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337 lines
10 KiB
C
337 lines
10 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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/* autodetect.c */
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/*
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* CODESET 1st Byte 2nd Byte 3rd Byte
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* JIS 0x21-0x7E 0x21-0x7E n/a
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* SJIS 0xA1-0xDF n/a n/a
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* 0x81-0x9F 0x40-0xFC n/a
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* 0xE0-0xEF 0x40-0xFC n/a
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* EUCJP 0x8E (SS2) 0xA1-0xDF n/a
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* 0xA1-0xFE 0xA1-0xFE n/a
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* 0x8F (SS3) 0xA1-0xFE 0xA1-0xFE
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* Invalid 7F,80,A0,FF
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*/
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#include "intlpriv.h"
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#define ALLOW_NBSP 1
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/*
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* JIS X 0201-Roman ESC ( J
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* Half-width Katakana ESC ( I
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* JIS X 0208-1978 ESC $ @
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* JIS X 0208-1983 ESC $ B
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* JIS X 0212-1990 ESC $ ( D
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*/
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#define IsJISEscSeq(cp, len) \
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((cp[0] == ESC) && ((len) > 2) && ( \
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((cp[1] == '$') && (cp[2] == 'B')) || \
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((cp[1] == '$') && (cp[2] == '@')) || \
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((cp[1] == '(') && (cp[2] == 'J')) || \
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((cp[1] == '(') && (cp[2] == 'I')) || \
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(((len) > 3) && (cp[1] == '$') && (cp[2] == '(') && (cp[3] == 'D')) ) )
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#define IsRoman(c) ((c) < 0x80)
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#define IsSJIS2ndByte(c) (((c) > 0x3F) && ((c) < 0xFD))
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#define IsLoSJIS2ndByte(c) (((c) > 0x3F) && ((c) < 0xA1))
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#define IsHiSJIS2ndByte(c) (((c) > 0xA0) && ((c) < 0xFD))
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#define IsEUCJPKana(b1) (((b1) > 0xA0) && ((b1) < 0xE0))
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#define IsEUCJPKanji(b1or2) (((b1or2) > 0xA0) && ((b1or2) < 0xFF))
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#define YES 1
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#define NO 0
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#define MAYBE -1
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PRIVATE int
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isSJIS(const unsigned char *cp, int32 len)
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{
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while (len) {
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if (IsRoman(*cp)) {
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cp++, len--;
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} else if (*cp == 0x80) { /* illegal SJIS 1st byte */
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return NO;
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} else if ((*cp < 0xA0)) { /* byte 1 of 2byte SJIS 1st range */
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if (len > 1) {
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if (IsSJIS2ndByte(cp[1])) {
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if ((*cp != 0x8E && *cp != 0x8F) || (*(cp+1) <= 0xA0))
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return YES;
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cp += 2, len -= 2; /* valid 2 byte SJIS */
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} else {
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return NO; /* invalid SJIS 2nd byte */
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}
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} else
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break; /* buffer ended w/1of2 byte SJIS */
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} else if (*cp == 0xA0) { /* illegal EUCJP byte */
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#if ALLOW_NBSP
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cp++, len--; /* allow nbsp */
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#endif
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} else if (*cp < 0xE0) { /* SJIS half-width kana */
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cp++, len--;
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} else if (*cp < 0xF0) { /* byte 1 of 2byte SJIS 2nd range */
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if (len > 1) {
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if (IsSJIS2ndByte(cp[1])) {
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cp += 2, len -= 2; /* valid 2 byte SJIS */
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} else {
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return NO; /* invalid SJIS */
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}
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} else
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break; /* buffer ended w/1of2 byte SJIS */
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} else {
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return NO; /* invalid SJIS 1st byte */
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}
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}
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return MAYBE; /* No illegal SJIS values found */
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}
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PRIVATE int
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isEUCJP(const unsigned char *cp, int32 len)
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{
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while (len) {
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if (IsRoman(*cp)) { /* Roman */
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cp++, len--;
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} else if (*cp == SS2) { /* EUCJP JIS201 half-width kana */
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if (len > 1) {
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if (IsEUCJPKana(cp[1]))
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cp += 2, len -= 2; /* valid half-width kana */
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else
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return NO; /* invalid 2of3 byte EUC */
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} else
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break; /* buffer ended w/1of2 byte EUC */
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} else if (*cp == SS3) { /* EUCJP JIS212 */
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if (len > 1) {
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if (IsEUCJPKanji(cp[1])) {
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if (len > 2) {
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if (IsEUCJPKanji(cp[2]))
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cp += 2, len -= 2; /* valid 3 byte EUCJP */
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else
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return NO; /* invalid 3of3 byte EUCJP */
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} else
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break; /* buffer ended w/2of3 byte EUCJP */
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} else
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return NO; /* invalid 2of3 byte EUCJP */
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} else
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break; /* buffer ended w/1of3 byte EUCJP */
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} else if (*cp == 0xA0) { /* illegal EUCJP byte */
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#if ALLOW_NBSP
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cp++, len--; /* allow nbsp */
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#else
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return NO;
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#endif
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} else if (*cp < 0xF0) { /* EUCJP JIS208 (overlaps SJIS) */
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if (len > 1) {
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if (IsEUCJPKanji(cp[1]))
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cp += 2, len -= 2; /* valid 2 byte EUCJP */
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else
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return NO; /* invalid 2of2 byte EUCJP */
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} else
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break; /* buffer ended w/1of2 byte EUCJP */
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} else if (*cp < 0xFF) { /* EUCJP JIS208 only: */
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if (len > 1) {
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if (IsEUCJPKanji(cp[1]))
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return YES; /* valid 2 byte EUCJP, invalid SJIS */
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else
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return NO; /* invalid 2of2 byte EUCJP */
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} else
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break; /* buffer ended w/1of2 byte EUCJP */
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} else {
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return NO; /* invalid EUCJP 1st byte: 0xFF */
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}
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}
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return MAYBE;
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}
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MODULE_PRIVATE int16
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intl_detect_JCSID (uint16 defaultCSID, const unsigned char *buf, int32 len)
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{
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register const unsigned char *cp = buf;
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int sjisFlag;
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int eucjpFlag;
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/* JIS is 7bit. Scan to end of 7bit data or legitimate JIS ESC sequence. */
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while (len && (IsRoman(*cp) || (*cp == 0xA0))) { /* allow nbsp */
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if (IsJISEscSeq(cp, len))
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return CS_JIS;
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cp++, len--;
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}
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/* If len > 0, must be either SJIS or EUC because there's 8bit data */
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while (len) {
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if (*cp == 0x80) {
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return CS_DEFAULT;/* illegal byte1 (SJIS & EUCJP) */
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}
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if (*cp < 0x8E)
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return CS_SJIS; /* Illegal EUCJP 1st byte */
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if (*cp == 0xA0) {
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#if ALLOW_NBSP
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cp++; len--;
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continue; /* allow nbsp */
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#else
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return CS_DEFAULT;/* illegal byte1 (SJIS & EUCJP) */
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#endif
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}
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if ( (*cp > 0xEF) && (*cp < 0xFF) ) /* illegal SJIS 1st byte */
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return CS_EUCJP;
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if (*cp == 0xFF) {
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return CS_DEFAULT;/* illegal byte1 (SJIS & EUCJP) */
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}
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/* At this point. 1st byte is 0x8E, 0x8F, or 0xA1-0xEF. */
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/* If 1st Byte is 0xE0-0xEF inclusive, then it's 2byte SJIS or EUC */
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if ((*cp > 0xDF) && (*cp < 0xF0)) {
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if (len > 1) {
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if (cp[1] < 0x41) { /* illegal byte2 (SJIS & EUCJP) */
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return CS_DEFAULT;
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}
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if (cp[1] < 0xA1)
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return CS_SJIS; /* Illegal EUCJP 2nd byte */
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if (cp[1] > 0xFC)
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return CS_EUCJP; /* illegal SJIS 2nd byte */
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cp += 2, len -= 2; /* Skip 2 byte character */
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/* Gobble up single byte characters and continue outer loop */
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while (len && IsRoman(*cp)) {
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cp++, len--;
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}
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continue;
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} else {
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len = 0;
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break; /* No more chars in buffer */
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}
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}
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/* 1st Byte is 0xA1-DF inclusive:
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* 1byte SJIS kana or 1of2 byte SJIS or EUC
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*/
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break; /* break and handle ambiguous cases */
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}
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if (len) {
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eucjpFlag = isEUCJP(cp, len);
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if (YES == eucjpFlag)
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return CS_EUCJP;
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sjisFlag = isSJIS(cp, len);
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if (YES == sjisFlag)
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return CS_SJIS;
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/* Neither one is YES, look at NO : MAYBE Pair */
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if ((NO == eucjpFlag) && (MAYBE == sjisFlag))
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return CS_SJIS;
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if ((MAYBE == eucjpFlag) && (NO == sjisFlag))
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return CS_EUCJP;
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}
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/* Some servers relied upon the previous Nav3.0 default for ambiguous SJIS/EUC encoding. */
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#define USE_ACKBAR_LOGIC 1
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/* Now, both are NO or both are MAYBE, look at default */
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if (len) { /* Must be ambiguous -- EUC or SJIS */
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#if USE_ACKBAR_LOGIC
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#ifdef XP_MAC
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defaultCSID = CS_SJIS_AUTO; /* simulate Akbar old charset hints */
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#else
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defaultCSID = CS_JIS;
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#endif
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if (defaultCSID == CS_SJIS) {
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eucjpFlag = isEUCJP(cp, len);
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if (eucjpFlag == YES)
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return CS_EUCJP;
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else
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return CS_SJIS;
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} else if (defaultCSID == CS_EUCJP) {
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sjisFlag = isSJIS(cp, len);
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if (sjisFlag == YES)
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return CS_SJIS;
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else
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return CS_EUCJP;
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} else { /* default is JIS */
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sjisFlag = isSJIS(cp, len);
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if (sjisFlag == YES)
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return CS_SJIS;
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eucjpFlag = isEUCJP(cp, len);
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if (eucjpFlag == YES)
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return CS_EUCJP;
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if (sjisFlag == NO) {
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if (eucjpFlag != NO) /* SJIS-NO, EUCJP-MAYBE */
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return CS_EUCJP;
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} else {
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if (eucjpFlag == NO) /* SJIS-MAYBE, EUCJP-NO */
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return CS_SJIS;
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else { /* both MAYBE */
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return CS_EUCJP; /* have to pick one... */
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}
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}
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}
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#else
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if (CS_SJIS == defaultCSID) {
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if (MAYBE == sjisFlag)
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return CS_SJIS;
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} else if (CS_EUCJP == defaultCSID) {
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if (MAYBE == eucjpFlag)
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return CS_EUCJP;
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} else { /* default is JIS */
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if ((MAYBE == eucjpFlag) && (MAYBE == sjisFlag)) /* pick one- EUC */
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return CS_EUCJP;
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}
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#endif
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}
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return CS_ASCII; /* Could be any of the 3... */
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}
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/* Auto Detect Japanese Char Code Conversion */
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MODULE_PRIVATE unsigned char *
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autoJCCC (CCCDataObject obj, const unsigned char *s, int32 l)
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{
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int16 doc_csid = 0;
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uint16 detected_doc_csid;
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/* try to determine doc Japanese CSID. */
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doc_csid = intl_detect_JCSID((uint16)(INTL_GetCCCDefaultCSID(obj)&~CS_AUTO),
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(const unsigned char *) s,l);
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if (doc_csid == CS_ASCII) { /* return s unconverted and */
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INTL_SetCCCLen(obj, l);
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return (unsigned char *)s; /* autodetect next block of stream data */
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}
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if (doc_csid == CS_DEFAULT) { /* found unexpected chars */
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doc_csid = INTL_GetCCCDefaultCSID(obj) & ~CS_AUTO;
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detected_doc_csid = CS_DEFAULT;
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} else {
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detected_doc_csid = doc_csid | CS_AUTO;
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}
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/* Setup converter function for success streams data blocks */
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(void) INTL_GetCharCodeConverter(doc_csid, INTL_GetCCCToCSID(obj), obj);
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INTL_CallCCCReportAutoDetect(obj, detected_doc_csid);
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/* If no conversion needed, change put_block module for successive
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* data blocks. For current data block, return unmodified buffer.
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*/
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if (INTL_GetCCCCvtfunc(obj) == NULL) {
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INTL_SetCCCLen(obj, l);
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return((unsigned char *) s);
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}
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/* For initial block, must call converter directly. Success calls
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* to the converter will be called directly from net_CharCodeConv()
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*/
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return (unsigned char *)(INTL_GetCCCCvtfunc(obj)) (obj, (const unsigned char *)s, l);
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}
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