/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svtools.hxx" /* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil -*- */ #include // for EOF #include #include #include #include #include #include const int MAX_STRING_LEN = 1024; const int MAX_TOKEN_LEN = 128; #define RTF_ISDIGIT( c ) (c >= '0' && c <= '9') #define RTF_ISALPHA( c ) ( (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') ) SvRTFParser::SvRTFParser( SvStream& rIn, sal_uInt8 nStackSize ) : SvParser( rIn, nStackSize ), eUNICodeSet( RTL_TEXTENCODING_MS_1252 ), // default ist ANSI-CodeSet nUCharOverread( 1 ) { // default ist ANSI-CodeSet SetSrcEncoding( RTL_TEXTENCODING_MS_1252 ); bRTF_InTextRead = false; } SvRTFParser::~SvRTFParser() { } int SvRTFParser::_GetNextToken() { int nRet = 0; do { int bNextCh = true; switch( nNextCh ) { case '\\': { // Steuerzeichen switch( nNextCh = GetNextChar() ) { case '{': case '}': case '\\': case '+': // habe ich in einem RTF-File gefunden case '~': // nonbreaking space case '-': // optional hyphen case '_': // nonbreaking hyphen case '\'': // HexValue nNextCh = '\\'; rInput.SeekRel( -1 ); ScanText(); nRet = RTF_TEXTTOKEN; bNextCh = 0 == nNextCh; break; case '*': // ignoreflag nRet = RTF_IGNOREFLAG; break; case ':': // subentry in an index entry nRet = RTF_SUBENTRYINDEX; break; case '|': // formula-charakter nRet = RTF_FORMULA; break; case 0x0a: case 0x0d: nRet = RTF_PAR; break; default: if( RTF_ISALPHA( nNextCh ) ) { aToken = '\\'; { String aStrBuffer; sal_Unicode* pStr = aStrBuffer.AllocBuffer( MAX_TOKEN_LEN ); xub_StrLen nStrLen = 0; do { *(pStr + nStrLen++) = nNextCh; if( MAX_TOKEN_LEN == nStrLen ) { aToken += aStrBuffer; aToken.GetBufferAccess(); // make unique string! nStrLen = 0; } nNextCh = GetNextChar(); } while( RTF_ISALPHA( nNextCh ) ); if( nStrLen ) { aStrBuffer.ReleaseBufferAccess( nStrLen ); aToken += aStrBuffer; } } // Minus fuer numerischen Parameter int bNegValue = false; if( '-' == nNextCh ) { bNegValue = true; nNextCh = GetNextChar(); } // evt. Numerischer Parameter if( RTF_ISDIGIT( nNextCh ) ) { nTokenValue = 0; do { nTokenValue *= 10; nTokenValue += nNextCh - '0'; nNextCh = GetNextChar(); } while( RTF_ISDIGIT( nNextCh ) ); if( bNegValue ) nTokenValue = -nTokenValue; bTokenHasValue=true; } else if( bNegValue ) // das Minus wieder zurueck { nNextCh = '-'; rInput.SeekRel( -1 ); } if( ' ' == nNextCh ) // Blank gehoert zum Token! nNextCh = GetNextChar(); // suche das Token in der Tabelle: if( 0 == (nRet = GetRTFToken( aToken )) ) // Unknown Control nRet = RTF_UNKNOWNCONTROL; // bug 76812 - unicode token handled as normal text bNextCh = false; switch( nRet ) { case RTF_UC: if( 0 <= nTokenValue ) { nUCharOverread = (sal_uInt8)nTokenValue; #if 1 //cmc: other ifdef breaks #i3584 aParserStates.top(). nUCharOverread = nUCharOverread; #else if( !nUCharOverread ) nUCharOverread = aParserStates.top().nUCharOverread; else aParserStates.top(). nUCharOverread = nUCharOverread; #endif } aToken.Erase(); // #i47831# erase token to prevent the token from being treated as text // read next token nRet = 0; break; case RTF_UPR: if (!_inSkipGroup) { // UPR - overread the group with the ansi // informations while( '{' != _GetNextToken() ) ; SkipGroup(); _GetNextToken(); // overread the last bracket nRet = 0; } break; case RTF_U: if( !bRTF_InTextRead ) { nRet = RTF_TEXTTOKEN; aToken = (sal_Unicode)nTokenValue; // overread the next n "RTF" characters. This // can be also \{, \}, \'88 for( sal_uInt8 m = 0; m < nUCharOverread; ++m ) { sal_Unicode cAnsi = nNextCh; while( 0xD == cAnsi ) cAnsi = GetNextChar(); while( 0xA == cAnsi ) cAnsi = GetNextChar(); if( '\\' == cAnsi && '\'' == ( cAnsi = GetNextChar() )) // HexValue ueberlesen cAnsi = GetHexValue(); nNextCh = GetNextChar(); } ScanText(); bNextCh = 0 == nNextCh; } break; } } else if( SVPAR_PENDING != eState ) { // Bug 34631 - "\ " ueberlesen - Blank als Zeichen // eState = SVPAR_ERROR; bNextCh = false; } break; } } break; case sal_Unicode(EOF): eState = SVPAR_ACCEPTED; nRet = nNextCh; break; case '{': { if( 0 <= nOpenBrakets ) { RtfParserState_Impl aState( nUCharOverread, GetSrcEncoding() ); aParserStates.push( aState ); } ++nOpenBrakets; DBG_ASSERT( static_cast(nOpenBrakets) == aParserStates.size(), "ParserStateStack unequal to bracket count" ); nRet = nNextCh; } break; case '}': --nOpenBrakets; if( 0 <= nOpenBrakets ) { aParserStates.pop(); if( !aParserStates.empty() ) { const RtfParserState_Impl& rRPS = aParserStates.top(); nUCharOverread = rRPS.nUCharOverread; SetSrcEncoding( rRPS.eCodeSet ); } else { nUCharOverread = 1; SetSrcEncoding( GetCodeSet() ); } } DBG_ASSERT( static_cast(nOpenBrakets) == aParserStates.size(), "ParserStateStack unequal to bracket count" ); nRet = nNextCh; break; case 0x0d: case 0x0a: break; default: // es folgt normaler Text ScanText(); nRet = RTF_TEXTTOKEN; bNextCh = 0 == nNextCh; break; } if( bNextCh ) nNextCh = GetNextChar(); } while( !nRet && SVPAR_WORKING == eState ); return nRet; } sal_Unicode SvRTFParser::GetHexValue() { // Hex-Wert sammeln register int n; register sal_Unicode nHexVal = 0; for( n = 0; n < 2; ++n ) { nHexVal *= 16; nNextCh = GetNextChar(); if( nNextCh >= '0' && nNextCh <= '9' ) nHexVal += (nNextCh - 48); else if( nNextCh >= 'a' && nNextCh <= 'f' ) nHexVal += (nNextCh - 87); else if( nNextCh >= 'A' && nNextCh <= 'F' ) nHexVal += (nNextCh - 55); } return nHexVal; } void SvRTFParser::ScanText( const sal_Unicode cBreak ) { String aStrBuffer; int bWeiter = true; while( bWeiter && IsParserWorking() && aStrBuffer.Len() < MAX_STRING_LEN) { int bNextCh = true; switch( nNextCh ) { case '\\': { switch (nNextCh = GetNextChar()) { case '\'': { #if 0 // #i35653 patch from cmc ByteString aByteString(static_cast(GetHexValue())); if (aByteString.Len()) aStrBuffer.Append(String(aByteString, GetSrcEncoding())); #else ByteString aByteString; while (1) { aByteString.Append((char)GetHexValue()); bool bBreak = false; sal_Char nSlash = '\\'; while (!bBreak) { wchar_t __next=GetNextChar(); if (__next>0xFF) // fix for #i43933# and #i35653# { if (aByteString.Len()) aStrBuffer.Append(String(aByteString, GetSrcEncoding())); aStrBuffer.Append((sal_Unicode)__next); aByteString.Erase(); continue; } nSlash = (sal_Char)__next; while (nSlash == 0xD || nSlash == 0xA) nSlash = (sal_Char)GetNextChar(); switch (nSlash) { case '{': case '}': case '\\': bBreak = true; break; default: aByteString.Append(nSlash); break; } } nNextCh = GetNextChar(); if (nSlash != '\\' || nNextCh != '\'') { rInput.SeekRel(-1); nNextCh = nSlash; break; } } bNextCh = false; if (aByteString.Len()) aStrBuffer.Append(String(aByteString, GetSrcEncoding())); #endif } break; case '\\': case '}': case '{': case '+': // habe ich in einem RTF-File gefunden aStrBuffer.Append(nNextCh); break; case '~': // nonbreaking space aStrBuffer.Append(static_cast< sal_Unicode >(0xA0)); break; case '-': // optional hyphen aStrBuffer.Append(static_cast< sal_Unicode >(0xAD)); break; case '_': // nonbreaking hyphen aStrBuffer.Append(static_cast< sal_Unicode >(0x2011)); break; case 'u': // UNI-Code Zeichen lesen { nNextCh = GetNextChar(); rInput.SeekRel( -2 ); if( '-' == nNextCh || RTF_ISDIGIT( nNextCh ) ) { bRTF_InTextRead = true; String sSave( aToken ); nNextCh = '\\'; #ifdef DBG_UTIL int nToken = #endif _GetNextToken(); DBG_ASSERT( RTF_U == nToken, "doch kein UNI-Code Zeichen" ); // dont convert symbol chars aStrBuffer.Append( static_cast< sal_Unicode >(nTokenValue)); // overread the next n "RTF" characters. This // can be also \{, \}, \'88 for( sal_uInt8 m = 0; m < nUCharOverread; ++m ) { sal_Unicode cAnsi = nNextCh; while( 0xD == cAnsi ) cAnsi = GetNextChar(); while( 0xA == cAnsi ) cAnsi = GetNextChar(); if( '\\' == cAnsi && '\'' == ( cAnsi = GetNextChar() )) // HexValue ueberlesen cAnsi = GetHexValue(); nNextCh = GetNextChar(); } bNextCh = false; aToken = sSave; bRTF_InTextRead = false; } else { nNextCh = '\\'; bWeiter = false; // Abbrechen, String zusammen } } break; default: rInput.SeekRel( -1 ); nNextCh = '\\'; bWeiter = false; // Abbrechen, String zusammen break; } } break; case sal_Unicode(EOF): eState = SVPAR_ERROR; // weiter case '{': case '}': bWeiter = false; break; case 0x0a: case 0x0d: break; default: if( nNextCh == cBreak || aStrBuffer.Len() >= MAX_STRING_LEN) bWeiter = false; else { do { // alle anderen Zeichen kommen in den Text aStrBuffer.Append(nNextCh); if (sal_Unicode(EOF) == (nNextCh = GetNextChar())) { if (aStrBuffer.Len()) aToken += aStrBuffer; return; } } while ( (RTF_ISALPHA(nNextCh) || RTF_ISDIGIT(nNextCh)) && (aStrBuffer.Len() < MAX_STRING_LEN) ); bNextCh = false; } } if( bWeiter && bNextCh ) nNextCh = GetNextChar(); } if (aStrBuffer.Len()) aToken += aStrBuffer; } short SvRTFParser::_inSkipGroup=0; void SvRTFParser::SkipGroup() { short nBrackets=1; if (_inSkipGroup>0) return; _inSkipGroup++; #if 1 //#i16185# fecking \bin keyword do { switch (nNextCh) { case '{': ++nBrackets; break; case '}': if (!--nBrackets) { _inSkipGroup--; return; } break; } int nToken = _GetNextToken(); if (nToken == RTF_BIN) { rInput.SeekRel(-1); rInput.SeekRel(nTokenValue); nNextCh = GetNextChar(); } while (nNextCh==0xa || nNextCh==0xd) { nNextCh = GetNextChar(); } } while (sal_Unicode(EOF) != nNextCh && IsParserWorking()); #else sal_Unicode cPrev = 0; do { switch( nNextCh ) { case '{': if( '\\' != cPrev ) ++nBrackets; break; case '}': if( '\\' != cPrev && !--nBrackets ) return; break; case '\\': if( '\\' == cPrev ) nNextCh = 0; break; } cPrev = nNextCh; nNextCh = GetNextChar(); } while( sal_Unicode(EOF) != nNextCh && IsParserWorking() ); #endif if( SVPAR_PENDING != eState && '}' != nNextCh ) eState = SVPAR_ERROR; _inSkipGroup--; } void SvRTFParser::ReadUnknownData() { SkipGroup(); } void SvRTFParser::ReadBitmapData() { SkipGroup(); } void SvRTFParser::ReadOLEData() { SkipGroup(); } SvParserState SvRTFParser::CallParser() { sal_Char cFirstCh; nNextChPos = rInput.Tell(); rInput >> cFirstCh; nNextCh = cFirstCh; eState = SVPAR_WORKING; nOpenBrakets = 0; SetSrcEncoding( eCodeSet = RTL_TEXTENCODING_MS_1252 ); eUNICodeSet = RTL_TEXTENCODING_MS_1252; // default ist ANSI-CodeSet // die 1. beiden Token muessen '{' und \\rtf sein !! if( '{' == GetNextToken() && RTF_RTF == GetNextToken() ) { AddRef(); Continue( 0 ); if( SVPAR_PENDING != eState ) ReleaseRef(); // dann brauchen wir den Parser nicht mehr! } else eState = SVPAR_ERROR; return eState; } void SvRTFParser::Continue( int nToken ) { // DBG_ASSERT( SVPAR_CS_DONTKNOW == GetCharSet(), // "Zeichensatz wurde geaendert." ); if( !nToken ) nToken = GetNextToken(); while( IsParserWorking() ) { SaveState( nToken ); switch( nToken ) { case '}': if( nOpenBrakets ) goto NEXTTOKEN; eState = SVPAR_ACCEPTED; break; case '{': // eine unbekannte Gruppe ? { if( RTF_IGNOREFLAG != GetNextToken() ) nToken = SkipToken( -1 ); else if( RTF_UNKNOWNCONTROL != GetNextToken() ) nToken = SkipToken( -2 ); else { // gleich herausfiltern ReadUnknownData(); nToken = GetNextToken(); if( '}' != nToken ) eState = SVPAR_ERROR; break; // auf zum naechsten Token!! } } goto NEXTTOKEN; case RTF_UNKNOWNCONTROL: break; // unbekannte Token ueberspringen case RTF_NEXTTYPE: case RTF_ANSITYPE: SetEncoding( eCodeSet = RTL_TEXTENCODING_MS_1252 ); break; case RTF_MACTYPE: SetEncoding( eCodeSet = RTL_TEXTENCODING_APPLE_ROMAN ); break; case RTF_PCTYPE: SetEncoding( eCodeSet = RTL_TEXTENCODING_IBM_437 ); break; case RTF_PCATYPE: SetEncoding( eCodeSet = RTL_TEXTENCODING_IBM_850 ); break; case RTF_ANSICPG: eCodeSet = rtl_getTextEncodingFromWindowsCodePage(nTokenValue); SetEncoding(eCodeSet); break; default: NEXTTOKEN: NextToken( nToken ); break; } if( IsParserWorking() ) SaveState( 0 ); // bis hierhin abgearbeitet, // weiter mit neuem Token! nToken = GetNextToken(); } if( SVPAR_ACCEPTED == eState && 0 < nOpenBrakets ) eState = SVPAR_ERROR; } void SvRTFParser::SetEncoding( rtl_TextEncoding eEnc ) { if (eEnc == RTL_TEXTENCODING_DONTKNOW) eEnc = GetCodeSet(); if (!aParserStates.empty()) aParserStates.top().eCodeSet = eEnc; SetSrcEncoding(eEnc); } #ifdef USED void SvRTFParser::SaveState( int nToken ) { SvParser::SaveState( nToken ); } void SvRTFParser::RestoreState() { SvParser::RestoreState(); } #endif /* vi:set tabstop=4 shiftwidth=4 expandtab: */