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294 lines
9.0 KiB
C
294 lines
9.0 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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/* jis2oth.c */
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/* other: SJIS or EUC */
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#include "intlpriv.h"
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extern int MK_OUT_OF_MEMORY;
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/* net_jis2other(obj, jisbuf, jisbufsz, uncvtbuf)
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* Args:
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* jisbuf: Ptr to a buf of JIS chars
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* jisbufsz: Size in bytes of jisbuf
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* jismode: Ptr to encoding mode, use as arg for next call to
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* jis2other() for rest of current SJIS data. First call should
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* initialize mode to ASCII (0).
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* uncvtbuf: If entire buffer was converted, uncvtbuf[0] will be nul,
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* else this points to SJIS chars that were NOT converted
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* and jis2other() with additional SJIS chars appended.
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* obj->cvtflag: Specifies converting to either EUC or SJIS.
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* Return:
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* Returns NULL on failure, otherwise it returns a pointer to a buffer of
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* converted JIS characters. Caller must XP_FREE() this memory.
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*
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* Description:
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*
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* Allocate destination buffer (for SJIS or EUC).
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*
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* Set JIS mode state based upon ESC sequences. Also if NL or CR,
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* mode is reset to JIS-Roman.
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*
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* If JIS mode is JIS x208 and converting to EUC, set 8th bits of next 2 bytes.
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*
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* If JIS mode is JIS x208-1983 and converting to SJIS, use the
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* JIS to SJIS algorithm.
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*
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* If JIS mode is JIS x212 and converting to EUC, output SS3 and set 8th
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* bits of next 2 bytes. (This mode only set when converting to EUC.)
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*
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* If JIS Half-width Katakana and converting to EUC, output SS2 followed
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* by the 2 bytes w/8th bits set.
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*
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* If JIS Half-width Katakana and converting to SJIS, output the 2 bytes
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* w/8th bits set.
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*
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* If any other JIS mode, then assume Latin1 and just copy the next byte.
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*
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* If either SJIS buffer does not contain complete JIS char or JIS buffer
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* is full, then return unconverted SJIS to caller. Caller should
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* append more data and recall jis2other.
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*/
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MODULE_PRIVATE unsigned char *
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jis2other( CCCDataObject obj,
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const unsigned char *jisbuf, /* JIS buffer for conversion*/
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int32 jisbufsz) /* JIS buffer size in bytes */
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{
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unsigned char *tobuf = NULL;
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int32 tobufsz;
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unsigned char *tobufp, *jisp; /* current byte in bufs */
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unsigned char *tobufep, *jisep; /* end of buffers */
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int32 uncvtlen;
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unsigned char *uncvtbuf = INTL_GetCCCUncvtbuf(obj);
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#define sjisbuf tobuf
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#define sjisbufsz tobufsz
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#define sjisp tobufp
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#define sjisep tobufep
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#define eucbufsz tobufsz
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#define eucbuf tobuf
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#define eucp tobufp
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#define eucep tobufep
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/* Allocate a dest buffer: */
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/* JIS is usually longer than SJIS or EUC because of ESC seq.
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*
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* In the worst case (all Roman), converted SJIS will be the same
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* length as the original JIS + 1 for nul byte
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*
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* In the worst case ( <ESC> ( I <rest Half-width Kana>... ),
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* converted EUC will be 2X - 2 the size of the original JIS + 1 for nul
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* byte.
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*/
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uncvtlen = strlen((char *)uncvtbuf);
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if (!INTL_GetCCCCvtflag(obj))
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tobufsz = jisbufsz + uncvtlen + 1;
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else
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tobufsz = (jisbufsz + uncvtlen) << 1;
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if (!tobufsz) {
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return NULL;
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}
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if ((tobuf = (unsigned char *)XP_ALLOC(tobufsz)) == (unsigned char *)NULL) {
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INTL_SetCCCRetval(obj, MK_OUT_OF_MEMORY);
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return(NULL);
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}
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/* Initialize pointers, etc. */
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jisp = (unsigned char *)jisbuf;
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jisep = jisp + jisbufsz - 1;
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#define uncvtp tobufp /* use tobufp as temp */
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/* If prev. unconverted chars, append unconverted
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* chars w/new chars and try to process.
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*/
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if (uncvtbuf[0] != '\0') {
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uncvtp = uncvtbuf + uncvtlen;
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while (uncvtp < (uncvtbuf + UNCVTBUF_SIZE) &&
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jisp <= jisep)
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*uncvtp++ = *jisp++;
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*uncvtp = '\0'; /* nul terminate */
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jisp = uncvtbuf; /* process unconverted first */
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jisep = uncvtp - 1;
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}
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#undef uncvtp
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tobufp = tobuf;
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tobufep = tobufp + tobufsz - 2; /* save space for terminating null */
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WHILELOOP:
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/* While JIS data && space in SJIS buf. */
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while ((tobufp <= tobufep) && (jisp <= jisep)) {
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if (*jisp == ESC) {
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if ((jisep - jisp) < 2) /* Incomplete ESC seq in JIS buf? */
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break;
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switch (jisp[1]) {
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case '(':
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switch (jisp[2]) {
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case 'J': /* JIS X 0201-Roman */
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case 'B': /* ASCII */
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INTL_SetCCCJismode(obj, JIS_Roman);
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jisp += 3; /* remove ESC seq. */
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break;
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case 'I': /* Half-width katakana */
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INTL_SetCCCJismode(obj, JIS_HalfKana);
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jisp += 3; /* remove ESC seq. */
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break;
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default: /* pass thru invalid ESC seq. */
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*tobufp++ = *jisp++;
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*tobufp++ = *jisp++;
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}
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break;
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case DOLLAR:
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switch (jisp[2]) {
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case 'B': /* JIS X 0208-1983 */
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case '@': /* JIS X 0208-1978 (old-JIS) */
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INTL_SetCCCJismode(obj, JIS_208_83);
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jisp += 3; /* remove rest of ESC seq. */
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break;
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case '(':
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if ((jisep - jisp) < 3) /* Full ESC seq in buf? */
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goto abortwhile;
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switch (jisp[3]) {
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case 'D': /* JIS X 0212-1990 */
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if (!INTL_GetCCCCvtflag(obj)) /* No JIS212 in SJIS */
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INTL_SetCCCJismode(obj, JIS_208_83);
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else
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INTL_SetCCCJismode(obj, JIS_212_90);
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jisp += 4; /* remove rest of ESC seq. */
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break;
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default: /* pass thru invalid ESC seq. */
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*tobufp++ = *jisp++;
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*tobufp++ = *jisp++;
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break;
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}
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break;
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default: /* pass thru invalid ESC seq. */
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*tobufp++ = *jisp++;
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*tobufp++ = *jisp++;
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}
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break;
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case '-':
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switch (jisp[2]) {
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case 'A': /* ISO8859-1 */
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INTL_SetCCCJismode(obj, JIS_Roman);
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jisp += 3; /* remove rest of ESC seq. */
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break;
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default: /* pass thru invalid ESC seq. */
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*tobufp++ = *jisp++;
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*tobufp++ = *jisp++;
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}
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break;
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default: /* pass thru invalid ESC seq. */
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*tobufp++ = *jisp++;
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}
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} else if (*jisp == NL || *jisp == CR) {
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INTL_SetCCCJismode(obj, JIS_Roman);
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*tobufp++ = *jisp++;
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} else if (INTL_GetCCCJismode(obj) == JIS_208_83) {
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if ((jisp+1) > jisep) /* Incomplete 2Byte char in JIS buf? */
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break;
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if (INTL_GetCCCCvtflag(obj)) { /* Convert JIS 208 to EUC */
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*eucp++ = *jisp | 0x80;
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jisp++;
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*eucp++ = *jisp | 0x80;
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jisp++;
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} else { /* Convert JIS-208 to SJIS: Same as */
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/* euc2sjis.c's EUC208-to-SJIS algorithm */
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/* except JIS 8th bit is clear. */
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if (*jisp < 0x5F) /* Convert 1st SJIS byte */
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*sjisp++ = ((*jisp + 1) >> 1) + 0x70;
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else
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*sjisp++ = ((*jisp + 1) >> 1) + 0xB0;
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/* Convert 2nd SJIS byte */
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if ((*jisp++) & 1) { /* if 1st JIS byte is odd */
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if (*jisp > 0x5F)
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*sjisp = *jisp + 0x20;
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else
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*sjisp = *jisp + 0x1F;
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} else {
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*sjisp = *jisp + 0x7E;
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}
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sjisp++;
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jisp++;
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}
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} else if (INTL_GetCCCJismode(obj) == JIS_212_90) {
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/* only "to EUC" supports 212 */
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if ((jisp+1) > jisep) /* Incomplete 2Byte char in JIS buf? */
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break;
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*eucp++ = SS3;
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*eucp++ = *jisp | 0x80;
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jisp++;
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*eucp++ = *jisp | 0x80;
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jisp++;
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} else if (INTL_GetCCCJismode(obj) == JIS_HalfKana) {
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if (INTL_GetCCCCvtflag(obj)) {
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*eucp++ = SS2;
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}
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*tobufp++ = *jisp | 0x80; /* Set 8th bit for EUC & SJIS */
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jisp++;
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} else {
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/* Unknown type: no conversion */
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*tobufp++ = *jisp++;
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}
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}
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abortwhile:
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if (uncvtbuf[0] != '\0') {
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/* Just processed unconverted chars:
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* jisp pts to 1st unprocessed char in
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* jisbuf. Some may have been processed
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* while processing unconverted chars,
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* so set up ptrs not to process them
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* twice.
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*/
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/* If nothing was converted, this can
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* only happen if there was not
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* enough JIS data. Stop and get
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* more data.
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*/
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if (jisp == uncvtbuf) { /* Nothing converted */
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*tobufp = '\0';
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return(NULL);
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}
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jisep = (unsigned char *)jisbuf + jisbufsz - 1 ;
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jisp = (unsigned char *)jisbuf + (jisp - uncvtbuf - uncvtlen);
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uncvtbuf[0] = '\0'; /* No more uncoverted chars. */
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goto WHILELOOP; /* Process new data */
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}
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*tobufp = '\0'; /* null terminate dest. data */
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INTL_SetCCCLen(obj, tobufp - tobuf); /* length not counting null */
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if (jisp <= jisep) { /* uncoverted JIS? */
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tobufp = uncvtbuf; /* reuse the tobufp as a TEMP */
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while (jisp <= jisep)
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*tobufp++ = *jisp++;
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*tobufp = '\0'; /* null terminate */
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}
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return(tobuf);
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}
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