зеркало из https://github.com/mozilla/gecko-dev.git
906 строки
42 KiB
C
906 строки
42 KiB
C
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* The contents of this file are subject to the Netscape Public License
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* Version 1.0 (the "NPL"); you may not use this file except in
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* compliance with the NPL. You may obtain a copy of the NPL at
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* http://www.mozilla.org/NPL/
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*
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* Software distributed under the NPL is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
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* for the specific language governing rights and limitations under the
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* NPL.
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*
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* The Initial Developer of this code under the NPL is Netscape
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* Communications Corporation. Portions created by Netscape are
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* Copyright (C) 1998 Netscape Communications Corporation. All Rights
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* Reserved.
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*/
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/* b52cns.c */
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#include "intlpriv.h"
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extern int MK_OUT_OF_MEMORY;
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/* ------------------------------------------------------------------------------------------
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Function should be used internal to libi18n but need to referred
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out side this file
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* ------------------------------------------------------------------------------------------ */
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MODULE_PRIVATE unsigned char* mz_euctwtob5( CCCDataObject obj, const unsigned char *in, int32 insize);
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MODULE_PRIVATE unsigned char* mz_b5toeuctw( CCCDataObject obj, const unsigned char *in, int32 insize);
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/* ------------------------------------------------------------------------------------------ *
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Small function to isolate conversion code from CCCDataObject
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* ------------------------------------------------------------------------------------------ */
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PRIVATE void intl_fc_restore_conv_state(CCCDataObject obj, uint32* pst1, uint32* pst2);
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PRIVATE void intl_fc_save_conv_state(CCCDataObject obj, uint32 st1, uint32 st2);
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PRIVATE unsigned char* intl_fc_report_out_of_memory(CCCDataObject obj);
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PRIVATE unsigned char* intl_fc_return_buf_and_len( CCCDataObject obj, unsigned char* out, int32 outlen);
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PRIVATE uint32 intl_same_outsize(uint32 insize);
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PRIVATE uint32 intl_x2_outsize(uint32 insize);
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PRIVATE XP_Bool intl_convcnstobig5(uint16 cns, uint8 cnsplane, uint16* big5);
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PRIVATE XP_Bool intl_convbig5tocns(uint16 big5, uint16* cns, uint8* cnsplane);
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/* ------------------------------------------------------------------------------------------
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BIG5 to CNS conversion table stuff
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* ------------------------------------------------------------------------------------------ */
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typedef struct {
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uint16 cnsfromseq;
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uint16 cnstoseq;
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uint16 big5fromseq;
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} cnstobig5;
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/* ------------------------------------------------------------------------------------------ */
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typedef struct {
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uint16 big5fromseq;
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uint16 big5toseq;
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uint16 cnsfromseq;
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uint8 cnsplane;
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} big5tocns;
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/* ------------------------------------------------------------------------------------------ */
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#define BIG5HIBASE 0x00A1
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#define BIG5GAPBASE 0x007F
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#define BIG5LOWBASE 0x0040
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#define BIG5LOWERROW ( BIG5GAPBASE - BIG5LOWBASE )
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#define BIG5GAP ( BIG5HIBASE - BIG5GAPBASE )
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#define BIG5HIGHERROW ( 0x00FF - BIG5HIBASE )
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#define BIG5ROW ( BIG5LOWERROW + BIG5HIGHERROW )
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#define CNSROWBASE 0x0021
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#define CNSROW ( 0x007F - CNSROWBASE )
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#ifdef HIBYTE
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#undef HIBYTE
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#endif
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#define HIBYTE(w) (((w) & 0xff00) >> 8)
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#define LOWBYTE(w) ((w) & 0x00ff)
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#define CNSTOSEQ(c) ((CNSROW * (HIBYTE(c) - CNSROWBASE)) + (LOWBYTE(c) - CNSROWBASE))
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#define SEQTOCNS(s) (((((s) / CNSROW) + CNSROWBASE) << 8 ) | (((s) % CNSROW) + CNSROWBASE))
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#define BIG5TOSEQ(b) ((HIBYTE(b) - 0x00A1) * BIG5ROW + ( LOWBYTE(b) - 0x40 ) - ( (b & 0x0080) ? BIG5GAP : 0 ))
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#define SEQTOBIG5(s) (((((s) / BIG5ROW) + BIG5HIBASE) << 8 ) | ( ((s) % BIG5ROW ) + BIG5LOWBASE + ((( (s) % BIG5ROW ) >= BIG5LOWERROW ) ? BIG5GAP : 0)))
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#define CNSTOB5_CELL_BEGIN_END(c1, c2, b) { CNSTOSEQ(c1), CNSTOSEQ(c2), BIG5TOSEQ(b) } ,
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#define B5TOCNS_CELL_BEGIN_END(b1, b2, p, c) { BIG5TOSEQ(b1), BIG5TOSEQ(b2), CNSTOSEQ(c), (p) } ,
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#define CNSTOB5_CELL_BEGIN(c, b) { CNSTOSEQ(c), CNSTOSEQ(c), BIG5TOSEQ(b) } ,
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#define B5TOCNS_CELL_BEGIN(b, p, c) { BIG5TOSEQ(b), BIG5TOSEQ(b), CNSTOSEQ(c), (p) } ,
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/* ------------------------------------------------------------------------------------------ */
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PRIVATE cnstobig5 cns1_map[] = {
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/* A.1. Big5 (ETen, IBM, and Microsoft version) symbol set correspondence*/
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/* to CNS 11643 Plane 1:*/
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CNSTOB5_CELL_BEGIN_END(0x2121, 0x2256, 0xA140) /* 0xA140-0xA1F5 <-> 0x2121-0x2256 */
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CNSTOB5_CELL_BEGIN (0x2257 , 0xA1F7) /* 0xA1F7 <-> 0x2257 */
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CNSTOB5_CELL_BEGIN (0x2258 , 0xA1F6) /* 0xA1F6 <-> 0x2258 */
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CNSTOB5_CELL_BEGIN_END(0x2259, 0x234E, 0xA1F8) /* 0xA1F8-0xA2AE <-> 0x2259-0x234E */
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CNSTOB5_CELL_BEGIN_END(0x2421, 0x2570, 0xA2AF) /* 0xA2AF-0xA3BF <-> 0x2421-0x2570 */
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/* A.4. Big5 (ETen and IBM Version) specific numeric symbols*/
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/* correspondence to CNS 11643 Plane 1: (Microsoft version defined*/
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/* this area as UDC - User Defined Character)*/
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CNSTOB5_CELL_BEGIN_END(0x2621, 0x263E, 0xC6A1) /* 0xC6A1-0xC6BE <-> 0x2621-0x263E */
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/* A.5. Big5 (ETen and IBM Version) specific KangXi radicals*/
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/* correspondence to CNS 11643 Plane 1: (Microsoft version defined as*/
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/* UDC - User Definable Character)*/
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CNSTOB5_CELL_BEGIN (0x2723 , 0xC6BF) /* 0xC6BF <-> 0x2723 */
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CNSTOB5_CELL_BEGIN (0x2724 , 0xC6C0) /* 0xC6C0 <-> 0x2724 */
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CNSTOB5_CELL_BEGIN (0x2726 , 0xC6C1) /* 0xC6C1 <-> 0x2726 */
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CNSTOB5_CELL_BEGIN (0x2728 , 0xC6C2) /* 0xC6C2 <-> 0x2728 */
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CNSTOB5_CELL_BEGIN (0x272D , 0xC6C3) /* 0xC6C3 <-> 0x272D */
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CNSTOB5_CELL_BEGIN (0x272E , 0xC6C4) /* 0xC6C4 <-> 0x272E */
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CNSTOB5_CELL_BEGIN (0x272F , 0xC6C5) /* 0xC6C5 <-> 0x272F */
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CNSTOB5_CELL_BEGIN (0x2734 , 0xC6C6) /* 0xC6C6 <-> 0x2734 */
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CNSTOB5_CELL_BEGIN (0x2737 , 0xC6C7) /* 0xC6C7 <-> 0x2737 */
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CNSTOB5_CELL_BEGIN (0x273A , 0xC6C8) /* 0xC6C8 <-> 0x273A */
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CNSTOB5_CELL_BEGIN (0x273C , 0xC6C9) /* 0xC6C9 <-> 0x273C */
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CNSTOB5_CELL_BEGIN (0x2742 , 0xC6CA) /* 0xC6CA <-> 0x2742 */
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CNSTOB5_CELL_BEGIN (0x2747 , 0xC6CB) /* 0xC6CB <-> 0x2747 */
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CNSTOB5_CELL_BEGIN (0x274E , 0xC6CC) /* 0xC6CC <-> 0x274E */
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CNSTOB5_CELL_BEGIN (0x2753 , 0xC6CD) /* 0xC6CD <-> 0x2753 */
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CNSTOB5_CELL_BEGIN (0x2754 , 0xC6CE) /* 0xC6CE <-> 0x2754 */
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CNSTOB5_CELL_BEGIN (0x2755 , 0xC6CF) /* 0xC6CF <-> 0x2755 */
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CNSTOB5_CELL_BEGIN (0x2759 , 0xC6D0) /* 0xC6D0 <-> 0x2759 */
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CNSTOB5_CELL_BEGIN (0x275A , 0xC6D1) /* 0xC6D1 <-> 0x275A */
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CNSTOB5_CELL_BEGIN (0x2761 , 0xC6D2) /* 0xC6D2 <-> 0x2761 */
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CNSTOB5_CELL_BEGIN (0x2766 , 0xC6D3) /* 0xC6D3 <-> 0x2766 */
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CNSTOB5_CELL_BEGIN (0x2829 , 0xC6D4) /* 0xC6D4 <-> 0x2829 */
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CNSTOB5_CELL_BEGIN (0x282A , 0xC6D5) /* 0xC6D5 <-> 0x282A */
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CNSTOB5_CELL_BEGIN (0x2863 , 0xC6D6) /* 0xC6D6 <-> 0x2863 */
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CNSTOB5_CELL_BEGIN (0x286C , 0xC6D7) /* 0xC6D7 <-> 0x286C */
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/* A.2. Big5 (ETen, IBM, and Microsoft version) correspondence*/
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/* to CNS 11643 Plane 1:*/
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CNSTOB5_CELL_BEGIN_END(0x4221, 0x4241, 0xA3C0) /* 0xA3C0-0xA3E0 <-> 0x4221-0x4241 */
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CNSTOB5_CELL_BEGIN_END(0x4421, 0x5322, 0xA440) /* 0xA440-0xACFD <-> 0x4421-0x5322 */
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CNSTOB5_CELL_BEGIN_END(0x5323, 0x5752, 0xAD40) /* 0xAD40-0xAFCF <-> 0x5323-0x5752 */
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CNSTOB5_CELL_BEGIN (0x5753 , 0xACFE) /* 0xACFE <-> 0x5753 */
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CNSTOB5_CELL_BEGIN_END(0x5754, 0x6B4F, 0xAFD0) /* 0xAFD0-0xBBC7 <-> 0x5754-0x6B4F */
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CNSTOB5_CELL_BEGIN (0x6B50 , 0xBE52) /* 0xBE52 <-> 0x6B50 */
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CNSTOB5_CELL_BEGIN_END(0x6B51, 0x6F5B, 0xBBC8) /* 0xBBC8-0xBE51 <-> 0x6B51-0x6F5B */
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CNSTOB5_CELL_BEGIN_END(0x6F5C, 0x7534, 0xBE53) /* 0xBE53-0xC1AA <-> 0x6F5C-0x7534 */
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CNSTOB5_CELL_BEGIN (0x7535 , 0xC2CB) /* 0xC2CB <-> 0x7535 */
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CNSTOB5_CELL_BEGIN_END(0x7536, 0x7736, 0xC1AB) /* 0xC1AB-0xC2CA <-> 0x7536-0x7736 */
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CNSTOB5_CELL_BEGIN_END(0x7737, 0x782C, 0xC2CC) /* 0xC2CC-0xC360 <-> 0x7737-0x782C */
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CNSTOB5_CELL_BEGIN (0x782D , 0xC456) /* 0xC456 <-> 0x782D */
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CNSTOB5_CELL_BEGIN_END(0x782E, 0x7863, 0xC361) /* 0xC361-0xC3B8 <-> 0x782E-0x7863 */
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CNSTOB5_CELL_BEGIN (0x7864 , 0xC3BA) /* 0xC3BA <-> 0x7864 */
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CNSTOB5_CELL_BEGIN (0x7865 , 0xC3B9) /* 0xC3B9 <-> 0x7865 */
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CNSTOB5_CELL_BEGIN_END(0x7866, 0x7961, 0xC3BB) /* 0xC3BB-0xC455 <-> 0x7866-0x7961 */
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CNSTOB5_CELL_BEGIN_END(0x7962, 0x7D4B, 0xC457) /* 0xC457-0xC67E <-> 0x7962-0x7D4B */
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};
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/* -------------------------------------------------------------------- */
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PRIVATE cnstobig5 cns2_map[] = {
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/* A.3. Big5 (ETen, IBM, and Microsoft version) Level 2 correspondence to*/
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/* CNS 11643-1992 Plane 2:*/
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CNSTOB5_CELL_BEGIN_END(0x2121, 0x212A, 0xC940) /* 0xC940-0xC949 <-> 0x2121-0x212A */
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CNSTOB5_CELL_BEGIN_END(0x212B, 0x214B, 0xC94B) /* 0xC94B-0xC96B <-> 0x212B-0x214B */
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CNSTOB5_CELL_BEGIN (0x214C , 0xC9BE) /* 0xC9BE <-> 0x214C */
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CNSTOB5_CELL_BEGIN_END(0x214D, 0x217C, 0xC96C) /* 0xC96C-0xC9BD <-> 0x214D-0x217C */
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CNSTOB5_CELL_BEGIN_END(0x217D, 0x224C, 0xC9BF) /* 0xC9BF-0xC9EC <-> 0x217D-0x224C */
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CNSTOB5_CELL_BEGIN (0x224D , 0xCAF7) /* 0xCAF7 <-> 0x224D */
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CNSTOB5_CELL_BEGIN_END(0x224E, 0x2438, 0xC9ED) /* 0xC9ED-0xCAF6 <-> 0x224E-0x2438 */
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CNSTOB5_CELL_BEGIN_END(0x2439, 0x387D, 0xCAF8) /* 0xCAF8-0xD779 <-> 0x2439-0x387D */
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CNSTOB5_CELL_BEGIN_END(0x387E, 0x3F69, 0xD77B) /* 0xD77B-0xDBA6 <-> 0x387E-0x3F69 */
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CNSTOB5_CELL_BEGIN (0x3F6A , 0xD77A) /* 0xD77A <-> 0x3F6A */
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CNSTOB5_CELL_BEGIN_END(0x3F6B, 0x4423, 0xDBA7) /* 0xDBA7-0xDDFB <-> 0x3F6B-0x4423 */
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CNSTOB5_CELL_BEGIN_END(0x4424, 0x554A, 0xDDFD) /* 0xDDFD-0xE8A2 <-> 0x4424-0x554A */
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CNSTOB5_CELL_BEGIN (0x554B , 0xEBF1) /* 0xEBF1 <-> 0x554B */
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CNSTOB5_CELL_BEGIN_END(0x554C, 0x5721, 0xE8A3) /* 0xE8A3-0xE975 <-> 0x554C-0x5721 */
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CNSTOB5_CELL_BEGIN (0x5722 , 0xECDE) /* 0xECDE <-> 0x5722 */
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CNSTOB5_CELL_BEGIN_END(0x5723, 0x5A27, 0xE976) /* 0xE976-0xEB5A <-> 0x5723-0x5A27 */
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CNSTOB5_CELL_BEGIN (0x5A28 , 0xF0CB) /* 0xF0CB <-> 0x5A28 */
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CNSTOB5_CELL_BEGIN_END(0x5A29, 0x5B3E, 0xEB5B) /* 0xEB5B-0xEBF0 <-> 0x5A29-0x5B3E */
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CNSTOB5_CELL_BEGIN_END(0x5B3F, 0x5C69, 0xEBF2) /* 0xEBF2-0xECDD <-> 0x5B3F-0x5C69 */
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CNSTOB5_CELL_BEGIN_END(0x5C6A, 0x5D73, 0xECDF) /* 0xECDF-0xEDA9 <-> 0x5C6A-0x5D73 */
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CNSTOB5_CELL_BEGIN (0x5D74 , 0xF056) /* 0xF056 <-> 0x5D74 */
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CNSTOB5_CELL_BEGIN_END(0x5D75, 0x6038, 0xEDAA) /* 0xEDAA-0xEEEA <-> 0x5D75-0x6038 */
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CNSTOB5_CELL_BEGIN_END(0x6039, 0x6242, 0xEEEC) /* 0xEEEC-0xF055 <-> 0x6039-0x6242 */
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CNSTOB5_CELL_BEGIN_END(0x6243, 0x6336, 0xF057) /* 0xF057-0xF0CA <-> 0x6243-0x6336 */
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CNSTOB5_CELL_BEGIN_END(0x6337, 0x642E, 0xF0CC) /* 0xF0CC-0xF162 <-> 0x6337-0x642E */
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CNSTOB5_CELL_BEGIN (0x642F , 0xEEEB) /* 0xEEEB <-> 0x642F */
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CNSTOB5_CELL_BEGIN_END(0x6430, 0x6437, 0xF163) /* 0xF163-0xF16A <-> 0x6430-0x6437 */
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CNSTOB5_CELL_BEGIN_END(0x6438, 0x6572, 0xF16C) /* 0xF16C-0xF267 <-> 0x6438-0x6572 */
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CNSTOB5_CELL_BEGIN_END(0x6573, 0x664C, 0xF269) /* 0xF269-0xF2C2 <-> 0x6573-0x664C */
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CNSTOB5_CELL_BEGIN (0x664D , 0xF4B5) /* 0xF4B5 <-> 0x664D */
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CNSTOB5_CELL_BEGIN_END(0x664E, 0x6760, 0xF2C3) /* 0xF2C3-0xF374 <-> 0x664E-0x6760 */
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CNSTOB5_CELL_BEGIN (0x6761 , 0xF16B) /* 0xF16B <-> 0x6761 */
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CNSTOB5_CELL_BEGIN_END(0x6762, 0x6933, 0xF375) /* 0xF375-0xF465 <-> 0x6762-0x6933 */
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CNSTOB5_CELL_BEGIN (0x6934 , 0xF268) /* 0xF268 <-> 0x6934 */
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CNSTOB5_CELL_BEGIN_END(0x6935, 0x6961, 0xF466) /* 0xF466-0xF4B4 <-> 0x6935-0x6961 */
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CNSTOB5_CELL_BEGIN_END(0x6962, 0x6A4A, 0xF4B6) /* 0xF4B6-0xF4FC <-> 0x6962-0x6A4A */
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CNSTOB5_CELL_BEGIN (0x6A4B , 0xF663) /* 0xF663 <-> 0x6A4B */
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CNSTOB5_CELL_BEGIN_END(0x6A4C, 0x6C51, 0xF4FD) /* 0xF4FD-0xF662 <-> 0x6A4C-0x6C51 */
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CNSTOB5_CELL_BEGIN_END(0x6C52, 0x7165, 0xF664) /* 0xF664-0xF976 <-> 0x6C52-0x7165 */
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CNSTOB5_CELL_BEGIN (0x7166 , 0xF9C4) /* 0xF9C4 <-> 0x7166 */
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CNSTOB5_CELL_BEGIN_END(0x7167, 0x7233, 0xF977) /* 0xF977-0xF9C3 <-> 0x7167-0x7233 */
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CNSTOB5_CELL_BEGIN (0x7234 , 0xF9C5) /* 0xF9C5 <-> 0x7234 */
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CNSTOB5_CELL_BEGIN_END(0x7235, 0x723F, 0xF9C7) /* 0xF9C7-0xF9D1 <-> 0x7235-0x723F */
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CNSTOB5_CELL_BEGIN (0x7240 , 0xF9C6) /* 0xF9C6 <-> 0x7240 */
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CNSTOB5_CELL_BEGIN_END(0x7241, 0x7244, 0xF9D2) /* 0xF9D2-0xF9D5 <-> 0x7241-0x7244 */
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};
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/* -------------------------------------------------------------------- */
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PRIVATE cnstobig5 cns3_map[] = {
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/* A.6. Big5 (ETen and Microsoft version) specific Ideographs*/
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/* correspondence to CNS 11643 Plane 3: (IBM version defined as UDC)*/
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CNSTOB5_CELL_BEGIN (0x2C5D , 0xF9DA) /* 0xF9DA <-> 0x2C5D */
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CNSTOB5_CELL_BEGIN (0x3D7E , 0xF9DB) /* 0xF9DB <-> 0x3D7E */
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CNSTOB5_CELL_BEGIN (0x4337 , 0xF9D6) /* 0xF9D6 <-> 0x4337 */
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CNSTOB5_CELL_BEGIN (0x444E , 0xF9D8) /* 0xF9D8 <-> 0x444E */
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CNSTOB5_CELL_BEGIN (0x4B5C , 0xF9DC) /* 0xF9DC <-> 0x4B5C */
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CNSTOB5_CELL_BEGIN (0x4F50 , 0xF9D7) /* 0xF9D7 <-> 0x4F50 */
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CNSTOB5_CELL_BEGIN (0x504A , 0xF9D9) /* 0xF9D9 <-> 0x504A */
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};
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/* -------------------------------------------------------------------- */
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PRIVATE cnstobig5 cns4_map[] = {
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/* A.7. Big5 (ETen version only) specific symbols correspondence to CNS*/
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/* 11643 Plane 4:*/
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CNSTOB5_CELL_BEGIN (0x2123 , 0xC879) /* 0xC879 <-> 0x2123 */
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CNSTOB5_CELL_BEGIN (0x2124 , 0xC87B) /* 0xC87B <-> 0x2124 */
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CNSTOB5_CELL_BEGIN (0x212A , 0xC87D) /* 0xC87D <-> 0x212A */
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CNSTOB5_CELL_BEGIN (0x2152 , 0xC8A2) /* 0xC8A2 <-> 0x2152 */
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};
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/* -------------------------------------------------------------------- */
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PRIVATE cnstobig5 *cns_map[4] = {
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cns1_map,
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cns2_map,
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cns3_map,
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cns4_map
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};
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/* -------------------------------------------------------------------- */
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PRIVATE uint32 cns_map_size[4] = {
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sizeof(cns1_map)/sizeof(cnstobig5),
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sizeof(cns2_map)/sizeof(cnstobig5),
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sizeof(cns3_map)/sizeof(cnstobig5),
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sizeof(cns4_map)/sizeof(cnstobig5)
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};
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/* -------------------------------------------------------------------- */
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PRIVATE big5tocns big5_map[] = {
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#define CNSPLANE 1
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/* A.1. Big5 (ETen, IBM, and Microsoft version) symbol set correspondence*/
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/* to CNS 11643 Plane 1:*/
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B5TOCNS_CELL_BEGIN_END( 0xA140, 0xA1F5, CNSPLANE , 0x2121) /* 0xA140-0xA1F5 <-> 0x2121-0x2256 */
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B5TOCNS_CELL_BEGIN ( 0xA1F6, CNSPLANE , 0x2258) /* 0xA1F6 <-> 0x2258 */
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B5TOCNS_CELL_BEGIN ( 0xA1F7, CNSPLANE , 0x2257) /* 0xA1F7 <-> 0x2257 */
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B5TOCNS_CELL_BEGIN_END( 0xA1F8, 0xA2AE, CNSPLANE , 0x2259) /* 0xA1F8-0xA2AE <-> 0x2259-0x234E */
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B5TOCNS_CELL_BEGIN_END( 0xA2AF, 0xA3BF, CNSPLANE , 0x2421) /* 0xA2AF-0xA3BF <-> 0x2421-0x2570 */
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B5TOCNS_CELL_BEGIN_END( 0xA3C0, 0xA3E0, CNSPLANE , 0x4221) /* 0xA3C0-0xA3E0 <-> 0x4221-0x4241 */
|
|
/* A.2. Big5 (ETen, IBM, and Microsoft version) correspondence*/
|
|
/* to CNS 11643 Plane 1:*/
|
|
B5TOCNS_CELL_BEGIN_END( 0xA440, 0xACFD, CNSPLANE , 0x4421) /* 0xA440-0xACFD <-> 0x4421-0x5322 */
|
|
B5TOCNS_CELL_BEGIN ( 0xACFE, CNSPLANE , 0x5753) /* 0xACFE <-> 0x5753 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xAD40, 0xAFCF, CNSPLANE , 0x5323) /* 0xAD40-0xAFCF <-> 0x5323-0x5752 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xAFD0, 0xBBC7, CNSPLANE , 0x5754) /* 0xAFD0-0xBBC7 <-> 0x5754-0x6B4F */
|
|
B5TOCNS_CELL_BEGIN_END( 0xBBC8, 0xBE51, CNSPLANE , 0x6B51) /* 0xBBC8-0xBE51 <-> 0x6B51-0x6F5B */
|
|
B5TOCNS_CELL_BEGIN ( 0xBE52, CNSPLANE , 0x6B50) /* 0xBE52 <-> 0x6B50 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xBE53, 0xC1AA, CNSPLANE , 0x6F5C) /* 0xBE53-0xC1AA <-> 0x6F5C-0x7534 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC1AB, 0xC2CA, CNSPLANE , 0x7536) /* 0xC1AB-0xC2CA <-> 0x7536-0x7736 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC2CB, CNSPLANE , 0x7535) /* 0xC2CB <-> 0x7535 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC2CC, 0xC360, CNSPLANE , 0x7737) /* 0xC2CC-0xC360 <-> 0x7737-0x782C */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC361, 0xC3B8, CNSPLANE , 0x782E) /* 0xC361-0xC3B8 <-> 0x782E-0x7863 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC3B9, CNSPLANE , 0x7865) /* 0xC3B9 <-> 0x7865 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC3BA, CNSPLANE , 0x7864) /* 0xC3BA <-> 0x7864 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC3BB, 0xC455, CNSPLANE , 0x7866) /* 0xC3BB-0xC455 <-> 0x7866-0x7961 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC456, CNSPLANE , 0x782D) /* 0xC456 <-> 0x782D */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC457, 0xC67E, CNSPLANE , 0x7962) /* 0xC457-0xC67E <-> 0x7962-0x7D4B */
|
|
/* A.4. Big5 (ETen and IBM Version) specific numeric symbols*/
|
|
/* correspondence to CNS 11643 Plane 1: (Microsoft version defined*/
|
|
/* this area as UDC - User Defined Character)*/
|
|
B5TOCNS_CELL_BEGIN_END( 0xC6A1, 0xC6BE, CNSPLANE , 0x2621) /* 0xC6A1-0xC6BE <-> 0x2621-0x263E */
|
|
/* A.5. Big5 (ETen and IBM Version) specific KangXi radicals*/
|
|
/* correspondence to CNS 11643 Plane 1: (Microsoft version defined as*/
|
|
/* UDC - User Definable Character)*/
|
|
B5TOCNS_CELL_BEGIN ( 0xC6BF, CNSPLANE , 0x2723) /* 0xC6BF <-> 0x2723 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C0, CNSPLANE , 0x2724) /* 0xC6C0 <-> 0x2724 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C1, CNSPLANE , 0x2726) /* 0xC6C1 <-> 0x2726 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C2, CNSPLANE , 0x2728) /* 0xC6C2 <-> 0x2728 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C3, CNSPLANE , 0x272D) /* 0xC6C3 <-> 0x272D */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C4, CNSPLANE , 0x272E) /* 0xC6C4 <-> 0x272E */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C5, CNSPLANE , 0x272F) /* 0xC6C5 <-> 0x272F */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C6, CNSPLANE , 0x2734) /* 0xC6C6 <-> 0x2734 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C7, CNSPLANE , 0x2737) /* 0xC6C7 <-> 0x2737 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C8, CNSPLANE , 0x273A) /* 0xC6C8 <-> 0x273A */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6C9, CNSPLANE , 0x273C) /* 0xC6C9 <-> 0x273C */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CA, CNSPLANE , 0x2742) /* 0xC6CA <-> 0x2742 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CB, CNSPLANE , 0x2747) /* 0xC6CB <-> 0x2747 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CC, CNSPLANE , 0x274E) /* 0xC6CC <-> 0x274E */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CD, CNSPLANE , 0x2753) /* 0xC6CD <-> 0x2753 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CE, CNSPLANE , 0x2754) /* 0xC6CE <-> 0x2754 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6CF, CNSPLANE , 0x2755) /* 0xC6CF <-> 0x2755 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D0, CNSPLANE , 0x2759) /* 0xC6D0 <-> 0x2759 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D1, CNSPLANE , 0x275A) /* 0xC6D1 <-> 0x275A */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D2, CNSPLANE , 0x2761) /* 0xC6D2 <-> 0x2761 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D3, CNSPLANE , 0x2766) /* 0xC6D3 <-> 0x2766 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D4, CNSPLANE , 0x2829) /* 0xC6D4 <-> 0x2829 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D5, CNSPLANE , 0x282A) /* 0xC6D5 <-> 0x282A */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D6, CNSPLANE , 0x2863) /* 0xC6D6 <-> 0x2863 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC6D7, CNSPLANE , 0x286C) /* 0xC6D7 <-> 0x286C */
|
|
#undef CNSPLANE
|
|
|
|
#define CNSPLANE 4
|
|
/* A.7. Big5 (ETen version only) specific symbols correspondence to CNS*/
|
|
/* 11643 Plane 4:*/
|
|
B5TOCNS_CELL_BEGIN ( 0xC879, CNSPLANE , 0x2123) /* 0xC879 <-> 0x2123 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC87B, CNSPLANE , 0x2124) /* 0xC87B <-> 0x2124 */
|
|
B5TOCNS_CELL_BEGIN ( 0xC87D, CNSPLANE , 0x212A) /* 0xC87D <-> 0x212A */
|
|
B5TOCNS_CELL_BEGIN ( 0xC8A2, CNSPLANE , 0x2152) /* 0xC8A2 <-> 0x2152 */
|
|
#undef CNSPLANE
|
|
|
|
#define CNSPLANE 2
|
|
/* A.3. Big5 (ETen, IBM, and Microsoft version) Level 2 correspondence to*/
|
|
/* CNS 11643-1992 Plane 2:*/
|
|
B5TOCNS_CELL_BEGIN_END( 0xC940, 0xC949, CNSPLANE , 0x2121) /* 0xC940-0xC949 <-> 0x2121-0x212A */
|
|
#undef CNSPLANE
|
|
#define CNSPLANE 1
|
|
B5TOCNS_CELL_BEGIN ( 0xC94A, CNSPLANE , 0x4442) /* 0xC94A <-> 0x4442 # duplicate of Level 1's 0xA461 */
|
|
#undef CNSPLANE
|
|
#define CNSPLANE 2
|
|
B5TOCNS_CELL_BEGIN_END( 0xC94B, 0xC96B, CNSPLANE , 0x212B) /* 0xC94B-0xC96B <-> 0x212B-0x214B */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC96C, 0xC9BD, CNSPLANE , 0x214D) /* 0xC96C-0xC9BD <-> 0x214D-0x217C */
|
|
B5TOCNS_CELL_BEGIN ( 0xC9BE, CNSPLANE , 0x214C) /* 0xC9BE <-> 0x214C */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC9BF, 0xC9EC, CNSPLANE , 0x217D) /* 0xC9BF-0xC9EC <-> 0x217D-0x224C */
|
|
B5TOCNS_CELL_BEGIN_END( 0xC9ED, 0xCAF6, CNSPLANE , 0x224E) /* 0xC9ED-0xCAF6 <-> 0x224E-0x2438 */
|
|
B5TOCNS_CELL_BEGIN ( 0xCAF7, CNSPLANE , 0x224D) /* 0xCAF7 <-> 0x224D */
|
|
B5TOCNS_CELL_BEGIN_END( 0xCAF8, 0xD779, CNSPLANE , 0x2439) /* 0xCAF8-0xD779 <-> 0x2439-0x387D */
|
|
B5TOCNS_CELL_BEGIN ( 0xD77A, CNSPLANE , 0x3F6A) /* 0xD77A <-> 0x3F6A */
|
|
B5TOCNS_CELL_BEGIN_END( 0xD77B, 0xDBA6, CNSPLANE , 0x387E) /* 0xD77B-0xDBA6 <-> 0x387E-0x3F69 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xDBA7, 0xDDFB, CNSPLANE , 0x3F6B) /* 0xDBA7-0xDDFB <-> 0x3F6B-0x4423 */
|
|
B5TOCNS_CELL_BEGIN ( 0xDDFC, CNSPLANE , 0x4176) /* 0xDDFC <-> 0x4176 # duplicate of 0xDCD1 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xDDFD, 0xE8A2, CNSPLANE , 0x4424) /* 0xDDFD-0xE8A2 <-> 0x4424-0x554A */
|
|
B5TOCNS_CELL_BEGIN_END( 0xE8A3, 0xE975, CNSPLANE , 0x554C) /* 0xE8A3-0xE975 <-> 0x554C-0x5721 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xE976, 0xEB5A, CNSPLANE , 0x5723) /* 0xE976-0xEB5A <-> 0x5723-0x5A27 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xEB5B, 0xEBF0, CNSPLANE , 0x5A29) /* 0xEB5B-0xEBF0 <-> 0x5A29-0x5B3E */
|
|
B5TOCNS_CELL_BEGIN ( 0xEBF1, CNSPLANE , 0x554B) /* 0xEBF1 <-> 0x554B */
|
|
B5TOCNS_CELL_BEGIN_END( 0xEBF2, 0xECDD, CNSPLANE , 0x5B3F) /* 0xEBF2-0xECDD <-> 0x5B3F-0x5C69 */
|
|
B5TOCNS_CELL_BEGIN ( 0xECDE, CNSPLANE , 0x5722) /* 0xECDE <-> 0x5722 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xECDF, 0xEDA9, CNSPLANE , 0x5C6A) /* 0xECDF-0xEDA9 <-> 0x5C6A-0x5D73 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xEDAA, 0xEEEA, CNSPLANE , 0x5D75) /* 0xEDAA-0xEEEA <-> 0x5D75-0x6038 */
|
|
B5TOCNS_CELL_BEGIN ( 0xEEEB, CNSPLANE , 0x642F) /* 0xEEEB <-> 0x642F */
|
|
B5TOCNS_CELL_BEGIN_END( 0xEEEC, 0xF055, CNSPLANE , 0x6039) /* 0xEEEC-0xF055 <-> 0x6039-0x6242 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF056, CNSPLANE , 0x5D74) /* 0xF056 <-> 0x5D74 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF057, 0xF0CA, CNSPLANE , 0x6243) /* 0xF057-0xF0CA <-> 0x6243-0x6336 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF0CB, CNSPLANE , 0x5A28) /* 0xF0CB <-> 0x5A28 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF0CC, 0xF162, CNSPLANE , 0x6337) /* 0xF0CC-0xF162 <-> 0x6337-0x642E */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF163, 0xF16A, CNSPLANE , 0x6430) /* 0xF163-0xF16A <-> 0x6430-0x6437 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF16B, CNSPLANE , 0x6761) /* 0xF16B <-> 0x6761 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF16C, 0xF267, CNSPLANE , 0x6438) /* 0xF16C-0xF267 <-> 0x6438-0x6572 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF268, CNSPLANE , 0x6934) /* 0xF268 <-> 0x6934 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF269, 0xF2C2, CNSPLANE , 0x6573) /* 0xF269-0xF2C2 <-> 0x6573-0x664C */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF2C3, 0xF374, CNSPLANE , 0x664E) /* 0xF2C3-0xF374 <-> 0x664E-0x6760 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF375, 0xF465, CNSPLANE , 0x6762) /* 0xF375-0xF465 <-> 0x6762-0x6933 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF466, 0xF4B4, CNSPLANE , 0x6935) /* 0xF466-0xF4B4 <-> 0x6935-0x6961 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF4B5, CNSPLANE , 0x664D) /* 0xF4B5 <-> 0x664D */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF4B6, 0xF4FC, CNSPLANE , 0x6962) /* 0xF4B6-0xF4FC <-> 0x6962-0x6A4A */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF4FD, 0xF662, CNSPLANE , 0x6A4C) /* 0xF4FD-0xF662 <-> 0x6A4C-0x6C51 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF663, CNSPLANE , 0x6A4B) /* 0xF663 <-> 0x6A4B */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF664, 0xF976, CNSPLANE , 0x6C52) /* 0xF664-0xF976 <-> 0x6C52-0x7165 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF977, 0xF9C3, CNSPLANE , 0x7167) /* 0xF977-0xF9C3 <-> 0x7167-0x7233 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9C4, CNSPLANE , 0x7166) /* 0xF9C4 <-> 0x7166 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9C5, CNSPLANE , 0x7234) /* 0xF9C5 <-> 0x7234 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9C6, CNSPLANE , 0x7240) /* 0xF9C6 <-> 0x7240 */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF9C7, 0xF9D1, CNSPLANE , 0x7235) /* 0xF9C7-0xF9D1 <-> 0x7235-0x723F */
|
|
B5TOCNS_CELL_BEGIN_END( 0xF9D2, 0xF9D5, CNSPLANE , 0x7241) /* 0xF9D2-0xF9D5 <-> 0x7241-0x7244 */
|
|
#undef CNSPLANE
|
|
|
|
#define CNSPLANE 3
|
|
/* A.6. Big5 (ETen and Microsoft version) specific Ideographs*/
|
|
/* correspondence to CNS 11643 Plane 3: (IBM version defined as UDC)*/
|
|
B5TOCNS_CELL_BEGIN ( 0xF9D6, CNSPLANE , 0x4337) /* 0xF9D6 <-> 0x4337 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9D7, CNSPLANE , 0x4F50) /* 0xF9D7 <-> 0x4F50 */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9D8, CNSPLANE , 0x444E) /* 0xF9D8 <-> 0x444E */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9D9, CNSPLANE , 0x504A) /* 0xF9D9 <-> 0x504A */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9DA, CNSPLANE , 0x2C5D) /* 0xF9DA <-> 0x2C5D */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9DB, CNSPLANE , 0x3D7E) /* 0xF9DB <-> 0x3D7E */
|
|
B5TOCNS_CELL_BEGIN ( 0xF9DC, CNSPLANE , 0x4B5C) /* 0xF9DC <-> 0x4B5C */
|
|
#undef CNSPLANE
|
|
};
|
|
|
|
|
|
|
|
|
|
/* ------------------------------------------------------------------------------------------
|
|
CVTable
|
|
* ------------------------------------------------------------------------------------------ */
|
|
|
|
typedef unsigned char* (*Fn_return_buf_and_len) ( CCCDataObject obj, unsigned char* out, int32 outlen);
|
|
typedef unsigned char* (*Fn_report_out_of_memory) ( CCCDataObject obj);
|
|
typedef void (*Fn_restore_conv_state) ( CCCDataObject obj, uint32* pst1, uint32* pst2);
|
|
typedef void (*Fn_save_conv_state) ( CCCDataObject obj, uint32 st1, uint32 st2);
|
|
|
|
typedef void* (*Fn_state_create) ();
|
|
typedef void (*Fn_state_destroy) (void* state);
|
|
typedef void (*Fn_state_init) (void* state, uint32 st1, uint32 st2);
|
|
typedef void (*Fn_state_get_value) (void* state, uint32 *pst1, uint32 *pst2);
|
|
|
|
typedef uint32 (*Fn_outsize) (uint32 insize);
|
|
typedef XP_Bool (*Fn_scan) (void *state, unsigned char in);
|
|
typedef uint32 (*Fn_generate) (void *state, unsigned char* out);
|
|
|
|
typedef struct {
|
|
Fn_report_out_of_memory report_out_of_memory;
|
|
Fn_return_buf_and_len return_buf_and_len;
|
|
Fn_restore_conv_state restore_conv_state;
|
|
Fn_save_conv_state save_conv_state;
|
|
|
|
Fn_state_create state_create;
|
|
Fn_state_destroy state_destroy;
|
|
Fn_state_init state_init;
|
|
Fn_state_get_value state_get_value;
|
|
|
|
Fn_outsize outsize;
|
|
Fn_scan scan;
|
|
Fn_generate generate;
|
|
} CVTable;
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE unsigned char* intl_fc_conv_generic( CCCDataObject obj, const unsigned char *in, int32 insize, CVTable *vtbl);
|
|
|
|
PRIVATE void* intl_b5cns_state_create ();
|
|
PRIVATE void intl_b5cns_state_destroy (void* state);
|
|
PRIVATE void intl_b5cns_state_init (void* state, uint32 st1, uint32 st2);
|
|
PRIVATE void intl_b5cns_state_get_value (void* state, uint32 *pst1, uint32 *pst2);
|
|
|
|
PRIVATE XP_Bool intl_big5_scan (void *state, unsigned char in);
|
|
PRIVATE uint32 intl_big5_euctw_generate (void *state, unsigned char* out);
|
|
|
|
PRIVATE XP_Bool intl_euctw_scan (void *state, unsigned char in);
|
|
PRIVATE uint32 intl_euctw_big5_generate (void *state, unsigned char* out);
|
|
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE CVTable intl_euctw_b5_vtbl =
|
|
{
|
|
&intl_fc_report_out_of_memory,
|
|
&intl_fc_return_buf_and_len,
|
|
&intl_fc_restore_conv_state,
|
|
&intl_fc_save_conv_state,
|
|
|
|
&intl_b5cns_state_create,
|
|
&intl_b5cns_state_destroy,
|
|
&intl_b5cns_state_init,
|
|
&intl_b5cns_state_get_value,
|
|
|
|
&intl_same_outsize,
|
|
&intl_euctw_scan,
|
|
&intl_euctw_big5_generate,
|
|
};
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE CVTable intl_b5_euctw_vtbl =
|
|
{
|
|
&intl_fc_report_out_of_memory,
|
|
&intl_fc_return_buf_and_len,
|
|
&intl_fc_restore_conv_state,
|
|
&intl_fc_save_conv_state,
|
|
|
|
&intl_b5cns_state_create,
|
|
&intl_b5cns_state_destroy,
|
|
&intl_b5cns_state_init,
|
|
&intl_b5cns_state_get_value,
|
|
|
|
&intl_x2_outsize,
|
|
&intl_big5_scan,
|
|
&intl_big5_euctw_generate,
|
|
};
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
typedef enum {
|
|
kError = -1,
|
|
kDone = 0,
|
|
k1MoreBytes,
|
|
k2MoreBytes,
|
|
k3MoreBytes
|
|
} parseStatus;
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
typedef struct {
|
|
parseStatus status;
|
|
uint8 num_byte;
|
|
unsigned char bytes[4];
|
|
} B5CNSstate;
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE void* intl_b5cns_state_create()
|
|
{
|
|
return XP_ALLOC(sizeof(B5CNSstate));
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE void intl_b5cns_state_destroy(void* state)
|
|
{
|
|
XP_FREE(state);
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE void intl_b5cns_state_init(void* state, uint32 st1, uint32 st2)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
obj->status = (parseStatus)((st1 >> 8) & 0x00FF);
|
|
obj->num_byte = (uint8)(st1) & 0x00FF;
|
|
obj->bytes[0] = (unsigned char)(st2 ) & 0x00FF;
|
|
obj->bytes[1] = (unsigned char)(st2 >> 8) & 0x00FF;
|
|
obj->bytes[2] = (unsigned char)(st2 >> 16) & 0x00FF;
|
|
obj->bytes[3] = (unsigned char)(st2 >> 24) & 0x00FF;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE void intl_b5cns_state_get_value(void* state, uint32 *pst1, uint32 *pst2)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
*pst1 = (obj->status << 8) | obj->num_byte;
|
|
*pst2 = obj->bytes[0] | (obj->bytes[1] << 8) | (obj->bytes[2] << 16) | (obj->bytes[3] << 24) ;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE XP_Bool intl_big5_scan(void *state, unsigned char in)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
obj->bytes[obj->num_byte++] = in;
|
|
|
|
XP_ASSERT( ( kDone == obj->status ) || ( k1MoreBytes == obj->status ));
|
|
switch( obj->status )
|
|
{
|
|
case kDone:
|
|
if((0x00FE >= in) && ( in >= 0x00A1))
|
|
{
|
|
obj->status = k1MoreBytes;
|
|
return FALSE;
|
|
} else {
|
|
XP_ASSERT( ( in <= 0x7F ) || (0xA0 == in)); /* legal single byte range + hacky 0xa0 */
|
|
obj->status = kDone;
|
|
return TRUE;
|
|
}
|
|
|
|
case k1MoreBytes:
|
|
XP_ASSERT( ((0x0040 <= in) && ( in <= 0x007E)) ||
|
|
((0x00A1 <= in) && ( in <= 0x00FE))); /* legal 2nd byte */
|
|
obj->status = kDone;
|
|
return TRUE;
|
|
|
|
default:
|
|
XP_ASSERT(0);
|
|
obj->num_byte = 0; /* reset */
|
|
obj->status = kDone; /* reset */
|
|
return FALSE;
|
|
}
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE uint32 intl_big5_euctw_generate(void *state, unsigned char* out)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
uint8 n = obj->num_byte;
|
|
obj->num_byte = 0;
|
|
XP_ASSERT( ( 1 == n) || ( 2 == n ));
|
|
switch(n)
|
|
{
|
|
case 1:
|
|
*out = obj->bytes[0];
|
|
break;
|
|
|
|
case 2:
|
|
if(((0x007E >= obj->bytes[1]) && ( obj->bytes[1] >= 0x0040)) ||
|
|
((0x00FE >= obj->bytes[1]) && ( obj->bytes[1] >= 0x00A1))
|
|
)
|
|
{
|
|
uint16 cns;
|
|
uint8 plane;
|
|
uint16 big5 = (obj->bytes[0] << 8) | (obj->bytes[1]);
|
|
if(intl_convbig5tocns(big5, &cns, &plane))
|
|
{
|
|
XP_ASSERT(plane > 0);
|
|
XP_ASSERT(plane <= 16);
|
|
if(plane > 1)
|
|
{
|
|
*out++ = (unsigned char)0x8E;
|
|
*out++ = (unsigned char)(((unsigned char)0xA0) + plane);
|
|
n = 4;
|
|
} else {
|
|
n = 2;
|
|
}
|
|
*out++ = (unsigned char)((cns >> 8) & 0xFF) | 0x80;
|
|
*out = (unsigned char)(cns & 0x00FF) | 0x80;
|
|
return n;
|
|
}
|
|
}
|
|
XP_ASSERT(0);
|
|
*out++ = '?'; /* error handling */
|
|
*out = '?'; /* error handling */
|
|
return 2;
|
|
|
|
default:
|
|
XP_ASSERT(0);
|
|
n = 0;
|
|
break;
|
|
}
|
|
return n;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE XP_Bool intl_euctw_scan(void *state, unsigned char in)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
obj->bytes[obj->num_byte++] = in;
|
|
XP_ASSERT( ( k1MoreBytes == obj->status ) ||
|
|
( k2MoreBytes == obj->status ) ||
|
|
( k3MoreBytes == obj->status ) ||
|
|
( kDone == obj->status ));
|
|
switch( obj->status )
|
|
{
|
|
case kDone:
|
|
if((0x00FE >= in) && ( in >= 0x00A1))
|
|
{
|
|
obj->status = k1MoreBytes;
|
|
return FALSE;
|
|
} else {
|
|
if(0x008E == in)
|
|
{
|
|
obj->status = k3MoreBytes;
|
|
return FALSE;
|
|
} else {
|
|
XP_ASSERT( ( in <= 0x7F ) || (0xA0 == in)); /* legal single byte range + hacky 0xa0 */
|
|
obj->status = kDone;
|
|
return TRUE;
|
|
}
|
|
}
|
|
|
|
case k3MoreBytes:
|
|
XP_ASSERT( (0x00B0 >= in) && ( in >= 0x00A1)); /* legal plane byte */
|
|
/* no break; here */
|
|
case k1MoreBytes:
|
|
case k2MoreBytes:
|
|
XP_ASSERT( (0x00FE >= in) && ( in >= 0x00A1)); /* legal 2-3 bytes*/
|
|
obj->status--;
|
|
if(kDone == obj->status)
|
|
return TRUE;
|
|
else
|
|
return FALSE;
|
|
|
|
default:
|
|
XP_ASSERT(0);
|
|
obj->num_byte = 0; /* reset */
|
|
obj->status = kDone; /* reset */
|
|
return FALSE;
|
|
}
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE uint32 intl_euctw_big5_generate(void *state, unsigned char* out)
|
|
{
|
|
B5CNSstate* obj = (B5CNSstate*)state;
|
|
uint8 n = obj->num_byte;
|
|
unsigned char hb, lb;
|
|
obj->num_byte = 0;
|
|
XP_ASSERT( ( 1 == n) || ( 2 == n ) || ( 4 == n ));
|
|
switch(n)
|
|
{
|
|
case 1:
|
|
*out = obj->bytes[0];
|
|
break;
|
|
|
|
case 2:
|
|
hb = obj->bytes[0];
|
|
lb = obj->bytes[1];
|
|
if((0x00FE >= lb) && ( lb >= 0x00A1))
|
|
{
|
|
uint16 big5;
|
|
uint16 cns = ((hb & 0x7F) << 8) | (lb & 0x7F);
|
|
if(intl_convcnstobig5(cns, 1, &big5))
|
|
{
|
|
*out++ = (unsigned char)((big5 >> 8) & 0xFF);
|
|
*out = (unsigned char)(big5 & 0x00FF);
|
|
return 2;
|
|
}
|
|
else
|
|
{
|
|
/* do not assert if it failed into some range we know there are no conversion */
|
|
XP_ASSERT(( 0x7D == (hb & 0x7f) ) ||
|
|
( 0x7E == (hb & 0x7f) ) ||
|
|
( (0x27 <= (hb & 0x7f)) && ((hb & 0x7f) <= 0x43))
|
|
);
|
|
}
|
|
}
|
|
else
|
|
{
|
|
XP_ASSERT(0);
|
|
}
|
|
*out++ = '?'; /* error handling */
|
|
*out = '?'; /* error handling */
|
|
n = 2;
|
|
break;
|
|
|
|
case 4:
|
|
hb = obj->bytes[2];
|
|
lb = obj->bytes[3];
|
|
if(((0x00FE >= hb) && ( hb >= 0x00A1)) &&
|
|
((0x00FE >= lb) && ( lb >= 0x00A1)) &&
|
|
((0x00B0 >= obj->bytes[1]) && ( obj->bytes[1] >= 0x00A1))
|
|
)
|
|
{
|
|
uint16 big5;
|
|
uint8 plane = obj->bytes[1] - 0xA0;
|
|
uint16 cns = ((hb & 0x7F) << 8) | (lb & 0x7F);
|
|
if(intl_convcnstobig5(cns, plane, &big5))
|
|
{
|
|
*out++ = (unsigned char)((big5 >> 8) & 0xFF);
|
|
*out = (unsigned char)(big5 & 0x00FF);
|
|
return 2;
|
|
}
|
|
else
|
|
{
|
|
/* do not assert if it failed into some range we know there are no conversion */
|
|
XP_ASSERT(( 0x72 <= (hb & 0x7f) ) && ( 2 == plane));
|
|
}
|
|
}
|
|
else
|
|
{
|
|
XP_ASSERT(0);
|
|
}
|
|
*out++ = '?'; /* error handling */
|
|
*out = '?'; /* error handling */
|
|
n = 2;
|
|
break;
|
|
|
|
default:
|
|
XP_ASSERT(0);
|
|
n = 0;
|
|
break;
|
|
}
|
|
return n;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE XP_Bool intl_convbig5tocns(uint16 big5, uint16* cns, uint8* cnsplane)
|
|
{
|
|
uint16 big5seq = BIG5TOSEQ(big5);
|
|
uint32 l,m,r;
|
|
|
|
/* do binary search to the table */
|
|
l=0;
|
|
r= ((sizeof(big5_map) / sizeof(cnstobig5))-1);
|
|
m= (l+r)/2; ;
|
|
|
|
while(1)
|
|
{
|
|
if( (big5_map[m].big5fromseq <= big5seq ) && (big5seq <= big5_map[m].big5toseq ) )
|
|
{
|
|
uint16 cnsseq = big5_map[m].cnsfromseq + big5seq - big5_map[m].big5fromseq;
|
|
*cns = SEQTOCNS(cnsseq);
|
|
*cnsplane = big5_map[m].cnsplane;
|
|
return TRUE;
|
|
}
|
|
|
|
if( (l > m) || ( m > r))
|
|
return FALSE;
|
|
|
|
if( big5seq <= big5_map[m].big5fromseq )
|
|
{
|
|
r = m - 1;
|
|
} else {
|
|
l = m + 1;
|
|
}
|
|
m = (l+r) >> 1;
|
|
}
|
|
return FALSE;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE XP_Bool intl_convcnstobig5(uint16 cns, uint8 cnsplane, uint16* big5)
|
|
{
|
|
uint16 cnsseq = CNSTOSEQ(cns);
|
|
cnstobig5 *map;
|
|
uint32 l,m,r;
|
|
|
|
if((cnsplane > 4) || (cnsplane <= 0 ))
|
|
return FALSE;
|
|
|
|
map = cns_map[cnsplane - 1];
|
|
|
|
/* do binary search to the table */
|
|
l=0;
|
|
r= cns_map_size[cnsplane -1] - 1;
|
|
m= (l+r)/2; ;
|
|
|
|
while(1)
|
|
{
|
|
if( (map[m].cnsfromseq <= cnsseq ) && (cnsseq <= map[m].cnstoseq ) )
|
|
{
|
|
uint16 big5seq = map[m].big5fromseq + cnsseq - map[m].cnsfromseq;
|
|
*big5 = SEQTOBIG5(big5seq);
|
|
return TRUE;
|
|
}
|
|
|
|
if( (l > m) || ( m > r))
|
|
return FALSE;
|
|
|
|
if( cnsseq <= map[m].cnsfromseq )
|
|
{
|
|
r = m - 1;
|
|
} else {
|
|
l = m + 1;
|
|
}
|
|
m = (l+r) >> 1;
|
|
}
|
|
|
|
return FALSE;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE uint32 intl_same_outsize(uint32 insize)
|
|
{
|
|
return insize + 1;
|
|
}
|
|
/* ------------------------------------------------------------------------------------------ */
|
|
PRIVATE uint32 intl_x2_outsize(uint32 insize)
|
|
{
|
|
return 2 * insize + 1;
|
|
}
|
|
|
|
/* -------------------------------------------------------------------- */
|
|
PRIVATE void intl_fc_restore_conv_state( CCCDataObject obj, uint32 *st1, uint32 *st2)
|
|
{
|
|
|
|
*st1 = INTL_GetCCCJismode(obj);
|
|
*st2 = INTL_GetCCCCvtflag(obj);
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
PRIVATE void intl_fc_save_conv_state( CCCDataObject obj, uint32 st1, uint32 st2)
|
|
{
|
|
INTL_SetCCCJismode(obj, st1);
|
|
INTL_SetCCCCvtflag(obj, st2);
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
PRIVATE unsigned char* intl_fc_report_out_of_memory(CCCDataObject obj)
|
|
{
|
|
INTL_SetCCCRetval( obj, MK_OUT_OF_MEMORY );
|
|
return NULL;
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
PRIVATE unsigned char* intl_fc_return_buf_and_len( CCCDataObject obj, unsigned char *out, int32 outlen)
|
|
{
|
|
XP_ASSERT(out);
|
|
XP_ASSERT(outlen >= 0);
|
|
|
|
INTL_SetCCCLen(obj, outlen);
|
|
|
|
return out;
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
PRIVATE unsigned char*
|
|
intl_fc_conv_generic( CCCDataObject obj, const unsigned char *in, int32 insize, CVTable* vtbl)
|
|
{
|
|
|
|
char unsigned *outbuf;
|
|
char unsigned *out;
|
|
int32 i;
|
|
int32 outlen = 0;
|
|
int32 outalloclen = 0;
|
|
void *state;
|
|
|
|
XP_ASSERT(insize >= 0);
|
|
XP_ASSERT(in);
|
|
|
|
/* copy the state information from CCCDataObject into state */
|
|
{ /*
|
|
We need to do all this because currently CCCDataObject
|
|
static init itself in the table and there are no destroy routine
|
|
Once we remove those bad OO code we could just use
|
|
state as the object instead of copy date between
|
|
CCCDataObject and sate
|
|
*/
|
|
uint32 st1, st2;
|
|
vtbl->restore_conv_state(obj, &st1, &st2);
|
|
state = vtbl->state_create();
|
|
XP_ASSERT(NULL != state);
|
|
vtbl->state_init(state, st1, st2);
|
|
}
|
|
|
|
/* Try to allocate memory */
|
|
outalloclen = vtbl->outsize(insize);
|
|
XP_ASSERT(outalloclen >= 0);
|
|
|
|
outbuf = (unsigned char*) XP_ALLOC( outalloclen );
|
|
|
|
/* in case we cannot allocate memory */
|
|
XP_ASSERT( NULL != outbuf );
|
|
if((unsigned char*) NULL == outbuf )
|
|
return vtbl->report_out_of_memory(obj);
|
|
|
|
for(out=outbuf, i = 0 ; i < insize ; i++, in++)
|
|
{
|
|
int32 genlen;
|
|
if( vtbl->scan(state, *in ))
|
|
{
|
|
genlen = vtbl->generate(state, out);
|
|
|
|
XP_ASSERT( genlen >= 0 );
|
|
|
|
out += genlen;
|
|
outlen += genlen;
|
|
|
|
/* vtbl->outsize should ensure us that this is always true */
|
|
XP_ASSERT(outlen <= outalloclen);
|
|
}
|
|
}
|
|
*out = '\0'; /* null terminate */
|
|
|
|
{
|
|
uint32 st1, st2;
|
|
vtbl->state_get_value(state, &st1, &st2);
|
|
vtbl->save_conv_state(obj, st1, st2);
|
|
vtbl->state_destroy(state);
|
|
}
|
|
|
|
return vtbl->return_buf_and_len(obj, outbuf, out - outbuf);
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
MODULE_PRIVATE unsigned char*
|
|
mz_euctwtob5( CCCDataObject obj, const unsigned char *in, int32 insize)
|
|
{
|
|
return intl_fc_conv_generic(obj, in, insize, &intl_euctw_b5_vtbl);
|
|
}
|
|
/* -------------------------------------------------------------------- */
|
|
MODULE_PRIVATE unsigned char*
|
|
mz_b5toeuctw( CCCDataObject obj, const unsigned char *in, int32 insize)
|
|
{
|
|
return intl_fc_conv_generic(obj, in, insize, &intl_b5_euctw_vtbl);
|
|
}
|