95673458f2
* tests/speedtst.prg
! Fixed missing hb_progname() for non-Harbour compilers.
* include/hbextern.ch
+ Added time related new functions.
* utils/hbmk2/hbmk2.prg
+ Added -runflag: option to pass flags to target executable.
+ Started -inc (incremental link) support. It's very early
stage, don't expect it to work yet and please don't report
any problems with this feature yet.
* source/vm/asort.c
! Fixed to return Clipper compatible results when non-logical
non-numeric value is returned from ASORT() codeblock.
* utils/hbtest/rt_array.prg
* Cleaned ASORT() tests when sorting block returns constant value.
Now Clipper results aren't bent anymore, instead I've added
different expected results for Harbour and Clipper. The
difference is due to different sorting algorithms used,
here the point is to get similar *pattern* for different
invalid values.
* source/rtl/philes.c
% HB_FGETDATETIME(): Removed double call to hb_stortdt().
* contrib/hbqt/tests/hbqt.hbp
* Removed extra line at EOL.
* contrib/gtqtc/tests/hbqt.hbp
! Removed environment dependent 'libspath=' line.
Please don't add such path to Harbour SVN, since these
can differ from system to system and is also non-portable.
The correct name of the directive is: 'libpaths='.
* contrib/gtqtc/Makefile
% Removed double SVN ID.
This file needs to be updated according to hbqt latest
Makefile portability changes.
* contrib/rddads/ads1.c
* Minor formatting.
496 lines
27 KiB
Plaintext
496 lines
27 KiB
Plaintext
/*
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* $Id$
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*/
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/*
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* Harbour Project source code:
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* Regression tests for the runtime library (array)
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*
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* Copyright 1999-2001 Viktor Szakats <viktor.szakats@syenar.hu>
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* www - http://www.harbour-project.org
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2, or (at your option)
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* any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this software; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
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* Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/).
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*
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* As a special exception, the Harbour Project gives permission for
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* additional uses of the text contained in its release of Harbour.
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*
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* The exception is that, if you link the Harbour libraries with other
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* files to produce an executable, this does not by itself cause the
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* resulting executable to be covered by the GNU General Public License.
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* Your use of that executable is in no way restricted on account of
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* linking the Harbour library code into it.
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*
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* This exception does not however invalidate any other reasons why
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* the executable file might be covered by the GNU General Public License.
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*
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* This exception applies only to the code released by the Harbour
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* Project under the name Harbour. If you copy code from other
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* Harbour Project or Free Software Foundation releases into a copy of
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* Harbour, as the General Public License permits, the exception does
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* not apply to the code that you add in this way. To avoid misleading
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* anyone as to the status of such modified files, you must delete
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* this exception notice from them.
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*
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* If you write modifications of your own for Harbour, it is your choice
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* whether to permit this exception to apply to your modifications.
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* If you do not wish that, delete this exception notice.
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*
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*/
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#include "rt_main.ch"
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/* Don't change the position of this #include. */
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#include "rt_vars.ch"
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PROCEDURE Main_ARRAY()
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/* ARRAY function error conditions. */
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#ifndef __XPP__
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TEST_LINE( ACopy() , NIL )
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#endif
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TEST_LINE( ACopy({}, "C") , NIL )
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TEST_LINE( ACopy("C", {}) , NIL )
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TEST_LINE( ACopy({}, {}) , "{.[0].}" )
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TEST_LINE( ACopy({}, ErrorNew()) , "ERROR Object" )
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TEST_LINE( ACopy(ErrorNew(), {}) , "{.[0].}" )
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#ifndef __XPP__
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TEST_LINE( AClone() , NIL )
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#endif
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TEST_LINE( AClone( NIL ) , NIL )
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TEST_LINE( AClone( {} ) , "{.[0].}" )
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TEST_LINE( AClone( ErrorNew() ) , NIL )
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#ifndef __XPP__
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TEST_LINE( AEval() , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 " )
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TEST_LINE( AEval( NIL ) , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 A:1:U:NIL " )
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TEST_LINE( AEval( {} ) , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 A:1:A:{.[0].} " )
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#endif
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TEST_LINE( AEval( {}, NIL ) , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 A:2:A:{.[0].};U:NIL " )
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TEST_LINE( AEval( {}, {|| NIL } ) , "{.[0].}" )
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TEST_LINE( AEval( ErrorNew(), {|| NIL } ) , "ERROR Object" )
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#ifndef __XPP__
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TEST_LINE( AScan() , 0 )
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TEST_LINE( AScan( NIL ) , 0 )
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TEST_LINE( AScan( "A" ) , 0 )
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TEST_LINE( AScan( {} ) , 0 )
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#endif
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TEST_LINE( AScan( {}, "" ) , 0 )
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TEST_LINE( AScan( ErrorNew(), "NOT_FOUND") , 0 )
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#ifndef __XPP__
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TEST_LINE( ASort() , NIL )
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#endif
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TEST_LINE( ASort(10) , NIL )
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TEST_LINE( ASort({}) , "{.[0].}" )
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TEST_LINE( ASort(ErrorNew()) , NIL )
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#ifdef HB_C52_STRICT
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#ifndef __XPP__
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TEST_LINE( AFill() , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 A:4:U:NIL;B:{||...};U:NIL;U:NIL " )
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#endif
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TEST_LINE( AFill( NIL ) , "E 1 BASE 2017 Argument error (AEVAL) OS:0 #:0 A:4:U:NIL;B:{||...};U:NIL;U:NIL " )
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#else
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#ifndef __XPP__
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TEST_LINE( AFill() , "E 1 BASE 6004 Argument error (AFILL) OS:0 #:0 " )
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#endif
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TEST_LINE( AFill( NIL ) , "E 1 BASE 6004 Argument error (AFILL) OS:0 #:0 A:1:U:NIL " )
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#endif
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TEST_LINE( AFill( {} ) , "{.[0].}" )
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TEST_LINE( AFill( {}, 1 ) , "{.[0].}" )
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TEST_LINE( AFill( ErrorNew() ) , "ERROR Object" )
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TEST_LINE( AFill( ErrorNew(), 1 ) , "ERROR Object" )
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#ifndef __XPP__
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TEST_LINE( ADel() , NIL )
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TEST_LINE( ADel( NIL ) , NIL )
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TEST_LINE( ADel( { 1 } ) , "{.[1].}" )
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#endif
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TEST_LINE( ADel( { 1 }, 0 ) , "{.[1].}" )
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TEST_LINE( ADel( { 1 }, 100 ) , "{.[1].}" )
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TEST_LINE( ADel( { 1 }, 1 ) , "{.[1].}" )
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TEST_LINE( ADel( { 1 }, -1 ) , "{.[1].}" )
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TEST_LINE( ADel( { 1 }, 0 ) , "{.[1].}" )
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TEST_LINE( ADel( { 1 }, NIL ) , "{.[1].}" )
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#ifndef __XPP__
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TEST_LINE( ADel( ErrorNew() ) , "ERROR Object" )
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#endif
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TEST_LINE( ADel( ErrorNew(), 0 ) , "ERROR Object" )
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TEST_LINE( ADel( ErrorNew(), 100 ) , "ERROR Object" )
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TEST_LINE( ADel( ErrorNew(), 1 ) , "ERROR Object" )
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TEST_LINE( ADel( ErrorNew(), -1 ) , "ERROR Object" )
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TEST_LINE( ADel( ErrorNew(), 0 ) , "ERROR Object" )
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TEST_LINE( ADel( ErrorNew(), NIL ) , "ERROR Object" )
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#ifndef __XPP__
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TEST_LINE( AIns() , NIL )
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TEST_LINE( AIns( NIL ) , NIL )
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TEST_LINE( AIns( { 1 } ) , "{.[1].}" )
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#endif
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TEST_LINE( AIns( { 1 }, 0 ) , "{.[1].}" )
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TEST_LINE( AIns( { 1 }, 100 ) , "{.[1].}" )
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TEST_LINE( AIns( { 1 }, 1 ) , "{.[1].}" )
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TEST_LINE( AIns( { 1 }, -1 ) , "{.[1].}" )
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TEST_LINE( AIns( { 1 }, 0 ) , "{.[1].}" )
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TEST_LINE( AIns( { 1 }, NIL ) , "{.[1].}" )
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#ifndef __XPP__
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TEST_LINE( AIns( ErrorNew() ) , "ERROR Object" )
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#endif
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TEST_LINE( AIns( ErrorNew(), 0 ) , "ERROR Object" )
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TEST_LINE( AIns( ErrorNew(), 100 ) , "ERROR Object" )
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TEST_LINE( AIns( ErrorNew(), 1 ) , "ERROR Object" )
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TEST_LINE( AIns( ErrorNew(), -1 ) , "ERROR Object" )
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TEST_LINE( AIns( ErrorNew(), 0 ) , "ERROR Object" )
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TEST_LINE( AIns( ErrorNew(), NIL ) , "ERROR Object" )
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#ifndef __XPP__
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TEST_LINE( ATail() , NIL )
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#endif
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TEST_LINE( ATail( NIL ) , NIL )
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TEST_LINE( ATail( "" ) , NIL )
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TEST_LINE( ATail( {} ) , NIL )
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TEST_LINE( ATail( { 1, 2 } ) , 2 )
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TEST_LINE( ATail( ErrorNew() ) , NIL )
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#ifndef __XPP__
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#ifdef HB_COMPAT_C53
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TEST_LINE( ASize() , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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TEST_LINE( ASize( NIL ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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TEST_LINE( ASize( {} ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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TEST_LINE( ASize( ErrorNew() ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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#else
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TEST_LINE( ASize() , NIL )
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TEST_LINE( ASize( NIL ) , NIL )
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TEST_LINE( ASize( {} ) , NIL )
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TEST_LINE( ASize( ErrorNew() ) , NIL )
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#endif
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#endif
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#ifdef HB_COMPAT_C53
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TEST_LINE( ASize( NIL, 0 ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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TEST_LINE( ASize( NIL, 1 ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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TEST_LINE( ASize( NIL, -1 ) , "E 1 BASE 2023 Argument error (ASIZE) OS:0 #:0 " )
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#else
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TEST_LINE( ASize( NIL, 0 ) , NIL )
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TEST_LINE( ASize( NIL, 1 ) , NIL )
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TEST_LINE( ASize( NIL, -1 ) , NIL )
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#endif
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TEST_LINE( ASize( {}, 0 ) , "{.[0].}" )
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TEST_LINE( ASize( ErrorNew(), 0 ) , "ERROR Object" )
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TEST_LINE( ASize( {}, 1 ) , "{.[1].}" )
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TEST_LINE( ASize( { 1, 2 }, 1 ) , "{.[1].}" )
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TEST_LINE( ASize( { 1, "AAAA" }, 1 ) , "{.[1].}" )
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TEST_LINE( ASize( { "BBB", "AAAA" }, 0 ) , "{.[0].}" )
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TEST_LINE( ASize( ErrorNew(), 1 ) , "ERROR Object" )
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TEST_LINE( ASize( {}, -1 ) , "{.[0].}" )
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TEST_LINE( ASize( { 1 }, -1 ) , "{.[0].}" )
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#ifdef __HARBOUR__
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TEST_LINE( ASize( { 1 }, 5000 ) , "{.[5000].}" )
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#else
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TEST_LINE( ASize( { 1 }, 5000 ) , "{.[1].}" )
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#endif
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TEST_LINE( ASize( ErrorNew(), -1 ) , "ERROR Object" )
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TEST_LINE( ASize( ErrorNew(), 100 ) , "ERROR Object" )
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TEST_LINE( AAdd( NIL, NIL ) , "E 1 BASE 1123 Argument error (AADD) OS:0 #:0 A:2:U:NIL;U:NIL F:S" )
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TEST_LINE( AAdd( {}, NIL ) , NIL )
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TEST_LINE( AAdd( {}, "A" ) , "A" )
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TEST_LINE( AAdd( ErrorNew(), NIL ) , NIL )
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TEST_LINE( AAdd( ErrorNew(), "A" ) , "A" )
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#ifndef __XPP__
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TEST_LINE( Array() , NIL )
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#endif
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TEST_LINE( Array( 0 ) , "{.[0].}" )
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#ifdef __HARBOUR__
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TEST_LINE( Array( 5000 ) , "{.[5000].}" )
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#else
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TEST_LINE( Array( 5000 ) , "E 2 BASE 1131 Bound error (array dimension) OS:0 #:0 " )
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#endif
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TEST_LINE( Array( 1 ) , "{.[1].}" )
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TEST_LINE( Array( -1 ) , "E 2 BASE 1131 Bound error (array dimension) OS:0 #:0 " )
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TEST_LINE( Array( 1, 0, -10 ) , "E 2 BASE 1131 Bound error (array dimension) OS:0 #:0 " )
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TEST_LINE( Array( 1, 0, "A" ) , NIL )
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TEST_LINE( Array( 1, 0, 2 ) , "{.[1].}" )
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TEST_LINE( Array( 4, 3, 2 ) , "{.[4].}" )
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TEST_LINE( Array( 0, 3, 2 ) , "{.[0].}" )
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/* AFill() */
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TEST_LINE( TAStr(AFill(TANew(),"X") ) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X",NIL,-2)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X",NIL, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X",NIL, 3)) , "XXX......." )
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TEST_LINE( TAStr(AFill(TANew(),"X",NIL,20)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 0) ) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 0,-2)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 0, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 0, 3)) , "XXX......." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 0,20)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 1) ) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 1,-2)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 1, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 1, 3)) , "XXX......." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 1,20)) , "XXXXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 3) ) , "..XXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", 3,-2)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 3, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 3, 3)) , "..XXX....." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 3,20)) , "..XXXXXXXX" )
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TEST_LINE( TAStr(AFill(TANew(),"X", -1) ) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", -1,-2)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", -1, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", -1, 3)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", -1,20)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 21) ) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 21,-2)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 21, 0)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 21, 3)) , ".........." )
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TEST_LINE( TAStr(AFill(TANew(),"X", 21,20)) , ".........." )
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/* ACopy() */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1 )) , "ABCDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 0 )) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 3 )) , "ABC......." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 20 )) , "ABCDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3 )) , "CDEFGHIJ.." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 0 )) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 3 )) , "CDE......." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 20 )) , "CDEFGHIJ.." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21 )) , ".........." ) /* Bug in CA-Cl*pper, it will return: "J.........", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 0 )) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 3 )) , ".........." ) /* Bug in CA-Cl*pper, it will return: "J.........", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 20 )) , ".........." ) /* Bug in CA-Cl*pper, it will return: "J.........", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1,NIL, 1)) , "ABCDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 0, 1)) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 3, 0)) , "ABC......." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 3, 2)) , ".ABC......" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 3, 8)) , ".......ABC" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 3, 20)) , ".........A" ) /* Strange in CA-Cl*pper, it should return: ".........." */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 1, 20, 1)) , "ABCDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3,NIL, 3)) , "..CDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 0, 3)) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 3, 0)) , "CDE......." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 3, 2)) , ".CDE......" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 3, 8)) , ".......CDE" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 3, 20)) , ".........C" ) /* Strange in CA-Cl*pper, it should return: ".........." */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 3, 20, 3)) , "..CDEFGHIJ" )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21,NIL, 21)) , ".........." ) /* Bug in CA-Cl*pper, it will return: ".........J", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 0, 21)) , ".........." )
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 3, 0)) , ".........." ) /* Bug in CA-Cl*pper, it will return: "J.........", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 3, 2)) , ".........." ) /* Bug in CA-Cl*pper, it will return: ".J........", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 3, 8)) , ".........." ) /* Bug in CA-Cl*pper, it will return: ".......J..", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 3, 20)) , ".........." ) /* Bug in CA-Cl*pper, it will return: ".........J", fixed in 5.3a */
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TEST_LINE( TAStr(ACopy(TARng(),TANew(), 21, 20, 21)) , ".........." ) /* Bug in CA-Cl*pper, it will return: ".........J", fixed in 5.3a */
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/* ASort() */
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/* Different results in Harbour and CA-Cl*pper due to different
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sorting algorithms. Anyhow the results pattern should match.
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[vszakats] */
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#ifdef __HARBOUR__
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TEST_LINE( TAStr(ASort(TARRv(),,,{||NIL})) , "DCBAEFIHGJ" )
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TEST_LINE( TAStr(ASort(TARRv(),,,{||hb_SToD()})) , "DCBAEFIHGJ" )
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TEST_LINE( TAStr(ASort(TARRv(),,,{||"0"})) , "DCBAEFIHGJ" )
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TEST_LINE( TAStr(ASort(TARRv(),,,{||"1"})) , "DCBAEFIHGJ" )
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TEST_LINE( TAStr(ASort(TARRv(),,,{||"2"})) , "DCBAEFIHGJ" )
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TEST_LINE( TAStr(ASort(TARRv(),,,{||"a"})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"A"})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||""})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"z"})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||.T.})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||.F.})) , "FEIDGCHBJA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||2})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||1})) , "DCBAEFIHGJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||0})) , "FEIDGCHBJA" )
|
|
#else
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||NIL})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||hb_SToD()})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"0"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"1"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"2"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"a"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"A"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||""})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||"z"})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||.T.})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||.F.})) , "DCEABJIHFG" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||2})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||1})) , "IHGFEDCBAJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),,,{||0})) , "DCEABJIHFG" )
|
|
#endif
|
|
TEST_LINE( TAStr(ASort(TARRv())) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),NIL,NIL)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),NIL, -2)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),NIL, 0)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),NIL, 3)) , "HIJGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(),NIL, 20)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), -5 )) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), -5, -2)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), -5, 0)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), -5, 3)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), -5, 20)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 0 )) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 0, -2)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 0, 0)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 0, 3)) , "HIJGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 0, 20)) , "ABCDEFGHIJ" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 5 )) , "JIHGABCDEF" )
|
|
#ifdef __HARBOUR__
|
|
TEST_LINE( TAStr(ASort(TARRv(), 5, -2)) , "JIHGABCDEF" ) /* CA-Cl*pper will crash or GPF on that line. */
|
|
#endif
|
|
TEST_LINE( TAStr(ASort(TARRv(), 5, 0)) , "JIHGABCDEF" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 5, 3)) , "JIHGDEFCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 5, 20)) , "JIHGABCDEF" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 20 )) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 20, -2)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 20, 0)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 20, 3)) , "JIHGFEDCBA" )
|
|
TEST_LINE( TAStr(ASort(TARRv(), 20, 20)) , "JIHGFEDCBA" )
|
|
|
|
/* AScan() */
|
|
|
|
#ifndef __XPP__
|
|
TEST_LINE( AScan() , 0 )
|
|
TEST_LINE( AScan( NIL ) , 0 )
|
|
TEST_LINE( AScan( "A" ) , 0 )
|
|
#endif
|
|
TEST_LINE( AScan( "A", "A" ) , 0 )
|
|
TEST_LINE( AScan( "A", {|| .F. } ) , 0 )
|
|
TEST_LINE( AScan( {1,2,3}, {|| NIL } ) , 0 )
|
|
TEST_LINE( AScan( saAllTypes, scString ) , 1 )
|
|
#ifdef __HARBOUR__
|
|
TEST_LINE( AScan( @saAllTypes, scString ) , 1 ) /* Bug in CA-Cl*pper, it will return 0 */
|
|
TEST_LINE( AScan( saAllTypes, @scString ) , 1 ) /* Bug in CA-Cl*pper, it will return 0 */
|
|
#endif
|
|
TEST_LINE( AScan( saAllTypes, scStringE ) , 1 )
|
|
TEST_LINE( AScan( saAllTypes, scStringZ ) , 3 )
|
|
TEST_LINE( AScan( saAllTypes, snIntZ ) , 4 )
|
|
TEST_LINE( AScan( saAllTypes, snDoubleZ ) , 4 )
|
|
TEST_LINE( AScan( saAllTypes, snIntP ) , 6 )
|
|
TEST_LINE( AScan( saAllTypes, snLongP ) , 7 )
|
|
TEST_LINE( AScan( saAllTypes, snDoubleP ) , 8 )
|
|
TEST_LINE( AScan( saAllTypes, snIntN ) , 9 )
|
|
TEST_LINE( AScan( saAllTypes, snLongN ) , 10 )
|
|
TEST_LINE( AScan( saAllTypes, snDoubleN ) , 11 )
|
|
TEST_LINE( AScan( saAllTypes, snDoubleI ) , 4 )
|
|
TEST_LINE( AScan( saAllTypes, sdDateE ) , 13 )
|
|
TEST_LINE( AScan( saAllTypes, slFalse ) , 14 )
|
|
TEST_LINE( AScan( saAllTypes, slTrue ) , 15 )
|
|
TEST_LINE( AScan( saAllTypes, soObject ) , 0 )
|
|
TEST_LINE( AScan( saAllTypes, suNIL ) , 17 )
|
|
TEST_LINE( AScan( saAllTypes, sbBlock ) , 0 )
|
|
TEST_LINE( AScan( saAllTypes, sbBlockC ) , 0 )
|
|
TEST_LINE( AScan( saAllTypes, saArray ) , 0 )
|
|
SET EXACT ON
|
|
TEST_LINE( AScan( saAllTypes, scString ) , 1 )
|
|
TEST_LINE( AScan( saAllTypes, scStringE ) , 2 )
|
|
TEST_LINE( AScan( saAllTypes, scStringZ ) , 3 )
|
|
SET EXACT OFF
|
|
|
|
TEST_LINE( TAEVSM() , "N10N 9N 8N 7N 6N 5N 4N 3N 2N 1 0" ) /* Bug in CA-Cl*pper 5.x */
|
|
TEST_LINE( TASOSM1() , "NN 5NN 4NN 3NN 2NN 1NN 0NN 0NN 0NN 0NN 0NN 0NN 0 0{ }" )
|
|
TEST_LINE( TASOSM2() , "NN 5NN 4NN 3NN 2NN 1NN 0NN 0NN 0NN 0NN 0 0{ }" )
|
|
|
|
RETURN
|
|
|
|
STATIC FUNCTION TAEVSM()
|
|
|
|
LOCAL cString := ""
|
|
LOCAL aArray := Array( 10 )
|
|
|
|
AFill( aArray, 0 )
|
|
AEval( aArray, {| x | cString += ValType( x ) + Str( Len( aArray ), 2 ), ASize( aArray, Len( aArray ) - 1 ) } )
|
|
|
|
RETURN cString + Str( Len( aArray ) )
|
|
|
|
STATIC FUNCTION TASOSM1()
|
|
|
|
LOCAL cString := ""
|
|
LOCAL aArray := { 1, 2, 3, 4, 5 }
|
|
|
|
ASort( aArray, NIL, NIL, {| x, y | cString += ValType( x ) + ValType( y ) + Str( Len( aArray ), 2 ), ASize( aArray, Len( aArray ) - 1 ), x > y } )
|
|
|
|
RETURN cString + Str( Len( aArray ) ) + XToStrX( aArray )
|
|
|
|
STATIC FUNCTION TASOSM2()
|
|
|
|
LOCAL cString := ""
|
|
LOCAL aArray := { 1, 2, 3, 4, 5 }
|
|
|
|
ASort( aArray, NIL, NIL, {| x, y | cString += ValType( x ) + ValType( y ) + Str( Len( aArray ), 2 ), ASize( aArray, Len( aArray ) - 1 ) } )
|
|
|
|
RETURN cString + Str( Len( aArray ) ) + XToStrX( aArray )
|
|
|
|
STATIC FUNCTION TANew( cChar, nLen )
|
|
LOCAL aArray
|
|
LOCAL tmp
|
|
|
|
IF nLen == NIL
|
|
nLen := 10
|
|
ENDIF
|
|
|
|
IF cChar == NIL
|
|
cChar := "."
|
|
ENDIF
|
|
|
|
aArray := Array( nLen )
|
|
|
|
/* Intentionally not using AFill() here, since this function is
|
|
involved in testing AFill() itself. */
|
|
FOR tmp := 1 TO nLen
|
|
aArray[ tmp ] := cChar
|
|
NEXT
|
|
|
|
RETURN aArray
|
|
|
|
STATIC FUNCTION TARng( nLen )
|
|
LOCAL aArray
|
|
LOCAL tmp
|
|
|
|
IF nLen == NIL
|
|
nLen := 10
|
|
ENDIF
|
|
|
|
aArray := Array( nLen )
|
|
|
|
FOR tmp := 1 TO nLen
|
|
aArray[ tmp ] := Chr( Asc( "A" ) + tmp - 1 )
|
|
NEXT
|
|
|
|
RETURN aArray
|
|
|
|
STATIC FUNCTION TARRv( nLen )
|
|
LOCAL aArray
|
|
LOCAL tmp
|
|
|
|
IF nLen == NIL
|
|
nLen := 10
|
|
ENDIF
|
|
|
|
aArray := Array( nLen )
|
|
|
|
FOR tmp := 1 TO nLen
|
|
aArray[ tmp ] := Chr( Asc( "A" ) + nLen - tmp )
|
|
NEXT
|
|
|
|
RETURN aArray
|
|
|
|
STATIC FUNCTION TAStr( aArray )
|
|
LOCAL cString := ""
|
|
LOCAL tmp
|
|
LOCAL nLen := Len( aArray )
|
|
|
|
FOR tmp := 1 TO nLen
|
|
cString += aArray[ tmp ]
|
|
NEXT
|
|
|
|
RETURN cString
|
|
|
|
/* Don't change the position of this #include. */
|
|
#include "rt_init.ch"
|