414 lines
13 KiB
C
414 lines
13 KiB
C
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//
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// File Name: jis2sjis.c
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// Owner: Tetsuhide Akaishi
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// Revision: 1.00 02/21/'93 Tetsuhide Akaishi
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//
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#include "win32.h"
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#include "fechrcnv.h"
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#ifdef DBCS_DIVIDE
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extern DBCS_STATUS dStatus0;
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extern BOOL blkanji0; // Kanji In Mode
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extern DBCS_STATUS dStatus;
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extern BOOL blkanji; // Kanji In Mode
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extern BOOL blkana; // Kana Mode
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#endif
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VOID JISChar_to_ShiftJISChar ( UCHAR *pJIS, UCHAR *pSJIS )
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// The JISChar_to_ShiftJISChar function convert one character string
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// as JIS code to a Shift JIS code string.
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//
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// UCHAR *pJIS Points to the character string to be converted.
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//
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// UCHAR *pSJIS Points to a buffer that receives the convert string
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// from JIS Code to Shift JIS.
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//
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// Return Value
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// None.
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//
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{
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*pSJIS = ((*pJIS - 0x21) >> 1) +0x81;
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if ( *pSJIS > 0x9f ) {
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(*pSJIS) += 0x40;
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}
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*(pSJIS+1) = (*(pJIS+1)) + (*pJIS) & 1 ? 0x1f : 0x7d;
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if ( *(pSJIS+1) >= 0x7f ) {
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(*(pSJIS+1)) ++;
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}
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}
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int JIS_to_ShiftJIS ( UCHAR *pJIS, int JIS_len, UCHAR *pSJIS, int SJIS_len )
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// The JIS_to_ShiftJIS function convert a character string as JIS code
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// to a Shift JIS code string.
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//
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// UCHAR *pJIS Points to the character string to be converted.
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//
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// int JIS_len Specifies the size in bytes of the string pointed
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// to by the pJIS parameter. If this value is -1,
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// the string is assumed to be NULL terminated and the
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// length is calculated automatically.
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//
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// UCHAR *pSJIS Points to a buffer that receives the convert string
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// from EUC Code to Shift JIS.
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//
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// int SJIS_len Specifies the size, in Shift JIS characters of the
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// buffer pointed to by the pSJIS parameter.
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// If the value is zero,
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// the function returns the number of Shift JIS characters
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// required for the buffer, and makes no use of the pSJIS
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// buffer.
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//
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// Return Value
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// If the function succeeds, and SJIS_len is nonzero, the return value is the
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// number of Shift JIS characters written to the buffer pointed to by pSJIS.
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//
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// If the function succeeds, and SJIS_len is zero, the return value is the
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// required size, in Shift JIS characters, for a buffer that can receive the
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// converted string.
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//
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// If the function fails, the return value is -1. The error mean pSJIS buffer
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// is small for setting converted strings.
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//
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{
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int re; // Convert Lenght
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int i; // Loop Counter
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#ifndef DBCS_DIVIDE
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BOOL blkanji = FALSE; // Kanji In Mode
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BOOL blkana = FALSE; // Kana Mode
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#endif
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if ( JIS_len == -1 ) {
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// If length is not set, last character of the strings is NULL.
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JIS_len = strlen ( pJIS ) + 1;
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}
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i = 0;
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re = 0;
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if ( SJIS_len == 0 ) {
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// Only retrun the required size
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#ifdef DBCS_DIVIDE
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if ( dStatus0.nCodeSet == CODE_JPN_JIS ) {
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UCHAR cJIS = dStatus0.cSavedByte;
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if ( dStatus0.fESC ){
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if ( cJIS ){
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if ( cJIS == KANJI_IN_1ST_CHAR &&
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( *pJIS == KANJI_IN_2ND_CHAR1 ||
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*pJIS == KANJI_IN_2ND_CHAR2 )){
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blkanji0 = TRUE;
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pJIS++;
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i++;
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} else if ( cJIS == KANJI_OUT_1ST_CHAR &&
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( *pJIS == KANJI_OUT_2ND_CHAR1 ||
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*pJIS == KANJI_OUT_2ND_CHAR2 )){
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blkanji0 = FALSE;
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pJIS++;
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i++;
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} else
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re += 2;
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} else {
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if ( *pJIS == KANJI_IN_1ST_CHAR &&
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( *(pJIS+1) == KANJI_IN_2ND_CHAR1 ||
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*(pJIS+1) == KANJI_IN_2ND_CHAR2 )){
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blkanji0 = TRUE;
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pJIS += 2;
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i += 2;
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} else if ( *pJIS == KANJI_OUT_1ST_CHAR &&
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( *(pJIS+1) == KANJI_OUT_2ND_CHAR1 ||
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*(pJIS+1) == KANJI_OUT_2ND_CHAR2 )){
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blkanji0 = FALSE;
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pJIS += 2;
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i += 2;
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} else
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re++;
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}
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} else if ( cJIS ){ // Divide DBCS in KANJI mode
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pJIS++;
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i++;
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re += 2;
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}
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dStatus0.nCodeSet = CODE_UNKNOWN;
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dStatus0.cSavedByte = '\0';
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dStatus0.fESC = FALSE;
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}
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#endif
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while ( i < JIS_len ) {
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if ( *pJIS == SO ) { // Kana Mode In?
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blkana = TRUE;
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pJIS++;
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i++;
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continue;
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}
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if ( *pJIS == SI ) { // Kana Mode Out ?
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blkana = FALSE;
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pJIS++;
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i++;
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continue;
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}
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if ( blkana == TRUE ) {
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pJIS++;
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i++;
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re++;
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continue;
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}
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if ( *pJIS == ESC ) {
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#ifdef DBCS_DIVIDE
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if ( i == JIS_len - 1 || i == JIS_len - 2 ){
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dStatus0.nCodeSet = CODE_JPN_JIS;
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dStatus0.fESC = TRUE;
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if( i == JIS_len - 2 )
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dStatus0.cSavedByte = *(pJIS+1);
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break;
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}
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#endif
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if ( *(pJIS+1) == KANJI_IN_1ST_CHAR &&
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( *(pJIS+2) == KANJI_IN_2ND_CHAR1 ||
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*(pJIS+2) == KANJI_IN_2ND_CHAR2 )) {
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#ifdef DBCS_DIVIDE
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blkanji0 = TRUE;
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#else
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blkanji = TRUE;
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#endif
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pJIS+=3;
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i+=3;
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continue;
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}
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if ( *(pJIS+1) == KANJI_OUT_1ST_CHAR &&
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( *(pJIS+2) == KANJI_OUT_2ND_CHAR1 ||
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*(pJIS+2) == KANJI_OUT_2ND_CHAR2 )) {
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#ifdef DBCS_DIVIDE
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blkanji0 = FALSE;
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#else
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blkanji = FALSE;
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#endif
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pJIS+=3;
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i+=3;
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continue;
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}
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pJIS++;
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i++;
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re++;
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continue;
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}
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else {
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#ifdef DBCS_DIVIDE
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if ( blkanji0 == FALSE ) {
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#else
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if ( blkanji == FALSE ) {
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#endif
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pJIS++;
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i++;
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re++;
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continue;
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}
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else {
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#ifdef DBCS_DIVIDE
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if ( i == JIS_len - 1 ){
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dStatus0.nCodeSet = CODE_JPN_JIS;
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dStatus0.cSavedByte = *pJIS;
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break;
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}
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#endif
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if ( *pJIS == '*' ) {
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pJIS+=2;
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i+=2;
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re ++;
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continue;
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}
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else {
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pJIS+=2;
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i+=2;
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re +=2;
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continue;
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}
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}
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}
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}
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return ( re );
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}
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#ifdef DBCS_DIVIDE
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if ( dStatus.nCodeSet == CODE_JPN_JIS ) {
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UCHAR cJIS = dStatus.cSavedByte;
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if ( dStatus.fESC ){
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if ( cJIS){
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if ( cJIS == KANJI_IN_1ST_CHAR &&
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( *pJIS == KANJI_IN_2ND_CHAR1 ||
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*pJIS == KANJI_IN_2ND_CHAR2 )){
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blkanji = TRUE;
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pJIS++;
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i++;
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} else if ( cJIS == KANJI_OUT_1ST_CHAR &&
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( *pJIS == KANJI_OUT_2ND_CHAR1 ||
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*pJIS == KANJI_OUT_2ND_CHAR2 )){
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blkanji = FALSE;
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pJIS++;
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i++;
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} else {
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*pSJIS = ESC;
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*(pSJIS+1) = cJIS;
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re += 2;
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pSJIS += 2;
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}
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} else {
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if ( *pJIS == KANJI_IN_1ST_CHAR &&
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( *(pJIS+1) == KANJI_IN_2ND_CHAR1 ||
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*(pJIS+1) == KANJI_IN_2ND_CHAR2 )){
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blkanji = TRUE;
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pJIS += 2;
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i += 2;
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} else if ( *pJIS == KANJI_OUT_1ST_CHAR &&
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( *(pJIS+1) == KANJI_OUT_2ND_CHAR1 ||
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*(pJIS+1) == KANJI_OUT_2ND_CHAR2 )){
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blkanji = FALSE;
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pJIS += 2;
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i += 2;
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} else {
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*pSJIS = ESC;
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re++;
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pSJIS++;
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}
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}
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} else if ( cJIS ){ // Divide DBCS in KANJI mode
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// Start One Character Convert from JIS to Shift JIS
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*pSJIS = (cJIS - 0x21 >> 1) +0x81;
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if ( *pSJIS > 0x9f ) {
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(*pSJIS) += 0x40;
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}
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*(pSJIS+1) = *pJIS + ( cJIS & 1 ? 0x1f : 0x7d );
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if ( *(pSJIS+1) >= 0x7f ) {
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(*(pSJIS+1)) ++;
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}
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pJIS++;
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i++;
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re += 2;
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pSJIS += 2;
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}
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dStatus.nCodeSet = CODE_UNKNOWN;
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dStatus.cSavedByte = '\0';
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dStatus.fESC = FALSE;
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}
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#endif
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while ( i < JIS_len ) {
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if ( *pJIS == SO ) { // Kana Mode In?
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blkana = TRUE;
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pJIS++;
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i++;
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continue;
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}
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if ( *pJIS == SI ) { // Kana Mode Out ?
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blkana = FALSE;
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pJIS++;
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i++;
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continue;
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}
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if ( blkana == TRUE ) {
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if ( re >= SJIS_len ) { // Buffer Over flow?
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return ( -1 );
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}
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*pSJIS = (*pJIS) | 0x80;
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pJIS++;
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i++;
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re++;
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pSJIS++;
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continue;
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}
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if ( *pJIS == ESC ) {
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#ifdef DBCS_DIVIDE
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if ( i == JIS_len - 1 || i == JIS_len - 2 ){
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dStatus.nCodeSet = CODE_JPN_JIS;
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dStatus.fESC = TRUE;
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if( i == JIS_len - 2 )
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dStatus.cSavedByte = *(pJIS+1);
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break;
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}
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#endif
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if ( *(pJIS+1) == KANJI_IN_1ST_CHAR &&
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( *(pJIS+2) == KANJI_IN_2ND_CHAR1 ||
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*(pJIS+2) == KANJI_IN_2ND_CHAR2 )) {
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blkanji = TRUE;
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pJIS+=3;
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i+=3;
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continue;
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}
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if ( *(pJIS+1) == KANJI_OUT_1ST_CHAR &&
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( *(pJIS+2) == KANJI_OUT_2ND_CHAR1 ||
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*(pJIS+2) == KANJI_OUT_2ND_CHAR2 )) {
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blkanji = FALSE;
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pJIS+=3;
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i+=3;
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continue;
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}
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if ( re >= SJIS_len ) { // Buffer Over flow?
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return ( -1 );
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}
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*pSJIS = *pJIS;
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pJIS++;
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i++;
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re++;
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pSJIS++;
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continue;
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}
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else {
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if ( blkanji == FALSE ) {
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if ( re >= SJIS_len ) { // Buffer Over flow?
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return ( -1 );
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}
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*pSJIS = *pJIS;
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pJIS++;
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i++;
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re++;
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pSJIS++;
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continue;
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}
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else {
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#ifdef DBCS_DIVIDE
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if ( i == JIS_len - 1 ){
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dStatus.nCodeSet = CODE_JPN_JIS;
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dStatus.cSavedByte = *pJIS;
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break;
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}
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#endif
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if ( *pJIS == '*' ) {
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if ( re >= SJIS_len ) { // Buffer Over flow?
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return ( -1 );
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}
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*pSJIS = *(pJIS+1) | 0x80;
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pJIS+=2;
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i+=2;
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re ++;
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pSJIS++;
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continue;
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}
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else {
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// Kanji Code
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if ( re + 1 >= SJIS_len ) { // Buffer Over flow?
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return ( -1 );
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}
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// Start One Character Convert from JIS to Shift JIS
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*pSJIS = ((*pJIS - 0x21) >> 1) +0x81;
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if ( *pSJIS > 0x9f ) {
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(*pSJIS) += 0x40;
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}
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*(pSJIS+1) = (*(pJIS+1)) + ( (*pJIS) & 1 ? 0x1f : 0x7d );
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if ( *(pSJIS+1) >= 0x7f ) {
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(*(pSJIS+1)) ++;
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}
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pJIS+=2;
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i+=2;
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re +=2;
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pSJIS+=2;
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continue;
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}
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}
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}
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}
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return ( re );
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}
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