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harbour-core/harbour/utils/hbtest/rt_class.prg
Przemyslaw Czerpak e47d291938 2006-10-04 02:30 UTC+0200 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/include/hbclass.ch
    * most of the rules rewritten
    ! fixed some wrong rules and general cleanup
    + added additional code validation
    ! fixed compilation of more then one class in single file.
      Now it's even possible to declare all classes at beginning of
      single file and then implementing their methods in any order
    ! fixed using static classes and classes
    ! fixed compilation without <ClassName>_ prefix in method names
    + added support for HB_CLS_NO_DECORATION macro which disable
      adding <ClassName>_ prefix to method names - this macro is
      set by default when HB_SHORTNAMES is set.
    + added support for declared parameters validation - it can be
      disabled with HB_CLS_NO_PARAMS_ERR and I had to disable it
      by default due to problems with our preprocessor.
      Ryszard seems that our PP has serious problems with decoding
      directives when there is no space between symbol and some other
      non symbol character. I had to add some workarounds and even
      introduce buggy rules to make it working. Please look at it.
      You can remove #define HB_CLS_NO_PARAMS_ERR from hbclass.ch
      and try to rebuild Harbour core code to see the problem.

  * harbour/include/hboo.ch
  * harbour/source/vm/classes.c
    + added support for new primitive message: HB_OO_MSG_PERFORM

  * harbour/source/rtl/tclass.prg
    - removed <lPersistent> parameter from HBClass messages and
      internals data. Persistent is supported as scope bit and
      separate variable was redundant.
    - removed stripping of () from message names. Here is not a place
      to fix wrong preprocessor rules.

  * harbour/utils/hbtest/rt_class.prg
    * use: METHOD PROCEDURE ... CALSS ...
      instead of: PROCEDURE ... CALSS ...
      The first version is preferable syntax.

  * harbour/source/debug/dbgtmenu.prg
  * harbour/source/rtl/checkbox.prg
    ! fixed some parameters in method declaration - global cleanup
      will have to wait for preprocessor fixes

   Hi all,
   Please make test with current hbclass.ch code.
   I hope that I haven't broken too much things ;-) but I rewrite
   from scratch most rules and it's possible that I missed sth or
   made some stupid typos. Current version is much shorter and should
   be easier to updated. For sure I've intentionally changed one thing.
   CLASSDATA was ignoring SHARED attribute and always created shared
   class variables. Seems that it was long existing typo but the fix
   may interact with already existing code which needs SHARED class
   variables but does not use SHARED clause in CLASSDATA declaration.
   In such case please update it and add missing SHARED.
   Also in the end of CLASS declaration we have:
      [ ; #translate Super( <SuperClassN> ): => ::<SuperClassN>: ] ;
      [ ; #translate Super( <SuperClass1> ): => ::<SuperClass1>: ] ;
      [ ; #translate Super(): => ::<SuperClass1>: ] ;
      [ ; #translate Super: => ::<SuperClass1>: ] ;
      [ ; #translate ::Super : => ::<SuperClass1>: ]
   These rules introduce very serious bug - they are breaking supercasting
   in code which makes sth like:
      ::super:super:super:msg
   or in any other code which sends SUPER message to some other class
   objects. I will have to remove them. At least the last three ones.
   There were some other things I wanted to write about but it's too late
   and I'm to tired - sorry. If you will have any question please ask. if
   you will notice some problems with current rules please inform me.
2006-10-04 00:33:00 +00:00

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/*
* $Id$
*/
/*
* Harbour Project source code:
* Regression tests for the runtime library (strings)
*
* Copyright 2006 Przemyslaw Czerpak <druzus / at / priv.onet.pl>
* www - http://www.harbour-project.org
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, 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 "rt_main.ch"
/* Don't change the position of this #include. */
#include "rt_vars.ch"
#include "hbclass.ch"
MEMVAR objHolder, cDtorResult
FUNCTION Main_CLASS()
LOCAL oValue, aRef
PRIVATE objHolder, cDtorResult
#ifdef __HARBOUR__
/* Test destructors */
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(0)
TEST_LINE( oValue:type , 0 )
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "No references to self." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(1)
TEST_LINE( oValue:type , 1 )
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "Reference to self in instance variable." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(2)
TEST_LINE( oValue:type , 2 )
TEST_LINE( oValue := NIL , "E BASE 1301 Object Destructor Failure Reference to freed block " )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "Reference to self in class variable." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(3)
TEST_LINE( oValue:type , 3 )
TEST_LINE( oValue := NIL , "E BASE 1301 Object Destructor Failure Reference to freed block " )
TEST_LINE( valtype(objHolder) , "A" )
TEST_LINE( len(objHolder) , 0 )
TEST_LINE( cDtorResult , "Reference to self in private memvar." )
/* Tests with cross references and releasing by Garbage Collector */
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(0)
TEST_LINE( oValue:type , 0 )
/* create cross reference */
aRef := { oValue, nil }; aRef[2] := aRef; aRef := NIL
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "" )
TEST_LINE( hb_gcAll() , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "No references to self." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(1)
TEST_LINE( oValue:type , 1 )
/* create cross reference */
aRef := { oValue, nil }; aRef[2] := aRef; aRef := NIL
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "" )
TEST_LINE( hb_gcAll() , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "Reference to self in instance variable." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(2)
TEST_LINE( oValue:type , 2 )
/* create cross reference */
aRef := { oValue, nil }; aRef[2] := aRef; aRef := NIL
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "" )
TEST_LINE( hb_gcAll() , "E BASE 1301 Object Destructor Failure Reference to freed block " )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "Reference to self in class variable." )
TEST_LINE( cDtorResult := "" , "" )
TEST_LINE( objHolder := NIL , NIL )
oValue := DTORCLASS():NEW(3)
TEST_LINE( oValue:type , 3 )
/* create cross reference */
aRef := { oValue, nil }; aRef[2] := aRef; aRef := NIL
TEST_LINE( oValue := NIL , NIL )
TEST_LINE( objHolder , NIL )
TEST_LINE( cDtorResult , "" )
TEST_LINE( hb_gcAll() , "E BASE 1301 Object Destructor Failure Reference to freed block " )
TEST_LINE( valtype(objHolder) , "A" )
TEST_LINE( len(objHolder) , 0 )
TEST_LINE( cDtorResult , "Reference to self in private memvar." )
/* Test instance area allocating and casting */
oValue := IVARSCLASS4():new()
TEST_LINE( oValue:x1 , "(x1)" )
TEST_LINE( oValue:y1 , "(y1)" )
TEST_LINE( oValue:z1 , "(z1)" )
TEST_LINE( oValue:x2 , "(x2)" )
TEST_LINE( oValue:y2 , "(y2)" )
TEST_LINE( oValue:z2 , "(z2)" )
TEST_LINE( oValue:x3 , "(x3)" )
TEST_LINE( oValue:y3 , "(y3)" )
TEST_LINE( oValue:z3 , "(z3)" )
TEST_LINE( oValue:x4 , "(x4)" )
TEST_LINE( oValue:y4 , "(y4)" )
TEST_LINE( oValue:z4 , "(z4)" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: (x1) (y1) (z1) (x2) (y2) (z2) (x3) (y3) (z3) (x4) (y4) (z4)" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* simple assignment... */
TEST_LINE( oValue:x1 := " X1 " , " X1 " )
TEST_LINE( oValue:y1 := " Y1 " , " Y1 " )
TEST_LINE( oValue:z1 := " Z1 " , " Z1 " )
TEST_LINE( oValue:x2 := " X2 " , " X2 " )
TEST_LINE( oValue:y2 := " Y2 " , " Y2 " )
TEST_LINE( oValue:z2 := " Z2 " , " Z2 " )
TEST_LINE( oValue:x3 := " X3 " , " X3 " )
TEST_LINE( oValue:y3 := " Y3 " , " Y3 " )
TEST_LINE( oValue:z3 := " Z3 " , " Z3 " )
TEST_LINE( oValue:x4 := " X4 " , " X4 " )
TEST_LINE( oValue:y4 := " Y4 " , " Y4 " )
TEST_LINE( oValue:z4 := " Z4 " , " Z4 " )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: X1 Y1 Z1 X2 Y2 Z2 X3 Y3 Z3 X4 Y4 Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS1 instance variables... */
TEST_LINE( oValue:IVARSCLASS1:x1 := "[X1]" , "[X1]" )
TEST_LINE( oValue:IVARSCLASS1:y1 := "[Y1]" , "[Y1]" )
TEST_LINE( oValue:IVARSCLASS1:z1 := "[Z1]" , "[Z1]" )
TEST_LINE( oValue:x1 , "[X1]" )
TEST_LINE( oValue:y1 , "[Y1]" )
TEST_LINE( oValue:z1 , "[Z1]" )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: [X1] [Y1] [Z1] X2 Y2 Z2 X3 Y3 Z3 X4 Y4 Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS2 instance variables... */
TEST_LINE( oValue:IVARSCLASS2:x2 := "[X2]" , "[X2]" )
TEST_LINE( oValue:IVARSCLASS2:y2 := "[Y2]" , "[Y2]" )
TEST_LINE( oValue:IVARSCLASS2:z2 := "[Z2]" , "[Z2]" )
TEST_LINE( oValue:x1 , "[X1]" )
TEST_LINE( oValue:y1 , "[Y1]" )
TEST_LINE( oValue:z1 , "[Z1]" )
TEST_LINE( oValue:x2 , "[X2]" )
TEST_LINE( oValue:y2 , "[Y2]" )
TEST_LINE( oValue:z2 , "[Z2]" )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: [X1] [Y1] [Z1] [X2] [Y2] [Z2] X3 Y3 Z3 X4 Y4 Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS3 instance variables... */
TEST_LINE( oValue:IVARSCLASS3:x3 := "[X3]" , "[X3]" )
TEST_LINE( oValue:IVARSCLASS3:y3 := "[Y3]" , "[Y3]" )
TEST_LINE( oValue:IVARSCLASS3:z3 := "[Z3]" , "[Z3]" )
TEST_LINE( oValue:x1 , "[X1]" )
TEST_LINE( oValue:y1 , "[Y1]" )
TEST_LINE( oValue:z1 , "[Z1]" )
TEST_LINE( oValue:x2 , "[X2]" )
TEST_LINE( oValue:y2 , "[Y2]" )
TEST_LINE( oValue:z2 , "[Z2]" )
TEST_LINE( oValue:x3 , "[X3]" )
TEST_LINE( oValue:y3 , "[Y3]" )
TEST_LINE( oValue:z3 , "[Z3]" )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: [X1] [Y1] [Z1] [X2] [Y2] [Z2] [X3] [Y3] [Z3] X4 Y4 Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS4 instance variables... */
TEST_LINE( oValue:IVARSCLASS4:x4 := "[X4]" , "[X4]" )
TEST_LINE( oValue:IVARSCLASS4:y4 := "[Y4]" , "[Y4]" )
TEST_LINE( oValue:IVARSCLASS4:z4 := "[Z4]" , "[Z4]" )
TEST_LINE( oValue:x1 , "[X1]" )
TEST_LINE( oValue:y1 , "[Y1]" )
TEST_LINE( oValue:z1 , "[Z1]" )
TEST_LINE( oValue:x2 , "[X2]" )
TEST_LINE( oValue:y2 , "[Y2]" )
TEST_LINE( oValue:z2 , "[Z2]" )
TEST_LINE( oValue:x3 , "[X3]" )
TEST_LINE( oValue:y3 , "[Y3]" )
TEST_LINE( oValue:z3 , "[Z3]" )
TEST_LINE( oValue:x4 , "[X4]" )
TEST_LINE( oValue:y4 , "[Y4]" )
TEST_LINE( oValue:z4 , "[Z4]" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: [X1] [Y1] [Z1] [X2] [Y2] [Z2] [X3] [Y3] [Z3] [X4] [Y4] [Z4]" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS3:IVARSCLASS1 instance variables... */
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS1:x1 := "<X1>" , "<X1>" )
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS1:y1 := "<Y1>" , "<Y1>" )
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS1:z1 := "<Z1>" , "<Z1>" )
TEST_LINE( oValue:x1 , "<X1>" )
TEST_LINE( oValue:y1 , "<Y1>" )
TEST_LINE( oValue:z1 , "<Z1>" )
TEST_LINE( oValue:x2 , "[X2]" )
TEST_LINE( oValue:y2 , "[Y2]" )
TEST_LINE( oValue:z2 , "[Z2]" )
TEST_LINE( oValue:x3 , "[X3]" )
TEST_LINE( oValue:y3 , "[Y3]" )
TEST_LINE( oValue:z3 , "[Z3]" )
TEST_LINE( oValue:x4 , "[X4]" )
TEST_LINE( oValue:y4 , "[Y4]" )
TEST_LINE( oValue:z4 , "[Z4]" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: <X1> <Y1> <Z1> [X2] [Y2] [Z2] [X3] [Y3] [Z3] [X4] [Y4] [Z4]" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting IVARSCLASS3:IVARSCLASS2 instance variables... */
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS2:x2 := "<X2>" , "<X2>" )
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS2:y2 := "<Y2>" , "<Y2>" )
TEST_LINE( oValue:IVARSCLASS3:IVARSCLASS2:z2 := "<Z2>" , "<Z2>" )
TEST_LINE( oValue:x1 , "<X1>" )
TEST_LINE( oValue:y1 , "<Y1>" )
TEST_LINE( oValue:z1 , "<Z1>" )
TEST_LINE( oValue:x2 , "<X2>" )
TEST_LINE( oValue:y2 , "<Y2>" )
TEST_LINE( oValue:z2 , "<Z2>" )
TEST_LINE( oValue:x3 , "[X3]" )
TEST_LINE( oValue:y3 , "[Y3]" )
TEST_LINE( oValue:z3 , "[Z3]" )
TEST_LINE( oValue:x4 , "[X4]" )
TEST_LINE( oValue:y4 , "[Y4]" )
TEST_LINE( oValue:z4 , "[Z4]" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: <X1> <Y1> <Z1> <X2> <Y2> <Z2> [X3] [Y3] [Z3] [X4] [Y4] [Z4]" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting SUPER instance variables... */
TEST_LINE( oValue:super:x1 := "{X1}" , "{X1}" )
TEST_LINE( oValue:super:y1 := "{Y1}" , "{Y1}" )
TEST_LINE( oValue:super:z1 := "{Z1}" , "{Z1}" )
TEST_LINE( oValue:super:x2 := "{X2}" , "{X2}" )
TEST_LINE( oValue:super:y2 := "{Y2}" , "{Y2}" )
TEST_LINE( oValue:super:z2 := "{Z2}" , "{Z2}" )
TEST_LINE( oValue:super:x3 := "{X3}" , "{X3}" )
TEST_LINE( oValue:super:y3 := "{Y3}" , "{Y3}" )
TEST_LINE( oValue:super:z3 := "{Z3}" , "{Z3}" )
TEST_LINE( oValue:x1 , "{X1}" )
TEST_LINE( oValue:y1 , "{Y1}" )
TEST_LINE( oValue:z1 , "{Z1}" )
TEST_LINE( oValue:x2 , "{X2}" )
TEST_LINE( oValue:y2 , "{Y2}" )
TEST_LINE( oValue:z2 , "{Z2}" )
TEST_LINE( oValue:x3 , "{X3}" )
TEST_LINE( oValue:y3 , "{Y3}" )
TEST_LINE( oValue:z3 , "{Z3}" )
TEST_LINE( oValue:x4 , "[X4]" )
TEST_LINE( oValue:y4 , "[Y4]" )
TEST_LINE( oValue:z4 , "[Z4]" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[12]: {X1} {Y1} {Z1} {X2} {Y2} {Z2} {X3} {Y3} {Z3} [X4] [Y4] [Z4]" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:IVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Test class variables allocating and casting */
oValue := CVARSCLASS4():new()
TEST_LINE( oValue:x1 , "(x1)" )
TEST_LINE( oValue:y1 , "(y1)" )
TEST_LINE( oValue:z1 , "(z1)" )
TEST_LINE( oValue:x2 , "(x2)" )
TEST_LINE( oValue:y2 , "(y2)" )
TEST_LINE( oValue:z2 , "(z2)" )
TEST_LINE( oValue:x3 , "(x3)" )
TEST_LINE( oValue:y3 , "(y3)" )
TEST_LINE( oValue:z3 , "(z3)" )
TEST_LINE( oValue:x4 , "(x4)" )
TEST_LINE( oValue:y4 , "(y4)" )
TEST_LINE( oValue:z4 , "(z4)" )
TEST_LINE( oValue:CVARSCLASS1:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS1:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS1:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS2:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS2:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS2:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS2:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS2:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS2:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS3:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS3:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS3:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS3:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS3:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x3 , "(x3)" )
TEST_LINE( oValue:CVARSCLASS3:y3 , "(y3)" )
TEST_LINE( oValue:CVARSCLASS3:z3 , "(z3)" )
TEST_LINE( oValue:CVARSCLASS4:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS4:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS4:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS4:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS4:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS4:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS4:x3 , "(x3)" )
TEST_LINE( oValue:CVARSCLASS4:y3 , "(y3)" )
TEST_LINE( oValue:CVARSCLASS4:z3 , "(z3)" )
TEST_LINE( oValue:CVARSCLASS4:x4 , "(x4)" )
TEST_LINE( oValue:CVARSCLASS4:y4 , "(y4)" )
TEST_LINE( oValue:CVARSCLASS4:z4 , "(z4)" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS2:classH ) , 6 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS3:classH ) , 9 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS4:classH ) , 12 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 12 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* simple assignment... */
TEST_LINE( oValue:x1 := " X1 " , " X1 " )
TEST_LINE( oValue:y1 := " Y1 " , " Y1 " )
TEST_LINE( oValue:z1 := " Z1 " , " Z1 " )
TEST_LINE( oValue:x2 := " X2 " , " X2 " )
TEST_LINE( oValue:y2 := " Y2 " , " Y2 " )
TEST_LINE( oValue:z2 := " Z2 " , " Z2 " )
TEST_LINE( oValue:x3 := " X3 " , " X3 " )
TEST_LINE( oValue:y3 := " Y3 " , " Y3 " )
TEST_LINE( oValue:z3 := " Z3 " , " Z3 " )
TEST_LINE( oValue:x4 := " X4 " , " X4 " )
TEST_LINE( oValue:y4 := " Y4 " , " Y4 " )
TEST_LINE( oValue:z4 := " Z4 " , " Z4 " )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:CVARSCLASS1:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS1:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS1:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS2:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS2:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS2:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS2:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS2:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS2:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS3:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS3:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS3:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS3:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS3:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x3 , "(x3)" )
TEST_LINE( oValue:CVARSCLASS3:y3 , "(y3)" )
TEST_LINE( oValue:CVARSCLASS3:z3 , "(z3)" )
TEST_LINE( oValue:CVARSCLASS4:x1 , " X1 " )
TEST_LINE( oValue:CVARSCLASS4:y1 , " Y1 " )
TEST_LINE( oValue:CVARSCLASS4:z1 , " Z1 " )
TEST_LINE( oValue:CVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:CVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:CVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:CVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:CVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:CVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:CVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:CVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:CVARSCLASS4:z4 , " Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS2:classH ) , 6 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS3:classH ) , 9 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS4:classH ) , 12 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 12 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting CVARSCLASS1 class variables... */
TEST_LINE( oValue:CVARSCLASS1:x1 := "[X1]" , "[X1]" )
TEST_LINE( oValue:CVARSCLASS1:y1 := "[Y1]" , "[Y1]" )
TEST_LINE( oValue:CVARSCLASS1:z1 := "[Z1]" , "[Z1]" )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:CVARSCLASS1:x1 , "[X1]" )
TEST_LINE( oValue:CVARSCLASS1:y1 , "[Y1]" )
TEST_LINE( oValue:CVARSCLASS1:z1 , "[Z1]" )
TEST_LINE( oValue:CVARSCLASS2:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS2:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS2:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS2:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS2:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS2:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS3:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS3:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS3:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS3:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS3:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x3 , "(x3)" )
TEST_LINE( oValue:CVARSCLASS3:y3 , "(y3)" )
TEST_LINE( oValue:CVARSCLASS3:z3 , "(z3)" )
TEST_LINE( oValue:CVARSCLASS4:x1 , " X1 " )
TEST_LINE( oValue:CVARSCLASS4:y1 , " Y1 " )
TEST_LINE( oValue:CVARSCLASS4:z1 , " Z1 " )
TEST_LINE( oValue:CVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:CVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:CVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:CVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:CVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:CVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:CVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:CVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:CVARSCLASS4:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS2:classH ) , 6 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS3:classH ) , 9 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS4:classH ) , 12 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 12 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting CVARSCLASS2 class variables... */
TEST_LINE( oValue:CVARSCLASS2:x1 := "{X1}" , "{X1}" )
TEST_LINE( oValue:CVARSCLASS2:y1 := "{Y1}" , "{Y1}" )
TEST_LINE( oValue:CVARSCLASS2:z1 := "{Z1}" , "{Z1}" )
TEST_LINE( oValue:CVARSCLASS2:x2 := "{X2}" , "{X2}" )
TEST_LINE( oValue:CVARSCLASS2:y2 := "{Y2}" , "{Y2}" )
TEST_LINE( oValue:CVARSCLASS2:z2 := "{Z2}" , "{Z2}" )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:CVARSCLASS1:x1 , "[X1]" )
TEST_LINE( oValue:CVARSCLASS1:y1 , "[Y1]" )
TEST_LINE( oValue:CVARSCLASS1:z1 , "[Z1]" )
TEST_LINE( oValue:CVARSCLASS2:x1 , "{X1}" )
TEST_LINE( oValue:CVARSCLASS2:y1 , "{Y1}" )
TEST_LINE( oValue:CVARSCLASS2:z1 , "{Z1}" )
TEST_LINE( oValue:CVARSCLASS2:x2 , "{X2}" )
TEST_LINE( oValue:CVARSCLASS2:y2 , "{Y2}" )
TEST_LINE( oValue:CVARSCLASS2:z2 , "{Z2}" )
TEST_LINE( oValue:CVARSCLASS3:x1 , "(x1)" )
TEST_LINE( oValue:CVARSCLASS3:y1 , "(y1)" )
TEST_LINE( oValue:CVARSCLASS3:z1 , "(z1)" )
TEST_LINE( oValue:CVARSCLASS3:x2 , "(x2)" )
TEST_LINE( oValue:CVARSCLASS3:y2 , "(y2)" )
TEST_LINE( oValue:CVARSCLASS3:z2 , "(z2)" )
TEST_LINE( oValue:CVARSCLASS3:x3 , "(x3)" )
TEST_LINE( oValue:CVARSCLASS3:y3 , "(y3)" )
TEST_LINE( oValue:CVARSCLASS3:z3 , "(z3)" )
TEST_LINE( oValue:CVARSCLASS4:x1 , " X1 " )
TEST_LINE( oValue:CVARSCLASS4:y1 , " Y1 " )
TEST_LINE( oValue:CVARSCLASS4:z1 , " Z1 " )
TEST_LINE( oValue:CVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:CVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:CVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:CVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:CVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:CVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:CVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:CVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:CVARSCLASS4:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS2:classH ) , 6 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS3:classH ) , 9 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS4:classH ) , 12 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 12 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Setting CVARSCLASS3 class variables... */
TEST_LINE( oValue:CVARSCLASS3:x1 := "<X1>" , "<X1>" )
TEST_LINE( oValue:CVARSCLASS3:y1 := "<Y1>" , "<Y1>" )
TEST_LINE( oValue:CVARSCLASS3:z1 := "<Z1>" , "<Z1>" )
TEST_LINE( oValue:CVARSCLASS3:x2 := "<X2>" , "<X2>" )
TEST_LINE( oValue:CVARSCLASS3:y2 := "<Y2>" , "<Y2>" )
TEST_LINE( oValue:CVARSCLASS3:z2 := "<Z2>" , "<Z2>" )
TEST_LINE( oValue:CVARSCLASS3:x3 := "<X3>" , "<X3>" )
TEST_LINE( oValue:CVARSCLASS3:y3 := "<Y3>" , "<Y3>" )
TEST_LINE( oValue:CVARSCLASS3:z3 := "<Z3>" , "<Z3>" )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:CVARSCLASS1:x1 , "[X1]" )
TEST_LINE( oValue:CVARSCLASS1:y1 , "[Y1]" )
TEST_LINE( oValue:CVARSCLASS1:z1 , "[Z1]" )
TEST_LINE( oValue:CVARSCLASS2:x1 , "{X1}" )
TEST_LINE( oValue:CVARSCLASS2:y1 , "{Y1}" )
TEST_LINE( oValue:CVARSCLASS2:z1 , "{Z1}" )
TEST_LINE( oValue:CVARSCLASS2:x2 , "{X2}" )
TEST_LINE( oValue:CVARSCLASS2:y2 , "{Y2}" )
TEST_LINE( oValue:CVARSCLASS2:z2 , "{Z2}" )
TEST_LINE( oValue:CVARSCLASS3:x1 , "<X1>" )
TEST_LINE( oValue:CVARSCLASS3:y1 , "<Y1>" )
TEST_LINE( oValue:CVARSCLASS3:z1 , "<Z1>" )
TEST_LINE( oValue:CVARSCLASS3:x2 , "<X2>" )
TEST_LINE( oValue:CVARSCLASS3:y2 , "<Y2>" )
TEST_LINE( oValue:CVARSCLASS3:z2 , "<Z2>" )
TEST_LINE( oValue:CVARSCLASS3:x3 , "<X3>" )
TEST_LINE( oValue:CVARSCLASS3:y3 , "<Y3>" )
TEST_LINE( oValue:CVARSCLASS3:z3 , "<Z3>" )
TEST_LINE( oValue:CVARSCLASS4:x1 , " X1 " )
TEST_LINE( oValue:CVARSCLASS4:y1 , " Y1 " )
TEST_LINE( oValue:CVARSCLASS4:z1 , " Z1 " )
TEST_LINE( oValue:CVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:CVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:CVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:CVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:CVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:CVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:CVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:CVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:CVARSCLASS4:z4 , " Z4 " )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS2:classH ) , 6 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS3:classH ) , 9 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:CVARSCLASS4:classH ) , 12 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 12 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:CVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 0 )
/* Test shared class variables allocating and casting */
oValue := SVARSCLASS4():new()
TEST_LINE( oValue:x1 , "(x1)" )
TEST_LINE( oValue:y1 , "(y1)" )
TEST_LINE( oValue:z1 , "(z1)" )
TEST_LINE( oValue:x2 , "(x2)" )
TEST_LINE( oValue:y2 , "(y2)" )
TEST_LINE( oValue:z2 , "(z2)" )
TEST_LINE( oValue:x3 , "(x3)" )
TEST_LINE( oValue:y3 , "(y3)" )
TEST_LINE( oValue:z3 , "(z3)" )
TEST_LINE( oValue:x4 , "(x4)" )
TEST_LINE( oValue:y4 , "(y4)" )
TEST_LINE( oValue:z4 , "(z4)" )
TEST_LINE( oValue:SVARSCLASS1:x1 , "(x1)" )
TEST_LINE( oValue:SVARSCLASS1:y1 , "(y1)" )
TEST_LINE( oValue:SVARSCLASS1:z1 , "(z1)" )
TEST_LINE( oValue:SVARSCLASS2:x1 , "(x1)" )
TEST_LINE( oValue:SVARSCLASS2:y1 , "(y1)" )
TEST_LINE( oValue:SVARSCLASS2:z1 , "(z1)" )
TEST_LINE( oValue:SVARSCLASS2:x2 , "(x2)" )
TEST_LINE( oValue:SVARSCLASS2:y2 , "(y2)" )
TEST_LINE( oValue:SVARSCLASS2:z2 , "(z2)" )
TEST_LINE( oValue:SVARSCLASS3:x1 , "(x1)" )
TEST_LINE( oValue:SVARSCLASS3:y1 , "(y1)" )
TEST_LINE( oValue:SVARSCLASS3:z1 , "(z1)" )
TEST_LINE( oValue:SVARSCLASS3:x2 , "(x2)" )
TEST_LINE( oValue:SVARSCLASS3:y2 , "(y2)" )
TEST_LINE( oValue:SVARSCLASS3:z2 , "(z2)" )
TEST_LINE( oValue:SVARSCLASS3:x3 , "(x3)" )
TEST_LINE( oValue:SVARSCLASS3:y3 , "(y3)" )
TEST_LINE( oValue:SVARSCLASS3:z3 , "(z3)" )
TEST_LINE( oValue:SVARSCLASS4:x1 , "(x1)" )
TEST_LINE( oValue:SVARSCLASS4:y1 , "(y1)" )
TEST_LINE( oValue:SVARSCLASS4:z1 , "(z1)" )
TEST_LINE( oValue:SVARSCLASS4:x2 , "(x2)" )
TEST_LINE( oValue:SVARSCLASS4:y2 , "(y2)" )
TEST_LINE( oValue:SVARSCLASS4:z2 , "(z2)" )
TEST_LINE( oValue:SVARSCLASS4:x3 , "(x3)" )
TEST_LINE( oValue:SVARSCLASS4:y3 , "(y3)" )
TEST_LINE( oValue:SVARSCLASS4:z3 , "(z3)" )
TEST_LINE( oValue:SVARSCLASS4:x4 , "(x4)" )
TEST_LINE( oValue:SVARSCLASS4:y4 , "(y4)" )
TEST_LINE( oValue:SVARSCLASS4:z4 , "(z4)" )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS2:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS3:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS4:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 3 )
/* simple assignment... */
TEST_LINE( oValue:x1 := " X1 " , " X1 " )
TEST_LINE( oValue:y1 := " Y1 " , " Y1 " )
TEST_LINE( oValue:z1 := " Z1 " , " Z1 " )
TEST_LINE( oValue:x2 := " X2 " , " X2 " )
TEST_LINE( oValue:y2 := " Y2 " , " Y2 " )
TEST_LINE( oValue:z2 := " Z2 " , " Z2 " )
TEST_LINE( oValue:x3 := " X3 " , " X3 " )
TEST_LINE( oValue:y3 := " Y3 " , " Y3 " )
TEST_LINE( oValue:z3 := " Z3 " , " Z3 " )
TEST_LINE( oValue:x4 := " X4 " , " X4 " )
TEST_LINE( oValue:y4 := " Y4 " , " Y4 " )
TEST_LINE( oValue:z4 := " Z4 " , " Z4 " )
TEST_LINE( oValue:x1 , " X1 " )
TEST_LINE( oValue:y1 , " Y1 " )
TEST_LINE( oValue:z1 , " Z1 " )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:SVARSCLASS1:x1 , " X1 " )
TEST_LINE( oValue:SVARSCLASS1:y1 , " Y1 " )
TEST_LINE( oValue:SVARSCLASS1:z1 , " Z1 " )
TEST_LINE( oValue:SVARSCLASS2:x1 , " X1 " )
TEST_LINE( oValue:SVARSCLASS2:y1 , " Y1 " )
TEST_LINE( oValue:SVARSCLASS2:z1 , " Z1 " )
TEST_LINE( oValue:SVARSCLASS2:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS2:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS2:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS3:x1 , " X1 " )
TEST_LINE( oValue:SVARSCLASS3:y1 , " Y1 " )
TEST_LINE( oValue:SVARSCLASS3:z1 , " Z1 " )
TEST_LINE( oValue:SVARSCLASS3:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS3:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS3:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS3:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS3:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS3:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x1 , " X1 " )
TEST_LINE( oValue:SVARSCLASS4:y1 , " Y1 " )
TEST_LINE( oValue:SVARSCLASS4:z1 , " Z1 " )
TEST_LINE( oValue:SVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:SVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:SVARSCLASS4:z4 , " Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS2:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS3:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS4:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 3 )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
/* Setting SVARSCLASS1 class variables... */
TEST_LINE( oValue:SVARSCLASS1:x1 := "[X1]" , "[X1]" )
TEST_LINE( oValue:SVARSCLASS1:y1 := "[Y1]" , "[Y1]" )
TEST_LINE( oValue:SVARSCLASS1:z1 := "[Z1]" , "[Z1]" )
TEST_LINE( oValue:x1 , "[X1]" )
TEST_LINE( oValue:y1 , "[Y1]" )
TEST_LINE( oValue:z1 , "[Z1]" )
TEST_LINE( oValue:x2 , " X2 " )
TEST_LINE( oValue:y2 , " Y2 " )
TEST_LINE( oValue:z2 , " Z2 " )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:SVARSCLASS1:x1 , "[X1]" )
TEST_LINE( oValue:SVARSCLASS1:y1 , "[Y1]" )
TEST_LINE( oValue:SVARSCLASS1:z1 , "[Z1]" )
TEST_LINE( oValue:SVARSCLASS2:x1 , "[X1]" )
TEST_LINE( oValue:SVARSCLASS2:y1 , "[Y1]" )
TEST_LINE( oValue:SVARSCLASS2:z1 , "[Z1]" )
TEST_LINE( oValue:SVARSCLASS2:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS2:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS2:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS3:x1 , "[X1]" )
TEST_LINE( oValue:SVARSCLASS3:y1 , "[Y1]" )
TEST_LINE( oValue:SVARSCLASS3:z1 , "[Z1]" )
TEST_LINE( oValue:SVARSCLASS3:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS3:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS3:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS3:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS3:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS3:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x1 , "[X1]" )
TEST_LINE( oValue:SVARSCLASS4:y1 , "[Y1]" )
TEST_LINE( oValue:SVARSCLASS4:z1 , "[Z1]" )
TEST_LINE( oValue:SVARSCLASS4:x2 , " X2 " )
TEST_LINE( oValue:SVARSCLASS4:y2 , " Y2 " )
TEST_LINE( oValue:SVARSCLASS4:z2 , " Z2 " )
TEST_LINE( oValue:SVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:SVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:SVARSCLASS4:z4 , " Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS2:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS3:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS4:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 3 )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
/* Setting SVARSCLASS2 class variables... */
TEST_LINE( oValue:SVARSCLASS2:x1 := "{X1}" , "{X1}" )
TEST_LINE( oValue:SVARSCLASS2:y1 := "{Y1}" , "{Y1}" )
TEST_LINE( oValue:SVARSCLASS2:z1 := "{Z1}" , "{Z1}" )
TEST_LINE( oValue:SVARSCLASS2:x2 := "{X2}" , "{X2}" )
TEST_LINE( oValue:SVARSCLASS2:y2 := "{Y2}" , "{Y2}" )
TEST_LINE( oValue:SVARSCLASS2:z2 := "{Z2}" , "{Z2}" )
TEST_LINE( oValue:x1 , "{X1}" )
TEST_LINE( oValue:y1 , "{Y1}" )
TEST_LINE( oValue:z1 , "{Z1}" )
TEST_LINE( oValue:x2 , "{X2}" )
TEST_LINE( oValue:y2 , "{Y2}" )
TEST_LINE( oValue:z2 , "{Z2}" )
TEST_LINE( oValue:x3 , " X3 " )
TEST_LINE( oValue:y3 , " Y3 " )
TEST_LINE( oValue:z3 , " Z3 " )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:SVARSCLASS1:x1 , "{X1}" )
TEST_LINE( oValue:SVARSCLASS1:y1 , "{Y1}" )
TEST_LINE( oValue:SVARSCLASS1:z1 , "{Z1}" )
TEST_LINE( oValue:SVARSCLASS2:x1 , "{X1}" )
TEST_LINE( oValue:SVARSCLASS2:y1 , "{Y1}" )
TEST_LINE( oValue:SVARSCLASS2:z1 , "{Z1}" )
TEST_LINE( oValue:SVARSCLASS2:x2 , "{X2}" )
TEST_LINE( oValue:SVARSCLASS2:y2 , "{Y2}" )
TEST_LINE( oValue:SVARSCLASS2:z2 , "{Z2}" )
TEST_LINE( oValue:SVARSCLASS3:x1 , "{X1}" )
TEST_LINE( oValue:SVARSCLASS3:y1 , "{Y1}" )
TEST_LINE( oValue:SVARSCLASS3:z1 , "{Z1}" )
TEST_LINE( oValue:SVARSCLASS3:x2 , "{X2}" )
TEST_LINE( oValue:SVARSCLASS3:y2 , "{Y2}" )
TEST_LINE( oValue:SVARSCLASS3:z2 , "{Z2}" )
TEST_LINE( oValue:SVARSCLASS3:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS3:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS3:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x1 , "{X1}" )
TEST_LINE( oValue:SVARSCLASS4:y1 , "{Y1}" )
TEST_LINE( oValue:SVARSCLASS4:z1 , "{Z1}" )
TEST_LINE( oValue:SVARSCLASS4:x2 , "{X2}" )
TEST_LINE( oValue:SVARSCLASS4:y2 , "{Y2}" )
TEST_LINE( oValue:SVARSCLASS4:z2 , "{Z2}" )
TEST_LINE( oValue:SVARSCLASS4:x3 , " X3 " )
TEST_LINE( oValue:SVARSCLASS4:y3 , " Y3 " )
TEST_LINE( oValue:SVARSCLASS4:z3 , " Z3 " )
TEST_LINE( oValue:SVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:SVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:SVARSCLASS4:z4 , " Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS2:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS3:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS4:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 3 )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
/* Setting SVARSCLASS3 class variables... */
TEST_LINE( oValue:SVARSCLASS3:x1 := "<X1>" , "<X1>" )
TEST_LINE( oValue:SVARSCLASS3:y1 := "<Y1>" , "<Y1>" )
TEST_LINE( oValue:SVARSCLASS3:z1 := "<Z1>" , "<Z1>" )
TEST_LINE( oValue:SVARSCLASS3:x2 := "<X2>" , "<X2>" )
TEST_LINE( oValue:SVARSCLASS3:y2 := "<Y2>" , "<Y2>" )
TEST_LINE( oValue:SVARSCLASS3:z2 := "<Z2>" , "<Z2>" )
TEST_LINE( oValue:SVARSCLASS3:x3 := "<X3>" , "<X3>" )
TEST_LINE( oValue:SVARSCLASS3:y3 := "<Y3>" , "<Y3>" )
TEST_LINE( oValue:SVARSCLASS3:z3 := "<Z3>" , "<Z3>" )
TEST_LINE( oValue:x1 , "<X1>" )
TEST_LINE( oValue:y1 , "<Y1>" )
TEST_LINE( oValue:z1 , "<Z1>" )
TEST_LINE( oValue:x2 , "<X2>" )
TEST_LINE( oValue:y2 , "<Y2>" )
TEST_LINE( oValue:z2 , "<Z2>" )
TEST_LINE( oValue:x3 , "<X3>" )
TEST_LINE( oValue:y3 , "<Y3>" )
TEST_LINE( oValue:z3 , "<Z3>" )
TEST_LINE( oValue:x4 , " X4 " )
TEST_LINE( oValue:y4 , " Y4 " )
TEST_LINE( oValue:z4 , " Z4 " )
TEST_LINE( oValue:SVARSCLASS1:x1 , "<X1>" )
TEST_LINE( oValue:SVARSCLASS1:y1 , "<Y1>" )
TEST_LINE( oValue:SVARSCLASS1:z1 , "<Z1>" )
TEST_LINE( oValue:SVARSCLASS2:x1 , "<X1>" )
TEST_LINE( oValue:SVARSCLASS2:y1 , "<Y1>" )
TEST_LINE( oValue:SVARSCLASS2:z1 , "<Z1>" )
TEST_LINE( oValue:SVARSCLASS2:x2 , "<X2>" )
TEST_LINE( oValue:SVARSCLASS2:y2 , "<Y2>" )
TEST_LINE( oValue:SVARSCLASS2:z2 , "<Z2>" )
TEST_LINE( oValue:SVARSCLASS3:x1 , "<X1>" )
TEST_LINE( oValue:SVARSCLASS3:y1 , "<Y1>" )
TEST_LINE( oValue:SVARSCLASS3:z1 , "<Z1>" )
TEST_LINE( oValue:SVARSCLASS3:x2 , "<X2>" )
TEST_LINE( oValue:SVARSCLASS3:y2 , "<Y2>" )
TEST_LINE( oValue:SVARSCLASS3:z2 , "<Z2>" )
TEST_LINE( oValue:SVARSCLASS3:x3 , "<X3>" )
TEST_LINE( oValue:SVARSCLASS3:y3 , "<Y3>" )
TEST_LINE( oValue:SVARSCLASS3:z3 , "<Z3>" )
TEST_LINE( oValue:SVARSCLASS4:x1 , "<X1>" )
TEST_LINE( oValue:SVARSCLASS4:y1 , "<Y1>" )
TEST_LINE( oValue:SVARSCLASS4:z1 , "<Z1>" )
TEST_LINE( oValue:SVARSCLASS4:x2 , "<X2>" )
TEST_LINE( oValue:SVARSCLASS4:y2 , "<Y2>" )
TEST_LINE( oValue:SVARSCLASS4:z2 , "<Z2>" )
TEST_LINE( oValue:SVARSCLASS4:x3 , "<X3>" )
TEST_LINE( oValue:SVARSCLASS4:y3 , "<Y3>" )
TEST_LINE( oValue:SVARSCLASS4:z3 , "<Z3>" )
TEST_LINE( oValue:SVARSCLASS4:x4 , " X4 " )
TEST_LINE( oValue:SVARSCLASS4:y4 , " Y4 " )
TEST_LINE( oValue:SVARSCLASS4:z4 , " Z4 " )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS1:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS2:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS3:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:SVARSCLASS4:classH ) , 0 )
TEST_LINE( __CLS_CNTCLSDATA( oValue:classH ) , 0 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS1:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS2:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS3:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:SVARSCLASS4:classH ) , 3 )
TEST_LINE( __CLS_CNTSHRDATA( oValue:classH ) , 3 )
TEST_LINE( INSTANCE_DATA( oValue ) , "[0]:" )
#endif
RETURN NIL
#ifdef __HARBOUR__
STATIC FUNCTION INSTANCE_DATA( oValue )
LOCAL cData, i
cData := "[" + LTRIM( STR( LEN( oValue ) ) ) + "]:"
FOR i := 1 TO LEN( oValue )
IF VALTYPE( oValue[ i ] ) == "C"
cData += " " + oValue[ i ]
ELSEIF oValue[ i ] == NIL
cData += " NIL"
ELSE
cData += " ..."
ENDIF
NEXT
RETURN cData
CREATE CLASS DTORCLASS
EXPORTED:
VAR type
VAR var1
CLASS VAR var2
METHOD init
DESTRUCTOR dtor
END CLASS
METHOD INIT( type ) CLASS DTORCLASS
::type := type
RETURN self
METHOD PROCEDURE DTOR CLASS DTORCLASS
IF ::type == 1
cDtorResult += "Reference to self in instance variable."
::var1 := self
ELSEIF ::Type == 2
cDtorResult += "Reference to self in class variable."
::var2 := self
ELSEIF ::Type == 3
cDtorResult += "Reference to self in private memvar."
objHolder := self
ELSE
cDtorResult += "No references to self."
ENDIF
RETURN
CREATE CLASS IVARSCLASS1
EXPORTED:
VAR x1 INIT "(x1)"
VAR y1 INIT "(y1)"
VAR z1 INIT "(z1)"
END CLASS
CREATE CLASS IVARSCLASS2 FROM IVARSCLASS1
EXPORTED:
VAR x2 INIT "(x2)"
VAR y2 INIT "(y2)"
VAR z2 INIT "(z2)"
END CLASS
CREATE CLASS IVARSCLASS3 FROM IVARSCLASS1, IVARSCLASS2
EXPORTED:
VAR x3 INIT "(x3)"
VAR y3 INIT "(y3)"
VAR z3 INIT "(z3)"
END CLASS
CREATE CLASS IVARSCLASS4 FROM IVARSCLASS3, IVARSCLASS2
EXPORTED:
VAR x4 INIT "(x4)"
VAR y4 INIT "(y4)"
VAR z4 INIT "(z4)"
END CLASS
CREATE CLASS CVARSCLASS1
EXPORTED:
CLASS VAR x1 INIT "(x1)"
CLASS VAR y1 INIT "(y1)"
CLASS VAR z1 INIT "(z1)"
END CLASS
CREATE CLASS CVARSCLASS2 FROM CVARSCLASS1
EXPORTED:
CLASS VAR x2 INIT "(x2)"
CLASS VAR y2 INIT "(y2)"
CLASS VAR z2 INIT "(z2)"
END CLASS
CREATE CLASS CVARSCLASS3 FROM CVARSCLASS1, CVARSCLASS2
EXPORTED:
CLASS VAR x3 INIT "(x3)"
CLASS VAR y3 INIT "(y3)"
CLASS VAR z3 INIT "(z3)"
END CLASS
CREATE CLASS CVARSCLASS4 FROM CVARSCLASS3, CVARSCLASS2
EXPORTED:
CLASS VAR x4 INIT "(x4)"
CLASS VAR y4 INIT "(y4)"
CLASS VAR z4 INIT "(z4)"
END CLASS
CREATE CLASS SVARSCLASS1
EXPORTED:
CLASS VAR x1 INIT "(x1)" SHARED
CLASS VAR y1 INIT "(y1)" SHARED
CLASS VAR z1 INIT "(z1)" SHARED
endclass
CREATE CLASS SVARSCLASS2 FROM SVARSCLASS1
EXPORTED:
CLASS VAR x2 INIT "(x2)" SHARED
CLASS VAR y2 INIT "(y2)" SHARED
CLASS VAR z2 INIT "(z2)" SHARED
endclass
CREATE CLASS SVARSCLASS3 FROM SVARSCLASS1, SVARSCLASS2
EXPORTED:
CLASS VAR x3 INIT "(x3)" SHARED
CLASS VAR y3 INIT "(y3)" SHARED
CLASS VAR z3 INIT "(z3)" SHARED
endclass
CREATE CLASS SVARSCLASS4 FROM SVARSCLASS3, SVARSCLASS2
EXPORTED:
CLASS VAR x4 INIT "(x4)" SHARED
CLASS VAR y4 INIT "(y4)" SHARED
CLASS VAR z4 INIT "(z4)" SHARED
endclass
#endif
/* Don't change the position of this #include. */
#include "rt_init.ch"
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