// Copyright (c) Microsoft Corpration // // File Name: sjis2euc.c // Owner: Tetsuhide Akaishi // Revision: 1.00 02/21/'93 Tetsuhide Akaishi // #include "pch_c.h" #include "fechrcnv.h" //Shift JIS(SJC) to EUC Conversion algorithm //Two byte KANJI // - 1st byte of Shift JIS charcter // (XX = Hex value of 1st byte of Shift JIS Charcter) // Range 0x81 - 0x9f // (2nd byte of Shift JIS is less than or equals to 0x9e) // (EUC odd)0xa1-0xdd // EUC 1st byte = (XX-0x81)*2 + 0xa1 // (2nd byte of Shift JIS is greater than or equals to 0x9f) // (EUC even)0xa2-0xde // EUC 1st byte = (XX-0x81)*2 + 0xa2 // // Range 0xe0 - 0xef // (2nd byte of Shift JIS is less than or equals to 0x9e) // (EUC odd)0xdf-0xfd // EUC 1st byte = (XX-0xe0)*2 + 0xdf // (2nd byte of Shift JIS is greater than or equals to 0x9f) // (EUC even)0xa2-0xde // EUC 1st byte = (XX-0xe0)*2 + 0xe0 // // - 2nd byte of Shift JIS charcter // (YY = Hex value of 2nd byte of Shift JIS Charcter) // Range 0x40 - 0x7e (EUC)0xa1 - 0xdf // EUC 2nd byte = (YY+0x61) // Range 0x80 - 0x9e (EUC)0xe0 - 0xfe // EUC 2nd byte = (YY+0x60) // Range 0x9f - 0xfc (EUC)0xa1 - 0xfe // EUC 2nd byte = (YY+0x02) // // Range 0x0a1 - 0x0df(Hankaku KATAKANA) // 1st byte of EUC charcter = 0x08e // 2nd byte if EUC charcter = C6220 Hankaku KATAKANA code // (same byte value as Shift JIS Hankaku KATAKANA) (0x0a1 - 0x0df) //@ // // Syntax: int ShiftJISChar_to_EUCChar ( UCHAR *pShiftJIS, UCHAR *pEUC ) // The ShiftJISChar_to_EUCChar function convert one Shift JIS character // to a JIS code string. // // UCHAR *pShiftJIS Points to the character string to be converted. // // UCHAR *pEUC Points to a buffer that receives the convert string // from Shift JIS Code to EUC Code. // // Return Value // The number of bytes to copy. // { if ( *pShiftJIS >= 0x081 && *pShiftJIS <= 0x09f ) { if ( *(pShiftJIS+1) <= 0x09e ) { *pEUC = ((*pShiftJIS)-0x081)*2+0x0a1; } else { *pEUC = ((*pShiftJIS)-0x081)*2+0x0a2; } goto SECOND_BYTE; } if ( *pShiftJIS >= 0x0e0 && *pShiftJIS <= 0x0ef ) { if ( *(pShiftJIS+1) <= 0x09e ) { *pEUC = ((*pShiftJIS)-0x0e0)*2+0x0df; } else { *pEUC = ((*pShiftJIS)-0x0e0)*2+0x0e0; } goto SECOND_BYTE; } // Is the charcter Hankaku KATAKANA ? if ( *pShiftJIS >= 0x0a1 && *pShiftJIS <= 0x0df ) { *pEUC = 0x08e; *(pEUC+1) = *pShiftJIS; return( 2 ); } // Is the charcter IBM Extended Charcter? if ( *pShiftJIS >= 0x0fa && *pShiftJIS <= 0x0fc ) { // There are no IBM Extended Charcte in EUC charset. *pEUC = ' '; *(pEUC+1) = ' '; return( 2 ); } // Is the charcter ASCII charcter ? *pEUC = *pShiftJIS; return ( 1 ); SECOND_BYTE: if ( *(pShiftJIS+1) >= 0x040 && *(pShiftJIS+1) <= 0x07e ) { *(pEUC+1) = *(pShiftJIS + 1) + 0x061; } else { if ( *(pShiftJIS+1) >= 0x080 && *(pShiftJIS+1) <= 0x09e ) { *(pEUC+1) = *(pShiftJIS + 1) + 0x060; } else { *(pEUC+1) = *(pShiftJIS + 1) + 0x002; } } return ( 2 ); } int ShiftJIS_to_EUC ( UCHAR *pShiftJIS, int ShiftJIS_len, UCHAR *pEUC, int EUC_len ) // The ShiftJIS_to_JIS function convert a character string as Shift JIS code // to a EUC code string. // // UCHAR *pShiftJIS Points to the character string to be converted. // // int ShiftJIS_len Specifies the size in bytes of the string pointed // to by the pShiftJIS parameter. If this value is -1, // the string is assumed to be NULL terminated and the // length is calculated automatically. // // UCHAR *pEUC Points to a buffer that receives the convert string // from Shift JIS Code to EUC Code. // // int EUC_len Specifies the size, in EUC characters of the buffer // pointed to by the pEUC parameter. If the value is zero, // the function returns the number of EUC characters // required for the buffer, and makes no use of the pEUC // buffer. // // Return Value // If the function succeeds, and EUC_len is nonzero, the return value is the // number of EUC characters written to the buffer pointed to by pEUC. // // If the function succeeds, and EUC_len is zero, the return value is the // required size, in EUC characters, for a buffer that can receive the // converted string. // // If the function fails, the return value is -1. The error mean pEUC buffer // is small for setting converted strings. // { int re; // Convert Lenght int i; // Loop Counter if ( ShiftJIS_len == -1 ) { // If length is not set, last character of the strings is NULL. ShiftJIS_len = strlen ( pShiftJIS ) + 1; } i = 0; re = 0; if ( EUC_len == 0 ) { // Only retrun the required size while ( i < ShiftJIS_len ) { if ( SJISISKANJI(*pShiftJIS) ) { pShiftJIS+=2; i+=2; re+=2; continue; } if ( SJISISKANA(*pShiftJIS) ) { pShiftJIS++; i++; re+=2; continue; } pShiftJIS++; i++; re++; } return ( re ); } while ( i < ShiftJIS_len ) { if ( *pShiftJIS >= 0x081 && *pShiftJIS <= 0x09f ) { if ( re + 1 >= EUC_len ) { // Buffer Over? return ( -1 ); } if ( *(pShiftJIS+1) <= 0x09e ) { *pEUC = ((*pShiftJIS)-0x081)*2+0x0a1; } else { *pEUC = ((*pShiftJIS)-0x081)*2+0x0a2; } pShiftJIS++; // Next Char pEUC++; if ( (*pShiftJIS) >= 0x040 && (*pShiftJIS) <= 0x07e ) { (*pEUC) = (*pShiftJIS) + 0x061; } else { if ( (*pShiftJIS) >= 0x080 && (*pShiftJIS) <= 0x09e ) { (*pEUC) = (*pShiftJIS) + 0x060; } else { (*pEUC) = (*pShiftJIS) + 0x002; } } re+=2; i+=2; pShiftJIS++; pEUC++; continue; } if ( *pShiftJIS >= 0x0e0 && *pShiftJIS <= 0x0ef ) { if ( re + 1 >= EUC_len ) { // Buffer Over? return ( -1 ); } if ( *(pShiftJIS+1) <= 0x09e ) { *pEUC = ((*pShiftJIS)-0x0e0)*2+0x0df; } else { *pEUC = ((*pShiftJIS)-0x0e0)*2+0x0e0; } pShiftJIS++; // Next Char pEUC++; if ( (*pShiftJIS) >= 0x040 && (*pShiftJIS) <= 0x07e ) { (*pEUC) = (*pShiftJIS) + 0x061; } else { if ( (*pShiftJIS) >= 0x080 && (*pShiftJIS) <= 0x09e ) { (*pEUC) = (*pShiftJIS) + 0x060; } else { (*pEUC) = (*pShiftJIS) + 0x002; } } re+=2; i+=2; pShiftJIS++; pEUC++; continue; } // Is the charcter Hankaku KATAKANA ? if ( *pShiftJIS >= 0x0a1 && *pShiftJIS <= 0x0df ) { if ( re + 1 >= EUC_len ) { // Buffer Over? return ( -1 ); } *pEUC = 0x08e; pEUC++; (*pEUC) = *pShiftJIS; re+=2; i++; pShiftJIS++; pEUC++; continue; } // Is the charcter IBM Extended Charcter? if ( *pShiftJIS >= 0x0fa && *pShiftJIS <= 0x0fc ) { if ( re + 1 >= EUC_len ) { // Buffer Over? return ( -1 ); } // There are no IBM Extended Charcte in EUC charset. *pEUC = ' '; pEUC++; (*pEUC) = ' '; re+=2; i+=2; pShiftJIS+=2; pEUC++; continue; } // Is the charcter ASCII charcter ? if ( re >= EUC_len ) { // Buffer Over? return ( -1 ); } *pEUC = *pShiftJIS; re++; i++; pShiftJIS++; pEUC++; continue; } return ( re ); }