pSend->ExprType == HB_ET_VARIABLE ) */
{
hb_compExprPushSendPop( pExp, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
break;
}
}
else if( pExp->ExprType == HB_ET_ALIASVAR )
{
char *szAlias = pExp->value.asAlias.pAlias->value.asSymbol;
int iLen = strlen( szAlias );
if( ( iLen == 1 || ( iLen >= 4 && iLen <= 6 ) ) &&
memcmp( szAlias, "MEMVAR", iLen ) == 0 &&
pExp->value.asAlias.pVar->ExprType == HB_ET_VARIABLE )
{ /* @M-> @MEMVAR-> or @MEMVA-> or @MEMV-> */
HB_GEN_FUNC1( PushMemvarRef, pExp->value.asAlias.pVar->value.asSymbol );
break;
}
}
hb_compErrorRefer( HB_COMP_PARAM, NULL, hb_compExprDescription( pExp ) );
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
case HB_EA_DELETE:
HB_COMP_EXPR_DELETE( pSelf->value.asReference );
break;
}
return pSelf;
}
/* actions for HB_ET_IIF expression
*/
static HB_EXPR_FUNC( hb_compExprUseIIF )
{
switch( iMessage )
{
case HB_EA_REDUCE:
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
pSelf = hb_compExprReduceIIF( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
/* this is called if all three parts of IIF expression should be generated
*/
LONG lPosFalse, lPosEnd;
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
lPosFalse = HB_GEN_FUNC1( JumpFalse, 0 );
pExpr =pExpr->pNext;
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
lPosEnd = HB_GEN_FUNC1( Jump, 0 );
pExpr =pExpr->pNext;
HB_GEN_FUNC1( JumpHere, lPosFalse );
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( JumpHere, lPosEnd );
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
{
#ifdef HB_C52_STRICT
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP ); /* remove a value if used in statement */
#else
ULONG ulPosFalse, ulPosEnd;
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
ulPosFalse = HB_GEN_FUNC1( JumpFalse, 0 );
pExpr =pExpr->pNext;
/* do not generate warning about meaningless use of expression NIL */
if( pExpr->ExprType != HB_ET_NIL )
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
pExpr =pExpr->pNext;
#if defined( HB_MACRO_SUPPORT )
if( HB_PCODE_DATA->lPCodePos == ulPosFalse + 3 )
{
HB_PCODE_DATA->pCode[ ulPosFalse - 1 ] = HB_P_JUMPTRUEFAR;
ulPosEnd = ulPosFalse;
}
#else
if( HB_COMP_PARAM->functions.pLast->lPCodePos == ulPosFalse + 3 )
{
HB_COMP_PARAM->functions.pLast->pCode[ ulPosFalse - 1 ] = HB_P_JUMPTRUEFAR;
ulPosEnd = ulPosFalse;
}
#endif
else
{
ulPosEnd = HB_GEN_FUNC1( Jump, 0 );
HB_GEN_FUNC1( JumpHere, ulPosFalse );
}
/* do not generate warning about meaningless use of expression NIL */
if( pExpr->ExprType != HB_ET_NIL )
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
HB_GEN_FUNC1( JumpHere, ulPosEnd );
#endif
break;
}
case HB_EA_DELETE:
if( pSelf->value.asList.pExprList )
{
HB_EXPR_PTR pTmp, pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
pTmp = pExpr->pNext; /* store next expression */
HB_COMP_EXPR_DELETE( pExpr );
pExpr =pTmp;
}
pSelf->value.asList.pExprList = NULL;
}
break;
}
return pSelf; /* return self */
}
/* NOTE: In PUSH operation it leaves on the eval stack the last expression only
*/
static HB_EXPR_FUNC( hb_compExprUseList )
{
switch( iMessage )
{
case HB_EA_REDUCE:
if( HB_SUPPORT_XBASE )
{
if( hb_compExprListLen( pSelf ) == 1 )
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
if( pExpr->ExprType == HB_ET_MACRO &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
pExpr->value.asMacro.SubType |= HB_ET_MACRO_PARE;
}
}
}
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
/* NOTE: if the list contains a single expression then the list
* is not reduced to this expression - if you need that reduction
* then call hb_compExprListStrip() additionaly
*/
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
if( hb_compExprListLen( pSelf ) == 1 )
{
/* For example:
* ( a ) := 4
*/
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asList.pExprList );
}
else
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
if( pExpr->ExprType == HB_ET_NONE && pExpr->pNext == NULL )
{
/* Empty list was used ()
*/
HB_COMP_ERROR_SYNTAX( pExpr );
}
else
{
while( pExpr )
{
if( HB_SUPPORT_XBASE )
{
if( pExpr->ExprType == HB_ET_MACRO &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
pExpr->value.asMacro.SubType |= HB_ET_MACRO_PARE;
}
}
if( pExpr->pNext )
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
else
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE ); /* the last expression */
pExpr = pExpr->pNext;
}
}
}
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
if( HB_SUPPORT_XBASE )
{
if( pExpr->ExprType == HB_ET_MACRO &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
pExpr->value.asMacro.SubType |= HB_ET_MACRO_PARE;
}
}
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
pExpr = pExpr->pNext;
}
}
break;
case HB_EA_DELETE:
if( pSelf->value.asList.pExprList )
{
HB_EXPR_PTR pTmp, pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
pTmp = pExpr->pNext; /* store next expression */
HB_COMP_EXPR_DELETE( pExpr );
pExpr =pTmp;
}
pSelf->value.asList.pExprList = NULL;
}
break;
}
return pSelf;
}
/* NOTE: In PUSH operation it leaves all expressions on the eval stack
*/
static HB_EXPR_FUNC( hb_compExprUseArgList )
{
switch( iMessage )
{
case HB_EA_REDUCE:
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
if( pSelf->value.asList.reference )
{
#if defined( HB_MACRO_SUPPORT )
if( !HB_PCODE_DATA->fVParams )
#else
if( !HB_COMP_PARAM->functions.pLast->fVParams )
#endif
{
hb_compErrorVParams( HB_COMP_PARAM,
HB_COMP_PARAM->functions.pLast->szName ?
"Function" : "Codeblock" );
}
HB_GEN_FUNC1( PCode1, HB_P_PUSHVPARAMS );
}
else
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
pExpr = pExpr->pNext;
}
}
break;
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
break;
case HB_EA_DELETE:
if( pSelf->value.asList.pExprList )
{
HB_EXPR_PTR pTmp, pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
pTmp = pExpr->pNext; /* store next expression */
HB_COMP_EXPR_DELETE( pExpr );
pExpr =pTmp;
}
pSelf->value.asList.pExprList = NULL;
}
break;
}
return pSelf;
}
/* NOTE: In PUSH operation it leaves all expressions on the eval stack,
* the expresions are divided into macro compiled blocks
*/
static HB_EXPR_FUNC( hb_compExprUseMacroArgList )
{
switch( iMessage )
{
case HB_EA_REDUCE:
hb_compExprReduceList( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList;
USHORT usItems = 0;
while( pExpr )
{
if( ( pExpr->ExprType == HB_ET_MACRO &&
( pExpr->value.asMacro.SubType & HB_ET_MACRO_LIST ) ) ||
( pExpr->ExprType == HB_ET_ARGLIST &&
pExpr->value.asList.reference ) )
{
if( usItems )
{
HB_GEN_FUNC1( PushLong, usItems );
usItems = 0;
}
}
else
++usItems;
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
pExpr = pExpr->pNext;
}
if( usItems )
{
HB_GEN_FUNC1( PushLong, usItems );
}
}
break;
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
break;
case HB_EA_DELETE:
if( pSelf->value.asList.pExprList )
{
HB_EXPR_PTR pTmp, pExpr = pSelf->value.asList.pExprList;
while( pExpr )
{
pTmp = pExpr->pNext; /* store next expression */
HB_COMP_EXPR_DELETE( pExpr );
pExpr =pTmp;
}
pSelf->value.asList.pExprList = NULL;
}
break;
}
return pSelf;
}
/* handler for ( ( array[ idx ] )[ idx ] )[ idx ]
*/
static HB_EXPR_FUNC( hb_compExprUseArrayAt )
{
switch( iMessage )
{
case HB_EA_REDUCE:
{
HB_EXPR_PTR pIdx;
pSelf->value.asList.pExprList = HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_REDUCE );
pSelf->value.asList.pIndex = HB_EXPR_USE( pSelf->value.asList.pIndex, HB_EA_REDUCE );
pIdx = pSelf->value.asList.pIndex;
if( pIdx->ExprType == HB_ET_NUMERIC )
{
HB_EXPR_PTR pExpr = pSelf->value.asList.pExprList; /* the expression that holds an array */
LONG lIndex;
if( pIdx->value.asNum.NumType == HB_ET_LONG )
lIndex = ( LONG ) pIdx->value.asNum.val.l;
else
lIndex = ( LONG ) pIdx->value.asNum.val.d;
if( pExpr->ExprType == HB_ET_ARRAY ) /* is it a literal array */
{
ULONG ulSize = hb_compExprParamListCheck( HB_COMP_PARAM, pExpr );
if( pExpr->ExprType == HB_ET_MACROARGLIST )
/* restore original expression type */
pExpr->ExprType = HB_ET_ARRAY;
else if( !HB_IS_VALID_INDEX( lIndex, ulSize ) )
{
if( !HB_SUPPORT_ARRSTR )
hb_compErrorBound( HB_COMP_PARAM, pIdx );
}
else
{
pExpr = pExpr->value.asList.pExprList; /* the first element in the array */
while( --lIndex && pExpr )
pExpr = pExpr->pNext;
if( pExpr ) /* found ? */
{
/* extract a single expression from the array
*/
HB_EXPR_PTR pNew = HB_COMP_EXPR_NEW( HB_ET_NONE );
memcpy( pNew, pExpr, sizeof( HB_EXPR ) );
/* This will suppres releasing of memory occupied by components of
* the expression - we have just copied them into the new expression.
* This method is simpler then traversing the list and releasing all
* but this choosen one.
*/
pExpr->ExprType = HB_ET_NONE;
/* Here comes the magic */
HB_COMP_EXPR_DELETE( pSelf );
pSelf = pNew;
}
else if( !HB_SUPPORT_ARRSTR )
hb_compErrorBound( HB_COMP_PARAM, pIdx );
}
}
#if 0
else if( pExpr->ExprType == HB_ET_STRING && HB_SUPPORT_ARRSTR ) /* is it a literal string */
{
if( HB_IS_VALID_INDEX( lIndex, pExpr->ulLength ) )
{
#if defined( HB_COMPAT_X HB )
char * pszValue = ( char * ) hb_xgrab( 2 );
pszValue[ 0 ] = pExpr->value.asString.string[ lIndex - 1 ];
pszValue[ 1 ] = '\0';
HB_COMP_EXPR_DELETE( pSelf );
pSelf = hb_compExprNewString( pszValue, 1, TRUE, HB_COMP_PARAM );
#else
UCHAR ucValue = ( UCHAR ) pExpr->value.asString.string[ lIndex - 1 ];
HB_COMP_EXPR_DELETE( pSelf );
pSelf = hb_compExprNewLong( ucValue, HB_COMP_PARAM );
#endif
}
else
hb_compErrorBound( HB_COMP_PARAM, pIdx );
}
#endif
else if( !HB_SUPPORT_ARRSTR )
{
HB_EXPR_USE( pExpr, HB_EA_ARRAY_AT );
}
}
break;
}
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
{
BOOL fMacroIndex = FALSE;
if( pSelf->value.asList.pIndex->ExprType == HB_ET_MACRO )
{
if( HB_SUPPORT_XBASE )
{
if( pSelf->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pSelf->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pSelf->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
pSelf->value.asList.pIndex->value.asMacro.SubType |= HB_ET_MACRO_LIST;
fMacroIndex = TRUE;
}
}
}
else if( pSelf->value.asList.pIndex->ExprType == HB_ET_ARGLIST )
{
fMacroIndex = pSelf->value.asList.pIndex->value.asList.reference;
}
if( pSelf->value.asList.reference && HB_SUPPORT_ARRSTR )
{
if( pSelf->value.asList.pExprList->ExprType == HB_ET_VARIABLE )
{
pSelf->value.asList.pExprList->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->ExprType = HB_ET_VARIABLE;
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_SEND )
{
hb_compExprPushSendPop( pSelf->value.asList.pExprList, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_ARRAYAT &&
!pSelf->value.asList.pExprList->value.asList.reference )
{
pSelf->value.asList.pExprList->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->value.asList.reference = FALSE;
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_MACRO &&
pSelf->value.asList.pExprList->value.asMacro.SubType == HB_ET_MACRO_VAR )
{
pSelf->value.asList.pExprList->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->value.asMacro.SubType = HB_ET_MACRO_VAR;
}
else
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
}
else
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asList.pIndex, HB_EA_PUSH_PCODE );
if( fMacroIndex )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHINDEX );
if( pSelf->value.asList.reference )
HB_GEN_FUNC1( PCode1, HB_P_ARRAYPUSHREF );
else
HB_GEN_FUNC1( PCode1, HB_P_ARRAYPUSH );
break;
}
case HB_EA_POP_PCODE:
{
BOOL fMacroIndex = FALSE;
if( pSelf->value.asList.pIndex->ExprType == HB_ET_MACRO )
{
if( HB_SUPPORT_XBASE )
{
if( pSelf->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pSelf->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pSelf->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
pSelf->value.asList.pIndex->value.asMacro.SubType |= HB_ET_MACRO_LIST;
fMacroIndex = TRUE;
}
}
}
else if( pSelf->value.asList.pIndex->ExprType == HB_ET_ARGLIST )
{
fMacroIndex = pSelf->value.asList.pIndex->value.asList.reference;
}
/* to manage strings as bytes arrays, they must be pushed by reference */
/* arrays also are passed by reference */
if( HB_SUPPORT_ARRSTR )
{
if( pSelf->value.asList.pExprList->ExprType == HB_ET_VARIABLE )
{
pSelf->value.asList.pExprList->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->ExprType = HB_ET_VARIABLE;
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_SEND )
{
hb_compExprPushSendPop( pSelf->value.asList.pExprList, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_ARRAYAT &&
!pSelf->value.asList.pExprList->value.asList.reference )
{
pSelf->value.asList.pExprList->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->value.asList.reference = FALSE;
}
else if( pSelf->value.asList.pExprList->ExprType == HB_ET_MACRO &&
pSelf->value.asList.pExprList->value.asMacro.SubType == HB_ET_MACRO_VAR )
{
pSelf->value.asList.pExprList->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
pSelf->value.asList.pExprList->value.asMacro.SubType = HB_ET_MACRO_VAR;
}
else
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
}
else
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asList.pIndex, HB_EA_PUSH_PCODE );
if( fMacroIndex )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHINDEX );
HB_GEN_FUNC1( PCode1, HB_P_ARRAYPOP );
break;
}
case HB_EA_PUSH_POP:
/* NOTE: This is highly optimized code - this will work even
* if accessed value isn't an array. It will work also if
* the index is invalid
*/
HB_EXPR_USE( pSelf->value.asList.pExprList, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asList.pIndex, HB_EA_PUSH_POP );
/* no break */
case HB_EA_STATEMENT:
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
break;
case HB_EA_DELETE:
HB_COMP_EXPR_DELETE( pSelf->value.asList.pExprList );
HB_COMP_EXPR_DELETE( pSelf->value.asList.pIndex );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMacro )
{
switch( iMessage )
{
case HB_EA_REDUCE:
if( pSelf->value.asMacro.pExprList )
pSelf->value.asMacro.pExprList = HB_EXPR_USE( pSelf->value.asMacro.pExprList, HB_EA_REDUCE );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
if( pSelf->value.asMacro.SubType & HB_ET_MACRO_ASSIGN )
HB_GEN_FUNC2( PushString, "_", 2 );
if( pSelf->value.asMacro.pExprList )
{
/* macro expression: &( expressions_list )
* NOTE: only the last expression will be macro-compiled
*/
HB_EXPR_USE( pSelf->value.asMacro.pExprList, HB_EA_PUSH_PCODE );
}
else
{
if( pSelf->value.asMacro.cMacroOp )
{
/* simple macro variable expansion: &variable
* 'szMacro' is a variable name
*/
HB_GEN_FUNC2( PushVar, pSelf->value.asMacro.szMacro, TRUE );
}
else
{
/* complex macro expression: prefix&var.suffix
* all components should be placed as a string that will
* be compiled after text susbstitution
*/
/* Check if macrotext variable does not refer to
* local, static or field.
*/
#if ! defined( HB_MACRO_SUPPORT )
hb_compIsValidMacroText( HB_COMP_PARAM,
pSelf->value.asMacro.szMacro,
strlen( pSelf->value.asMacro.szMacro ) );
#endif
HB_GEN_FUNC2( PushString, pSelf->value.asMacro.szMacro, strlen( pSelf->value.asMacro.szMacro ) + 1 );
}
}
if( pSelf->value.asMacro.SubType & HB_ET_MACRO_ASSIGN )
{
HB_GEN_FUNC1( PCode1, HB_P_PLUS );
pSelf->value.asMacro.SubType &= ~HB_ET_MACRO_ASSIGN;
}
/* compile & run - leave a result on the eval stack
*/
if( pSelf->value.asMacro.SubType == HB_ET_MACRO_SYMBOL )
HB_GEN_FUNC1( PCode1, HB_P_MACROSYMBOL );
else if( pSelf->value.asMacro.SubType == HB_ET_MACRO_REFER )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHREF );
else if( pSelf->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
if( HB_SUPPORT_XBASE )
{
if( pSelf->value.asMacro.SubType & HB_ET_MACRO_LIST )
{
/* { &macro }, funCall( &macro ) or var[ &macro ] */
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHLIST );
}
else if( pSelf->value.asMacro.SubType & HB_ET_MACRO_PARE )
{
/* var := (somevalue, &macro) - in xbase compatibility mode
* EVAL( {|| &macro} ) - in all cases
*/
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHPARE );
}
else
{
/* usual &macro */
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSH );
}
}
else
/* usual &macro */
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSH );
/* Always add byte to pcode indicating requested macro compiler flag. */
HB_GEN_FUNC1( PCode1, HB_MACRO_GENFLAGS );
}
/* NOTE: pcode for alias context is generated in
* hb_compExprUseAliasVar()
*/
break;
case HB_EA_POP_PCODE:
if( pSelf->value.asMacro.pExprList )
{
/* macro expression: &( expressions_list )
* NOTE: only the last expression will be macro-compiled
*/
HB_EXPR_USE( pSelf->value.asMacro.pExprList, HB_EA_PUSH_PCODE );
}
else
{
if( pSelf->value.asMacro.cMacroOp )
{
/* simple macro variable expansion: &variable
* 'szMacro' is a variable name
*/
HB_GEN_FUNC2( PushVar, pSelf->value.asMacro.szMacro, TRUE );
}
else
{
/* complex macro expression: prefix&var.suffix
* all components should be placed as a string that will
* be compiled after text susbstitution
*/
/* Check if macrotext variable does not refer to
* local, static or field.
*/
#if ! defined( HB_MACRO_SUPPORT )
hb_compIsValidMacroText( HB_COMP_PARAM,
pSelf->value.asMacro.szMacro,
strlen( pSelf->value.asMacro.szMacro ) );
#endif
HB_GEN_FUNC2( PushString, pSelf->value.asMacro.szMacro, strlen( pSelf->value.asMacro.szMacro ) + 1 );
}
}
/* compile & run - macro compiler will generate pcode to pop a value
* from the eval stack
*/
if( pSelf->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
HB_GEN_FUNC1( PCode1, HB_P_MACROPOP );
/* Always add byte to pcode indicating requested macro compiler flag. */
HB_GEN_FUNC1( PCode1, HB_MACRO_GENFLAGS );
}
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
break;
case HB_EA_DELETE:
if( pSelf->value.asMacro.pExprList )
HB_COMP_EXPR_DELETE( pSelf->value.asMacro.pExprList );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseFunCall )
{
switch( iMessage )
{
case HB_EA_REDUCE:
/* Reduce the expressions on the list of arguments
*/
if( pSelf->value.asFunCall.pParms )
pSelf->value.asFunCall.pParms = HB_EXPR_USE( pSelf->value.asFunCall.pParms, HB_EA_REDUCE );
if( pSelf->value.asFunCall.pFunName->ExprType == HB_ET_FUNNAME )
{
HB_EXPR_PTR pName = pSelf->value.asFunCall.pFunName;
HB_EXPR_PTR pParms = pSelf->value.asFunCall.pParms;
USHORT usCount = ( USHORT ) hb_compExprParamListLen( pParms );
#ifndef HB_MACRO_SUPPORT
if( hb_compFunCallCheck( HB_COMP_PARAM, pName->value.asSymbol, usCount ) )
#endif
{
/* TODO: EMPTY() (not done by Clipper) */
if( strcmp( "AT", pName->value.asSymbol ) == 0 && usCount == 2 )
{
hb_compExprReduceAT( pSelf, HB_COMP_PARAM );
}
else if( strcmp( "CHR", pName->value.asSymbol ) == 0 && usCount )
{
hb_compExprReduceCHR( pSelf, HB_COMP_PARAM );
}
else if( strcmp( "LEN", pName->value.asSymbol ) == 0 && usCount )
{
if( HB_SUPPORT_HARBOUR )
hb_compExprReduceLEN( pSelf, HB_COMP_PARAM );
}
else if( strcmp( "ASC", pName->value.asSymbol ) == 0 && usCount )
{
if( HB_SUPPORT_HARBOUR )
hb_compExprReduceASC( pSelf, HB_COMP_PARAM );
}
else if( ( strcmp( "STOD", pName->value.asSymbol ) == 0 ||
strcmp( "HB_STOD", pName->value.asSymbol ) == 0 ) && usCount < 2 )
{
if( HB_SUPPORT_HARBOUR )
hb_compExprReduceSTOD( pSelf, usCount, HB_COMP_PARAM );
}
else if( strcmp( "CTOD", pName->value.asSymbol ) == 0 && usCount )
{
if( HB_SUPPORT_HARBOUR )
hb_compExprReduceCTOD( pSelf, HB_COMP_PARAM );
}
else if( strcmp( "UPPER", pName->value.asSymbol ) == 0 && usCount )
{
hb_compExprReduceUPPER( pSelf, HB_COMP_PARAM );
}
#ifndef HB_MACRO_SUPPORT
else if( strncmp( "HB_I18N_", pName->value.asSymbol, 8 ) == 0 )
{
HB_EXPR_PTR pArg = pParms->value.asList.pExprList;
char buf[ 16 ];
BOOL fStrict;
/* TODO: warning message does not fit very well, because it requires
type of used parameter. Let's print "unknown", to avoid deeper
analysis of parameter.
*/
if( strcmp( "GETTEXT", &pName->value.asSymbol[ 8 ] ) == 0 ||
strcmp( "GETTEXT_STRICT", &pName->value.asSymbol[ 8 ] ) == 0 )
{
fStrict = pName->value.asSymbol[ 15 ] != '\0';
if( usCount == 1 && HB_COMP_PARAM->funcs )
{
if( pArg->ExprType == HB_ET_STRING && pArg->ulLength > 0 )
{
if( HB_COMP_PARAM->fI18n )
hb_compI18nAdd( HB_COMP_PARAM, pArg->value.asString.string,
NULL, HB_COMP_PARAM->currLine );
}
else if( fStrict )
{
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_TYPE, "unknown", "character" );
}
}
else if( usCount == 2 )
{
if( pArg->pNext->ExprType == HB_ET_STRING && pArg->pNext->ulLength > 0 )
{
if( pArg->ExprType == HB_ET_STRING && pArg->ulLength > 0 )
{
if( HB_COMP_PARAM->fI18n )
hb_compI18nAdd( HB_COMP_PARAM, pArg->value.asString.string,
pArg->pNext->value.asString.string,
HB_COMP_PARAM->currLine );
}
else if( fStrict )
{
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_TYPE, "unknown", "character" );
}
}
else
{
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_TYPE, "unknown", "character" );
}
}
else
{
snprintf( buf, sizeof( buf ), "%d", (int) usCount );
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_COUNT, buf, "1 or 2" );
}
}
else if( strcmp( "GETTEXT_NOOP", &pName->value.asSymbol[ 8 ] ) == 0 )
{
if( usCount == 1 )
{
if( pArg->ExprType == HB_ET_STRING && pArg->ulLength > 0 )
{
if( HB_COMP_PARAM->fI18n )
hb_compI18nAdd( HB_COMP_PARAM, pArg->value.asString.string,
NULL, HB_COMP_PARAM->currLine );
}
else
{
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_TYPE, "unknown", "character" );
}
}
else if( usCount == 2 )
{
if( pArg->pNext->ExprType == HB_ET_STRING && pArg->pNext->ulLength > 0
&& pArg->ExprType == HB_ET_STRING && pArg->ulLength > 0 )
{
if( HB_COMP_PARAM->fI18n )
hb_compI18nAdd( HB_COMP_PARAM, pArg->value.asString.string,
pArg->pNext->value.asString.string,
HB_COMP_PARAM->currLine );
}
else
{
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_TYPE, "unknown", "character" );
}
}
else
{
snprintf( buf, sizeof( buf ), "%d", (int) usCount );
hb_compGenWarning( HB_COMP_PARAM, hb_comp_szWarnings, 'W', HB_COMP_WARN_PARAM_COUNT, buf, "1 or 2" );
}
/* hb_i18n_gettext_noop() is not a real function. It is used to
force writing of string to .pot file. So, we should try to
replaced function call by first argument regardless fI18n flag
and warnings.
*/
if( usCount )
{
pParms->value.asList.pExprList = pArg->pNext; /* skip first parameter */
pArg->pNext = NULL;
HB_COMP_EXPR_FREE( pParms );
HB_COMP_EXPR_FREE( pSelf->value.asFunCall.pFunName );
memcpy( pSelf, pArg, sizeof( HB_EXPR ) );
/* TODO: Why do we need to free this? It is used instead of pSelf. */
HB_COMP_EXPR_FREE( pArg );
}
}
}
#endif
}
}
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
{
BOOL fArgsList = FALSE;
USHORT usCount = 0;
if( pSelf->value.asFunCall.pFunName->ExprType == HB_ET_FUNNAME )
{
HB_GEN_FUNC1( PushFunCall, pSelf->value.asFunCall.pFunName->value.asSymbol );
}
else
{
HB_EXPR_USE( pSelf->value.asFunCall.pFunName, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_PUSHNIL );
}
/* NOTE: pParms will be NULL in 'DO procname' (if there is
* no WITH keyword)
*/
if( pSelf->value.asFunCall.pParms )
{
usCount = ( USHORT ) hb_compExprParamListCheck( HB_COMP_PARAM, pSelf->value.asFunCall.pParms );
fArgsList = pSelf->value.asFunCall.pParms->ExprType == HB_ET_MACROARGLIST;
if( usCount )
HB_EXPR_USE( pSelf->value.asFunCall.pParms, HB_EA_PUSH_PCODE );
}
if( fArgsList )
{
HB_GEN_FUNC3( PCode3, HB_P_MACROFUNC, HB_LOBYTE( usCount ), HB_HIBYTE( usCount ) );
/* restore original expression type */
pSelf->value.asFunCall.pParms->ExprType = HB_ET_ARGLIST;
}
else if( usCount > 255 )
HB_GEN_FUNC3( PCode3, HB_P_FUNCTION, HB_LOBYTE( usCount ), HB_HIBYTE( usCount ) );
else
HB_GEN_FUNC2( PCode2, HB_P_FUNCTIONSHORT, ( BYTE ) usCount );
break;
}
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
{
BOOL fArgsList = FALSE;
USHORT usCount = 0;
if( pSelf->value.asFunCall.pFunName->ExprType == HB_ET_FUNNAME )
{
HB_GEN_FUNC1( PushFunCall, pSelf->value.asFunCall.pFunName->value.asSymbol );
}
else
{
HB_EXPR_USE( pSelf->value.asFunCall.pFunName, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_PUSHNIL );
}
if( pSelf->value.asFunCall.pParms )
{
usCount = ( USHORT ) hb_compExprParamListCheck( HB_COMP_PARAM, pSelf->value.asFunCall.pParms );
fArgsList = pSelf->value.asFunCall.pParms->ExprType == HB_ET_MACROARGLIST;
if( usCount )
HB_EXPR_USE( pSelf->value.asFunCall.pParms, HB_EA_PUSH_PCODE );
}
if( fArgsList )
{
HB_GEN_FUNC3( PCode3, HB_P_MACRODO, HB_LOBYTE( usCount ), HB_HIBYTE( usCount ) );
/* restore original expression type */
pSelf->value.asFunCall.pParms->ExprType = HB_ET_ARGLIST;
}
else if( usCount > 255 )
HB_GEN_FUNC3( PCode3, HB_P_DO, HB_LOBYTE( usCount ), HB_HIBYTE( usCount ) );
else
HB_GEN_FUNC2( PCode2, HB_P_DOSHORT, ( BYTE ) usCount );
break;
}
case HB_EA_DELETE:
if( pSelf->value.asFunCall.pParms )
HB_COMP_EXPR_DELETE( pSelf->value.asFunCall.pParms );
HB_COMP_EXPR_DELETE( pSelf->value.asFunCall.pFunName );
break;
}
return pSelf;
}
/* handler for expression->identifier syntax
*/
static HB_EXPR_FUNC( hb_compExprUseAliasVar )
{
HB_TRACE(HB_TR_DEBUG, ("hb_compExprUseAliasVar()"));
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
{
HB_EXPR_PTR pAlias = pSelf->value.asAlias.pAlias;
BOOL bReduced = FALSE;
if( pAlias->ExprType == HB_ET_LIST )
{
/* ( expr1, expr2, ... )->variable
*/
pSelf->value.asAlias.pAlias = HB_EXPR_USE( pSelf->value.asAlias.pAlias, HB_EA_REDUCE );
bReduced = TRUE;
}
if( pAlias->ExprType == HB_ET_MACRO || pSelf->value.asAlias.pVar->ExprType == HB_ET_MACRO )
{
/* Macro operator is used on the left or right side of an alias
* operator - handle it with a special care
*/
HB_EXPR_PCODE2( hb_compExprUseAliasMacro, pSelf, HB_EA_PUSH_PCODE );
}
else if( pAlias->ExprType == HB_ET_ALIAS )
{
/*
* myalias->var
* FIELD->var
* MEMVAR->var
*
* NOTE: TRUE = push also alias
*/
HB_GEN_FUNC4( PushAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, TRUE, pAlias->value.asSymbol, 0 );
}
else if( pAlias->ExprType == HB_ET_NUMERIC )
{
/* numeric alias
* 2->var
*
* NOTE: only integer (long) values are allowed
*/
if( pAlias->value.asNum.NumType == HB_ET_LONG )
HB_GEN_FUNC4( PushAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, TRUE, NULL, pAlias->value.asNum.val.l );
else
hb_compErrorAlias( HB_COMP_PARAM, pAlias );
}
else if( bReduced )
{
/*
* ( expression )->var
*
* NOTE: FALSE = don't push alias value
*/
HB_EXPR_USE( pAlias, HB_EA_PUSH_PCODE );
HB_GEN_FUNC4( PushAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, FALSE, NULL, 0 );
}
else
hb_compErrorAlias( HB_COMP_PARAM, pAlias );
break;
}
case HB_EA_POP_PCODE:
{
HB_EXPR_PTR pAlias = pSelf->value.asAlias.pAlias;
BOOL bReduced = FALSE;
if( pAlias->ExprType == HB_ET_LIST )
{
pSelf->value.asAlias.pAlias = HB_EXPR_USE( pSelf->value.asAlias.pAlias, HB_EA_REDUCE );
bReduced = TRUE;
}
if( pAlias->ExprType == HB_ET_MACRO || pSelf->value.asAlias.pVar->ExprType == HB_ET_MACRO )
{
/* Macro operator is used on the left or right side of an alias
* operator - handle it with a special care
* (we need convert to a string the whole expression)
*/
HB_EXPR_PCODE2( hb_compExprUseAliasMacro, pSelf, HB_EA_POP_PCODE );
}
else if( pAlias->ExprType == HB_ET_ALIAS )
{
/*
* myalias->var
* FIELD->var
* MEMVAR->var
*/
HB_GEN_FUNC4( PopAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, TRUE, pAlias->value.asSymbol, 0 );
}
else if( pAlias->ExprType == HB_ET_NUMERIC )
{
/* numeric alias
* 2->var
*
* NOTE: only integer (long) values are allowed
*/
if( pAlias->value.asNum.NumType == HB_ET_LONG )
HB_GEN_FUNC4( PopAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, TRUE, NULL, pAlias->value.asNum.val.l );
else
hb_compErrorAlias( HB_COMP_PARAM, pAlias );
}
else if( bReduced )
{
/*
* ( expression )->var
*
* NOTE: FALSE = don't push alias value
*/
if( pAlias->ExprType == HB_ET_NONE )
{
/* empty expression -> ()->var
*/
hb_compErrorAlias( HB_COMP_PARAM, pAlias );
}
else
{
HB_EXPR_USE( pAlias, HB_EA_PUSH_PCODE );
HB_GEN_FUNC4( PopAliasedVar, pSelf->value.asAlias.pVar->value.asSymbol, FALSE, NULL, 0 );
}
}
else
hb_compErrorAlias( HB_COMP_PARAM, pAlias );
break;
}
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
break;
case HB_EA_DELETE:
HB_COMP_EXPR_DELETE( pSelf->value.asAlias.pAlias );
if( pSelf->value.asAlias.pVar )
HB_COMP_EXPR_DELETE( pSelf->value.asAlias.pVar );
break;
}
return pSelf;
}
/* handler for expression->( exression, ... ) syntax
*/
static HB_EXPR_FUNC( hb_compExprUseAliasExpr )
{
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
/* save currently selected workarea
*/
HB_GEN_FUNC1( PCode1, HB_P_PUSHALIAS );
/* push the expression that will return a new workarea
*/
HB_EXPR_USE( pSelf->value.asAlias.pAlias, HB_EA_PUSH_PCODE );
/* pop the value from the stack and select it as current workarea
*/
HB_GEN_FUNC1( PCode1, HB_P_POPALIAS );
/* evaluate any expression
*/
HB_EXPR_USE( pSelf->value.asAlias.pExpList, HB_EA_PUSH_PCODE );
/* swap the two last items on the eval stack: one item is a
* value returned by evaluated expression and the second item
* is previously selected workarea. After swaping select again
* the restored workarea.
*/
HB_GEN_FUNC1( PCode1, HB_P_SWAPALIAS );
break;
case HB_EA_POP_PCODE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
/* save currently selected workarea
*/
HB_GEN_FUNC1( PCode1, HB_P_PUSHALIAS );
/* push the expression that will return a new workarea
*/
HB_EXPR_USE( pSelf->value.asAlias.pAlias, HB_EA_PUSH_PCODE );
/* pop the value from the stack and select it as current workarea
*/
HB_GEN_FUNC1( PCode1, HB_P_POPALIAS );
/* evaluate any expression - it will not leave any return
* value on the eval stack
*/
HB_EXPR_USE( pSelf->value.asAlias.pExpList, HB_EA_PUSH_POP );
/* Pop and select again the restored workarea.
*/
HB_GEN_FUNC1( PCode1, HB_P_POPALIAS );
break;
case HB_EA_DELETE:
HB_COMP_EXPR_DELETE( pSelf->value.asAlias.pAlias );
HB_COMP_EXPR_DELETE( pSelf->value.asAlias.pExpList );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseAlias )
{
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC2( PushSymbol, pSelf->value.asSymbol, HB_SYM_ALIAS );
break;
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
break;
case HB_EA_DELETE:
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseFunName )
{
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
HB_GEN_FUNC1( PushFunSym, pSelf->value.asSymbol );
break;
case HB_EA_POP_PCODE:
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
case HB_EA_DELETE:
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseRTVariable )
{
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
if( pSelf->value.asRTVar.szName )
HB_GEN_FUNC2( PushSymbol, pSelf->value.asRTVar.szName, HB_SYM_MEMVAR ); /* this is not a function */
else
HB_EXPR_USE( pSelf->value.asRTVar.pMacro, HB_EA_PUSH_PCODE );
break;
case HB_EA_POP_PCODE:
if( pSelf->value.asRTVar.szName )
HB_GEN_FUNC1( PopMemvar, pSelf->value.asRTVar.szName );
else
HB_EXPR_USE( pSelf->value.asRTVar.pMacro, HB_EA_POP_PCODE );
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
break;
case HB_EA_DELETE:
#if ! defined( HB_MACRO_SUPPORT )
if( ! pSelf->value.asRTVar.szName )
HB_COMP_EXPR_DELETE( pSelf->value.asRTVar.pMacro );
#endif
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseVariable )
{
switch( iMessage )
{
case HB_EA_REDUCE:
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
#if defined( HB_MACRO_SUPPORT )
{
/* NOTE: When the following syntax is used:
* ( any_expr )->&var2
* then macro compiler is compiling the right side of alias
* operator only (if 'any_expr' is not a string) - an alias value
* is placed on the eval stack before macro compilation.
* The HB_MACRO_GEN_ALIASED flag is used to signal that we have to
* genearate alias aware pcode even if we known a variable part only.
*/
if( HB_MACRO_DATA->Flags & HB_MACRO_GEN_ALIASED )
HB_GEN_FUNC4( PushAliasedVar, pSelf->value.asSymbol, FALSE, NULL, 0 );
else
HB_GEN_FUNC2( PushVar, pSelf->value.asSymbol, FALSE );
}
#else
HB_GEN_FUNC2( PushVar, pSelf->value.asSymbol, FALSE );
#endif
break;
case HB_EA_POP_PCODE:
#if defined( HB_MACRO_SUPPORT )
{
if( HB_MACRO_DATA->Flags & HB_MACRO_GEN_ALIASED )
HB_GEN_FUNC4( PopAliasedVar, pSelf->value.asSymbol, FALSE, NULL, 0 );
else
HB_GEN_FUNC1( PopVar, pSelf->value.asSymbol );
}
#else
HB_GEN_FUNC1( PopVar, pSelf->value.asSymbol );
#endif
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_GEN_FUNC2( PushVar, pSelf->value.asSymbol, FALSE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
break;
case HB_EA_DELETE:
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseSend )
{
switch( iMessage )
{
case HB_EA_REDUCE:
{
/* Clipper does not reduce object expressions */
if( HB_SUPPORT_HARBOUR && pSelf->value.asMessage.pObject )
pSelf->value.asMessage.pObject = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asMessage.pObject, HB_EA_REDUCE ), HB_COMP_PARAM );
if( pSelf->value.asMessage.pParms ) /* Is it a method call ? */
pSelf->value.asMessage.pParms = HB_EXPR_USE( pSelf->value.asMessage.pParms, HB_EA_REDUCE );
}
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
if( pSelf->value.asMessage.pParms ) /* Is it a method call ? */
{
BOOL fArgsList = FALSE;
int iParms = ( int ) hb_compExprParamListCheck( HB_COMP_PARAM, pSelf->value.asMessage.pParms );
hb_compExprPushSendPush( pSelf, HB_COMP_PARAM );
if( iParms )
{
HB_EXPR_USE( pSelf->value.asMessage.pParms, HB_EA_PUSH_PCODE );
fArgsList = pSelf->value.asMessage.pParms->ExprType == HB_ET_MACROARGLIST;
}
if( fArgsList )
{
HB_GEN_FUNC3( PCode3, HB_P_MACROSEND, HB_LOBYTE( iParms ), HB_HIBYTE( iParms ) );
/* restore original expression type */
pSelf->value.asMessage.pParms->ExprType = HB_ET_ARGLIST;
}
else if( iParms > 255 )
HB_GEN_FUNC3( PCode3, HB_P_SEND, HB_LOBYTE( iParms ), HB_HIBYTE( iParms ) );
else
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, ( BYTE ) iParms );
}
else
{
/* acces to instance variable */
hb_compExprPushSendPush( pSelf, HB_COMP_PARAM );
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, 0 );
}
break;
case HB_EA_POP_PCODE:
hb_compExprPushSendPop( pSelf, HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asMessage.pParms, HB_EA_PUSH_PCODE );
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, 1 );
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
if( ! pSelf->value.asMessage.pParms ) /* Is it a method call ? */
{
/* instance variable */
/* QUESTION: This warning can be misleading if nested messages
* are used, e.g. a:b():c - should we generate it ?
*/
hb_compWarnMeaningless( HB_COMP_PARAM, pSelf );
}
break;
case HB_EA_DELETE:
{
if( pSelf->value.asMessage.pObject )
{
HB_COMP_EXPR_DELETE( pSelf->value.asMessage.pObject );
}
if( pSelf->value.asMessage.pParms )
{
HB_COMP_EXPR_DELETE( pSelf->value.asMessage.pParms );
}
if( pSelf->value.asMessage.pMessage )
{
HB_COMP_EXPR_DELETE( pSelf->value.asMessage.pMessage );
}
}
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePostInc )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushPostOp, pSelf, HB_P_INC );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
/* a++ used standalone as a statement is the same as ++a
*/
HB_EXPR_PCODE2( hb_compExprUsePreOp, pSelf, HB_P_INC );
break;
case HB_EA_DELETE:
if( pSelf->value.asOperator.pLeft )
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePostDec )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushPostOp, pSelf, HB_P_DEC );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUsePreOp, pSelf, HB_P_DEC );
break;
case HB_EA_DELETE:
if( pSelf->value.asOperator.pLeft )
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseAssign )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
case HB_EA_ARRAY_INDEX:
case HB_EA_LVALUE:
break;
case HB_EA_PUSH_PCODE:
/* NOTE: assigment to an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
HB_EXPR_PTR pObj = pSelf->value.asOperator.pLeft;
if( pObj->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pObj );
}
pObj->value.asMessage.pParms = pSelf->value.asOperator.pRight;
HB_EXPR_USE( pObj, HB_EA_POP_PCODE );
pObj->value.asMessage.pParms = NULL; /* to suppress duplicated releasing */
}
else
{
/* it assigns a value and leaves it on the stack */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
/* QUESTION: Can we replace DUPLICATE+POP with a single PUT opcode
*/
HB_GEN_FUNC1( PCode1, HB_P_PUSHUNREF );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
/* NOTE: assigment to an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
HB_EXPR_PTR pObj = pSelf->value.asOperator.pLeft;
if( pObj->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pObj );
}
pObj->value.asMessage.pParms = pSelf->value.asOperator.pRight;
HB_EXPR_USE( pObj, HB_EA_POP_PCODE );
pObj->value.asMessage.pParms = NULL; /* to suppress duplicated releasing */
/* Remove the return value */
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
else
{
/* it assigns a value and removes it from the stack */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePlusEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_PLUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_PLUS );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMinusEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_MINUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_MINUS );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMultEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_MULT );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_MULT );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseDivEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_DIVIDE );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_DIVIDE );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseModEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_MODULUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_MODULUS );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseExpEq )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushOperEq, pSelf, HB_P_POWER );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUseOperEq, pSelf, HB_P_POWER );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseOr )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceOr( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf );
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
if( HB_COMP_ISSUPPORTED( HB_COMPFLAG_SHORTCUTS ) )
{
LONG lEndPos;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
lEndPos = HB_GEN_FUNC1( JumpTrue, 0 );
HB_GEN_FUNC1( PCode1, HB_P_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( JumpHere, lEndPos );
}
else
{
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_OR );
}
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_COMP_ISSUPPORTED( HB_COMPFLAG_SHORTCUTS ) )
{
LONG lEndPos;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
lEndPos = HB_GEN_FUNC1( JumpTrue, 0 );
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
#if defined( HB_MACRO_SUPPORT )
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
#else
{
BOOL fMeaningful = HB_COMP_PARAM->fMeaningful;
/* do not generate warning about meaningless expression usage */
HB_COMP_PARAM->fMeaningful = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
HB_COMP_PARAM->fMeaningful = fMeaningful;
}
#endif
HB_GEN_FUNC1( JumpHere, lEndPos );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseAnd )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceAnd( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf );
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
if( HB_COMP_ISSUPPORTED( HB_COMPFLAG_SHORTCUTS ) )
{
LONG lEndPos;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
lEndPos = HB_GEN_FUNC1( JumpFalse, 0 );
HB_GEN_FUNC1( PCode1, HB_P_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( JumpHere, lEndPos );
}
else
{
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_AND );
}
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_COMP_ISSUPPORTED( HB_COMPFLAG_SHORTCUTS ) )
{
LONG lEndPos;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
lEndPos = HB_GEN_FUNC1( JumpFalse, 0 );
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
#if defined( HB_MACRO_SUPPORT )
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
#else
{
BOOL fMeaningful = HB_COMP_PARAM->fMeaningful;
/* do not generate warning about meaningless expression usage */
HB_COMP_PARAM->fMeaningful = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
HB_COMP_PARAM->fMeaningful = fMeaningful;
}
#endif
HB_GEN_FUNC1( JumpHere, lEndPos );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseNot )
{
switch( iMessage )
{
case HB_EA_REDUCE:
{
HB_EXPR_PTR pExpr;
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pExpr = pSelf->value.asOperator.pLeft;
if( pExpr->ExprType == HB_ET_LOGICAL )
{
pExpr->value.asLogical = ! pExpr->value.asLogical;
pSelf->ExprType = HB_ET_NONE; /* do not delete operator parameter - we are still using it */
HB_COMP_EXPR_DELETE( pSelf );
pSelf = pExpr;
}
else if( pExpr->ExprType == HB_EO_NOT && HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
pExpr->ExprType = HB_ET_NONE; /* do not delete operator parameter - we are still using it */
pExpr = pExpr->value.asOperator.pLeft;
HB_COMP_EXPR_DELETE( pSelf );
pSelf = pExpr;
}
break;
}
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
hb_compErrorIndex( HB_COMP_PARAM, pSelf );
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_NOT );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseEqual )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceEQ( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_EQUAL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
/* handler for == operator
*/
static HB_EXPR_FUNC( hb_compExprUseEQ )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceEQ( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_EXACTLYEQUAL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseLT )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceLT( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_LESS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseGT )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceGT( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_GREATER );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseLE )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceLE( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_LESSEQUAL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseGE )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceGE( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_GREATEREQUAL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseNE )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceNE( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_NOTEQUAL );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseIN )
{
switch( iMessage )
{
case HB_EA_REDUCE:
{
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceIN( pSelf, HB_COMP_PARAM );
}
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_INSTRING );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePlus )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReducePlus( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
#if defined( HB_ADD_SUB_ONE_OPT )
if( HB_SUPPORT_HARBOUR )
{
HB_EXPR_PTR pLeft, pRight;
pLeft = pSelf->value.asOperator.pLeft;
pRight = pSelf->value.asOperator.pRight;
if( pLeft->ExprType == HB_ET_NUMERIC )
{
if( pLeft->value.asNum.NumType == HB_ET_LONG ?
pLeft->value.asNum.val.l == 1 :
pLeft->value.asNum.val.d == 1 )
{
HB_EXPR_USE( pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_INC );
break;
}
else if( pLeft->value.asNum.NumType == HB_ET_LONG ?
pLeft->value.asNum.val.l == -1 :
pLeft->value.asNum.val.d == -1 )
{
HB_EXPR_USE( pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DEC );
break;
}
}
else if( pRight->ExprType == HB_ET_NUMERIC )
{
if( pRight->value.asNum.NumType == HB_ET_LONG ?
pRight->value.asNum.val.l == 1 :
pRight->value.asNum.val.d == 1 )
{
HB_EXPR_USE( pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_INC );
break;
}
else if( pRight->value.asNum.NumType == HB_ET_LONG ?
pRight->value.asNum.val.l == -1 :
pRight->value.asNum.val.d == -1 )
{
HB_EXPR_USE( pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DEC );
break;
}
}
}
#endif
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_PLUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMinus )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceMinus( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
#if defined( HB_ADD_SUB_ONE_OPT )
if( HB_SUPPORT_HARBOUR )
{
HB_EXPR_PTR pRight = pSelf->value.asOperator.pRight;
if( pRight->ExprType == HB_ET_NUMERIC )
{
if( pRight->value.asNum.NumType == HB_ET_LONG ?
pRight->value.asNum.val.l == 1 :
pRight->value.asNum.val.d == 1 )
{
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DEC );
break;
}
else if( pRight->value.asNum.NumType == HB_ET_LONG ?
pRight->value.asNum.val.l == -1 :
pRight->value.asNum.val.d == -1 )
{
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_INC );
break;
}
}
}
#endif
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_MINUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMult )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceMult( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_MULT );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseDiv )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceDiv( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DIVIDE );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseMod )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf->value.asOperator.pRight = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf =hb_compExprReduceMod( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_MODULUS );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePower )
{
switch( iMessage )
{
case HB_EA_REDUCE: /* Clipper doesn't optimize it */
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POWER );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
HB_EXPR_PCODE1( hb_compExprDelOperator, pSelf );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUseNegate )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
pSelf = hb_compExprReduceNegate( pSelf, HB_COMP_PARAM );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_NEGATE );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
if( HB_SUPPORT_HARBOUR )
{
/* NOTE: This will not generate a runtime error if incompatible
* data type is used
*/
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_POP );
}
else
{
HB_EXPR_USE( pSelf, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
break;
case HB_EA_STATEMENT:
HB_COMP_ERROR_SYNTAX( pSelf );
break;
case HB_EA_DELETE:
if( pSelf->value.asOperator.pLeft )
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePreInc )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushPreOp, pSelf, HB_P_INC );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUsePreOp, pSelf, HB_P_INC );
break;
case HB_EA_DELETE:
if( pSelf->value.asOperator.pLeft )
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
static HB_EXPR_FUNC( hb_compExprUsePreDec )
{
switch( iMessage )
{
case HB_EA_REDUCE:
pSelf->value.asOperator.pLeft = hb_compExprListStrip( HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_REDUCE ), HB_COMP_PARAM );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_LVALUE );
break;
case HB_EA_ARRAY_AT:
HB_COMP_ERROR_TYPE( pSelf );
break;
case HB_EA_ARRAY_INDEX:
break;
case HB_EA_LVALUE:
hb_compErrorLValue( HB_COMP_PARAM, pSelf );
break;
case HB_EA_PUSH_PCODE:
HB_EXPR_PCODE2( hb_compExprPushPreOp, pSelf, HB_P_DEC );
break;
case HB_EA_POP_PCODE:
break;
case HB_EA_PUSH_POP:
case HB_EA_STATEMENT:
HB_EXPR_PCODE2( hb_compExprUsePreOp, pSelf, HB_P_DEC );
break;
case HB_EA_DELETE:
if( pSelf->value.asOperator.pLeft )
HB_COMP_EXPR_DELETE( pSelf->value.asOperator.pLeft );
break;
}
return pSelf;
}
/* ************************************************************************* */
/* This generates a push pcode for a codeblock (with no macro expression or
with late evaluation of a macro)
*/
#if defined( HB_MACRO_SUPPORT )
static void hb_compExprCodeblockPush( HB_EXPR_PTR pSelf, HB_COMP_DECL )
#else
static void hb_compExprCodeblockPush( HB_EXPR_PTR pSelf, BOOL bLateEval, HB_COMP_DECL )
#endif
{
HB_EXPR_PTR pExpr, pNext;
HB_EXPR_PTR * pPrev;
/* Define requested local variables
*/
#if defined( HB_MACRO_SUPPORT )
hb_macroCodeBlockStart( HB_COMP_PARAM );
HB_PCODE_DATA->pLocals = pSelf->value.asCodeblock.pLocals;
HB_PCODE_DATA->fVParams =
( pSelf->value.asCodeblock.flags & HB_BLOCK_VPARAMS ) != 0;
#else
hb_compCodeBlockStart( HB_COMP_PARAM, bLateEval );
HB_COMP_PARAM->functions.pLast->fVParams =
( pSelf->value.asCodeblock.flags & HB_BLOCK_VPARAMS ) != 0;
{
HB_CBVAR_PTR pVar;
HB_COMP_PARAM->iVarScope = VS_PARAMETER;
pVar = pSelf->value.asCodeblock.pLocals;
while( pVar )
{
hb_compVariableAdd( HB_COMP_PARAM, pVar->szName, pVar->bType );
pVar =pVar->pNext;
}
}
HB_EXPR_PCODE0( hb_compLinePushIfDebugger );
#endif
pExpr = pSelf->value.asCodeblock.pExprList;
pPrev = &pSelf->value.asCodeblock.pExprList;
while( pExpr )
{
if( pExpr->ExprType == HB_ET_MACRO &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_SYMBOL &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_REFER &&
pExpr->value.asMacro.SubType != HB_ET_MACRO_ALIASED )
{
/* Clipper allows for list expressions in a codeblock
* macro := "1,2"
* EVAL( {|| &macro} )
*/
pExpr->value.asMacro.SubType |= HB_ET_MACRO_PARE;
}
/* store next expression in case the current will be reduced
* NOTE: During reduction the expression can be replaced by the
* new one - this will break the linked list of expressions.
*/
pNext = pExpr->pNext; /* store next expression in case the current will be reduced */
pExpr = HB_EXPR_USE( pExpr, HB_EA_REDUCE );
/* Generate push/pop pcodes for all expresions except the last one
* The value of the last expression is used as a return value
* of a codeblock evaluation
*/
/* NOTE: This will genereate warnings if constant value is
* used as an expression - some operators will generate it too
* e.g.
* EVAL( {|| 3+5, func()} )
*/
*pPrev = pExpr; /* store a new expression into the previous one */
pExpr->pNext = pNext; /* restore the link to next expression */
#if defined( HB_MACRO_SUPPORT )
if( pNext )
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
else
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
#else
if( pNext && bLateEval )
HB_EXPR_USE( pExpr, HB_EA_PUSH_POP );
else
HB_EXPR_USE( pExpr, HB_EA_PUSH_PCODE );
#endif
pPrev = &pExpr->pNext;
pExpr = pNext;
}
#if defined( HB_MACRO_SUPPORT )
hb_macroCodeBlockEnd( HB_COMP_PARAM );
#else
if( bLateEval )
hb_compCodeBlockEnd( HB_COMP_PARAM );
else
hb_compCodeBlockRewind( HB_COMP_PARAM );
#endif
}
/* This generates a push pcode for early evaluation of a macro
*/
#if !defined(HB_MACRO_SUPPORT)
static void hb_compExprCodeblockExtPush( HB_EXPR_PTR pSelf, HB_COMP_DECL )
{
hb_compGenPCodeN( ( BYTE * ) pSelf->value.asCodeblock.string,
pSelf->ulLength, HB_COMP_PARAM );
}
static void hb_compExprCodeblockEarly( HB_EXPR_PTR pSelf, HB_COMP_DECL )
{
HB_EXPR_PTR pExpr;
/* check first expression */
pExpr = pSelf->value.asCodeblock.pExprList;
if( pExpr->ExprType == HB_ET_MACRO && pExpr->value.asMacro.cMacroOp )
{
/* simple macro variable expansion: &variable
* 'szMacro' is a variable name
* {|| &variable} => &( '{||' + variable +'}' )
*/
HB_EXPR_PTR pVar, pNew;
pVar = hb_compExprNewVar( pExpr->value.asMacro.szMacro, HB_COMP_PARAM );
pNew = hb_compExprNewString( "{||", 3, FALSE, HB_COMP_PARAM );
pNew = hb_compExprSetOperand( hb_compExprNewPlus( pNew, HB_COMP_PARAM ), pVar, HB_COMP_PARAM );
pNew = hb_compExprSetOperand( hb_compExprNewPlus( pNew, HB_COMP_PARAM ), hb_compExprNewString( "}", 1, FALSE, HB_COMP_PARAM ), HB_COMP_PARAM );
pNew = hb_compExprNewMacro( pNew, 0, NULL, HB_COMP_PARAM );
HB_EXPR_USE( pNew, HB_EA_PUSH_PCODE );
HB_COMP_EXPR_DELETE( pNew );
}
else
{
/* everything else is macro compiled at runtime
* {|| &variable+1} => &( '{|| &variable+1}' )
*/
HB_EXPR_PTR pNew;
hb_compExprCodeblockPush( pSelf, FALSE, HB_COMP_PARAM );
pNew = hb_compExprNewMacro( hb_compExprNewString( pSelf->value.asCodeblock.string, pSelf->ulLength, FALSE, HB_COMP_PARAM ), 0, NULL, HB_COMP_PARAM );
HB_EXPR_USE( pNew, HB_EA_PUSH_PCODE );
HB_COMP_EXPR_DELETE( pNew );
hb_compCodeBlockStop( HB_COMP_PARAM );
}
}
#endif /*HB_MACRO_SUPPORT*/
static void hb_compExprPushSendPop( HB_EXPR_PTR pSelf, HB_COMP_DECL )
{
if( pSelf->value.asMessage.pObject )
{
/* Push _message */
if( pSelf->value.asMessage.szMessage )
{
HB_GEN_FUNC2( MessageData, pSelf->value.asMessage.szMessage, TRUE );
}
else
{
if( pSelf->value.asMessage.pMessage->ExprType == HB_ET_MACRO )
/* o:&macro := value
* set ASSIGN flag in macro expression
* it's cleared just after use
*/
pSelf->value.asMessage.pMessage->value.asMacro.SubType |= HB_ET_MACRO_ASSIGN;
HB_EXPR_USE( pSelf->value.asMessage.pMessage, HB_EA_PUSH_PCODE );
}
/* Push object */
HB_EXPR_USE( pSelf->value.asMessage.pObject, HB_EA_PUSH_PCODE );
}
else /* WITH OBJECT */
{
/* Push _message and object */
if( pSelf->value.asMessage.szMessage )
{
HB_GEN_FUNC2( MessageData, pSelf->value.asMessage.szMessage, FALSE );
}
else
{
if( pSelf->value.asMessage.pMessage->ExprType == HB_ET_MACRO )
/* o:&macro := value
* set ASSIGN flag in macro expression
* it's cleared just after use
*/
pSelf->value.asMessage.pMessage->value.asMacro.SubType |= HB_ET_MACRO_ASSIGN;
HB_EXPR_USE( pSelf->value.asMessage.pMessage, HB_EA_PUSH_PCODE );
/* Push object using WITHOBJECTMESSAGE pcode */
HB_GEN_FUNC2( Message, NULL, FALSE );
}
}
}
static void hb_compExprPushSendPush( HB_EXPR_PTR pSelf, HB_COMP_DECL )
{
if( pSelf->value.asMessage.pObject )
{
/* Push message */
if( pSelf->value.asMessage.szMessage )
{
HB_GEN_FUNC2( Message, pSelf->value.asMessage.szMessage, TRUE );
}
else
{
HB_EXPR_USE( pSelf->value.asMessage.pMessage, HB_EA_PUSH_PCODE );
}
/* Push object */
HB_EXPR_USE( pSelf->value.asMessage.pObject, HB_EA_PUSH_PCODE );
}
else /* WITH OBJECT */
{
if( pSelf->value.asMessage.szMessage )
{
/* Push message and object */
HB_GEN_FUNC2( Message, pSelf->value.asMessage.szMessage, FALSE );
}
else
{
/* Push message */
HB_EXPR_USE( pSelf->value.asMessage.pMessage, HB_EA_PUSH_PCODE );
/* Push object using WITHOBJECTMESSAGE pcode */
HB_GEN_FUNC2( Message, NULL, FALSE );
}
}
}
static void hb_compExprPushSendPopPush( HB_EXPR_PTR pObj, HB_EXPR_PTR pValue,
BOOL fPreOp, BYTE bOper, HB_COMP_DECL )
{
if( HB_SUPPORT_HARBOUR )
{
hb_compExprPushSendPop( pObj, HB_COMP_PARAM );
/* duplicate object variable */
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
/* Push message */
if( pObj->value.asMessage.szMessage )
{
/* TRUE used intnetionally to not push object variable in WITH OBJECT */
HB_GEN_FUNC2( Message, pObj->value.asMessage.szMessage, TRUE );
}
else
{
HB_EXPR_USE( pObj->value.asMessage.pMessage, HB_EA_PUSH_PCODE );
}
HB_GEN_FUNC2( PCode2, HB_P_SWAP, 0 );
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, 0 );
if( fPreOp )
{
/* push the result on the stack */
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
HB_GEN_FUNC2( PCode2, HB_P_SWAP, 2 );
}
}
else
{
if( fPreOp )
{
/* push current value - it will be a result of whole expression */
HB_EXPR_USE( pObj, HB_EA_PUSH_PCODE );
}
hb_compExprPushSendPop( pObj, HB_COMP_PARAM );
hb_compExprPushSendPush( pObj, HB_COMP_PARAM );
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, 0 );
}
/* push increment value */
if( pValue )
{
HB_EXPR_USE( pValue, HB_EA_PUSH_PCODE );
}
/* do operation */
HB_GEN_FUNC1( PCode1, bOper );
/* Now do the assignment - call pop message with one argument */
HB_GEN_FUNC2( PCode2, HB_P_SENDSHORT, 1 );
if( fPreOp )
{
/* pop the unneeded value left by assignment message from the stack */
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
}
/* Generates pcodes for compound operators += -= *= /= %= ^=
*
* pExpr is an expression created by hb_compExprNew<operator>Eq functions
*/
/* NOTE: COMPATIBILITY ISSUE:
* The HB_SUPPORT_HARBOUR in code below determines
* the way the chained send messages are handled.
* For example, the following code:
*
* a:b( COUNT() ):c += 1
*
* will be handled as:
*
* a:b( COUNT() ):c := a:b( COUNT() ):c + 1
*
* in strict Clipper compatibility mode
* (HB_SUPPORT_HARBOUR is not set: -kc compiler switch ) and
*
* temp := a:b( COUNT() ), temp:c += 1
*
* in non-strict mode (-kh).
* In practice in Clipper it will call COUNT() function two times: the
* first time before addition and the second one after addition - in Harbour,
* COUNT() function will be called only once, before addition.
* The Harbour (non-strict) method is:
* 1) faster
* 2) it guarantees that the same instance variable of the same object will
* be changed
*/
static void hb_compExprPushOperEq( HB_EXPR_PTR pSelf, BYTE bOpEq, HB_COMP_DECL )
{
BYTE bNewOp;
if( HB_SUPPORT_HARBOUR )
{
switch( bOpEq )
{
case HB_P_PLUS:
bNewOp = HB_P_PLUSEQ;
break;
case HB_P_MINUS:
bNewOp = HB_P_MINUSEQ;
break;
case HB_P_MULT:
bNewOp = HB_P_MULTEQ;
break;
case HB_P_DIVIDE:
bNewOp = HB_P_DIVEQ;
break;
case HB_P_MODULUS:
bNewOp = HB_P_MODEQ;
break;
case HB_P_POWER:
bNewOp = HB_P_EXPEQ;
break;
default:
bNewOp = bOpEq;
break;
}
}
else
bNewOp = bOpEq;
/* NOTE: an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
if( pSelf->value.asOperator.pLeft->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asOperator.pLeft );
}
#ifdef HB_USE_OBJMSG_REF
else if( bOpEq != bNewOp )
{
hb_compExprPushSendPop( pSelf->value.asOperator.pLeft, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
/* push increment value */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
}
#endif
else
{
hb_compExprPushSendPopPush( pSelf->value.asOperator.pLeft,
pSelf->value.asOperator.pRight,
FALSE, bOpEq, HB_COMP_PARAM );
}
return;
}
else if( bOpEq != bNewOp )
{
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_MACRO )
{
USHORT usType = pSelf->value.asOperator.pLeft->value.asMacro.SubType;
if( usType == HB_ET_MACRO_VAR )
{
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
pSelf->value.asOperator.pLeft->value.asMacro.SubType = usType;
return;
}
}
#ifdef HB_USE_ARRAYAT_REF
/* NOTE: code for arrays is differ to correctly handle a[ i++ ]++ */
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_ARRAYAT )
{
/* Note: change type to array reference */
pSelf->value.asOperator.pLeft->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asList.reference = FALSE;
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
return;
}
#endif
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_VARIABLE )
{
#if defined( HB_MACRO_SUPPORT )
{
#else
int iVar, iScope;
hb_compVariableFind( HB_COMP_PARAM, pSelf->value.asOperator.pLeft->value.asSymbol, &iVar, &iScope );
if( iScope != HB_VS_LOCAL_FIELD && iScope != HB_VS_GLOBAL_FIELD &&
iScope != HB_VS_UNDECLARED )
{
if( iScope == HB_VS_LOCAL_VAR &&
pSelf->value.asOperator.pRight->ExprType == HB_ET_NUMERIC &&
( bOpEq == HB_P_PLUS || bOpEq == HB_P_MINUS ) )
{
if( hb_compExprIsInteger( pSelf->value.asOperator.pRight ) )
{
short iIncrement = ( short ) pSelf->value.asOperator.pRight->value.asNum.val.l;
if( bOpEq != HB_P_MINUS || iIncrement >= -INT16_MAX )
{
BYTE buffer[ 5 ];
if( bOpEq == HB_P_MINUS )
iIncrement = -iIncrement;
buffer[ 0 ] = HB_P_LOCALADDINT;
buffer[ 1 ] = HB_LOBYTE( iVar );
buffer[ 2 ] = HB_HIBYTE( iVar );
buffer[ 3 ] = HB_LOBYTE( iIncrement );
buffer[ 4 ] = HB_HIBYTE( iIncrement );
HB_GEN_FUNC2( PCodeN, buffer, 5 );
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
return;
}
}
}
#endif
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
return;
}
}
}
/* push old value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
/* push increment value */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
/* perform operation and duplicate the new value */
HB_GEN_FUNC1( PCode1, bOpEq );
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
/* pop the new value into variable and leave the copy on the stack */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
/* Generates pcodes for <operator>= syntax
* used standalone as a statement (it cannot leave the value on the stack)
*/
static void hb_compExprUseOperEq( HB_EXPR_PTR pSelf, BYTE bOpEq, HB_COMP_DECL )
{
BYTE bNewOp;
if( HB_SUPPORT_HARBOUR )
{
switch( bOpEq )
{
case HB_P_PLUS:
bNewOp = HB_P_PLUSEQPOP;
break;
case HB_P_MINUS:
bNewOp = HB_P_MINUSEQPOP;
break;
case HB_P_MULT:
bNewOp = HB_P_MULTEQPOP;
break;
case HB_P_DIVIDE:
bNewOp = HB_P_DIVEQPOP;
break;
case HB_P_MODULUS:
bNewOp = HB_P_MODEQPOP;
break;
case HB_P_POWER:
bNewOp = HB_P_EXPEQPOP;
break;
default:
bNewOp = bOpEq;
break;
}
}
else
bNewOp = bOpEq;
/* NOTE: an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
if( pSelf->value.asOperator.pLeft->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asOperator.pLeft );
}
#ifdef HB_USE_OBJMSG_REF
else if( bOpEq != bNewOp )
{
hb_compExprPushSendPop( pSelf->value.asOperator.pLeft, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
/* push increment value */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
}
#endif
else
{
hb_compExprPushSendPopPush( pSelf->value.asOperator.pLeft,
pSelf->value.asOperator.pRight,
FALSE, bOpEq, HB_COMP_PARAM );
/* pop the unneeded value from the stack */
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
return;
}
else if( bOpEq != bNewOp )
{
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_MACRO )
{
USHORT usType = pSelf->value.asOperator.pLeft->value.asMacro.SubType;
if( usType == HB_ET_MACRO_VAR )
{
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
pSelf->value.asOperator.pLeft->value.asMacro.SubType = usType;
return;
}
}
#ifdef HB_USE_ARRAYAT_REF
/* NOTE: code for arrays is differ to correctly handle a[ i++ ]++ */
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_ARRAYAT )
{
/* Note: change type to array reference */
pSelf->value.asOperator.pLeft->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asList.reference = FALSE;
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
return;
}
#endif
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_VARIABLE )
{
HB_EXPRTYPE iOldType;
#if defined( HB_MACRO_SUPPORT )
{
#else
int iVar, iScope;
hb_compVariableFind( HB_COMP_PARAM, pSelf->value.asOperator.pLeft->value.asSymbol, &iVar, &iScope );
if( iScope != HB_VS_LOCAL_FIELD && iScope != HB_VS_GLOBAL_FIELD &&
iScope != HB_VS_UNDECLARED )
{
if( iScope == HB_VS_LOCAL_VAR &&
pSelf->value.asOperator.pRight->ExprType == HB_ET_NUMERIC &&
( bOpEq == HB_P_PLUS || bOpEq == HB_P_MINUS ) )
{
if( hb_compExprIsInteger( pSelf->value.asOperator.pRight ) )
{
short iIncrement = ( short ) pSelf->value.asOperator.pRight->value.asNum.val.l;
if( bOpEq != HB_P_MINUS || iIncrement >= -INT16_MAX )
{
BYTE buffer[ 5 ];
if( bOpEq == HB_P_MINUS )
iIncrement = -iIncrement;
buffer[ 0 ] = HB_P_LOCALADDINT;
buffer[ 1 ] = HB_LOBYTE( iVar );
buffer[ 2 ] = HB_HIBYTE( iVar );
buffer[ 3 ] = HB_LOBYTE( iIncrement );
buffer[ 4 ] = HB_HIBYTE( iIncrement );
HB_GEN_FUNC2( PCodeN, buffer, 5 );
return;
}
}
}
#endif
/* NOTE: direct type change */
iOldType = pSelf->value.asOperator.pLeft->ExprType;
pSelf->value.asOperator.pLeft->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, bNewOp );
pSelf->value.asOperator.pLeft->ExprType = iOldType;
return;
}
}
}
/* push old value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
/* push increment value */
HB_EXPR_USE( pSelf->value.asOperator.pRight, HB_EA_PUSH_PCODE );
/* add */
HB_GEN_FUNC1( PCode1, bOpEq );
/* pop the new value into variable and remove it from the stack */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
/* Generates the pcodes for pre- increment/decrement expressions
*/
static void hb_compExprPushPreOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL )
{
/* NOTE: an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
if( pSelf->value.asOperator.pLeft->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asOperator.pLeft );
}
#ifdef HB_USE_OBJMSG_REF
else if( HB_SUPPORT_HARBOUR )
{
hb_compExprPushSendPop( pSelf->value.asOperator.pLeft, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
/* increase/decrease operation, leave unreferenced value on stack */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQ : HB_P_DECEQ );
}
#endif
else
{
hb_compExprPushSendPopPush( pSelf->value.asOperator.pLeft, NULL,
FALSE, bOper, HB_COMP_PARAM );
}
return;
}
else if( HB_SUPPORT_HARBOUR )
{
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_MACRO &&
pSelf->value.asOperator.pLeft->value.asMacro.SubType == HB_ET_MACRO_VAR )
{
USHORT usType = pSelf->value.asOperator.pLeft->value.asMacro.SubType;
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asMacro.SubType = usType;
/* increase/decrease operation, leave unreferenced value on stack */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQ : HB_P_DECEQ );
return;
}
#ifdef HB_USE_ARRAYAT_REF
/* NOTE: code for arrays is differ to correctly handle a[ i++ ]++ */
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_ARRAYAT )
{
/* push reference to current value */
/* Note: change type to array reference */
pSelf->value.asOperator.pLeft->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asList.reference = FALSE;
/* increase/decrease operation, leave unreferenced value on stack */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQ : HB_P_DECEQ );
return;
}
#endif
#if !defined( HB_MACRO_SUPPORT )
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_VARIABLE )
{
int iVar, iScope;
hb_compVariableFind( HB_COMP_PARAM, pSelf->value.asOperator.pLeft->value.asSymbol, &iVar, &iScope );
if( iScope != HB_VS_LOCAL_FIELD && iScope != HB_VS_GLOBAL_FIELD &&
iScope != HB_VS_UNDECLARED )
{
if( iScope == HB_VS_LOCAL_VAR )
{
if( bOper == HB_P_INC )
{
HB_GEN_FUNC3( PCode3, HB_P_LOCALINCPUSH, HB_LOBYTE( iVar ), HB_HIBYTE( iVar ) );
}
else
{
HB_GEN_FUNC3( PCode3, HB_P_LOCALDEC, HB_LOBYTE( iVar ), HB_HIBYTE( iVar ) );
/* Push current value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
}
}
else
{
/* NOTE: direct type change */
HB_EXPRTYPE iOldType = pSelf->value.asOperator.pLeft->ExprType;
pSelf->value.asOperator.pLeft->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQ : HB_P_DECEQ );
pSelf->value.asOperator.pLeft->ExprType = iOldType;
}
return;
}
}
#endif
}
/* Push current value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
/* Increment */
HB_GEN_FUNC1( PCode1, bOper );
/* duplicate a value */
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
/* pop new value and leave the duplicated copy of it on the stack */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
/* Generates the pcodes for post- increment/decrement expressions
*/
static void hb_compExprPushPostOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL )
{
/* NOTE: an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
if( pSelf->value.asOperator.pLeft->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asOperator.pLeft );
}
#ifdef HB_USE_OBJMSG_REF
else if( HB_SUPPORT_HARBOUR )
{
/* push reference to current value */
hb_compExprPushSendPop( pSelf->value.asOperator.pLeft, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
/* Duplicate the reference and unref the original one -
* it will be the result of whole expression
*/
HB_GEN_FUNC1( PCode1, HB_P_DUPLUNREF );
/* increment/decrement the value */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
}
#endif
else
{
hb_compExprPushSendPopPush( pSelf->value.asOperator.pLeft, NULL,
TRUE, bOper, HB_COMP_PARAM );
}
return;
}
else if( HB_SUPPORT_HARBOUR )
{
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_MACRO &&
pSelf->value.asOperator.pLeft->value.asMacro.SubType == HB_ET_MACRO_VAR )
{
USHORT usType = pSelf->value.asOperator.pLeft->value.asMacro.SubType;
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asMacro.SubType = usType;
/* Duplicate the reference and unref the original one -
* it will be the result of whole expression
*/
HB_GEN_FUNC1( PCode1, HB_P_DUPLUNREF );
/* increase/decrease operation */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
return;
}
#ifdef HB_USE_ARRAYAT_REF
/* NOTE: code for arrays is differ to correctly handle a[ i++ ]++ */
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_ARRAYAT )
{
/* push reference to current value */
/* Note: change type to array reference */
pSelf->value.asOperator.pLeft->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asList.reference = FALSE;
/* Duplicate the reference and unref the original one -
* it will be the result of whole expression
*/
HB_GEN_FUNC1( PCode1, HB_P_DUPLUNREF );
/* increase/decrease operation */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
return;
}
#endif
#if !defined( HB_MACRO_SUPPORT )
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_VARIABLE )
{
int iVar, iScope;
hb_compVariableFind( HB_COMP_PARAM, pSelf->value.asOperator.pLeft->value.asSymbol, &iVar, &iScope );
if( iScope != HB_VS_LOCAL_FIELD && iScope != HB_VS_GLOBAL_FIELD &&
iScope != HB_VS_UNDECLARED )
{
if( iScope == HB_VS_LOCAL_VAR )
{
/* Push current value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC3( PCode3, ( bOper == HB_P_INC ) ? HB_P_LOCALINC : HB_P_LOCALDEC,
HB_LOBYTE( iVar ), HB_HIBYTE( iVar ) );
}
else
{
/* NOTE: direct type change */
HB_EXPRTYPE iOldType = pSelf->value.asOperator.pLeft->ExprType;
pSelf->value.asOperator.pLeft->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, HB_P_DUPLUNREF );
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
pSelf->value.asOperator.pLeft->ExprType = iOldType;
}
return;
}
}
#endif
}
/* Push current value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
/* Duplicate value */
HB_GEN_FUNC1( PCode1, HB_P_DUPLICATE );
/* Increment */
HB_GEN_FUNC1( PCode1, bOper );
/* pop new value from the stack */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
/* Generates the pcodes for increment/decrement operations
* used standalone as a statement
*/
static void hb_compExprUsePreOp( HB_EXPR_PTR pSelf, BYTE bOper, HB_COMP_DECL )
{
/* NOTE: an object instance variable needs special handling
*/
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_SEND )
{
if( pSelf->value.asOperator.pLeft->value.asMessage.pParms )
{
hb_compErrorLValue( HB_COMP_PARAM, pSelf->value.asOperator.pLeft );
}
#ifdef HB_USE_OBJMSG_REF
else if( HB_SUPPORT_HARBOUR )
{
/* push reference to current value */
hb_compExprPushSendPop( pSelf->value.asOperator.pLeft, HB_COMP_PARAM );
HB_GEN_FUNC1( PCode1, HB_P_PUSHOVARREF );
/* increment/decrement the value */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
}
#endif
else
{
hb_compExprPushSendPopPush( pSelf->value.asOperator.pLeft, NULL,
FALSE, bOper, HB_COMP_PARAM );
/* pop the value from the stack */
HB_GEN_FUNC1( PCode1, HB_P_POP );
}
return;
}
else if( HB_SUPPORT_HARBOUR )
{
if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_MACRO &&
pSelf->value.asOperator.pLeft->value.asMacro.SubType == HB_ET_MACRO_VAR )
{
USHORT usType = pSelf->value.asOperator.pLeft->value.asMacro.SubType;
/* NOTE: direct type change */
pSelf->value.asOperator.pLeft->value.asMacro.SubType = HB_ET_MACRO_REFER;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asMacro.SubType = usType;
/* increase/decrease operation */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
return;
}
#ifdef HB_USE_ARRAYAT_REF
/* NOTE: code for arrays is differ to correctly handle a[ i++ ]++ */
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_ARRAYAT )
{
/* push reference to current value */
/* Note: change type to array reference */
pSelf->value.asOperator.pLeft->value.asList.reference = TRUE;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
pSelf->value.asOperator.pLeft->value.asList.reference = FALSE;
/* increase/decrease operation */
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
return;
}
#endif
#if !defined( HB_MACRO_SUPPORT )
else if( pSelf->value.asOperator.pLeft->ExprType == HB_ET_VARIABLE )
{
int iVar, iScope;
hb_compVariableFind( HB_COMP_PARAM, pSelf->value.asOperator.pLeft->value.asSymbol, &iVar, &iScope );
if( iScope != HB_VS_LOCAL_FIELD && iScope != HB_VS_GLOBAL_FIELD &&
iScope != HB_VS_UNDECLARED )
{
if( iScope == HB_VS_LOCAL_VAR )
{
HB_GEN_FUNC3( PCode3, ( bOper == HB_P_INC ) ? HB_P_LOCALINC : HB_P_LOCALDEC,
HB_LOBYTE( iVar ), HB_HIBYTE( iVar ) );
}
else
{
/* NOTE: direct type change */
HB_EXPRTYPE iOldType = pSelf->value.asOperator.pLeft->ExprType;
pSelf->value.asOperator.pLeft->ExprType = HB_ET_VARREF;
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
HB_GEN_FUNC1( PCode1, ( bOper == HB_P_INC ) ? HB_P_INCEQPOP : HB_P_DECEQPOP );
pSelf->value.asOperator.pLeft->ExprType = iOldType;
}
return;
}
}
#endif
}
/* Push current value */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_PUSH_PCODE );
/* Increment */
HB_GEN_FUNC1( PCode1, bOper );
/* pop new value from the stack */
HB_EXPR_USE( pSelf->value.asOperator.pLeft, HB_EA_POP_PCODE );
}
/* Generate pcode for aliased expression which contains macro operator on
* the left or right side of the alias operator
* expression->&macro or &macro->expression or &macro->&macro
*/
static void hb_compExprUseAliasMacro( HB_EXPR_PTR pAliasedVar, BYTE bAction, HB_COMP_DECL )
{
HB_EXPR_PTR pAlias, pVar;
/* Alias->Var
*/
pAlias = pAliasedVar->value.asAlias.pAlias;
pVar = pAliasedVar->value.asAlias.pVar;
if( pAlias->ExprType == HB_ET_ALIAS )
{
/* database alias */
/* Push alias identifier as string so it can be joined with
* variable at runtime
* NOTE:
* ALIAS->&var is the same as &( "ALIAS->" + var )
*
*/
HB_GEN_FUNC2( PushString, pAlias->value.asSymbol, strlen( pAlias->value.asSymbol ) + 1 );
HB_EXPR_USE( pVar, HB_EA_PUSH_PCODE );
if( bAction == HB_EA_PUSH_PCODE )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHALIASED );
else
HB_GEN_FUNC1( PCode1, HB_P_MACROPOPALIASED );
}
else if( pVar->ExprType == HB_ET_VARIABLE )
{
/* NOTE:
* &macro->var is the same as: &( macro + "->var" )
*/
HB_EXPR_USE( pAlias, HB_EA_PUSH_PCODE );
HB_GEN_FUNC2( PushString, pVar->value.asSymbol, strlen( pVar->value.asSymbol ) + 1 );
if( bAction == HB_EA_PUSH_PCODE )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHALIASED );
else
HB_GEN_FUNC1( PCode1, HB_P_MACROPOPALIASED );
}
else
{
HB_EXPR_USE( pAlias, HB_EA_PUSH_PCODE );
HB_EXPR_USE( pVar, HB_EA_PUSH_PCODE );
if( bAction == HB_EA_PUSH_PCODE )
HB_GEN_FUNC1( PCode1, HB_P_MACROPUSHALIASED );
else
HB_GEN_FUNC1( PCode1, HB_P_MACROPOPALIASED );
}
/* Always add byte to pcode indicating requested macro compiler flag. */
HB_GEN_FUNC1( PCode1, HB_MACRO_GENFLAGS );
}
/* Reduces the list of expressions
*
* pExpr is the first expression on the list
*/
static ULONG hb_compExprReduceList( HB_EXPR_PTR pExpr, HB_COMP_DECL )
{
HB_EXPR_PTR pNext;
HB_EXPR_PTR * pPrev;
ULONG ulCnt = 0;
/* NOTE: During optimalization an expression on the list can be
* replaced by the new one
*/
pPrev = &pExpr->value.asList.pExprList;
pExpr = pExpr->value.asList.pExprList;
while( pExpr )
{
pNext = pExpr->pNext; /* store next expression in case the current will be reduced */
pExpr = HB_EXPR_USE( pExpr, HB_EA_REDUCE );
*pPrev = pExpr; /* store a new expression into the previous one */
pExpr->pNext = pNext; /* restore the link to next expression */
pPrev = &pExpr->pNext;
pExpr = pNext;
++ulCnt;
}
return ulCnt;
}
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