/* * @doc INTERNAL * * @module RTEXT.CPP - Rich-text ptr class | * * This text ptr consists of a plain text ptr (_rpTX), a CCharFormat * run ptr (_rpCF), and a CParaFormat run ptr (_rpPF). This module * contains the methods to manipulate this combination of run ptrs * consistently. * * Authors: * RichEdit 1.0 code: David R. Fulmer * Main implementation: Murray Sargent * Undo and notification implementations: Alex Gounares * * Copyright (c) 1995-1998, Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_edit.h" #include "_frunptr.h" #include "_rtext.h" #include "_disp.h" #include "_select.h" #include "_m_undo.h" #include "_antievt.h" #include "_objmgr.h" #include "_txtbrk.h" ASSERTDATA #define DEBUG_CLASSNAME CRchTxtPtr #include "_invar.h" #ifdef DEBUG /* * CRchTxtPtr::Invariant */ BOOL CRchTxtPtr::Invariant( void ) const { if (m_InvariantCheckInterval < 1 || m_InvariantCheckInterval > 10) const_cast(this)->m_InvariantCheckInterval = 10; const_cast(this)->m_InvariantCheckInterval--; if (m_InvariantCheckInterval) return TRUE; unsigned ch; LONG cch; LONG cchLength = GetTextLength(); LONG cp; _rpTX.Invariant(); _rpCF.Invariant(); _rpPF.Invariant(); if(_rpCF.IsValid()) { cp = _rpCF.CalculateCp(); cch = _rpCF.CalcTextLength(); Assert(GetCp() == cp && cchLength == cch); Assert(!_rpCF._iRun || GetPed()->IsBiDi() || _rpCF.GetRun(0)->_iFormat != _rpCF.GetRun(-1)->_iFormat); } if(_rpPF.IsValid()) { cp = _rpPF.CalculateCp(); cch = _rpPF.CalcTextLength(); Assert(GetCp() == cp && cchLength == cch); CTxtPtr tp(_rpTX); tp.AdvanceCp(_rpPF.GetCchLeft() - 1); ch = tp.GetChar(); if(!IsASCIIEOP(ch)) { _rpTX.MoveGapToEndOfBlock(); // Make it easier to see AssertSz(FALSE, // what's going on "CRchTxtPtr::Invariant: PF run doesn't end with EOP"); } #ifdef EXTREME_CHECKING // We don't do this check normally as it is _extremely_ slow. // However, it's very useful for catching para-format run problems // Make sure each para format run ends on a paragraph mark! CFormatRunPtr rpPF(_rpPF); rpPF.BindToCp(0); tp.BindToCp(0); do { tp.AdvanceCp(rpPF.GetRun(0)->_cch); if(!tp.IsAfterEOP()) { AssertSz(0, "ParaFormat Run not aligned along paragraphs!"); } } while( rpPF.NextRun() ); #endif // EXTREME_CHECKING } return TRUE; } #endif // DEBUG //======================= CRchTxtPtr constructors ======================================== CRchTxtPtr::CRchTxtPtr(CTxtEdit *ped) : _rpTX(ped, 0), _rpCF(NULL), _rpPF(NULL) { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::CRchTxtPtr"); InitRunPtrs(); } CRchTxtPtr::CRchTxtPtr(CTxtEdit *ped, LONG cp) : _rpTX(ped, cp), _rpCF(NULL), _rpPF(NULL) { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::CRchTxtPtr"); InitRunPtrs(); } CRchTxtPtr::CRchTxtPtr (const CRchTxtPtr& rtp) : _rpTX(rtp._rpTX), _rpCF(rtp._rpCF), _rpPF(rtp._rpPF) { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::CRchTxtPtr"); _rpCF.AdjustForward(); // In case rtp is adjusted backward... _rpPF.AdjustForward(); } CRchTxtPtr::CRchTxtPtr (const CDisplay * pdp) : _rpTX(pdp->GetPed(), 0), _rpCF(NULL), _rpPF(NULL) { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::CRchTxtPtr"); InitRunPtrs(); } /* * CRchTxtPtr::Advance(cch) * * @mfunc * Move this rich-text ptr forward

characters. If

* 0, move backward by -

characters. * * @rdesc * cch actually moved * */ LONG CRchTxtPtr::Advance( LONG cch) // @parm count of characters to move - may be 0 { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::Advance"); if( cch != 0 ) { cch = _rpTX.AdvanceCp(cch); _rpCF.AdvanceCp(cch); _rpPF.AdvanceCp(cch); _TEST_INVARIANT_ } return cch; } /* * CRchTxtPtr::AdvanceCRLF() * * @mfunc * Advance this text ptr one char, treating CRLF as a single char. * * @rdesc * cch actually moved */ LONG CRchTxtPtr::AdvanceCRLF() { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CRchTxtPtr::AdvanceCRLF"); LONG cch = _rpTX.AdvanceCpCRLF(); _rpPF.AdvanceCp(cch); _rpCF.AdvanceCp(cch); return cch; } /* * CRchTxtPtr::SnapToCluster(INT iDirection) * * @mfunc * If this text ptr is not at cluster boundary, move it to the closest one. * * @rdesc * cch actually moved */ LONG CRchTxtPtr::SnapToCluster(INT iDirection) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CRchTxtPtr::SnapToCluster"); LONG cch = 0; LONG cp; if (GetPed()->_pbrk) { if (iDirection >= 0) { LONG cpEnd = GetPed()->GetAdjustedTextLength(); while ((cp = GetCp()) < cpEnd && !GetPed()->_pbrk->CanBreakCp(BRK_CLUSTER, cp)) cch += AdvanceCRLF(); } else { while ((cp = GetCp()) > 0 && !GetPed()->_pbrk->CanBreakCp(BRK_CLUSTER, cp)) cch += BackupCRLF(); } } return cch; } /* * CRchTxtPtr::BackupCRLF() * * @mfunc * Backup this text ptr one char, treating CRLF as a single char. * * @rdesc * cch actually moved */ LONG CRchTxtPtr::BackupCRLF( BOOL fDiacriticCheck) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CRchTxtPtr::BackupCRLF"); LONG cch = _rpTX.BackupCpCRLF(fDiacriticCheck); _rpPF.AdvanceCp(cch); _rpCF.AdvanceCp(cch); return cch; } /* * CRchTxtPtr::ValidateCp(&cp) * * @mfunc * If

0, set it to 0; if it's text length, set it to * text length. */ void CRchTxtPtr::ValidateCp( LONG &cp) const // @parm new cp for this text ptr { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::ValidateCp"); LONG cchT = GetTextLength(); cp = min(cp, cchT); // Be sure cp is valid cp = max(cp, 0); } /* * CRchTxtPtr::SetCp(cp) * * @mfunc * Set this rich text ptr's cp to cp */ LONG CRchTxtPtr::SetCp( LONG cp) // @parm new cp for this text ptr { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::SetCp"); CRchTxtPtr::Advance(cp - GetCp()); return GetCp(); } /* CRchTxtPtr::GetIchRunXX() and CRchTxtPtr::GetCchRunXX() * * @mfunc * Text-run management to retrieve current text run cch and offset * * @rdesc * current run ich or cch * * @devnote * Use of queries like _rpCF.IsValid() instead of an inclusive fRich * allows rich-text formatting to be applied per rich-text category, * e.g., CHARFORMATs, but not necessarily PARAFORMATs. If the rp isn't * valid, _cp is used for ich and the document length is used for cch, * i.e., the values for a document describable by a single plain-text run */ LONG CRchTxtPtr::GetIchRunCF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetIchRunCF"); return _rpCF.IsValid() ? _rpCF.GetIch() : GetCp(); } LONG CRchTxtPtr::GetIchRunPF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetIchRunPF"); return _rpPF.IsValid() ? _rpPF.GetIch() : GetCp(); } LONG CRchTxtPtr::GetCchRunCF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetCchRunCF"); return _rpCF.IsValid() ? _rpCF.GetRun(0)->_cch : GetTextLength(); } /* CRchTxtPtr::GetCchLeftRunCF() / GetCchLeftRunPF() * * @mfunc * Return cch left in run, i.e., cchRun - ich * * @rdesc * cch left in run */ LONG CRchTxtPtr::GetCchLeftRunCF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetCchLeftRunCF"); return _rpCF.IsValid() ? _rpCF.GetCchLeft() : GetTextLength() - GetCp(); } LONG CRchTxtPtr::GetCchLeftRunPF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetCchLeftRunPF"); return _rpPF.IsValid() ? _rpPF.GetCchLeft() : GetTextLength() - GetCp(); } /* * CRchTxtPtr::FindText(cpMost, dwFlags, pch, cchToFind) * * @mfunc * Find text in a range starting at this text pointer; * if found, moves this text pointer to that position. * * @rdesc * character position of first match * 0 if no match * * @devnote * Would be easy to match a single format (like Word 6) provided * cchToFind is nonzero. Else need to search runs (also pretty easy). * For format-sensitive searches, might be easier to search for matching * format run first and then within that run search for text. */ LONG CRchTxtPtr::FindText ( LONG cpMost, // @parm Limit of search; 0 for end of text DWORD dwFlags, // @parm FR_MATCHCASE case must match // FR_WHOLEWORD match must be a whole word TCHAR const *pch, // @parm Text to search for LONG cchToFind) // @parm Length of text to search for { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::FindText"); _TEST_INVARIANT_ LONG cpSave = GetCp(); LONG cpMatch = _rpTX.FindText(cpMost, dwFlags, pch, cchToFind); if(cpMatch >= 0) // cpMatch = -1 means "not found" SetRunPtrs(GetCp(), cpSave); // possible code for format-dependent Finds return cpMatch; } /* * CRchTxtPtr::GetCF()/GetPF() * * @mfunc * Return ptr to CCharFormat/CParaFormat at this text ptr. If no CF/PF runs * are allocated, then return ptr to default format * * @rdesc * Ptr to CCharFormat/CParaFormat at this text ptr */ const CCharFormat* CRchTxtPtr::GetCF() const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetCF"); return ((CTxtArray *)_rpTX._pRuns)->GetCharFormat(_rpCF.GetFormat()); } const CParaFormat* CRchTxtPtr::GetPF() const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetPF"); return ((CTxtArray *)_rpTX._pRuns)->GetParaFormat(_rpPF.GetFormat()); } /* * CRchTxtPtr::ReplaceRange(cchOld, cchNew, *pch, pcpFirstRecalc, publdr, * iFormat, pcchMove, dwFlags) * @mfunc * Replace a range of text at this text pointer using CCharFormat iFormat * and updating other text runs as needed * * @rdesc * Count of new characters added * * @devnote * Moves this text pointer to end of replaced text. * May move text block and formatting arrays. */ LONG CRchTxtPtr::ReplaceRange( LONG cchOld, //@parm length of range to replace // ( 0 means to end of text) LONG cchNew, //@parm length of replacement text TCHAR const *pch, //@parm replacement text IUndoBuilder *publdr, //@parm Undo bldr to receive antievents LONG iFormat, //@parm CCharFormat iFormat to use for cchNew LONG * pcchMove, //@parm Out parm returning cch moved if paradir change DWORD dwFlags) //@parm Special flags { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::ReplaceRange"); LONG cch; LONG cchEndEOP = 0; // Default 0 final EOP fixup LONG cchAdvance = 0; LONG cchBackup = 0; LONG cchMove = 0; // Default nothing to move LONG cchNextEOP = cchOld; // cch to next EOP LONG cchPrevEOP = 0; // cch back to previous EOP LONG cpFR; // between PF runs LONG cpSave = GetCp(); LONG cpFormatMin = cpSave; // Used for notifications LONG cpFormat = cpSave; // Will add cchOld, maybe cchMove BOOL fParaDirChange = FALSE; CTxtEdit * ped = GetPed(); IAntiEvent * paeCF = NULL; IAntiEvent * paePF = NULL; CNotifyMgr * pnm; CObjectMgr * pobjmgr; CFreezeDisplay fd(ped->_pdp); // freeze until itemization is done _TEST_INVARIANT_ LONG cchEnd = GetTextLength() - GetCp(); if(cchOld < 0 || cchOld > cchEnd) cchOld = cchEnd; if(IsRich() && cchOld == cchEnd) // Attempting to delete up { // thru final EOP cchEndEOP = (ped->fUseCRLF()) // Calc cch of final EOP ? CCH_EOD_10 : CCH_EOD_20; if(cchEndEOP <= cchOld) // Don't delete it unless cchOld -= cchEndEOP; // converting from 2.0 if(_rpPF.IsValid()) { _rpPF.AdjustBackward(); // If previous para is a if(GetPF()->InTable()) // table row, don't delete cchEndEOP = 0; // final para formatting } } else if(_rpPF.IsValid()) // If PARAFORMATs are enabled, { _rpPF.AdjustForward(); if (cchOld) { // get tp and rp at end of CFormatRunPtr rp(_rpPF); // range. Need bounding para CTxtPtr tp(_rpTX); // counts to save valid PF BOOL fIsAtBOP; // for undo tp.AdvanceCp(cchOld); rp.AdvanceCp(cchOld); cch = 0; if(tp.IsAfterEOP()) // Range ends with an EOP: { // get EOP length by cch = -tp.BackupCpCRLF(); // backing up over it tp.AdvanceCp(cch); // Advance past EOP } cchNextEOP = tp.FindEOP(tomForward); // Get cch up to next EOP fIsAtBOP = !GetCp() || _rpTX.IsAfterEOP(); if (!fIsAtBOP && cch == cchOld) // Deleting EOP alone before { // new PARAFORMAT run start // in para with more than EOP //bug fix #4978 if (!(dwFlags & RR_NO_EOR_CHECK) && (ped->GetParaFormat(rp.GetFormat())->_wEffects | ped->GetParaFormat(_rpPF.GetFormat())->_wEffects) & PFE_TABLE) return 0; if (!rp.GetIch()) { cchMove = cchNextEOP; // Need to move chars up to cpFormat += cchMove; // end of next para for } } cchNextEOP += cchOld; // Count from GetCp() to EOP tp.SetCp(GetCp()); // Back to this ptr's _cp if(!fIsAtBOP) cchPrevEOP = tp.FindEOP(tomBackward);// Get cch to start of para // If deleting from within one format run up to or into another, set // up to move last para in starting format run into the run following // the deleted text LONG iPF1 = rp.GetFormat(); LONG iPF2 = _rpPF.GetFormat(); if(iPF1 != iPF2) // Change of format during { // deleted text not starting if(!fIsAtBOP && !cchMove) // at BOP { cchMove = cchPrevEOP; // Get cch to start of para cpFormatMin += cchMove; // in this ptr's run for } // moving into rp's run if ((ped->GetParaFormat(iPF1)->_wEffects ^ ped->GetParaFormat(iPF2)->_wEffects) & PFE_RTLPARA) { fParaDirChange = TRUE; // Note that para direction Assert(ped->IsBiDi()); // changed } } } else if (((ped->GetParaFormat(_rpPF.GetFormat())->_wEffects) & PFE_TABLE) && _rpTX.IsAtEOP() && !(dwFlags & RR_NO_EOR_CHECK) /*bug fix #5752*/) { // bug fix #5669 // Don't allow pasting at end of row return 0; } } Assert(cchNew >= 0 && cchOld >= 0); if(!(cchNew + cchOld)) // Nothing to do (note: all { // these cch's are >= 0) if(pcchMove) *pcchMove = 0; return 0; } // Handle pre-replace range notifications. This method is very // useful for delayed rendering of data copied to the clipboard. pnm = ped->GetNotifyMgr(); if(pnm) { pnm->NotifyPreReplaceRange((ITxNotify *)this, cpSave, cchOld, cchNew, cpFormatMin, cpFormat + cchOld); } if(iFormat >= 0) Check_rpCF(); // Get rid of objects first. This let's us guarantee that when we // insert the objects as part of an undo, the objects themselves are // restored _after_ their corresponding WCH_EMBEDDINGs have been // added to the backing store. if(GetObjectCount()) { pobjmgr = ped->GetObjectMgr(); Assert(pobjmgr); pobjmgr->ReplaceRange(cpSave, cchOld, publdr); } // If BiDi doc, expand the range to cover the boundaries that guarantee // the valid state of the BiDi level so we can undo it properly. (wchao) if(ped->IsBiDi()) { cchBackup = ExpandRangeFormatting (cchOld + cchEndEOP, fParaDirChange ? cchMove : 0, cchAdvance); Assert (cchBackup >= 0); } // The anti-events used below are a bit tricky (paeCF && paePF). // Essentially, this call, CRchTxtPtr::ReplaceRange generates one // 'combo' anti-event composed of up to two formatting AE's plus // the text anti-event. These anti-events are combined together // to prevent ordering problems during undo/redo. cpFR = ReplaceRangeFormatting(cchOld + cchEndEOP, cchNew + cchEndEOP, iFormat, publdr, &paeCF, &paePF, cchMove, cchPrevEOP, cchNextEOP, cchBackup, cchAdvance); if(cchEndEOP) { // If we added in the EOP we need to back up by the EOP so // that the invariants don't get annoyed and the richtext object // doesn't get out of sync. _rpCF.AdvanceCp(-cchEndEOP); _rpPF.AdvanceCp(-cchEndEOP); } if(cpFR < 0) { Tracef(TRCSEVERR, "ReplaceRangeFormatting(%ld, %ld, %ld) failed", GetCp(), cchOld, cchNew); cch = 0; goto Exit; } // As noted above in the call to ReplaceRangeFormatting, the anti-events // paeCF and paePF, if non-NULL, were generated by ReplaceRangeFormatting. // In order to solve ordering problems, the anti-event generated by this // method is actually a combo anti-event of text && formatting AE's. cch = _rpTX.ReplaceRange(cchOld, cchNew, pch, publdr, paeCF, paePF); if(cch != cchNew) { Tracef(TRCSEVERR, "_rpTX.ReplaceRange(%ld, %ld, ...) failed", cchOld, cchNew); #ifndef NODUMPFORMATRUNS // Boy, out of memory or something bad. Dump our formatting and hope // for the best. // // FUTURE: (alexgo) degrade more gracefully than losing formatting // info. // Notify every interested party that they should dump their formatting if(pnm) pnm->NotifyPreReplaceRange(NULL, CONVERT_TO_PLAIN, 0, 0, 0, 0); // Tell document to dump its format runs ped->GetTxtStory()->DeleteFormatRuns(); #endif goto Exit; } AssertSz(!_rpPF.IsValid() || _rpPF.GetIch() || !GetCp() || _rpTX.IsAfterEOP(), "CRchTxtPtr::ReplaceRange: EOP not at end of PF run"); // BUGBUG!! (alexgo) doesn't handle correctly the case where things fail // (due to out of memory or whatever). See also notes in CTxtPtr::HandleReplaceRange // Undo. The assert below is therefore somewhat bogus, but if it fires, // then our floating ranges are going to be in trouble until we fix // up the logic here. Assert(cch == cchNew); Exit: #ifdef DEBUG // Test invariant again before calling out to replace range notification. // In this way, we can catch bugs earlier. The invariant has its own // scope for convenience. if( 1 ) { _TEST_INVARIANT_ } #endif if (ped->IsBiDi() && cpSave <= (LONG) ped->GetCpFirstStrong() && ((cchOld != 0) || (cch != 0))) { // Remember whether formatting is valid before we set context direction BOOL fCFValidBeforeSetContextDirection = _rpCF.IsValid(); // Need to check the direction of the control if the input characters // control the direction. ped->SetContextDirection(); // Did SetContextDirection make the formatting valid? if (!fCFValidBeforeSetContextDirection && _rpCF.IsValid()) { // Our invariant is that cps should be equal if formatting is valid // so make it so! _rpCF.BindToCp(GetCp()); } } if(pnm) { pnm->NotifyPostReplaceRange((ITxNotify *)this, cpSave, cchOld, cch, cpFormatMin, cpFormat + cchOld); } ped->GetCallMgr()->SetChangeEvent(CN_TEXTCHANGED); if(pcchMove) // Only return non0 cchMove if para { // direction changed, i.e., it's *pcchMove = fParaDirChange // a "BOOL" with a useful value, ? cchMove : 0; // namely the count of chars with } // changed direction if (ped->IsComplexScript()) { if (dwFlags & RR_ITMZ_NONE || (ped->IsStreaming() && (!pch || *pch != WCH_EMBEDDING))) ped->_fItemizePending = TRUE; else ItemizeReplaceRange(cchNew, fParaDirChange? cchMove : 0, publdr); } return cch; } /* * CRchTxtPtr::InitRunPtrs() * * @mfunc * Initialize Run Ptrs of this rich-text ptr to correspond to * document given by ped and to cp given by cp. */ void CRchTxtPtr::InitRunPtrs() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::InitRunPtrs"); AssertSz(GetPed(), "RTP::InitRunPtrs: illegal GetPed()"); LONG cp = GetCp(); CTxtStory *pStory = GetPed()->GetTxtStory();// If there's RichData, if(pStory->_pCFRuns) // initialize format-run ptrs { _rpCF.SetRunArray((CRunArray *)pStory->_pCFRuns); _rpCF.BindToCp(cp); } if(IsRich() && pStory->_pPFRuns) { _rpPF.SetRunArray((CRunArray *)pStory->_pPFRuns); _rpPF.BindToCp(cp); } } /* * CRchTxtPtr::SetRunPtrs(cp, cpFrom) * * @mfunc set Run Ptrs of this rich-text ptr to correspond to cp * * @rdesc * TRUE unless cp is outside of doc (in which case RunPtrs are * set to nearest document end). */ void CRchTxtPtr::SetRunPtrs( LONG cp, // @parm character position to move RunPtrs to LONG cpFrom) // @parm cp to start with { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::SetRunPtrs"); if(cpFrom && 2*cp >= cpFrom) { _rpCF.AdvanceCp(cp - cpFrom); _rpPF.AdvanceCp(cp - cpFrom); } else { _rpCF.BindToCp(cp); _rpPF.BindToCp(cp); } } /* * CRchTxtPtr::ExpandRangeFormatting(cchRange, cchMove, cchAdvance, fSavePara) * * @rdesc * In BiDi scenario, it's possible that updating a character affects the level of * the others. Such case should only happen when number being involved. * * Example: (AN)"11:30" changing '3' to 'x' will change the level of colon from 2 to 1. * */ LONG CRchTxtPtr::ExpandRangeFormatting( LONG cchRange, // in: original length LONG cchMove, // in: number of chars moved after the replacement LONG& cchAdvance) // out: the extra chars added to the range after expanding { LONG cchBackup = 0; cchAdvance = 0; if (_rpCF.IsValid()) { CTxtPtr tp(_rpTX); if (!IsRich()) { cchBackup = -tp.FindEOP(tomBackward); tp.AdvanceCp(cchBackup + cchRange); cchAdvance = tp.FindEOP(tomForward); } else { CFormatRunPtr rp(_rpCF); LONG cp = GetCp(); if (cchMove < 0) { // number of text to be moved down to the next paragraph cchBackup = -cchMove; } else if (cchMove > 0) { // number of text to be moved up to the previous paragraph cchAdvance = cchMove; } // Advancing/Backing up 2 adjacent runs seems to be sufficient for now. if (cchBackup == 0) { rp.AdjustBackward(); cchBackup += rp.GetIch(); if (rp.PrevRun()) cchBackup += rp.GetCchLeft(); rp.AdvanceCp(cchBackup); } // move the run pointer to the end of range rp.AdvanceCp(cchRange); tp.SetCp(cp + cchRange); if (cchAdvance == 0 && !tp.IsAtEOP()) { rp.AdjustForward(); cchAdvance += rp.GetCchLeft(); if (rp.NextRun()) cchAdvance += rp.GetCchLeft(); } } } return cchBackup; } /* * CRchTxtPtr::ItemizeReplaceRange(cchUpdate, cchMove, publdr, fUnicodeBidi) * * @mfunc * Find out the exact range to be itemized after calling :ReplaceRange * * @rdesc * result from ItemizeRuns. * Guarantee *this* pointer wont move. */ BOOL CRchTxtPtr::ItemizeReplaceRange( LONG cchUpdate, LONG cchMove, // Count of chars moved after replacing IUndoBuilder* publdr, // (they need reitemizing) BOOL fUnicodeBidi) { BOOL fr = FALSE; if (GetPed()->IsComplexScript()) { Assert (cchUpdate >= 0); // the range after ReplaceRange must be degenerate CTxtPtr tp(_rpTX); LONG cp = GetCp(); LONG cpStart, cpEnd; BOOL fNonUnicodeBidiRecurse = FALSE; BOOL fUseCtxLevel = FALSE; tp.AdvanceCp(-cchUpdate); if (cchUpdate > 0 && GetPed()->IsRich() && fUnicodeBidi) { cpStart = cpEnd = cp; cpStart -= cchUpdate; if (GetPed()->IsBiDi()) { // RAID bug 7094 : We wnat to use the IP to set the context for // incoming text. // fUseCtxLevel = TRUE; // Recurse with non-BiDi, so the run preceding/succeeding this chunk get updated fNonUnicodeBidiRecurse = TRUE; } } else { tp.FindWhiteSpaceBound(cchUpdate, cpStart, cpEnd, !GetPed()->IsRich() ? FWS_BOUNDTOPARA : 0); } if (cchMove < 0) { // number of text -before- the replaced range // moves down to the next paragraph. cpStart = max(cp - cchUpdate + cchMove, 0); } else if (cchMove > 0) { // number of text -after- the replaced range // moves up to the previous paragraph. cpEnd = min(cp + cchMove, GetPed()->GetTextLength()); } { CTxtRange rg(*this, 0); rg.Set(cpEnd, cpEnd - cpStart); fr = rg.ItemizeRuns(publdr, fUnicodeBidi, fUseCtxLevel); // set pointer back to original cp // We cant use copy operator here since itemization changes format run. // It would cause invariant failure in _rpCF. cp -= rg.GetCp(); _rpCF = rg._rpCF; _rpCF.AdvanceCp(cp); // ItemizeRuns invalidates rg._rpPF so that the paraformat run becomes valid // and we need to advance it to the current cp. _rpPF = rg._rpPF; _rpPF.AdvanceCp(cp); // Perf note: We dont want the range to be around when we recurse // since a range is a notification sink. } // Run itemization to the same range, this time forces it to be non-Bidi. if (fr && fNonUnicodeBidiRecurse) fr = ItemizeReplaceRange(cchUpdate, 0, publdr, FALSE); } return fr; } /* * CRchTxtPtr::ReplaceRangeFormatting(cchOld, cchNew, iFormat, publdr, * ppaeCF, ppaePF, cchMove) * @mfunc * replace character and paragraph formatting at this text pointer * using CCharFormat with index iFormat * * @rdesc * count of new characters added * * @devnote * moves _rpCF and _rpPF to end of replaced text * moves format run arrays * CCharFormat for iFormat is fully configured, i.e., no NINCHes */ LONG CRchTxtPtr::ReplaceRangeFormatting( LONG cchOld, //@parm length of range to replace LONG cchNew, //@parm length of replacement text LONG iFormat, //@parm Char format to use IUndoBuilder *publdr, //@parm UndoBuilder to receive antievents IAntiEvent **ppaeCF, //@parm where to return 'extra' CF anti-events IAntiEvent **ppaePF, //@parm where to return extra PF anti-events LONG cchMove, //@parm cch to move between PF runs LONG cchPrevEOP, //@parm cch from _cp back to prev EOP LONG cchNextEOP, //@parm cch from _cp up to next EOP LONG cchSaveBefore, LONG cchSaveAfter) { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::ReplaceRangeFormatting"); LONG cp = GetCp(); ICharFormatCache * pcfc = GetCharFormatCache(); IParaFormatCache * ppfc = GetParaFormatCache(); LONG iRunMerge = 0; AssertSz(cchOld >= 0, "CRchTxtPtr::ReplaceRangeFormatting: Illegal cchOld"); if(_rpCF.IsValid()) { iRunMerge = _rpCF._iRun; if(iRunMerge > 0) iRunMerge--; Assert (cchSaveBefore >= 0 && cchSaveAfter >= 0); if(cchOld + cchSaveAfter + cchSaveBefore > 0) { // add the soon-to-be deleted if(publdr) // formats to the undo list { // Include previous cchSaveBefore chars _rpCF.AdvanceCp(-cchSaveBefore); *ppaeCF = gAEDispenser.CreateReplaceFormattingAE( GetPed(), _rpCF, cchSaveAfter + cchOld + cchSaveBefore, pcfc, CharFormat); // Restore _rpCF (we just want to save value not delete it) _rpCF.AdvanceCp(cchSaveBefore); } if(cchOld) // Delete/modify CF runs <--> _rpCF.Delete(cchOld, pcfc, 0); // to cchOld chars } // If we deleted all of text in story, don't bother adding a new // run. Else insert/modify CF runs corresponding to cchNew chars // // In a plain-text control, there is no final EOP; hence the test // for equality. if(cchNew > 1 || cchNew && cchOld <= GetTextLength()) _rpCF.InsertFormat(cchNew, iFormat, pcfc); if((cchOld || cchNew) && _rpCF.IsValid())// Deleting all text { // invalidates _rpCF _rpCF.AdjustForward(); _rpCF.MergeRuns(iRunMerge, pcfc); _rpCF.BindToCp(cp + cchNew); } } if(_rpPF.IsValid()) { _rpPF.AdjustForward(); // Be absolutely sure that // PF runs end with EOPs iRunMerge = _rpPF._iRun; if(iRunMerge > 0) iRunMerge--; if(cchOld) // Delete cchOld from PF runs { // add the soon-to-be deleted if(publdr) // formats to the undo list { CFormatRunPtr rp(_rpPF); rp.AdvanceCp(cchPrevEOP); *ppaePF = gAEDispenser.CreateReplaceFormattingAE(GetPed(), rp, cchNextEOP - cchPrevEOP, ppfc, ParaFormat); } _rpPF.Delete(cchOld, ppfc, cchMove); } if(_rpPF.IsValid()) // Deleting all text { // invalidates _rpPF _rpPF.AdjustForward(); _rpPF.GetRun(0)->_cch += cchNew; // Insert cchNew into current _rpPF._ich += cchNew; // PF run if(cchOld || cchNew) { _rpPF.MergeRuns(iRunMerge, ppfc); _rpPF.BindToCp(cp + cchNew); } } } return cchNew; } /* * CRchTxtPtr::ExtendFormattingCRLF() * * @mfunc * Use the same CCharFormat and CParaFormat indices for the EOP at * this text ptr as those immediately preceding it. * * @devnote * Leaves this text ptr's format ptrs at run you get from AdjustBackward * since this run ends up including the new text. */ void CRchTxtPtr::ExtendFormattingCRLF() { LONG cch = GetTextLength() - GetPed()->GetAdjustedTextLength(); CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); _rpCF.AdjustFormatting(cch, GetCharFormatCache()); if(_rpPF.IsValid()) { _rpPF.AdjustBackward(); if(!InTable()) _rpPF.AdjustFormatting(cch, GetParaFormatCache()); _rpPF.AdjustForward(); } if(pnm) { // We assume that Cch is positive (or zero) here Assert(cch >= 0); pnm->NotifyPostReplaceRange((ITxNotify *)this, CP_INFINITE, 0, 0, GetCp(), GetCp() + cch); } } /* * CRchTxtPtr::IsRich() * * @mfunc * Determine whether rich-text operation is operable * * @rdesc * TRUE if associated CTxtEdit::_fRich = 1, i.e., control is allowed * to be rich. */ BOOL CRchTxtPtr::IsRich() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::IsRich"); return GetPed()->IsRich(); } /* * CRchTxtPtr::Check_rpCF() * * @mfunc * enable _rpCF if it's not already enabled * * @rdesc * TRUE if _rpCF is enabled */ BOOL CRchTxtPtr::Check_rpCF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::Check_rpCF"); if(_rpCF.IsValid()) return TRUE; if(!_rpCF.InitRuns (GetCp(), GetTextLength(), &(GetPed()->GetTxtStory()->_pCFRuns))) { return FALSE; } CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); // For notifying of changes if(pnm) pnm->NotifyPostReplaceRange( // Notify interested parties (ITxNotify *)this, CP_INFINITE, // that 0, 0, CP_INFINITE, CP_INFINITE); return TRUE; } /* * CRchTxtPtr::Check_rpPF() * * @mfunc * enable _rpPF if it's not already enabled * * @rdesc * TRUE if _rpPF is enabled */ BOOL CRchTxtPtr::Check_rpPF() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::Check_rpPF"); if(_rpPF.IsValid()) return TRUE; if(!IsRich()) return FALSE; if(!_rpPF.InitRuns (GetCp(), GetTextLength(), &(GetPed()->GetTxtStory()->_pPFRuns))) { return FALSE; } if (IsParaRTL()) _rpPF.GetRun(0)->_level._value = 1; // Set default paragraph base level CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); // For notifying of changes if(pnm) pnm->NotifyPostReplaceRange( // Notify interested parties (ITxNotify *)this, CP_INFINITE, // of the change. 0, 0, CP_INFINITE, CP_INFINITE); return TRUE; } /* * CRchTxtPtr::FindWordBreak(action, cpMost) * * @mfunc * Same as CTxtPtr::FindWordBreak(), but moves the whole rich text ptr * * @rdesc * cch this rich text ptr is moved */ LONG CRchTxtPtr::FindWordBreak( INT action, //@parm Kind of word break to find LONG cpMost) //@parm Limiting character position { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::FindWordBreak"); LONG cch = _rpTX.FindWordBreak(action, cpMost); _rpCF.AdvanceCp(cch); _rpPF.AdvanceCp(cch); return cch; } /* * CRchTxtPtr::BindToCp(dwNewCp) * * @mfunc * Set cp to new value and recalculate that new position. */ void CRchTxtPtr::BindToCp( LONG cp) // @parm new cp for rich text { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::BindToCp"); _rpTX.BindToCp(cp); // Recalculate cp for plain text // Use the InitRunPtrs routine so that the run pointers will get // re-initialized and rebound with the correct run array. The // run array formerly used (if any at all) is not necessarily valid // when this function is called. InitRunPtrs(); // Do invariant testing at end because this fixes up the rich text // pointer in the face of backing store changes. _TEST_INVARIANT_ } /* * CRchTxtPtr::CheckFormatRuns () * * @mfunc * Check the format runs against what's in CTxtStory. If * different, forces a rebind to

*/ void CRchTxtPtr::CheckFormatRuns() { CTxtStory *pStory = GetPed()->GetTxtStory(); if (pStory->GetCFRuns() != (CFormatRuns *)_rpCF._pRuns || pStory->GetPFRuns() != (CFormatRuns *)_rpPF._pRuns) { InitRunPtrs(); } _TEST_INVARIANT_ } /* * CRchTxtPtr::ChangeCase(cch, Type, publdr) * * @mfunc * Change case of cch chars starting at this text ptr according to Type, * which has the possible values: * * tomSentenceCase = 0: capitalize first letter of each sentence * tomLowerCase = 1: change all letters to lower case * tomUpperCase = 2: change all letters to upper case * tomTitleCase = 3: capitalize the first letter of each word * tomToggleCase = 4: toggle the case of each letter * * @rdesc * TRUE iff a change occurred * * @devnote * Since this routine only changes the case of characters, it has no * effect on rich-text formatting. However it is part of the CRchTxtPtr * class in order to notify the display of changes. CTxtRanges are also * notified just in case the text blocks are modified. */ BOOL CRchTxtPtr::ChangeCase ( LONG cch, //@parm # chars to change case for LONG Type, //@parm Type of change case command IUndoBuilder *publdr) //@parm UndoBuilder to receive anti-event // for any replacements { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::ChangeCase"); _TEST_INVARIANT_ #define BUFFERLEN 256 LONG cchChunk, cchFirst, cchFormat, cchGet, cchLast; BOOL fAlpha, fToUpper, fUpper; // Flags controling case change BOOL fChange = FALSE; // No change yet BOOL fStart = TRUE; // Start of Word/Sentence LONG iCF; TCHAR * pch; // Ptr to walk rgCh with WORD * pType; // Ptr to walk rgType with WCHAR rgCh[BUFFERLEN]; // Char buffer to work in WORD rgType[BUFFERLEN]; // C1_TYPE array for rgCh if( GetCp() ) { if( Type == tomSentenceCase ) { fStart = _rpTX.IsAtBOSentence(); } else if( Type == tomTitleCase ) { // Check to see if we are at the beginning of // a word. This is the case if the character preceeding // our current position is white space. fStart = IsWhiteSpace(GetPrevChar()); } } while(cch > 0) // Do 'em all (or as many as { // in story) cchChunk = min(BUFFERLEN, cch); // Get next bufferful // FUTURE: it's too bad that we have to do all this format stuff // when the formatting isn't even going to change. It would be // faster and simpler to use _rpTX.ReplaceRange() and just send // appropriate notifications. if(_rpCF.IsValid()) // Make sure it stays within { // current char/paraformat cchFormat = _rpCF.GetCchLeft(); // runs to simplify changing cchChunk = min(cchChunk, cchFormat);// text with undo } if(_rpPF.IsValid()) { cchFormat = _rpPF.GetCchLeft(); cchChunk = min(cchChunk, cchFormat); } cch -= cchChunk; // Decrement the count cchGet = _rpTX.GetText(cchChunk, rgCh); // Manipulate chars in buffer if(cchGet < cchChunk) // (for undo, need to use { // ReplaceRange()) cch = 0; // No more chars in story, if(!cchGet) // so we'll be done break; // We're done already cchChunk = cchGet; // Something in this chunk } W32->GetStringTypeEx(0, CT_CTYPE1, rgCh,// Find out whether chars are cchChunk, rgType); // UC, LC, or neither cchLast = 0; // Default nothing to replace cchFirst = -1; for(pch = rgCh, pType = rgType; // Process buffered chars cchChunk; cchChunk--, pch++, pType++) { fAlpha = *pType & (C1_UPPER | C1_LOWER); // Nonzero if UC or LC fUpper = (*pType & C1_UPPER) != 0; // TRUE if UC fToUpper = fStart ? TRUE : fUpper; // capitalize first letter of a // sentence switch(Type) { // Decide whether to change case tomLowerCase: // case and determine start fToUpper = FALSE; // of word/sentence for title break; // and sentence cases case tomUpperCase: fToUpper = TRUE; break; case tomToggleCase: fToUpper = !fUpper; break; case tomSentenceCase: if(*pch == TEXT('.')) // If sentence terminator, fStart = TRUE; // capitalize next alpha if(fAlpha) // If this char is alpha, next fStart = FALSE; // char can't start a break; // sentence case tomTitleCase: // If this char is alpha, next fStart = (fAlpha == 0); // char can't start a word break; default: return FALSE; } if(fAlpha && (fToUpper ^ fUpper)) // Only change case if it { // makes a difference (saves if(fToUpper) // on system calls and undos) CharUpperBuff(pch, 1); else CharLowerBuff(pch, 1); fChange = TRUE; // Return value: change made if( cchFirst == -1 ) // Save cch of unchanged cchFirst = cchGet-cchChunk; // leading string cchLast = cchChunk - 1; // Save cch of unchanged } // trailing string } if( cchFirst == -1 ) { Assert(cchLast == 0); cchFirst = cchGet; } Advance(cchFirst); // Skip unchanged leading cchGet -= cchFirst + cchLast; // string. cchGet = cch of _rpCF.AdjustForward(); // changed span. Adjust in // case cchFirst = 0 iCF = _rpCF.GetFormat(); GetCharFormatCache()->AddRef(iCF); ReplaceRange(cchGet, cchGet, rgCh + cchFirst, publdr, iCF); ReleaseFormats(iCF, -1); Advance(cchLast); // Skip unchanged trailing } // string return fChange; } // The following defines a mask for Units implemented by UnitCounter() #define IMPL ((1 << tomCharacter) + (1 << tomWord) + (1 << tomSentence) + \ (1 << tomParagraph) + (1 << tomLine) + (1 << tomStory) + \ (1 << tomCharFormat) + (1 << tomParaFormat) + (1 << tomObject)) /* * CRchTxtPtr::UnitCounter (Unit, &cUnit, cchMax) * * @mfunc * Helper function to count chars in

Units defined by

*

is a signed count. If it extends beyond either end of the * story, count up to that end and update

accordingly. If *

is nonzero, stop counting when the count exceeds

* in magnitude. * * @rdesc * If unit is implemented, return cch corresponding to the units counted * (up to a maximum magnitude of

) and update cUnit; * else return tomForward to signal unit not implemented and cUnit = 0. * If unit is implemented but unavailable, e.g., tomObject with no * embedded objects, return tomBackward. * * @devnote * This is the basic engine used by the TOM CTxtRange::Move() and Index() * methods. */ LONG CRchTxtPtr::UnitCounter ( LONG Unit, //@parm Type of unit to count LONG & cUnit, //@parm Count of units to count chars for LONG cchMax) //@parm Maximum character count { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CRchTxtPtr::UnitCounter"); LONG action; // Gives direction and tomWord commands LONG cch; // Collects cch counted LONG cchText = GetTextLength(); LONG cp = GetCp(); LONG iDir = cUnit > 0 ? 1 : -1; LONG j; // For-loop index CDisplay *pdp; // Used for tomLine case if(!cUnit) // Nothing to count { return ((DWORD)Unit > tomObject || !((IMPL >> Unit) & 1)) ? tomForward : 0; // Indicate Unit not } // implemented if(cchMax <= 0) cchMax = tomForward; // No cch limit switch(Unit) { case tomCharacter: // Smallest Unit cp += cUnit; // Requested new cp ValidateCp(cp); // Make sure it's OK cch = cUnit = cp - GetCp(); // How many cch, cUnits break; // actually moved case tomStory: // Largest Unit cch = (cUnit > 0) ? cchText - cp : -cp; // cch to start of story cUnit = cch ? iDir : 0; // If already at end/start, break; // of story, no count case tomCharFormat: // Constant CHARFORMAT cch = _rpCF.CountRuns(cUnit, cchMax, cp, cchText); break; case tomParaFormat: // Constant PARAFORMAT cch = _rpPF.CountRuns(cUnit, cchMax, cp, cchText); break; case tomObject: if(!GetObjectCount()) // No objects: can't move, so { cUnit = 0; // set cUnit = 0 and return tomBackward; // signal Unit unavailable } cch = GetPed()->_pobjmgr->CountObjects(cUnit, GetCp()); break; case tomLine: pdp = GetPed()->_pdp; if(pdp) // If this story has a display { // use a CLinePtr CLinePtr rp(pdp); pdp->WaitForRecalc(cp, -1); rp.RpSetCp(cp, FALSE); cch = rp.CountRuns(cUnit, cchMax, cp, cchText); break; } // Else fall thru to treat as // tomPara default: // tp dependent cases { // Block to contain tp() which CTxtPtr tp(_rpTX); // takes time to construct if (cUnit < 0) // Counting backward { action = (Unit == tomWord) ? WB_MOVEWORDLEFT : tomBackward; } else // Counting forward { action = (Unit == tomWord) ? WB_MOVEWORDRIGHT : tomForward; } for (cch = 0, j = cUnit; j && abs(cch) < cchMax; j -= iDir) { cp = tp.GetCp(); // Save starting cp for switch (Unit) // calculating cch for this { // Unit case tomWord: tp.FindWordBreak(action); break; case tomSentence: tp.FindBOSentence(action); break; case tomLine: // Story has no line array: case tomParagraph: // treat as tomParagraph tp.FindEOP(action); break; default: cUnit = 0; return tomForward; // Return error } if(tp.GetCp() - cp == 0) // No count: break; // don't decrement cUnit cch += tp.GetCp() - cp; } cUnit -= j; // Discount any runs not } // counted if |cch| >= cchMax } if(abs(cch) > cchMax) // Keep cch within requested { // limit cch = cch > 0 ? cchMax : -cchMax; if(Unit == tomCharacter) cUnit = cch; } Advance(cch); // Move to new position return cch; // Total cch counted } /* * CRchTxtPtr::GetParaNumber () * * @mfunc * Return number of current paragraph in a numbered list. This is * 0 if the current paragraph isn't part of a list. It's 1 if it's * the first paragraph in a list, 2 if it's the second, etc. * * @rdesc * paragraph number active at this rich text ptr * * @devnote * When the display is calc'd from the beginning or recalc'd from * a previous valid position, the list number can be determined from * the display. But if CDisplayPrinter::FormatRange() works without * a display, it needs to know the number. This routine can be so used * for this purpose and for debugging the display choices. */ LONG CRchTxtPtr::GetParaNumber() const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::GetParaNumber"); LONG ch; LONG cPara = 0; LONG n; const CParaFormat *pPF, *pPFLast = NULL; CRchTxtPtr rtp(*this); while(1) { pPF = rtp.GetPF(); // CParaFormat::UpdateNumber(2, pPFLast) returns: // 0 -- not a numbered list // 1 -- new numbered list or pPFLast = NULL // 2 -- list number suppressed // 3 -- different number in same list n = pPF->UpdateNumber(2, pPFLast); if(n == 0 || n == 1 && pPFLast && cPara) break; ch = rtp.GetPrevChar(); if((!ch || IsASCIIEOP(ch) && ch != VT) && n != 2) cPara++; if(!ch) break; rtp._rpPF.AdvanceCp(rtp._rpTX.FindEOP(tomBackward)); pPFLast = pPF; // Don't need to update _rpCF } // for this calculation return cPara; } /* * Notes on RichEdit 1.0 mode: * * CF_UNICODETEXT should not be used in RichEdit 1.0 mode. \uN should use * the alternative. * * CleanseAndReplaceRange() and the RTF reader need to ensure that any * Unicode chars entered belong to a CharSet and stamp it accordingly. * If no CharSet exists for the character, then blank should be used. */ /* * CRchTxtPtr::GetCachFromCch(cch) * * @mfunc * Return count of A chars corresponding to cch W chars starting at * this text ptr. On first call start with this text ptr at cp = 0. * * @rdesc * Count of A chars between this text ptr and cp * * @comm * The algorithm assumes that for a DBCS charset any character * above 128 has two bytes, except for the halfwidth KataKana, * which are single bytes in ShiftJis. */ LONG CRchTxtPtr::GetCachFromCch( LONG cch) //@parm Count of chars to check { BYTE bCharSet; LONG cach = 0; // No ach counted yet LONG cch1; LONG cchRun; // CF run count LONG cchValid; // Text run count WCHAR ch; const WCHAR *pch; // Ptr to text run const CCharFormat *pCF; while(cch > 0) { cchRun = _rpCF.IsValid() ? _rpCF.GetCchLeft() : GetTextLength() - GetCp(); if(!cchRun) break; // No more text pCF = GetCF(); bCharSet = pCF->_bCharSet; if (!IsFECharSet(bCharSet) || (pCF->_dwEffects & CFE_RUNISDBCS)) { cchRun = min(cchRun, cch); cach += cchRun; // SBCS run or DBCS stored as cch -= cchRun; // one byte per char Advance(cchRun); continue; } pch = GetPch(cchValid); Assert(pch); cchValid = min(cchValid, cchRun); for(cch1 = 0; cch > 0 && cchValid--; cch1++) { cch--; ch = *pch++; if(ch >= 128 && ch != WCH_EMBEDDING && (bCharSet != SHIFTJIS_CHARSET || !IN_RANGE(0xFF61, ch, 0xFF9F))) { cach++; } } cach += cch1; Advance(cch1); } return cach; } /* * CRchTxtPtr::GetCchFromCach(cach) * * @mfunc * Return count of W chars corresponding to cach A chars starting at this * text ptr. On first call start with this text ptr at cp = 0. * * @rdesc * Count of W chars corresponding to cach A chars starting at this tp. * * @comm * The algorithm assumes that for a DBCS charset any character * above 128 has two bytes, except for the halfwidth KataKana, * which are single bytes in ShiftJis. */ LONG CRchTxtPtr::GetCchFromCach( LONG cach) //@parm Count of ach's starting at this text ptr { BYTE bCharSet; LONG cch = 0; // No ch's yet LONG cch1; LONG cchRun; // CF run count LONG cchValid; // Text run count WCHAR ch; const WCHAR *pch; // Ptr to text run const CCharFormat *pCF; while(cach > 0) { cchRun = _rpCF.IsValid() ? _rpCF.GetCchLeft() : GetTextLength() - GetCp(); if(!cchRun) break; // No more text pCF = GetCF(); bCharSet = pCF->_bCharSet; if (!IsFECharSet(bCharSet) || (pCF->_dwEffects & CFE_RUNISDBCS)) { cchRun = min(cchRun, cach); // SBCS run or DBCS stored as cach -= cchRun; // one byte per char cch += cchRun; Advance(cchRun); continue; } pch = GetPch(cchValid); Assert(pch); cchValid = min(cchValid, cchRun); for(cch1 = 0; cach > 0 && cchValid--; cch1++) { cach--; ch = *pch++; if(ch >= 128 && ch != WCH_EMBEDDING && (bCharSet != SHIFTJIS_CHARSET || !IN_RANGE(0xFF61, ch, 0xFF9F))) { cach--; } } cch += cch1; Advance(cch1); } return cch; } /* * CRchTxtPtr::Zombie () * * @mfunc * Turn this object into a zombie by NULLing out its _ped member */ void CRchTxtPtr::Zombie () { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRchTxtPtr::Zombie"); _rpTX.Zombie(); _rpCF.SetToNull(); _rpPF.SetToNull(); }