fivedev/harbour-core
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
f22f0403358b9fbf48b83f4d9fa85b6400adfd08
harbour-core/harbour/source/vm/classes.c
Przemyslaw Czerpak f22f040335 2006-09-15 13:25 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/include/hbvm.h
  * harbour/source/vm/classes.c
  * harbour/source/vm/hvm.c
    + added hb_vmRequestReenter() and hb_vmRequestRestore()
    + added executing destructors when some exception is active
      I forgot about it in previous commit.

  + harbour/tests/destruct.prg
    + added example/test code for object destructors
2006-09-15 11:28:48 +00:00

3385 lines
102 KiB
C
Raw Blame History

/*
* $Id$
*/
/*
* Harbour Project source code:
* Base-routines for OOPS system
*
* Copyright 1999 Antonio Linares <alinares@fivetech.com>
* 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.
*
*/
/*
* The following parts are Copyright of the individual authors.
* www - http://www.harbour-project.org
*
* Copyright 1999 Eddie Runia <eddie@runia.com>
* :CLASSSEL()
* __clsDelMsg()
* __clsModMsg()
* __clsInstSuper()
* __cls_CntClsData()
* __cls_CntData()
* __cls_DecData()
* __cls_IncData()
* __objClone()
* __objHasMsg()
* __objSendMsg()
*
* Copyright 1999-2001 Viktor Szakats <viktor.szakats@syenar.hu>
* hb___msgEval()
* __CLASSNEW()
* __CLASSINSTANCE()
* __CLASSADD()
* __CLASSNAME()
* __CLASSSEL() (based on hb___msgClsSel())
*
* Copyright 1999 Janica Lubos <janica@fornax.elf.stuba.sk>
* hb_clsDictRealloc()
*
* Copyright 2000 ( ->07/2000 ) JF. Lefebvre <jfl@mafact.com> & RA. Cuylen <cakiral@altern.org
* Multiple inheritence fully implemented
* Forwarding, delegating
* Data initialisation & Autoinit for Bool and Numeric
* Scoping : Protected / exported
*
* Copyright 2000 ( 08/2000-> ) JF. Lefebvre <jfl@mafact.com>
* hb_clsDictRealloc() New version
* Now support of shared and not shared class data
* Multiple datas declaration fully supported
*
* 2000 RGlab
* Garbage collector fixe
*
* Copyright 2001 JF. Lefebvre <jfl@mafact.com>
* Super msg corrected
* Scoping : working for protected, hidden and readonly
* To Many enhancement and correction to give a full list :-)
* Improved class(y) compatibility
* Improved TopClass compatibility
* __CLS_PAR00() (Allow the creation of class wich not autoinherit of the default HBObject)
* Adding HB_CLS_ENFORCERO FLAG to disable Write access to RO VAR
* outside of Constructors /!\ Could be related to some incompatibility
* Added hb_objGetRealClsName to keep a full class tree ( for 99% cases )
* Fixed hb_clsIsParent
*
*
* hb_objGetMthd() & __CLSADDMSG modified to translate the followings operators
*
"+" = __OpPlus
"-" = __OpMinus
"*" = __OpMult
"/" = __OpDivide
"%" = __OpMod
"^" = __OpPower
"**" = __OpPower
"++" = __OpInc
"--" = __OpDec
"==" = __OpEqual
"=" = __OpEqual (same as "==")
"!=" = __OpNotEqual
"<>" = __OpNotEqual (same as "!=")
"#" = __OpNotEqual (same as "!=")
"<" = __OpLess
"<=" = __OpLessEqual
">" = __OpGreater
">=" = __OpGreaterEqual
"$" = __OpInstring
"!" = __OpNot
".NOT." = __OpNot (same as "!")
".AND." = __OpAnd
".OR." = __OpOr
":=" = __OpAssign ... not tested ...
"[]" = __OpArrayIndex
*
*
* See doc/license.txt for licensing terms.
*
*/
#include "hbvmopt.h"
#include "hbapi.h"
#include "hbapicls.h"
#include "hbstack.h"
#include "hbapierr.h"
#include "hbapiitm.h"
#include "hbvm.h"
#include "hboo.ch"
#include <ctype.h> /* For toupper() */
/* DEBUG only*/
/* #include <windows.h> */
typedef struct
{
PHB_ITEM pInitValue; /* Init Value for data */
USHORT uiType; /* HB_OO_MSG_DATA, HB_OO_MSG_CLASSDATA or HB_OO_MSG_INITIALIZED */
USHORT uiData; /* Item position in instance area or class data */
USHORT uiOffset; /* Supper cast instance are offset */
USHORT uiSprClass; /* The real class where method were defined */
} INITDATA, * PINITDATA;
typedef struct
{
PHB_DYNS pMessage; /* Method symbolic name */
PHB_SYMB pFuncSym; /* Function symbol */
USHORT uiSprClass; /* Originalclass'handel (super or current class'handel if not herited). */ /*Added by RAC&JF*/
USHORT uiScope; /* Scoping value */
USHORT uiData; /* Item position for instance data or shared data (Harbour like, begin from 1) or supercast offset (from 0) */
USHORT uiOffset; /* position in pInitData for class datas (from 1) or offset to instance area in inherited instance data (from 0) */
#ifndef HB_NO_PROFILER
ULONG ulCalls; /* profiler support */
ULONG ulTime; /* profiler support */
ULONG ulRecurse; /* profiler support */
#endif
} METHOD, * PMETHOD;
typedef struct
{
char * szName; /* Class name */
PHB_DYNS pClassSym; /* Class symbolic name */
PMETHOD pMethods; /* Class methods */
PINITDATA pInitData; /* Class/instance Initialization data */
PHB_ITEM pClassDatas; /* Harbour Array for Class Datas */
PHB_ITEM pSharedDatas; /* Harbour Array for Class Shared Datas */
PHB_ITEM pInlines; /* Array for inline codeblocks */
PHB_SYMB pFunError; /* error handler for not defined messages */
PHB_SYMB pDestructor; /* destructor for not this class objects */
ULONG ulOpFlags; /* Flags for overloaded operators */
USHORT uiMethods; /* Total Method initialised Counter */
USHORT uiInitDatas; /* Total Method initialised Counter */
USHORT uiDatas; /* Total Data Counter */
USHORT uiDataFirst; /* First instance item from this class */
USHORT uiHashKey;
} CLASS, * PCLASS;
#define BUCKETBITS 2
#define BUCKETSIZE ( 1 << BUCKETBITS )
#define BUCKETMASK ( BUCKETSIZE - 1 )
#define HASHBITS 3
#define HASH_KEY ( ( 1 << HASHBITS ) - 1 )
#define HASH_KEYMAX ( 1 << ( 16 - BUCKETBITS ) )
#define hb_clsMthNum(p) ( ( ( ULONG ) (p)->uiHashKey + 1 ) << BUCKETBITS )
static HARBOUR hb___msgGetData( void );
static HARBOUR hb___msgSetData( void );
static HARBOUR hb___msgGetClsData( void );
static HARBOUR hb___msgSetClsData( void );
static HARBOUR hb___msgGetShrData( void );
static HARBOUR hb___msgSetShrData( void );
static HARBOUR hb___msgEvalInline( void );
static HARBOUR hb___msgVirtual( void );
static HARBOUR hb___msgSuper( void );
static HARBOUR hb___msgRealClass( void );
static HARBOUR hb___msgNoMethod( void );
static HARBOUR hb___msgScopeErr( void );
static HARBOUR hb___msgNull( void );
static HARBOUR hb___msgClsH( void );
static HARBOUR hb___msgClsName( void );
static HARBOUR hb___msgClsSel( void );
static HARBOUR hb___msgEval( void );
/* static HARBOUR hb___msgClass( void ); */
/* static HARBOUR hb___msgClsParent( void ); */
/*
* The positions of items in symbol table below have to correspond
* to HB_OO_OP_* constants in hbapicls.h, [druzus]
*/
static HB_SYMB s_opSymbols[ HB_OO_MAX_OPERATOR + 1 ] = {
{ "__OPPLUS", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 00 */
{ "__OPMINUS", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 01 */
{ "__OPMULT", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 02 */
{ "__OPDIVIDE", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 03 */
{ "__OPMOD", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 04 */
{ "__OPPOWER", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 05 */
{ "__OPINC", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 06 */
{ "__OPDEC", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 07 */
{ "__OPEQUAL", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 08 */
{ "__OPEXACTEQUAL", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 09 */
{ "__OPNOTEQUAL", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 10 */
{ "__OPLESS", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 11 */
{ "__OPLESSEQUAL", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 12 */
{ "__OPGREATER", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 13 */
{ "__OPGREATEREQUAL", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 14 */
{ "__OPADDIGN", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 15 */
{ "__OPINSTRING", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 16 */
{ "__OPNOT", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 17 */
{ "__OPAND", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 18 */
{ "__OPOR", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 19 */
{ "__OPARRAYINDEX", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 20 */
{ "__ENUMINDEX", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 21 */
{ "__ENUMBASE", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 22 */
{ "__ENUMVALUE", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 23 */
{ "__ENUMSTART", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 24 */
{ "__ENUMSKIP", {HB_FS_MESSAGE}, {NULL}, NULL }, /* 25 */
{ "__ENUMSTOP", {HB_FS_MESSAGE}, {NULL}, NULL } /* 26 */
};
static HB_SYMB s___msgDestructor = { "__msgDestructor", {HB_FS_MESSAGE}, {NULL}, NULL };
static HB_SYMB s___msgSetData = { "__msgSetData", {HB_FS_MESSAGE}, {hb___msgSetData}, NULL };
static HB_SYMB s___msgGetData = { "__msgGetData", {HB_FS_MESSAGE}, {hb___msgGetData}, NULL };
static HB_SYMB s___msgSetClsData = { "__msgSetClsData", {HB_FS_MESSAGE}, {hb___msgSetClsData}, NULL };
static HB_SYMB s___msgGetClsData = { "__msgGetClsData", {HB_FS_MESSAGE}, {hb___msgGetClsData}, NULL };
static HB_SYMB s___msgSetShrData = { "__msgSetShrData", {HB_FS_MESSAGE}, {hb___msgSetShrData}, NULL };
static HB_SYMB s___msgGetShrData = { "__msgGetShrData", {HB_FS_MESSAGE}, {hb___msgGetShrData}, NULL };
static HB_SYMB s___msgEvalInline = { "__msgEvalInline", {HB_FS_MESSAGE}, {hb___msgEvalInline}, NULL };
static HB_SYMB s___msgVirtual = { "__msgVirtual", {HB_FS_MESSAGE}, {hb___msgVirtual}, NULL };
static HB_SYMB s___msgSuper = { "__msgSuper", {HB_FS_MESSAGE}, {hb___msgSuper}, NULL };
static HB_SYMB s___msgRealClass = { "__RealClass", {HB_FS_MESSAGE}, {hb___msgRealClass}, NULL };
static HB_SYMB s___msgNoMethod = { "__msgNoMethod", {HB_FS_MESSAGE}, {hb___msgNoMethod}, NULL };
static HB_SYMB s___msgScopeErr = { "__msgScopeErr", {HB_FS_MESSAGE}, {hb___msgScopeErr}, NULL };
static HB_SYMB s___msgClassName = { "CLASSNAME", {HB_FS_MESSAGE}, {hb___msgClsName}, NULL };
static HB_SYMB s___msgClassH = { "CLASSH", {HB_FS_MESSAGE}, {hb___msgClsH}, NULL };
static HB_SYMB s___msgClassSel = { "CLASSSEL", {HB_FS_MESSAGE}, {hb___msgClsSel}, NULL };
static HB_SYMB s___msgEval = { "EVAL", {HB_FS_MESSAGE}, {hb___msgEval}, NULL };
static HB_SYMB s___msgExec = { "EXEC", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static HB_SYMB s___msgName = { "NAME", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static HB_SYMB s___msgNew = { "NAME", {HB_FS_MESSAGE}, {NULL}, NULL };
/*
static HB_SYMB s___msgClsParent = { "ISDERIVEDFROM", {HB_FS_MESSAGE}, {hb___msgClsParent}, NULL };
static HB_SYMB s___msgClass = { "CLASS", {HB_FS_MESSAGE}, {hb___msgClass}, NULL };
*/
/* Default enumerator methods (FOR EACH) */
static HB_SYMB s___msgEnumIndex = { "__ENUMINDEX", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static HB_SYMB s___msgEnumBase = { "__ENUMBASE", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static HB_SYMB s___msgEnumValue = { "__ENUMVALUE", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
/* WITH OBJECT base value access/asign methods (:__withobject) */
static HB_SYMB s___msgWithObjectPush = { "__WITHOBJECT", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static HB_SYMB s___msgWithObjectPop = { "___WITHOBJECT", {HB_FS_MESSAGE}, {hb___msgNull}, NULL };
static PCLASS s_pClasses = NULL;
static USHORT s_uiClasses = 0;
#ifdef HB_CLS_ENFORCERO
static PMETHOD hb_objGetpMethod( PHB_ITEM, PHB_SYMB );
#endif
/* ================================================ */
static USHORT hb_clsMsgBucket( PHB_DYNS pMsg, USHORT uiMask )
{
/*
* we can use PHB_DYNS address as base for hash key.
* This value is perfectly unique and we do not need anything more
* but it's not continuous so we will have to add dynamic BUCKETSIZE
* modification to be 100% sure that we can resolve all symbol name
* conflicts (though even without it it's rather theoretical problem).
* [druzus]
*/
/* Safely divide it by 16 - it's minimum memory allocated for single
* HB_DYNS structure
*/
/*
return ( ( USHORT ) ( ( HB_PTRDIFF ) pMsg >> 4 ) & uiMask ) << BUCKETBITS;
*/
/* Using continuous symbol numbers we are 100% sure that we will cover
* the whole 16bit area and we will never have any problems until number
* of symbols is limited to 2^16. [druzus]
*/
return ( pMsg->uiSymNum & uiMask ) << BUCKETBITS;
}
/*
* hb_clsDictRealloc( PCLASS )
*
* Realloc (widen) class
*/
static BOOL hb_clsDictRealloc( PCLASS pClass )
{
ULONG ulNewHashKey, ulLimit, ul;
PMETHOD pNewMethods;
HB_TRACE(HB_TR_DEBUG, ("hb_clsDictRealloc(%p)", pClass));
ulNewHashKey = ( ULONG ) pClass->uiHashKey + 1;
ulLimit = ulNewHashKey << BUCKETBITS;
do
{
ulNewHashKey <<= 1;
if( ulNewHashKey > HASH_KEYMAX )
{
hb_errInternal( 9999, "Not able to realloc classmessage! __clsDictRealloc", NULL, NULL );
return FALSE;
}
pNewMethods = ( PMETHOD ) hb_xgrab( ( ulNewHashKey << BUCKETBITS ) * sizeof( METHOD ) );
memset( pNewMethods, 0, ( ulNewHashKey << BUCKETBITS ) * sizeof( METHOD ) );
for( ul = 0; ul < ulLimit; ul++ )
{
PHB_DYNS pMessage = ( PHB_DYNS ) pClass->pMethods[ ul ].pMessage;
if( pMessage )
{
PMETHOD pMethod = pNewMethods + hb_clsMsgBucket( pMessage, ulNewHashKey - 1 );
USHORT uiBucket = BUCKETSIZE;
do
{
if( ! pMethod->pMessage ) /* this message position is empty */
{
memcpy( pMethod, pClass->pMethods + ul, sizeof( METHOD ) );
break;
}
++pMethod;
} while( --uiBucket );
/* Not enough go back to the beginning */
if( ! uiBucket )
{
hb_xfree( pNewMethods );
break;
}
}
}
}
while( ul < ulLimit );
pClass->uiHashKey = ( USHORT ) ( ulNewHashKey - 1 );
hb_xfree( pClass->pMethods );
pClass->pMethods = pNewMethods;
return TRUE;
}
static void hb_clsDictInit( PCLASS pClass, USHORT uiHashKey )
{
ULONG ulSize;
HB_TRACE(HB_TR_DEBUG, ("hb_clsDictInit(%p,%hu)", pClass, uiHashKey));
ulSize = ( ( ( ULONG ) uiHashKey + 1 ) << BUCKETBITS ) * sizeof( METHOD );
pClass->uiHashKey = uiHashKey;
pClass->pMethods = ( PMETHOD ) hb_xgrab( ulSize );
memset( pClass->pMethods, 0, ulSize );
}
static PMETHOD hb_clsFindMsg( PCLASS pClass, PHB_DYNS pMsg )
{
PMETHOD pMethod;
USHORT uiBucket;
HB_TRACE(HB_TR_DEBUG, ("hb_clsFindMsg(%p,%p)", pClass, pMsg));
pMethod = pClass->pMethods + hb_clsMsgBucket( pMsg, pClass->uiHashKey );
uiBucket = BUCKETSIZE;
do
{
if( pMethod->pMessage == pMsg )
return pMethod;
++pMethod;
}
while( --uiBucket );
return NULL;
}
static void hb_clsCopyClass( PCLASS pClsDst, PCLASS pClsSrc )
{
PMETHOD pMethod;
ULONG ulLimit;
HB_TRACE(HB_TR_DEBUG, ("hb_clsCopyClass(%p,%p)", pClsDst, pClsSrc));
hb_clsDictInit( pClsDst, pClsSrc->uiHashKey );
pClsDst->pFunError = pClsSrc->pFunError;
pClsDst->pDestructor = pClsSrc->pDestructor;
/* CLASS DATA Not Shared ( new array, new value ) */
pClsDst->pClassDatas = hb_arrayClone( pClsSrc->pClassDatas );
/* do not copy shared data array - just simply create new one */
pClsDst->pSharedDatas = hb_itemArrayNew( 0 );
pClsDst->pInlines = hb_arrayClone( pClsSrc->pInlines );
pClsDst->uiDatas = pClsSrc->uiDatas;
pClsDst->ulOpFlags = pClsSrc->ulOpFlags;
if( pClsSrc->uiInitDatas )
{
ULONG ulSize = ( ULONG ) pClsSrc->uiInitDatas * sizeof( INITDATA );
USHORT uiData;
pClsDst->uiInitDatas = pClsSrc->uiInitDatas;
pClsDst->pInitData = ( PINITDATA ) hb_xgrab( ulSize );
memcpy( pClsDst->pInitData, pClsSrc->pInitData, ulSize );
for( uiData = 0; uiData < pClsDst->uiInitDatas; ++uiData )
{
if( pClsDst->pInitData[ uiData ].uiType == HB_OO_MSG_INITIALIZED )
pClsDst->pInitData[ uiData ].uiType = HB_OO_MSG_CLASSDATA;
pClsDst->pInitData[ uiData ].pInitValue =
hb_itemNew( pClsDst->pInitData[ uiData ].pInitValue );
}
}
ulLimit = hb_clsMthNum( pClsDst );
memcpy( pClsDst->pMethods, pClsSrc->pMethods, ulLimit * sizeof( METHOD ) );
pClsDst->uiMethods = pClsSrc->uiMethods;
pMethod = pClsDst->pMethods;
do
{
if( pMethod->pMessage )
{
pMethod->uiScope |= HB_OO_CLSTP_SUPER;
}
++pMethod;
}
while( --ulLimit );
}
static PMETHOD hb_clsAllocMsg( PCLASS pClass, PHB_DYNS pMsg )
{
HB_TRACE(HB_TR_DEBUG, ("hb_clsAllocMsg(%p,%p)", pClass, pMsg));
do
{
PMETHOD pMethod = pClass->pMethods + hb_clsMsgBucket( pMsg, pClass->uiHashKey );
USHORT uiBucket = BUCKETSIZE;
do
{
if( ! pMethod->pMessage || pMethod->pMessage == pMsg )
return pMethod;
++pMethod;
}
while( --uiBucket );
}
while( hb_clsDictRealloc( pClass ) );
return NULL;
}
static BOOL hb_clsClearMsg( PCLASS pClass, PMETHOD pMethod )
{
if( pMethod->pFuncSym == &s___msgEvalInline )
{ /* INLINE method deleted, delete INLINE block */
hb_itemClear( hb_arrayGetItemPtr( pClass->pInlines, pMethod->uiData ) );
}
return TRUE;
}
static void hb_clsFreeMsg( PCLASS pClass, PHB_DYNS pMsg )
{
PMETHOD pMethod;
USHORT uiBucket;
HB_TRACE(HB_TR_DEBUG, ("hb_clsFreeMsg(%p,%p)", pClass, pMsg));
pMethod = pClass->pMethods + hb_clsMsgBucket( pMsg, pClass->uiHashKey );
uiBucket = BUCKETSIZE;
do
{
if( pMethod->pMessage == pMsg )
{
if( hb_clsClearMsg( pClass, pMethod ) )
{
/* Move messages */
while( --uiBucket )
{
memcpy( pMethod, pMethod + 1, sizeof( METHOD ) );
pMethod++;
}
memset( pMethod, 0, sizeof( METHOD ) );
pClass->uiMethods--; /* Decrease number of messages */
}
return;
}
++pMethod;
}
while( --uiBucket );
}
static USHORT hb_clsAddInitValue( PCLASS pClass, PHB_ITEM pItem,
USHORT uiType, USHORT uiData,
USHORT uiOffset, USHORT uiSprClass )
{
PINITDATA pInitData;
HB_TRACE(HB_TR_DEBUG, ("hb_clsAddInitValue(%p,%p,%hu,%hu,%hu,%hu)", pClass, pItem, uiType, uiData, uiOffset, uiSprClass));
if( ! pItem || HB_IS_NIL( pItem ) )
return 0;
if( ! pClass->uiInitDatas )
{
pClass->pInitData = ( PINITDATA ) hb_xgrab( sizeof( INITDATA ) );
pInitData = pClass->pInitData + pClass->uiInitDatas++;
}
else
{
USHORT ui = pClass->uiInitDatas;
pInitData = pClass->pInitData;
do
{
if( pInitData->uiType == uiType &&
pInitData->uiData + pInitData->uiOffset == uiData + uiOffset )
{
hb_itemRelease( pInitData->pInitValue );
break;
}
++pInitData;
}
while( --ui );
if( ui == 0 )
{
pClass->pInitData = ( PINITDATA ) hb_xrealloc( pClass->pInitData,
( ULONG ) ( pClass->uiInitDatas + 1 ) * sizeof( INITDATA ) );
pInitData = pClass->pInitData + pClass->uiInitDatas++;
}
}
pInitData->pInitValue = hb_itemClone( pItem );
pInitData->uiType = uiType;
pInitData->uiData = uiData;
pInitData->uiOffset = uiOffset;
pInitData->uiSprClass = uiSprClass;
return pClass->uiInitDatas;
}
/*
* initialize Classy/OO system at HVM startup
*/
void hb_clsInit( void )
{
PHB_SYMB pOpSym;
USHORT uiOperator;
for( uiOperator = 0, pOpSym = s_opSymbols; uiOperator <= HB_OO_MAX_OPERATOR;
++uiOperator, ++pOpSym )
{
pOpSym->pDynSym = hb_dynsymGetCase( pOpSym->szName );
}
s___msgDestructor.pDynSym = hb_dynsymGetCase( s___msgDestructor.szName );
s___msgClassName.pDynSym = hb_dynsymGetCase( s___msgClassName.szName ); /* Standard messages */
s___msgClassH.pDynSym = hb_dynsymGetCase( s___msgClassH.szName ); /* Not present in classdef. */
s___msgClassSel.pDynSym = hb_dynsymGetCase( s___msgClassSel.szName );
s___msgEval.pDynSym = hb_dynsymGetCase( s___msgEval.szName );
s___msgExec.pDynSym = hb_dynsymGetCase( s___msgExec.szName );
s___msgName.pDynSym = hb_dynsymGetCase( s___msgName.szName );
s___msgNew.pDynSym = hb_dynsymGetCase( s___msgNew.szName );
/*
s___msgClsParent.pDynSym = hb_dynsymGetCase( s___msgClsParent.szName );
s___msgClass.pDynSym = hb_dynsymGetCase( s___msgClass.szName );
*/
s___msgEnumIndex.pDynSym = hb_dynsymGetCase( s___msgEnumIndex.szName );
s___msgEnumBase.pDynSym = hb_dynsymGetCase( s___msgEnumBase.szName );
s___msgEnumValue.pDynSym = hb_dynsymGetCase( s___msgEnumValue.szName );
s___msgWithObjectPush.pDynSym = hb_dynsymGetCase( s___msgWithObjectPush.szName );
s___msgWithObjectPop.pDynSym = hb_dynsymGetCase( s___msgWithObjectPop.szName );
}
/*
* hb_clsRelease( <pClass> )
*
* Release a class from memory
*/
static void hb_clsRelease( PCLASS pClass )
{
HB_TRACE(HB_TR_DEBUG, ("hb_clsRelease(%p)", pClass));
if( pClass->uiInitDatas )
{
USHORT ui = pClass->uiInitDatas;
PINITDATA pInitData = pClass->pInitData;
do
{
hb_itemRelease( pInitData->pInitValue );
++pInitData;
}
while( --ui );
hb_xfree( pClass->pInitData );
}
if( pClass->szName )
hb_xfree( pClass->szName );
if( pClass->pMethods )
hb_xfree( pClass->pMethods );
if( pClass->pClassDatas )
hb_itemRelease( pClass->pClassDatas );
if( pClass->pSharedDatas )
hb_itemRelease( pClass->pSharedDatas );
if( pClass->pInlines )
hb_itemRelease( pClass->pInlines );
}
/*
* hb_clsReleaseAll()
*
* Release all classes
*/
void hb_clsReleaseAll( void )
{
SHORT uiClass;
HB_TRACE(HB_TR_DEBUG, ("hb_clsReleaseAll()"));
for( uiClass = 0 ; uiClass < s_uiClasses ; uiClass++ )
{
hb_clsRelease( s_pClasses + uiClass );
}
if( s_pClasses )
{
hb_xfree( s_pClasses );
}
s_uiClasses = 0;
s_pClasses = NULL;
}
/* Mark all internal data as used so it will not be released by the
* garbage collector
*/
void hb_clsIsClassRef( void )
{
/*
* All internal items are allocated with hb_itemNew()
* GC knows them and scan itself so it's not necessary
* to repeat scanning here [druzus].
*/
#if 0
USHORT uiClass = s_uiClasses;
PCLASS pClass = s_pClasses;
HB_TRACE(HB_TR_DEBUG, ("hb_clsIsClassRef()"));
while( uiClass-- )
{
if( pClass->pInlines )
hb_gcItemRef( pClass->pInlines );
if( pClass->pClassDatas )
hb_gcItemRef( pClass->pClassDatas );
if( pClass->pSharedDatas )
hb_gcItemRef( pClass->pSharedDatas );
if( pClass->uiInitDatas )
{
USHORT ui = pClass->uiInitDatas;
PINITDATA pInitData = pClass->pInitData;
do
{
if( HB_IS_GCITEM( pInitData->pInitValue ) )
hb_gcItemRef( pInitData->pInitValue );
++pInitData;
}
while( --ui );
}
++pClass;
}
#endif
}
#if 0
/* Currently (2004.04.02) this function is not used
it is commented out to suppress warning message in gcc
*/
static void hb_clsScope( PHB_ITEM pObject, PMETHOD pMethod )
{
long lOffset = hb_stackBaseOffset();
PHB_ITEM pCaller;
LONG iLevel = 1;
BOOL bRetVal = FALSE ;
PHB_DYNS pMessage = pMethod->pMessage;
char szName[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 32 ];
char * szCallerNameMsg;
char * szCallerNameObject;
char * szSelfNameMsg;
char * szSelfNameObject; /* debug */
char * szSelfNameRealClass;
if( ( ( uiScope & HB_OO_CLSTP_PROTECTED ) ) ||
( ( uiScope & HB_OO_CLSTP_HIDDEN ) ) ||
( ( uiScope & HB_OO_CLSTP_READONLY ) ) )
{
szSelfNameObject = hb_objGetClsName( pObject ); /* debug */
szSelfNameMsg = pMessage->pSymbol->szName ;
szSelfNameRealClass = hb_objGetRealClsName( pObject, pMessage->pSymbol->szName );
while( iLevel-- > 0 && lOffset > 1 )
lOffset = hb_stackItem( lOffset - 1 )->item.asSymbol.stackstate->lBaseItem + 1;
szCallerNameMsg = hb_stackItem( lOffset - 1 )->item.asSymbol.value->szName;
/* Is it an inline ? if so back one more ... */
if( strcmp( szCallerNameMsg, "__EVAL" ) == 0 && lOffset > 1 )
{
lOffset = hb_stackItem( lOffset - 1 )->item.asSymbol.stackstate->lBaseItem + 1;
szCallerNameMsg = hb_stackItem( lOffset - 1 )->item.asSymbol.value->szName;
}
/* Is it an eval ? if so back another one more ... */
if( ( strcmp( szCallerNameMsg, "EVAL" ) == 0 ) && lOffset > 1 )
{
lOffset = hb_stackItem( lOffset - 1 )->item.asSymbol.stackstate->lBaseItem + 1;
szCallerNameMsg = hb_stackItem( lOffset - 1 )->item.asSymbol.value->szName;
}
/* Is it an Aeval ? if so back another one more ... */
if ( ( strcmp( szCallerNameMsg, "AEVAL" ) == 0 ) && lOffset > 1 )
{
lOffset = hb_stackItem( lOffset - 1 )->item.asSymbol.stackstate->lBaseItem + 1;
szCallerNameMsg = hb_stackItem( lOffset - 1 )->item.asSymbol.value->szName;
}
if( iLevel == -1 )
{
/* Now get the callers ... */
pCaller = hb_stackItem( lOffset );
szCallerNameObject = hb_objGetRealClsName( pCaller, szCallerNameMsg );
strcpy( szName, szCallerNameObject );
strcat( szName, ":" );
strcat( szName, szCallerNameMsg );
strcat( szName, ">" );
strcat( szName, szSelfNameRealClass );
strcat( szName, ">" );
strcat( szName, szSelfNameObject );
strcat( szName, ":" );
strcat( szName, szSelfNameMsg );
/*strcpy( szName, szSelfNameRealClass ); */
/*strcat( szName, ":" ); */
/*strcat( szName, szSelfNameMsg ); */
if( uiScope & HB_OO_CLSTP_PROTECTED )
{
if( pCaller->type == HB_IT_ARRAY ) /* is the sender an object */
{
/* Trying to access a protected Msg from outside the object ... */
if( strcmp( szCallerNameObject, szSelfNameRealClass ) != 0 )
{
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (protected 1)", szName, 0 );
return;
}
}
else
{
/* If called from a function ... protected violation ! */
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (protected 0)", szName, 0 );
return;
}
}
if( uiScope & HB_OO_CLSTP_HIDDEN )
{
if( pCaller->type == HB_IT_ARRAY ) /* is the sender an object */
{
/* Trying to access a protected Msg from outside the object ... */
if( strcmp( szCallerNameObject, szSelfNameRealClass ) != 0 )
{
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (Hidden 1)", szName, 0 );
return;
}
else
{
/* Now as it is an hidden Msg, it can only be called from */
/* a method of its original class */
if( !( hb_objGetRealClsName( pCaller, szCallerNameMsg ) == szSelfNameRealClass ) )
{
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (Hidden 2)", szName, 0 );
return;
}
}
}
else
{
/* If called from a function ... Hidden violation ! */
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (Hidden 0)", szName, 0 );
}
}
if( uiScope & HB_OO_CLSTP_READONLY )
{
if( ( pMethod->pFuncSym == &s___msgSetData ) ||
( pMethod->pFuncSym == &s___msgSetClsData ) ||
( pMethod->pFuncSym == &s___msgSetShrData ) )
bRetVal = TRUE;
if( bRetVal )
{
if( pCaller->type == HB_IT_ARRAY ) /* is the sender an object */
{
/* Trying to assign a RO Msg from outside the object ... */
if( strcmp( szCallerNameObject, szSelfNameRealClass ) != 0 )
{
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (ReadOnly)", szName, 0 );
return;
}
else
{
#ifdef HB_CLS_ENFORCERO /* Not enabled by default */
/* can only be called from a Constructor */
/* ok Now is it a CTOR ? */
PMETHOD pCallerMethod ;
PHB_DYNS pCallerMsg = hb_dynsymGet( szCallerNameMsg );
pCallerMethod = hb_objGetpMethod( pCaller, pCallerMsg->pSymbol );
if( pCallerMethod )
{
if( ! ( pCallerMethod->uiScope & HB_OO_CLSTP_CTOR ) )
{
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (ReadOnly)", szName, 0 );
return;
}
}
#endif
}
}
else
{
/* If called from a function ... ReadOnly violation ! */
hb_errRT_BASE( EG_NOMETHOD, 1004, "Scope violation (ReadOnly 0)", szName, 0 );
}
}
}
}
}
}
#endif
HB_EXPORT char * hb_clsName( USHORT uiClass )
{
if( uiClass && uiClass <= s_uiClasses )
return ( s_pClasses + ( uiClass - 1 ) )->szName;
else
return NULL;
}
static BOOL hb_clsHasParent( PCLASS pClass, PHB_DYNS pParentSym )
{
PMETHOD pMethod = hb_clsFindMsg( pClass, pParentSym );
return pMethod && pMethod->pFuncSym == &s___msgSuper;
}
static USHORT hb_clsParentInstanceOffset( PCLASS pClass, PHB_DYNS pParentSym )
{
PMETHOD pMethod = hb_clsFindMsg( pClass, pParentSym );
return ( pMethod && pMethod->pFuncSym == &s___msgSuper ) ? pMethod->uiData : 0;
}
HB_EXPORT BOOL hb_clsIsParent( USHORT uiClass, char * szParentName )
{
if( uiClass && uiClass <= s_uiClasses )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
if( strcmp( pClass->szName, szParentName ) == 0 )
return TRUE;
else
{
PHB_DYNS pMsg = hb_dynsymFindName( szParentName );
if( pMsg )
return hb_clsHasParent( s_pClasses + ( uiClass - 1 ), pMsg );
}
}
return FALSE;
}
HB_EXPORT USHORT hb_objGetClass( PHB_ITEM pItem )
{
if( pItem && HB_IS_ARRAY( pItem ) )
return pItem->item.asArray.value->uiClass;
else
return 0;
}
/* ================================================ */
/*
* <szName> = ( pObject )
*
* Get the class name of an object
*
*/
HB_EXPORT char * hb_objGetClsName( PHB_ITEM pObject )
{
char * szClassName;
HB_TRACE(HB_TR_DEBUG, ("hb_objGetClsName(%p)", pObject));
if( HB_IS_ARRAY( pObject ) )
{
if( ! pObject->item.asArray.value->uiClass )
szClassName = "ARRAY";
else
szClassName =
( s_pClasses + pObject->item.asArray.value->uiClass - 1 )->szName;
}
else /* built in types */
{
switch( pObject->type )
{
case HB_IT_NIL:
szClassName = "NIL";
break;
case HB_IT_STRING:
case HB_IT_MEMO:
szClassName = "CHARACTER";
break;
case HB_IT_BLOCK:
szClassName = "BLOCK";
break;
case HB_IT_DATE:
szClassName = "DATE";
break;
case HB_IT_INTEGER:
case HB_IT_LONG:
case HB_IT_DOUBLE:
szClassName = "NUMERIC";
break;
case HB_IT_LOGICAL:
szClassName = "LOGICAL";
break;
case HB_IT_POINTER:
szClassName = "POINTER";
break;
case HB_IT_SYMBOL:
szClassName = "SYMBOL";
break;
default:
szClassName = "UNKNOWN";
break;
}
}
return szClassName;
}
/*
* <szName> = ( pObject )
*
* Get the real class name of an object message
* Will return the class name from wich the message is inherited in case
* of inheritance.
*
*/
HB_EXPORT char * hb_objGetRealClsName( PHB_ITEM pObject, char * szName )
{
HB_TRACE(HB_TR_DEBUG, ("hb_objGetrealClsName(%p)", pObject));
if( HB_IS_OBJECT( pObject ) )
{
USHORT uiClass;
uiClass = pObject->item.asArray.value->uiClass;
if( uiClass && uiClass <= uiClass )
{
PHB_DYNS pMsg = hb_dynsymFindName( szName );
if( pMsg )
{
PMETHOD pMethod = hb_clsFindMsg( s_pClasses + uiClass - 1, pMsg );
if( pMethod )
uiClass = pMethod->uiSprClass;
}
if( uiClass && uiClass <= s_uiClasses )
return ( s_pClasses + uiClass - 1 )->szName;
}
}
return hb_objGetClsName( pObject );
}
static LONG hb_clsSenderOffset( void )
{
LONG lOffset = hb_stackBaseProcOffset( 1 );
if( lOffset >=0 )
{
/* Is it inline method? */
if( lOffset > 0 && HB_IS_BLOCK( hb_stackItem( lOffset + 1 ) ) &&
( hb_stackItem( lOffset )->item.asSymbol.value == &hb_symEval ||
hb_stackItem( lOffset )->item.asSymbol.value->pDynSym ==
s___msgEval.pDynSym ) )
{
lOffset = hb_stackItem( lOffset )->item.asSymbol.stackstate->lBaseItem;
/* I do not like it but Class(y) makes sth like that. [druzus] */
while( lOffset > 0 &&
hb_stackItem( lOffset )->item.asSymbol.stackstate->uiClass == 0 )
lOffset = hb_stackItem( lOffset )->item.asSymbol.stackstate->lBaseItem;
}
return lOffset;
}
return -1;
}
#if 0
static USHORT hb_clsSenderClasss( void )
{
LONG lOffset = hb_clsSenderOffset();
if( lOffset >=0 )
return hb_stackItem( lOffset )->item.asSymbol.stackstate->uiClass;
else
return 0;
}
#endif
static USHORT hb_clsSenderMethodClasss( void )
{
LONG lOffset = hb_clsSenderOffset();
if( lOffset >=0 )
{
PHB_STACK_STATE pStack = hb_stackItem( lOffset )->item.asSymbol.stackstate;
if( pStack->uiClass )
return ( ( s_pClasses + ( pStack->uiClass - 1 ) )->pMethods +
pStack->uiMethod )->uiSprClass;
}
return 0;
}
static USHORT hb_clsSenderObjectClasss( void )
{
LONG lOffset = hb_clsSenderOffset();
if( lOffset >=0 )
{
PHB_ITEM pSender = hb_stackItem( lOffset + 1 );
if( pSender->type == HB_IT_ARRAY )
return pSender->item.asArray.value->uiClass;
}
return 0;
}
static PHB_SYMB hb_clsValidScope( PHB_ITEM pObject, PMETHOD pMethod,
PHB_STACK_STATE pStack )
{
if( pMethod->uiScope & ( HB_OO_CLSTP_HIDDEN | HB_OO_CLSTP_PROTECTED |
HB_OO_CLSTP_OVERLOADED ) )
{
USHORT uiSenderClass = hb_clsSenderMethodClasss();
if( uiSenderClass )
{
if( pMethod->uiScope & HB_OO_CLSTP_OVERLOADED &&
uiSenderClass != pMethod->uiSprClass )
{
PCLASS pClass = s_pClasses + ( uiSenderClass - 1 );
PMETHOD pHiddenMthd = hb_clsFindMsg( pClass, pMethod->pMessage );
if( pHiddenMthd )
{
pMethod = pHiddenMthd;
pStack->uiClass = uiSenderClass;
pStack->uiMethod = pMethod - pClass->pMethods;
}
}
if( pMethod->uiScope & HB_OO_CLSTP_HIDDEN )
{
/* Class(y) does not allow to write to HIDDEN+READONLY
instance variables, [druzus] */
if( ( pMethod->uiScope & HB_OO_CLSTP_READONLY ) == 0 )
{
if( uiSenderClass == pMethod->uiSprClass )
return pMethod->pFuncSym;
}
}
else if( pMethod->uiScope & HB_OO_CLSTP_PROTECTED )
{
#ifdef HB_STATIC_PROTECT_SCOPE
if( uiSenderClass == pMethod->uiSprClass ||
hb_clsHasParent( s_pClasses + ( uiSenderClass - 1 ),
( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym ) )
#elif HB_CASTED_PROTECT_SCOPE
if( uiSenderClass == pMethod->uiSprClass ||
hb_clsHasParent( s_pClasses + ( hb_clsSenderClasss() - 1 ),
( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym ) )
#else
if( uiSenderClass == pMethod->uiSprClass ||
hb_clsHasParent( s_pClasses + ( pObject->item.asArray.value->uiClass - 1 ),
( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym ) )
#endif
return pMethod->pFuncSym;
}
else
return pMethod->pFuncSym;
}
return &s___msgScopeErr;
}
return pMethod->pFuncSym;
}
/*
* <pFuncSym> = hb_objGetMethod( <pObject>, <pMessage>, <pStackState> )
*
* Internal function to the function pointer of a message of an object
*/
PHB_SYMB hb_objGetMethod( PHB_ITEM pObject, PHB_SYMB pMessage,
PHB_STACK_STATE pStack )
{
PCLASS pClass = NULL;
PHB_DYNS pMsg;
HB_TRACE(HB_TR_DEBUG, ("hb_objGetMethod(%p, %p, %p)", pObject, pMessage, pStack));
pMsg = pMessage->pDynSym;
if( HB_IS_ARRAY( pObject ) )
{
USHORT uiClass = pObject->item.asArray.value->uiClass;
if( pStack )
{
pStack->uiClass = uiClass;
if( pObject->item.asArray.value->uiPrevCls )
{
PHB_ITEM pRealObj;
/* clear the class handle to avoid destructor call */
pObject->item.asArray.value->uiClass = 0;
pRealObj = hb_itemNew( pObject->item.asArray.value->pItems );
/* Now I should exchnage it with the current stacked value */
hb_itemMove( pObject, pRealObj );
/* and release the fake one */
hb_itemRelease( pRealObj );
}
}
if( uiClass && uiClass <= s_uiClasses )
{
PMETHOD pMethod;
pClass = s_pClasses + ( uiClass - 1 );
pMethod = hb_clsFindMsg( pClass, pMsg );
if( pMethod )
{
if( pStack )
{
pStack->uiMethod = pMethod - pClass->pMethods;
return hb_clsValidScope( pObject, pMethod, pStack );
}
return pMethod->pFuncSym;
}
else if( pMsg == s___msgDestructor.pDynSym && pClass->pDestructor )
{
return pClass->pDestructor;
}
}
}
else if( HB_IS_BLOCK( pObject ) )
{
if( pMessage == &hb_symEval )
return pMessage;
else if( pMsg == s___msgEval.pDynSym )
return &hb_symEval;
}
else if( HB_IS_BYREF( pObject ) )
{
if( pStack )
{
/* method of enumerator variable from FOR EACH statement
*/
PHB_ITEM pEnum = hb_itemUnRefOnce( pObject );
if( HB_IS_ENUM( pEnum ) )
{
/*
* Do actions here - we already have unreferenced pEnum so
* it will be a little bit faster but in the future it's
* possible that I'll move it to separate function when
* I'll add enumerators overloading. [druzus]
*/
if( pMsg == s___msgEnumIndex.pDynSym )
{
hb_itemPutNL( hb_stackReturnItem(), pEnum->item.asEnum.offset );
if( hb_pcount() > 0 && ISNUM( 1 ) )
pEnum->item.asEnum.offset = hb_itemGetNL( hb_param( 1, HB_IT_ANY ) );
return &s___msgEnumIndex;
}
else if( pMsg == s___msgEnumBase.pDynSym )
{
hb_itemCopy( hb_stackReturnItem(), pEnum->item.asEnum.basePtr );
if( hb_pcount() > 0 )
hb_itemCopy( pEnum->item.asEnum.basePtr,
hb_itemUnRef( hb_stackItemFromBase( 1 ) ) );
return &s___msgEnumBase;
}
else if( pMsg == s___msgEnumValue.pDynSym )
{
pEnum = hb_itemUnRef( pEnum );
hb_itemCopy( hb_stackReturnItem(), pEnum );
if( hb_pcount() > 0 )
hb_itemCopy( pEnum, hb_itemUnRef( hb_stackItemFromBase( 1 ) ) );
return &s___msgEnumValue;
}
}
}
}
else if( HB_IS_SYMBOL( pObject ) )
{
if( pMsg == s___msgExec.pDynSym )
{
if( ! pObject->item.asSymbol.value->value.pFunPtr &&
pObject->item.asSymbol.value->pDynSym )
return pObject->item.asSymbol.value->pDynSym->pSymbol;
else
return pObject->item.asSymbol.value;
}
else if( pMsg == s___msgName.pDynSym )
{
hb_itemPutC( hb_stackReturnItem(),
pObject->item.asSymbol.value->szName );
return &s___msgName;
}
}
/* Default messages here */
if( pMsg == s___msgWithObjectPush.pDynSym )
{
if( pStack )
{
PHB_ITEM pItem = hb_stackWithObjectItem();
if( pItem )
{
/* push current WITH OBJECT object */
hb_itemCopy( hb_stackReturnItem(), pItem );
return &s___msgWithObjectPush;
}
}
}
else if( pMsg == s___msgWithObjectPop.pDynSym )
{
if( pStack )
{
PHB_ITEM pItem = hb_stackWithObjectItem();
if( pItem )
{
/* replace current WITH OBJECT object */
hb_itemCopy( pItem, hb_stackItemFromBase( 1 ) );
hb_itemCopy( hb_stackReturnItem(), pItem );
return &s___msgWithObjectPop;
}
}
}
else if( pMsg == s___msgClassName.pDynSym )
return &s___msgClassName;
else if( pMsg == s___msgClassH.pDynSym )
return &s___msgClassH;
else if( pMsg == s___msgClassSel.pDynSym )
return &s___msgClassSel;
/*
else if( pMsg == s___msgEval.pDynSym )
return &s___msgEval;
else if( pMsg == s___msgClsParent.pDynSym )
return &s___msgClsParent;
else if( pMsg == s___msgClass.pDynSym )
return &s___msgClass;
*/
if( pStack )
{
if( pClass && pClass->pFunError )
return pClass->pFunError;
/* remove this line if you want default HVM error message */
return &s___msgNoMethod;
}
return NULL;
}
/*
* Check if class has object destructors
*/
BOOL hb_clsHasDestructor( USHORT uiClass )
{
if( uiClass && uiClass <= s_uiClasses )
return ( s_pClasses + ( uiClass - 1 ) )->pDestructor != NULL;
else
return FALSE;
}
/*
* Call object destructor
*/
void hb_objDestructorCall( PHB_ITEM pObject )
{
if( pObject->type == HB_IT_ARRAY &&
pObject->item.asArray.value->uiClass != 0 )
{
PCLASS pClass = s_pClasses + pObject->item.asArray.value->uiClass - 1;
if( pClass->pDestructor )
{
USHORT uiAction;
if( hb_vmRequestReenter( &uiAction ) )
{
hb_vmPushSymbol( &s___msgDestructor );
hb_vmPush( pObject );
hb_vmSend( 0 );
hb_vmRequestRestore( uiAction );
}
}
}
}
/*
* Check if object has a given operator
*/
BOOL hb_objHasOperator( PHB_ITEM pObject, USHORT uiOperator )
{
HB_TRACE(HB_TR_DEBUG, ("hb_objHasOperator(%p,%hu)", pObject, uiOperator));
if( pObject->type == HB_IT_ARRAY &&
pObject->item.asArray.value->uiClass != 0 )
{
PCLASS pClass = s_pClasses + pObject->item.asArray.value->uiClass - 1;
return ( pClass->ulOpFlags & ( 1UL << uiOperator ) ) != 0;
}
return FALSE;
}
/*
* Call object operator. If pMsgArg is NULL then operator is unary.
* Function return TRUE when object class overloads given operator
* and FALSE otherwise. [druzus]
*/
BOOL hb_objOperatorCall( USHORT uiOperator, HB_ITEM_PTR pResult, PHB_ITEM pObject,
PHB_ITEM pMsgArg1, PHB_ITEM pMsgArg2 )
{
HB_TRACE(HB_TR_DEBUG, ("hb_objOperatorCall(%hu,%p,%p,%p,%p)", uiOperator, pResult, pObject, pMsgArg1, pMsgArg2));
if( hb_objHasOperator( pObject, uiOperator ) )
{
hb_vmPushSymbol( s_opSymbols + uiOperator );
hb_vmPush( pObject );
hb_itemSetNil( hb_stackReturnItem() );
if( pMsgArg1 )
{
hb_vmPush( pMsgArg1 );
if( pMsgArg2 )
{
hb_vmPush( pMsgArg2 );
hb_vmSend( 2 );
}
else
hb_vmSend( 1 );
}
else
hb_vmSend( 0 );
/* store the return value */
hb_itemMove( pResult, hb_stackReturnItem() );
return TRUE;
}
return FALSE;
}
/*
* return TRUE if object has a given message
*/
HB_EXPORT BOOL hb_objHasMessage( PHB_ITEM pObject, PHB_DYNS pMessage )
{
return hb_objGetMethod( pObject, pMessage->pSymbol, NULL ) != NULL;
}
/*
* <bool> = hb_objHasMsg( <pObject>, <szString> )
*
* Check whether <szString> is an existing message for object.
*
* <uPtr> should be read as a boolean
*/
HB_EXPORT BOOL hb_objHasMsg( PHB_ITEM pObject, char *szString )
{
PHB_DYNS pDynSym;
HB_TRACE(HB_TR_DEBUG, ("hb_objHasMsg(%p, %s)", pObject, szString));
pDynSym = hb_dynsymFindName( szString );
if( pDynSym )
{
return hb_objGetMethod( pObject, pDynSym->pSymbol, NULL ) != NULL;
}
else
{
return FALSE;
}
}
HB_EXPORT void hb_objSendMessage( PHB_ITEM pObject, PHB_DYNS pMsgSym, ULONG ulArg, ... )
{
if( pObject && pMsgSym )
{
hb_vmPushSymbol( pMsgSym->pSymbol );
hb_vmPush( pObject );
if( ulArg )
{
unsigned long i;
va_list ap;
va_start( ap, ulArg );
for( i = 0; i < ulArg; i++ )
{
hb_vmPush( va_arg( ap, PHB_ITEM ) );
}
va_end( ap );
}
hb_vmSend( (USHORT) ulArg );
}
else
{
hb_errRT_BASE( EG_ARG, 3000, NULL, "__ObjSendMessage()", 0 );
}
}
HB_EXPORT void hb_objSendMsg( PHB_ITEM pObject, char *sMsg, ULONG ulArg, ... )
{
hb_vmPushSymbol( hb_dynsymGet( sMsg )->pSymbol );
hb_vmPush( pObject );
if( ulArg )
{
unsigned long i;
va_list ap;
va_start( ap, ulArg );
for( i = 0; i < ulArg; i++ )
{
hb_vmPush( va_arg( ap, PHB_ITEM ) );
}
va_end( ap );
}
hb_vmSend( (USHORT) ulArg );
}
#ifndef HB_CLS_ENFORCERO
/*
* This function is only for backward binary compatibility
* It will be removed in the future so please do not use it.
* Use hb_objHasMessage() instead.
*/
#if defined(__cplusplus)
extern "C" BOOL hb_objGetpMethod( PHB_ITEM pObject, PHB_SYMB pMessage );
#endif
BOOL hb_objGetpMethod( PHB_ITEM pObject, PHB_SYMB pMessage )
{
return hb_objGetMethod( pObject, pMessage, NULL ) != NULL;
}
#endif
#ifdef HB_CLS_ENFORCERO
static PMETHOD hb_objGetpMethod( PHB_ITEM pObject, PHB_SYMB pMessage )
{
USHORT uiClass;
PHB_DYNS pMsg = pMessage->pDynSym;
HB_TRACE(HB_TR_DEBUG, ("hb_objGetpMethod(%p, %p)", pObject, pMessage));
if( pObject->type == HB_IT_ARRAY )
{
USHORT uiClass = pObject->item.asArray.value->uiClass;
if( uiClass && uiClass <= s_uiClasses )
{
return hb_clsFindMsg( s_pClasses + ( uiClass - 1 ), pMsg );
}
}
return NULL;
}
#endif
static PHB_SYMB hb_objFuncParam( int iParam )
{
PHB_ITEM pItem = hb_param( iParam, HB_IT_SYMBOL | HB_IT_STRING );
if( pItem )
{
if( HB_IS_SYMBOL( pItem ) )
return pItem->item.asSymbol.value;
else
{
PHB_DYNS pDynSym = hb_dynsymFindName( hb_itemGetCPtr( pItem ) );
if( pDynSym && pDynSym->pSymbol->value.pFunPtr )
return pDynSym->pSymbol;
}
}
return NULL;
}
static PHB_DYNS hb_objMsgParam( int iParam )
{
PHB_ITEM pMessage = hb_param( iParam, HB_IT_STRING | HB_IT_SYMBOL );
PHB_DYNS pDynSym = NULL;
if( pMessage )
{
char * szMsg = NULL;
if( HB_IS_STRING( pMessage ) )
szMsg = pMessage->item.asString.value;
else
{
pDynSym = pMessage->item.asSymbol.value->pDynSym;
if( !pDynSym )
szMsg = pMessage->item.asSymbol.value->szName;
}
if( szMsg && *szMsg )
pDynSym = hb_dynsymGet( szMsg );
}
return pDynSym;
}
static void hb_clsSetInlineClass( PCLASS pClass, USHORT uiIndex,
USHORT uiClass )
{
PHB_ITEM pBlock = hb_arrayGetItemPtr( pClass->pInlines, uiIndex );
pBlock->item.asBlock.hclass = uiClass;
}
static USHORT hb_clsUpdateScope( USHORT uiScope, BOOL fAssign )
{
if( uiScope & HB_OO_CLSTP_READONLY )
{
/* Class(y) does not allow to write to HIDDEN+READONLY
instance variables, [druzus] */
if( ( uiScope & HB_OO_CLSTP_HIDDEN ) == 0 || !fAssign )
uiScope &= ~HB_OO_CLSTP_READONLY;
if( fAssign )
uiScope |= uiScope & HB_OO_CLSTP_PROTECTED ?
HB_OO_CLSTP_HIDDEN : HB_OO_CLSTP_PROTECTED;
}
return uiScope;
}
/* ================================================ */
/*
* __clsAddMsg( <hClass>, <cMessage>, <pFunction>, <nType>, [xInit], <uiScope>, <lPersistent> )
*
* Add a message to the class.
*
* <hClass> Class handle
* <cMessage> Message
* <pFunction> HB_OO_MSG_METHOD : Pointer to function
* HB_OO_MSG_DATA : \
* HB_OO_MSG_ASSIGN : > Index to instance area array
* HB_OO_MSG_ACCESS : /
* HB_OO_MSG_CLASSDATA : \
* HB_OO_MSG_CLSASSIGN : > Index class data array
* HB_OO_MSG_CLSACCESS : /
* HB_OO_MSG_INLINE : Code block
* HB_OO_MSG_SUPER : Handle of super class
* HB_OO_MSG_REALCLASS : Handle of real method class
*
* <nType> see HB_OO_MSG_*
*
* <xInit> HB_OO_MSG_DATA : Optional initializer for DATA
* HB_OO_MSG_CLASSDATA : Optional initializer for DATA
* HB_OO_MSG_SUPER : Superclass handle
*
* <uiScope> HB_OO_CLSTP_EXPORTED 1 : default for data and method
* HB_OO_CLSTP_PROTECTED 2 : method or data protected
* HB_OO_CLSTP_HIDDEN 4 : method or data hidden
* HB_OO_CLSTP_CTOR 8 : method constructor
* HB_OO_CLSTP_READONLY 16 : data read only
* HB_OO_CLSTP_SHARED 32 : (method or) data shared
* HB_OO_CLSTP_CLASS 64 : message is the name of a superclass
* HB_OO_CLSTP_SUPER 128 : message is herited
* HB_OO_CLSTP_PERSIST 256 : message is persistent (PROPERTY)
* HB_OO_CLSTP_NONVIRTUAL 512 : Class method constructor
* HB_OO_CLSTP_OVERLOADED 1024 : Class method constructor
*
* HB_OO_CLSTP_CLASSCTOR 2048 : Class method constructor
* HB_OO_CLSTP_CLASSMETH 4096 : Class method
*/
HB_FUNC( __CLSADDMSG )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
if( uiClass && uiClass <= s_uiClasses )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PHB_DYNS pMessage;
PMETHOD pNewMeth;
USHORT uiOperator, uiSprClass = 0, uiIndex = 0;
PHB_SYMB pOpSym, pFuncSym = NULL;
PHB_ITEM pBlock = NULL;
BOOL fOK;
ULONG ulOpFlags = 0;
char * szMessage = hb_parc( 2 );
USHORT nType = ( USHORT ) hb_parni( 4 );
USHORT uiScope = ( USHORT ) ( ISNUM( 6 ) ? hb_parni( 6 ) : HB_OO_CLSTP_EXPORTED );
if( hb_parl( 7 ) )
uiScope |= HB_OO_CLSTP_PERSIST;
/* translate names of operator overloading messages */
if (strcmp("+", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_PLUS )->pDynSym;
else if (strcmp("-", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_MINUS )->pDynSym;
else if (strcmp("*", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_MULT )->pDynSym;
else if (strcmp("/", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_DIVIDE )->pDynSym;
else if (strcmp("%", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_MOD )->pDynSym;
else if (strcmp("^", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_POWER )->pDynSym;
else if (strcmp("**", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_POWER )->pDynSym;
else if (strcmp("++", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_INC )->pDynSym;
else if (strcmp("--", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_DEC )->pDynSym;
else if (strcmp("==", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_EXACTEQUAL )->pDynSym;
else if (strcmp("=", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_EQUAL )->pDynSym;
else if (strcmp("!=", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_NOTEQUAL )->pDynSym;
else if (strcmp("<>", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_NOTEQUAL )->pDynSym;
else if (strcmp("#", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_NOTEQUAL )->pDynSym;
else if (strcmp("<", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_LESS )->pDynSym;
else if (strcmp("<=", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_LESSEQUAL )->pDynSym;
else if (strcmp(">", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_GREATER )->pDynSym;
else if (strcmp(">=", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_GREATEREQUAL )->pDynSym;
else if (strcmp(":=", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_ASSIGN )->pDynSym;
else if (strcmp("$", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_INSTRING )->pDynSym;
else if (strcmp("!", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_NOT )->pDynSym;
else if (hb_stricmp(".NOT.", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_NOT )->pDynSym;
else if (hb_stricmp(".AND.", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_AND )->pDynSym;
else if (hb_stricmp(".OR.", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_OR )->pDynSym;
else if( strcmp("[]", szMessage) == 0)
pMessage = ( s_opSymbols + HB_OO_OP_ARRAYINDEX )->pDynSym;
else
pMessage = hb_dynsymGet( szMessage );
for( uiOperator = 0, pOpSym = s_opSymbols;
uiOperator <= HB_OO_MAX_OPERATOR; ++uiOperator, ++pOpSym )
{
if( pOpSym->pDynSym == pMessage )
{
ulOpFlags |= 1UL << uiOperator;
break;
}
}
/* basic parameter validation */
switch( nType )
{
case HB_OO_MSG_METHOD:
case HB_OO_MSG_ONERROR:
case HB_OO_MSG_DESTRUCTOR:
pFuncSym = hb_objFuncParam( 3 );
fOK = pFuncSym != NULL;
break;
case HB_OO_MSG_INLINE:
pBlock = hb_param( 3, HB_IT_BLOCK );
fOK = pBlock != NULL;
break;
case HB_OO_MSG_SUPER:
uiIndex = ( USHORT ) hb_parni( 3 );
uiSprClass = ( USHORT ) hb_parni( 5 );
fOK = uiSprClass && uiSprClass <= s_uiClasses &&
uiIndex <= pClass->uiDatas;
break;
case HB_OO_MSG_DATA:
nType = pMessage->pSymbol->szName[ 0 ] == '_' ?
HB_OO_MSG_ASSIGN : HB_OO_MSG_ACCESS;
case HB_OO_MSG_ASSIGN:
case HB_OO_MSG_ACCESS:
uiIndex = ( USHORT ) hb_parni( 3 );
/* This validation can break buggy .prg code which wrongly
* sets data offsets but IMHO it will help to clean the code.
* [druzus]
*/
fOK = uiIndex && uiIndex <= pClass->uiDatas - pClass->uiDataFirst;
break;
case HB_OO_MSG_CLASSDATA:
nType = pMessage->pSymbol->szName[ 0 ] == '_' ?
HB_OO_MSG_CLSASSIGN : HB_OO_MSG_CLSACCESS;
case HB_OO_MSG_CLSASSIGN:
case HB_OO_MSG_CLSACCESS:
uiIndex = ( USHORT ) hb_parni( 3 );
fOK = uiIndex != 0;
break;
case HB_OO_MSG_REALCLASS:
case HB_OO_MSG_VIRTUAL:
fOK = TRUE;
break;
default:
fOK = FALSE;
}
if( !fOK )
{
hb_errRT_BASE( EG_ARG, 3000, NULL, "__CLSADDMSG", HB_ERR_ARGS_BASEPARAMS );
return;
}
pNewMeth = hb_clsAllocMsg( pClass, pMessage );
if( ! pNewMeth )
return;
#ifndef HB_VIRTUAL_HIDDEN
if( uiScope & HB_OO_CLSTP_HIDDEN )
uiScope |= HB_OO_CLSTP_NONVIRTUAL;
#endif
if( ! pNewMeth->pMessage )
pClass->uiMethods++; /* One more message */
else
{
BOOL fOverLoad = ( pNewMeth->uiScope & HB_OO_CLSTP_OVERLOADED ) ||
( ( pNewMeth->uiScope & HB_OO_CLSTP_NONVIRTUAL ) &&
pNewMeth->uiSprClass != uiClass );
if( ! hb_clsClearMsg( pClass, pNewMeth ) )
return;
memset( pNewMeth, 0, sizeof( METHOD ) );
if( fOverLoad )
uiScope |= HB_OO_CLSTP_OVERLOADED;
}
pNewMeth->pMessage = pMessage;
pNewMeth->uiSprClass = uiClass ; /* now used !! */
switch( nType )
{
case HB_OO_MSG_METHOD:
pNewMeth->pFuncSym = pFuncSym;
pNewMeth->uiScope = uiScope;
break;
case HB_OO_MSG_ASSIGN:
pNewMeth->pFuncSym = &s___msgSetData;
pNewMeth->uiScope = hb_clsUpdateScope( uiScope, TRUE );
pNewMeth->uiData = uiIndex;
pNewMeth->uiOffset = pClass->uiDataFirst;
break;
case HB_OO_MSG_ACCESS:
pNewMeth->uiScope = hb_clsUpdateScope( uiScope, FALSE );
pNewMeth->uiData = uiIndex;
pNewMeth->uiOffset = pClass->uiDataFirst;
hb_clsAddInitValue( pClass, hb_param( 5, HB_IT_ANY ), HB_OO_MSG_DATA,
pNewMeth->uiData, pNewMeth->uiOffset, uiClass );
pNewMeth->pFuncSym = &s___msgGetData;
break;
case HB_OO_MSG_CLSASSIGN:
pNewMeth->uiScope = hb_clsUpdateScope( uiScope, TRUE );
pNewMeth->uiData = uiIndex;
if( pNewMeth->uiScope & HB_OO_CLSTP_SHARED )
{
if( hb_arrayLen( pClass->pSharedDatas ) < ( ULONG ) pNewMeth->uiData )
hb_arraySize( pClass->pSharedDatas, pNewMeth->uiData );
pNewMeth->pFuncSym = &s___msgSetShrData;
}
else
{
if( hb_arrayLen( pClass->pClassDatas ) < ( ULONG ) pNewMeth->uiData )
hb_arraySize( pClass->pClassDatas, pNewMeth->uiData );
pNewMeth->pFuncSym = &s___msgSetClsData;
}
break;
case HB_OO_MSG_CLSACCESS:
pNewMeth->uiScope = hb_clsUpdateScope( uiScope, FALSE );
pNewMeth->uiData = uiIndex;
if( pNewMeth->uiScope & HB_OO_CLSTP_SHARED )
{
PHB_ITEM pInit = hb_param( 5, HB_IT_ANY );
if( hb_arrayLen( pClass->pSharedDatas ) < ( ULONG ) pNewMeth->uiData )
hb_arraySize( pClass->pSharedDatas, pNewMeth->uiData );
if( pInit && ! HB_IS_NIL( pInit ) ) /* Initializer found */
{
/* Shared Classdata need to be initialized only once
* ACCESS/ASSIGN methods will be inherited by subclasses
* and will operate on this value so it's not necessary
* to keep the init value. [druzus]
*/
pInit = hb_itemClone( pInit );
hb_arraySet( pClass->pSharedDatas, pNewMeth->uiData, pInit );
hb_itemRelease( pInit );
}
pNewMeth->pFuncSym = &s___msgGetShrData;
}
else
{
if( hb_arrayLen( pClass->pClassDatas ) < ( ULONG ) pNewMeth->uiData )
hb_arraySize( pClass->pClassDatas, pNewMeth->uiData );
pNewMeth->uiOffset = hb_clsAddInitValue( pClass,
hb_param( 5, HB_IT_ANY ), HB_OO_MSG_CLASSDATA,
pNewMeth->uiData, 0, uiClass );
pNewMeth->pFuncSym = &s___msgGetClsData;
}
break;
case HB_OO_MSG_INLINE:
pNewMeth->pFuncSym = &s___msgEvalInline;
pNewMeth->uiScope = uiScope;
pNewMeth->uiData = ( USHORT ) ( hb_arrayLen( pClass->pInlines ) + 1 );
hb_arraySize( pClass->pInlines, pNewMeth->uiData );
hb_arraySet( pClass->pInlines, pNewMeth->uiData, pBlock );
hb_clsSetInlineClass( pClass, pNewMeth->uiData, uiClass );
break;
case HB_OO_MSG_VIRTUAL:
pNewMeth->pFuncSym = &s___msgVirtual;
pNewMeth->uiScope = uiScope;
break;
case HB_OO_MSG_SUPER:
pNewMeth->uiSprClass = uiSprClass; /* store the super handel */
pNewMeth->uiData = uiIndex; /* offset to instance area */
pNewMeth->uiScope = uiScope;
pNewMeth->pFuncSym = &s___msgSuper;
break;
case HB_OO_MSG_REALCLASS:
pNewMeth->pFuncSym = &s___msgRealClass;
pNewMeth->uiScope = uiScope;
break;
case HB_OO_MSG_ONERROR:
pClass->pFunError = pFuncSym;
break;
case HB_OO_MSG_DESTRUCTOR:
pClass->pDestructor = pFuncSym;
break;
default:
hb_errInternal( HB_EI_CLSINVMETHOD, NULL, "__clsAddMsg", NULL );
return;
}
pClass->ulOpFlags |= ulOpFlags;
}
}
/*
* <hClass> := __clsNew( <cClassName>, <nDatas>, [ahSuper|aoSuper] )
*
* Create a new class
*
* <cClassName> Name of the class
* <nDatas> Number of DATAs in the class
* <ahSuper> Optional handle(s) of superclass(es)
*/
HB_FUNC( __CLSNEW )
{
PCLASS pNewCls;
PMETHOD pMethod;
PHB_ITEM pahSuper;
USHORT ui, uiSuper, uiSuperCls;
USHORT * puiClassData = NULL, uiClassDataSize = 0;
pahSuper = hb_param( 3, HB_IT_ARRAY );
uiSuper = ( USHORT ) ( pahSuper ? hb_arrayLen( pahSuper ) : 0 );
if( s_pClasses )
s_pClasses = ( PCLASS ) hb_xrealloc( s_pClasses, sizeof( CLASS ) * ( s_uiClasses + 1 ) );
else
s_pClasses = ( PCLASS ) hb_xgrab( sizeof( CLASS ) );
pNewCls = s_pClasses + s_uiClasses++;
memset( pNewCls, 0, sizeof( CLASS ) );
pNewCls->szName = hb_strdup( hb_parc( 1 ) );
pNewCls->pClassSym = hb_dynsymGet( pNewCls->szName );
for( ui = 1; ui <= uiSuper; ++ui )
{
uiSuperCls = ( USHORT ) hb_arrayGetNI( pahSuper, ui );
if( uiSuperCls && uiSuperCls <= s_uiClasses )
{
PCLASS pSprCls;
pSprCls = s_pClasses + ( uiSuperCls - 1 );
if( !pNewCls->pMethods ) /* This is the first superclass */
{
hb_clsCopyClass( pNewCls, pSprCls );
}
else if( !hb_clsHasParent( pNewCls, pSprCls->pClassSym ) )
{
ULONG ul, ulLimit;
USHORT nLenClsDatas;
/* create class data translation tables */
nLenClsDatas = ( USHORT ) hb_itemSize( pSprCls->pClassDatas );
if( nLenClsDatas )
{
if( nLenClsDatas > uiClassDataSize )
{
if( puiClassData )
puiClassData = ( USHORT * ) hb_xrealloc( puiClassData,
sizeof( USHORT ) * nLenClsDatas );
else
puiClassData = ( USHORT * ) hb_xgrab( sizeof( USHORT ) *
nLenClsDatas );
uiClassDataSize = nLenClsDatas;
}
memset( puiClassData, 0, sizeof( USHORT ) * nLenClsDatas );
}
/* Copy super classs handles */
ulLimit = hb_clsMthNum( pSprCls );
for( ul = 0; ul < ulLimit; ++ul )
{
if( pSprCls->pMethods[ ul ].pMessage &&
pSprCls->pMethods[ ul ].pFuncSym == &s___msgSuper )
{
PCLASS pCls = s_pClasses +
( pSprCls->pMethods[ ul ].uiSprClass - 1 );
pMethod = hb_clsAllocMsg( pNewCls,
pSprCls->pMethods[ ul ].pMessage );
if( ! pMethod )
return;
if( pMethod->pMessage == NULL )
{
pNewCls->uiMethods++;
memcpy( pMethod, pSprCls->pMethods + ul, sizeof( METHOD ) );
pMethod->uiData = pNewCls->uiDatas;
pNewCls->uiDatas += pCls->uiDatas - pCls->uiDataFirst;
}
}
}
/* add class casting if not exist */
pMethod = hb_clsAllocMsg( pNewCls, pSprCls->pClassSym );
if( ! pMethod )
return;
if( pMethod->pMessage == NULL )
{
pNewCls->uiMethods++;
pMethod->pMessage = pSprCls->pClassSym;
pMethod->uiSprClass = uiSuperCls;
pMethod->uiScope = HB_OO_CLSTP_EXPORTED;
pMethod->pFuncSym = &s___msgSuper;
pMethod->uiData = pNewCls->uiDatas;
pNewCls->uiDatas += pSprCls->uiDatas - pSprCls->uiDataFirst;
}
/* Copy instance area init data */
if( pSprCls->uiInitDatas )
{
USHORT ui;
for( ui = 0; ui < pSprCls->uiInitDatas; ++ui )
{
if( pSprCls->pInitData[ ui ].uiType == HB_OO_MSG_DATA )
{
USHORT uiCls = pSprCls->pInitData[ ui ].uiSprClass;
hb_clsAddInitValue( pNewCls,
pSprCls->pInitData[ ui ].pInitValue, HB_OO_MSG_DATA,
pSprCls->pInitData[ ui ].uiData,
hb_clsParentInstanceOffset( pNewCls,
( s_pClasses + ( uiCls - 1 ) )->pClassSym ),
uiCls );
}
}
}
/* Now working on other methods */
ulLimit = hb_clsMthNum( pSprCls );
for( ul = 0; ul < ulLimit; ++ul )
{
if( pSprCls->pMethods[ ul ].pMessage )
{
pMethod = hb_clsAllocMsg( pNewCls, pSprCls->pMethods[ ul ].pMessage );
if( ! pMethod )
return;
/* Ok, this bucket is empty */
if( pMethod->pMessage == NULL )
{
/* Now, we can increment the msg count */
pNewCls->uiMethods++;
memcpy( pMethod, pSprCls->pMethods + ul, sizeof( METHOD ) );
if( pMethod->pFuncSym == &s___msgEvalInline )
{
hb_arrayAdd( pNewCls->pInlines,
hb_arrayGetItemPtr( pSprCls->pInlines, pMethod->uiData ) );
pMethod->uiData = ( USHORT ) hb_arrayLen( pNewCls->pInlines );
}
else if( pMethod->pFuncSym == &s___msgSetClsData ||
pMethod->pFuncSym == &s___msgGetClsData )
{
if( pMethod->uiData > nLenClsDatas )
hb_errInternal( HB_EI_CLSINVMETHOD, NULL, "__clsNew", NULL );
if( puiClassData[ pMethod->uiData - 1 ] == 0 )
{
puiClassData[ pMethod->uiData - 1 ] = ( USHORT )
hb_arrayLen( pNewCls->pClassDatas ) + 1;
hb_arraySize( pNewCls->pClassDatas,
puiClassData[ pMethod->uiData - 1 ] );
}
if( pMethod->uiOffset )
{
pMethod->uiOffset = hb_clsAddInitValue( pNewCls,
pSprCls->pInitData[ pMethod->uiOffset - 1 ].pInitValue,
HB_OO_MSG_CLASSDATA, puiClassData[ pMethod->uiData - 1 ],
0, uiSuperCls );
}
pMethod->uiData = puiClassData[ pMethod->uiData - 1 ];
}
else if( pMethod->pFuncSym == &s___msgSetData ||
pMethod->pFuncSym == &s___msgGetData )
{
USHORT uiIndex = pMethod->uiData + pMethod->uiOffset;
if( uiIndex > pSprCls->uiDatas )
hb_errInternal( HB_EI_CLSINVMETHOD, NULL, "__clsNew", NULL );
pMethod->uiOffset = hb_clsParentInstanceOffset( pNewCls,
( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym );
}
pMethod->uiScope |= HB_OO_CLSTP_SUPER;
}
else if( pSprCls->pMethods[ ul ].uiScope &
( HB_OO_CLSTP_OVERLOADED | HB_OO_CLSTP_NONVIRTUAL ) )
pMethod->uiScope |= HB_OO_CLSTP_OVERLOADED;
}
}
pNewCls->ulOpFlags |= pSprCls->ulOpFlags;
}
}
}
if( puiClassData )
hb_xfree( puiClassData );
if( !pNewCls->pMethods )
{
hb_clsDictInit( pNewCls, HASH_KEY );
pNewCls->pClassDatas = hb_itemArrayNew( 0 );
pNewCls->pSharedDatas = hb_itemArrayNew( 0 );
pNewCls->pInlines = hb_itemArrayNew( 0 );
}
/* add self class casting */
pMethod = hb_clsAllocMsg( pNewCls, pNewCls->pClassSym );
if( ! pMethod )
return;
if( pMethod->pMessage == NULL )
{
pNewCls->uiMethods++;
pMethod->pMessage = pNewCls->pClassSym;
pMethod->uiSprClass = s_uiClasses;
pMethod->uiScope = HB_OO_CLSTP_EXPORTED;
pMethod->pFuncSym = &s___msgSuper;
pMethod->uiData = pNewCls->uiDatas;
}
pNewCls->uiDataFirst = pNewCls->uiDatas;
pNewCls->uiDatas += ( USHORT ) hb_parni( 2 );
hb_retni( s_uiClasses );
}
HB_FUNC( __CLSSOFFSET )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
char * szSuper = hb_parc( 2 );
if( uiClass && uiClass <= s_uiClasses && szSuper )
{
PHB_DYNS pDynSym = hb_dynsymFindName( szSuper );
if( pDynSym )
{
hb_retni( hb_clsParentInstanceOffset( s_pClasses + ( uiClass - 1 ),
pDynSym ) );
}
}
}
/*
* __clsDelMsg( <oObj>, <cMessage> )
*
* Delete message (only for INLINE and METHOD)
*
* <oObj> Object
* <cMessage> Message
*/
HB_FUNC( __CLSDELMSG )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
PHB_ITEM pString = hb_param( 2, HB_IT_STRING );
if( uiClass && uiClass <= s_uiClasses && pString )
{
PHB_DYNS pMsg = hb_dynsymFindName( pString->item.asString.value );
if( pMsg )
hb_clsFreeMsg( s_pClasses + ( uiClass - 1 ), pMsg );
}
}
/*
* [<o(Super)Object>] := hb_clsInst( <hClass> )
*
* Create a (super)object from class definition <hClass>
*/
static PHB_ITEM hb_clsInst( USHORT uiClass )
{
PHB_ITEM pSelf = NULL;
if( uiClass && uiClass <= s_uiClasses )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
pSelf = hb_itemNew( NULL );
hb_arrayNew( pSelf, pClass->uiDatas );
pSelf->item.asArray.value->uiClass = uiClass;
/* Initialise value if initialisation was requested */
if( pClass->uiInitDatas )
{
PINITDATA pInitData = pClass->pInitData;
USHORT ui = pClass->uiInitDatas;
PHB_ITEM pDestItm;
do
{
if( pInitData->uiType == HB_OO_MSG_DATA )
pDestItm = hb_arrayGetItemPtr( pSelf,
pInitData->uiData + pInitData->uiOffset );
else if( pInitData->uiType == HB_OO_MSG_CLASSDATA )
{
pDestItm = hb_arrayGetItemPtr( pClass->pClassDatas,
pInitData->uiData );
/* do not initialize it again */
pInitData->uiType = HB_OO_MSG_INITIALIZED;
}
else
pDestItm = NULL;
if( pDestItm )
{
PHB_ITEM pInit = hb_itemClone( pInitData->pInitValue );
hb_itemMove( pDestItm, pInit );
hb_itemRelease( pInit );
}
++pInitData;
}
while( --ui );
}
}
return pSelf;
}
/*
* <oNewObject> := __clsInst( <hClass> )
*
* Create a new object from class definition <hClass>
*/
HB_FUNC( __CLSINST )
{
PHB_ITEM pSelf ;
pSelf = hb_clsInst( ( USHORT ) hb_parni( 1 ));
if( pSelf )
{
hb_itemRelease( hb_itemReturn( pSelf ) );
}
}
/*
* __clsModMsg( <oObj>, <cMessage>, <pFunc> )
*
* Modify message (only for INLINE and METHOD)
*/
HB_FUNC( __CLSMODMSG )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
PHB_ITEM pString = hb_param( 2, HB_IT_STRING );
if( uiClass && uiClass <= s_uiClasses && pString )
{
PHB_DYNS pMsg = hb_dynsymFindName( pString->item.asString.value );
if( pMsg )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = hb_clsFindMsg( pClass, pMsg );
if( pMethod )
{
PHB_SYMB pFuncSym = pMethod->pFuncSym;
if( pFuncSym == &s___msgSetData || pFuncSym == &s___msgGetData )
{
hb_errRT_BASE( EG_ARG, 3004, "Cannot modify a DATA item", "__CLSMODMSG", 0 );
}
else if( pFuncSym == &s___msgEvalInline )
{
PHB_ITEM pBlock = hb_param( 3, HB_IT_BLOCK );
if( pBlock == NULL )
hb_errRT_BASE( EG_ARG, 3000, "Cannot modify INLINE method", "__CLSMODMSG", 0 );
else
{
hb_arraySet( pClass->pInlines, pMethod->uiData, pBlock );
hb_clsSetInlineClass( pClass, pMethod->uiData, uiClass );
}
}
else /* Modify METHOD */
{
PHB_SYMB pFuncSym = hb_objFuncParam( 3 );
if( pFuncSym == NULL )
hb_errRT_BASE( EG_ARG, 3000, NULL, "__CLSADDMSG", 0 );
else
pMethod->pFuncSym = pFuncSym;
}
}
}
}
}
/*
* <cClassName> := ClassName( <hClass> )
*
* Returns class name of <hClass>
*/
HB_FUNC( __OBJGETCLSNAME )
{
PHB_ITEM pObject = hb_param( 1, HB_IT_OBJECT );
USHORT uiClass;
if( pObject )
uiClass = pObject->item.asArray.value->uiClass;
else
uiClass = ( USHORT ) hb_parni( 1 );
hb_retc( hb_clsName( uiClass ) );
}
/*
* <lRet> := __objHasMsg( <oObj>, <cSymbol> )
*
* Is <cSymbol> a valid message for the <oObj>
*/
HB_FUNC( __OBJHASMSG )
{
PHB_DYNS pMessage = hb_objMsgParam( 2 );
if( pMessage )
hb_retl( hb_objHasMessage( hb_param( 1, HB_IT_ANY ), pMessage ) );
else
hb_errRT_BASE_SubstR( EG_ARG, 1099, NULL, "__OBJHASMSG", HB_ERR_ARGS_BASEPARAMS );
}
/*
* <xRet> = __objSendMsg( <oObj>, <cSymbol>, <xArg,..>
*
* Send a message to an object
*/
HB_FUNC( __OBJSENDMSG )
{
PHB_DYNS pMessage = hb_objMsgParam( 2 );
if( pMessage )
{
USHORT uiPCount = hb_pcount();
USHORT uiParam;
hb_vmPushSymbol( pMessage->pSymbol ); /* Push message symbol */
hb_vmPush( hb_param( 1, HB_IT_ANY ) ); /* Push object */
for( uiParam = 3; uiParam <= uiPCount; ++uiParam ) /* Push arguments on stack */
{
hb_vmPush( hb_stackItemFromBase( uiParam ) );
}
hb_vmSend( ( USHORT ) ( uiPCount - 2 ) ); /* Execute message */
}
else
{
hb_errRT_BASE( EG_ARG, 3000, NULL, "__OBJSENDMSG", HB_ERR_ARGS_BASEPARAMS );
}
}
/*
* <oNew> := __objClone( <oOld> )
*
* Clone an object. Note the similarity with aClone ;-)
*/
HB_FUNC( __OBJCLONE )
{
PHB_ITEM pSrcObject = hb_param( 1, HB_IT_OBJECT );
PHB_ITEM pDstObject;
if( pSrcObject )
{
pDstObject = hb_arrayClone( pSrcObject );
hb_itemRelease( hb_itemReturn( pDstObject ) );
}
else
{
hb_errRT_BASE( EG_ARG, 3001, NULL, "__OBJCLONE", 0 );
}
}
/*
* <hClass> := __clsInstSuper( <cName> )
*
* Instance super class and return class handle
*/
HB_FUNC( __CLSINSTSUPER )
{
char * szString = hb_parc( 1 );
USHORT uiClassH = 0, uiClass;
if( szString && *szString )
{
PHB_DYNS pDynSym = hb_dynsymFindName( szString );
if( pDynSym )
{
for( uiClass = 0; uiClass < s_uiClasses; uiClass++ )
{
if( s_pClasses[ uiClass ].pClassSym == pDynSym )
{
uiClassH = uiClass + 1;
break;
}
}
if( uiClassH == 0 )
{
hb_vmPushSymbol( pDynSym->pSymbol ); /* Push function name */
hb_vmPushNil();
hb_vmFunction( 0 ); /* Execute super class */
if( hb_vmRequestQuery() == 0 )
{
PHB_ITEM pObject = hb_stackReturnItem();
if( HB_IS_OBJECT( pObject ) )
{
uiClass = pObject->item.asArray.value->uiClass;
if( s_pClasses[ uiClass - 1 ].pClassSym == pDynSym )
uiClassH = uiClass;
else
{
for( uiClass = 0; uiClass < s_uiClasses; uiClass++ )
{
if( s_pClasses[ uiClass ].pClassSym == pDynSym )
{
uiClassH = uiClass + 1;
break;
}
}
/* still not found, try to send NEW() message */
if( uiClassH == 0 )
{
hb_vmPushSymbol( &s___msgNew );
hb_vmPush( pObject );
hb_vmSend( 0 );
pObject = hb_stackReturnItem();
if( HB_IS_OBJECT( pObject ) )
{
uiClass = pObject->item.asArray.value->uiClass;
if( s_pClasses[ uiClass - 1 ].pClassSym == pDynSym )
uiClassH = uiClass;
}
}
}
/* This disables destructor execution for this object */
if( uiClassH && HB_IS_OBJECT( pObject ) )
pObject->item.asArray.value->uiClass = 0;
}
else
{
hb_errRT_BASE( EG_ARG, 3002, "Super class does not return an object", "__CLSINSTSUPER", 0 );
}
}
}
}
else
{
hb_errRT_BASE( EG_ARG, 3003, "Cannot find super class", "__CLSINSTSUPER", 0 );
}
}
hb_retni( uiClassH );
}
/*
* <nSeq> = __cls_CntClsData( <hClass> )
*
* Return number of class datas
*/
HB_FUNC( __CLS_CNTCLSDATA )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
hb_retni( uiClass && uiClass <= s_uiClasses ?
hb_arrayLen( s_pClasses[ uiClass - 1 ].pClassDatas ) : 0 );
}
/*
* <nSeq> = __cls_CntShrData( <hClass> )
*
* Return number of class datas
*/
HB_FUNC( __CLS_CNTSHRDATA )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
hb_retni( uiClass && uiClass <= s_uiClasses ?
hb_arrayLen( s_pClasses[ uiClass - 1 ].pSharedDatas ) : 0 );
}
/*
* <nSeq> = __cls_CntData( <hClass> )
*
* Return number of datas
*/
HB_FUNC( __CLS_CNTDATA )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
hb_retni( uiClass && uiClass <= s_uiClasses ?
s_pClasses[ uiClass - 1 ].uiDatas : 0 );
}
/*
* <nSeq> = __cls_DecData( <hClass> )
*
* Decrease number of datas and return new value
*/
HB_FUNC( __CLS_DECDATA )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
if( uiClass && uiClass <= s_uiClasses && s_pClasses[ uiClass - 1 ].uiDatas )
hb_retni( --s_pClasses[ uiClass - 1 ].uiDatas );
else
hb_retni( 0 );
}
/*
* <nSeq> = __cls_IncData( <hClass> )
* Increase number of datas and return new value
*/
HB_FUNC( __CLS_INCDATA )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
if( uiClass && uiClass <= s_uiClasses )
hb_retni( ++s_pClasses[ uiClass - 1 ].uiDatas );
else
hb_retni( 0 );
}
/* NOTE: Undocumented Clipper function */
/* see for parameter compatibility with Clipper. */
HB_FUNC( __CLASSNEW )
{
HB_FUNC_EXEC( __CLSNEW );
}
/* NOTE: Undocumented Clipper function */
HB_FUNC( __CLASSINSTANCE )
{
HB_FUNC_EXEC( __CLSINST );
}
/* NOTE: Undocumented Clipper function */
HB_FUNC( __CLASSADD )
{
HB_FUNC_EXEC( __CLSADDMSG );
}
/* NOTE: Undocumented Clipper function */
HB_FUNC( __CLASSNAME )
{
hb_retc( hb_clsName( ( USHORT ) hb_parni( 1 ) ) );
}
/* NOTE: Undocumented Clipper function */
/* NOTE: Based on hb___msgClsSel() */
HB_FUNC( __CLASSSEL )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
PHB_ITEM pReturn = hb_itemNew( NULL );
if( uiClass && uiClass <= s_uiClasses )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = pClass->pMethods;
ULONG ulLimit = hb_clsMthNum( pClass ), ulPos = 0;
hb_arrayNew( pReturn, pClass->uiMethods ); /* Create a transfer array */
do
{
if( pMethod->pMessage ) /* Hash Entry used ? */
{
PHB_ITEM pItem = hb_arrayGetItemPtr( pReturn, ++ulPos );
if( pItem )
hb_itemPutC( pItem, pMethod->pMessage->pSymbol->szName );
else
break; /* Generate internal error? */
}
++pMethod;
}
while( --ulLimit );
if( ulPos < ( ULONG ) pClass->uiMethods )
hb_arraySize( pReturn, ulPos );
}
hb_itemRelease( hb_itemReturn( pReturn ) );
}
/* to be used from Classes ERROR HANDLER method */
HB_FUNC( __GETMESSAGE )
{
hb_retc( hb_stackItem( hb_stackBaseItem()->item.asSymbol.stackstate->lBaseItem )->item.asSymbol.value->szName );
}
HB_FUNC( __CLSPARENT )
{
hb_retl( hb_clsIsParent( hb_parni( 1 ) , hb_parc( 2 ) ) );
}
HB_FUNC( __SENDER )
{
LONG lOffset = hb_stackBaseProcOffset( 2 );
if( lOffset >= 0 )
{
PHB_ITEM pSelf = hb_stackItem( lOffset + 1 );
/* Is it inline method? */
if( lOffset > 0 && HB_IS_BLOCK( pSelf ) &&
hb_stackItem( lOffset )->item.asSymbol.value == &hb_symEval )
{
pSelf = hb_stackItem( hb_stackItem( lOffset )->
item.asSymbol.stackstate->lBaseItem + 1 );
}
if( HB_IS_OBJECT( pSelf ) )
{
hb_itemReturn( pSelf );
}
}
}
/*
* Added by R<>C&JfL
*
* based on hb___msgClsH( void )
*/
HB_FUNC( __CLASSH )
{
PHB_ITEM pObject = hb_param( 1, HB_IT_OBJECT );
hb_retni( pObject ? pObject->item.asArray.value->uiClass : 0 );
}
/*
* based on hb___msgEval( void )
*/
HB_FUNC( __EVAL )
{
PHB_ITEM pObject = hb_param( 1, HB_IT_ANY );
USHORT uiPCount = hb_pcount();
if( pObject && HB_IS_BLOCK( pObject ) )
{
USHORT uiParam;
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( pObject ); /* Push block */
for( uiParam = 1; uiParam <= uiPCount; ++uiParam )
hb_vmPush( hb_stackItemFromBase( uiParam ) );
hb_vmDo( ( USHORT ) uiPCount );
}
else
hb_errRT_BASE_SubstR( EG_NOMETHOD, 1004, NULL, "EVAL", pObject ? 1 : 0, pObject );
}
/* ================================================ */
/*
* <hClass> := <obj>:ClassH()
*
* Returns class handle of <obj>
*/
static HARBOUR hb___msgClsH( void )
{
hb_retni( hb_stackBaseItem()->item.asSymbol.stackstate->uiClass );
}
/*
* <cClassName> := <obj>:ClassName()
*
* Return class name of <obj>. Can also be used for all types.
*/
static HARBOUR hb___msgClsName( void )
{
USHORT uiClass = hb_stackBaseItem()->item.asSymbol.stackstate->uiClass;
if( uiClass )
hb_retc( ( s_pClasses + ( uiClass - 1 ) )->szName );
else
hb_retc( hb_objGetClsName( hb_stackSelfItem() ) );
}
/*
* <aMessages> := <obj>:ClassSel()
*
* Returns all the messages in <obj>
*/
static HARBOUR hb___msgClsSel( void )
{
USHORT uiClass = hb_stackBaseItem()->item.asSymbol.stackstate->uiClass;
if( uiClass && uiClass <= s_uiClasses )
{
PHB_ITEM pReturn = hb_itemNew( NULL );
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = pClass->pMethods;
ULONG ulLimit = hb_clsMthNum( pClass ), ulPos = 0;
USHORT nParam;
nParam = hb_pcount() > 0 ? ( USHORT ) hb_parni( 1 ) : HB_MSGLISTALL;
hb_arrayNew( pReturn, pClass->uiMethods );
do
{
if( pMethod->pMessage ) /* Hash Entry used ? */
{
if( ( nParam == HB_MSGLISTALL ) ||
( nParam == HB_MSGLISTCLASS &&
(
( pMethod->pFuncSym == &s___msgSetClsData ) ||
( pMethod->pFuncSym == &s___msgGetClsData ) ||
( pMethod->pFuncSym == &s___msgSetShrData ) ||
( pMethod->pFuncSym == &s___msgGetShrData )
)
) ||
( nParam == HB_MSGLISTPURE &&
!(
( pMethod->pFuncSym == &s___msgSetClsData ) ||
( pMethod->pFuncSym == &s___msgGetClsData ) ||
( pMethod->pFuncSym == &s___msgSetShrData ) ||
( pMethod->pFuncSym == &s___msgGetShrData )
)
)
)
{
hb_itemPutC( hb_arrayGetItemPtr( pReturn, ++ulPos ),
pMethod->pMessage->pSymbol->szName );
}
}
++pMethod;
}
while( --ulLimit && ulPos < ( ULONG ) pClass->uiMethods );
if( ulPos < ( ULONG ) pClass->uiMethods )
hb_arraySize( pReturn, ulPos );
hb_itemRelease( hb_itemReturn( pReturn ) );
}
}
#if 0
/*
* __msgClass()
*
* Internal function to return Self at Self:Class call (classy compatibility)
*/
static HARBOUR hb___msgClass( void )
{
hb_itemReturn( hb_stackSelfItem() );
}
/* Added by JfL&RaC
* <logical> <= <obj>:IsDerivedFrom( xParam )
*
* Return true if <obj> is derived from xParam.
* xParam can be either an obj or a classname
*/
static HARBOUR hb___msgClsParent( void )
{
char * szParentName = NULL;
PHB_ITEM pItem;
USHORT uiClass;
uiClass = hb_stackBaseItem()->item.asSymbol.stackstate->uiClass;
pItemParam = hb_param( 1, HB_IT_ANY );
if( pItemParam )
{
if( HB_IS_OBJECT( pItemParam ) )
szParentName = hb_objGetClsName( pItemParam );
else if( HB_IS_STRING( pItemParam ) )
szParentName = hb_parc( pItemParam );
}
hb_retl( szParentName && hb_clsIsParent( uiClass , szParentName ) );
}
#endif
/*
* __msgEvalInline()
*
* Internal function executed for inline methods
*/
static HARBOUR hb___msgEvalInline( void )
{
PCLASS pClass = s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1;
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
USHORT uiPCount = hb_pcount();
USHORT uiParam;
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( hb_arrayGetItemPtr( pClass->pInlines, pMethod->uiData ) );
hb_vmPush( hb_stackSelfItem() ); /* Push self */
for( uiParam = 1; uiParam <= uiPCount; uiParam++ )
{
hb_vmPush( hb_stackItemFromBase( uiParam ) );
}
hb_vmDo( uiPCount + 1 ); /* Self is also an argument */
}
/*
* __msgEval()
*
* Internal function for the internal EVAL method.
*/
static HARBOUR hb___msgEval( void )
{
HB_ITEM_PTR pSelf = hb_stackSelfItem();
if( HB_IS_BLOCK( pSelf ) )
{
USHORT uiParam;
USHORT uiPCount = hb_pcount();
hb_vmPushSymbol( &hb_symEval );
hb_vmPush( pSelf );
for( uiParam = 1; uiParam <= uiPCount; uiParam++ )
hb_vmPush( hb_stackItemFromBase( uiParam ) );
hb_vmDo( ( USHORT ) uiPCount );
}
else
hb_errRT_BASE_SubstR( EG_NOMETHOD, 1004, NULL, "EVAL", HB_ERR_ARGS_SELFPARAMS );
}
/*
* __msgNoMethod()
*
* Internal function for generating error when not existing message is sent
*/
static HARBOUR hb___msgNoMethod( void )
{
PHB_SYMB pSym = hb_itemGetSymbol( hb_stackBaseItem() );
#if 1 /* Clipper compatible error message */
if( pSym->szName[ 0 ] == '_' )
hb_errRT_BASE_SubstR( EG_NOVARMETHOD, 1005, NULL, pSym->szName + 1, HB_ERR_ARGS_SELFPARAMS );
else
hb_errRT_BASE_SubstR( EG_NOMETHOD, 1004, NULL, pSym->szName, HB_ERR_ARGS_SELFPARAMS );
#else
char szDesc[ 128 ];
if( pSym->szName[ 0 ] == '_' )
{
sprintf( szDesc, "Class: '%s' has no property", hb_objGetClsName( hb_stackSelfItem() ) );
hb_errRT_BASE_SubstR( EG_NOVARMETHOD, 1005, szDesc, pSym->szName + 1, HB_ERR_ARGS_BASEPARAMS );
}
else
{
sprintf( szDesc, "Class: '%s' has no exported method", hb_objGetClsName( hb_stackSelfItem() ) );
hb_errRT_BASE_SubstR( EG_NOMETHOD, 1004, szDesc, pSym->szName, HB_ERR_ARGS_BASEPARAMS );
}
#endif
}
/*
* __msgScopeErr()
*
* Internal function for generating error when not existing message is sent
*/
static HARBOUR hb___msgScopeErr( void )
{
char szProcName[ HB_SYMBOL_NAME_LEN + HB_SYMBOL_NAME_LEN + 5 ];
PHB_ITEM pObject = hb_stackSelfItem();
PMETHOD pMethod = ( s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1 )->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
strcpy( szProcName, ( s_pClasses +
( pObject->item.asArray.value->uiClass - 1 ) )->szName );
strcat( szProcName, ":" );
strcat( szProcName, pMethod->pMessage->pSymbol->szName );
if( pMethod->uiScope & HB_OO_CLSTP_HIDDEN )
hb_errRT_BASE( EG_NOMETHOD, 41, "Scope violation (hidden)", szProcName, 0 );
else
hb_errRT_BASE( EG_NOMETHOD, 42, "Scope violation (protected)", szProcName, 0 );
}
/*
* __msgSuper()
*
* Internal function to return a superobject
*/
static HARBOUR hb___msgSuper( void )
{
PHB_ITEM pObject = hb_stackSelfItem();
PHB_ITEM pCopy = hb_itemArrayNew(1);
PMETHOD pMethod = ( s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1 )->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
/* Now save the Self object as the 1st elem. */
hb_arraySet( pCopy, 1, pObject );
/* And transform it into a fake object */
/* backup of actual handel */
pCopy->item.asArray.value->uiPrevCls = pObject->item.asArray.value->uiClass;
/* superclass handel casting */
pCopy->item.asArray.value->uiClass = pMethod->uiSprClass;
hb_itemRelease( hb_itemReturn( pCopy ) );
}
/*
* __msgRealClass()
*
* Internal function to return a superobject of class where the method was
* defined
*/
static HARBOUR hb___msgRealClass( void )
{
PHB_ITEM pObject = hb_stackSelfItem();
USHORT uiClass = hb_clsSenderMethodClasss();
if( uiClass &&
hb_clsSenderObjectClasss() == pObject->item.asArray.value->uiClass &&
uiClass != pObject->item.asArray.value->uiClass )
{
PHB_ITEM pCopy = hb_itemArrayNew(1);
/* Now save the Self object as the 1st elem. */
hb_arraySet( pCopy, 1, pObject );
/* And transform it into a fake object */
/* backup of actual handel */
pCopy->item.asArray.value->uiPrevCls = pObject->item.asArray.value->uiClass;
/* superclass handel casting */
pCopy->item.asArray.value->uiClass = uiClass;
hb_itemRelease( hb_itemReturn( pCopy ) );
}
else
{
hb_itemReturn( pObject );
}
}
/*
* __msgGetClsData()
*
* Internal function to return a CLASSDATA
*/
static HARBOUR hb___msgGetClsData( void )
{
PCLASS pClass = s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1;
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
hb_arrayGet( pClass->pClassDatas, pMethod->uiData, hb_stackReturnItem() );
}
/*
* __msgSetClsData()
*
* Internal function to set a CLASSDATA
*/
static HARBOUR hb___msgSetClsData( void )
{
PCLASS pClass = s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1;
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
PHB_ITEM pReturn = hb_stackItemFromBase( 1 );
hb_arraySet( pClass->pClassDatas, pMethod->uiData, pReturn );
hb_itemReturn( pReturn );
}
/*
* __msgGetShrData()
*
* Internal function to return a SHAREDDATA
*/
static HARBOUR hb___msgGetShrData( void )
{
PCLASS pClass = s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1;
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
USHORT uiSprCls = pMethod->uiSprClass;
if( uiSprCls && uiSprCls <= s_uiClasses )
{
hb_arrayGet( s_pClasses[ uiSprCls - 1 ].pSharedDatas,
pMethod->uiData, hb_stackReturnItem() );
}
}
/*
* __msgSetShrData()
*
* Internal function to set a SHAREDDATA
*/
static HARBOUR hb___msgSetShrData( void )
{
PCLASS pClass = s_pClasses +
hb_stackBaseItem()->item.asSymbol.stackstate->uiClass - 1;
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
USHORT uiSprCls = pMethod->uiSprClass;
PHB_ITEM pReturn = hb_stackItemFromBase( 1 );
if( uiSprCls && uiSprCls <= s_uiClasses )
{
hb_arraySet( s_pClasses[ uiSprCls - 1 ].pSharedDatas,
pMethod->uiData, pReturn );
}
hb_itemReturn( pReturn );
}
/*
* __msgGetData()
*
* Internal function to return a DATA
*/
static HARBOUR hb___msgGetData( void )
{
PHB_ITEM pObject = hb_stackSelfItem();
USHORT uiObjClass = pObject->item.asArray.value->uiClass;
USHORT uiClass = hb_stackBaseItem()->item.asSymbol.stackstate->uiClass;
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
ULONG ulIndex = pMethod->uiData;
if( uiClass != pObject->item.asArray.value->uiClass )
{
PCLASS pCls1 = s_pClasses + ( uiObjClass - 1 );
PCLASS pCls2 = s_pClasses + ( pMethod->uiSprClass - 1 );
PHB_DYNS pSym = pCls2->pClassSym;
ulIndex += hb_clsParentInstanceOffset( pCls1, pSym );
// ulIndex += hb_clsParentInstanceOffset( s_pClasses + ( uiObjClass - 1 ),
// ( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym );
}
else
{
ulIndex += pMethod->uiOffset;
}
/* will arise only if the class has been modified after first instance */
if( ulIndex > hb_arrayLen( pObject ) ) /* Resize needed */
hb_arraySize( pObject, ulIndex ); /* Make large enough */
hb_arrayGet( pObject, ulIndex, hb_stackReturnItem() );
}
/*
* __msgSetData()
*
* Internal function to set a DATA
*/
static HARBOUR hb___msgSetData( void )
{
PHB_ITEM pReturn = hb_stackItemFromBase( 1 );
PHB_ITEM pObject = hb_stackSelfItem();
USHORT uiObjClass = pObject->item.asArray.value->uiClass;
USHORT uiClass = hb_stackBaseItem()->item.asSymbol.stackstate->uiClass;
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = pClass->pMethods +
hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
ULONG ulIndex = pMethod->uiData;
if( uiClass != pObject->item.asArray.value->uiClass )
{
ulIndex += hb_clsParentInstanceOffset( s_pClasses + ( uiObjClass - 1 ),
( s_pClasses + ( pMethod->uiSprClass - 1 ) )->pClassSym );
}
else
{
ulIndex += pMethod->uiOffset;
}
/* will arise only if the class has been modified after first instance */
if( ulIndex > hb_arrayLen( pObject ) ) /* Resize needed ? */
hb_arraySize( pObject, ulIndex ); /* Make large enough */
hb_arraySet( pObject, ulIndex, pReturn );
hb_itemReturn( pReturn );
}
/* No comment :-) */
static HARBOUR hb___msgVirtual( void )
{
/* hb_ret(); */ /* NOTE: It's safe to comment this out */
;
}
static HARBOUR hb___msgNull( void )
{
;
}
/* NOTE: Used by the preprocessor to implement Classy compatibility to Harbour
Receive an variable number of param and return an array of it.
No param will return a NULL array */
HB_FUNC( __CLS_PARAM )
{
PHB_ITEM array;
USHORT uiParam = ( USHORT ) hb_pcount();
USHORT n;
if( uiParam >= 1 )
{
array = hb_itemArrayNew( uiParam );
for( n = 1; n <= uiParam; n++ )
{
hb_arraySet( array, n, hb_param( n, HB_IT_ANY ) );
}
}
else
{
array = hb_itemArrayNew( 1 );
hb_itemPutC( hb_arrayGetItemPtr( array, 1 ), "HBObject" );
}
hb_itemRelease( hb_itemReturn( array ) );
}
/* This one is used when HB_NOTOBJECT is defined before HBCLASS.CH */
/* it will avoid any default object to be inherited */
HB_FUNC( __CLS_PAR00 )
{
PHB_ITEM array;
USHORT uiParam = ( USHORT ) hb_pcount();
USHORT n;
array = hb_itemArrayNew( uiParam );
for( n = 1; n <= uiParam; n++ )
{
hb_arraySet( array, n, hb_param( n, HB_IT_ANY ) );
}
hb_itemRelease( hb_itemReturn( array ) );
}
#ifndef HB_NO_PROFILER
void hb_mthAddTime( ULONG ulClockTicks )
{
PMETHOD pMethod =
( s_pClasses + hb_stackSelfItem()->item.asArray.value->uiClass - 1 )->
pMethods + hb_stackBaseItem()->item.asSymbol.stackstate->uiMethod;
pMethod->ulCalls++;
pMethod->ulTime += ulClockTicks;
}
#endif
HB_FUNC( __GETMSGPRF ) /* profiler: returns a method called and consumed times */
/* ( nClass, cMsg ) --> aMethodInfo { nTimes, nTime } */
{
#ifndef HB_NO_PROFILER
USHORT uiClass = ( USHORT ) hb_parni( 1 );
char * cMsg = hb_parc( 2 );
hb_reta( 2 );
if( uiClass && uiClass <= s_uiClasses && cMsg && *cMsg )
{
PHB_DYNS pMsg = hb_dynsymFindName( cMsg );
if( pMsg )
{
PMETHOD pMethod = hb_clsFindMsg( s_pClasses + ( uiClass - 1 ), pMsg );
if( pMethod )
{
hb_stornl( pMethod->ulCalls, -1, 1 );
hb_stornl( pMethod->ulTime, -1, 2 );
return;
}
}
}
#else
hb_reta( 2 );
#endif
hb_stornl( 0, -1, 1 );
hb_stornl( 0, -1, 2 );
}
/* __ClsGetProperties( nClassHandle ) --> aPropertiesNames
* Notice that this function works quite similar to __CLASSSEL()
* except that just returns the name of the datas and methods
* that have been declared as PROPERTY (or PERSISTENT) */
HB_FUNC( __CLSGETPROPERTIES )
{
USHORT uiClass = ( USHORT ) hb_parni( 1 );
PHB_ITEM pReturn = hb_itemNew( NULL );
if( uiClass && uiClass <= s_uiClasses )
{
PCLASS pClass = s_pClasses + ( uiClass - 1 );
PMETHOD pMethod = pClass->pMethods;
ULONG ulLimit = hb_clsMthNum( pClass );
PHB_ITEM pItem = NULL;
hb_arrayNew( pReturn, 0 );
do
{
if( pMethod->pMessage && ( pMethod->uiScope & HB_OO_CLSTP_PERSIST ) )
{
pItem = hb_itemPutC( pItem, pMethod->pMessage->pSymbol->szName );
hb_arrayAdd( pReturn, pItem );
}
++pMethod;
}
while( --ulLimit );
if( pItem )
hb_itemRelease( pItem );
}
hb_itemRelease( hb_itemReturn( pReturn ) );
}
/* Real dirty function, though very usefull under certain circunstances:
* It allows to change the class handle of an object into another class handle,
* so the object behaves like a different Class of object.
* Based on objects.lib SetClsHandle() */
HB_FUNC( HB_SETCLSHANDLE ) /* ( oObject, nClassHandle ) --> nPrevClassHandle */
{
PHB_ITEM pObject = hb_param( 1, HB_IT_OBJECT );
USHORT uiPrevClassHandle = 0;
if( pObject )
{
uiPrevClassHandle = pObject->item.asArray.value->uiClass;
pObject->item.asArray.value->uiClass = ( USHORT ) hb_parni( 2 );
}
hb_retnl( uiPrevClassHandle );
}
/* Harbour equivalent for Clipper internal __mdCreate() */
USHORT hb_clsCreate( USHORT usSize, char * szClassName )
{
PHB_DYNS pDynSym = hb_dynsymGet( "__CLSNEW" );
hb_vmPushSymbol( pDynSym->pSymbol );
hb_vmPushNil();
hb_vmPushString( szClassName, strlen( szClassName ) );
hb_vmPushLong( usSize );
hb_vmFunction( 2 );
return ( USHORT ) hb_parni( -1 );
}
/* Harbour equivalent for Clipper internal __mdAdd() */
void hb_clsAdd( USHORT usClassH, char * szMethodName, PHB_SYMB pFuncSym )
{
PHB_DYNS pDynSym = hb_dynsymGet( "__CLSADDMSG" );
hb_vmPushSymbol( pDynSym->pSymbol );
hb_vmPushNil();
hb_vmPushLong( usClassH );
hb_vmPushString( szMethodName, strlen( szMethodName ) );
hb_vmPushSymbol( pFuncSym );
hb_vmFunction( 3 );
}
/* Harbour equivalent for Clipper internal __mdAssociate() */
void hb_clsAssociate( USHORT usClassH )
{
PHB_DYNS pDynSym = hb_dynsymGet( "__CLSINST" );
hb_vmPushSymbol( pDynSym->pSymbol );
hb_vmPushNil();
hb_vmPushLong( usClassH );
hb_vmFunction( 1 );
}
Reference in New Issue View Git Blame Copy Permalink