/************************************************************************* * * OpenOffice.org - a multi-platform office productivity suite * * $RCSfile: tcvtmb.c,v $ * * $Revision: 1.13 $ * * last change: $Author: hr $ $Date: 2006-06-20 04:38:02 $ * * The Contents of this file are made available subject to * the terms of GNU Lesser General Public License Version 2.1. * * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2005 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * ************************************************************************/ #ifndef INCLUDED_RTL_TEXTENC_TENCHELP_H #include "tenchelp.h" #endif #ifndef INCLUDED_RTL_TEXTENC_UNICHARS_H #include "unichars.h" #endif #ifndef _RTL_TEXTCVT_H #include "rtl/textcvt.h" #endif /* ======================================================================= */ /* DBCS to Unicode conversion routine use a lead table for the first byte, */ /* where we determine the trail table or for single byte chars the unicode */ /* value. We have for all lead byte a separate table, because we can */ /* then share many tables for diffrent charset encodings. */ /* ======================================================================= */ sal_Size ImplDBCSToUnicode( const ImplTextConverterData* pData, void* pContext, const sal_Char* pSrcBuf, sal_Size nSrcBytes, sal_Unicode* pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags, sal_uInt32* pInfo, sal_Size* pSrcCvtBytes ) { sal_uChar cLead; sal_uChar cTrail; sal_Unicode cConv; const ImplDBCSToUniLeadTab* pLeadEntry; const ImplDBCSConvertData* pConvertData = (const ImplDBCSConvertData*)pData; const ImplDBCSToUniLeadTab* pLeadTab = pConvertData->mpToUniLeadTab; sal_Unicode* pEndDestBuf; const sal_Char* pEndSrcBuf; (void) pContext; /* unused */ *pInfo = 0; pEndDestBuf = pDestBuf+nDestChars; pEndSrcBuf = pSrcBuf+nSrcBytes; while ( pSrcBuf < pEndSrcBuf ) { cLead = (sal_uChar)*pSrcBuf; /* get entry for the lead byte */ pLeadEntry = pLeadTab+cLead; /* SingleByte char? */ if (pLeadEntry->mpToUniTrailTab == NULL || cLead < pConvertData->mnLeadStart || cLead > pConvertData->mnLeadEnd) { cConv = pLeadEntry->mnUniChar; if ( !cConv && (cLead != 0) ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_UNDEFINED; if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR; break; } else if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_IGNORE ) { pSrcBuf++; continue; } else cConv = ImplGetUndefinedUnicodeChar(cLead, nFlags); } } else { /* Source buffer to small */ if ( pSrcBuf +1 == pEndSrcBuf ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOSMALL; break; } pSrcBuf++; cTrail = (sal_uChar)*pSrcBuf; if ( (cTrail >= pLeadEntry->mnTrailStart) && (cTrail <= pLeadEntry->mnTrailEnd) ) cConv = pLeadEntry->mpToUniTrailTab[cTrail-pLeadEntry->mnTrailStart]; else cConv = 0; if ( !cConv ) { /* EUDC Ranges */ sal_uInt16 i; const ImplDBCSEUDCData* pEUDCTab = pConvertData->mpEUDCTab; for ( i = 0; i < pConvertData->mnEUDCCount; i++ ) { if ( (cLead >= pEUDCTab->mnLeadStart) && (cLead <= pEUDCTab->mnLeadEnd) ) { sal_uInt16 nTrailCount = 0; if ( (cTrail >= pEUDCTab->mnTrail1Start) && (cTrail <= pEUDCTab->mnTrail1End) ) { cConv = pEUDCTab->mnUniStart+ ((cLead-pEUDCTab->mnLeadStart)*pEUDCTab->mnTrailRangeCount)+ (cTrail-pEUDCTab->mnTrail1Start); break; } else { nTrailCount = pEUDCTab->mnTrail1End-pEUDCTab->mnTrail1Start+1; if ( (pEUDCTab->mnTrailCount >= 2) && (cTrail >= pEUDCTab->mnTrail2Start) && (cTrail <= pEUDCTab->mnTrail2End) ) { cConv = pEUDCTab->mnUniStart+ ((cLead-pEUDCTab->mnLeadStart)*pEUDCTab->mnTrailRangeCount)+ nTrailCount+ (cTrail-pEUDCTab->mnTrail2Start); break; } else { nTrailCount = pEUDCTab->mnTrail2End-pEUDCTab->mnTrail2Start+1; if ( (pEUDCTab->mnTrailCount >= 3) && (cTrail >= pEUDCTab->mnTrail3Start) && (cTrail <= pEUDCTab->mnTrail3End) ) { cConv = pEUDCTab->mnUniStart+ ((cLead-pEUDCTab->mnLeadStart)*pEUDCTab->mnTrailRangeCount)+ nTrailCount+ (cTrail-pEUDCTab->mnTrail3Start); break; } } } } pEUDCTab++; } if ( !cConv ) { /* Wir vergleichen den kompletten Trailbereich den wir */ /* definieren, der normalerweise groesser sein kann als */ /* der definierte. Dies machen wir, damit Erweiterungen von */ /* uns nicht beruecksichtigten Encodings so weit wie */ /* moeglich auch richtig zu behandeln, das double byte */ /* characters auch als ein einzelner Character behandelt */ /* wird. */ if (cLead < pConvertData->mnLeadStart || cLead > pConvertData->mnLeadEnd || cTrail < pConvertData->mnTrailStart || cTrail > pConvertData->mnTrailEnd) { *pInfo |= RTL_TEXTTOUNICODE_INFO_INVALID; if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_INVALID_MASK) == RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR; break; } else if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_INVALID_MASK) == RTL_TEXTTOUNICODE_FLAGS_INVALID_IGNORE ) { pSrcBuf++; continue; } else cConv = RTL_TEXTENC_UNICODE_REPLACEMENT_CHARACTER; } else { *pInfo |= RTL_TEXTTOUNICODE_INFO_MBUNDEFINED; if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR; break; } else if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_IGNORE ) { pSrcBuf++; continue; } else cConv = RTL_TEXTENC_UNICODE_REPLACEMENT_CHARACTER; } } } } if ( pDestBuf == pEndDestBuf ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = cConv; pDestBuf++; pSrcBuf++; } *pSrcCvtBytes = nSrcBytes - (pEndSrcBuf-pSrcBuf); return (nDestChars - (pEndDestBuf-pDestBuf)); } /* ----------------------------------------------------------------------- */ sal_Size ImplUnicodeToDBCS( const ImplTextConverterData* pData, void* pContext, const sal_Unicode* pSrcBuf, sal_Size nSrcChars, sal_Char* pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags, sal_uInt32* pInfo, sal_Size* pSrcCvtChars ) { sal_uInt16 cConv; sal_Unicode c; sal_uChar nHighChar; sal_uChar nLowChar; const ImplUniToDBCSHighTab* pHighEntry; const ImplDBCSConvertData* pConvertData = (const ImplDBCSConvertData*)pData; const ImplUniToDBCSHighTab* pHighTab = pConvertData->mpToDBCSHighTab; sal_Char* pEndDestBuf; const sal_Unicode* pEndSrcBuf; sal_Bool bCheckRange = (pConvertData->mnLeadStart != 0 || pConvertData->mnLeadEnd != 0xFF); /* this statement has the effect that this extra check is only done for EUC-KR, which uses the MS-949 tables, but does not support the full range of MS-949 */ (void) pContext; /* unused */ *pInfo = 0; pEndDestBuf = pDestBuf+nDestBytes; pEndSrcBuf = pSrcBuf+nSrcChars; while ( pSrcBuf < pEndSrcBuf ) { c = *pSrcBuf; nHighChar = (sal_uChar)((c >> 8) & 0xFF); nLowChar = (sal_uChar)(c & 0xFF); /* get entry for the high byte */ pHighEntry = pHighTab+nHighChar; /* is low byte in the table range */ if ( (nLowChar >= pHighEntry->mnLowStart) && (nLowChar <= pHighEntry->mnLowEnd) ) { cConv = pHighEntry->mpToUniTrailTab[nLowChar-pHighEntry->mnLowStart]; if (bCheckRange && cConv > 0x7F && ((cConv >> 8) < pConvertData->mnLeadStart || (cConv >> 8) > pConvertData->mnLeadEnd || (cConv & 0xFF) < pConvertData->mnTrailStart || (cConv & 0xFF) > pConvertData->mnTrailEnd)) cConv = 0; } else cConv = 0; if (cConv == 0 && c != 0) { /* Map to EUDC ranges: */ ImplDBCSEUDCData const * pEUDCTab = pConvertData->mpEUDCTab; sal_uInt32 i; for (i = 0; i < pConvertData->mnEUDCCount; ++i) { if (c >= pEUDCTab->mnUniStart && c <= pEUDCTab->mnUniEnd) { sal_uInt32 nIndex = c - pEUDCTab->mnUniStart; sal_uInt32 nLeadOff = nIndex / pEUDCTab->mnTrailRangeCount; sal_uInt32 nTrailOff = nIndex % pEUDCTab->mnTrailRangeCount; sal_uInt32 nSize; cConv = (sal_uInt16) ((pEUDCTab->mnLeadStart + nLeadOff) << 8); nSize = pEUDCTab->mnTrail1End - pEUDCTab->mnTrail1Start + 1; if (nTrailOff < nSize) { cConv |= pEUDCTab->mnTrail1Start + nTrailOff; break; } nTrailOff -= nSize; nSize = pEUDCTab->mnTrail2End - pEUDCTab->mnTrail2Start + 1; if (nTrailOff < nSize) { cConv |= pEUDCTab->mnTrail2Start + nTrailOff; break; } nTrailOff -= nSize; cConv |= pEUDCTab->mnTrail3Start + nTrailOff; break; } pEUDCTab++; } /* FIXME * SB: Not sure why this is in here. Plus, it does not work as * intended when (c & 0xFF) == 0, because the next !cConv check * will then think c has not yet been converted... */ if (c >= RTL_TEXTCVT_BYTE_PRIVATE_START && c <= RTL_TEXTCVT_BYTE_PRIVATE_END) { if ( nFlags & RTL_UNICODETOTEXT_FLAGS_PRIVATE_MAPTO0 ) cConv = (sal_Char)(sal_uChar)(c & 0xFF); } } if ( !cConv ) { if ( nFlags & RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACE ) { /* !!! */ } if ( nFlags & RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACESTR ) { /* !!! */ } /* Handle undefined and surrogates characters */ /* (all surrogates characters are undefined) */ if (ImplHandleUndefinedUnicodeToTextChar(pData, &pSrcBuf, pEndSrcBuf, &pDestBuf, pEndDestBuf, nFlags, pInfo)) continue; else break; } /* SingleByte */ if ( !(cConv & 0xFF00) ) { if ( pDestBuf == pEndDestBuf ) { *pInfo |= RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = (sal_Char)(sal_uChar)(cConv & 0xFF); pDestBuf++; } else { if ( pDestBuf+1 >= pEndDestBuf ) { *pInfo |= RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = (sal_Char)(sal_uChar)((cConv >> 8) & 0xFF); pDestBuf++; *pDestBuf = (sal_Char)(sal_uChar)(cConv & 0xFF); pDestBuf++; } pSrcBuf++; } *pSrcCvtChars = nSrcChars - (pEndSrcBuf-pSrcBuf); return (nDestBytes - (pEndDestBuf-pDestBuf)); } /* ======================================================================= */ #define JIS_EUC_LEAD_OFF 0x80 #define JIS_EUC_TRAIL_OFF 0x80 /* ----------------------------------------------------------------------- */ sal_Size ImplEUCJPToUnicode( const ImplTextConverterData* pData, void* pContext, const sal_Char* pSrcBuf, sal_Size nSrcBytes, sal_Unicode* pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags, sal_uInt32* pInfo, sal_Size* pSrcCvtBytes ) { sal_uChar c; sal_uChar cLead = '\0'; sal_uChar cTrail = '\0'; sal_Unicode cConv; const ImplDBCSToUniLeadTab* pLeadEntry; const ImplDBCSToUniLeadTab* pLeadTab; const ImplEUCJPConvertData* pConvertData = (const ImplEUCJPConvertData*)pData; sal_Unicode* pEndDestBuf; const sal_Char* pEndSrcBuf; (void) pContext; /* unused */ *pInfo = 0; pEndDestBuf = pDestBuf+nDestChars; pEndSrcBuf = pSrcBuf+nSrcBytes; while ( pSrcBuf < pEndSrcBuf ) { c = (sal_uChar)*pSrcBuf; /* ASCII */ if ( c <= 0x7F ) cConv = c; else { /* SS2 - Half-width katakana */ /* 8E + A1-DF */ if ( c == 0x8E ) { /* Source buffer to small */ if ( pSrcBuf + 1 == pEndSrcBuf ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOSMALL; break; } pSrcBuf++; c = (sal_uChar)*pSrcBuf; if ( (c >= 0xA1) && (c <= 0xDF) ) cConv = 0xFF61+(c-0xA1); else { cConv = 0; cLead = 0x8E; cTrail = c; } } else { /* SS3 - JIS 0212-1990 */ /* 8F + A1-FE + A1-FE */ if ( c == 0x8F ) { /* Source buffer to small */ if (pEndSrcBuf - pSrcBuf < 3) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOSMALL; break; } pSrcBuf++; cLead = (sal_uChar)*pSrcBuf; pSrcBuf++; cTrail = (sal_uChar)*pSrcBuf; pLeadTab = pConvertData->mpJIS0212ToUniLeadTab; } /* CodeSet 2 JIS 0208-1997 */ /* A1-FE + A1-FE */ else { /* Source buffer to small */ if ( pSrcBuf + 1 == pEndSrcBuf ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOSMALL; break; } cLead = c; pSrcBuf++; cTrail = (sal_uChar)*pSrcBuf; pLeadTab = pConvertData->mpJIS0208ToUniLeadTab; } /* Undefined Range */ if ( (cLead < JIS_EUC_LEAD_OFF) || (cTrail < JIS_EUC_TRAIL_OFF) ) cConv = 0; else { cLead -= JIS_EUC_LEAD_OFF; cTrail -= JIS_EUC_TRAIL_OFF; pLeadEntry = pLeadTab+cLead; if ( (cTrail >= pLeadEntry->mnTrailStart) && (cTrail <= pLeadEntry->mnTrailEnd) ) cConv = pLeadEntry->mpToUniTrailTab[cTrail-pLeadEntry->mnTrailStart]; else cConv = 0; } } if ( !cConv ) { /* Wir vergleichen den kompletten Trailbereich den wir */ /* definieren, der normalerweise groesser sein kann als */ /* der definierte. Dies machen wir, damit Erweiterungen von */ /* uns nicht beruecksichtigten Encodings so weit wie */ /* moeglich auch richtig zu behandeln, das double byte */ /* characters auch als ein einzelner Character behandelt */ /* wird. */ if ( (cLead < JIS_EUC_LEAD_OFF) || (cTrail < JIS_EUC_TRAIL_OFF) ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_INVALID; if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_INVALID_MASK) == RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR; break; } else if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_INVALID_MASK) == RTL_TEXTTOUNICODE_FLAGS_INVALID_IGNORE ) { pSrcBuf++; continue; } else cConv = RTL_TEXTENC_UNICODE_REPLACEMENT_CHARACTER; } else { *pInfo |= RTL_TEXTTOUNICODE_INFO_MBUNDEFINED; if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR; break; } else if ( (nFlags & RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_MASK) == RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_IGNORE ) { pSrcBuf++; continue; } else cConv = RTL_TEXTENC_UNICODE_REPLACEMENT_CHARACTER; } } } if ( pDestBuf == pEndDestBuf ) { *pInfo |= RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = cConv; pDestBuf++; pSrcBuf++; } *pSrcCvtBytes = nSrcBytes - (pEndSrcBuf-pSrcBuf); return (nDestChars - (pEndDestBuf-pDestBuf)); } /* ----------------------------------------------------------------------- */ sal_Size ImplUnicodeToEUCJP( const ImplTextConverterData* pData, void* pContext, const sal_Unicode* pSrcBuf, sal_Size nSrcChars, sal_Char* pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags, sal_uInt32* pInfo, sal_Size* pSrcCvtChars ) { sal_uInt32 cConv; sal_Unicode c; sal_uChar nHighChar; sal_uChar nLowChar; const ImplUniToDBCSHighTab* pHighEntry; const ImplUniToDBCSHighTab* pHighTab; const ImplEUCJPConvertData* pConvertData = (const ImplEUCJPConvertData*)pData; sal_Char* pEndDestBuf; const sal_Unicode* pEndSrcBuf; (void) pContext; /* unused */ *pInfo = 0; pEndDestBuf = pDestBuf+nDestBytes; pEndSrcBuf = pSrcBuf+nSrcChars; while ( pSrcBuf < pEndSrcBuf ) { c = *pSrcBuf; /* ASCII */ if ( c <= 0x7F ) cConv = c; /* Half-width katakana */ else if ( (c >= 0xFF61) && (c <= 0xFF9F) ) cConv = 0x8E00+0xA1+(c-0xFF61); else { nHighChar = (sal_uChar)((c >> 8) & 0xFF); nLowChar = (sal_uChar)(c & 0xFF); /* JIS 0208 */ pHighTab = pConvertData->mpUniToJIS0208HighTab; pHighEntry = pHighTab+nHighChar; if ( (nLowChar >= pHighEntry->mnLowStart) && (nLowChar <= pHighEntry->mnLowEnd) ) { cConv = pHighEntry->mpToUniTrailTab[nLowChar-pHighEntry->mnLowStart]; if (cConv != 0) cConv |= 0x8080; } else cConv = 0; /* JIS 0212 */ if ( !cConv ) { pHighTab = pConvertData->mpUniToJIS0212HighTab; pHighEntry = pHighTab+nHighChar; if ( (nLowChar >= pHighEntry->mnLowStart) && (nLowChar <= pHighEntry->mnLowEnd) ) { cConv = pHighEntry->mpToUniTrailTab[nLowChar-pHighEntry->mnLowStart]; if (cConv != 0) cConv |= 0x8F8080; } if ( !cConv ) { if ( nFlags & RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACE ) { /* !!! */ } if ( nFlags & RTL_UNICODETOTEXT_FLAGS_UNDEFINED_REPLACESTR ) { /* !!! */ } /* Handle undefined and surrogates characters */ /* (all surrogates characters are undefined) */ if (ImplHandleUndefinedUnicodeToTextChar(pData, &pSrcBuf, pEndSrcBuf, &pDestBuf, pEndDestBuf, nFlags, pInfo)) continue; else break; } } } /* SingleByte */ if ( !(cConv & 0xFFFF00) ) { if ( pDestBuf == pEndDestBuf ) { *pInfo |= RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = (sal_Char)(sal_uChar)(cConv & 0xFF); pDestBuf++; } /* DoubleByte */ else if ( !(cConv & 0xFF0000) ) { if ( pDestBuf+1 >= pEndDestBuf ) { *pInfo |= RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = (sal_Char)(sal_uChar)((cConv >> 8) & 0xFF); pDestBuf++; *pDestBuf = (sal_Char)(sal_uChar)(cConv & 0xFF); pDestBuf++; } else { if ( pDestBuf+2 >= pEndDestBuf ) { *pInfo |= RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } *pDestBuf = (sal_Char)(sal_uChar)((cConv >> 16) & 0xFF); pDestBuf++; *pDestBuf = (sal_Char)(sal_uChar)((cConv >> 8) & 0xFF); pDestBuf++; *pDestBuf = (sal_Char)(sal_uChar)(cConv & 0xFF); pDestBuf++; } pSrcBuf++; } *pSrcCvtChars = nSrcChars - (pEndSrcBuf-pSrcBuf); return (nDestBytes - (pEndDestBuf-pDestBuf)); }