/* * @doc INTERNAL * * @module RANGE.C - Implement the CTxtRange Class | * * This module implements the internal CTxtRange methods. See range2.c * for the ITextRange methods * * Authors: * Original RichEdit code: David R. Fulmer * Christian Fortini * Murray Sargent * * Revisions: * AlexGo: update to runptr text ptr; floating ranges, multilevel undo * * Copyright (c) 1995-1998, Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_range.h" #include "_edit.h" #include "_text.h" #include "_rtext.h" #include "_m_undo.h" #include "_antievt.h" #include "_disp.h" #include "_uspi.h" #include "_rtfconv.h" #include "_txtbrk.h" #include "_font.h" #ifdef LINESERVICES #include "_ols.h" #endif ASSERTDATA TCHAR szEmbedding[] = {WCH_EMBEDDING, 0}; // =========================== Invariant stuff ====================================================== #define DEBUG_CLASSNAME CTxtRange #include "_invar.h" #ifdef DEBUG BOOL CTxtRange::Invariant( void ) const { LONG cpMin, cpMost; GetRange(cpMin, cpMost); Assert ( cpMin >= 0 ); Assert ( cpMin <= cpMost ); Assert ( cpMost <= GetTextLength() ); Assert ( cpMin != cpMost || cpMost <= GetAdjustedTextLength()); static LONG numTests = 0; numTests++; // how many times we've been called. // make sure the selections are in range. return CRchTxtPtr::Invariant(); } #endif void CTxtRange::RangeValidateCp(LONG cp, LONG cch) { LONG cchText = GetAdjustedTextLength(); LONG cpOther = cp - cch; // Calculate cpOther with entry cp _wFlags = FALSE; // This range isn't a selection _iFormat = -1; // Set up the default format, which // doesn't get AddRefFormat'd ValidateCp(cpOther); // Validate requested other end cp = GetCp(); // Validated cp if(cp == cpOther && cp > cchText) // IP cannot follow undeletable cp = cpOther = SetCp(cchText); // EOP at end of story _cch = cp - cpOther; // Store valid length } CTxtRange::CTxtRange(CTxtEdit *ped, LONG cp, LONG cch) : CRchTxtPtr(ped, cp) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::CTxtRange"); RangeValidateCp(cp, cch); Update_iFormat(-1); // Choose _iFormat CNotifyMgr *pnm = ped->GetNotifyMgr(); if(pnm) pnm->Add( (ITxNotify *)this ); } CTxtRange::CTxtRange(CRchTxtPtr& rtp, LONG cch) : CRchTxtPtr(rtp) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::CTxtRange"); RangeValidateCp(GetCp(), cch); Update_iFormat(-1); // Choose _iFormat CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); if(pnm) pnm->Add( (ITxNotify *)this ); } CTxtRange::CTxtRange(const CTxtRange &rg) : CRchTxtPtr((CRchTxtPtr)rg) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::CTxtRange"); _cch = rg._cch; _wFlags = FALSE; // This range isn't a selection _iFormat = -1; // Set up the default format, which // doesn't get AddRefFormat'd Set_iCF(rg._iFormat); CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); if(pnm) pnm->Add((ITxNotify *)this); } CTxtRange::~CTxtRange() { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::~CTxtRange"); if(!IsZombie()) { CNotifyMgr *pnm = GetPed()->GetNotifyMgr(); if(pnm ) pnm->Remove((ITxNotify *)this); } ReleaseFormats(_iFormat, -1); } CRchTxtPtr& CTxtRange::operator =(const CRchTxtPtr &rtp) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::operator ="); _TEST_INVARIANT_ON(rtp) LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::operator =(rtp); CheckChange(cpSave); return *this; } CTxtRange& CTxtRange::operator =(const CTxtRange &rg) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::operator ="); _TEST_INVARIANT_ON( rg ); LONG cchSave = _cch; // Save entry _cp, _cch for change check LONG cpSave = GetCp(); CRchTxtPtr::operator =(rg); _cch = rg._cch; // Can't use CheckChange(), since don't // use _fExtend Update_iFormat(-1); _TEST_INVARIANT_ if( _fSel && (cpSave != GetCp() || cchSave != _cch) ) GetPed()->GetCallMgr()->SetSelectionChanged(); return *this; } /* * CTxtRange::OnPreReplaceRange (cp, cchDel, cchNew, cpFormatMin, * cpFormatMax) * * @mfunc * called when the backing store changes * * @devnote * 1) if this range is before the changes, do nothing * * 2) if the changes are before this range, simply * add the delta change to GetCp() * * 3) if the changes overlap one end of the range, collapse * that end to the edge of the modifications * * 4) if the changes are completely internal to the range, * adjust _cch and/or GetCp() to reflect the new size. Note * that two overlapping insertion points will be viewed as * a 'completely internal' change. * * 5) if the changes overlap *both* ends of the range, collapse * the range to cp * * Note that there is an ambiguous cp case; namely the changes * occur *exactly* at a boundary. In this case, the type of * range matters. If a range is normal, then the changes * are assumed to fall within the range. If the range is * is protected (either in reality or via DragDrop), then * the changes are assumed to be *outside* of the range. */ void CTxtRange::OnPreReplaceRange ( LONG cp, //@parm cp at start of change LONG cchDel, //@parm Count of chars deleted LONG cchNew, //@parm Count of chars inserted LONG cpFormatMin, //@parm the min cp of a format change LONG cpFormatMax) //@parm the max cp of a format change { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::OnPreReplaceRange"); if(CONVERT_TO_PLAIN == cp) { // We need to dump our formatting because it is gone _rpCF.SetToNull(); _rpPF.SetToNull(); if(_fSel) GetPed()->_fUpdateSelection = TRUE; Update_iFormat(-1); return; } } /* * CTxtRange::OnPostReplaceRange (cp, cchDel, cchNew, cpFormatMin, * cpFormatMax) * * @mfunc * called when the backing store changes * * @devnote * 1) if this range is before the changes, do nothing * * 2) if the changes are before this range, simply * add the delta change to GetCp() * * 3) if the changes overlap one end of the range, collapse * that end to the edge of the modifications * * 4) if the changes are completely internal to the range, * adjust _cch and/or GetCp() to reflect the new size. Note * that two overlapping insertion points will be viewed as * a 'completely internal' change. * * 5) if the changes overlap *both* ends of the range, collapse * the range to cp * * Note that there is an ambiguous cp case; namely the changes * occur *exactly* at a boundary. In this case, the type of * range matters. If a range is normal, then the changes * are assumed to fall within the range. If the range is * is protected (either in reality or via DragDrop), then * the changes are assumed to be *outside* of the range. */ void CTxtRange::OnPostReplaceRange ( LONG cp, //@parm cp at start of change LONG cchDel, //@parm Count of chars deleted LONG cchNew, //@parm Count of chars inserted LONG cpFormatMin, //@parm Min cp of format change LONG cpFormatMax) //@parm Max cp of format change { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::OnPostReplaceRange"); // NB!! We can't do invariant testing here, because we could // be severely out of date! LONG cchtemp; LONG cpMin, cpMost; LONG cchAdjTextLen; LONG delta = cchNew - cchDel; Assert (CONVERT_TO_PLAIN != cp); GetRange(cpMin, cpMost); // This range is before the changes. Note: an insertion pt at cp // shouldn't be changed if( cp >= cpMost ) { // Double check to see if we need to fix up our format // run pointers. If so, all we need to do is rebind // our inherited rich text pointer if(cpFormatMin <= cpMost || cpFormatMin == CP_INFINITE) InitRunPtrs(); else { // It's possible that the format runs changed anyway, // e.g., they became allocated, deallocated, or otherwise // changed. Normally, BindToCp takes care of this // situation, but we don't want to pay that cost all // the time. // // Note that starting up the rich text subsystem will // generate a notification with cpFormatMin == CP_INFINITE // // So here, call CheckFormatRuns. This makes sure that // the runs are in sync with what CTxtStory has // (doing an InitRunPtrs() _only_ if absolutely necessary). CheckFormatRuns(); } return; } // Anywhere in the following that we want to increment the current cp by a // delta, we are counting on the following invariant. Assert(GetCp() >= 0); // Changes are entirely before this range. Specifically, // that's determined by looking at the incoming cp *plus* the number // of characters deleted if(cp + cchDel < cpMin || _fDragProtection && cp + cchDel <= cpMin) { cchtemp = _cch; BindToCp(GetCp() + delta); _cch = cchtemp; } // The changes are internal to the range or start within the // range and go beyond. else if( cp >= cpMin && cp <= cpMost ) { // Nobody should be modifying a drag-protected range. Unfortunately, // Ren re-enters us with a SetText call during drag drop, so we need // to handle this case 'gracefully'. if( _fDragProtection ) { TRACEWARNSZ("REENTERED during a DRAG DROP!! Trying to recover!"); } if( cp + cchDel <= cpMost ) { // Changes are purely internal, so // be sure to preserve the active end. Basically, if // GetCp() *is* cpMin, then we only need to update _cch. // Otherwise, GetCp() needs to be moved as well if( _cch >= 0 ) { Assert(GetCp() == cpMost); cchtemp = _cch; BindToCp(GetCp() + delta); _cch = cchtemp + delta; } else { BindToCp(GetCp()); _cch -= delta; } // Special case: the range is left with only the final EOP // selected. This means all the characters in the range were // deleted so we want to move the range back to an insertion // point at the end of the text. cchAdjTextLen = GetAdjustedTextLength(); if(GetCpMin() >= cchAdjTextLen && !GetPed()->IsStreaming()) { // Reduce the range to an insertion point _cch = 0; _fExtend = FALSE; // Set the cp to the end of the document. SetCp(cchAdjTextLen); } } else { // Changes extended beyond cpMost. In this case, // we want to truncate cpMost to the *beginning* of // the changes (i.e. cp) if( _cch > 0 ) { BindToCp(cp); _cch = cp - cpMin; } else { BindToCp(cpMin); _cch = cpMin - cp; } } } else if( cp + cchDel >= cpMost ) { // Nobody should be modifying a drag-protected range. Unfortunately, // Ren re-enters us with a SetText call during drag drop, so we need // to handle this case 'gracefully'. if( _fDragProtection ) { TRACEWARNSZ("REENTERED during a DRAG DROP!! Trying to recover!"); } // Entire range was deleted, so collapse to an insertion point at cp BindToCp(cp); _cch = 0; } else { // Nobody should be modifying a drag-protected range. Unfortunately, // Ren re-enters us with a SetText call during drag drop, so we need // to handle this case 'gracefully'. if( _fDragProtection ) { TRACEWARNSZ("REENTERED during a DRAG DROP!! Trying to recover!"); } // The change crossed over just cpMin. In this case move cpMin // forward to the unchanged part LONG cchdiff = (cp + cchDel) - cpMin; Assert( cp + cchDel < cpMost ); Assert( cp + cchDel >= cpMin ); Assert( cp < cpMin ); cchtemp = _cch; if( _cch > 0 ) { BindToCp(GetCp() + delta); _cch = cchtemp - cchdiff; } else { BindToCp(cp + cchNew); _cch = cchtemp + cchdiff; } } if( _fSel ) { GetPed()->_fUpdateSelection = TRUE; GetPed()->GetCallMgr()->SetSelectionChanged(); } Update_iFormat(-1); // Make sure _iFormat is up to date _TEST_INVARIANT_ } /* * CTxtRange::Zombie () * * @mfunc * Turn this range into a zombie (_cp = _cch = 0, NULL ped, ptrs to * backing store arrays. CTxtRange methods like GetRange(), * GetCpMost(), GetCpMin(), and GetTextLength() all work in zombie mode, * returning zero values. */ void CTxtRange::Zombie() { CRchTxtPtr::Zombie(); _cch = 0; } /* * CTxtRange::CheckChange(cpSave, cchSave) * * @mfunc * Set _cch according to _fExtend and set selection-changed flag if * this range is a CTxtSelection and the new _cp or _cch differ from * cp and cch, respectively. * * @devnote * We can count on GetCp() and cpSave both being <= GetTextLength(), * but we can't leave GetCp() equal to GetTextLength() unless _cch ends * up > 0. */ LONG CTxtRange::CheckChange( LONG cpSave) //@parm Original _cp for this range { LONG cchAdj = GetAdjustedTextLength(); LONG cchSave = _cch; if(_fExtend) // Wants to be nondegenerate { // and maybe it is LONG cp = GetCp(); _cch = cp - (cpSave - cchSave); CheckIfSelHasEOP(cpSave, cchSave); } else { _cch = 0; // Insertion point _fSelHasEOP = FALSE; // Selection doesn't contain _fSelHasCell = FALSE; // any char, let alone a CR } // or table cell if(!_cch && GetCp() > cchAdj) // If still IP and active end CRchTxtPtr::SetCp(cchAdj); // follows nondeletable EOP, // backspace over that EOP LONG cch = GetCp() - cpSave; _fMoveBack = cch < 0; if(cch || cchSave != _cch) { Update_iFormat(-1); if(_fSel) GetPed()->GetCallMgr()->SetSelectionChanged(); _TEST_INVARIANT_ } return cch; } /* * CTxtRange::CheckIfSelHasEOP(cpSave, cchSave) * * @mfunc * Maintains _fSelHasEOP = TRUE iff selection contains one or more EOPs. * When cpSave = -1, calculates _fSelHasEOP unconditionally and cchSave * is ignored (it's only used for conditional execution). Else _fSelHasEOP * is only calculated for cases that may change it, i.e., it's assumed * be up to date before the change. * * @rdesc * TRUE iff _fSel and _cch * * @devnote * Call after updating range _cch */ BOOL CTxtRange::CheckIfSelHasEOP( LONG cpSave, //@parm Previous active end cp or -1 LONG cchSave) //@parm Previous signed length if cpSave != -1 { // _fSelHasEOP only maintained for the selection if(!_fSel) return FALSE; if(!_cch) { _fSelHasEOP = FALSE; // Selection doesn't contain _fSelHasCell = FALSE; // any char, let alone CR return FALSE; } LONG cpMin, cpMost; GetRange(cpMin, cpMost); if(cpSave != -1) // Selection may have changed { // Set up to bypass text scan if LONG cpMinPrev, cpMostPrev; // selection grew and _fSelHasEOP // is already TRUE or got smaller cpMinPrev = cpMostPrev = cpSave;// and _fSelHasEOP is FALSE. if(cchSave > 0) // Calculate previous cpMin cpMinPrev -= cchSave; // and cpMost else cpMostPrev -= cchSave; // Note: _fSelHasCell shouldn't change while in a table, since // Update() should always expand to a cell once _fSelHasCell has // been deteted. if (!_fSelHasEOP && cpMin >= cpMinPrev && cpMost <= cpMostPrev || _fSelHasEOP && cpMin <= cpMinPrev && cpMost >= cpMostPrev) { return TRUE; // _fSelHasEOP can't change } } LONG FEOP_Results; CTxtPtr tp(_rpTX); // Scan range for an EOP tp.SetCp(cpMin); tp.FindEOP(cpMost - cpMin, &FEOP_Results); _fSelHasCell = (FEOP_Results & FEOP_CELL) != 0; _fSelHasEOP = (FEOP_Results & FEOP_EOP) != 0; return TRUE; } /* * CTxtRange::GetRange(&cpMin, &cpMost) * * @mfunc * set cpMin = this range cpMin * set cpMost = this range cpMost * return cpMost - cpMin, i.e. abs(_cch) * * @rdesc * abs(_cch) */ LONG CTxtRange::GetRange ( LONG& cpMin, //@parm Pass-by-ref cpMin LONG& cpMost) const //@parm Pass-by-ref cpMost { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::GetRange"); LONG cch = _cch; if(cch >= 0) { cpMost = GetCp(); cpMin = cpMost - cch; } else { cch = -cch; cpMin = GetCp(); cpMost = cpMin + cch; } return cch; } /* * CTxtRange::GetCpMin() * * @mfunc * return this range's cpMin * * @rdesc * cpMin * * @devnote * If you need cpMost and/or cpMost - cpMin, GetRange() is faster */ LONG CTxtRange::GetCpMin() const { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::GetCpMin"); LONG cp = GetCp(); return _cch <= 0 ? cp : cp - _cch; } /* * CTxtRange::GetCpMost() * * @mfunc * return this range's cpMost * * @rdesc * cpMost * * @devnote * If you need cpMin and/or cpMost - cpMin, GetRange() is faster */ LONG CTxtRange::GetCpMost() const { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::GetCpMost"); LONG cp = GetCp(); return _cch >= 0 ? cp : cp - _cch; } /* * CTxtRange::Update(fScrollIntoView) * * @mfunc * Virtual stub routine overruled by CTxtSelection::Update() when this * text range is a text selection. The purpose is to update the screen * display of the caret or selection to correspond to changed cp's. * * @rdesc * TRUE */ BOOL CTxtRange::Update ( BOOL fScrollIntoView) //@parm TRUE if should scroll caret into view { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Update"); return TRUE; // Simple range has no selection colors or } // caret, so just return TRUE /* * CTxtRange::SetCp(cp) * * @mfunc * Set active end of this range to cp. Leave other end where it is or * collapse range depending on _fExtend (see CheckChange()). * * @rdesc * cp at new active end (may differ from cp, since cp may be invalid). */ LONG CTxtRange::SetCp( LONG cp) //@parm new cp for active end of this range { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CTxtRange::SetCp"); LONG cpSave = GetCp(); CRchTxtPtr::SetCp(cp); CheckChange(cpSave); // NB: this changes _cp if after return GetCp(); // final CR and _cch = 0 } /* * CTxtRange::Set (cp, cch) * * @mfunc * Set this range's active-end cp and signed cch */ BOOL CTxtRange::Set ( LONG cp, //@parm Desired active end cp LONG cch) //@parm Desired signed count of chars { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Set"); BOOL bRet = FALSE; LONG cchSave = _cch; // Save entry _cp, _cch for change check LONG cchText = GetAdjustedTextLength(); LONG cpSave = GetCp(); LONG cpOther = cp - cch; // Desired "other" end ValidateCp(cp); // Be absolutely sure to validate ValidateCp(cpOther); // both ends if(cp == cpOther && cp > cchText) // IP cannot follow undeletable cp = cpOther = cchText; // EOP at end of story CRchTxtPtr::Advance(cp - GetCp()); AssertSz(cp == GetCp(), "CTxtRange::Set: inconsistent cp"); if(GetPed()->fUseCRLF()) { cch = _rpTX.AdjustCpCRLF(); if(cch) { _rpCF.AdvanceCp(cch); // Keep all 3 runptrs in sync _rpPF.AdvanceCp(cch); cp = GetCp(); } if(cpOther != cp) { CTxtPtr tp(_rpTX); tp.AdvanceCp(cpOther - cp); cpOther += tp.AdjustCpCRLF(); } } _cch = cp - cpOther; // Validated _cch value CheckIfSelHasEOP(cpSave, cchSave); // Maintain _fSelHasEOP in // outline mode _fMoveBack = GetCp() < cpSave; if(cpSave != GetCp() || cchSave != _cch) { if(_fSel) GetPed()->GetCallMgr()->SetSelectionChanged(); Update_iFormat(-1); bRet = TRUE; } _TEST_INVARIANT_ return bRet; } /* * CTxtRange::Advance(cch) * * @mfunc * Advance active end of range by cch. * Other end stays put iff _fExtend * * @rdesc * cch actually moved */ LONG CTxtRange::Advance ( LONG cch) //@parm Signed char count to move active end { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Advance"); LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::Advance(cch); return CheckChange(cpSave); } /* * CTxtRange::AdvanceCRLF() * * @mfunc * Advance active end of range one char, treating CRLF as a single char. * Other end stays put iff _fExtend is nonzero. * * @rdesc * cch actually moved */ LONG CTxtRange::AdvanceCRLF() { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::AdvanceCRLF"); LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::AdvanceCRLF(); return CheckChange(cpSave); } /* * CTxtRange::SnapToCluster(INT iDirection) * * @rdesc * cch actually moved */ LONG CTxtRange::SnapToCluster(INT iDirection) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::SnapToCluster"); LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::SnapToCluster(iDirection); return CheckChange(cpSave); } /* * CTxtRange::BackupCRLF() * * @mfunc * Backup active end of range one char, treating CRLF as a single char. * Other end stays put iff _fExtend * * @rdesc * cch actually moved */ LONG CTxtRange::BackupCRLF( BOOL fDiacriticCheck) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::BackupCRLF"); LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::BackupCRLF(fDiacriticCheck); return CheckChange(cpSave); } /* * CTxtRange::FindWordBreak(action) * * @mfunc * Move active end as determined by plain-text FindWordBreak(). * Other end stays put iff _fExtend * * @rdesc * cch actually moved */ LONG CTxtRange::FindWordBreak ( INT action) //@parm action defined by CTxtPtr::FindWordBreak() { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtPtr::FindWordBreak"); LONG cpSave = GetCp(); // Save entry _cp for CheckChange() CRchTxtPtr::FindWordBreak(action); return CheckChange(cpSave); } /* * CTxtRange::FlipRange() * * @mfunc * Flip active and non active ends */ void CTxtRange::FlipRange() { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FlipRange"); _TEST_INVARIANT_ CRchTxtPtr::Advance(-_cch); _cch = -_cch; } /* * CTxtRange::HexToUnicode(publdr) * * @mfunc * Convert hex number ending at cpMost to a Unicode character and * replace the hex number by that character. Take into account * Unicode surrogates for hex values from 0x10000 up to 0x10FFFF. * * @rdesc * HRESULT S_OK if conversion successful and hex number replaced by * corresponding Unicode character */ HRESULT CTxtRange::HexToUnicode ( IUndoBuilder *publdr) //@parm UndoBuilder to receive antievents { LONG ch; LONG cpMin, cpMost; LONG cch = GetRange(cpMin, cpMost); LONG i; LONG lch = 0; if(cch) { if(cpMost > GetAdjustedTextLength() || cch > 6) return S_FALSE; Collapser(tomEnd); } else cch = 6; SetExtend(TRUE); for(i = 0; cch--; i += 4) { ch = GetPrevChar(); if(ch == '+') // Check for U+xxxx notation { // If it's there, set up to Advance(-1); // delete the U+ (or u+) Advance((GetPrevChar() | 0x20) == 'u' ? -1 : 1); break; // Else leave the + } if(ch > 'f' || !IsXDigit(ch)) break; Advance(-1); ch |= 0x20; ch -= (ch >= 'a') ? 'a' - 10 : '0'; lch += (ch << i); } if(!lch || lch > 0x10FFFF) return S_FALSE; WCHAR str[2] = {(WCHAR)lch}; cch = 1; if(lch > 0xFFFF) { lch -= 0x10000; str[0] = 0xD800 + (lch >> 10); str[1] = 0xDC00 + (lch & 0x3FF); cch = 2; } if(publdr) publdr->StopGroupTyping(); _rpCF.AdjustBackward(); // Use format of run preceding Set_iCF(_rpCF.GetFormat()); // hex number _fUseiFormat = TRUE; _rpCF.AdjustForward(); CleanseAndReplaceRange(cch, str, FALSE, publdr, NULL); return S_OK; } /* * CTxtRange::UnicodeToHex(publdr) * * @mfunc * Convert Unicode character(s) preceeding cpMin to a hex number and * select it. Translate Unicode surrogates into corresponding for hex * values from 0x10000 up to 0x10FFFF. * * @rdesc * HRESULT S_OK if conversion successful and Unicode character(s) is * replaced by corresponding hex number. */ HRESULT CTxtRange::UnicodeToHex ( IUndoBuilder *publdr) //@parm UndoBuilder to receive antievents { if(_cch) // If there's a selection, { // convert 1st char in sel Collapser(tomStart); Advance(IN_RANGE(0xD800, CRchTxtPtr::GetChar(), 0xDBFF) ? 2 : 1); } LONG cp = GetCp(); if(!cp) // No character to convert return S_FALSE; _cch = 1; // Select previous char LONG n = GetPrevChar(); // Get it _fExtend = TRUE; if(publdr) publdr->StopGroupTyping(); if(IN_RANGE(0xDC00, n, 0xDFFF)) // Unicode surrogate trail word { if(cp <= 1) // No lead word return S_FALSE; Advance(-2); LONG ch = CRchTxtPtr::GetChar(); Assert(IN_RANGE(0xD800, ch, 0xDBFF)); n = (n & 0x3FF) + ((ch & 0x3FF) << 10) + 0x10000; _cch = -2; } // Convert ch to str LONG cch = 0; LONG quot, rem; // ldiv results WCHAR str[6]; WCHAR * pch = &str[0]; for(LONG d = 1; d < n; d <<= 4) // d = smallest power of 16 > n ; if(n && d > n) d >>= 4; while(d) { quot = n / d; // Avoid an ldiv rem = n % d; n = quot + '0'; if(n > '9') n += 'A' - '9' - 1; *pch++ = (WCHAR)n; // Store digit cch++; n = rem; // Setup remainder d >>= 4; } CleanseAndReplaceRange(cch, str, FALSE, publdr, NULL); _cch = cch; // Select number if(_fSel) Update(FALSE); return S_OK; } /* * CTxtRange::IsInputSequenceValid(pch, cchIns, fOver, pfBaseChar) * * @mfunc * Verify the sequence of incoming text. Return FALSE if invalid * combination is found. The criteria is to allow any combinations * that are displayable on screen (the simplest approach used by system * edit control). * * @rdesc * Return FALSE if invalid combination is found; else TRUE. * * FUTURE: We may consider to support bad sequence filter or text streaming. The code * below is easy enough to be extended to do so. */ BOOL CTxtRange::IsInputSequenceValid( WCHAR* pwch, // Inserting string LONG cchIns, // Character count BOOL fOverType, // Insert or Overwrite mode BOOL* pfBaseChar) // Is pwch[0] a cluster start (base char)? { CTxtEdit* ped = GetPed(); CTxtPtr tp(_rpTX); HKL hkl = GetKeyboardLayout(0); BOOL fr = TRUE; if (ped->fUsePassword() || ped->_fNoInputSequenceChk) return TRUE; // no check when editing password if (PRIMARYLANGID(hkl) == LANG_VIETNAMESE) { // No concern about overtyping or cluster since we look backward only // 1 char and dont care characters following the insertion point. if(_cch > 0) tp.AdvanceCp(-_cch); fr = IsVietCdmSequenceValid(tp.GetPrevChar(), *pwch); } else if (PRIMARYLANGID(hkl) == LANG_THAI || W32->IsIndicLcid(LOWORD(hkl))) { // Do complex things for Thai and Indic WCHAR rgwchText[32]; WCHAR* pwchText = rgwchText; CUniscribe* pusp = ped->Getusp(); CTxtBreaker* pbrk = ped->_pbrk; LONG found = 0; LONG cp, cpSave, cpLimMin, cpLimMax; LONG cchDel = 0, cchText, ich; LONG cpEnd = ped->GetAdjustedTextLength(); if (_cch > 0) tp.AdvanceCp(-_cch); cp = cpSave = cpLimMin = cpLimMax = tp.GetCp(); if (_cch) { cchDel = abs(_cch); } else if (fOverType && !tp.IsAtEOP() && cp != cpEnd) { // Delete up to the next cluster in overtype mode cchDel++; if (pbrk) while (cp + cchDel < cpEnd && !pbrk->CanBreakCp(BRK_CLUSTER, cp + cchDel)) cchDel++; } cpLimMax += cchDel; // Figure the min/max boundaries if (pbrk) { // Min boundary cpLimMin += tp.FindEOP(tomBackward, &found); if (!(found & FEOP_EOP)) cpLimMin = 0; while (--cp > cpLimMin && !pbrk->CanBreakCp(BRK_CLUSTER, cp)); cpLimMin = max(cp, cpLimMin); // more precise boundary // Max boundary cp = cpLimMax; tp.SetCp(cpLimMax); cpLimMax += tp.FindEOP(tomForward, &found); if (!(found & FEOP_EOP)) cpLimMax = ped->GetTextLength(); while (cp < cpLimMax && !pbrk->CanBreakCp(BRK_CLUSTER, cp++)); cpLimMax = min(cp, cpLimMax); // more precise boundary } else { // No cluster info we statically bound to -1/+1 from selection range cpLimMin--; cpLimMin = max(0, cpLimMin); cpLimMax += cchDel + 1; cpLimMax = min(cpLimMax, ped->GetTextLength()); } cp = cpSave + cchDel; cchText = cpSave - cpLimMin + cchIns + cpLimMax - cp; tp.SetCp(cpLimMin); if (cchText > 32) pwchText = new WCHAR[cchText]; if (pwchText) { // prepare text cchText = tp.GetText (cpSave - cpLimMin, pwchText); tp.AdvanceCp (cchText + cchDel); ich = cchText; wcsncpy (&pwchText[cchText], pwch, cchIns); cchText += cchIns; cchText += tp.GetText (cpLimMax - cpSave - cchDel, &pwchText[cchText]); Assert (cchText == cpLimMax - cpLimMin - cchDel + cchIns); if (pusp) { SCRIPT_STRING_ANALYSIS ssa; HRESULT hr; BOOL fDecided = FALSE; hr = ScriptStringAnalyse(NULL, pwchText, cchText, GLYPH_COUNT(cchText), -1, SSA_BREAK, -1, NULL, NULL, NULL, NULL, NULL, &ssa); if (S_OK == hr) { if (fOverType) { const SCRIPT_LOGATTR* psla = ScriptString_pLogAttr(ssa); BOOL fBaseChar = !psla || psla[ich].fCharStop; if (!fBaseChar) { // In overtype mode, if the inserted char is not a cluster start. // We act like insert mode. Recursive call with fOvertype = FALSE. fr = IsInputSequenceValid(pwch, cchIns, 0, NULL); fDecided = TRUE; } if (pfBaseChar) *pfBaseChar = fBaseChar; } if (!fDecided && S_FALSE == ScriptStringValidate(ssa)) fr = FALSE; ScriptStringFree(&ssa); } } if (pwchText != rgwchText) delete[] pwchText; } } return fr; } /* * CTxtRange::CleanseAndReplaceRange(cch, *pch, fTestLimit, publdr, * pchD, pcchMove, dwFlags) * @mfunc * Cleanse the string pch (replace CRLFs by CRs, etc.) and substitute * the resulting string for the text in this range using the CCharFormat * _iFormat and updating other text runs as needed. For single-line * controls, truncate on the first EOP and substitute the truncated * string. Also truncate if string would overflow the max text length. * * @rdesc * Count of new characters added */ LONG CTxtRange::CleanseAndReplaceRange ( LONG cchS, //@parm Length of replacement (Source) text const WCHAR * pchS, //@parm Replacement (Source) text BOOL fTestLimit, //@parm Whether to do limit test IUndoBuilder * publdr, //@parm UndoBuilder to receive antievents WCHAR * pchD, //@parm Destination string (multiline only) LONG* pcchMove, //@parm Count of chars moved in 1st replace DWORD dwFlags) //@parm ReplaceRange's flags { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::CleanseAndReplaceRange"); CTxtEdit * ped = GetPed(); BYTE bDefaultCharset = ped->GetCharFormat(-1)->_bCharSet; LONG cchM = 0; LONG cchMove = 0; LONG cchNew = 0; // Collects total cch inserted LONG cch; // Collects cch for cur charset DWORD ch, ch1; LONG cpFirst = GetCpMin(); DWORD dw; DWORD dwCharFlags = 0; DWORD dwCharMask = GetCharSetMask(); DWORD dwCurrentFontUsed = 0; BOOL f10Mode = ped->Get10Mode(); BOOL fCallerDestination = pchD != 0; // Save if pchD enters as 0 BOOL fDefFontHasASCII = FALSE; CFreezeDisplay fd(ped->_pdp); BOOL fMultiLine = ped->_pdp->IsMultiLine(); BOOL fFEBaseFont = IsFECharSet(bDefaultCharset); BOOL fInTable = FALSE; bool fUIFont = fUseUIFont(); BOOL fUseCRLF = ped->fUseCRLF(); BOOL fDefFontSymbol = dwCharMask == fSYMBOL; const WCHAR * pch = pchS; CTempWcharBuf twcb; // Buffer needed for multiline if // pchD = 0 CCharFormat CFCurrent; // Current CF used during IME in progress const DWORD fALPHA = 0x01; BOOL fDeleteChar = !ped->IsRich() && _cch; if (ped->_fIMEInProgress) { // Initialize data to handle alpha/ASCII dual font mode // during IME composition dwCurrentFontUsed = fFE; CFCurrent = *ped->GetCharFormat(GetiFormat()); } // Check if default font supports full ASCII and Symbol if (fUIFont) { DWORD dwMaskDefFont = GetCharSetMask(TRUE); fDefFontHasASCII = (dwMaskDefFont & fASCII) == fASCII; fDefFontSymbol = dwMaskDefFont == fSYMBOL; } if(!pchS) cchS = 0; else if(fMultiLine) { if(cchS < 0) // Calculate length for cchS = wcslen(pchS); // target buffer if(cchS && !pchD) { pchD = twcb.GetBuf(cchS); if(!pchD) // Couldn't allocate buffer: return 0; // give up with no update } pch = pchD; if(_cch <= 0) fInTable = GetPF()->InTable(); else { CFormatRunPtr rpPF(_rpPF); rpPF.AdvanceCp(-_cch); fInTable = (ped->GetParaFormat(rpPF.GetFormat())->InTable()); } } else if(cchS < 0) // Calculate string length cchS = tomForward; // while looking for EOP for(cch = 0; cchS; cchS--, pchS++, cch++) { ch = *pchS; if(!ch && (!fMultiLine || !fCallerDestination)) break; if(IN_RANGE(CELL, ch, CR)) // Handle CR and LF combos { if(!fMultiLine && ch >= LF) // Truncate at 1st EOP to be break; // compatible with user.exe SLE // and for consistent behavior if(ch == CR && !f10Mode) { if(cchS > 1) { ch1 = *(pchS + 1); if(cchS > 2 && ch1 == CR && *(pchS+2) == LF) { if(fUseCRLF) { *pchD++ = ch; *pchD++ = ch1; ch = LF; cch += 2; } else { // Translate CRCRLF to CR or to ' ' ch = ped->fXltCRCRLFtoCR() ? CR : ' '; } pchS += 2; // Bypass two chars cchS -= 2; } else if(ch1 == LF) { if(fUseCRLF && !fInTable)// Copy over whole CRLF { *pchD++ = ch; // Here we copy CR ch = ch1; // Setup to copy LF cch++; } pchS++; cchS--; } } if(fInTable && ch == CR) // Our simple tables can't contain ch = ' '; // CRs or CELLs } else if(!fUseCRLF && ch == LF) // Treat lone LFs as EOPs, i.e., ch = CR; // be nice to Unix text files else if(ch == CELL && fInTable) ch = ' '; } else if((ch | 1) == PS) // Translate Unicode para/line { // separators into CR/VT if(!fMultiLine) break; ch = (ch == PS) ? CR : VT; } dw = fSYMBOL; if(!fDefFontSymbol) dw = GetCharFlags(ch, bDefaultCharset); // Check for complex scripts, dwCharFlags |= dw; // FE, and charset changes dw &= ~0xFF; // Exclude non-fontbind flags if(ped->IsAutoFont() && !fDefFontSymbol) { BOOL fReplacedText = FALSE; if (fDeleteChar) { fDeleteChar = FALSE; ReplaceRange(0, NULL, publdr, SELRR_REMEMBERRANGE, NULL, RR_ITMZ_NONE); Set_iCF(-1); dwCharMask = GetCharSetMask(TRUE); } if (!ped->_fIMEInProgress) { // Simp. Chinese uses some of the Latin2 symbols if (dw == fLATIN2 || IN_RANGE(0x0250, ch, 0x02FF) || IN_RANGE(0xFE50, ch, 0xFE6F)) { WCHAR wch = ch; if (VerifyFEString(CP_CHINESE_SIM, &wch, 1, TRUE) == CP_CHINESE_SIM || VerifyFEString(CP_CHINESE_TRAD, &wch, 1, TRUE) == CP_CHINESE_TRAD) dw = fCHINESE; } if (fUIFont && dw == fHILATIN1 && fFEBaseFont) { // Use Ansi font for HiAnsi if (dwCurrentFontUsed != fHILATIN1) { fReplacedText = TRUE; cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, dw, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); // Replace text up to previous char } dwCurrentFontUsed = fHILATIN1; } else if (fUIFont && fDefFontHasASCII && (dw & fASCII || IN_RANGE(0x2018, ch, 0x201D))) { if (dwCurrentFontUsed != fASCII) { cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, 0, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); // Replace text up to previous char // Use the -1 font charset/face/size so the current font effect // will still be used. CCharFormat CFDefault = *ped->GetCharFormat(-1); SetCharFormat(&CFDefault, 0, publdr, CFM_CHARSET | CFM_FACE | CFM_SIZE, CFM2_CHARFORMAT | CFM2_NOCHARSETCHECK); fReplacedText = TRUE; } dwCurrentFontUsed = fASCII; } else if (dw && !(dw & dwCharMask) // No match: need charset change || dwCurrentFontUsed) // or change in classification { fReplacedText = TRUE; dwCurrentFontUsed = 0; if(dw & (fCHINESE | fBIG5) & ~255) // If Han char, check next few { // chars for a Hangul or Kana Assert(cchS); const WCHAR *pchT = pchS+1; LONG i = min(10, cchS - 1); while(i-- && *pchT) dw |= GetCharFlags(*pchT++, bDefaultCharset); i = CalcTextLenNotInRange(); if(cchS < 6 && i) // Get flags around range { CTxtPtr tp(_rpTX); i = min(i, 6); if(!_cch) // For insertion point, backup tp.AdvanceCp(-i/2); // half way else if(_cch < 0) // Active end at cpMin, backup tp.AdvanceCp(-i); // whole way for(; i--; tp.AdvanceCp(1)) dw |= GetCharFlags(tp.GetChar(), bDefaultCharset); } dw &= (fKANA | fHANGUL | fCHINESE | fBIG5); } else if(dw & (fHILATIN1 | fLATIN2) && dwCharMask & fLATIN) { LONG i = dwCharMask & fLATIN; dw = W32->GetCharFlags125x(ch) & fLATIN; if(!(dw & i)) for(i = 0x100; i < 0x20000 && !(dw & i); i <<= 1) ; dw &= i; } cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, dw, &cchM, cpFirst, MATCH_FONT_SIG, RR_ITMZ_NONE); // Replace text up to previous char } } else { // IME in progress, only need to check ASCII cases BOOL fHandled = FALSE; if (ch <= 0x7F) { if (fUIFont) { // Use default font if (dwCurrentFontUsed != fASCII) { cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, 0, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); // Replace text up to previous char // Use the -1 font charset/face/size so the current font effect // will still be used. CCharFormat CFDefault = *ped->GetCharFormat(-1); SetCharFormat(&CFDefault, 0, publdr, CFM_CHARSET | CFM_FACE | CFM_SIZE, CFM2_CHARFORMAT | CFM2_NOCHARSETCHECK); fReplacedText = TRUE; } dwCurrentFontUsed = fASCII; fHandled = TRUE; } else if (ped->_fDualFont && IsAlpha(ch)) { // Use English Font if (dwCurrentFontUsed != fALPHA) { cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, dw, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); // Replace text up to previous char fReplacedText = TRUE; } dwCurrentFontUsed = fALPHA; fHandled = TRUE; } } // Use current FE font if (!fHandled) { if (dwCurrentFontUsed != fFE) { cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, 0, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); // Replace text up to previous char SetCharFormat(&CFCurrent, 0, publdr, CFM_CHARSET | CFM_FACE | CFM_SIZE, CFM2_CHARFORMAT | CFM2_NOCHARSETCHECK); fReplacedText = TRUE; } dwCurrentFontUsed = fFE; } } if (fReplacedText) { dwCharMask = (dw & fSYMBOL) ? fSYMBOL : GetCharSetMask(); if(cchM) cchMove = cchM; // Can only happen on 1st replace pch = fMultiLine ? pchD : pchS; cch = 0; } } if(fMultiLine) // In multiline controls, collect { // possibly translated chars if(dw & fSYMBOL) // Convert 0xF000 thru 0xF0FF to ch &= 0xFF; // SYMBOL_CHARSET with 0x00 thru *pchD++ = ch; // 0xFF. FUTURE: make work for } // single line too... } ped->OrCharFlags(dwCharFlags, publdr); cchNew += CheckLimitReplaceRange(cch, pch, fTestLimit, publdr, 0, &cchM, cpFirst, IGNORE_CURRENT_FONT, RR_ITMZ_NONE); if(cchM) cchMove = cchM; // Can only happen on 1st replace if (pcchMove) *pcchMove = cchMove; if (ped->IsComplexScript()) { if (dwFlags & RR_ITMZ_NONE || ped->IsStreaming()) ped->_fItemizePending = TRUE; else ItemizeReplaceRange(cchNew, cchMove, publdr, dwFlags & RR_ITMZ_UNICODEBIDI); } return cchNew; } /* * CTxtRange::CheckLimitReplaceRange(cchNew, *pch, fTestLimit, publdr, * dwFlags, pcchMove, prp, iMatchCurrent, dwFlags) * @mfunc * Replace the text in this range by pch 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 and * may move text block and formatting arrays */ LONG CTxtRange::CheckLimitReplaceRange ( LONG cch, //@parm Length of replacement text TCHAR const * pch, //@parm Replacement text BOOL fTestLimit, //@parm Whether to do limit test IUndoBuilder * publdr, //@parm UndoBuilder to receive antievents DWORD dwCharFlags, //@parm CharFlags following pch LONG * pcchMove, //@parm Count of chars moved in 1st replace LONG cpFirst, //@parm Starting cp for font binding int iMatchCurrent, //@parm Font matching method DWORD dwFlags) //@parm ReplaceRange's flags { CTxtEdit *ped = GetPed(); if(cch || _cch) { if(fTestLimit) { LONG cchLen = CalcTextLenNotInRange(); DWORD cchMax = ped->TxGetMaxLength(); if((DWORD)(cch + cchLen) > cchMax) // New plus old count exceeds { // max allowed, so truncate cch = cchMax - cchLen; // down to what fits cch = max(cch, 0); // Keep it positive ped->GetCallMgr()->SetMaxText(); // Report exceeded } } if (cch && ped->IsAutoFont() && !ped->_fIMEInProgress) { LONG iFormatTemp; if (fUseUIFont() && GetAdjustedTextLength() != _cch) { // Delete the old string first so _iFormat is defined ReplaceRange(0, NULL, publdr, SELRR_REMEMBERRANGE, pcchMove, dwFlags); iFormatTemp = _iFormat; } else iFormatTemp = GetiFormat(); BYTE bCharSetCurrent = ped->GetCharFormat(iFormatTemp)->_bCharSet; if (IsFECharSet(bCharSetCurrent)) { // Check if current font can handle this string. INT cpgCurrent = GetCodePage(bCharSetCurrent); INT cpgNew = VerifyFEString(cpgCurrent, pch, cch, FALSE); if (cpgCurrent != cpgNew) { // Setup the new CodePage to handle this string CCharFormat CF; CCFRunPtr rp(_rpCF, ped); rp.AdvanceCp(cpFirst - GetCp()); CF._bCharSet = GetCharSet(cpgNew); if(rp.GetPreferredFontInfo(cpgNew, CF._bCharSet, CF._iFont, CF._yHeight, CF._bPitchAndFamily, _iFormat, iMatchCurrent)) { SetCharFormat(&CF, 0, publdr, CFM_CHARSET | CFM_FACE | CFM_SIZE, CFM2_CHARFORMAT | CFM2_NOCHARSETCHECK); } } } } cch = ReplaceRange(cch, pch, publdr, SELRR_REMEMBERRANGE, pcchMove, dwFlags); } if(dwCharFlags) { CCharFormat CF; CCFRunPtr rp(_rpCF, ped); rp.AdvanceCp(cpFirst - GetCp()); // If following string contains Hangul or Kana, use Korean or Japanese // font signatures, respectively. Else use incoming dwCharFlags dwCharFlags &= ~255; if(dwCharFlags & fHANGUL) dwCharFlags = fHANGUL; else if(dwCharFlags & fKANA) dwCharFlags = fKANA; else if(dwCharFlags & fBIG5) dwCharFlags = fBIG5; else Assert(!(dwCharFlags & fCHINESE) || dwCharFlags == (fCHINESE & ~255)); LONG i = W32->ScriptIndexFromFontSig(dwCharFlags >> 8); CF._bCharSet = GetCharSet(i, NULL); if(rp.GetPreferredFontInfo(i, CF._bCharSet, CF._iFont, CF._yHeight, CF._bPitchAndFamily, (_cch ? -1 : _iFormat), iMatchCurrent)) { SetCharFormat(&CF, 0, publdr, CFM_CHARSET | CFM_FACE | CFM_SIZE, CFM2_CHARFORMAT | CFM2_NOCHARSETCHECK); } } return cch; } /* * CTxtRange::ReplaceRange(cchNew, *pch, publdr. selaemode, pcchMove) * * @mfunc * Replace the text in this range by pch 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 and * may move text block and formatting arrays */ LONG CTxtRange::ReplaceRange ( LONG cchNew, //@parm Length of replacement text TCHAR const * pch, //@parm Replacement text IUndoBuilder * publdr, //@parm UndoBuilder to receive antievents SELRR selaemode, //@parm Controls how selection antievents are to be generated. LONG* pcchMove, //@parm number of chars moved after replace DWORD dwFlags) //@parm Special flags { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::ReplaceRange"); LONG lRet; LONG iFormat = _iFormat; BOOL fReleaseFormat = FALSE; ICharFormatCache * pcf = GetCharFormatCache(); _TEST_INVARIANT_ if(!(cchNew | _cch)) // Nothing to add or delete, { // so we're done if(pcchMove) *pcchMove = 0; return 0; } if(publdr && selaemode != SELRR_IGNORE) { Assert(selaemode == SELRR_REMEMBERRANGE); HandleSelectionAEInfo(GetPed(), publdr, GetCp(), _cch, GetCpMin() + cchNew, 0, SELAE_MERGE); } if(_cch > 0) FlipRange(); // If we are replacing a non-degenerate selection, then the Word95 // UI specifies that we should use the rightmost formatting at cpMin. if(_cch < 0 && _rpCF.IsValid() && !_fDualFontMode && !_fUseiFormat) { _rpCF.AdjustForward(); iFormat = _rpCF.GetFormat(); // This is a bit icky, but the idea is to stabilize the // reference count on iFormat. When we get it above, it's // not addref'ed, so if we happen to delete the text in the // range and the range is the only one with that format, // then the format will go away. pcf->AddRef(iFormat); fReleaseFormat = TRUE; } _fUseiFormat = FALSE; LONG cchForReplace = -_cch; _cch = 0; lRet = CRchTxtPtr::ReplaceRange(cchForReplace, cchNew, pch, publdr, iFormat, pcchMove, dwFlags); if(lRet) _fMoveBack = FALSE; Update_iFormat(fReleaseFormat ? iFormat : -1); if(fReleaseFormat) { Assert(pcf); pcf->Release(iFormat); } return lRet; } /* * CTxtRange::Delete(publdr. selaemode) * * @mfunc * Delete text in this range. */ void CTxtRange::Delete ( IUndoBuilder * publdr, //@parm UndoBuilder to receive antievents SELRR selaemode) //@parm Controls generation of selection antievents { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Delete"); if(!_cch) return; // Nothing to delete if(!GetPed()->IsBiDi()) { ReplaceRange(0, NULL, publdr, selaemode, NULL); return; } CFreezeDisplay fd(GetPed()->_pdp); ReplaceRange(0, NULL, publdr, selaemode); } /* * CTxtRange::GetCharFormat(pCF, flags) * * @mfunc * Set *pCF = CCharFormat for this range. If cbSize = sizeof(CHARFORMAT) * only transfer CHARFORMAT data. * * @rdesc * Mask of unchanged properties over range (for CHARFORMAT::dwMask) * * @devnote * NINCH means No Input No CHange (a Microsoft Word term). Here used for * properties that change during the range of cch characters. NINCHed * properties in a Word-Font dialog have grayed boxes. They are indicated * by zero values in their respective dwMask bit positions. Note that * a blank at the end of the range does not participate in the NINCH * test, i.e., it can have a different CCharFormat without zeroing the * corresponding dwMask bits. This is done to be compatible with Word * (see also CTxtSelection::SetCharFormat when _fWordSelMode is TRUE). */ DWORD CTxtRange::GetCharFormat ( CCharFormat *pCF, //@parm CCharFormat to fill with results DWORD flags) const //@parm flags { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::GetCharFormat"); _TEST_INVARIANT_ CTxtEdit * const ped = GetPed(); if(!_cch || !_rpCF.IsValid()) // IP or invalid CF { // run ptr: use CF at *pCF = *ped->GetCharFormat(_iFormat); // this text ptr return CFM_ALL2; } LONG cpMin, cpMost; // Nondegenerate range: LONG cch = GetRange(cpMin, cpMost); // need to scan LONG cchChunk; // cch in CF run DWORD dwMask = CFM_ALL2; // Initially all prop def'd LONG iDirection; // Direction of scan CFormatRunPtr rp(_rpCF); // Nondegenerate range /* * The code below reads character formatting the way Word does it, * that is, by not including the formatting of the last character in the * range if that character is a blank. * * See also the corresponding code in CTxtSelection::SetCharFormat(). */ if(cch > 1 && _fSel && (flags & SCF_USEUIRULES))// If more than one char, { // don't include trailing CTxtPtr tp(ped, cpMost - 1); // blank in NINCH test if(tp.GetChar() == ' ') { // Have trailing blank: cch--; // one less char to check if(_cch > 0) // Will scan backward, so rp.AdvanceCp(-1); // backup before blank } } if(_cch < 0) // Setup direction and { // initial cchChunk iDirection = 1; // Scan forward rp.AdjustForward(); cchChunk = rp.GetCchLeft(); // Chunk size for _rpCF } else { iDirection = -1; // Scan backward rp.AdjustBackward(); // If at BOR, go to cchChunk = rp.GetIch(); // previous EOR } *pCF = *ped->GetCharFormat(rp.GetFormat()); // Initialize *pCF to // starting format while(cchChunk < cch) // NINCH properties that { // change over the range cch -= cchChunk; // given by cch if(!rp.ChgRun(iDirection)) // No more runs break; // (cch too big) cchChunk = rp.GetRun(0)->_cch; const CCharFormat *pCFTemp = ped->GetCharFormat(rp.GetFormat()); dwMask &= ~pCFTemp->Delta(pCF, // NINCH properties that flags & CFM2_CHARFORMAT); // changed, i.e., reset } // corresponding bits return dwMask; } /* * CTxtRange::SetCharFormat(pCF, flags, publdr, dwMask, dwMask2) * * @mfunc * apply CCharFormat *pCF to this range. If range is an insertion point, * and (flags & SCF_WORD) != 0, then apply CCharFormat to word surrounding * this insertion point * * @rdesc * HRESULT = (successfully set whole range) ? NOERROR : S_FALSE * * @devnote * SetParaFormat() is similar, but simpler, since it doesn't have to * special case insertion-point ranges or worry about bullet character * formatting, which is given by EOP formatting. */ HRESULT CTxtRange::SetCharFormat ( const CCharFormat *pCF, //@parm CCharFormat to fill with results DWORD flags, //@parm SCF_WORD OR SCF_IGNORESELAE IUndoBuilder *publdr, //@parm Undo builder to use DWORD dwMask, //@parm CHARFORMAT2 mask DWORD dwMask2) //@parm Second mask { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::SetCharFormat"); LONG cch = -_cch; // Defaults for _cch <= 0 LONG cchBack = 0; // cch to back up for formatting LONG cchFormat; // cch for formatting CCharFormat CF; // Temporary CF LONG cp; LONG cpMin, cpMost; LONG cpStart = 0; LONG cpWordMin, cpWordMost; BOOL fApplyToEOP = FALSE; BOOL fProtected = FALSE; HRESULT hr = NOERROR; LONG iCF; CTxtEdit * const ped = GetPed(); // defined and not style ICharFormatCache * pf = GetCharFormatCache(); CFreezeDisplay fd(ped->_pdp); _TEST_INVARIANT_ if(!Check_rpCF()) // Not rich return NOERROR; if(_cch > 0) // Active end at range end { cchBack = -_cch; // Setup to back up to cch = _cch; // start of format area } else if(_cch < 0) _rpCF.AdjustForward(); else if(!cch && (flags & (SCF_WORD | SCF_USEUIRULES))) { BOOL fCheckEOP = TRUE; if(flags & SCF_WORD) { FindWord(&cpWordMin, &cpWordMost, FW_EXACT); // If nearest word is within this range, calculate cchback and cch // so that we can apply the given format to the word if(cpWordMin < GetCp() && GetCp() < cpWordMost) { // RichEdit 1.0 made 1 final check: ensure word's format // is constant w.r.t. the format passed in CTxtRange rg(*this); rg.Set(cpWordMin, cpWordMin - cpWordMost); fProtected = rg.WriteAccessDenied(); if(!fProtected && (rg.GetCharFormat(&CF) & dwMask) == dwMask) { cchBack = cpWordMin - GetCp(); cch = cpWordMost - cpWordMin; } fCheckEOP = FALSE; } } if(fCheckEOP && _rpTX.IsAtEOP() && !GetPF()->_wNumbering) { CTxtPtr tp(_rpTX); cch = tp.AdvanceCpCRLF(); _rpCF.AdjustForward(); // Go onto format EOP fApplyToEOP = TRUE; // Apply the characterset and face to EOP because EOP can be in any charset dwMask2 |= CFM2_NOCHARSETCHECK; } } cchFormat = cch; BOOL fApplyStyle = pCF->fSetStyle(dwMask, dwMask2); if(!cch) // Set degenerate-range (IP) { // CF LApplytoIP: DWORD dwMsk = dwMask; dwMask2 |= CFM2_NOCHARSETCHECK; CF = *ped->GetCharFormat(_iFormat); // Copy current CF at IP to CF if ((CF._dwEffects & CFE_LINK) && // Don't allow our URL ped->GetDetectURL()) // formatting to be changed { dwMsk &= ~CFM_LINK; } if(fApplyStyle) CF.ApplyDefaultStyle(pCF->_sStyle); hr = CF.Apply(pCF, dwMsk, dwMask2); // Apply *pCF if(hr != NOERROR) // Cache result if new return hr; hr = pf->Cache(&CF, &iCF); // In any case, get iCF if(hr != NOERROR) // (which AddRef's it) return hr; #ifdef LINESERVICES if (g_pols) g_pols->DestroyLine(NULL); #endif pf->Release(_iFormat); _iFormat = iCF; if(fProtected) // Signal to beep if UI hr = S_FALSE; } else // Set nondegenerate-range CF { // Get start of affected area CNotifyMgr *pnm = NULL; if (!(flags & SCF_IGNORENOTIFY)) { pnm = ped->GetNotifyMgr(); // Get the notification mgr if(pnm) { cpStart = GetCp() + cchBack; // Bulletting may move // affected area back if if(GetPF()->_wNumbering) // formatting hits EOP that { // affects bullet at BOP FindParagraph(&cpMin, &cpMost); if(cpMost <= GetCpMost()) cpStart = cpMin; } pnm->NotifyPreReplaceRange(this, // Notify interested parties of CP_INFINITE, 0, 0, cpStart, // the impending update cpStart + cchFormat); } } _rpCF.AdvanceCp(cchBack); // Back up to formatting start CFormatRunPtr rp(_rpCF); // Clone _rpCF to walk range cp = GetCp() + cchBack; if(publdr) { LONG cchBackup = 0, cchAdvance = 0; if (ped->IsBiDi()) { CRchTxtPtr rtp(*this); rtp._rpCF.AdvanceCp(-cchBack); // restore previous _rpCF rtp.Advance(cchBack); cchBackup = rtp.ExpandRangeFormatting(cch, 0, cchAdvance); Assert(cchBackup >= 0); } rp.AdvanceCp(-cchBackup); IAntiEvent *pae = gAEDispenser.CreateReplaceFormattingAE( ped, rp, cch + cchBackup + cchAdvance, pf, CharFormat); rp.AdvanceCp(cchBackup); if(pae) publdr->AddAntiEvent(pae); } // Following Word, we translate runs for 8-bit charsets to/from // SYMBOL_CHARSET LONG cchRun; LONG cchTrans; UINT CodePage = 0; DWORD dwFontSig = 0; DWORD dwMaskSave = dwMask; DWORD dwMask2Save = dwMask2; LONG cchSkip = 0; BOOL fSymbolCharSet = IsSymbolOrOEM(pCF->_bCharSet); BOOL fBiDiCharSet = IsBiDiCharSet(pCF->_bCharSet); BOOL fFECharSet = IsFECharSet(pCF->_bCharSet); BOOL fFontCheck = (dwMask2 & CFM2_MATCHFONT); BOOL fInRange; CTxtPtr tp(_rpTX); if(fFontCheck && !fSymbolCharSet) { GetFontSignatureFromFace(pCF->_iFont, &dwFontSig); if(!dwFontSig) dwFontSig = GetFontSig(pCF->_bCharSet); } if (ped->_fIMEInProgress && !(dwMask2 & CFM2_SCRIPT)) dwMask2 |= CFM2_NOCHARSETCHECK; // Don't check charset or it will display garbage while(cch > 0 && rp.IsValid()) { CF = *ped->GetCharFormat(rp.GetFormat());// Copy rp CF to temp CF if(fApplyStyle) CF.ApplyDefaultStyle(pCF->_sStyle); cchRun = cch; if (CF._dwEffects & CFE_RUNISDBCS) { // Don't allow charset/face name change for DBCS run // causing these are garbage characters dwMask &= ~(CFM_CHARSET | CFM_FACE); } else if(fFontCheck) // Only apply font if it { // supports run's charset cchRun = rp.GetCchLeft(); // Translate up to end of cchRun = min(cch, cchRun); // current CF run dwMask &= ~CFM_CHARSET; // Default no charset change if(cchSkip) { // Skip cchSkip chars (were cchRun = cchSkip; // not translatable with cchSkip = 0; // CodePage) } else if(fSymbolCharSet ^ IsSymbolOrOEM(CF._bCharSet)) { // SYMBOL to/from nonSYMBOL CodePage = GetCodePage(fSymbolCharSet ? CF._bCharSet : pCF->_bCharSet); if(!Is8BitCodePage(CodePage)) goto DoASCII; dwMask |= CFM_CHARSET; // Need to change charset if(fSymbolCharSet) CF._wCodePageSave = CodePage; else if(Is8BitCodePage(CF._wCodePageSave)) { CodePage = CF._wCodePageSave; CF._bCharSet = GetCharSet(CodePage); dwMask &= ~CFM_CHARSET; // Already changed } tp.SetCp(cp); // Point tp at start of run cchTrans = tp.TranslateRange(cchRun, CodePage, fSymbolCharSet, publdr /*, cchSkip */); if(cchTrans < cchRun) // Ran into char not in { // CodePage, so set up to cchSkip = 1; // skip the char cchRun = cchTrans; // FUTURE: use cchSkip out if(!cchRun) // parm from TranslateRange continue; // instead of skipping 1 char } // at a time } else if(!fSymbolCharSet) { DoASCII: tp.SetCp(cp); // Point tp at start of run fInRange = tp.GetChar() < 0x80; if (!fBiDiCharSet && !IsBiDiCharSet(CF._bCharSet) && fInRange && ((dwFontSig & fASCII >> 8) == fASCII >> 8 || fFECharSet || fSymbolCharSet)) { // ASCII text and new font supports ASCII // -FUTURE- // We exlude BiDi here. We cannot allow applying BiDi charset to non-BiDi run or vice versa. // This because we use charset for BiDi reordering. In the future we should // evolve to something more elegant than charset. if (!(GetFontSig(CF._bCharSet) & ~(fASCII >> 8) & dwFontSig)) // New font doesnt support underlying charset, // apply new charset to ASCII dwMask |= CFM_CHARSET; } else if (!(GetFontSig(CF._bCharSet) & ~(fASCII >> 8) & dwFontSig)) // New font doesnt support underlying charset, // suppress both new charset and facename dwMask &= ~CFM_FACE; cchRun -= tp.MoveWhile(cchRun, 0, 0x7F, fInRange); } } hr = CF.Apply(pCF, dwMask, dwMask2);// Apply *pCF if(hr != NOERROR) return hr; dwMask = dwMaskSave; // Restore mask in case dwMask2 = dwMask2Save; // changed above hr = pf->Cache(&CF, &iCF); // Cache result if new, In any if(hr != NOERROR) // cause, use format index iCF break; #ifdef LINESERVICES if (g_pols) g_pols->DestroyLine(NULL); #endif cchRun = rp.SetFormat(iCF, cchRun, pf);// Set format for this run // Proper levels will be generated later by BiDi FSM. pf->Release(iCF); // Release count from Cache above // rp.SetFormat AddRef's as needed if(cchRun == CP_INFINITE) { ped->GetCallMgr()->SetOutOfMemory(); break; } cp += cchRun; cch -= cchRun; } _rpCF.AdjustBackward(); // Expand scope for merging rp.AdjustForward(); // runs rp.MergeRuns(_rpCF._iRun, pf); // Merge adjacent runs that // have the same format if(cchBack) // Move _rpCF back to where it _rpCF.AdvanceCp(-cchBack); // was else // Active end at range start: _rpCF.AdjustForward(); // don't leave at EOR if(pnm) { pnm->NotifyPostReplaceRange(this, // Notify interested parties CP_INFINITE, 0, 0, cpStart, // of the change. cpStart + cchFormat - cch); } if(publdr && !(flags & SCF_IGNORESELAE)) { HandleSelectionAEInfo(ped, publdr, GetCp(), _cch, GetCp(), _cch, SELAE_FORCEREPLACE); } if(!_cch) // In case IP with ApplyToWord { if(fApplyToEOP) // Formatting EOP only goto LApplytoIP; Update_iFormat(-1); } if (ped->IsRich()) ped->GetCallMgr()->SetChangeEvent(CN_GENERIC); } if(_fSel && ped->IsRich() && !ped->_f10Mode /*bug fix #5211*/) ped->GetCallMgr()->SetSelectionChanged(); AssertSz(GetCp() == (cp = _rpCF.CalculateCp()), "RTR::SetCharFormat(): incorrect format-run ptr"); if (!(dwMask2 & (CFM2_SCRIPT | CFM2_HOLDITEMIZE)) && cchFormat && hr == NOERROR && !cch) { // A non-degenerate range not coming from ItemizeRuns // It's faster to make a copy pointer since we dont need to worry about fExtend. CRchTxtPtr rtp(*this); rtp.Advance(cchBack + cchFormat); rtp.ItemizeReplaceRange(cchFormat, 0, publdr); return hr; } return (hr == NOERROR && cch) ? S_FALSE : hr; } /* * CTxtRange::GetParaFormat(pPF) * * @mfunc * return CParaFormat for this text range. If no PF runs are allocated, * then return default CParaFormat * * @rdesc * Mask of defined properties: 1 bit means corresponding property is * defined and constant throughout range. 0 bit means it isn't constant * throughout range. Note that PARAFORMAT has fewer relevant bits * (PFM_ALL vs PFM_ALL2) */ DWORD CTxtRange::GetParaFormat ( CParaFormat *pPF, //@parm ptr to CParaFormat to be filled DWORD flags) const // be filled with possibly NINCH'd values { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::GetParaFormat"); CTxtEdit * const ped = GetPed(); _TEST_INVARIANT_ DWORD dwMask = flags & PFM_PARAFORMAT // Default presence of ? PFM_ALL : PFM_ALL2; // all properties CFormatRunPtr rp(_rpPF); LONG cch = -_cch; if(cch < 0) // At end of range: { // go to start of range rp.AdvanceCp(cch); cch = -cch; // Count with cch > 0 } *pPF = *ped->GetParaFormat(rp.GetFormat()); // Initialize *pPF to // starting paraformat if(!cch || !rp.IsValid()) // No cch or invalid PF return dwMask; // run ptr: use PF at // this text ptr LONG cchChunk = rp.GetCchLeft(); // Chunk size for rp while(cchChunk < cch) // NINCH properties that { // change over the range cch -= cchChunk; // given by cch if(!rp.NextRun()) // Go to next run // No more runs break; // (cch too big) cchChunk = rp.GetCchLeft(); dwMask &= ~ped->GetParaFormat(rp.GetFormat())// NINCH properties that ->Delta(pPF, flags & PFM_PARAFORMAT); // changed, i.e., reset } // corresponding bits return dwMask; } /* * CTxtRange::SetParaFormat(pPF, publdr, dwMask) * * @mfunc * apply CParaFormat *pPF to this range. * * @rdesc * if successfully set whole range, return NOERROR, otherwise * return error code or S_FALSE. */ HRESULT CTxtRange::SetParaFormat ( const CParaFormat* pPF, //@parm CParaFormat to apply to this range IUndoBuilder *publdr, //@parm Undo context for this operation DWORD dwMask) //@parm Mask to use { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::SetParaFormat"); LONG cch; // Length of text to format LONG cchBack; // cch to back up for formatting LONG cp; LONG cpMin, cpMost; // Limits of text to format LONG delta; HRESULT hr = NOERROR; LONG iPF = 0; // Lndex to a CParaFormat CTxtEdit * const ped = GetPed(); CParaFormat PF; // Temporary CParaFormat IParaFormatCache * pf = GetParaFormatCache();// Format cache ptr for Cache, // AddRefFormat, ReleaseFormat CBiDiLevel* pLevel; CBiDiLevel lvRTL = {1, 0}; CBiDiLevel lvLTR = {0, 0}; CFreezeDisplay fd(ped->_pdp); _TEST_INVARIANT_ if(!Check_rpPF()) return E_FAIL; FindParagraph(&cpMin, &cpMost); // Get limits of text to cch = cpMost - cpMin; // format, namely closest CNotifyMgr *pnm = ped->GetNotifyMgr(); if(pnm) { pnm->NotifyPreReplaceRange(this, // Notify interested parties of CP_INFINITE, 0, 0, cpMin, cpMost); // the impending update } cchBack = cpMin - GetCp(); _rpPF.AdvanceCp(cchBack); // Back up to formatting start CFormatRunPtr rp(_rpPF); // Clone _rpPF to walk range if(publdr) { IAntiEvent *pae = gAEDispenser.CreateReplaceFormattingAE(ped, rp, cch, pf, ParaFormat); if(pae) publdr->AddAntiEvent(pae); } const CParaFormat* pPFCurrent; // PF at current runptr BOOL fLevelChanged = FALSE; BOOL fFullyDefined = FALSE; // Default input PF not fully defined if (ped->HandleStyle(&PF, pPF, dwMask) == NOERROR && pf->Cache(&PF, &iPF) == NOERROR) { fFullyDefined = TRUE; } do { WORD wEffectsCurrent; pPFCurrent = ped->GetParaFormat(rp.GetFormat());// Get current PF wEffectsCurrent = pPFCurrent->_wEffects;// Save current effect so we don't // need to use pPFCurrent because it may // become invalid after a PF.Apply. if(!fFullyDefined) // If pPF doesn't specify { // full PF, fill in undefined PF = *pPFCurrent; hr = PF.Apply(pPF, dwMask); // Apply *pPF if(hr != NOERROR) // (Probably E_INVALIDARG) break; // Cache result if new; in any hr = pf->Cache(&PF, &iPF); // case, get format index iPF if(hr != NOERROR) // Can't necessarily return break; // error, since may need } if (!fLevelChanged) fLevelChanged = (wEffectsCurrent ^ PF._wEffects) & PFE_RTLPARA; pLevel = PF.IsRtlPara() ? &lvRTL : &lvLTR; delta = rp.SetFormat(iPF, cch, pf, pLevel); // Set format for this run if(!fFullyDefined) // Release count from Cache above pf->Release(iPF); // rp.SetFormat AddRefs as needed if(delta == CP_INFINITE) { ped->GetCallMgr()->SetOutOfMemory(); break; } cch -= delta; } while (cch > 0) ; if(fFullyDefined) pf->Release(iPF); // Release count from Cache above _rpPF.AdjustBackward(); // If at BOR, go to prev EOR rp.MergeRuns(_rpPF._iRun, pf); // Merge any adjacent runs // that have the same format if(cchBack) // Move _rpPF back to where it _rpPF.AdvanceCp(-cchBack); // was else // Active end at range start: _rpPF.AdjustForward(); // don't leave at EOR if(pnm) { pnm->NotifyPostReplaceRange(this, // Notify interested parties of CP_INFINITE, 0, 0, cpMin, cpMost); // the update } if(publdr) { // Paraformatting works a bit differently, it just remembers the // current selection. Cast selection to range to avoid including // _select.h; we only need range methods. CTxtRange *psel = (CTxtRange *)GetPed()->GetSel(); if(psel) { cp = psel->GetCp(); HandleSelectionAEInfo(ped, publdr, cp, psel->GetCch(), cp, psel->GetCch(), SELAE_FORCEREPLACE); } } ped->GetCallMgr()->SetChangeEvent(CN_GENERIC); AssertSz(GetCp() == (cp = _rpPF.CalculateCp()), "RTR::SetParaFormat(): incorrect format-run ptr"); if (fLevelChanged && cpMost > cpMin) { ped->OrCharFlags(fBIDI, publdr); // make sure the CF is valid Check_rpCF(); CTxtRange rg(*this); if (publdr) { // create anti-events to keep BiDi level of paragraphs in need // ICharFormatCache* pcfc = GetCharFormatCache(); CFormatRunPtr rp(_rpCF); rp.AdvanceCp(cpMin - _rpTX.GetCp()); IAntiEvent *pae = gAEDispenser.CreateReplaceFormattingAE ( ped, rp, cpMost - cpMin, pcfc, CharFormat); if (pae) publdr->AddAntiEvent(pae); } rg.Set(cpMost, cpMost - cpMin); rg.ItemizeRuns (publdr); } return (hr == NOERROR && cch) ? S_FALSE : hr; } /* * CTxtRange::SetParaStyle(pPF, publdr, dwMask) * * @mfunc * apply CParaFormat *pPF using the style pPF->sStyle to this range. * * @rdesc * if successfully set whole range, return NOERROR, otherwise * return error code or S_FALSE. * * @comm * If pPF->dwMask & PFM_STYLE is nonzero, this range is expanded to * complete paragraphs. If it's zero, this call just passes control * to CTxtRange::SetParaStyle(). */ HRESULT CTxtRange::SetParaStyle ( const CParaFormat* pPF, //@parm CParaFormat to apply to this range IUndoBuilder *publdr, //@parm Undo context for this operation DWORD dwMask) //@parm Mask to use { LONG cchSave = _cch; // Save range cp and cch in case LONG cpSave = GetCp(); // para expand needed HRESULT hr; if(publdr) publdr->StopGroupTyping(); if(pPF->fSetStyle(dwMask)) { CCharFormat CF; // Need to apply associated CF LONG cpMin, cpMost; Expander(tomParagraph, TRUE, NULL, &cpMin, &cpMost); CF._sStyle = pPF->_sStyle; hr = SetCharFormat(&CF, 0, publdr, CFM_STYLE, 0); if(hr != NOERROR) return hr; } hr = SetParaFormat(pPF, publdr, dwMask); Set(cpSave, cchSave); // Restore this range in case expanded return hr; } /* * CTxtRange::Update_iFormat(iFmtDefault) * * @mfunc * update _iFormat to CCharFormat at current active end * * @devnote * _iFormat is only used when the range is degenerate * * The Word 95 UI specifies that the *previous* format should * be used if we're in at an ambiguous cp (i.e. where a formatting * change occurs) _unless_ the previous character is an EOP * marker _or_ if the previous character is protected. */ void CTxtRange::Update_iFormat ( LONG iFmtDefault) //@parm Format index to use if _rpCF isn't valid { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Update_iFormat"); DWORD dwEffects; LONG ifmt, iFormatForward; const CCharFormat *pCF, *pCFForward; if(_cch) return; _fSelHasEOP = FALSE; // Empty ranges don't contain _fSelHasCell = FALSE; // anything, incl EOPs/cells if(_fDontUpdateFmt) // _iFormat is only used return; // for degenerate ranges if(_rpCF.IsValid() && iFmtDefault == -1) { // Get forward info before possibly adjusting backward _rpCF.AdjustForward(); ifmt = iFormatForward = _rpCF.GetFormat(); pCF = pCFForward = GetPed()->GetCharFormat(ifmt); dwEffects = pCF->_dwEffects; if(!_rpTX.IsAfterEOP()) { _rpCF.AdjustBackward(); // Adjust backward ifmt = _rpCF.GetFormat(); pCF = GetPed()->GetCharFormat(ifmt); dwEffects = pCF->_dwEffects; } if (!(GetPed()->_fIMEInProgress)) // Dont change fomrat during IME { if(!_rpTX.GetCp() && (pCF->_dwEffects & CFE_RUNISDBCS)) { // If at beginning of document, and text is protected, just use // default format. ifmt = iFmtDefault; } else if(dwEffects & (CFE_PROTECTED | CFE_LINK | CFE_HIDDEN | CFE_RUNISDBCS)) { // If range is protected or a hyperlink, pick forward format ifmt = iFormatForward; } else if(ifmt != iFormatForward && _fMoveBack && IsRTLCharSet(pCF->_bCharSet) != IsRTLCharSet(pCFForward->_bCharSet)) { ifmt = iFormatForward; } } iFmtDefault = ifmt; } // Don't allow _iFormat to include CFE_LINK or CFE_HIDDEN attributes // unless they're the default if(iFmtDefault != -1) { pCF = GetPed()->GetCharFormat(iFmtDefault); if(pCF->_dwEffects & (CFE_LINK | CFE_HIDDEN)) { CCharFormat CF = *pCF; CF._dwEffects &= ~(CFE_LINK | CFE_HIDDEN); // This range must be an insertion point! Assert(_cch == 0); SetCharFormat(&CF, FALSE, NULL, CFM_ALL2, 0); return; } } Set_iCF(iFmtDefault); } /* * CTxtRange::GetCharSetMask(fUseDocFormat) * * @mfunc * Get this range's charset mask corresponding to _iFormat. * If fUseDocFormat is TRUE, then use -1 instead of _iFormat. * * @rdesc * charset mask for range or default document */ DWORD CTxtRange::GetCharSetMask( BOOL fUseDocFormat) { LONG iFormat = fUseDocFormat ? -1 : GetiFormat(); DWORD dwMask = GetFontSig((GetPed()->GetCharFormat(iFormat))->_bCharSet) << 8; if(dwMask & fSYMBOL) return dwMask; // For now, Indic fonts match only ASCII digits dwMask |= fBELOWX40; if (dwMask < fDEVANAGARI) dwMask |= fASCII; // fASCIIUPR+fBELOWX40 if ((dwMask & (fKANA | fHANGUL | fCHINESE | fBIG5)) && W32->IsFESystem() ) // For FE systems dwMask |= fOTHER; // match fOTHER else if(dwMask & fLATIN) dwMask |= fCOMBINING; return dwMask; } /* * CTxtRange::GetiFormat() * * @mfunc * Return (!_cch || _fUseiFormat) ? _iFormat : iFormat at cpMin * * @rdesc * iFormat at cpMin if nondegenerate and !_fUseiFormat; else _iFormat * * @devnote * This routine doesn't AddRef iFormat, so it shouldn't be used if * it needs to be valid after character formatting has changed, e.g., * by ReplaceRange or SetCharFormat or SetParaStyle */ LONG CTxtRange::GetiFormat() const { if(!_cch || _fUseiFormat) return _iFormat; if(_cch > 0) { CFormatRunPtr rp(_rpCF); rp.AdvanceCp(-_cch); return rp.GetFormat(); } return _rpCF.GetFormat(); } /* * CTxtRange::Get_iCF() * * @mfunc * Get this range's _iFormat (AddRef'ing, of course) * * @devnote * Get_iCF() is used by the RTF reader */ LONG CTxtRange::Get_iCF () { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Get_iCF"); GetCharFormatCache()->AddRef(_iFormat); return _iFormat; } /* * CTxtRange::Set_iCF(iFormat) * * @mfunc * Set range's _iFormat to iFormat, AddRefing and Releasing as required. * * @rdesc * TRUE if _iFormat changed */ BOOL CTxtRange::Set_iCF ( LONG iFormat) //@parm Index of char format to use { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Set_iCF"); if(iFormat == _iFormat) return FALSE; ICharFormatCache *pCFC = GetCharFormatCache(); pCFC->AddRef(iFormat); pCFC->Release(_iFormat); // Note: _iFormat = -1 doesn't _iFormat = iFormat; // get AddRef'd or Release'd AssertSz(GetCF(), "CTxtRange::Set_iCF: illegal format"); return TRUE; } /* * CTxtRange::Get_iPF() * * @mfunc * Get paragraph format at active end * * @devnote * Get_iPF() is used by the RTF reader on encountering a start group */ LONG CTxtRange::Get_iPF () { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::Get_iPF"); LONG iPF = _rpPF.GetFormat(); GetParaFormatCache()->AddRef(iPF); return iPF; } /* * CTxtRange::BiDiLevelFromFSM(pFSM) * * @mfunc * Run BiDi FSM to generate proper embedding level for runs * * @rdesc * HRESULT */ HRESULT CTxtRange::BiDiLevelFromFSM ( const CBiDiFSM* pFSM) // in: ptr to FSM { AssertSz(pFSM && _rpCF.IsValid(), "Not enough information to run BiDi FSM"); LONG cpMin, cpMost, cp, cchLeft; LONG ich, cRunsStart, cRuns = 0; HRESULT hr = S_OK; GetRange(cpMin, cpMost); AssertSz (cpMost - cpMin > 0, "FSM: Invalid range"); CRchTxtPtr rtp(*this); rtp.Advance(cpMin - rtp.GetCp()); // initiate position to cpMin CFormatRunPtr rpPF(rtp._rpPF); // pointer to current paragraph cchLeft = cpMost - cpMin; cp = cpMin; while (cchLeft > 0 && SUCCEEDED(hr)) { // accumulate runs within the same paragraph level cRuns = GetRunsPF(&rtp, &rpPF, cchLeft); cRunsStart = 0; // assume no start run ich = rtp.Advance(-rtp.GetIchRunCF()); // locate preceding run rtp._rpCF.AdjustBackward(); // adjusting format backward rtp._rpPF.AdjustBackward(); // adjusting format backward if(rtp._rpPF.SameLevel(&rpPF)) { // start at the beginning of preceding run if (rtp.Advance(-rtp.GetCchRunCF())) cRunsStart++; } else { // preceding run is not at the same paragraph level, resume position rtp.Advance(-ich); } rtp._rpCF.AdjustForward(); // make sure we have forward run pointers rtp._rpPF.AdjustForward(); // Run FSM for the number of runs in multiple paragraphs with the same level hr = pFSM->RunFSM(&rtp, cRuns, cRunsStart, rtp.IsParaRTL() ? 1 : 0); cp = cpMost - cchLeft; rtp.Advance(cp - rtp.GetCp()); // Advance to next paragraph(s) rpPF = rtp._rpPF; // paragraph format at cp } AssertSz (cp == cpMost , "Running BiDi FSM partially done!"); _rpCF = rtp._rpCF; // We may have splitted CF runs return hr; } /* * CTxtRange::GetRunsPF(prtp, prpPF, cchLeft) * * @mfunc * Get the number of CF runs within the same paragraph's base level. * Its scope could cover multiple paragraphs. As long as they are in the * same level, we can run them through the FSM in one go. * */ LONG CTxtRange::GetRunsPF( CRchTxtPtr* prtp, // in: RichText ptr to the first run in range CFormatRunPtr* prpPF, // in: Pointer to current paragraph run LONG& cchLeft) // in/out: number of char left { Assert (prtp && prtp->_rpPF.SameLevel(prpPF) && cchLeft > 0); LONG cRuns = 0; LONG cchRun, cchText = cchLeft; ICharFormatCache* pf = GetCharFormatCache(); // check if the first CF run is PF bound // prtp->_rpPF.AdjustBackward(); if (prtp->GetIchRunCF() > 0 && !prtp->_rpPF.SameLevel(prpPF)) prtp->_rpCF.SplitFormat(pf); // PF breaks inside a CF run, split the run prtp->_rpPF.AdjustForward(); // make sure we are all forward. prtp->_rpCF.AdjustForward(); while (cchText > 0) { cchRun = min(prtp->GetCchLeftRunPF(), prtp->GetCchLeftRunCF()); cchRun = min(cchText, cchRun); // find out the nearest hop cchText -= cchRun; prtp->Advance(cchRun); // to the next hop if (!prtp->_rpPF.SameLevel(prpPF)) { // this is a para with different level prtp->_rpCF.SplitFormat(pf); // split that CF run cRuns++; // count the splitted break; // and we're done } if (!cchText || // this is the last hop -or- !prtp->GetIchRunCF() || // we're at the start or the end of a CF run !prtp->GetCchLeftRunCF()) { cRuns++; // count this hop } } prtp->Advance(cchText - cchLeft); // resume position cchLeft = cchText; // update number of char left return cRuns; } /* * CTxtRange::SpanSubstringDir (pusp, prtp, cchString, puInitLevel, pfNumericFound) * * @mfunc * Span the run of text bound by or contains only block separators * and share the same charset directionality. * * @rdesc * number of span'ed text characters * */ LONG CTxtRange::SpanSubstring( CUniscribe* pusp, // in: Uniscribe interface CFormatRunPtr* prp, // in: Format run pointer WCHAR* pwchString, // in: Input string LONG cchString, // in: String character count WORD& uSubStrLevel, // in/out: BiDi substring initial level DWORD dwInFlags, // in: Input flags CCharFlags* pCharflags, // out:Output charflags WORD& wBiDiLangId) // out:The primary language of a BiDi run { Assert (pusp && cchString > 0 && prp && prp->IsValid()); LONG cch, cchLeft; cch = cchLeft = cchString; wBiDiLangId = LANG_NEUTRAL; // assume unknown if (dwInFlags & SUBSTR_INSPANCHARSET) { // span runs with same charset's direction CTxtEdit* ped = GetPed(); CFormatRunPtr rp(*prp); const CCharFormat* pCF; BOOL fNext; BYTE bCharSet1, bCharSet2; rp.AdjustForward(); pCF = ped->GetCharFormat(rp.GetFormat()); bCharSet1 = bCharSet2 = pCF->_bCharSet; while (!(bCharSet1 ^ bCharSet2)) { cch = min(rp.GetCchLeft(), cchLeft); cchLeft -= cch; if (!(fNext = rp.NextRun()) || !cchLeft) break; bCharSet1 = bCharSet2; pCF = ped->GetCharFormat(rp.GetFormat()); bCharSet2 = pCF->_bCharSet; } uSubStrLevel = IsBiDiCharSet(bCharSet1) ? 1 : 0; if (uSubStrLevel & 1) wBiDiLangId = bCharSet1 == ARABIC_CHARSET ? LANG_ARABIC : LANG_HEBREW; cchString -= cchLeft; cch = cchString; dwInFlags |= SUBSTR_INSPANBLOCK; } if (dwInFlags & SUBSTR_INSPANBLOCK) { // scan the whole substring to collect information about it DWORD dwBS = IsEOP(*pwchString) ? 1 : 0; BYTE bCharMask; cch = 0; if (pCharflags) pCharflags->_bFirstStrong = pCharflags->_bContaining = 0; while (cch < cchString && !((IsEOP(pwchString[cch]) ? 1 : 0) ^ dwBS)) { if (!dwBS && pCharflags) { bCharMask = 0; switch (MECharClass(pwchString[cch])) { case CC_ARABIC: case CC_HEBREW: case CC_RTL: bCharMask = SUBSTR_OUTCCRTL; break; case CC_LTR: bCharMask = SUBSTR_OUTCCLTR; default: break; } if (bCharMask) { if (!pCharflags->_bFirstStrong) pCharflags->_bFirstStrong |= bCharMask; pCharflags->_bContaining |= bCharMask; } } cch++; } } return cch; } /* * CTxtRange::ItemizeRuns(publdr, fUnicodeBidi, iCtxBaseLevel) * * @mfunc * Break text range into smaller run(s) containing * * 1. Script ID for complex script shaping * 2. Charset for run internal direction * 3. BiDi embedding level * * @rdesc * TRUE iff one or more items found. * The range's active end will be at cpMost upon return. * * @devnote * This routine could handle mixed paragraph runs */ BOOL CTxtRange::ItemizeRuns( IUndoBuilder *publdr, //@parm Undo context for this operation BOOL fUnicodeBiDi, //@parm TRUE: Caller needs Bidi algorithm BOOL fUseCtxLevel) //@parm Itemize using context based level (only valid if fUnicodeBiDi is true) { LONG cchString; int cItems = 0; LONG cpMin, cpMost; CTxtEdit* ped = GetPed(); CFreezeDisplay fd(ped->_pdp); // Freeze display int i; BYTE pbBufIn[MAX_CLIENT_BUF]; PUSP_CLIENT pc = NULL; const CBiDiFSM* pFSM; SCRIPT_ITEM* psi; CUniscribe* pusp; CTxtPtr tp(_rpTX); LONG cp, cch, cchSave; HRESULT hr = E_FAIL; CCharFormat CF; BOOL fWhiteChunk; // Chunk contains only whitespaces WCHAR* pwchString; WORD uSubStrLevel; // Substring initial level WORD uParaLevel; // Paragraph initial level CNotifyMgr* pnm = NULL; // Notification manager BOOL fRunUnicodeBiDi; BOOL fStreaming = ped->IsStreaming(); BOOL fChangeCharSet = FALSE; CCharFlags charflags = {0}; WORD wBiDiLangId; #ifdef DEBUG LONG cchText = tp.GetTextLength(); #endif // Get range and setup text ptr to the start // cch = cchString = GetRange(cpMin, cpMost); if (!cch) return FALSE; tp.SetCp(cpMin); // prepare Uniscribe pusp = ped->Getusp(); if (!pusp) goto Exit; // allocate temp buffer for itemization pusp->CreateClientStruc(pbBufIn, MAX_CLIENT_BUF, &pc, cchString, cli_Itemize); if (!pc) goto Exit; Assert (tp.GetCp() == cpMin); if(pnm = ped->GetNotifyMgr()) pnm->NotifyPreReplaceRange(this, CP_INFINITE, 0, 0, cpMin, cpMost); cp = cpMin; // Set cp starting point at cpMin Set(cp, 0); // equals to Collapser(tomStart) SetExtend(TRUE); Check_rpCF(); // Make sure _rpCF is valid Check_rpPF(); // _rpPF too // Always run UnicodeBidi for plain text control // (2.1 backward compatible) // if (!ped->IsRich()) { fUnicodeBiDi = TRUE; fUseCtxLevel = FALSE; } uSubStrLevel = uParaLevel = IsParaRTL() ? 1 : 0; // initialize substring level pwchString = pc->si->pwchString; tp.GetTextForUsp(cchString, pwchString, ped->_fNeutralOverride); while ( cchString > 0 && ((cch = SpanSubstring(pusp, &_rpCF, pwchString, cchString, uSubStrLevel, fUnicodeBiDi ? SUBSTR_INSPANBLOCK : SUBSTR_INSPANCHARSET, (fStreaming || fUseCtxLevel) ? &charflags : NULL, wBiDiLangId)) > 0) ) { cchSave = cch; fWhiteChunk = FALSE; if (uSubStrLevel ^ uParaLevel) { // Handle Bidi spaces when substring level counters paragraph base direction. // Spanning leading spaces cch = 0; while (cch < cchSave && pwchString[cch] == 0x20) cch++; if (cch) fWhiteChunk = TRUE; else { // Trimming out trailing whitespaces (including CR) cch = cchSave; while (cch > 0 && IsWhiteSpace(pwchString[cch-1])) cch--; if (!cch) cch = cchSave; } Assert(cch > 0); } // Itemize with Unicode Bidi algorithm when // a. Plain text mode // b. Caller wants (fUnicodeBidi != 0) // c. Substring is RTL. // fRunUnicodeBiDi = fUnicodeBiDi || uSubStrLevel; fChangeCharSet = fUnicodeBiDi; if (!fUnicodeBiDi && uSubStrLevel == 1 && fStreaming) { // During RTF streaming if the RTL run contains strong LTR, // we resolve them using the paragraph base level if (charflags._bContaining & SUBSTR_OUTCCLTR) uSubStrLevel = uParaLevel; fChangeCharSet = TRUE; } // Caller wants context based level. // We want to itemize incoming plain text (into richtext doc) with the base level // of the first strong character found in each substrings (wchao - 7/15/99) // if (fUnicodeBiDi && fUseCtxLevel && charflags._bFirstStrong) uSubStrLevel = (WORD)(charflags._bFirstStrong & SUBSTR_OUTCCRTL ? 1 : 0); if (fWhiteChunk || pusp->ItemizeString (pc, uSubStrLevel, &cItems, pwchString, cch, fRunUnicodeBiDi, wBiDiLangId) > 0) { const SCRIPT_PROPERTIES* psp; DWORD dwMask1; BYTE bCharSetDefault = ped->GetCharFormat(-1)->_bCharSet; psi = pc->si->psi; if (fWhiteChunk) { cItems = 1; psi[0].a.eScript = SCRIPT_WHITE; psi[0].iCharPos = 0; psi[1].iCharPos = cch; } Assert(cItems > 0); // process items // for (i=0; i < cItems; i++) { cp += psi[i+1].iCharPos - psi[i].iCharPos; AssertNr (cp <= cchText); SetCp(min(cp, cpMost)); dwMask1 = 0; // Associate the script properties psp = pusp->GeteProp(psi[i].a.eScript); Assert (psp); if (!psp->fComplex && !psp->fNumeric && !psi[i].a.fRTL && psi[i].a.eScript < SCRIPT_MAX_COUNT) { // Note: Value 0 here is a valid script ID (SCRIPT_UNDEFINED), // guaranteed by Uniscribe to be available all the time // so we're safe using it as our simplified script ID. // psi[i].a.eScript = 0; psp = pusp->GeteProp(0); } CF._wScript = psi[i].a.eScript; // Stamp appropriate charset // if (pusp->GetComplexCharSet(psp, bCharSetDefault, CF._bCharSet)) { // Complex script that has distinctive charset dwMask1 |= CFM_CHARSET; } else if (fChangeCharSet) { // We run UnicodeBidi to analyse the whole thing so // we need to figure out the proper charset to use as well. // // Note that we dont want to apply charset in general, say things // like FarEast or GREEK_CHARSET should remain unchanged by // this effect. But doing charset check is tough since we deal // with text in range basis, so we simply call to update it here // and let CCharFormat::Apply do the charset test in down level. CF._bCharSet = psp->bCharSet; // assume what Uniscribe has given us if (psi[i].a.fRTL || psi[i].a.fLayoutRTL) { // those of strong RTL and RTL digits need RTL charset CF._bCharSet = pusp->GetRtlCharSet(ped); } Assert(CF._bCharSet != DEFAULT_CHARSET); dwMask1 |= CFM_CHARSET; } // no publdr for this call so no antievent for itemized CF SetCharFormat(&CF, SCF_IGNORENOTIFY, NULL, dwMask1, CFM2_SCRIPT); Set(cp, 0); } } else { // Itemization fails. cp += cch; SetCp(min(cp, cpMost)); // reset script id to 0 CF._wScript = 0; SetCharFormat(&CF, SCF_IGNORENOTIFY, NULL, 0, CFM2_SCRIPT); Set(cp, 0); } pwchString = &pc->si->pwchString[cp - cpMin]; // point to next substring cchString -= cch; uParaLevel = IsParaRTL() ? 1 : 0; // paragraph level might have changed } Assert (cpMost == cp); // restore original range Set(cpMost, cpMost - cpMin); // retrieve ptr to Bidi FSM pFSM = pusp->GetFSM(); if (pFSM) hr = BiDiLevelFromFSM (pFSM); AssertSz(SUCCEEDED(hr), "Unable to run or running BiDi FSM fails! We are in deep trouble,"); if (pc && pbBufIn != (BYTE*)pc) FreePv(pc); // update flags ped->_fItemizePending = FALSE; // Notify backing store change to all notification sinks if(pnm) pnm->NotifyPostReplaceRange(this, CP_INFINITE, 0, 0, cpMin, cpMost); Exit: return cItems > 0; } /* * CTxtRange::IsProtected(iDirection) * * @mfunc * Return TRUE if any part of this range is protected (HACK: or * if any part of the range contains DBCS text stored in our Unicode * backing store). If degenerate, * use CCharFormat from run specified by iDirection, that is, use run * valid up to, at, or starting at this GetCp() for iDirection less, =, * or greater than 0, respectively. * * @rdesc * TRUE iff any part of this range is protected (HACK: or if any part * of the range contains DBCS text stored in our Unicode backing store * For this to work correctly, GetCharFormat() needs to return dwMask2 * as well). */ BOOL CTxtRange::IsProtected ( LONG iDirection) //@parm Controls which run to check if range is IP { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::IsProtected"); CCharFormat CF; LONG iFormat = -1; // Default default CF _TEST_INVARIANT_ if(_rpCF.IsValid()) // Active rich-text runs { if(_cch) // Range is nondegenerate { DWORD dwMask = GetCharFormat(&CF); if(CF._dwEffects & CFE_RUNISDBCS) return PROTECTED_YES; if (!(dwMask & CFM_PROTECTED) || (CF._dwEffects & CFE_PROTECTED)) { return PROTECTED_ASK; } return PROTECTED_NO; } iFormat = _iFormat; // Degenerate range: default if(iDirection != 0) // this range's iFormat { // Specific run direction CFormatRunPtr rpCF(_rpCF); if(iDirection < 0) // If at run ambiguous pos, rpCF.AdjustBackward(); // use previous run else rpCF.AdjustForward(); iFormat = rpCF.GetFormat(); // Get run format } } const CCharFormat *pCF = GetPed()->GetCharFormat(iFormat); if(pCF->_dwEffects & CFE_RUNISDBCS) return PROTECTED_YES; if(pCF->_dwEffects & CFE_PROTECTED) return PROTECTED_ASK; return PROTECTED_NO; } /* * CTxtRange::AdjustEndEOP (NewChars) * * @mfunc * If this range is a selection and ends with an EOP and consists of * more than just this EOP and fAdd is TRUE, or this EOP is the final * EOP (at the story end), or this selection doesn't begin at the start * of a paragraph, then move cpMost just before the end EOP. This * function is used by UI methods that delete the selected text, such * as PutChar(), Delete(), cut/paste, drag/drop. * * @rdesc * TRUE iff range end has been adjusted * * @devnote * This method leaves the active end at the selection cpMin. It is a * CTxtRange method to handle the selection when it mascarades as a * range for Cut/Paste. */ BOOL CTxtRange::AdjustEndEOP ( EOPADJUST NewChars) //@parm NEWCHARS if chars will be added { TRACEBEGIN(TRCSUBSYSSEL, TRCSCOPEINTERN, "CTxtRange::AdjustEndEOP"); LONG cpMin, cpMost; LONG cch = GetRange(cpMin, cpMost); LONG cchSave = _cch; BOOL fRet = FALSE; if(cch && (cch < GetTextLength() || NewChars == NEWCHARS)) { LONG cchEOP = GetPed()->fUseCRLF() ? 2 : 1; CTxtPtr tp(_rpTX); if(_cch > 0) // Ensure active end is cpMin FlipRange(); // (ReplaceRange() needs to else // do this anyhow) tp.AdvanceCp(-_cch); // Ensure tp is at cpMost if(tp.IsAfterEOP()) // Don't delete EOP at sel { // end if EOP isn't end of CPFRunPtr rp(*this); // table row and if there're rp.AdvanceCp(-_cch); // chars to add, or cpMin rp.AdjustBackward(); // isn't at BOP and more than // EOP is selected if(!rp.InTable() && (NewChars == NEWCHARS || cpMin && !_rpTX.IsAfterEOP() && cch > cchEOP)) { _cch -= tp.BackupCpCRLF(); // Shorten range before EOP // Note: the -= _adds_ to a Update_iFormat(-1); // negative _cch to make fRet = TRUE; // it less negative } } if((_cch ^ cchSave) < 0 && _fSel) // Keep active end the same FlipRange(); // for selection undo } return fRet; } /* * CTxtRange::DeleteTerminatingEOP (publdr) * * @mfunc * If this range is an insertion point that follows an EOP, select * and delete that EOP */ void CTxtRange::DeleteTerminatingEOP( IUndoBuilder *publdr) { Assert(!_cch); if(_rpTX.IsAfterEOP()) { SetExtend(TRUE); BackupCRLF(); ReplaceRange(0, NULL, publdr, SELRR_REMEMBERRANGE); } } /* * CTxtRange::CheckTextLength(cch) * * @mfunc * Check to see if can add cch characters. If not, notify parent * * @rdesc * TRUE if OK to add cch chars */ BOOL CTxtRange::CheckTextLength ( LONG cch, LONG *pcch) { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::CheckTextLength"); _TEST_INVARIANT_ DWORD cchNew = (DWORD)(CalcTextLenNotInRange() + cch); if(cchNew > GetPed()->TxGetMaxLength()) { if (pcch) *pcch = cchNew - GetPed()->TxGetMaxLength(); else GetPed()->GetCallMgr()->SetMaxText(); return FALSE; } return TRUE; } /* * CTxtRange::FindObject(pcpMin, pcpMost) * * @mfunc * Set *pcpMin = closest embedded object cpMin = range cpMin * Set *pcpMost = closest embedded object cpMost = range cpMost * * @rdesc * TRUE iff object found * * @comm * An embedded object cpMin points at the first character of an embedded * object. For RichEdit, this is the WCH_EMBEDDING character. An * embedded object cpMost follows the last character of an embedded * object. For RichEdit, this immediately follows the WCH_EMBEDDING * character. */ BOOL CTxtRange::FindObject( LONG *pcpMin, //@parm Out parm to receive object's cpMin; NULL OK LONG *pcpMost) const//@parm Out parm to receive object's cpMost; NULL OK { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindObject"); if(!GetObjectCount()) // No objects: can't move, so return FALSE; // return FALSE BOOL bRet = FALSE; // Default no object LONG cpMin, cpMost; CTxtPtr tp(_rpTX); GetRange(cpMin, cpMost); if(pcpMin) { tp.SetCp(cpMin); if(tp.GetChar() != WCH_EMBEDDING) { cpMin = tp.FindExact(tomBackward, szEmbedding); if(cpMin >= 0) { bRet = TRUE; *pcpMin = cpMin; } } } if(pcpMost) { tp.SetCp(cpMost); if (tp.PrevChar() != WCH_EMBEDDING && tp.FindExact(tomForward, szEmbedding) >= 0) { bRet = TRUE; *pcpMost = tp.GetCp(); } } return bRet; } /* * CTxtRange::FindCell(pcpMin, pcpMost) * * @mfunc * Set *pcpMin = closest cell cpMin = range cpMin (see comment) * Set *pcpMost = closest cell cpMost = range cpMost * * @comment * This function does nothing if the range isn't completely in a table. */ void CTxtRange::FindCell ( LONG *pcpMin, //@parm Out parm for bounding-cell cpMin LONG *pcpMost) const //@parm Out parm for bounding-cell cpMost { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindCell"); WCHAR ch; LONG cpMin, cpMost; CRchTxtPtr rtp(*this); _TEST_INVARIANT_ GetRange(cpMin, cpMost); if(pcpMin) { if(_cch > 0) rtp.Advance(-_cch); rtp._rpPF.AdjustBackward(); if(rtp.InTable()) { while(rtp.GetCp()) { rtp.BackupCRLF(); ch = rtp.GetChar(); if(IsASCIIEOP(ch) || ch == CELL) { rtp.AdvanceCRLF(); break; } Assert(rtp.InTable()); } } *pcpMin = rtp.GetCp(); } if(pcpMost) { rtp.SetCp(cpMost); if(rtp.InTable()) { rtp.BackupCRLF(); do { ch = rtp.GetChar(); rtp.AdvanceCRLF(); Assert(rtp.InTable()); } while(ch && !IsASCIIEOP(ch) && ch != CELL); } *pcpMost = rtp.GetCp(); } } /* * CTxtRange::FindParagraph(pcpMin, pcpMost) * * @mfunc * Set *pcpMin = closest paragraph cpMin = range cpMin (see comment) * Set *pcpMost = closest paragraph cpMost = range cpMost * * @devnote * If this range's cpMost follows an EOP, use it for bounding-paragraph * cpMost unless 1) the range is an insertion point, and 2) pcpMin and * pcpMost are both nonzero, in which case use the next EOP. Both out * parameters are nonzero if FindParagraph() is used to expand to full * paragraphs (else StartOf or EndOf is all that's requested). This * behavior is consistent with the selection/IP UI. Note that FindEOP * treats the beginning/end of document (BOD/EOD) as a BOP/EOP, * respectively, but IsAfterEOP() does not. */ void CTxtRange::FindParagraph ( LONG *pcpMin, //@parm Out parm for bounding-paragraph cpMin LONG *pcpMost) const //@parm Out parm for bounding-paragraph cpMost { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindParagraph"); LONG cpMin, cpMost; CTxtPtr tp(_rpTX); _TEST_INVARIANT_ GetRange(cpMin, cpMost); if(pcpMin) { tp.SetCp(cpMin); // tp points at this range's cpMin if(!tp.IsAfterEOP()) // Unless tp directly follows an tp.FindEOP(tomBackward); // EOP, search backward for EOP *pcpMin = cpMin = tp.GetCp(); } if(pcpMost) { tp.SetCp(cpMost); // If range cpMost doesn't follow if (!tp.IsAfterEOP() || // an EOP or else if expanding (!cpMost || pcpMin) && cpMin == cpMost) // IP at paragraph beginning, { tp.FindEOP(tomForward); // search for next EOP } *pcpMost = tp.GetCp(); } } /* * CTxtRange::FindSentence(pcpMin, pcpMost) * * @mfunc * Set *pcpMin = closest sentence cpMin = range cpMin * Set *pcpMost = closest sentence cpMost = range cpMost * * @devnote * If this range's cpMost follows a sentence end, use it for bounding- * sentence cpMost unless the range is an insertion point, in which case * use the next sentence end. The routine takes care of aligning on * sentence beginnings in the case of range ends that fall on whitespace * in between sentences. */ void CTxtRange::FindSentence ( LONG *pcpMin, //@parm Out parm for bounding-sentence cpMin LONG *pcpMost) const //@parm Out parm for bounding-sentence cpMost { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindSentence"); LONG cpMin, cpMost; CTxtPtr tp(_rpTX); _TEST_INVARIANT_ GetRange(cpMin, cpMost); if(pcpMin) // Find sentence beginning { tp.SetCp(cpMin); // tp points at this range's cpMin if(!tp.IsAtBOSentence()) // If not at beginning of sentence tp.FindBOSentence(tomBackward); // search backward for one *pcpMin = cpMin = tp.GetCp(); } if(pcpMost) // Find sentence end { // Point tp at this range's cpLim tp.SetCp(cpMost); // If cpMost isn't at sentence if (!tp.IsAtBOSentence() || // beginning or if at story (!cpMost || pcpMin) && // beginning or expanding cpMin == cpMost) // IP at sentence beginning, { // find next sentence beginning if(!tp.FindBOSentence(tomForward)) tp.SetCp(GetTextLength()); // End of story counts as } // sentence end too *pcpMost = tp.GetCp(); } } /* * CTxtRange::FindVisibleRange(pcpMin, pcpMost) * * @mfunc * Set *pcpMin = _pdp->_cpFirstVisible * Set *pcpMost = _pdp->_cpLastVisible * * @rdesc * TRUE iff calculated cp's differ from this range's cp's * * @devnote * CDisplay::GetFirstVisible() and GetCliVisible() return the first cp * on the first visible line and the last cp on the last visible line. * These won't be visible if they are scrolled off the screen. * FUTURE: A more general algorithm would CpFromPoint (0,0) and * (right, bottom). */ BOOL CTxtRange::FindVisibleRange ( LONG *pcpMin, //@parm Out parm for cpFirstVisible LONG *pcpMost) const //@parm Out parm for cpLastVisible { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindVisibleRange"); _TEST_INVARIANT_ CDisplay * pdp = GetPed()->_pdp; if(!pdp) return FALSE; if(pcpMin) *pcpMin = pdp->GetFirstVisibleCp(); pdp->GetCliVisible(pcpMost); return TRUE; } /* * CTxtRange::FindWord(pcpMin, pcpMost, type) * * @mfunc * Set *pcpMin = closest word cpMin = range cpMin * Set *pcpMost = closest word cpMost = range cpMost * * @comm * There are two interesting cases for finding a word. The first, * (FW_EXACT) finds the exact word, with no extraneous characters. * This is useful for situations like applying formatting to a * word. The second case, FW_INCLUDE_TRAILING_WHITESPACE does the * obvious thing, namely includes the whitespace up to the next word. * This is useful for the selection double-click semantics and TOM. */ void CTxtRange::FindWord( LONG *pcpMin, //@parm Out parm to receive word's cpMin; NULL OK LONG *pcpMost, //@parm Out parm to receive word's cpMost; NULL OK FINDWORD_TYPE type) const //@parm Type of word to find { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindWord"); LONG cch, cch1; LONG cpMin, cpMost; CTxtPtr tp(_rpTX); _TEST_INVARIANT_ Assert(type == FW_EXACT || type == FW_INCLUDE_TRAILING_WHITESPACE ); GetRange(cpMin, cpMost); if(pcpMin) { tp.SetCp(cpMin); if(!tp.IsAtBOWord()) // cpMin not at BOW: cpMin += tp.FindWordBreak(WB_MOVEWORDLEFT); // go there *pcpMin = cpMin; Assert(cpMin >= 0 && cpMin <= GetTextLength()); } if(pcpMost) { tp.SetCp(cpMost); if (!tp.IsAtBOWord() || // If not at word strt (!cpMost || pcpMin) && cpMin == cpMost) // or there but need { // to expand IP, cch = tp.FindWordBreak(WB_MOVEWORDRIGHT); // move to next word if(cch && type == FW_EXACT) // If moved and want { // word proper, move cch1 = tp.FindWordBreak(WB_LEFTBREAK); // back to end of if(cch + cch1 > 0) // preceding word cch += cch1; // Only do so if were } // not already at end cpMost += cch; } *pcpMost = cpMost; Assert(cpMost >= 0 && cpMost <= GetTextLength()); Assert(cpMin <= cpMost); } } /* * CTxtRange::FindAttributes(pcpMin, pcpMost, dwMask) * * @mfunc * Set *pcpMin = closest attribute-combo cpMin = range cpMin * Set *pcpMost = closest attribute-combo cpMost = range cpMost * The attribute combo is given by Unit and is any OR combination of * TOM attributes, e.g., tomBold, tomItalic, or things like * tomBold | tomItalic. The combo is found if any of the attributes * is present. * * @devnote * Plan to add other logical combinations: tomAND, tomExact */ void CTxtRange::FindAttributes ( LONG *pcpMin, //@parm Out parm for bounding-sentence cpMin LONG *pcpMost, //@parm Out parm for bounding-sentence cpMost LONG Unit) const //@parm TOM attribute mask { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEINTERN, "CTxtRange::FindAttributes"); LONG cch; LONG cpMin, cpMost; DWORD dwMask = Unit & ~0x80000000; // Kill sign bit CCFRunPtr rp(*this); Assert(Unit < 0); GetRange(cpMin, cpMost); if(!rp.IsValid()) // No CF runs instantiated { if(rp.IsMask(dwMask)) // Applies to default CF { if(pcpMin) *pcpMin = 0; if(pcpMost) *pcpMost = GetTextLength(); } return; } // Start at cpMin if(_cch > 0) rp.AdvanceCp(-_cch); // Go backward until we don't match dwMask if(pcpMin) { rp.AdjustBackward(); while(rp.IsMask(dwMask) && rp.GetIch()) { cpMin -= rp.GetIch(); rp.AdvanceCp(-rp.GetIch()); rp.AdjustBackward(); } *pcpMin = cpMin; } // Now go forward from cpMost until we don't match dwMask if(pcpMost) { rp.AdvanceCp(cpMost - cpMin); rp.AdjustForward(); // In case cpMin = cpMost cch = rp.GetCchLeft(); while(rp.IsMask(dwMask) && cch) { cpMost += cch; rp.AdvanceCp(cch); cch = rp.GetCchLeft(); } *pcpMost = cpMost; } } /* * CTxtRange::CalcTextLenNotInRange() * * @mfunc * Helper function that calculates the total length of text * excluding the current range. * * @comm * Used for limit testing. The problem being solved is that * the range can contain the final EOP which is not included * in the adjusted text length. */ LONG CTxtRange::CalcTextLenNotInRange() { LONG cchAdjLen = GetPed()->GetAdjustedTextLength(); LONG cchLen = cchAdjLen - abs(_cch); LONG cpMost = GetCpMost(); if (cpMost > cchAdjLen) { // Selection extends beyond adjusted length. Put amount back in the // selection as it has become too small by the difference. cchLen += cpMost - cchAdjLen; } return cchLen; } ////////////////////////// Outline Support ////////////////////////////////// /* * CTxtRange::Promote(lparam, publdr) * * @mfunc * Promote selected text according to: * * LOWORD(lparam) == 0 ==> promote to body-text * LOWORD(lparam) != 0 ==> promote/demote current selection by * LOWORD(lparam) levels * @rdesc * TRUE iff promotion occurred * * @devnote * Changes this range */ HRESULT CTxtRange::Promote ( LPARAM lparam, //@parm 0 to body, < 0 demote, > 0 promote IUndoBuilder *publdr) //@parm undo builder to receive antievents { TRACEBEGIN(TRCSUBSYSSEL, TRCSCOPEINTERN, "CTxtRange::Promote"); if(abs(lparam) >= NHSTYLES) return E_INVALIDARG; if(publdr) publdr->StopGroupTyping(); if(_cch > 0) // Point at cpMin FlipRange(); LONG cchText = GetTextLength(); LONG cpEnd = GetCpMost(); LONG cpMin, cpMost; BOOL fHeading = TRUE; // Default heading in range HRESULT hr; LONG Level; LONG nHeading = NHSTYLES; // Setup to find any heading CParaFormat PF; const CParaFormat *pPF; CPFRunPtr rp(*this); LONG cch = rp.FindHeading(abs(_cch), nHeading); WORD wEffects; if(!lparam) // Demote to subtext { if(cch) // Already in subtext so don't return S_FALSE; // need to demote CTxtPtr tp(_rpTX); if(!tp.IsAfterEOP()) cch = tp.FindEOP(tomBackward); nHeading = 1; if(tp.GetCp()) // Get previous level and convert { // to heading to set up rp.AdvanceCp(cch); // following Level code rp.AdjustBackward(); nHeading = rp.GetOutlineLevel()/2 + 1; } } else if(cch == tomBackward) // No heading in range { // Set up to promote to nHeading = rp.GetOutlineLevel()/2 // heading + (lparam > 0 ? 2 : 1); fHeading = FALSE; // Signal no heading in range } else if(cch) // Range starts in subtext { SetExtend(TRUE); Advance(cch); // Bypass initial nonheading } Level = 2*(nHeading - 1); // Heading level PF._bOutlineLevel = (BYTE)(Level | 1); // Corresponding subtext level if (!Level && lparam > 0 || // Can't promote Heading 1 nHeading == NHSTYLES && lparam < 0) // or demote Heading 9 { return S_FALSE; } do { _cch = 0; Level -= long(2*lparam); // Promote Level pPF = GetPF(); wEffects = pPF->_wEffects; if(pPF->_bOutlineLevel & 1) // Handle contiguous text in { // one fell swoop cch = fHeading ? _rpPF.GetCchLeft() : cpEnd - GetCp(); if(cch > 0) { SetExtend(TRUE); Advance(cch); } } Expander(tomParagraph, TRUE, NULL, &cpMin, &cpMost); if((unsigned)Level < 2*NHSTYLES) { // Promoted Level is valid DWORD dwMask = PFM_OUTLINELEVEL;// Default setting subtext level if(!(Level & 1) && lparam) // Promoting or demoting heading { // Preserve collapse status PF._wEffects = Level ? wEffects : 0; // H1 is aways expanded PF._sStyle = (SHORT)(-Level/2 + STYLE_HEADING_1); PF._bOutlineLevel = (BYTE)(Level | 1);// Set up subtext dwMask = PFM_STYLE + PFM_COLLAPSED; } else if(!lparam) // Changing heading to subtext { // or uncollapsing subtext PF._wEffects = 0; // Turn off collapsed PF._sStyle = STYLE_NORMAL; dwMask = PFM_STYLE + PFM_OUTLINELEVEL + PFM_COLLAPSED; } hr = SetParaStyle(&PF, publdr, dwMask); if(hr != NOERROR) return hr; } if(GetCp() >= cchText) // Have handled last PF run break; Assert(_cch > 0); // Para/run should be selected pPF = GetPF(); // Points at next para Level = pPF->_bOutlineLevel; } // Iterate until past range & while((Level & 1) || fHeading && // any subtext that follows (GetCp() < cpEnd || pPF->_wEffects & PFE_COLLAPSED)); return NOERROR; } /* * CTxtRange::ExpandOutline(Level, fWholeDocument) * * @mfunc * Expand outline according to Level and fWholeDocument. Wraps * OutlineExpander() helper function and updates selection/view * * @rdesc * NOERROR if success */ HRESULT CTxtRange::ExpandOutline( LONG Level, //@parm If < 0, collapse; else expand, etc. BOOL fWholeDocument) //@parm If TRUE, whole document { if (!IsInOutlineView()) return NOERROR; HRESULT hres = OutlineExpander(Level, fWholeDocument); if(hres != NOERROR) return hres; GetPed()->TxNotify(EN_PARAGRAPHEXPANDED, NULL); return GetPed()->UpdateOutline(); } /* * CTxtRange::OutlineExpander(Level, fWholeDocument) * * @mfunc * Expand/collapse outline for this range according to Level * and fWholeDocument. If fWholeDocument is TRUE, then * 1 <= Level <= NHSTYLES collapses all headings with numbers * greater than Level and collapses all nonheadings. Level = -1 * expands all. * * fWholeDocument = FALSE expands/collapses (Level > 0 or < 0) * paragraphs depending on whether an EOP and heading are included * in the range. If Level = 0, toggle heading's collapsed status. * * @rdesc * (change made) ? NOERROR : S_FALSE */ HRESULT CTxtRange::OutlineExpander( LONG Level, //@parm If < 0, collapse; else expand, etc. BOOL fWholeDocument) //@parm If TRUE, whole document { CParaFormat PF; if(fWholeDocument) // Apply to whole document { if (IN_RANGE(1, Level, NHSTYLES) || // Collapse to heading Level == -1) // -1 means all { Set(0, tomBackward); // Select whole document PF._sStyle = (SHORT)(STYLE_COMMAND + (BYTE)Level); SetParaFormat(&PF, NULL, PFM_STYLE);// No undo return NOERROR; } return S_FALSE; // Nothing happened (illegal } // arg) // Expand/Collapse for Level positive/negative, respectively LONG cpMin, cpMost; // Get range cp's LONG cchMax = GetRange(cpMin, cpMost); if(_cch > 0) // Ensure cpMin is active FlipRange(); // for upcoming rp and tp LONG nHeading = NHSTYLES; // Setup to find any heading LONG nHeading1; CTxtEdit *ped = GetPed(); CPFRunPtr rp(*this); LONG cch = rp.FindHeading(cchMax, nHeading); if(cch == tomBackward) // No heading found within range return S_FALSE; // Do nothing Assert(cch <= cchMax && (Level || !cch)); // cch is count up to heading CTxtPtr tp(_rpTX); cpMin += cch; // Bypass any nonheading text tp.AdvanceCp(cch); // at start of range // If toggle collapse or if range contains an EOP, // collapse/expand all subordinates cch = tp.FindEOP(tomForward); // Find next para if(!cch) return NOERROR; if(!Level || cch < -_cch) // Level = 0 or EOP in range { if(!Level) // Toggle collapse status { LONG cchLeft = rp.GetCchLeft(); if (cch < cchLeft || !rp.NextRun() || nHeading == STYLE_HEADING_1 - rp.GetStyle() + 1) { return NOERROR; // Next para has same heading } Assert(cch == cchLeft); Level = rp.IsCollapsed(); rp.AdvanceCp(-cchLeft); } PF._wEffects = Level > 0 ? 0 : PFE_COLLAPSED; while(cpMin < cpMost) { // We're at a heading tp.SetCp(cpMin); cch = tp.FindEOP(-_cch); cpMin += cch; // Bypass it if(!rp.AdvanceCp(cch)) // Point at next para break; // No more, we're done nHeading1 = nHeading; // Setup to find heading <= nHeading cch = rp.FindHeading(tomForward, nHeading1); if(cch == tomBackward) // No more higher headings cch = GetTextLength() - cpMin; // Format to end of text Set(cpMin, -cch); // Collapse/expand up to here SetParaFormat(&PF, NULL, PFM_COLLAPSED); cpMin += cch; // Move past formatted area nHeading = nHeading1; // Update nHeading to possibly } // lower heading # return NOERROR; } // Range contains no EOP: expand/collapse deepest level. // If collapsing, collapse all nonheading text too. Expand // nonheading text only if all subordinate levels are expanded. BOOL fCollapsed; LONG nHeadStart, nHeadDeepNC, nHeadDeep; LONG nNonHead = -1; // No nonHeading found yet const CParaFormat *pPF; cpMin = tp.GetCp(); // Point at start of cpMost = cpMin; // next para pPF = ped->GetParaFormat(_rpPF.GetFormat()); nHeading = pPF->_bOutlineLevel; Assert(!(nHeading & 1) && // Must start with a heading !(pPF->_wEffects & PFE_COLLAPSED)); // that isn't collapsed nHeadStart = nHeading/2 + 1; // Convert outline level to nHeadDeep = nHeadDeepNC = nHeadStart; // heading number while(cch) // Determine deepest heading { // and deepest collapsed rp.AdvanceCp(cch); // heading pPF = ped->GetParaFormat(rp.GetFormat()); fCollapsed = pPF->_wEffects & PFE_COLLAPSED; nHeading = pPF->_bOutlineLevel; if(nHeading & 1) // Text found { // Set nNonHead > 0 if nNonHead = fCollapsed; // collapsed; else 0 cch = rp.GetCchLeft(); // Zip to end of contiguous tp.AdvanceCp(cch); // text paras } else // It's a heading { nHeading = nHeading/2 + 1; // Convert to heading number if(nHeading <= nHeadStart) // If same or shallower as break; // start heading we're done // Update deepest and deepest nonCollapsed heading #'s nHeadDeep = max(nHeadDeep, nHeading); if(!fCollapsed) nHeadDeepNC = max(nHeadDeepNC, nHeading); cch = tp.FindEOP(tomForward); // Go to next paragraph } cpMost = tp.GetCp(); // Include up to it } PF._sStyle = (SHORT)(STYLE_COMMAND + nHeadDeepNC); if(Level > 0) // Expand { if(nHeadDeepNC < nHeadDeep) // At least one collapsed PF._sStyle++; // heading: expand shallowest else // All heads expanded: do others PF._sStyle = (unsigned short) (STYLE_COMMAND + 0xFF); } // In any case, expand nonheading else if(nNonHead) // Collapse. If text collapsed { // or missing, do headings if(nHeadDeepNC == nHeadStart) return S_FALSE; // Everything already collapsed PF._sStyle--; // Collapse to next shallower } // heading Set(cpMin, cpMin - cpMost); // Select range to change SetParaFormat(&PF, NULL, PFM_STYLE); // No undo return NOERROR; } /* * CTxtRange::CheckOutlineLevel(publdr) * * @mfunc * If the paragraph style at this range isn't a heading, make * sure its outline level is compatible with the preceeding one */ void CTxtRange::CheckOutlineLevel( IUndoBuilder *publdr) //@parm Undo context for this operation { LONG LevelBackward, LevelForward; CPFRunPtr rp(*this); Assert(!_cch); rp.AdjustBackward(); LevelBackward = rp.GetOutlineLevel() | 1; // Nonheading level corresponding // to previous PF run rp.AdjustForward(); LevelForward = rp.GetOutlineLevel(); if (!(LevelForward & 1) || // Any heading can follow LevelForward == LevelBackward) // any style. Also if { // forward level is correct, return; // return } LONG cch; // One or more nonheadings LONG lHeading = NHSTYLES; // with incorrect outline CParaFormat PF; // levels follow PF._bOutlineLevel = (BYTE)LevelBackward; // level cch = rp.FindHeading(tomForward, lHeading); // Find next heading if(cch == tomBackward) cch = tomForward; Set(GetCp(), -cch); // Select all nonheading text SetParaFormat(&PF, publdr, PFM_OUTLINELEVEL);// Change its outline level Set(GetCp(), 0); // Restore range to IP } #if defined(DEBUG) /* * CTxtRange::::DebugFont (void) * * @mfunc * Dump out the character and Font info for current selection. */ void CTxtRange::DebugFont (void) { LONG ch; LONG cpMin, cpMost; LONG cch = GetRange(cpMin, cpMost); LONG i; char szTempBuf[64]; CTxtEdit *ped = GetPed(); const WCHAR *wszFontname; const CCharFormat *CF; // Temporary CF const WCHAR *GetFontName(LONG iFont); char szTempPath[MAX_PATH] = "\0"; DWORD cchLength; HANDLE hfileDump; DWORD cbWritten; SideAssert(cchLength = GetTempPathA(MAX_PATH, szTempPath)); // append trailing backslash if neccessary if(szTempPath[cchLength - 1] != '\\') { szTempPath[cchLength] = '\\'; szTempPath[cchLength + 1] = 0; } strcat(szTempPath, "DumpFontInfo.txt"); SideAssert(hfileDump = CreateFileA(szTempPath, GENERIC_WRITE, FILE_SHARE_READ, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL)); if(_cch > 0) // start from cpMin FlipRange(); CFormatRunPtr rp(_rpCF); for (i=0; i <= cch; i++) { LONG iFormat; if (GetChar(&ch) != NOERROR) break; if (ch <= 0x07f) sprintf(szTempBuf, "Char= '%c'\r\n", (char)ch); else sprintf(szTempBuf, "Char= 0x%x\r\n", ch); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); iFormat = rp.GetFormat(); CF = ped->GetCharFormat(iFormat); Assert(CF); sprintf(szTempBuf, "Font iFormat= %d, Charset= %d, Size= %d\r\nName= ", iFormat, CF->_bCharSet, CF->_yHeight); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); wszFontname = GetFontName(CF->_iFont); if (wszFontname) { if (*wszFontname <= 0x07f) { szTempBuf[0] = '\''; WCTMB(CP_ACP, 0, wszFontname, -1, &szTempBuf[1], sizeof(szTempBuf)-1, NULL, NULL, NULL); strcat(szTempBuf,"\'"); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); } else { for (; *wszFontname; wszFontname++) { sprintf(szTempBuf, "0x%x,", *wszFontname); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); } } } OutputDebugStringA("\r\n"); if (hfileDump) WriteFile(hfileDump, "\r\n", 2, &cbWritten, NULL); Advance(1); rp.AdvanceCp(1); } // Now dump the doc font info CF = ped->GetCharFormat(-1); Assert(CF); sprintf(szTempBuf, "Default Font iFormat= -1, Charset= %d, Size= %d\r\nName= ", CF->_bCharSet, CF->_yHeight); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); wszFontname = GetFontName(CF->_iFont); if (wszFontname) { if (*wszFontname <= 0x07f) { szTempBuf[0] = '\''; WCTMB(CP_ACP, 0, wszFontname, -1, &szTempBuf[1], sizeof(szTempBuf), NULL, NULL, NULL); strcat(szTempBuf,"\'"); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); } else { for (; *wszFontname; wszFontname++) { sprintf(szTempBuf, "0x%x,", *wszFontname); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); } } } OutputDebugStringA("\r\n"); if (hfileDump) WriteFile(hfileDump, "\r\n", 2, &cbWritten, NULL); if (ped->IsRich()) { if (ped->fUseUIFont()) sprintf(szTempBuf, "Rich Text with UI Font"); else sprintf(szTempBuf, "Rich Text Control"); } else sprintf(szTempBuf, "Plain Text Control"); OutputDebugStringA(szTempBuf); if (hfileDump) WriteFile(hfileDump, szTempBuf, strlen(szTempBuf), &cbWritten, NULL); OutputDebugStringA("\r\n"); if (hfileDump) WriteFile(hfileDump, "\r\n", 2, &cbWritten, NULL); if (hfileDump) CloseHandle(hfileDump); } #endif