/************************************************************** * * 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_sw.hxx" #include #include #ifndef _W1CLASS_HXX #include #endif #ifdef DUMP static const sal_Char* pUnknown = "?"; #define DUMPNAME(s) s #else #define DUMPNAME(s) 0 #endif Ww1SingleSprm* Ww1Sprm::aTab[ 256 ]; Ww1SingleSprm* Ww1Sprm::pSingleSprm = 0; /////////////////////////////////////////////////////////////////// Fib Ww1Fib::Ww1Fib( SvStream& _rStream ) : rStream(_rStream) { bOK = 0 == rStream.Seek(0) && rStream.Read( &aFib, sizeof( aFib )) == sizeof( aFib ); } ///////////////////////////////////////////////////////////// PlainText Ww1PlainText::Ww1PlainText(Ww1Fib& rWwFib, sal_uLong nFilePos, sal_uLong nCountBytes) : rFib(rWwFib), ulFilePos(nFilePos), ulCountBytes(nCountBytes), ulSeek(0), bOK(true) { } sal_Unicode Ww1PlainText::operator [] ( sal_uLong ulOffset ) { DBG_ASSERT( ulOffset(nLen) ), nLen ) == nLen ) sRet = String( aStr, RTL_TEXTENCODING_MS_1252 ); return sRet; } ///////////////////////////////////////////////////////////////// Style Ww1Style::Ww1Style() : pPapx(0), pParent(0), stcBase(0), stcNext(0), bUsed(false) { } Ww1Style::~Ww1Style() { delete pPapx; } void Ww1Style::SetDefaults(sal_uInt8 stc) { if( 222 == stc ) { stcBase = 222; stcNext = 222; aChpx.hpsSet(20); } } sal_uInt16 Ww1Style::ReadName( sal_uInt8*&p, sal_uInt16& rnCountBytes, sal_uInt16 stc ) { sal_uInt8 nCountBytes = SVBT8ToByte(p); p++; rnCountBytes--; if( !nCountBytes ) // default { static const sal_Char* __READONLY_DATA names[] = { "W1 Null", //222 "W1 Annotation reference", //223 "W1 Annotation text", //224 "W1 Table of contents 8", //225 "W1 Table of contents 7", //226 "W1 Table of contents 6", //227 "W1 Table of contents 5", //228 "W1 Table of contents 4", //229 "W1 Table of contents 3", //230 "W1 Table of contents 2", //231 "W1 Table of contents 1", //232 "W1 Index 7", //233 "W1 Index 6", //234 "W1 Index 5", //235 "W1 Index 4", //236 "W1 Index 3", //237 "W1 Index 2", //238 "W1 Index 1", //239 "W1 Line number", //240 "W1 Index heading", //241 "W1 Footer", //242 "W1 Header", //243 "W1 Footnote reference", //244 "W1 Footnote text", //245 "W1 Heading 9", //246 "W1 Heading 8", //247 "W1 Heading 7", //248 "W1 Heading 6", //249 "W1 Heading 5", //250 "W1 Heading 4", //251 "W1 Heading 3", //252 "W1 Heading 2", //253 "W1 Heading 1", //254 "W1 Normal indent" //255 };//256 const sal_Char* pStr; size_t nSize(stc); if (!nSize) pStr = "W1 Normal"; else if (nSize - 222 >= sizeof(names) / sizeof(*names)) pStr = "?"; else pStr = names[nSize-222]; SetName(String(pStr, RTL_TEXTENCODING_MS_1252)); } else if( 255 > nCountBytes ) // unused { SetName( String( (sal_Char*)p, nCountBytes, RTL_TEXTENCODING_MS_1252 )); p += nCountBytes; DBG_ASSERT(rnCountBytes>=nCountBytes, "Ww1Style"); rnCountBytes = rnCountBytes - nCountBytes; } return 0; } sal_uInt16 Ww1Style::ReadChpx( sal_uInt8*&p, sal_uInt16& rnCountBytes ) { sal_uInt16 nCountBytes = SVBT8ToByte(p); p++; rnCountBytes--; if (nCountBytes != 255 // unused && nCountBytes != 0) // default { if (nCountBytes > sizeof(aChpx)) nCountBytes = sizeof(aChpx); memcpy( &aChpx, p, nCountBytes ); p += nCountBytes; DBG_ASSERT(rnCountBytes>=nCountBytes, "Ww1Style"); rnCountBytes = rnCountBytes - nCountBytes; } return 0; } sal_uInt16 Ww1Style::ReadPapx(sal_uInt8*&p, sal_uInt16& rnCountBytes) { sal_uInt16 nCountBytes = SVBT8ToByte(p); p++; rnCountBytes--; if (nCountBytes != 255) { pPapx = new Ww1SprmPapx(p, nCountBytes); p += nCountBytes; DBG_ASSERT(rnCountBytes>=nCountBytes, "Ww1Style"); rnCountBytes = rnCountBytes - nCountBytes; } else pPapx = new Ww1SprmPapx(p, 0); return 0; } sal_uInt16 Ww1Style::ReadEstcp(sal_uInt8*&p, sal_uInt16& rnCountBytes) { stcNext = SVBT8ToByte(p); p++; rnCountBytes--; stcBase = SVBT8ToByte(p); p++; DBG_ASSERT(rnCountBytes>0, "Ww1Style"); rnCountBytes--; return 0; } //////////////////////////////////////////////////////////// StyleSheet Ww1StyleSheet::Ww1StyleSheet(Ww1Fib& _rFib) : cstcStd(0), rFib(_rFib), bOK(sal_False) { sal_uInt16 cbStshf = rFib.GetFIB().cbStshfGet(); DBG_ASSERT(cbStshf>=17, "Ww1StyleSheet"); for (sal_uInt16 stc=0;stc=nCountBytes, "Ww1StyleSheet"); rnCountBytes = rnCountBytes - nCountBytes; nCountBytes = nCountBytes - sizeof(SVBT16); sal_uInt16 stcp = 0; while (nCountBytes > 0) { sal_uInt16 stc = (stcp - cstcStd) & 255; aStyles[stc].ReadName(p, nCountBytes, stc); stcp++; } DBG_ASSERT(nCountBytes==0, "Ww1StyleSheet"); return 0; } sal_uInt16 Ww1StyleSheet::ReadChpx(sal_uInt8*& p, sal_uInt16& rnCountBytes) { sal_uInt16 nCountBytes = SVBT16ToShort(p); p += sizeof(SVBT16); DBG_ASSERT(rnCountBytes>=nCountBytes, "Ww1StyleSheet"); rnCountBytes = rnCountBytes - nCountBytes; nCountBytes = nCountBytes - sizeof(SVBT16); sal_uInt16 stcp = 0; while (nCountBytes > 0) { sal_uInt16 stc = (stcp - cstcStd) & 255; aStyles[stc].ReadChpx(p, nCountBytes); stcp++; } DBG_ASSERT(nCountBytes == 0, "Ww1StyleSheet"); return 0; } sal_uInt16 Ww1StyleSheet::ReadPapx(sal_uInt8*& p, sal_uInt16& rnCountBytes) { sal_uInt16 nCountBytes = SVBT16ToShort(p); p += sizeof(SVBT16); DBG_ASSERT(rnCountBytes>=nCountBytes, "Ww1StyleSheet"); rnCountBytes = rnCountBytes - nCountBytes; nCountBytes = nCountBytes - sizeof(SVBT16); sal_uInt16 stcp = 0; while (nCountBytes > 0) { sal_uInt16 stc = (stcp - cstcStd) & 255; aStyles[stc].ReadPapx(p, nCountBytes); stcp++; } DBG_ASSERT(nCountBytes == 0, "Ww1StyleSheet"); return 0; } sal_uInt16 Ww1StyleSheet::ReadEstcp(sal_uInt8*& p, sal_uInt16& rnCountBytes) { sal_uInt16 iMac = SVBT16ToShort(p); p += sizeof(SVBT16); DBG_ASSERT(rnCountBytes>=sizeof(SVBT16), "Ww1StyleSheet"); rnCountBytes -= sizeof(SVBT16); for (sal_uInt16 stcp=0;stcp 2 ) // ueberhaupt fonts? { SVBT16 nCountBytes; DBG_ASSERT(rFib.GetFIB().cbSttbfffnGet() > sizeof(nCountBytes), "Ww1Fonts"); if (rFib.GetStream().Seek(rFib.GetFIB().fcSttbfffnGet()) == (sal_uLong)rFib.GetFIB().fcSttbfffnGet()) if (rFib.GetStream().Read(nCountBytes, sizeof(nCountBytes)) == sizeof(nCountBytes)) // Laenge steht hier nochmal { DBG_ASSERT(SVBT16ToShort(nCountBytes) == rFib.GetFIB().cbSttbfffnGet(), "redundant-size missmatch"); // hoffentlich sind sie immer gleich W1_FFN* pA = (W1_FFN*)new char[rFib.GetFIB().cbSttbfffnGet() - sizeof(nCountBytes)]; // Alloziere Font-Array //~ Ww1: new-NULL if (rFib.GetStream().Read(pA, rFib.GetFIB().cbSttbfffnGet() - sizeof(nCountBytes)) == (sal_uLong)rFib.GetFIB().cbSttbfffnGet() - sizeof(nCountBytes)) // lese alle Fonts {} //nothing long nLeft = rFib.GetFIB().cbSttbfffnGet() - sizeof(nCountBytes); // Zaehle, wieviele Fonts enthalten W1_FFN* p = pA; while (1) { sal_uInt16 nNextSiz; nNextSiz = p->cbFfnM1Get() + 1; if(nNextSiz > nLeft) break; nMax++; nLeft -= nNextSiz; if(nLeft < 1) // naechste Laenge muss gelesen werden koennen break; p = (W1_FFN *)(((char*)p) + nNextSiz); } if (nMax) { pFontA = new W1_FFN*[nMax]; // alloziere Index-Array //~ Ww1: new-NULL pFontA[0] = pA; // fuelle Index-Array sal_uInt16 i; for(i=1, p=pA; icbFfnM1Get() + 1); pFontA[i] = p; } } else pFontA = 0; // Keine Eintraege -> kein Array } } bOK = sal_True; } W1_FFN* Ww1Fonts::GetFFN(sal_uInt16 nNum) { W1_FFN* pRet = NULL; if (pFontA) if (nNum < nMax) pRet = pFontA[nNum]; return pRet; } /////////////////////////////////////////////////////////////////// DOP Ww1Dop::Ww1Dop(Ww1Fib& _rFib) : rFib(_rFib) { long nRead; memset(&aDop, 0, sizeof(aDop)); // set defaults if(rFib.GetFIB().cbDopGet() >= sizeof(aDop)) nRead = sizeof(aDop); else nRead = rFib.GetFIB().cbDopGet(); bOK = rFib.GetStream().Seek(rFib.GetFIB().fcDopGet()) == (sal_uLong)rFib.GetFIB().fcDopGet() && rFib.GetStream().Read(&aDop, nRead) == (sal_uLong)nRead; } /////////////////////////////////////////////////////////////// Picture Ww1Picture::Ww1Picture(SvStream& rStream, sal_uLong ulFilePos) : bOK(false), pPic(0) { ulFilePos &= 0xffffff; //~ ww1: warum auch immer - im highbyte steht eine 5?!?! SVBT32 lcb; if (rStream.Seek(ulFilePos) == (sal_uLong)ulFilePos) if (rStream.Read(&lcb, sizeof(lcb)) == (sal_uLong)sizeof(lcb)) if (sizeof(int)>=4 || SVBT32ToUInt32(lcb) < 0x8000) //~ mdt: 64K & 16bit if ((pPic = (W1_PIC*)(new sal_uInt8[SVBT32ToUInt32(lcb)])) != NULL) if (rStream.Seek(ulFilePos) == (sal_uLong)ulFilePos) if (rStream.Read(pPic, SVBT32ToUInt32(lcb)) == (sal_uLong)SVBT32ToUInt32(lcb)) { DBG_ASSERT(pPic->cbHeaderGet()==sizeof(*pPic)-sizeof(pPic->rgb), "Ww1Picture"); bOK = true; } } ////////////////////////////////////////////////////////////////// Sprm Ww1Sprm::Ww1Sprm(sal_uInt8* x, sal_uInt16 _nCountBytes) : p(NULL), nCountBytes(_nCountBytes), bOK(sal_False), pArr(NULL), count(0) { if (nCountBytes == 0) bOK = sal_True; else if ((p = new sal_uInt8[nCountBytes]) != NULL) { memcpy(p, x, nCountBytes); if (ReCalc()) bOK = sal_True; } } Ww1Sprm::Ww1Sprm(SvStream& rStream, sal_uLong ulFilePos) : p(NULL), nCountBytes(0), bOK(sal_False), pArr(NULL), count(0) { SVBT8 x; ByteToSVBT8(0, x); if (rStream.Seek(ulFilePos) == (sal_uLong)ulFilePos) if (rStream.Read(&x, sizeof(x)) == (sal_uLong)sizeof(x)) if ((nCountBytes = SVBT8ToByte(x)) == 255 || !nCountBytes || (p = new sal_uInt8[nCountBytes]) != NULL) if (nCountBytes == 255 || !nCountBytes || rStream.Read(p, nCountBytes) == (sal_uLong)nCountBytes) if (ReCalc()) bOK = sal_True; } Ww1Sprm::~Ww1Sprm() { delete pArr; delete p; } sal_uInt16 Ww1SingleSprm::Size(sal_uInt8* /*pSprm*/) { return nCountBytes; } sal_uInt16 Ww1SingleSprmTab::Size(sal_uInt8* pSprm) // Doc 24/25, Fastsave-Sprm { DBG_ASSERT(nCountBytes==0, "Ww1SingleSprmTab"); sal_uInt16 nRet = sizeof(SVBT8); sal_uInt16 nSize = SVBT8ToByte(pSprm); if (nSize != 255) nRet = nRet + nSize; else { sal_uInt16 nDel = SVBT8ToByte(pSprm+1) * 4; sal_uInt16 nIns = SVBT8ToByte(pSprm + 3 + nDel) * 3; nRet += nDel + nIns; } DBG_ASSERT(nRet <= 354, "Ww1SingleSprmTab"); if (nRet > 354) nRet = 0; return nRet; } sal_uInt16 Ww1SingleSprmByteSized::Size(sal_uInt8* pSprm) { sal_uInt16 nRet; nRet = SVBT8ToByte(pSprm); nRet += sizeof(SVBT8); // var. l. byte-size // pSprm += sizeof(SVBT8); // var. l. byte-size nRet = nRet + nCountBytes; return nRet; } sal_uInt16 Ww1SingleSprmWordSized::Size(sal_uInt8* pSprm) { sal_uInt16 nRet; nRet = SVBT16ToShort(pSprm); nRet += sizeof(SVBT16); // var. l. word-size // pSprm += sizeof(SVBT16); // var. l. word-size nRet = nRet + nCountBytes; return nRet; } static sal_uInt8 nLast = 0; static sal_uInt8 nCurrent = 0; sal_uInt16 Ww1Sprm::GetSize(sal_uInt8 nId, sal_uInt8* pSprm) { //DBG_ASSERT( nId < sizeof(aTab) / sizeof(*aTab), "Ww1Sprm" ); sal_uInt16 nL = 0; nL = GetTab(nId).Size(pSprm); nLast = nCurrent; nCurrent = nId; return nL; } sal_Bool Ww1Sprm::Fill(sal_uInt16 index, sal_uInt8& nId, sal_uInt16& nL, sal_uInt8*& pSprm) { //DBG_ASSERT( nId < sizeof(aTab) / sizeof(*aTab), "Ww1Sprm"); DBG_ASSERT(index < Count(), "Ww1Sprm"); pSprm = p + pArr[index]; nId = SVBT8ToByte(pSprm); pSprm++; nL = GetTab(nId).Size(pSprm); return sal_True; } sal_Bool Ww1Sprm::ReCalc() { sal_Bool bRet = sal_True; delete pArr; pArr = NULL; count = 0; if (nCountBytes != 255) // not unused? { sal_uInt16 cbsik = nCountBytes; sal_uInt8* psik = p; while (cbsik > 0) { sal_uInt16 iLen = GetSizeBrutto(psik); DBG_ASSERT(iLen<=cbsik, "Ww1Sprm"); if (iLen > cbsik) cbsik = 0; // ignore the rest: we are wrong... else { psik += iLen; cbsik = cbsik - iLen; count++; } } if (bRet && (pArr = new sal_uInt16[count]) != NULL) { cbsik = nCountBytes; sal_uInt16 offset = 0; sal_uInt16 current = 0; psik = p; while (current cbsik) cbsik = 0; else cbsik = cbsik - iLen; offset = offset + iLen; } } else count = 0; } return bRet; } void Ww1Sprm::DeinitTab() { for (size_t i=0; i < sizeof(aTab)/sizeof(*aTab); ++i) delete aTab[i]; memset(aTab, 0, sizeof(aTab)/sizeof(*aTab)); delete pSingleSprm; } void Ww1Sprm::InitTab() { memset(aTab, 0, sizeof(aTab)/sizeof(*aTab)); pSingleSprm = new Ww1SingleSprm( 0, DUMPNAME(pUnknown)); aTab[ 2] = new Ww1SingleSprmByte(DUMPNAME("sprmPStc")); // 2 pap.istd (style code) aTab[ 3] = new Ww1SingleSprmByteSized(0, DUMPNAME("sprmPIstdPermute")); // 3 pap.istd permutation aTab[ 4] = new Ww1SingleSprmByte(DUMPNAME("sprmPIncLevel")); // 4 pap.istddifference aTab[ 5] = new Ww1SingleSprmPJc(DUMPNAME("sprmPJc")); // 5 pap.jc (justification) aTab[ 6] = new Ww1SingleSprmBool(DUMPNAME("sprmPFSideBySide")); // 6 pap.fSideBySide aTab[ 7] = new Ww1SingleSprmPFKeep(DUMPNAME("sprmPFKeep")); // 7 pap.fKeep aTab[ 8] = new Ww1SingleSprmPFKeepFollow(DUMPNAME("sprmPFKeepFollow")); // 8 pap.fKeepFollow aTab[ 9] = new Ww1SingleSprmPPageBreakBefore(DUMPNAME("sprmPPageBreakBefore")); // 9 pap.fPageBreakBefore aTab[ 10] = new Ww1SingleSprmByte(DUMPNAME("sprmPBrcl")); // 10 pap.brcl aTab[ 11] = new Ww1SingleSprmByte(DUMPNAME("sprmPBrcp")); // 11 pap.brcp aTab[ 12] = new Ww1SingleSprmByteSized(0, DUMPNAME("sprmPAnld")); // 12 pap.anld (ANLD structure) aTab[ 13] = new Ww1SingleSprmByte(DUMPNAME("sprmPNLvlAnm")); // 13 pap.nLvlAnm nn aTab[ 14] = new Ww1SingleSprmBool(DUMPNAME("sprmPFNoLineNumb")); // 14 ap.fNoLnn aTab[ 15] = new Ww1SingleSprmPChgTabsPapx(DUMPNAME("sprmPChgTabsPapx")); // 15 pap.itbdMac, ... aTab[ 16] = new Ww1SingleSprmPDxaRight(DUMPNAME("sprmPDxaRight")); // 16 pap.dxaRight aTab[ 17] = new Ww1SingleSprmPDxaLeft(DUMPNAME("sprmPDxaLeft")); // 17 pap.dxaLeft aTab[ 18] = new Ww1SingleSprmWord(DUMPNAME("sprmPNest")); // 18 pap.dxaNest aTab[ 19] = new Ww1SingleSprmPDxaLeft1(DUMPNAME("sprmPDxaLeft1")); // 19 pap.dxaLeft1 aTab[ 20] = new Ww1SingleSprmPDyaLine(DUMPNAME("sprmPDyaLine")); // 20 pap.lspd an LSPD aTab[ 21] = new Ww1SingleSprmPDyaBefore(DUMPNAME("sprmPDyaBefore")); // 21 pap.dyaBefore aTab[ 22] = new Ww1SingleSprmPDyaAfter(DUMPNAME("sprmPDyaAfter")); // 22 pap.dyaAfter aTab[ 23] = new Ww1SingleSprmTab(0, DUMPNAME(pUnknown)); // 23 pap.itbdMac, pap.rgdxaTab aTab[ 24] = new Ww1SingleSprmPFInTable(DUMPNAME("sprmPFInTable")); // 24 pap.fInTable aTab[ 25] = new Ww1SingleSprmPTtp(DUMPNAME("sprmPTtp")); // 25 pap.fTtp aTab[ 26] = new Ww1SingleSprmPDxaAbs(DUMPNAME("sprmPDxaAbs")); // 26 pap.dxaAbs aTab[ 27] = new Ww1SingleSprmPDyaAbs(DUMPNAME("sprmPDyaAbs")); // 27 pap.dyaAbs aTab[ 28] = new Ww1SingleSprmPDxaWidth(DUMPNAME("sprmPDxaWidth")); // 28 pap.dxaWidth aTab[ 29] = new Ww1SingleSprmPpc(DUMPNAME("sprmPPc")); // 29 pap.pcHorz, pap.pcVert aTab[ 30] = new Ww1SingleSprmPBrc10(BRC_TOP, DUMPNAME("sprmPBrcTop10")); // 30 pap.brcTop BRC10 aTab[ 31] = new Ww1SingleSprmPBrc10(BRC_LEFT, DUMPNAME("sprmPBrcLeft10")); // 31 pap.brcLeft BRC10 aTab[ 32] = new Ww1SingleSprmPBrc10(BRC_BOTTOM, DUMPNAME("sprmPBrcBottom10")); // 32 pap.brcBottom BRC10 aTab[ 33] = new Ww1SingleSprmPBrc10(BRC_RIGHT, DUMPNAME("sprmPBrcRight10")); // 33 pap.brcRight BRC10 aTab[ 34] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcBetween10")); // 34 pap.brcBetween BRC10 aTab[ 35] = new Ww1SingleSprmPBrc10(BRC_LEFT, DUMPNAME("sprmPBrcBar10")); // 35 pap.brcBar BRC10 aTab[ 36] = new Ww1SingleSprmPFromText(DUMPNAME("sprmPFromText10")); // 36 pap.dxaFromText dxa aTab[ 37] = new Ww1SingleSprmByte(DUMPNAME("sprmPWr")); // 37 pap.wr wr aTab[ 38] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcTop")); // 38 pap.brcTop BRC aTab[ 39] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcLeft")); // 39 pap.brcLeft BRC aTab[ 40] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcBottom")); // 40 pap.brcBottom BRC aTab[ 41] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcRight")); // 41 pap.brcRight BRC aTab[ 42] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcBetween")); // 42 pap.brcBetween BRC aTab[ 43] = new Ww1SingleSprmWord(DUMPNAME("sprmPBrcBar")); // 43 pap.brcBar BRC word aTab[ 44] = new Ww1SingleSprmBool(DUMPNAME("sprmPFNoAutoHyph")); // 44 pap.fNoAutoHyph aTab[ 45] = new Ww1SingleSprmWord(DUMPNAME("sprmPWHeightAbs")); // 45 pap.wHeightAbs w aTab[ 46] = new Ww1SingleSprmWord(DUMPNAME("sprmPDcs")); // 46 pap.dcs DCS aTab[ 47] = new Ww1SingleSprmWord(DUMPNAME("sprmPShd")); // 47 pap.shd SHD aTab[ 48] = new Ww1SingleSprmWord(DUMPNAME("sprmPDyaFromText")); // 48 pap.dyaFromText dya aTab[ 49] = new Ww1SingleSprmWord(DUMPNAME("sprmPDxaFromText")); // 49 pap.dxaFromText dxa aTab[ 50] = new Ww1SingleSprmBool(DUMPNAME("sprmPFLocked")); // 50 pap.fLocked 0 or 1 byte aTab[ 51] = new Ww1SingleSprmBool(DUMPNAME("sprmPFWidowControl")); // 51 pap.fWidowControl 0 or 1 byte aTab[ 57] = new Ww1SingleSprmByteSized(0, DUMPNAME("sprmCDefault")); // 57 whole CHP (see below) none variable length aTab[ 58] = new Ww1SingleSprm(0, DUMPNAME("sprmCPlain")); // 58 whole CHP (see below) none 0 aTab[ 60] = new Ww1SingleSprm4State(DUMPNAME("sprmCFBold")); // 60 chp.fBold 0,1, 128, or 129 (see below) byte aTab[ 61] = new Ww1SingleSprm4State(DUMPNAME("sprmCFItalic")); // 61 chp.fItalic 0,1, 128, or 129 (see below) byte aTab[ 62] = new Ww1SingleSprm4State(DUMPNAME("sprmCFStrike")); // 62 chp.fStrike 0,1, 128, or 129 (see below) byte aTab[ 63] = new Ww1SingleSprm4State(DUMPNAME("sprmCFOutline")); // 63 chp.fOutline 0,1, 128, or 129 (see below) byte aTab[ 64] = new Ww1SingleSprm4State(DUMPNAME("sprmCFShadow")); // 64 chp.fShadow 0,1, 128, or 129 (see below) byte aTab[ 65] = new Ww1SingleSprm4State(DUMPNAME("sprmCFSmallCaps")); // 65 chp.fSmallCaps 0,1, 128, or 129 (see below) byte aTab[ 66] = new Ww1SingleSprm4State(DUMPNAME("sprmCFCaps")); // 66 chp.fCaps 0,1, 128, or 129 (see below) byte aTab[ 67] = new Ww1SingleSprm4State(DUMPNAME("sprmCFVanish")); // 67 chp.fVanish 0,1, 128, or 129 (see below) byte aTab[ 68] = new Ww1SingleSprmWord(DUMPNAME("sprmCFtc")); // 68 chp.ftc ftc word aTab[ 69] = new Ww1SingleSprmByte(DUMPNAME("sprmCKul")); // 69 chp.kul kul byte aTab[ 70] = new Ww1SingleSprm(3, DUMPNAME("sprmCSizePos")); // 70 chp.hps, chp.hpsPos (see below) 3 bytes aTab[ 71] = new Ww1SingleSprmWord(DUMPNAME("sprmCDxaSpace")); // 71 chp.dxaSpace dxa word aTab[ 72] = new Ww1SingleSprmWord(DUMPNAME("//")); // 72 // aTab[ 73] = new Ww1SingleSprmByte(DUMPNAME("sprmCIco")); // 73 chp.ico ico byte aTab[ 74] = new Ww1SingleSprmByte(DUMPNAME("sprmCHps")); // 74 chp.hps hps !byte! aTab[ 75] = new Ww1SingleSprmByte(DUMPNAME("sprmCHpsInc")); // 75 chp.hps (see below) byte aTab[ 76] = new Ww1SingleSprmWord(DUMPNAME("sprmCHpsPos")); // 76 chp.hpsPos hps !word! aTab[ 77] = new Ww1SingleSprmByte(DUMPNAME("sprmCHpsPosAdj")); // 77 chp.hpsPos hps (see below) byte aTab[ 78] = new Ww1SingleSprmByteSized(0, DUMPNAME(pUnknown)); // 78 ?chp.fBold, chp.fItalic, chp.fSmallCaps, ... aTab[ 94] = new Ww1SingleSprmByte(DUMPNAME("sprmPicBrcl")); // 94 pic.brcl brcl (see PIC structure definition) byte aTab[ 95] = new Ww1SingleSprmByteSized(0, DUMPNAME("sprmPicScale")); // 95 pic.mx, pic.my, pic.dxaCropleft, aTab[117] = new Ww1SingleSprmByte(DUMPNAME("sprmSBkc")); // 117 sep.bkc bkc byte aTab[118] = new Ww1SingleSprmBool(DUMPNAME("sprmSFTitlePage")); // 118 sep.fTitlePage 0 or 1 byte aTab[119] = new Ww1SingleSprmSColumns(DUMPNAME("sprmSCcolumns")); // 119 sep.ccolM1 # of cols - 1 word aTab[120] = new Ww1SingleSprmWord(DUMPNAME("sprmSDxaColumns")); // 120 sep.dxaColumns dxa word aTab[122] = new Ww1SingleSprmByte(DUMPNAME("sprmSNfcPgn")); // 122 sep.nfcPgn nfc byte aTab[125] = new Ww1SingleSprmBool(DUMPNAME("sprmSFPgnRestart")); // 125 sep.fPgnRestart 0 or 1 byte aTab[126] = new Ww1SingleSprmBool(DUMPNAME("sprmSFEndnote")); // 126 sep.fEndnote 0 or 1 byte aTab[127] = new Ww1SingleSprmByte(DUMPNAME("sprmSLnc")); // 127 sep.lnc lnc byte aTab[128] = new Ww1SingleSprmSGprfIhdt(DUMPNAME("sprmSGprfIhdt")); // 128 sep.grpfIhdt grpfihdt (see Headers and Footers topic) byte aTab[129] = new Ww1SingleSprmWord(DUMPNAME("sprmSNLnnMod")); // 129 sep.nLnnMod non-neg int. word aTab[130] = new Ww1SingleSprmWord(DUMPNAME("sprmSDxaLnn")); // 130 sep.dxaLnn dxa word aTab[131] = new Ww1SingleSprmWord(DUMPNAME("sprmSDyaHdrTop")); // 131 sep.dyaHdrTop dya word aTab[132] = new Ww1SingleSprmWord(DUMPNAME("sprmSDyaHdrBottom")); // 132 sep.dyaHdrBottom dya word aTab[133] = new Ww1SingleSprmBool(DUMPNAME("sprmSLBetween")); // 133 sep.fLBetween 0 or 1 byte aTab[134] = new Ww1SingleSprmByte(DUMPNAME("sprmSVjc")); // 134 sep.vjc vjc byte aTab[135] = new Ww1SingleSprmWord(DUMPNAME("sprmSLnnMin")); // 135 sep.lnnMin lnn word aTab[136] = new Ww1SingleSprmWord(DUMPNAME("sprmSPgnStart")); // 136 sep.pgnStart pgn word aTab[146] = new Ww1SingleSprmWord(DUMPNAME("sprmTJc")); // 146 tap.jc jc word (low order byte is significant) aTab[147] = new Ww1SingleSprmWord(DUMPNAME("sprmTDxaLeft")); // 147 tap.rgdxaCenter (see below) dxa word aTab[148] = new Ww1SingleSprmWord(DUMPNAME("sprmTDxaGapHalf")); // 148 tap.dxaGapHalf, tap.rgdxaCenter (see below) dxa word aTab[152] = new Ww1SingleSprmTDefTable10(DUMPNAME("sprmTDefTable10")); // 152 tap.rgdxaCenter, tap.rgtc complex (see below) variable length aTab[153] = new Ww1SingleSprmWord(DUMPNAME("sprmTDyaRowHeight")); // 153 tap.dyaRowHeight dya word aTab[158] = new Ww1SingleSprm(4, DUMPNAME("sprmTInsert")); // 158 tap.rgdxaCenter,tap.rgtc complex (see below) 4 bytes aTab[159] = new Ww1SingleSprmWord(DUMPNAME("sprmTDelete")); // 159 tap.rgdxaCenter, tap.rgtc complex (see below) word aTab[160] = new Ww1SingleSprm(4, DUMPNAME("sprmTDxaCol")); // 160 tap.rgdxaCenter complex (see below) 4 bytes aTab[161] = new Ww1SingleSprmWord(DUMPNAME("sprmTMerge")); // 161 tap.fFirstMerged, tap.fMerged complex (see below) word aTab[162] = new Ww1SingleSprmWord(DUMPNAME("sprmTSplit")); // 162 tap.fFirstMerged, tap.fMerged complex (see below) word aTab[163] = new Ww1SingleSprm(5, DUMPNAME("sprmTSetBrc10")); // 163 tap.rgtc[].rgbrc complex (see below) 5 bytes } ////////////////////////////////////////////////////////////// SprmPapx Ww1SprmPapx::Ww1SprmPapx(sal_uInt8* pByte, sal_uInt16 nSize) : Ww1Sprm(Sprm(pByte, nSize), SprmSize(pByte, nSize)) { memset(&aPapx, 0, sizeof(aPapx)); memcpy(&aPapx, pByte, nSize= sizeof(W1_PAPX)) nRet = nSize - ( sizeof(W1_PAPX) - 1 ); // im W1_PAPX ist das // 1. SprmByte enthalten return nRet; } sal_uInt8* Ww1SprmPapx::Sprm(sal_uInt8* pByte, sal_uInt16 nSize) { sal_uInt8* pRet = NULL; if (nSize >= sizeof(W1_PAPX)) pRet = ((W1_PAPX*)(pByte))->grpprlGet(); return pRet; } /////////////////////////////////////////////////////////////////// Plc Ww1Plc::Ww1Plc(Ww1Fib& rInFib, sal_uLong ulFilePos, sal_uInt16 nInCountBytes, sal_uInt16 nInItemSize) : p(0), nCountBytes(nInCountBytes), iMac(0), nItemSize(nInItemSize), bOK(false), rFib(rInFib) { if (!nCountBytes) bOK = true; else { if (rFib.GetStream().Seek(ulFilePos) == (sal_uLong)ulFilePos) { if ((p = new sal_uInt8[nCountBytes]) != NULL) { if (rFib.GetStream().Read(p, nCountBytes) == (sal_uLong)nCountBytes) { bOK = true; iMac = (nCountBytes - sizeof(SVBT32)) / (sizeof(SVBT32) + nItemSize); DBG_ASSERT(iMac * ((sal_uInt16)sizeof(sal_uLong) + nItemSize) + (sal_uInt16)sizeof(SVBT32) == nCountBytes, "Ww1Plc"); } } } } } Ww1Plc::~Ww1Plc() { delete p; } void Ww1Plc::Seek(sal_uLong ulSeek, sal_uInt16& nIndex) { if (iMac) for (;nIndex <= iMac && Where(nIndex) < ulSeek;nIndex++) ; } sal_uLong Ww1Plc::Where(sal_uInt16 nIndex) { sal_uLong ulRet = 0xffffffff; DBG_ASSERT(nIndex <= iMac, "index out of bounds"); if (iMac && nIndex <= iMac) ulRet = SVBT32ToUInt32(p + sizeof(SVBT32) * nIndex); return ulRet; } sal_uInt8* Ww1Plc::GetData(sal_uInt16 nIndex) { sal_uInt8* pRet = NULL; DBG_ASSERT(nIndex < iMac, "index out of bounds"); if (nIndex < iMac) pRet = p + (iMac + 1) * sizeof(SVBT32) + nIndex * nItemSize; // Pointer auf Inhalts-Array return pRet; } /////////////////////////////////////////////////////////////////// Sep //////////////////////////////////////////////////////////////// PlcSep //////////////////////////////////////////////////////////////// PlcPap //////////////////////////////////////////////////////////////// PlcChp //////////////////////////////////////////////////////////////// PlcFnr ///////////////////////////////////////////////////////////// PlcFnText ///////////////////////////////////////////////////////////// PlcFields ///////////////////////////////////////////////////////////// PlcBookmarks // class Ww1StringList liest im Ctor eine Anzahl von P-Strings aus dem Stream // in den Speicher und patcht sie zu C-Strings um. // Die Anzahl wird in nMax zurueckgeliefert. // im Index 0 stehen alle Strings nacheinander, ab Index 1 werden // die einzelnen Strings referenziert. Ww1StringList::Ww1StringList( SvStream& rSt, sal_uLong nFc, sal_uInt16 nCb ) : pIdxA(0), nMax(0) { if( nCb > 2 ) // ueberhaupt Eintraege ? { SVBT16 nCountBytes; DBG_ASSERT(nCb > sizeof(nCountBytes), "Ww1StringList"); if (rSt.Seek(nFc) == (sal_uLong)nFc) if (rSt.Read(nCountBytes, sizeof(nCountBytes)) == sizeof(nCountBytes)) // Laenge steht hier nochmal { DBG_ASSERT(SVBT16ToShort(nCountBytes) == nCb, "redundant-size missmatch"); // hoffentlich sind sie immer gleich sal_Char* pA = new sal_Char[nCb - sizeof(nCountBytes) + 1]; // Alloziere PString-Array //~ Ww1: new-NULL if (rSt.Read(pA, nCb - sizeof(nCountBytes)) == (sal_uLong)nCb - sizeof(nCountBytes)) // lese alle {}// do nothing // Zaehle, wieviele Fonts enthalten long nLeft = nCb - sizeof(nCountBytes); sal_Char* p = pA; while (1) { sal_uInt16 nNextSiz; nNextSiz = *p + 1; if(nNextSiz > nLeft) break; nMax++; nLeft -= nNextSiz; if(nLeft < 1) // naechste Laenge muss gelesen werden koennen break; p = p + nNextSiz; } if (nMax) { pIdxA = new sal_Char*[nMax+1]; // alloziere Index-Array pIdxA[0] = pA; // Index 0 : alles // ab Index 1 C-Strings pIdxA[1] = pA + 1; // fuelle Index-Array sal_uInt16 i = 2; p = pA; sal_uInt8 nL = *p; while(1) { p += nL + 1; // Neues Laengen-Byte nL = *p; // merke Laenge *p = '\0'; // mach C-String draus if( i > nMax ) break; pIdxA[i] = p + 1; // Ptr auf C-String i++; } } else pIdxA = 0; // Keine Eintraege -> kein Array } } } const String Ww1StringList::GetStr( sal_uInt16 nNum ) const { String sRet; if( nNum <= nMax ) sRet = String( pIdxA[ nNum+1 ], RTL_TEXTENCODING_MS_1252 ); return sRet; } Ww1Bookmarks::Ww1Bookmarks(Ww1Fib& rInFib) : aNames(rInFib), rFib(rInFib), nIsEnd(0) { pPos[0] = new Ww1PlcBookmarkPos(rFib, rFib.GetFIB().fcPlcfbkfGet(), rFib.GetFIB().cbPlcfbkfGet(), sal_False); nPlcIdx[0] = 0; pPos[1] = new Ww1PlcBookmarkPos(rFib, rFib.GetFIB().fcPlcfbklGet(), rFib.GetFIB().cbPlcfbklGet(), sal_True); nPlcIdx[1] = 0; bOK = !aNames.GetError() && !pPos[0]->GetError() && !pPos[1]->GetError(); } // Der Operator ++ hat eine Tuecke: Wenn 2 Bookmarks aneinandergrenzen, dann // sollte erst das Ende des ersten und dann der Anfang des 2. erreicht werden. // Liegen jedoch 2 Bookmarks der Laenge 0 aufeinander, *muss* von jedem Bookmark // erst der Anfang und dann das Ende gefunden werden. // Der Fall: ][ // [...] // ][ // ist noch nicht geloest, dabei muesste ich in den Anfangs- und Endindices // vor- und zurueckspringen, wobei ein weiterer Index oder ein Bitfeld // oder etwas aehnliches zum Merken der bereits abgearbeiteten Bookmarks // noetig wird. void Ww1Bookmarks::operator ++( int ) { if( bOK ) { nPlcIdx[nIsEnd]++; sal_uLong l0 = pPos[0]->Where(nPlcIdx[0]); sal_uLong l1 = pPos[1]->Where(nPlcIdx[1]); if( l0 < l1 ) nIsEnd = 0; else if( l1 < l0 ) nIsEnd = 1; else nIsEnd = ( nIsEnd ) ? 0 : 1; } } long Ww1Bookmarks::GetHandle() const { if( bOK ) { if( nIsEnd ) return nPlcIdx[1]; const sal_uInt8* p = pPos[0]->GetData( nPlcIdx[0] ); if( p ) return SVBT16ToShort( p ); } return LONG_MAX; } long Ww1Bookmarks::Len() const { if( nIsEnd ) { DBG_ASSERT( sal_False, "Falscher Aufruf (1) von Ww1Bookmarks::Len()" ); return 0; } sal_uInt16 nEndIdx = SVBT16ToShort(pPos[0]->GetData(nPlcIdx[0])); return pPos[1]->Where(nEndIdx) - pPos[0]->Where(nPlcIdx[0]); } const String Ww1Bookmarks::GetName() const { if( nIsEnd ) return String::CreateFromAscii( RTL_CONSTASCII_STRINGPARAM( "???" )); return aNames.GetStr( nPlcIdx[0] ); } /////////////////////////////////////////////////////////////////// Fkp Ww1Fkp::Ww1Fkp(SvStream& rStream, sal_uLong ulFilePos, sal_uInt16 _nItemSize) : nItemSize(_nItemSize), bOK(sal_False) { if (rStream.Seek(ulFilePos) == (sal_uLong)ulFilePos) if (rStream.Read(aFkp, sizeof(aFkp)) == sizeof(aFkp)) bOK = sal_True; } sal_uLong Ww1Fkp::Where(sal_uInt16 nIndex) { sal_uLong lRet = 0xffffffff; DBG_ASSERT(nIndex<=Count(), "index out of bounds"); if (nIndex<=Count()) lRet = SVBT32ToUInt32(aFkp+nIndex*sizeof(SVBT32)); return lRet; } sal_uInt8* Ww1Fkp::GetData(sal_uInt16 nIndex) { sal_uInt8* pRet = NULL; DBG_ASSERT(nIndex<=Count(), "index out of bounds"); if (nIndex<=Count()) pRet = aFkp + (Count()+1) * sizeof(SVBT32) + nIndex * nItemSize; // beginn der strukturen return pRet; } //////////////////////////////////////////////////////////////// FkpPap sal_Bool Ww1FkpPap::Fill(sal_uInt16 nIndex, sal_uInt8*& p, sal_uInt16& rnCountBytes) { DBG_ASSERT( nIndex < Count(), "Ww1FkpPap::Fill() Index out of Range" ); sal_uInt16 nOffset = SVBT8ToByte(GetData(nIndex)) * 2; if (nOffset) { DBG_ASSERT(nOffset>(sal_uInt16)(Count()*sizeof(SVBT32)), "calc error"); // rnCountBytes = SVBT8ToByte(aFkp+nOffset) * 2 + 1; // SH: +1 ????? rnCountBytes = SVBT8ToByte(aFkp+nOffset) * 2; nOffset += sizeof(SVBT8); if( nOffset + rnCountBytes < 511 ) // SH: Assert schlug 1 zu frueh zu rnCountBytes++; // SH: Ich weiss nicht genau, // ob das letzte Byte des PAPX // genutzt wird, aber so vergessen // wir keins und sind trotzdem // auf der sicheren Seite DBG_ASSERT(nOffset+rnCountBytes <= 511, "calc error"); p = aFkp + nOffset; } else { p = NULL; rnCountBytes = 0; } return sal_True; } //////////////////////////////////////////////////////////////// FkpChp sal_Bool Ww1FkpChp::Fill(sal_uInt16 nIndex, W1_CHP& aChp) { DBG_ASSERT( nIndex < Count(), "Ww1FkpChp::Fill() Index out of Range" ); memset(&aChp, 0, sizeof(aChp)); // Default, da verkuerzt gespeichert sal_uInt16 nOffset = GetData(nIndex)[0] * 2; if (nOffset) { DBG_ASSERT(nOffset>(sal_uInt16)(Count()*sizeof(SVBT32)), "calc error"); sal_uInt16 nCountBytes = aFkp[nOffset]; nOffset += sizeof(SVBT8); DBG_ASSERT(nCountBytes <= 511-nOffset, "calc error"); DBG_ASSERT(nCountBytes <= sizeof(aChp), "calc error"); memcpy(&aChp, aFkp+nOffset, nCountBytes); } return sal_True; } ///////////////////////////////////////////////////////////////// Assoc Ww1Assoc::Ww1Assoc(Ww1Fib& _rFib) : rFib(_rFib), pBuffer(NULL), bOK(sal_False) { sal_uInt16 cb = rFib.GetFIB().cbSttbfAssocGet(); sal_uInt16 i; for ( i = 0; i < MaxFields; i++ ) pStrTbl[i] = NULL; if ((pBuffer = new sal_Char[cb]) != NULL && rFib.GetStream().Seek(rFib.GetFIB().fcSttbfAssocGet()) == rFib.GetFIB().fcSttbfAssocGet() && rFib.GetStream().Read(pBuffer, cb) == cb) { sal_uInt16 j; DBG_ASSERT( cb == SVBT16ToShort( *(SVBT16*)pBuffer ), "size missmatch"); for (i=0,j=sizeof(SVBT16);j Where()) (*this)++; } // SH: Where hat einen Parameter mitbekommen, der sagt, ob bei Neuanlegen eines // Fkps der zugehoerige Index auf 0 gesetzt werden soll // ( darf fuer Push/Pop nicht passieren ) // Ein eleganterer Weg faellt mir auf die Schnelle nicht ein sal_uLong Ww1Pap::Where( sal_Bool bSetIndex ) { sal_uLong ulRet = 0xffffffff; if (pPap == NULL) if (nPlcIndex < Count()) { pPap = new Ww1FkpPap(rFib.GetStream(), SVBT16ToShort(GetData(nPlcIndex)) << 9); if( bSetIndex ) nFkpIndex = 0; } if (pPap != NULL) // if (nFkpIndex < pPap->Count()) if (nFkpIndex <= pPap->Count()) ulRet = pPap->Where(nFkpIndex) - rFib.GetFIB().fcMinGet(); return ulRet; } void Ww1Pap::operator++(int) { if (pPap != NULL) // if (++nFkpIndex >= pPap->Count()) if (++nFkpIndex > pPap->Count()) { delete pPap; pPap = NULL; nPlcIndex++; } } // SH: FindSprm sucht in grpprl nach Sprm nId // Rueckgabe: Pointer oder 0 sal_Bool Ww1Pap::FindSprm(sal_uInt16 nId, sal_uInt8* pStart, sal_uInt8* pEnd) { Ww1Sprm aSprm( pStart, static_cast< sal_uInt16 >(pEnd-pStart) ); sal_uInt16 nC = aSprm.Count(); sal_uInt16 i; sal_uInt8 nI; sal_uInt16 nLen; sal_uInt8 *pData; for( i = 0; i < nC; i++ ){ aSprm.Fill( i, nI, nLen, pData ); if( nI == nId ) return sal_True; } return sal_False; } sal_Bool Ww1Pap::HasId0(sal_uInt16 nId) { sal_Bool bRet = sal_False; UpdateIdx(); if( !pPap ){ DBG_ASSERT( sal_False, "Ww1Pap::HasId():: kann kein pPap erzeugen" ); return sal_False; } sal_uInt8* pByte; sal_uInt16 n; if( pPap->Fill(nFkpIndex, pByte, n) ){ sal_uInt8* p2 = ((W1_PAPX*)(pByte))->grpprlGet(); // SH: Offset fehlte bRet = FindSprm( nId, p2, pByte + n ); } return bRet; } sal_Bool Ww1Pap::HasId(sal_uInt16 nId) { sal_Bool bRet = sal_False; sal_uInt16 nPushedPlcIndex2 = nPlcIndex; sal_uInt16 nPushedFkpIndex2 = nFkpIndex; bRet = HasId0( nId ); if (nPlcIndex != nPushedPlcIndex2) { delete pPap; pPap = NULL; } nPlcIndex = nPushedPlcIndex2; nFkpIndex = nPushedFkpIndex2; Where( sal_False ); return bRet; } /////////////////////////////////////////////////////////////////// Chp Ww1Chp::Ww1Chp(Ww1Fib& _rFib) : Ww1PlcChp(_rFib), nPlcIndex(0), nPushedPlcIndex(0xffff), nFkpIndex(0), nPushedFkpIndex(0xffff), ulOffset(0), pChp(0) { } void Ww1Chp::Seek(sal_uLong ulSeek) { while (ulSeek > Where()) (*this)++; } // SH: Where hat einen Parameter mitbekommen, der sagt, ob bei Neuanlegen eines // Fkps der zugehoerige Index auf 0 gesetzt werden soll // ( darf fuer Push/Pop nicht passieren ) // Ein eleganterer Weg faellt mir auf die Schnelle nicht ein sal_uLong Ww1Chp::Where( sal_Bool bSetIndex ) { sal_uLong ulRet = 0xffffffff; if (pChp == NULL) if (nPlcIndex < Count()) { pChp = new Ww1FkpChp(rFib.GetStream(), SVBT16ToShort(GetData(nPlcIndex)) << 9); if( bSetIndex ) nFkpIndex = 0; } if (pChp != NULL) // if (nFkpIndex < pChp->Count()) if (nFkpIndex <= pChp->Count()) ulRet = pChp->Where(nFkpIndex) - rFib.GetFIB().fcMinGet() - ulOffset; return ulRet; } void Ww1Chp::operator++(int) { if (pChp != NULL) // if (++nFkpIndex >= pChp->Count()) if (++nFkpIndex > pChp->Count()) { delete pChp; pChp = NULL; nPlcIndex++; } } ////////////////////////////////////////////////////////////// Manager Ww1Manager::Ww1Manager(SvStream& rStrm, sal_uLong nFieldFlgs) : bOK(sal_False), bInTtp(sal_False), bInStyle(sal_False), bStopAll(sal_False), aFib(rStrm), aDop(aFib), aFonts(aFib, nFieldFlgs), aDoc(aFib), pDoc(&aDoc), ulDocSeek(0), pSeek(&ulDocSeek), aFld(aFib), pFld(&aFld), aChp(aFib), aPap(aFib), aFtn(aFib), aBooks(aFib), aSep(aFib, aDop.GetDOP().grpfIhdtGet()) { bOK = !aFib.GetError() && !aFib.GetFIB().fComplexGet() && !aDoc.GetError() && !aSep.GetError() && !aPap.GetError() && !aChp.GetError() && !aFld.GetError() && !aFtn.GetError() && !aBooks.GetError(); } sal_Bool Ww1Manager::HasInTable() { return aPap.HasId(24); // Ww1SingleSprmPFInTable } sal_Bool Ww1Manager::HasTtp() { return aPap.HasId(25); // Ww1SingleSprmPTtp } sal_Bool Ww1Manager::HasPPc() { return aPap.HasId(29); // Ww1SingleSprmPPc } sal_Bool Ww1Manager::HasPDxaAbs() { return aPap.HasId(26); // Ww1SingleSprmPDxaAbs }