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harbour-core/harbour/include/hbapicdp.h
Przemyslaw Czerpak 93d3a46d84 2012-04-20 17:52 UTC+0200 Przemyslaw Czerpak (druzus/at/poczta.onet.pl) 
* harbour/include/hbdefs.h
    * moved HB_WCHAR definition from hbapicdp.h to hbdefs.h

  * harbour/include/hbapicdp.h
  * harbour/include/hbcdpreg.h
  * harbour/src/rtl/cdpapi.c
  * harbour/src/rtl/cdpapihb.c
    + added support for custom sorting redirected from HVM
    + added support for custom character indexes in strings
    + added support for custom character flags (upper, lower, alpha, digit)
    + added support for custom upper/lower conversions
    + added support for CPs using unicode character values instead of
      ASCII ones
    + added new CP functions which respects custom CP settings:
        hb_cdpUpperWC(), hb_cdpTextLen(), hb_cdpTextPos(),
        hb_cdpTextPosEx(), hb_cdpTextGetU16(), hb_cdpTextPutU16(),
        hb_cdpCharEq(), hb_cdpCharCaseEq()
    + added new conversion functions:
        hb_cdpGetUC(), hb_cdpGetWC(), hb_cdpGetU16Ctrl()
    + added macros to detect codepage parameters:
         HB_CDP_ISBINSORT() - codepage uses simple binary sorting
         HB_CDP_ISCUSTOM()  - codepage uses custom string decoding
         HB_CDP_ISCHARIDX() - codepage use character indexes instead
                              of bytes ones
         HB_CDP_ISCHARUNI() - CHR(), ASC() and similar functions operates
                              on Unicode values instead of bytes
         HB_CDP_ISUTF8()    - codepage uses UTF-8 encoding

  * harbour/include/inkey.ch
    - removed HB_INKEY_EXTENDED - it was not used in Harbour
    + added new flag HB_INKEY_EXT - it allows to used different
      event encoding system with automatic translation to
      standard Clipper values. It will be used in the future
      as base for low level GTs code. Now it's possible to
      selectively switch to the new system. New codes are
      unique and do not interacts with Clipper.
    + added HB_INKEY_ALL macro - it's similar to INKEY_ALL but
      enables also GTEVENT keys.

  * harbour/include/hbgtcore.h
  * harbour/src/rtl/hbgtcore.c
    * changed character values in internal screen buffer to unicode.
      Warning: this modification interacts with SAVESCREE()/RESTSCREEN()
               data. Now all GTs uses extended definition. If somene
               has code which needs VGA like screen buffers returned
               by SAVESCREE() then it can be forced by
                  hb_gtInfo( HB_GTI_COMPATBUFFER, .t. )
               Anyhow it will for to use only one CP in output.
    + added new GT methods which operated on HB_WCHAR values
    * modified existing methods using HB_WCHAR/HB_USHORT parameters
      to operate on HB_WCHAR values
    + added codepage conversion code directly to core code so it can
      be eliminated from low level GT drivers which do not need some
      special operations on it.
    + added support for extended inkey codes, they allow to encoded
      unicode values, mouse events with flags, keyboard events with
      modifier flags (shift,alt,ctrl,...), etc.
      Now in low level GT code only unicode key values are used but
      I plan to updated all GTs and switch to new code - it should
      resolve many small problems inheriting with Clipper inkey codes.

  * harbour/include/hbapifs.h
    * moved hb_fsNameConvU16() definition from hbapicdp.h to hbapifs.h

  * harbour/include/hbxvm.h
    - removed comment copied by mistake from GT header file

  * harbour/include/hbwinuni.h
    * changed HB_CHARDUP() and HB_CHARDUPN() macros - now they
      operate on functions which can be used without active HVM.
      In such case ANSI CP is used as source encoding.
    + added new macros: HB_OSSTRDUP() and HB_OSSTRDUP2().
      They make conversions from OS encoding to HVM one.
      They can be used without active HVM and in such case ANSI CP
      is used as destination encoding.

  * harbour/include/hbapi.h
  * harbour/src/vm/cmdarg.c
    + added new function hb_cmdargProgName()
      It returns application name with path or NULL if not set,
      caller must free returned value with hb_xfree() if not NULL.
      The string is in HVM encoding so it does not need any additional
      encodings.
    * modified hb_cmdargString() to return strings in HVM encoding.
    % some small code optimizations
    ; NOTE: parameters passed to MS-WINDOWS GUI programs which use
            WinMain() instead of main() as startup entry are translated
            to ANSICP before they can be accessed by application.
            This can be eliminated though not for console programs
            using where C compiler makes such translation to main()
            parameters.
            in all systems parameters are passed to application
            startup and init functions before programmer can set OS CP.
            This can be resolved by adding:
               INIT PROC CLIPINIT()
                  SET( _SET_CODEPAGE, <userCP> )
                  SET( _SET_OSCODEPAGE, <systemCP> )
               RETURN
            to linked code. INIT procedures called CLIPINIT() are
            executed before any other ones.

  * harbour/include/hbapi.h
  * harbour/src/vm/set.c
    + added new functions for CP converisons which can be used with
      and without active HVM:
         hb_osStrEncode(), hb_osStrEncodeN(),
         hb_osStrDecode(), hb_osStrDecode2(),
         hb_osStrU16Encode(), hb_osStrU16EncodeN(),
         hb_osStrU16Decode(), hb_osStrU16Decode2(),

  * harbour/include/hbvm.h
  * harbour/src/vm/hvm.c
    + added new function hb_vmIsReady() - it's similar to hb_vmActive()
      but it also checks if current thread has active HVM stack.
    * moved hb_cdpReleaseAll() to the end of HVM cleanup code so
      CP conversions are longer active.

  * harbour/include/hbcomp.h
  * harbour/src/compiler/cmdcheck.c
  * harbour/src/compiler/hbusage.c
  * harbour/src/common/expropt2.c
    + added new compiler switch:
         -ku  - strings in user encoding
      Now it informs compiler that strings use custom encoding so some
      optimizations which are byte oriented cannot be used.
      It's possible that in the future we will change above definition
      to sth like: "strings in UTF8 encoding" but now I would like to
      keep more general.

  * harbour/src/vm/macro.c
    * inform macrocompiler about custom CPs using own character indexes
      to disable byte oriented optimizations.

  * harbour/include/hbapigt.h
  * harbour/src/rtl/gtapi.c
  * harbour/src/rtl/inkeyapi.c
    + added HB_B_*_W macros with unicode box character definitions
    + added HB_MBUTTON_* macros
    + added new GT functions: hb_gtHostCP() and hb_gtBoxCP() which
      allows to extract CPs used in translations by GTs.
    + added new function hb_inkeyKeyString() - it converts inkey value
      to corresponding string
    + added new function hb_inkeyKeyStd() - it converts new extended
      key value to standard Clipper one.

  * harbour/include/hbapifs.h
  * harbour/src/common/hbffind.c
    * moved OS codepage translations fully to hb_fsFind*() functions.
      It fixes few problems which existed before, i.e. double CP
      conversions in MS-Windows builds and simplifies upper level code.

  * harbour/src/pp/hbpp.c
  * harbour/src/rtl/direct.c
  * harbour/src/rtl/fssize.c
  * harbour/src/rtl/file.c
  * harbour/contrib/hbct/files.c
    * eliminated not longer necessary CP conversions in code calling
      hb_fsFind*() functions.

  * harbour/src/common/hbgete.c
    * moved OS codepage translations to hb_getenv(), hb_getenv_buffer()
      and hb_setenv() functions. It fixes few problems which existed
      before, i.e. double CP conversions in MS-Windows builds and
      simplifies upper level code.

  * harbour/src/rtl/net.c
  * harbour/src/rtl/gete.c
    * eliminated not longer necessary CP conversions in code calling
      hb_getenv()/hb_setenv() functions.
    ; NOTE: additional parameters in HB_GETENV() and HB_SETENV() which
            disabled CP conversions are not longer supported.
            They were strictly platform dependent and ignored in chosen
            cases (i.e. in MS-Windows UNICODE builds we always have to
            convert strings transferred between HVM and OS. If someone
            needs old functionality for other platform then he should
            temporary disable _SET_OSCODEPAGE.

  * harbour/src/common/hbver.c
  * harbour/src/common/hbfsapi.c
  * harbour/src/rtl/fstemp.c
  * harbour/src/rtl/fslink.c
    * eliminated HB_TCHAR_*() macros

  * harbour/src/common/strwild.c
    + added supprot for custom CPs using own character indexes in:
         hb_strMatchWild(),
         hb_strMatchWildExact(),
         hb_strMatchCaseWildExact()

  * harbour/src/nortl/nortl.c
    + added new dummy function replacement for binaries which are not
      linked with HVM.

  * harbour/src/rtl/filesys.c
    ! fixed double CP conversions in MS-Windows builds of hb_fsCurDirBuff()
    * use hb_vmIsReady() instead of hb_stackId() in file name conversions.
    * use hb_cmdargProgName() in hb_fsBaseDirBuff()

  * harbour/src/rtl/philes.c
    * use hb_cmdargProgName() in HB_PROGNAME() function.

  * harbour/src/rtl/gtcgi/gtcgi.c
  * harbour/src/rtl/gtstd/gtstd.c
  * harbour/src/rtl/gtpca/gtpca.c
  * harbour/src/rtl/gtdos/gtdos.c
  * harbour/src/rtl/gtos2/gtos2.c
  * harbour/src/rtl/gtwin/gtwin.c
  * harbour/src/rtl/gtwvt/gtwvt.h
  * harbour/src/rtl/gtwvt/gtwvt.c
  * harbour/src/rtl/gttrm/gttrm.c
  * harbour/src/rtl/gtcrs/gtcrs.c
  * harbour/src/rtl/gtsln/gtsln.c
  * harbour/src/rtl/gtsln/kbsln.c
  * harbour/src/rtl/gtsln/gtsln.h
  * harbour/src/rtl/gtxwc/gtxwc.h
  * harbour/src/rtl/gtxwc/gtxwc.c
  * harbour/contrib/gtwvg/gtwvg.c
  * harbour/contrib/gtwvg/gtwvg.h
  * harbour/contrib/gtalleg/gtalleg.c
  * harbour/contrib/hbqt/gtqtc/gtqtc.cpp
  * harbour/contrib/hbqt/gtqtc/gtqtc.h
    * updated to work with new unicode GT API
      please make tests with different GTs - I'm not able to test
      all of them, i.e. I do not have any OS2 machine.

  * harbour/src/rtl/box.c
  * harbour/src/rtl/oldbox.c
  * harbour/src/rtl/scroll.c
  * harbour/src/rtl/console.c
    * updated to work with new unicode GT API and
      CPs using custom character indexes

  * harbour/src/rtl/at.c
  * harbour/src/rtl/ati.c
  * harbour/src/rtl/rat.c
  * harbour/src/rtl/len.c
  * harbour/src/rtl/transfrm.c
  * harbour/src/rtl/left.c
  * harbour/src/rtl/right.c
  * harbour/src/rtl/substr.c
  * harbour/src/rtl/stuff.c
  * harbour/src/rtl/padc.c
  * harbour/src/rtl/padl.c
  * harbour/src/rtl/padr.c
    * updated to work with CPs using custom character indexes

  * harbour/src/rtl/chrasc.c
    + added support for HB_CDP_ISCHARUNI() CPs.

  * harbour/src/rtl/mlcfunc.c
    * rewritten from scratch to work with CPs using custom character
      indexes

  * harbour/src/rtl/accept.c
    * updated to work with unicode inkey values and
      CPs using custom character indexes

  * harbour/src/rtl/strmatch.c
    % small optimization

  * harbour/src/rtl/Makefile
  + harbour/src/rtl/chruni.c
    + added new PRG functions which allows to make byte/binary and
      unicode/character operations on strings:
         HB_UCHAR( <nCode> ) -> <cText>
            return string with U+nCode character in HVM CP encoding
         HB_BCHAR( <nCode> ) -> <cText>
            return 1 byte string with <nCode> value
         HB_UCODE( <cText> ) -> <nCode>
            return unicode value of 1-st character (not byte) in given string
         HB_BCODE( <cText> ) -> <nCode>
            return value of 1-st byte in given string
         HB_ULEN( <cText> ) -> <nChars>
            return string length in characters
         HB_BLEN( <cText> ) -> <nBytes>
            return string length in bytes
         HB_UPEEK( <cText>, <n> ) -> <nCode>
            return unicode value of <n>-th character in given string
         HB_BPEEK( <cText>, <n> ) -> <nCode>
            return value of <n>-th byte in given string
         HB_UPOKE( [@]<cText>, <n>, <nVal> ) -> <cText>
            change <n>-th character in given string to unicode <nVal> one and
            return modified text
         HB_BPOKE( [@]<cText>, <n>, <nVal> ) -> <cText>
            change <n>-th byte in given string to <nVal> and return modified
            text

  * harbour/src/rtl/hbdoc.prg
  * harbour/src/rtl/memvarhb.prg
    * use HB_BCHAR() for binary string definitions

  * harbour/src/rtl/hbi18n2.prg
    * use hb_utf8CHR( 0xFEFF ) instead of hardcoded binary sting and
      HB_BLEN() instead of LEN()

  * harbour/src/rtl/inkey.c
    + added new functions:
         HB_KEYCHAR( <nKey> ) -> <cChar>
         HB_KEYSTD( <nExtKey> ) -> <nClipKey>
    ! use HB_INKEY_ALL instead of INKEY_ALL in LASTKEY()

  * harbour/src/rtl/achoice.prg
  * harbour/src/rtl/browse.prg
  * harbour/src/rtl/menuto.prg
  * harbour/src/rtl/tgetlist.prg
  * harbour/src/rtl/teditor.prg
  * harbour/src/rtl/tlabel.prg
  * harbour/src/rtl/tpopup.prg
  * harbour/src/rtl/radiobtn.prg
  * harbour/src/rtl/radiogrp.prg
  * harbour/src/rtl/wait.prg
    * updated to work with unicode inkey() values

  * harbour/src/rtl/listbox.prg
    * use box.ch macros instead of explicit CHR(...) definitions

  * harbour/src/rtl/ttopbar.prg
    * updated to work with different type of CPs

  * harbour/src/rtl/scrollbr.prg
    * formatting

  * harbour/src/rtl/mouse53.c
    * use HB_MBUTTON_* macros instead of local ones

  * harbour/src/codepage/cp_utf8.c
  + harbour/src/codepage/uc16def.c
  + harbour/src/codepage/utf8sort.c
    * replaced UTF8ASC with new CP: UTF8EX
      This CP uses character indexes instead of bytes one
      and operates on unicode characters flags.
      Tables for upper/lower conversions and upper/lower/alpha/digit
      flags were generated automatically from
         http://www.unicode.org/Public/UNIDATA/UnicodeData.txt
      It also uses custom collation rules. It's very simple one
      level sorting based on UTF8 C collation.
      If someone needs some advanced sorting rules, then it's enough
      to create copy of this cp with user custom version of UTF8_cmp()
      and UTF8_cmpi() functions, i.e. they can be redirected to some
      external library like ICU (icu-project.org).

  * harbour/contrib/hbct/ctwin.c
  * harbour/contrib/hbct/ctwin.h
  * harbour/contrib/hbct/ctwfunc.c
    * added support for new unicode GT API

  * harbour/contrib/xhb/xhbfunc.c
    * redirected HB_CMDARGARGV() to HB_PROGNAME()

  * harbour/contrib/hbnf/origin.c
    * redirected FT_ORIGIN() to HB_PROGNAME()

  * harbour/contrib/hbnf/getenvrn.c
    ! windows version of FT_GETE() fully rewritten - it should
      fix well known problems reported to the devel list. Please test.
    % small optimization for other systems

  * harbour/contrib/hbfship/exec.c
    * use hb_cmdargProgName() in EXECNAME()

  + harbour/tests/uc16_gen.prg
    + added code which generates tables with unicode character flags
      from http://www.unicode.org/Public/UNIDATA/UnicodeData.txt.
      harbour/src/codepage/uc16def.c was generated by this code.

  * harbour/tests/inkeytst.prg
  * harbour/tests/wvtext.prg
  * harbour/tests/gtkeys.prg
    * use HB_INKEY_ALL

  * harbour/include/harbour.hbx
  * harbour/include/hbcpage.hbx
  * harbour/include/hblang.hbx
    * regenerated

   ; It was quite big peace of modifications and for sure not everything
     is well tested so please make test and report problems you will find.
   ; This is basic version which introduce to HVM CPs with custom encodings.
     Some contrib code has to be updated to work correctly with it.
     I hope that developers interesting in will make necessary updates.
     I haven't touched GTWVW code at all - sorry but it needs very serious
     work to make it production ready and fix all existing problems.
   ; Special thanks to OTC - this firm sponsored adding basic UTF8 support
     to HVM.
2012-04-20 15:55:44 +00:00

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/*
* $Id$
*/
/*
* Harbour Project source code:
* Header file for the CodePages API
*
* Copyright 2002 Alexander S.Kresin <alex@belacy.belgorod.su>
* Copyright 2009 Przemyslaw Czerpak <druzus / at / priv.onet.pl>
* www - http://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.
*
*/
#ifndef HB_APICDP_H_
#define HB_APICDP_H_
#include "hbapi.h"
#include "hbinit.h"
HB_EXTERN_BEGIN
/* This hack is needed to force preprocessing if id is also a macro */
#define HB_CODEPAGE_REQUEST( id ) HB_CODEPAGE_REQUEST_( id )
#define HB_CODEPAGE_REQUEST_( id ) HB_FUNC_EXTERN( HB_CODEPAGE_##id ); \
extern void hb_codepage_ForceLink_##id( void ); \
void hb_codepage_ForceLink_##id( void ) \
{ \
HB_FUNC_EXEC( HB_CODEPAGE_##id ); \
}
#define HB_CODEPAGE_ANNOUNCE( id ) HB_CODEPAGE_ANNOUNCE_( id )
#define HB_CODEPAGE_ANNOUNCE_( id ) HB_FUNC( HB_CODEPAGE_##id ) {}
/* forward declaration */
struct _HB_CODEPAGE;
#define HB_CODEPAGE_PTR struct _HB_CODEPAGE *
#define HB_CDPCHAR_GET( c, s, n, i, w ) (c)->wcharGet( c, s, n, i, w )
#define HB_CDPCHAR_PUT( c, s, n, i, w ) (c)->wcharPut( c, s, n, i, w )
#define HB_CDPCHAR_LEN( c, w ) (c)->wcharLen( c, w )
#define HB_CDPCHAR_UPPER( c, w ) (c)->wcharUpper( c, w )
#define HB_CDPCHAR_LOWER( c, w ) (c)->wcharLower( c, w )
#define HB_CDPCHAR_FLAGS( c, w ) (c)->wcharFlags( c, w )
#define HB_CDPCHAR_CMP( c, s1, n1, s2, n2, e ) (c)->wcharCmp( c, s1, n1, s2, n2, e )
#define HB_CDPCHAR_CMPI( c, s1, n1, s2, n2, e ) (c)->wcharCmpI( c, s1, n1, s2, n2, e )
#define HB_CDP_GET_FUNC( func ) HB_BOOL func( HB_CODEPAGE_PTR cdp, const char * pSrc, HB_SIZE nLen, HB_SIZE * pnIndex, HB_WCHAR * wc )
typedef HB_CDP_GET_FUNC( ( * PHB_CDP_GET_FUNC ) );
#define HB_CDP_PUT_FUNC( func ) HB_BOOL func( HB_CODEPAGE_PTR cdp, char * pDst, HB_SIZE nLen, HB_SIZE * pnIndex, HB_WCHAR wc )
typedef HB_CDP_PUT_FUNC( ( * PHB_CDP_PUT_FUNC ) );
#define HB_CDP_LEN_FUNC( func ) int func( HB_CODEPAGE_PTR cdp, HB_WCHAR wc )
typedef HB_CDP_LEN_FUNC( ( * PHB_CDP_LEN_FUNC ) );
#define HB_CDP_UPPER_FUNC( func ) int func( HB_CODEPAGE_PTR cdp, HB_WCHAR wc )
typedef HB_CDP_UPPER_FUNC( ( * PHB_CDP_UPPER_FUNC ) );
#define HB_CDP_LOWER_FUNC( func ) int func( HB_CODEPAGE_PTR cdp, HB_WCHAR wc )
typedef HB_CDP_LOWER_FUNC( ( * PHB_CDP_LOWER_FUNC ) );
#define HB_CDP_FLAGS_FUNC( func ) int func( HB_CODEPAGE_PTR cdp, HB_WCHAR wc )
typedef HB_CDP_FLAGS_FUNC( ( * PHB_CDP_FLAGS_FUNC ) );
#define HB_CDP_CMP_FUNC( func ) int func( HB_CODEPAGE_PTR cdp, const char * szFirst, HB_SIZE nLenFirst, const char * szSecond, HB_SIZE nLenSecond, HB_BOOL fExact )
typedef HB_CDP_CMP_FUNC( ( * PHB_CDP_CMP_FUNC ) );
typedef struct _HB_UNITABLE
{
const char * uniID;
const HB_WCHAR * uniCodes;
HB_UCHAR * uniTrans;
HB_WCHAR wcMax;
} HB_UNITABLE, * PHB_UNITABLE;
typedef struct _HB_MULTICHAR
{
char cFirst[ 2 ];
char cLast[ 2 ];
int sortUp;
int sortLo;
HB_WCHAR wcUp;
HB_WCHAR wcLo;
} HB_MULTICHAR, * PHB_MULTICHAR;
typedef struct _HB_CODEPAGE
{
const char * id;
const char * info;
PHB_UNITABLE uniTable;
const HB_UCHAR * flags;
const HB_UCHAR * upper;
const HB_UCHAR * lower;
const HB_UCHAR * sort;
const HB_UCHAR * acc;
int nACSort;
int type;
PHB_CDP_GET_FUNC wcharGet;
PHB_CDP_PUT_FUNC wcharPut;
PHB_CDP_LEN_FUNC wcharLen;
PHB_CDP_UPPER_FUNC wcharUpper;
PHB_CDP_LOWER_FUNC wcharLower;
PHB_CDP_FLAGS_FUNC wcharFlags;
PHB_CDP_CMP_FUNC wcharCmp;
PHB_CDP_CMP_FUNC wcharCmpI;
int nMulti;
int nMultiUC;
PHB_MULTICHAR multi;
void * buffer;
struct _HB_CODEPAGE * next;
} HB_CODEPAGE, * PHB_CODEPAGE;
#define HB_CPID_437 "cp437"
#define HB_CPID_737 "cp737"
#define HB_CPID_775 "cp775"
#define HB_CPID_850 "cp850"
#define HB_CPID_852 "cp852"
#define HB_CPID_855 "cp855"
#define HB_CPID_857 "cp857"
#define HB_CPID_858 "cp858"
#define HB_CPID_860 "cp860"
#define HB_CPID_861 "cp861"
#define HB_CPID_862 "cp862"
#define HB_CPID_863 "cp863"
#define HB_CPID_864 "cp864"
#define HB_CPID_865 "cp865"
#define HB_CPID_866 "cp866"
#define HB_CPID_869 "cp869"
#define HB_CPID_874 "cp874"
#define HB_CPID_1125 "cp1125"
#define HB_CPID_1250 "cp1250"
#define HB_CPID_1251 "cp1251"
#define HB_CPID_1252 "cp1252"
#define HB_CPID_1253 "cp1253"
#define HB_CPID_1254 "cp1254"
#define HB_CPID_1255 "cp1255"
#define HB_CPID_1256 "cp1256"
#define HB_CPID_1257 "cp1257"
#define HB_CPID_1258 "cp1258"
#define HB_CPID_8859_1 "iso8859-1"
#define HB_CPID_8859_1B "iso8859-1b"
#define HB_CPID_8859_2 "iso8859-2"
#define HB_CPID_8859_3 "iso8859-3"
#define HB_CPID_8859_4 "iso8859-4"
#define HB_CPID_8859_5 "iso8859-5"
#define HB_CPID_8859_6 "iso8859-6"
#define HB_CPID_8859_7 "iso8859-7"
#define HB_CPID_8859_8 "iso8859-8"
#define HB_CPID_8859_9 "iso8859-9"
#define HB_CPID_8859_10 "iso8859-10"
#define HB_CPID_8859_11 "iso8859-11"
#define HB_CPID_8859_13 "iso8859-13"
#define HB_CPID_8859_14 "iso8859-14"
#define HB_CPID_8859_15 "iso8859-15"
#define HB_CPID_8859_16 "iso8859-16"
#define HB_CPID_KOI_8 "koi-8"
#define HB_CPID_KOI_8U "koi-8u"
#define HB_CPID_KAM "kamenicky"
#define HB_CPID_MAZ "mazovia"
#define HB_CPID_MIK "bg-mik"
#define HB_CPID_037 "cp037"
#define HB_CPID_424 "cp424"
#define HB_CPID_500 "cp500"
#define HB_CPID_856 "cp856"
#define HB_CPID_875 "cp875"
#define HB_CPID_1006 "cp1006"
#define HB_CPID_1026 "cp1026"
#define HB_CPID_10000 "macroman"
#define HB_CPID_10006 "macgreek"
#define HB_CPID_10007 "maccyrillic"
#define HB_CPID_10029 "maccentraleurope"
#define HB_CPID_10079 "maciceland"
#define HB_CPID_10081 "macturkish"
#define HB_CPID_ATARIST "atarist"
#define HB_CPID_NEXTSTEP "nextstep"
#define HB_CPID_USASCII "us-ascii"
#define HB_CPID_646YU "iso646-yu"
#define HB_CPID_646YUC "iso646-yuc"
#define HB_UNITB_437 &hb_uniTbl_437
#define HB_UNITB_737 &hb_uniTbl_737
#define HB_UNITB_775 &hb_uniTbl_775
#define HB_UNITB_850 &hb_uniTbl_850
#define HB_UNITB_852 &hb_uniTbl_852
#define HB_UNITB_855 &hb_uniTbl_855
#define HB_UNITB_857 &hb_uniTbl_857
#define HB_UNITB_858 &hb_uniTbl_858
#define HB_UNITB_860 &hb_uniTbl_860
#define HB_UNITB_861 &hb_uniTbl_861
#define HB_UNITB_862 &hb_uniTbl_862
#define HB_UNITB_863 &hb_uniTbl_863
#define HB_UNITB_864 &hb_uniTbl_864
#define HB_UNITB_865 &hb_uniTbl_865
#define HB_UNITB_866 &hb_uniTbl_866
#define HB_UNITB_869 &hb_uniTbl_869
#define HB_UNITB_874 &hb_uniTbl_874
#define HB_UNITB_1125 &hb_uniTbl_1125
#define HB_UNITB_1250 &hb_uniTbl_1250
#define HB_UNITB_1251 &hb_uniTbl_1251
#define HB_UNITB_1252 &hb_uniTbl_1252
#define HB_UNITB_1253 &hb_uniTbl_1253
#define HB_UNITB_1254 &hb_uniTbl_1254
#define HB_UNITB_1255 &hb_uniTbl_1255
#define HB_UNITB_1256 &hb_uniTbl_1256
#define HB_UNITB_1257 &hb_uniTbl_1257
#define HB_UNITB_1258 &hb_uniTbl_1258
#define HB_UNITB_8859_1 &hb_uniTbl_8859_1
#define HB_UNITB_8859_1B &hb_uniTbl_8859_1b
#define HB_UNITB_8859_2 &hb_uniTbl_8859_2
#define HB_UNITB_8859_3 &hb_uniTbl_8859_3
#define HB_UNITB_8859_4 &hb_uniTbl_8859_4
#define HB_UNITB_8859_5 &hb_uniTbl_8859_5
#define HB_UNITB_8859_6 &hb_uniTbl_8859_6
#define HB_UNITB_8859_7 &hb_uniTbl_8859_7
#define HB_UNITB_8859_8 &hb_uniTbl_8859_8
#define HB_UNITB_8859_9 &hb_uniTbl_8859_9
#define HB_UNITB_8859_10 &hb_uniTbl_8859_10
#define HB_UNITB_8859_11 &hb_uniTbl_8859_11
#define HB_UNITB_8859_13 &hb_uniTbl_8859_13
#define HB_UNITB_8859_14 &hb_uniTbl_8859_14
#define HB_UNITB_8859_15 &hb_uniTbl_8859_15
#define HB_UNITB_8859_16 &hb_uniTbl_8859_16
#define HB_UNITB_KOI_8 &hb_uniTbl_KOI_8
#define HB_UNITB_KOI_8U &hb_uniTbl_KOI_8U
#define HB_UNITB_KAM &hb_uniTbl_kamenicky
#define HB_UNITB_MAZ &hb_uniTbl_mazovia
#define HB_UNITB_MIK &hb_uniTbl_MIK
#define HB_UNITB_037 &hb_uniTbl_037
#define HB_UNITB_424 &hb_uniTbl_424
#define HB_UNITB_500 &hb_uniTbl_500
#define HB_UNITB_856 &hb_uniTbl_856
#define HB_UNITB_875 &hb_uniTbl_875
#define HB_UNITB_1006 &hb_uniTbl_1006
#define HB_UNITB_1026 &hb_uniTbl_1026
#define HB_UNITB_10000 &hb_uniTbl_10000
#define HB_UNITB_10006 &hb_uniTbl_10006
#define HB_UNITB_10007 &hb_uniTbl_10007
#define HB_UNITB_10029 &hb_uniTbl_10029
#define HB_UNITB_10079 &hb_uniTbl_10079
#define HB_UNITB_10081 &hb_uniTbl_10081
#define HB_UNITB_ATARIST &hb_uniTbl_ATARIST
#define HB_UNITB_NEXTSTEP &hb_uniTbl_NEXTSTEP
#define HB_UNITB_USASCII &hb_uniTbl_USASCII
#define HB_UNITB_646YU &hb_uniTbl_646YU
#define HB_UNITB_646YUC &hb_uniTbl_646YUC
#define HB_UNITB_UNDEF NULL /* ((PHB_UNITABLE) (-1)) */
extern HB_UNITABLE hb_uniTbl_437;
extern HB_UNITABLE hb_uniTbl_737;
extern HB_UNITABLE hb_uniTbl_775;
extern HB_UNITABLE hb_uniTbl_850;
extern HB_UNITABLE hb_uniTbl_852;
extern HB_UNITABLE hb_uniTbl_855;
extern HB_UNITABLE hb_uniTbl_857;
extern HB_UNITABLE hb_uniTbl_858;
extern HB_UNITABLE hb_uniTbl_860;
extern HB_UNITABLE hb_uniTbl_861;
extern HB_UNITABLE hb_uniTbl_862;
extern HB_UNITABLE hb_uniTbl_863;
extern HB_UNITABLE hb_uniTbl_864;
extern HB_UNITABLE hb_uniTbl_865;
extern HB_UNITABLE hb_uniTbl_866;
extern HB_UNITABLE hb_uniTbl_869;
extern HB_UNITABLE hb_uniTbl_874;
extern HB_UNITABLE hb_uniTbl_1125;
extern HB_UNITABLE hb_uniTbl_1250;
extern HB_UNITABLE hb_uniTbl_1251;
extern HB_UNITABLE hb_uniTbl_1252;
extern HB_UNITABLE hb_uniTbl_1253;
extern HB_UNITABLE hb_uniTbl_1254;
extern HB_UNITABLE hb_uniTbl_1255;
extern HB_UNITABLE hb_uniTbl_1256;
extern HB_UNITABLE hb_uniTbl_1257;
extern HB_UNITABLE hb_uniTbl_1258;
extern HB_UNITABLE hb_uniTbl_8859_1;
extern HB_UNITABLE hb_uniTbl_8859_1b;
extern HB_UNITABLE hb_uniTbl_8859_2;
extern HB_UNITABLE hb_uniTbl_8859_3;
extern HB_UNITABLE hb_uniTbl_8859_4;
extern HB_UNITABLE hb_uniTbl_8859_5;
extern HB_UNITABLE hb_uniTbl_8859_6;
extern HB_UNITABLE hb_uniTbl_8859_7;
extern HB_UNITABLE hb_uniTbl_8859_8;
extern HB_UNITABLE hb_uniTbl_8859_9;
extern HB_UNITABLE hb_uniTbl_8859_10;
extern HB_UNITABLE hb_uniTbl_8859_11;
extern HB_UNITABLE hb_uniTbl_8859_13;
extern HB_UNITABLE hb_uniTbl_8859_14;
extern HB_UNITABLE hb_uniTbl_8859_15;
extern HB_UNITABLE hb_uniTbl_8859_16;
extern HB_UNITABLE hb_uniTbl_KOI_8;
extern HB_UNITABLE hb_uniTbl_KOI_8U;
extern HB_UNITABLE hb_uniTbl_kamenicky;
extern HB_UNITABLE hb_uniTbl_mazovia;
extern HB_UNITABLE hb_uniTbl_MIK;
extern HB_UNITABLE hb_uniTbl_037;
extern HB_UNITABLE hb_uniTbl_424;
extern HB_UNITABLE hb_uniTbl_500;
extern HB_UNITABLE hb_uniTbl_856;
extern HB_UNITABLE hb_uniTbl_875;
extern HB_UNITABLE hb_uniTbl_1006;
extern HB_UNITABLE hb_uniTbl_1026;
extern HB_UNITABLE hb_uniTbl_10000;
extern HB_UNITABLE hb_uniTbl_10006;
extern HB_UNITABLE hb_uniTbl_10007;
extern HB_UNITABLE hb_uniTbl_10029;
extern HB_UNITABLE hb_uniTbl_10079;
extern HB_UNITABLE hb_uniTbl_10081;
extern HB_UNITABLE hb_uniTbl_ATARIST;
extern HB_UNITABLE hb_uniTbl_NEXTSTEP;
extern HB_UNITABLE hb_uniTbl_USASCII;
extern HB_UNITABLE hb_uniTbl_646YU;
extern HB_UNITABLE hb_uniTbl_646YUC;
extern HB_EXPORT PHB_CODEPAGE hb_vmCDP( void );
extern HB_EXPORT void hb_vmSetCDP( PHB_CODEPAGE pCDP );
/* character flags */
#define HB_CDP_DIGIT 0x01
#define HB_CDP_ALPHA 0x02
#define HB_CDP_LOWER 0x04
#define HB_CDP_UPPER 0x08
#define HB_CDP_MULTI1 0x10
#define HB_CDP_MULTI2 0x20
/* accented character sorting */
#define HB_CDP_ACSORT_NONE 0 /* no special sorting for accented
characters */
#define HB_CDP_ACSORT_EQUAL 1 /* accented characters have the same
weight as corresponding unaccented
ones */
#define HB_CDP_ACSORT_INTERLEAVED 2 /* accented characters sort after
their unaccented counterparts only
if the unaccented versions of all
characters being compared are the
same ( interleaving ) */
/* letter case sensitive sorting */
#define HB_CDP_CSSORT_UPLO 0 /* upper letters first then lower
ones */
#define HB_CDP_CSSORT_MIXED 1 /* upper and lower letters are
mixed */
#define HB_CDP_CSSORT_IGNORE 2 /* ignore case */
/* byte order */
#define HB_CDP_ENDIAN_NATIVE 0
#define HB_CDP_ENDIAN_LITTLE 1
#define HB_CDP_ENDIAN_BIG 2
/* codepage types */
#define HB_CDP_TYPE_CUSTOM 0x0001
#define HB_CDP_TYPE_CHARIDX 0x0002
#define HB_CDP_TYPE_CHARUNI 0x0004
#define HB_CDP_TYPE_BINSORT 0x0008
#define HB_CDP_TYPE_UTF8 0x0010
/* maximal size of unicode character in 'char' representation for buffers
* To encode all ISO 10646 Universal Character Set (UCS) values (characters
* can en encoded in 31-bit code space) in UTF-8 we need 6 bytes.
* UC2 characters (16bytes) encoded in UTF8 needs 3 bytes.
* 8 seems to be a little bit redundant and large enough for all encodings.
* In theory some other encodings may need more bytes but I do not know any
* one used in practice. [druzus]
*/
#define HB_MAX_CHAR_LEN 8
/* codepage uses simple binary sorting */
#define HB_CDP_ISBINSORT(cdp) ( ( ( cdp )->type & HB_CDP_TYPE_BINSORT ) != 0 )
/* codepage uses custom string decoding */
#define HB_CDP_ISCUSTOM(cdp) ( ( ( cdp )->type & HB_CDP_TYPE_CUSTOM ) != 0 )
/* codepage use character indexes instead of bytes ones */
#define HB_CDP_ISCHARIDX(cdp) ( ( ( cdp )->type & HB_CDP_TYPE_CHARIDX ) != 0 )
/* CHR(), ASC() and similar functions operates on Unicode values instead of bytes */
#define HB_CDP_ISCHARUNI(cdp) ( ( ( cdp )->type & HB_CDP_TYPE_CHARUNI ) != 0 )
/* codepage uses UTF-8 encoding */
#define HB_CDP_ISUTF8(cdp) ( ( ( cdp )->type & HB_CDP_TYPE_UTF8 ) != 0 )
extern HB_EXPORT HB_BOOL hb_cdpRegisterRaw( PHB_CODEPAGE cdp );
extern HB_EXPORT HB_BOOL hb_cdpRegisterNew( const char * id,
const char * info,
PHB_UNITABLE uniTable,
const char * pszUpper,
const char * pszLower,
unsigned int nACSort,
unsigned int nCaseSort );
extern HB_EXPORT void hb_cdpBuildTransTable( PHB_UNITABLE uniTable );
extern HB_EXPORT void hb_cdpReleaseAll( void );
extern HB_EXPORT const char * hb_cdpID( void );
extern HB_EXPORT HB_BOOL hb_cdpIsUTF8( PHB_CODEPAGE cdp );
extern HB_EXPORT PHB_CODEPAGE hb_cdpSelect( PHB_CODEPAGE cdp );
extern HB_EXPORT const char * hb_cdpSelectID( const char * id );
extern HB_EXPORT PHB_CODEPAGE hb_cdpFind( const char * id );
extern HB_EXPORT PHB_CODEPAGE hb_cdpFindExt( const char * id );
extern HB_EXPORT const char ** hb_cdpList( void ); /* Caller must release the pointer */
extern HB_EXPORT HB_BOOL hb_cdpIsDigit( PHB_CODEPAGE cdp, int iChar );
extern HB_EXPORT HB_BOOL hb_cdpIsAlpha( PHB_CODEPAGE cdp, int iChar );
extern HB_EXPORT HB_BOOL hb_cdpIsLower( PHB_CODEPAGE cdp, int iChar );
extern HB_EXPORT HB_BOOL hb_cdpIsUpper( PHB_CODEPAGE cdp, int iChar );
extern HB_EXPORT int hb_cdpcmp( const char * szFirst, HB_SIZE nLenFirst, const char * szSecond, HB_SIZE nLenSecond, PHB_CODEPAGE cdp, HB_BOOL fExact );
extern HB_EXPORT int hb_cdpicmp( const char * szFirst, HB_SIZE nLenFirst, const char * szSecond, HB_SIZE nLenSecond, PHB_CODEPAGE cdp, HB_BOOL fExact );
extern HB_EXPORT const HB_UCHAR * hb_cdpGetSortTab( PHB_CODEPAGE cdp );
extern HB_EXPORT char * hb_cdpDup( const char *, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT char * hb_cdpDupn( const char *, HB_SIZE, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT char * hb_cdpnDup( const char *, HB_SIZE *, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT const char * hb_cdpnDup2( const char *, HB_SIZE, char *, HB_SIZE *, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT const char * hb_cdpnDup3( const char *, HB_SIZE, char *, HB_SIZE *, char **, HB_SIZE *, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT HB_SIZE hb_cdpnDupLen( const char *, HB_SIZE, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT HB_SIZE hb_cdpnDup2Len( const char *, HB_SIZE, HB_SIZE, PHB_CODEPAGE, PHB_CODEPAGE );
extern HB_EXPORT char * hb_cdpnDupUpper( PHB_CODEPAGE cdp, const char * pszText, HB_SIZE * pnSize );
extern HB_EXPORT char * hb_cdpnDupLower( PHB_CODEPAGE cdp, const char * pszText, HB_SIZE * pnSize );
extern HB_EXPORT HB_SIZE hb_cdpnDup2Upper( PHB_CODEPAGE cdp, const char * pszText, HB_SIZE nSize, char * buffer, HB_SIZE nBuffLen );
extern HB_EXPORT HB_SIZE hb_cdpnDup2Lower( PHB_CODEPAGE cdp, const char * pszText, HB_SIZE nSize, char * buffer, HB_SIZE nBuffLen );
extern HB_EXPORT HB_SIZE hb_cdpTransLen( const char * pSrc, HB_SIZE nSrc, HB_SIZE nMax, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut );
extern HB_EXPORT HB_SIZE hb_cdpTransTo( const char * pSrc, HB_SIZE nSrc, char * pDst, HB_SIZE nDst, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut );
extern HB_EXPORT HB_WCHAR hb_cdpGetU16Disp( PHB_CODEPAGE cdp, HB_UCHAR ch );
extern HB_EXPORT HB_SIZE hb_cdpStrToUTF8Disp( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, char * pDst, HB_SIZE nDst );
extern HB_EXPORT int hb_cdpTranslateDispChar( int iChar, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut );
extern HB_EXPORT int hb_cdpTranslateChar( int iChar, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut );
extern HB_EXPORT HB_UCHAR hb_cdpGetChar( PHB_CODEPAGE cdp, HB_WCHAR wc );
extern HB_EXPORT HB_WCHAR hb_cdpGetU16( PHB_CODEPAGE cdp, HB_UCHAR ch );
extern HB_EXPORT HB_UCHAR hb_cdpGetUC( PHB_CODEPAGE cdp, HB_WCHAR wc, HB_UCHAR ucDef );
extern HB_EXPORT HB_WCHAR hb_cdpGetWC( PHB_CODEPAGE cdp, HB_UCHAR ch, HB_WCHAR wcDef );
extern HB_EXPORT HB_BOOL hb_cdpGetFromUTF8( PHB_CODEPAGE cdp, HB_UCHAR ch, int * n, HB_WCHAR * pwc );
extern HB_EXPORT HB_SIZE hb_cdpUTF8StringLength( const char * pSrc, HB_SIZE nLen );
extern HB_EXPORT HB_SIZE hb_cdpUTF8StringAt( const char * szNeedle, HB_SIZE nLenN, const char * szHaystack, HB_SIZE nLenH, HB_SIZE nStart, HB_SIZE nEnd, HB_BOOL fReverse );
extern HB_EXPORT HB_WCHAR hb_cdpUTF8StringPeek( const char * pSrc, HB_SIZE nLen, HB_SIZE nPos );
extern HB_EXPORT char * hb_cdpUTF8StringSubstr( const char * pSrc, HB_SIZE nLen, HB_SIZE nFrom, HB_SIZE nCount, HB_SIZE * pnDest );
extern HB_EXPORT HB_SIZE hb_cdpUTF8AsStrLen( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, HB_SIZE nMax );
extern HB_EXPORT HB_SIZE hb_cdpUTF8ToStr( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, char * pDst, HB_SIZE nDst );
extern HB_EXPORT HB_SIZE hb_cdpStrAsUTF8Len( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, HB_SIZE nMax );
extern HB_EXPORT HB_SIZE hb_cdpStrToUTF8( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, char * pDst, HB_SIZE nDst );
extern HB_EXPORT HB_SIZE hb_cdpU16AsStrLen( PHB_CODEPAGE cdp, const HB_WCHAR * pSrc, HB_SIZE nSrc, HB_SIZE nMax );
extern HB_EXPORT HB_SIZE hb_cdpU16ToStr( PHB_CODEPAGE cdp, int iEndian, const HB_WCHAR * pSrc, HB_SIZE nSrc, char * pDst, HB_SIZE nDst );
extern HB_EXPORT HB_SIZE hb_cdpStrAsU16Len( PHB_CODEPAGE cdp, const char * pSrc, HB_SIZE nSrc, HB_SIZE nMax );
extern HB_EXPORT HB_SIZE hb_cdpStrToU16( PHB_CODEPAGE cdp, int iEndian, const char * pSrc, HB_SIZE nSrc, HB_WCHAR * pDst, HB_SIZE nDst );
extern HB_EXPORT HB_WCHAR * hb_cdpStrDupU16( PHB_CODEPAGE cdp, int iEndian, const char * pSrc );
extern HB_EXPORT HB_WCHAR * hb_cdpStrDupnU16( PHB_CODEPAGE cdp, int iEndian, const char * pSrc, HB_SIZE nSrc );
extern HB_EXPORT HB_WCHAR * hb_cdpnStrDupU16( PHB_CODEPAGE cdp, int iEndian, const char * pSrc, HB_SIZE nSrc, HB_SIZE * pnDst );
extern HB_EXPORT HB_WCHAR hb_cdpGetU16Ctrl( HB_WCHAR wc );
extern HB_EXPORT int hb_cdpUTF8CharSize( HB_WCHAR wc );
extern HB_EXPORT int hb_cdpU16CharToUTF8( char * szUTF8, HB_WCHAR wc );
extern HB_EXPORT HB_BOOL hb_cdpUTF8ToU16NextChar( HB_UCHAR ucChar, int * n, HB_WCHAR * pwc );
extern HB_EXPORT PHB_ITEM hb_itemDeserializeCP( const char ** pBufferPtr, HB_SIZE * pnSize, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut );
extern HB_EXPORT char * hb_itemSerializeCP( PHB_ITEM pItem, HB_BOOL fNumSize, PHB_CODEPAGE cdpIn, PHB_CODEPAGE cdpOut, HB_SIZE * pnSize );
extern HB_EXPORT HB_WCHAR hb_cdpUpperWC( PHB_CODEPAGE cdp, HB_WCHAR wc );
/* functions operating on character indexes */
extern HB_EXPORT HB_SIZE hb_cdpTextLen( PHB_CODEPAGE cdp, const char * pText, HB_SIZE nSize );
extern HB_EXPORT HB_SIZE hb_cdpTextPos( PHB_CODEPAGE cdp, const char * pText, HB_SIZE nSize, HB_SIZE nIndex );
extern HB_EXPORT HB_SIZE hb_cdpTextPosEx( PHB_CODEPAGE cdp, const char * pText, HB_SIZE nSize, HB_SIZE * pnIndex );
extern HB_EXPORT HB_WCHAR hb_cdpTextGetU16( PHB_CODEPAGE cdp, const char * szText, HB_SIZE nLen );
extern HB_EXPORT HB_SIZE hb_cdpTextPutU16( PHB_CODEPAGE cdp, char * szText, HB_SIZE nSize, HB_WCHAR wc );
extern HB_EXPORT HB_BOOL hb_cdpCharEq( PHB_CODEPAGE cdp, const char * szText1, HB_SIZE nLen1, HB_SIZE * pnPos1,
const char * szText2, HB_SIZE nLen2, HB_SIZE * pnPos2 );
extern HB_EXPORT HB_BOOL hb_cdpCharCaseEq( PHB_CODEPAGE cdp, const char * szText1, HB_SIZE nLen1, HB_SIZE * pnPos1,
const char * szText2, HB_SIZE nLen2, HB_SIZE * pnPos2 );
HB_EXTERN_END
#endif /* HB_APICDP_H_ */
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