/* * @doc TOM * * @module TOMRANGE.CPP - Implement the CTxtRange Class | * * This module contains the implementation of the TOM ITextRange * interface on the CTxtRange object * * History: * 5/24/95 - Alex Gounares: stubs created * 8/95 - MurrayS: main implementation * 11/95 - MurrayS: upgrade to TOM spec of 12/10/95 * 5/96 - MurrayS: added zombie protection * * @comm * All ITextRange methods return HRESULTs. If the method can move a * range cp, the HRESULT is NOERROR if movement occurs and S_FALSE if * no movement occurs. These methods usually take a

argument * that returns the count of characters or Units actually moved. If this * parameter is NULL, E_INVALIDARG is returned. Other return values * include E_NOTIMPL, e.g., for Unit values not implemented, * E_OUTOFMEMORY, e.g., when allocations fail, and CO_E_RELEASED, when * the CTxtEdit (_ped) to which the range is attached has been deleted. * * For more complete documentation, please see tom.doc * * @devnote * All ptr parameters must be validated before use and all entry points * need to check whether this range is a zombie. These checks are * done in one of three places: 1) immediately on entry to a function, * 2) immediately on entry to a helper function (e.g., private Mover() * for the move methods), or 3) before storing the out value. * Alternative 3) is used for optional return values, such as pDelta * and pB. * * To achieve a simple, efficient inheritance model, CTxtSelection * inherits ITextSelection through CTxtRange. Otherwise we'd have a * diamond inheritance, since ITextSelection itself inherits from * ITextRange. Diamond inheritance creates two copies of the multiply * inherited class unless that class is inherited virtually. Virtual * inheritance uses run-time base-offset tables and is slower and * bigger. To avoid such a mess, we include the extra ITextSelection * methods in CTxtRange, with the intention that they'll never be called * and therefore they return E_NOTIMPL. This is overridden for * ITextSelection objects * * @future * 1) Finder match ^p, etc. * 2) Fast GetEffects() method. Would speed up the myriad IsProtected() * calls and be useful for getting other effects as well. * 3) Fast copies/pastes of RichEdit binary format. This can be done by * creating a method to copy a range to a new CTxtStory and a method * to insert a CTxtStory. * 4) Delayed rendering * * Copyright (c) 1995-1998, Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_select.h" #include "_edit.h" #include "_line.h" #include "_frunptr.h" #include "_tomfmt.h" #include "_disp.h" #include "_objmgr.h" #include "_callmgr.h" #include "_measure.h" ASSERTDATA #define DEBUG_CLASSNAME CTxtRange #include "_invar.h" HRESULT QueryInterface (REFIID riid, REFIID riid1, IUnknown *punk, void **ppv, BOOL fZombie); //----------------- CTxtRange (ITextRange) PUBLIC methods ---------------------------------- //----------------------- CTxtRange IUnknown Methods ------------------------------------- /* * CTxtRange::QueryInterface (riid, ppv) * * @mfunc * IUnknown method * * @rdesc * HRESULT = (!ppv) ? E_INVALIDARG : * (interface found) ? NOERROR : E_NOINTERFACE */ STDMETHODIMP CTxtRange::QueryInterface ( REFIID riid, //@parm Reference to requested interface ID void ** ppv) //@parm Out parm to receive interface ptr { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::QueryInterface"); REFIID riid1 = _fSel && IsEqualIID(riid, IID_ITextSelection) ? IID_ITextSelection : IID_ITextRange; #ifndef PEGASUS return ::QueryInterface(riid, riid1, this, ppv, IsZombie()); #else return 0; #endif } /* * CTxtRange::AddRef() * * @mfunc * IUnknown method * * @rdesc * ULONG - incremented reference count */ STDMETHODIMP_(ULONG) CTxtRange::AddRef() { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::AddRef"); return ++_cRefs; } /* * CTxtRange::Release() * * @mfunc * IUnknown method * * @rdesc * ULONG - decremented reference count */ STDMETHODIMP_(ULONG) CTxtRange::Release() { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Release"); _cRefs--; if(!_cRefs) { delete this; return 0; } Assert(_cRefs > 0); return _cRefs; } //------------------------ CTxtRange IDispatch Methods ------------------------------------- /* * CTxtRange::GetTypeInfoCount(pcTypeInfo) * * @mfunc * Get the number of TYPEINFO elements (1) * * @rdesc * HRESULT */ STDMETHODIMP CTxtRange::GetTypeInfoCount ( UINT * pcTypeInfo) //@parm Out parm to receive type-info count { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetTypeInfoCount"); if(!pcTypeInfo) return E_INVALIDARG; *pcTypeInfo = 1; return NOERROR; } /* * CTxtRange::GetTypeInfo(iTypeInfo, lcid, ppTypeInfo) * * @mfunc * Return ptr to type information object for ITextSelection interface * * @rdesc * HRESULT */ STDMETHODIMP CTxtRange::GetTypeInfo ( UINT iTypeInfo, //@parm Index of type info to return LCID lcid, //@parm Local ID of type info ITypeInfo **ppTypeInfo) //@parm Out parm to receive type info { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetTypeInfo"); return ::GetTypeInfo(iTypeInfo, g_pTypeInfoSel, ppTypeInfo); } /* * CTxtRange::GetIDsOfNames(riid, rgszNames, cNames, lcid, rgdispid) * * @mfunc * Get DISPIDs for methods in the ITextSelection, ITextRange, ITextFont, * and ITextPara interfaces * * @rdesc * HRESULT * * @devnote * If the ITextFont and ITextPara ever offer more methods than exposed * in their type libraries, the code should delegate to the corresponding * GetIDsOfNames. The current code only gets DISPIDs for the methods in * type libraries, thereby not having to instantiate the objects. */ STDMETHODIMP CTxtRange::GetIDsOfNames ( REFIID riid, //@parm Interface ID to interpret names for OLECHAR ** rgszNames, //@parm Array of names to be mapped UINT cNames, //@parm Count of names to be mapped LCID lcid, //@parm Local ID to use for interpretation DISPID * rgdispid) //@parm Out parm to receive name mappings { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetIDsOfNames"); HRESULT hr = GetTypeInfoPtrs(); // Ensure TypeInfo ptrs are OK if(hr != NOERROR) return hr; if(g_pTypeInfoSel->GetIDsOfNames(rgszNames, cNames, rgdispid) == NOERROR) return NOERROR; if(g_pTypeInfoFont->GetIDsOfNames(rgszNames, cNames, rgdispid) == NOERROR) return NOERROR; return g_pTypeInfoPara->GetIDsOfNames(rgszNames, cNames, rgdispid); } /* * CTxtRange::Invoke(dispidMember, riid, lcid, wFlags, pdispparams, * pvarResult, pexcepinfo, puArgError) * @mfunc * Invoke methods for the ITextRange and ITextSelection objects, as * well as for ITextFont and ITextPara interfaces on those objects. * * @rdesc * HRESULT */ STDMETHODIMP CTxtRange::Invoke ( DISPID dispidMember, //@parm Identifies member function REFIID riid, //@parm Pointer to interface ID LCID lcid, //@parm Locale ID for interpretation USHORT wFlags, //@parm Flags describing context of call DISPPARAMS *pdispparams, //@parm Ptr to method arguments VARIANT * pvarResult, //@parm Out parm for result (if not NULL) EXCEPINFO * pexcepinfo, //@parm Out parm for exception info UINT * puArgError) //@parm Out parm for error { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Invoke"); HRESULT hr = GetTypeInfoPtrs(); // Ensure TypeInfo ptrs are OK if(hr != NOERROR) return hr; if(IsZombie()) return CO_E_RELEASED; IDispatch * pDispatch; ITypeInfo * pTypeInfo; if((DWORD)dispidMember <= 0x2ff) // Include default (0), selection, { // and range DISPIDs pTypeInfo = g_pTypeInfoSel; pDispatch = this; AddRef(); // Compensate for Release() below } else if((DWORD)dispidMember <= 0x3ff) // 0x300 to 0x3ff: DISPIDs { // reserved for ITextFont pTypeInfo = g_pTypeInfoFont; hr = GetFont((ITextFont**)&pDispatch); } else if((DWORD)dispidMember <= 0x4ff) // 0x400 to 0x4ff: DISPIDs { // reserved for ITextPara pTypeInfo = g_pTypeInfoPara; hr = GetPara((ITextPara **)&pDispatch); } else // dispidMember is negative or return DISP_E_MEMBERNOTFOUND; // > 0x4ff, i.e., not TOM if(hr != NOERROR) // Couldn't instantiate ITextFont return hr; // or ITextPara hr = pTypeInfo->Invoke(pDispatch, dispidMember, wFlags, pdispparams, pvarResult, pexcepinfo, puArgError); #ifndef PEGASUS pDispatch->Release(); #endif return hr; } //----------------------- ITextRange Methods/Properties ------------------------ /* * CTxtRange::CanEdit (pB) * * @mfunc * Set *

= tomTrue iff this range can be edited and * pB isn't NULL * * @rdesc * HRESULT = (can edit) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::CanEdit ( long * pB) //@parm Out parm to receive boolean value { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::CanEdit"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); return IsTrue(!WriteAccessDenied(), pB); } /* * CTxtRange::CanPaste (pVar, long Format, pB) * * @mfunc * Set *

= tomTrue iff the data object

->punkVal can be * pasted into this range and pB isn't NULL. If

is NULL, * use the clipboard instead. * * @rdesc * HRESULT = (can paste) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::CanPaste ( VARIANT * pVar, //@parm Data object to paste long Format, //@parm Desired clipboard format long * pB) //@parm Out parm to receive boolean value { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::CanPaste"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); HRESULT hr; IDataObject * pdo = NULL; // Default clipboard if(pVar && pVar->vt == VT_UNKNOWN) pVar->punkVal->QueryInterface(IID_IDataObject, (void **)&pdo); hr = IsTrue(!WriteAccessDenied() && (GetPed()->GetDTE()->CanPaste(pdo, (CLIPFORMAT)Format, RECO_PASTE)), pB); if(pdo) pdo->Release(); return hr; #else return 0; #endif } /* * ITextRange::ChangeCase (long Type) * * @mfunc * Change the case of letters in this range according to Type: * * tomSentenceCase = 0: capitalize first letter of each sentence * tomLowerCase = 1: change all letters to lower case * tomUpperCase = 2: change all letters to upper case * tomTitleCase = 3: capitalize the first letter of each word * tomToggleCase = 4: toggle the case of each letter * * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (if change) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::ChangeCase ( long Type) //@parm Type of case change. Default value: tomLower { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::ChangeCase"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); if(WriteAccessDenied()) return E_ACCESSDENIED; IUndoBuilder * publdr; CGenUndoBuilder undobldr(GetPed(), UB_AUTOCOMMIT, &publdr); LONG cpMin, cpMax; LONG cch = GetRange(cpMin, cpMax); CRchTxtPtr rtp(*this); undobldr.StopGroupTyping(); rtp.SetCp(cpMin); return (rtp.ChangeCase(cch, Type, publdr)) ? NOERROR : S_FALSE; } /* * CTxtRange::Collapse (bStart) * * @mfunc * Collapse this range into a degenerate point either at the * the start (

is nonzero or the end (

= 0) * * @rdesc * HRESULT = (if change) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::Collapse ( long bStart) //@parm Flag specifying end to collapse at { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Collapse"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); if(!_cch) // Already collapsed return S_FALSE; // Signal that no change occurred Collapser(bStart); Update(TRUE); // Update selection return NOERROR; // Signal that change occurred } /* * CTxtRange::Copy (pVar) * * @mfunc * Copy the plain and/or rich text to a data object and return the * object ptr in

. If

is null, copy to the clipboard. * * @rdesc * HRESULT = (if success) ? NOERROR : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::Copy ( VARIANT * pVar) //@parm Out parm for data object { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Copy"); if(IsZombie()) return CO_E_RELEASED; CLightDTEngine * pldte = &GetPed()->_ldte; if(pVar && pVar->vt == (VT_UNKNOWN | VT_BYREF)) { return pldte->RangeToDataObject(this, SF_TEXT | SF_RTF, (IDataObject **)pVar->ppunkVal); } return pldte->CopyRangeToClipboard(this); #else return 0; #endif } /* * CTxtRange::Cut (pVar) * * @mfunc * Cut the plain and/or rich text to a data object and return the * object ptr in

. If

is null, * cut to the clipboard. * * @rdesc * HRESULT = (if success) ? NOERROR : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::Cut ( VARIANT * pVar) //@parm Out parm for data object { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Cut"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); if(WriteAccessDenied()) return E_ACCESSDENIED; HRESULT hr = Copy(pVar); Replacer(0, NULL); return hr; } /* * CTxtRange::Delete (Unit, Count, pDelta) * * @mfunc * If this range is nondegenerate, delete it along with |Count| - 1 Units * in the direction specified by the sign of Count. If this range is * degenerate, delete Count Units. * * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (all requested Units deleted) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::Delete ( long Unit, //@parm Unit to use long Count, //@parm Number of chars to delete long * pDelta) //@parm Out parm to receive count of units deleted { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Delete"); if(pDelta) *pDelta = 0; if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); if(WriteAccessDenied()) return E_ACCESSDENIED; LONG cchSave = _cch; // Remember initial count LONG cchText = GetAdjustedTextLength(); LONG CountOrg = Count; LONG cpMin, cpMost; LONG cUnit = 0; // Default no Units MOVES Mode = (Count >= 0) ? MOVE_END : MOVE_START; GetRange(cpMin, cpMost); if(cpMost > cchText) // Can't delete final CR. To get { // *pDelta right, handle here Set(cpMin, cpMin - cchText); // Backup before CR & set active if(Count > 0) // end at cpMin since there's { // nothing to delete forward Count = 0; if(!_cch) // Only collapsed selection of Mode = MOVE_IP; // final CR: set up nothing } // deleted (MOVE_IP = 0) } if(Count) { if((_cch ^ Mode) < 0) // Be sure active end is in FlipRange(); // deletion direction if(cchSave) // Deleting nondegenerate range Count -= Mode; // counts as one unit if(Mover(Unit, Count, &cUnit, Mode) // Try to expand range for == E_INVALIDARG) // remaining Count Units { if(pDelta) *pDelta = 0; return E_INVALIDARG; } if(GetCp() > cchText && cUnit > 0) // Range includes final CR, which { // cannot be deleted. Reduce if(Unit == tomCharacter) // counts for some Units cUnit -= GetTextLength() - cchText; else if(Unit == tomWord) cUnit--; // An EOP qualifies as a tomWord } } if(cchSave) // Deleting nondegenerate range cUnit += Mode; // counts as a Unit if(pDelta) *pDelta = cUnit; if(_cch) // Mover() may have changed _cch { IUndoBuilder * publdr; CGenUndoBuilder undobldr(GetPed(), UB_AUTOCOMMIT, &publdr); if (publdr) { publdr->StopGroupTyping(); publdr->SetNameID(UID_DELETE); } // FUTURE (murrays): the cchSave case should set up undo to // restore the original range, not the extended range resulting // when |CountOrg| > 1. This could be done using two calls to // ReplaceRange(), one to delete the original range and one to // delete the rest SELRR selrr = !_fSel || cchSave ? SELRR_REMEMBERRANGE : CountOrg > 0 ? SELRR_REMEMBERCPMIN : SELRR_REMEMBERENDIP; ReplaceRange(0, NULL, publdr, selrr); if (cUnit == CountOrg || // Delete(Unit,0,0) cUnit == 1 && !CountOrg) // deletes one "Unit", namely { // what's selected return NOERROR; // Signal everything deleted as } // requested } else if(cchSave) // Collapsed selection of final CR { // but didn't delete anything Update(TRUE); // Selection highlighting changed } return S_FALSE; // Less deleted than requested } /* * CTxtRange::EndOf (Unit, Extend, pDelta) * * @mfunc * Move this range end(s) to end of the first overlapping Unit in * the range. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit supported) ? S_FALSE : E_NOTIMPL */ STDMETHODIMP CTxtRange::EndOf ( long Unit, //@parm Unit to use long Extend, //@parm If true, leave other end alone long * pDelta) //@parm Count of chars that End is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::EndOf"); CCallMgr callmgr(GetPed()); LONG cpMost; HRESULT hr = Expander (Unit, Extend, pDelta, NULL, &cpMost); if(hr == NOERROR) Update(TRUE); // Update selection return hr; } /* * CTxtRange::Expand (Unit, pDelta) * * @mfunc * Expand this range so that any partial Units it contains are * completely contained. If this range consists of one or more full * Units, no change is made. If this range is an insertion point at * the beginning or within a Unit, Expand() expands this range to include * that Unit. If this range is an insertion point at the end of the * story, Expand() tries to set this range to include the last Unit in * the story. The active end is always cpMost except for the last case. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit supported) ? S_FALSE : E_NOTIMPL */ STDMETHODIMP CTxtRange::Expand ( long Unit, //@parm Unit to expand range to long * pDelta) //@parm Out parm to receive count of chars added { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Expand"); CCallMgr callmgr(GetPed()); LONG cpMin, cpMost; HRESULT hr = Expander (Unit, TRUE, pDelta, &cpMin, &cpMost); if(hr == NOERROR) Update(TRUE); // Update selection return hr; } /* * CTxtRange::FindText (bstr, cch, Flags, pLength) * * @mfunc * If this range isn't an insertion point already, convert it into an * insertion point at its End if

0 and at its Start if *

0. Then search up to

characters of the range * looking for the string

subject to the compare flags *

. If

0, the search is forward and if

* 0 the search is backward. If the string is found, the range * limits are changed to be those of the matched string and *

* is set equal to the length of the string. If the string isn't found, * the range remains unchanged and *

is set equal to 0. * * @rdesc * HRESULT = (if

found) ? NOERROR : S_FALSE * * @devnote * Argument validation of the three Find methods is done by the helper * function CTxtRange::Finder(bstr, cch, dwFlags, pDelta, fExtend, fFlip) */ STDMETHODIMP CTxtRange::FindText ( BSTR bstr, //@parm String to find long Count, //@parm Max count of chars to search long Flags, //@parm Flags governing compares long * pDelta) //@parm Out parm to receive count of chars moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::FindText"); return Finder(bstr, Count, Flags, pDelta, MOVE_IP); } /* * CTxtRange::FindTextEnd (bstr, cch, Flags, pLength) * * @mfunc * Starting from this range's End, search up to

characters * looking for the string

subject to the compare flags *

. If

0, the search is forward and if

* 0 the search is backward. If the string is found, the range * limits are changed to be those of the matched string and *

* is set equal to the length of the string. If the string isn't found, * the range remains unchanged and *

is set equal to 0. * * @rdesc * HRESULT = (if

found) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::FindTextEnd ( BSTR bstr, //@parm String to find long Count, //@parm Max count of chars to search long Flags, //@parm Flags governing compares long * pDelta) //@parm Out parm to receive count of chars moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::FindTextEnd"); return Finder(bstr, Count, Flags, pDelta, MOVE_END); } /* * CTxtRange::FindTextStart (bstr, cch, Flags, pDelta) * * @mfunc * Starting from this range's Start, search up to

characters * looking for the string

subject to the compare flags *

. If

0, the search is forward and if

* 0 the search is backward. If the string is found, the range * limits are changed to be those of the matched string and *

* is set equal to the length of the string. If the string isn't found, * the range remains unchanged and *

is set equal to 0. * * @rdesc * HRESULT = (if

found) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::FindTextStart ( BSTR bstr, //@parm String to find long Count, //@parm Max count of chars to search long Flags, //@parm Flags governing compares long * pDelta) //@parm Out parm to receive count of chars moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::FindTextStart"); return Finder(bstr, Count, Flags, pDelta, MOVE_START); } /* * CTxtRange::GetChar (pChar) * * @mfunc * Set *

equal to the character at cpFirst * * @rdesc * HRESULT = (

) NOERROR ? E_INVALIDARG * * @devnote * This method is very handy for walking a range character by character * from the Start. Accordingly, it's desirable that the active end * is at the Start. We set this up for a range, since the API doesn't * care which range end is active. But we can't do this for a selection, * since the selection API depends on the active end. */ STDMETHODIMP CTxtRange::GetChar ( long * pChar) //@parm Out parm for char { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetChar"); HRESULT hr = GetLong(0, pChar); if(hr != NOERROR) return hr; if(_cch > 0) // Active end at cpMost (End) { if(_fSel) { CTxtPtr tp(_rpTX); // For selection, can't change tp.AdvanceCp(-_cch); // active end *pChar = (long)(tp.GetChar()); return NOERROR; } FlipRange(); // For range, it's more efficient } // to work from cpFirst and API *(DWORD *)pChar = _rpTX.GetChar(); // doesn't expose RichEdit active // end return NOERROR; } /* * CTxtRange::GetDuplicate (ppRange) * * @mfunc * Get a clone of this range object. For example, you may want to * create an insertion point to traverse a range, so you clone the * range and then set the clone's cpLim equal to its cpFirst. A range * is characterized by its cpFirst, cpLim, and the story it belongs to. * * @rdesc * HRESULT = (if success) ? NOERROR : * (

) ? E_OUTOFMEMORY : E_INVALIDARG * * @comm * Even if this range is a selection, the clone returned is still only * a range. */ STDMETHODIMP CTxtRange::GetDuplicate ( ITextRange ** ppRange) //@parm Out parm to receive duplicate of range { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetDuplicate"); HRESULT hr = GetLong(NULL, (LONG *)ppRange); if(hr != NOERROR) return hr; ITextRange *prg = new CTxtRange(*this); if(prg) { *ppRange = prg; prg->AddRef(); return NOERROR; } return E_OUTOFMEMORY; } /* * ITextRange::GetEmbeddedObject (ppV) * * @mfunc * Property get method that gets a ptr to the object at cpFirst * * @rdesc * HRESULT = (!ppV) ? E_INVALIDARG : * (object found) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::GetEmbeddedObject ( IUnknown **ppV) //@parm Out parm to receive embedded object { HRESULT hr = GetLong(NULL, (LONG *)ppV); if(hr != NOERROR) return hr; if(GetObjectCount()) { COleObject *pobj = GetPed()->_pobjmgr->GetObjectFromCp(GetCpMin()); if(pobj && (*ppV = pobj->GetIUnknown()) != NULL) { (*ppV)->AddRef(); return NOERROR; } } return S_FALSE; } /* * CTxtRange::GetEnd (pcpLim) * * @mfunc * Get this range's End (cpMost) cp * * @rdesc * HRESULT = (

) ? NOERROR : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetEnd ( long * pcpLim) //@parm Out parm to receive End cp value { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetEnd"); return GetLong(GetCpMost(), pcpLim); } /* * CTxtRange::GetFont (ppFont) * * @mfunc * Get an ITextFont object with the character attributes of this range * * @rdesc * HRESULT =

? NOERROR : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetFont ( ITextFont ** ppFont) //@parm Out parm to receive ITextFont object { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetFont"); HRESULT hr = GetLong(NULL, (LONG *)ppFont); if(hr != NOERROR) return hr; *ppFont = (ITextFont *) new CTxtFont(this); return *ppFont ? NOERROR : E_OUTOFMEMORY; } /* * CTxtRange::GetFormattedText (ppRange) * * @mfunc * Retrieves an ITextRange with this range's formatted text. * If

is NULL, the clipboard is the target. * * @rdesc * HRESULT = (if success) ? NOERROR : * (

) ? E_OUTOFMEMORY : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetFormattedText ( ITextRange ** ppRange) //@parm Out parm to receive formatted text { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetFormattedText"); return GetDuplicate(ppRange); } /* * CTxtRange::GetIndex (Unit, pIndex) * * @mfunc * Set *

equal to the Unit number at this range's cpFirst * * @rdesc * HRESULT = (!

) ? E_INVALIDARG : * (Unit not implemented) ? E_NOTIMPL : * (Unit available) ? NOERROR : S_FALSE * @future * implement tomWindow? */ STDMETHODIMP CTxtRange::GetIndex ( long Unit, //@parm Unit to index long * pIndex) //@parm Out parm to receive index value { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetIndex"); HRESULT hr = GetLong(0, pIndex); if(hr != NOERROR) return hr; LONG cp; LONG cUnit = tomBackward; CTxtRange rg(*this); hr = rg.Expander(Unit, FALSE, NULL, // Go to Start of Unit; else &cp, NULL); // UnitCounter gives 1 extra if(FAILED(hr)) return hr; // Unit not recognized LONG cch = rg.UnitCounter(Unit, cUnit, 0); if(cch == tomForward) // UnitCounter() doesn't know return E_NOTIMPL; // Unit if(cch == tomBackward) // Unit not in story return S_FALSE; *pIndex = -cUnit + 1; // Make count positive and // 1-based return NOERROR; } /* * CTxtRange::GetPara (ppPara) * * @mfunc * Get an ITextPara object with the paragraph attributes of this range * * @rdesc * HRESULT =

? NOERROR : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetPara ( ITextPara ** ppPara) //@parm Out parm to receive ITextPara object { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetPara"); HRESULT hr = GetLong(NULL, (LONG *)ppPara); if(hr != NOERROR) return hr; *ppPara = (ITextPara *) new CTxtPara(this); return *ppPara ? NOERROR : E_OUTOFMEMORY; } /* * CTxtRange::GetPoint (px, py, Type) * * @mfunc * Get point for selection Start or End and intraline position * as determined by

. * * @rdesc * HRESULT = (!

or !

) ? E_INVALIDARG : * (if success) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::GetPoint ( long Type, //@parm Type of point long * px, //@parm Out parm for x coordinate long * py) //@parm Out parm for y coordinate { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtSelection::GetPoint"); if(!px || !py) return E_INVALIDARG; *px = *py = 0; if(IsZombie()) return CO_E_RELEASED; LONG ili; BOOL fAtEnd = _cch > 0; // Default value for IP POINT pt; CRchTxtPtr rtp(*this); // Default active end CTxtEdit * ped = GetPed(); CDisplay * pdp = ped->_pdp; // Save indirections if(!pdp || !ped->fInplaceActive()) return E_FAIL; // No display or not active // then we can do nothing. if(fAtEnd ^ !(Type & tomStart)) // Move tp to active end rtp.Advance(-_cch); ili = pdp->PointFromTp(rtp, NULL, fAtEnd, pt, NULL, Type & 0x1f); RECT rcView; // Verify return value makes // sense since PointFromTp pdp->GetViewRect(rcView, NULL); // may return values outside // client rect rcView.bottom++; // Enlarge Rect to include rcView.right++; // bottom and right edges if(ili >= 0 && PtInRect(&rcView, pt)) // Function succeeded { // Caller wants screen coordinates? if ( !(Type & tomClientCoord) ) ped->TxClientToScreen(&pt); *px = pt.x; *py = pt.y; return NOERROR; } return S_FALSE; // Function failed } /* * CTxtRange::GetStart (pcpFirst) * * @mfunc * Get this range's Start (cpMin) cp * * @rdesc * HRESULT = (

) ? NOERROR : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetStart ( long * pcpFirst) //@parm Out parm to receive Start cp value { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetStart"); return GetLong(GetCpMin(), pcpFirst); } /* * CTxtRange::GetStoryLength (pcch) * * @mfunc * Set *

= count of chars in this range's story * * @rdesc * HRESULT = (

) ? NOERROR : E_INVALIDARG */ STDMETHODIMP CTxtRange::GetStoryLength ( long * pcch) //@parm Out parm to get length of this range's story { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetStoryLength"); return GetLong(GetTextLength(), pcch); } /* * ITextRange::GetStoryType (pValue) * * @mfunc * Property get method that gets the type of this range's * story. * * @rdesc * HRESULT = (pValue) NOERROR ? E_INVALIDARG */ STDMETHODIMP CTxtRange::GetStoryType ( long *pValue) //@parm Out parm to get type of this range's story { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetStoryType"); return GetLong(tomUnknownStory, pValue); } /* * CTxtRange::GetText (pbstr) * * @mfunc * Get plain text in this range. The Text property is the default * property for ITextRange. * * @rdesc * HRESULT = (if success) ? NOERROR : * (!

) ? E_INVALIDARG : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::GetText ( BSTR * pbstr) //@parm Out parm to receive bstr { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetText"); HRESULT hr = GetLong(NULL, (LONG *)pbstr); if(hr != NOERROR) return hr; if(!GetCch()) return NOERROR; LONG cpMin, cpMost; LONG cch = GetRange(cpMin, cpMost); *pbstr = SysAllocStringLen(NULL, cch); if(!*pbstr) return E_OUTOFMEMORY; CTxtPtr tp(_rpTX); tp.SetCp(cpMin); tp.GetText( cch, (TCHAR*) * pbstr ); return NOERROR; } /* * CTxtRange::InRange (pRange, pB) * * @mfunc * Returns *

= tomTrue iff this range points within or at the same * text as

does * * @rdesc * HRESULT = (within range) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::InRange ( ITextRange * pRange, //@parm ITextRange to compare with long * pB) //@parm Out parm for comparison result { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::InRange"); return IsTrue(Comparer(pRange), pB); } /* * CTxtRange::InStory (pRange, pB) * * @mfunc * Return *pB = tomTrue iff this range's story is the same as *

's * * @rdesc * HRESULT = (in story) ? NOERROR : S_FALSE * * @future * If RichEdit acquires the ability to have multiple stories and * therefore ranges get a _story member, then compare that member * instead of calling _rpTX.SameRuns(). */ STDMETHODIMP CTxtRange::InStory ( ITextRange *pRange, //@parm ITextRange to query for private interface long * pB) //@parm Out parm to receive tomBool result { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::InStory"); return IsTrue(IsSameVtables(this, pRange) && // Same vtables, _rpTX.SameRuns(&((CTxtRange *)pRange)->_rpTX), // same Runs pB); #else return 0; #endif } /* * CTxtRange::IsEqual (pRange, pB) * * @mfunc * Returns *

= tomTrue iff this range points at the same text (cp's * and story) as

does and pB isn't NULL. * * @rdesc * HRESULT = (equal objects) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::IsEqual ( ITextRange * pRange, //@parm ITextRange to compare with long * pB) //@parm Out parm for comparison result { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::IsEqual"); return IsTrue(Comparer(pRange) < 0, pB); } /* * CTxtRange::Move (Unit, Count, pDelta) * * @mfunc * Move end(s)

's, returning *

= # units * actually moved. In general, this method converts a range into an * insertion point if it isn't already, and moves the insertion point. * If

0, motion is forward toward the end of the story; * if

0, motion is backward toward the beginning. *

= 0 moves cpFirst to the beginning of the

* containing cpFirst. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit supported) ? S_FALSE : E_NOTIMPL * @devnote * Argument validation of the three Move methods is done by the helper * function CTxtRange::Mover(Unit, Count, pDelta, Mode) */ STDMETHODIMP CTxtRange::Move ( long Unit, //@parm Unit to use long Count, //@parm Number of Units to move long * pDelta) //@parm Out parm to receive actual count of // Units end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Move"); CCallMgr callmgr(GetPed()); return Mover(Unit, Count, pDelta, MOVE_IP); } /* * CTxtRange::MoveEnd (Unit, Count, pDelta) * * @mfunc * Move End end

's, returning *

= # units * actually moved * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit supported) ? S_FALSE : E_NOTIMPL */ STDMETHODIMP CTxtRange::MoveEnd ( long Unit, //@parm Unit to use long Count, //@parm Number of Units to move long * pDelta) //@parm Out parm to receive actual count of // Units end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveEnd"); CCallMgr callmgr(GetPed()); return Mover(Unit, Count, pDelta, MOVE_END); } /* * CTxtRange::MoveEndUntil (Cset, Count, pDelta) * * @mfunc * Move the End just past all contiguous characters that are not found * in the set of characters specified by the VARIANT

parameter. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::MoveEndUntil ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveEndUntil"); return Matcher(Cset, Count, pDelta, MOVE_END, MATCH_UNTIL); } /* * CTxtRange::MoveEndWhile (Cset, Count, pDelta) * * @mfunc * Move the End just past all contiguous characters that are found in * the set of characters specified by the VARIANT

parameter. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::MoveEndWhile ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveEndWhile"); return Matcher(Cset, Count, pDelta, MOVE_END, MATCH_WHILE); } /* * CTxtRange::MoveStart (Unit, Count, pDelta) * * @mfunc * Move Start end

's, returning *

= # units * actually moved * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit supported) ? S_FALSE : E_NOTIMPL */ STDMETHODIMP CTxtRange::MoveStart ( long Unit, //@parm Unit to use long Count, //@parm Number of Units to move long * pDelta) //@parm Out parm to receive actual count of // Units end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveStart"); CCallMgr callmgr(GetPed()); return Mover(Unit, Count, pDelta, MOVE_START); } /* * CTxtRange::MoveStartUntil (Cset, Count, pDelta) * * @mfunc * Move the Start just past all contiguous characters that are not found * in the set of characters specified by the VARIANT

parameter. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::MoveStartUntil ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveStartUntil"); return Matcher(Cset, Count, pDelta, MOVE_START, MATCH_UNTIL); } /* * CTxtRange::MoveStartWhile (Cset, Count, pDelta) * * @mfunc * Move the Start just past all contiguous characters that are found in * the set of characters specified by the VARIANT

parameter. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::MoveStartWhile ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveStartWhile"); return Matcher(Cset, Count, pDelta, MOVE_START, MATCH_WHILE); } /* * CTxtRange::MoveUntil (Cset,Count, pDelta) * * @mfunc * Convert this range into an insertion point if it isn't already, * and keep moving the insertion point until encountering any * character in the set of characters specified by the VARIANT cset * parameter. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::MoveUntil ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveUntil"); return Matcher(Cset, Count, pDelta, MOVE_IP, MATCH_UNTIL); } /* * CTxtRange::MoveWhile (Cset, Count, pDelta) * * @mfunc * Convert this range into an insertion point if it isn't already, * and keep moving the insertion point so long as (while) the * characters past by are found in set of characters specified by * the VARIANT cset parameter. Such a contiguous set of characters * is known as a span of characters. The magnitude of the

* parameter gives the maximum number of characters to move past and * the sign of

specifies the direction to move in. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG * * @devnote * Argument validation of the MoveWhile and MoveUntil methods is done by * the helper CTxtRange::Matcher (Cset, Count, pDelta, fExtend, fSpan) */ STDMETHODIMP CTxtRange::MoveWhile ( VARIANT * Cset, //@parm Character match set to use long Count, //@parm Max number of characters to move past long * pDelta) //@parm Out parm to receive actual count of // characters end is moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::MoveWhile"); return Matcher(Cset, Count, pDelta, MOVE_IP, MATCH_WHILE); } /* * CTxtRange::Paste (pVar, ClipboardFormat) * * @mfunc * Paste the data object

into this range. If *

is null, paste from the clipboard. * * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (if success) ? NOERROR : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::Paste ( VARIANT *pVar, //@parm Data object to paste long ClipboardFormat) //@parm Desired clipboard format { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Paste"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); HRESULT hr; IDataObject * pdo = NULL; // Default clipboard IUndoBuilder * publdr; CGenUndoBuilder undobldr(GetPed(), UB_AUTOCOMMIT, &publdr); if(WriteAccessDenied()) return E_ACCESSDENIED; if(pVar) if (pVar->vt == VT_UNKNOWN) pVar->punkVal->QueryInterface(IID_IDataObject, (void **)&pdo); else if (pVar->vt == (VT_UNKNOWN | VT_BYREF)) pdo = (IDataObject *)(*pVar->ppunkVal); hr = GetPed()->PasteDataObjectToRange (pdo, this, (WORD)ClipboardFormat, NULL, publdr, PDOR_NONE); if(pdo && pVar->vt == VT_UNKNOWN) pdo->Release(); Update(TRUE); // Update selection return hr; #else return 0; #endif } /* * ITextRange::ScrollIntoView(long Code) * * @mfunc * Method that scrolls this range into view according to the * code Code defined below. * * @rdesc * HRESULT = (if success) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::ScrollIntoView ( long Code) //@parm Scroll code { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::ScrollIntoView"); // Check for invalid bits if (Code & ~(tomStart + tomEnd + TA_LEFT + TA_TOP + TA_BOTTOM + TA_CENTER + TA_STARTOFLINE + TA_ENDOFLINE + TA_LOGICAL)) return E_INVALIDARG; // Validate parameter long lCode = tomEnd; if (Code & tomStart) lCode = tomStart; Code &= ~tomStart; if(IsZombie()) return CO_E_RELEASED; // Get local copy of ped to save some indirections. CTxtEdit *ped = GetPed(); if (!ped->fInplaceActive()) { // If the control is not active, we can't get the information // because no one knows what our client rect is. return E_FAIL; } // Get a local copy of display to save some indirections. CDisplay *pdp = ped->_pdp; if (pdp->IsFrozen()) { return E_FAIL; } LONG cpStart; LONG cpForEnd; GetRange(cpStart, cpForEnd); // Get the view rectangle so we can compute the absolute x/y RECT rcView; pdp->GetViewRect(rcView, NULL); // Set up tp for PointFromTp call CRchTxtPtr rtp(*this); if(_cch > 0) rtp.Advance(-_cch); // Values used for making returned point locations absolute since // PointFromTp adjusts the point returned to be relative to the // display. const LONG xScrollAdj = pdp->GetXScroll() - rcView.left; const LONG yScrollAdj = pdp->GetYScroll() - rcView.top; // Get the left/top for the start BOOL taMask = Code & TA_STARTOFLINE; //set beginning of line flag BOOL fAtEnd = _cch ? TRUE : !rtp._rpTX.IsAfterEOP(); POINT ptStart; CLinePtr rpStart(pdp); LONG iliStart = pdp->PointFromTp(rtp, NULL, _cch ? FALSE : fAtEnd, ptStart, &rpStart, (lCode == tomStart && Code) ? Code : TA_TOP + TA_LEFT); ptStart.x += xScrollAdj; ptStart.y += yScrollAdj; // Get the right/bottom for the end rtp.SetCp(cpForEnd); POINT ptEnd; CLinePtr rpEnd(pdp); LONG iliEnd = pdp->PointFromTp(rtp, NULL, fAtEnd, ptEnd, &rpEnd, (lCode == tomEnd && Code) ? Code : TA_BOTTOM + TA_RIGHT); ptEnd.x += xScrollAdj; ptEnd.y += yScrollAdj; // // Calculate the yScroll // // The basic idea is to display both the start and the end if possible. But // if it is not possible then display the requested end based on the input // parameter. LONG yHeightView = pdp->GetViewHeight(); LONG yScroll; if (tomStart == lCode) { // Scroll the Start cp to the top of the view yScroll = ptStart.y; } else { // Scroll the End cp to the bottom of the view yScroll = ptEnd.y - yHeightView; } // // Calculate the X Scroll // // Default scroll to beginning of the line LONG xScroll = 0; // Make view local to save a number of indirections LONG xWidthView = pdp->GetViewWidth(); if (iliStart == iliEnd) { // Entire selection is on the same line so we want to display as // much of it as is possible. LONG xWidthSel = ptEnd.x - ptStart.x; if (xWidthSel > xWidthView) { // Selection length is greater than display width if (tomStart == lCode) { // Show Start requested - just start from beginning // of selection xScroll = ptStart.x; } else { // Show end requested - show as much of selection as // possible, ending with last character in the // selection. xScroll = ptEnd.x - xWidthView; } } else if (xWidthSel < 0) { xWidthSel = -xWidthSel; if (xWidthSel > xWidthView) { if (tomStart == lCode) { // Show Requested Start; xScroll = max(0, ptStart.x - xWidthView); } else { xScroll = max(0, ptEnd.x - xWidthView); } } else if (ptEnd.x > xWidthView || ptStart.x > xWidthView) { // Check mask if position is outside the boundaries if (taMask) xScroll = ptStart.x - xWidthView; else xScroll = ptEnd.x - xWidthView; } } else if (ptEnd.x > xWidthView || ptStart.x > xWidthView) { // Check mask if position is outside the boundaries if (taMask) xScroll = ptStart.x - xWidthView; else xScroll = ptEnd.x - xWidthView; } } else { // Multiline selection. Display as much as possible of the requested // end's line. // Calc width of line LONG xWidthLine = (tomStart == lCode) ? rpStart->_xWidth + rpStart->_xLeft : rpEnd->_xWidth + rpEnd->_xLeft; // If line width is less than or equal to view, start at // 0 otherwise we need to adjust starting position to // show as much of the requested end's selection line // as possible. if(xWidthLine > xWidthView) { if(tomStart == lCode) { // Start end to be displayed if(xWidthLine - ptStart.x > xWidthView) { // Selection is bigger than view, so start at beginning // and display as much as possible. xScroll = ptStart.x; } else { // Remember that this is a multiline selection so the // selection on this line goes from ptStart.x to the // end of line. Since the selection width is less than // the width of the view, we just back up the width // of view to show the entire selection. xScroll = xWidthLine - xWidthView; } } else { // Show the end of the selection. In the multiline case, // this goes from the beginning of the line to End. So // we only have to adjust if the End is beyond the view. if(ptEnd.x > xWidthView) { // End beyond the view. Show as much as possible // of the selection. xScroll = ptEnd.x - xWidthView; } } } } // Do the scroll pdp->ScrollView(xScroll, yScroll, FALSE, FALSE); return S_OK; #else return 0; #endif } /* * CTxtRange::Select () * * @mfunc * Copy this range's cp's and story ptr to the active selection. * * @rdesc * HRESULT = (if selection exists) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::Select () { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Select"); if(IsZombie()) return CO_E_RELEASED; CTxtSelection *pSel = GetPed()->GetSel(); if(pSel) { LONG cpMin, cpMost; GetRange(cpMin, cpMost); pSel->SetRange(cpMin, cpMost); return NOERROR; } return S_FALSE; } /* * CTxtRange::SetChar (Char) * * @mfunc * Set char at cpFirst =

* * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (char stored) ? NOERROR : S_FALSE * * @devnote * Special cases could be much faster, e.g., just overtype the plain- * text backing store unless at EOD or EOR. Code below uses a cloned * range to handle all cases easily and preserve undo capability. */ STDMETHODIMP CTxtRange::SetChar ( long Char) //@parm New value for char at cpFirst { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetChar"); if(IsZombie()) return CO_E_RELEASED; CTxtEdit * ped = GetPed(); CCallMgr callmgr(ped); TCHAR ch = (TCHAR)Char; // Avoid endian problems CTxtRange rg(*this); IUndoBuilder * publdr; CGenUndoBuilder undobldr(ped, UB_AUTOCOMMIT, &publdr); CFreezeDisplay fd(ped->_pdp); if(WriteAccessDenied()) return E_ACCESSDENIED; if(!ped->_pdp->IsMultiLine() && IsEOP(Char))// EOPs are not allowed in return FALSE; // single-line edit controls undobldr.StopGroupTyping(); rg.Collapser(tomStart); // Collapse at cpMin rg.SetExtend(TRUE); // Setup to select rg.Advance(1); // Try to select char at IP ped->OrCharFlags(GetCharFlags(ch), publdr); if(rg.ReplaceRange(1, &ch, publdr, SELRR_REMEMBERRANGE)) { Update(TRUE); // Update selection return NOERROR; } return S_FALSE; } /* * CTxtRange::SetEnd (cp) * * @mfunc * Set this range's End cp * * @rdesc * HRESULT = (if change) ? NOERROR : S_FALSE * * @comm * Note that setting this range's cpMost to

also sets cpMin to *

if

< cpMin. */ STDMETHODIMP CTxtRange::SetEnd ( long cp) //@parm Desired new End cp { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetEnd"); if(IsZombie()) return CO_E_RELEASED; LONG cpMin = GetCpMin(); ValidateCp(cp); return SetRange(min(cpMin, cp), cp); // Active end is End } /* * CTxtRange::SetFont (pFont) * * @mfunc * Set this range's character attributes to those given by

. * This method is a "character format painter". * * @rdesc * HRESULT = (!pFont) ? E_INVALIDARG : * (if success) ? NOERROR : * (protected) ? E_ACCESSDENIED : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::SetFont ( ITextFont * pFont) //@parm Font object with desired character formatting { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetFont"); if(!pFont) return E_INVALIDARG; if(IsZombie()) return CO_E_RELEASED; ITextFont *pFontApply = (ITextFont *) new CTxtFont(this); if(!pFontApply) return E_OUTOFMEMORY; HRESULT hr; if(*(LONG *)pFontApply == *(LONG *)pFont) // If same vtable, use hr = CharFormatSetter(&((CTxtFont *)pFont)->_CF, // its copy ((CTxtFont *)pFont)->_dwMask); else // Else copy hr = pFontApply->SetDuplicate(pFont); // to clone and apply pFontApply->Release(); return hr; } /* * CTxtRange::SetFormattedText (pRange) * * @mfunc * Replace this range's text with formatted text given by

. * If

is NULL, paste from the clipboard. * * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (if success) ? NOERROR : E_OUTOFMEMORY * * @FUTURE * Do this more efficiently if pRange points at a RichEdit range. This * would also help with RichEdit D&D to RichEdit targets */ STDMETHODIMP CTxtRange::SetFormattedText ( ITextRange * pRange) //@parm Formatted text to replace this // range's text { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetFormattedText"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); LONG cpMin = GetCpMin(); HRESULT hr; IUnknown * pdo = NULL; VARIANT vr; if(!pRange) return NOERROR; // Nothing to paste if(WriteAccessDenied()) return E_ACCESSDENIED; VariantInit(&vr); vr.vt = VT_UNKNOWN | VT_BYREF; vr.ppunkVal = &pdo; hr = pRange->Copy(&vr); if(hr == NOERROR) { hr = Paste(&vr, 0); pdo->Release(); // Release the data object _cch = GetCp() - cpMin; // Select the new text } return hr; #else return 0; #endif } /* * CTxtRange::SetIndex (Unit, Index, Extend) * * @mfunc * If

is zero, convert this range into an insertion point * at the start of the

th

in the current story. If *

is nonzero, set this range to consist of this unit. The * start of the story corresponds to

= 0 for all units. * * Positive indices are 1-based and index relative to the beginning of * the story. Negative indices are -1-based and index relative to the * end of the story. So an index of 1 refers to the first Unit in the * story and an index of -1 refers to the last Unit in the story. * * @rdesc * HRESULT = (invalid index) ? E_INVALIDARG : * (Unit not supported) ? E_NOTIMPL : * (change) ? NOERROR : S_FALSE * * @devnote * Currently moves out

s from the start of the story. * Might be faster to move from current position, but would need to know * the current index. */ STDMETHODIMP CTxtRange::SetIndex ( long Unit, //@parm Unit to index long Index, //@parm Index value to use long Extend) //@parm if nonzero, set range to

{ TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetIndex"); if(IsZombie()) return CO_E_RELEASED; if(!Index) return E_INVALIDARG; CCallMgr callmgr(GetPed()); LONG cchText = GetTextLength(); CTxtRange rg(GetPed()); // Create IP at cp = 0 if(Index > 0) // Index going forward First Index--; // Unit is at start of story else // Index from end of story rg.Set(cchText, cchText); // selecting whole story LONG cUnit; HRESULT hr = rg.Mover(Unit, Index, &cUnit, MOVE_END); if(FAILED(hr)) return hr; if(Index != cUnit || rg.GetCp() == cchText) // No such index in story return E_INVALIDARG; rg._cch = 0; // Collapse at active end // namely at cpMost LONG cpMin, cpMost; if(Extend) // Select Index'th Unit rg.Expander(Unit, TRUE, NULL, &cpMin, &cpMost); if(Set(rg.GetCp(), rg._cch)) // Something changed { Update(TRUE); return NOERROR; } return S_FALSE; } /* * CTxtRange::SetPara (pPara) * * @mfunc * Set this range's paragraph attributes to those given by

* This method is a "Paragraph format painter". * * @rdesc * HRESULT = (!pPara) ? E_INVALIDARG : * (if success) ? NOERROR : * (protected) ? E_ACCESSDENIED : E_OUTOFMEMORY */ STDMETHODIMP CTxtRange::SetPara ( ITextPara * pPara) //@parm Paragraph object with desired paragraph { // formatting TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetPara"); if(!pPara) return E_INVALIDARG; if(IsZombie()) return CO_E_RELEASED; ITextPara * pParaApply = (ITextPara *) new CTxtPara(this); if(!pParaApply) return E_OUTOFMEMORY; HRESULT hr; if(*(LONG *)pParaApply == *(LONG *)pPara) // If same vtable, use { // its _PF hr = ParaFormatSetter(&((CTxtPara *)pPara)->_PF, ((CTxtPara *)pPara)->_dwMask); } else // Else copy hr = pParaApply->SetDuplicate(pPara); // to clone and apply pParaApply->Release(); return hr; } /* * CTxtRange::SetPoint (x, y, Type, Extend) * * @mfunc * Select text at or up through (depending on

) the point * (

,

). * * @rdesc * HRESULT = NOERROR */ STDMETHODIMP CTxtRange::SetPoint ( long x, //@parm Horizontal coord of point to select long y, //@parm Vertical coord of point to select long Type, //@parm Defines the end to extend if Extend != 0. long Extend) //@parm Whether to extend selection to point { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetPoint"); if(IsZombie()) return CO_E_RELEASED; // Copy the ped locally once to save some indirections CTxtEdit *ped = GetPed(); CCallMgr callmgr(ped); if(Type != tomStart && Type != tomEnd) return E_INVALIDARG; if(!ped->fInplaceActive()) { // If we aren't inplace active we can't get a DC to // calculate the cp. return OLE_E_NOT_INPLACEACTIVE; } // Convert (x, y) from screen coordinates to client coordinates POINT pt = {x, y}; // Caller specifies screen coordinates? if ( !(Type & tomClientCoord) ) if(!ped->TxScreenToClient(&pt)) return E_FAIL; // It is unexpected for this to happen // Get cp for (x, y) LONG cpSel = ped->_pdp->CpFromPoint(pt, NULL, NULL, NULL, TRUE); if(cpSel == -1) return E_FAIL; // It is highly unexpected for this to fail // Extend range as requested LONG cchForSel = 0; if(Extend) { LONG cpMin, cpMost; GetRange(cpMin, cpMost); if(Type == tomStart) cchForSel = cpSel - cpMin; else cchForSel = cpSel - cpMost; } // Update range Set(cpSel, cchForSel); return S_OK; } /* * CTxtRange::SetRange (cp1, cp2) * * @mfunc * Set this range's ends * * @rdesc * HRESULT = (cp1 > cp2) ? E_INVALIDARG * : (if change) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::SetRange ( long cp1, //@parm Char position for Start end long cp2) //@parm Char position for End end { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetRange"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); LONG cpMin, cpMost; // Save starting cp's for // change determination GetRange(cpMin, cpMost); ValidateCp(cp1); ValidateCp(cp2); Set(cp2, cp2 - cp1); GetRange(cp1, cp2); // See if either range end changed if(cp1 != cpMin || cp2 != cpMost) // (independent of active end) { Update(TRUE); // Update selection return NOERROR; } return S_FALSE; } /* * CTxtRange::SetStart (cp) * * @mfunc * Set this range's Start cp * * @rdesc * HRESULT = (if change) ? NOERROR : S_FALSE * * @comm * Note that setting this range's cpMin to

also sets cpMost to *

if

> cpMost. */ STDMETHODIMP CTxtRange::SetStart ( long cp) //@parm Desired new Start cp { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetStart"); if(IsZombie()) return CO_E_RELEASED; LONG cpMost = GetCpMost(); ValidateCp(cp); return SetRange(max(cpMost, cp), cp); // Active end is Start } /* * CTxtRange::SetText (bstr) * * @mfunc * Replace text in this range by that given by

. If

* is NULL, delete text in range. * * @rdesc * HRESULT = (WriteAccessDenied) ? E_ACCESSDENIED : * (if success) ? NOERROR : S_FALSE */ STDMETHODIMP CTxtRange::SetText ( BSTR bstr) //@parm Text to replace text in this range by { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetText"); if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); if(WriteAccessDenied()) return E_ACCESSDENIED; LONG cchNew = bstr ? SysStringLen(bstr) : 0; _cch = Replacer(cchNew, (TCHAR *)bstr, RR_ITMZ_UNICODEBIDI); // Select the new text _TEST_INVARIANT_ GetPed()->TxSetMaxToMaxText(); return _cch == cchNew ? NOERROR : S_FALSE; } /* * CTxtRange::StartOf (Unit, Extend, pDelta) * * @mfunc * Move this range end(s) to start of the first overlapping Unit in * the range. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ STDMETHODIMP CTxtRange::StartOf ( long Unit, //@parm Unit to use long Extend, //@parm If true, leave other end alone long * pDelta) //@parm Out parm to get count of chars that // StartOf moved { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::StartOf"); CCallMgr callmgr(GetPed()); LONG cpMin; HRESULT hr = Expander (Unit, Extend, pDelta, &cpMin, NULL); if(hr == NOERROR) Update(TRUE); // Update selection return hr; } //---------------------- CTxtRange ITextSelection stubs ----------------------------- // Dummy CTxtRange routines to simplify CTxtSelection inheritance hierarchy STDMETHODIMP CTxtRange::GetFlags (long * pFlags) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetFlags"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::SetFlags (long Flags) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::SetFlags"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::GetType (long * pType) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::GetType"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::MoveLeft (long Unit, long Count, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Left"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::MoveRight (long Unit, long Count, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Right"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::MoveUp (long Unit, long Count, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Up"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::MoveDown (long Unit, long Count, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::Down"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::HomeKey (long Unit, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::HomeKey"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::EndKey (long Unit, long Extend, long * pDelta) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::EndKey"); return E_NOTIMPL; } STDMETHODIMP CTxtRange::TypeText (BSTR bstr) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEEXTERN, "CTxtRange::TypeText"); return E_NOTIMPL; } //--------------------- ITextRange Private Helper Methods ----------------------------- /* * @doc INTERNAL * * CTxtRange::Collapser (bStart) * * @mfunc * Internal routine to collapse this range into a degenerate point * either at the the start (

is nonzero or the end * (

= 0) */ void CTxtRange::Collapser ( long bStart) //@parm Flag specifying end to collapse at { TRACEBEGIN(TRCSUBSYSRANG, TRCSCOPEEXTERN, "CTxtRange::Collapser"); if(bStart) // Collapse to Start { if(_cch > 0) FlipRange(); // Move active end to range Start } else // Collapse to End { if(_cch < 0) FlipRange(); // Move active end to range End const LONG cchText = GetAdjustedTextLength(); if(GetCp() > cchText) // IP can't follow final CR Set(cchText, 0); // so move it before } if(_cch) _fMoveBack = bStart != 0; _cch = 0; // Collapse this range _fSelHasEOP = FALSE; // Insertion points don't have _fSelHasCell = FALSE; // EOPs or Cells if(_fSel) // Notify if selection changed GetPed()->GetCallMgr()->SetSelectionChanged(); Update_iFormat(-1); // Make sure format is up to date } /* * CTxtRange::Comparer(pRange) * * @mfunc * helper function for CTxtRange::InRange() and IsEqual() * * @rdesc * 0 if not same story or if this range isn't contained by

; * -1 if ranges are equal; 1 if this range wholely contained in *

. * * @comm * Note that if this range is degenerate and *pRange is nondegenerate, * this range is not included in *pRange if it's located at pRange's * End position. */ LONG CTxtRange::Comparer ( ITextRange * pRange) //@parm ITextRange to compare with { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Comparer"); LONG cpMin, cpMost; LONG Start, End; if(InStory(pRange, NULL) != NOERROR) // If this range doesn't point at return 0; // same story as pRange's, // return 0 GetRange(cpMin, cpMost); // Get this range's cp's pRange->GetStart(&Start); // Get pRange's cp's pRange->GetEnd(&End); if(cpMin == Start && cpMost == End) // Exact match return -1; return cpMin >= Start && cpMost <= End && cpMin < End; } /* * CTxtRange::Expander (Unit, fExtend, pDelta, pcpMin, pcpMost) * * @mfunc * Helper function that expands this range so that partial Units it * contains are completely contained according to the out parameters * pcpMin and pcpMost. If pcpMin is not NULL, the range is expanded to * the beginning of the Unit. Similarly, if pcpMost is not NULL, the * range is expanded to the end of the Unit.

is an out * parameter that receives the number of chars added to the range. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if Unit valid) ? S_FALSE : E_INVALIDARG * * @devnote * Used by ITextRange::Expand(), StartOf(), and EndOf(). Both pcpMin and * pcpMost are nonNULL for Expand(). pcpMin is NULL for EndOf() and * pcpMost is NULL for StartOf(). * * @future * Discontiguous Units. Expander should expand only to end of Unit, * rather than to start of next Unit. */ HRESULT CTxtRange::Expander ( long Unit, //@parm Unit to expand range to BOOL fExtend, //@parm Expand this range if TRUE LONG * pDelta, //@parm Out parm that receives chars added LONG * pcpMin, //@parm Out parm that receives new cpMin LONG * pcpMost) //@parm Out parm that receives new cpMost { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Expander"); if(IsZombie()) return CO_E_RELEASED; LONG cch = 0; // Default no chars added LONG cchRange; LONG cchAdjustedText = GetAdjustedTextLength(); LONG cchText = GetTextLength(); LONG cp; LONG cpMin, cpMost; BOOL fUnitFound = TRUE; // Most Units can be found LONG cchCollapse; CDisplay *pdp; // but tomObject maybe not GetRange(cpMin, cpMost); // Save starting cp's if(pcpMin) // Default no change { *pcpMin = cpMin; AssertSz(!pcpMost || fExtend, "CTxtRange::Expander should extend if both pcpMin and pcpMost != 0"); } if(pcpMost) *pcpMost = cpMost; if(pDelta) *pDelta = 0; if(Unit < 0) { // Valid attribute Units are high bit plus any combo of CFE_xxx. // CFE_REVISED is most significant value currently defined. if(Unit & ~(2*CFM_REVISED - 1 + 0x80000000)) return E_NOTIMPL; FindAttributes(pcpMin, pcpMost, Unit); } else { switch(Unit) // Calculate new cp's { case tomObject: fUnitFound = FindObject(pcpMin, pcpMost); break; case tomCharacter: if (pcpMost && cpMin == cpMost &&// EndOf/Expand insertion point cpMost < cchText && // with at least 1 more char (!cpMost || pcpMin)) // at beginning of story or { // Expand(), then (*pcpMost)++; // expand by one char } break; case tomCharFormat: _rpCF.FindRun (pcpMin, pcpMost, cpMin, _cch, cchText); break; case tomParaFormat: _rpPF.FindRun (pcpMin, pcpMost, cpMin, _cch, cchText); break; case tomWord: FindWord (pcpMin, pcpMost, FW_INCLUDE_TRAILING_WHITESPACE); break; case tomSentence: FindSentence (pcpMin, pcpMost); break; case tomCell: FindCell (pcpMin, pcpMost); break; case tomRow: _rpPF.AdjustForward(); if(InTable()) // In our simple table model, goto para; // each row is a single para break; case tomLine: pdp = GetPed()->_pdp; if(pdp) // If this story has a display { // use line array CLinePtr rp(pdp); cp = GetCp(); pdp->WaitForRecalc(cp, -1); rp.RpSetCp(cp, FALSE); rp.FindRun (pcpMin, pcpMost, cpMin, _cch, cchText); break; } // Else fall thru to tomPara case tomParagraph: para: FindParagraph(pcpMin, pcpMost); break; case tomWindow: fUnitFound = FindVisibleRange(pcpMin, pcpMost); break; case tomStory: if(pcpMin) *pcpMin = 0; if(pcpMost) *pcpMost = cchText; break; default: return E_NOTIMPL; } } if(!fUnitFound) return S_FALSE; cchCollapse = !fExtend && _cch; // Collapse counts as a char // Note: Expand() has fExtend = 0 if(pcpMin) { cch = cpMin - *pcpMin; // Default positive cch for Expand cpMin = *pcpMin; } if(pcpMost) // EndOf() and Expand() { if(!fExtend) // Will be IP if not already { if(cpMost > cchAdjustedText) // If we collapse (EndOf only), cchCollapse = -cchCollapse; // it'll be before the final CR else *pcpMost = min(*pcpMost, cchAdjustedText); } cch += *pcpMost - cpMost; cp = cpMost = *pcpMost; } else // StartOf() { cch = -cch; // Invert count cp = cpMin; // Active end at cpMin cchCollapse = -cchCollapse; // Backward collapses count as -1 } cch += cchCollapse; // Collapse counts as a char if(cch) // One or both ends changed { cchRange = cpMost - cpMin; // cch for EndOf() and Expand() if(!pcpMost) // Make negative for StartOf() cchRange = -cchRange; if(!fExtend) // We're not expanding (EndOf() cchRange = 0; // or StartOf() call) if(Set(cp, cchRange)) // Set active end and signed cch { // Something changed if(pDelta) // Report cch if caller cares *pDelta = cch; return NOERROR; } } return S_FALSE; // Report Unit found but no change } /* * CTxtRange::Finder (bstr, Count, dwFlags, pDelta, Mode) * * @mfunc * Helper find function that moves active end up to

characters * subject to compare flags

and the

, which has the * following possible values: * * 1: set this range's cpMost = cpMost of matched string * 0: set this range's cp's equal to those of matched string * -1: set this range's cpMin = cpMin of matched string * * Return *

= # characters past. * * @rdesc * HRESULT = (if

found) ? NOERROR : S_FALSE * * @devnote * Used by ITextRange::FindText(), FindTextStart() and FindTextEnd() */ HRESULT CTxtRange::Finder ( BSTR bstr, //@parm String to find long Count, //@parm Max count of chars to search long Flags, //@parm Flags governing compares LONG * pDelta, //@parm Out parm to receive count of chars moved MOVES Mode) //@parm Governs setting of range wrt matched string { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Finder"); if(!bstr) return S_FALSE; if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); LONG cpMin, cpMost; LONG cch = GetRange(cpMin, cpMost); // Get this range's cp's LONG cchBstr = SysStringLen(bstr); LONG cchSave = _cch; LONG cp, cpMatch, cpSave; LONG cpStart = cpMost; // Default Start cp to range CRchTxtPtr rtp(*this); // End if(Mode == MOVE_IP) // FindText(): Count = 0 is { // treated specially: if IP, if(!Count) // compare string at IP; else Count = cch ? cch : cchBstr; // confine search to range if(Count > 0) // Forward searches start from cpStart = cpMin; // beginning of range } else // FindTextStart() or { // FindTextEnd() if(!Count) // Compare string at IP; else Count = cch ? -Mode*cch : cchBstr; // confine search to range if(Mode < 0) // Find from Start cpStart = cpMin; } cpSave = cpStart; // Save starting cp cp = cpStart + Count; // cp = limiting cp. Can be on cp = max(cp, 0); // either side of cpStart Flags &= ~FR_DOWN; // Default search backward if(Count >= 0) // It's forward, so set Flags |= FR_DOWN; // downward search bit find: rtp.SetCp(cpStart); // Move to start of search cpMatch = rtp.FindText(cp, Flags, bstr, cchBstr); if (Mode == MOVE_IP && cpMatch == cpMin && // Ordinary Find matched rtp.GetCp() == cpMost) // current range { Assert(cpStart == cpSave); // (Can't loop twice) cpStart += Count > 0 ? 1 : -1; // Move over one char goto find; // and try again } if(cpMatch < 0) // Match failed { if(pDelta) // Return match string length *pDelta = 0; // = 0 return S_FALSE; // Signal no match } // Match succeeded: set new cp and cch for range, update selection (if // this range is a selection), send notifications, and return NOERROR cp = rtp.GetCp(); // cp = cpMost of match string if(pDelta) // Return match string length *pDelta = cchBstr; // if caller wants to know cch = cp - cpMatch; // Default to select matched // string (for MOVE_IP) if(Mode != MOVE_IP) // MOVE_START or MOVE_END { if(Mode == MOVE_START) // MOVE_START moves to start cp = cpMatch; // of matched string cch = cp - cpSave; // Distance end moved if(!cchSave && (Mode ^ cch) < 0) // If crossed ends of initial cch = 0; // IP, use an IP else if(cchSave) // Initially nondegenerate { // range if((cchSave ^ Mode) < 0) // If wrong end is active, cchSave = -cchSave; // fake a FlipRange to get cch += cchSave; // new length if((cch ^ cchSave) < 0) // If ends would cross, cch = 0; // convert to insertion point } } if ((cp != GetCp() || cch != _cch) // Active end and/or length of && Set(cp, cch)) // range changed { // Use the new values Update(TRUE); // Update selection } return NOERROR; } /* * CTxtRange::Matcher (Cset, Count, pDelta, fExtend, Match) * * @mfunc * Helper function to move active end up to

characters past * all contiguous characters that are (

? in : not in) the cset * *

. If

, extend the range to include the characters * past by. Return *

= # characters past by. * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ HRESULT CTxtRange::Matcher ( VARIANT * Cset, //@parm Character match set long Count, //@parm Max cch to match long * pDelta, //@parm Out parm for cch moved MOVES Mode, //@parm MOVE_START (-1), MOVE_IP (0), MOVE_END (1) MATCHES Match) //@parm MATCH_WHILE spans Cset; else break on Cset { #ifndef PEGASUS TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Matcher"); // This (and other) code assumes the following conditions: Assert(MOVE_START == -1 && MOVE_IP == 0 && MOVE_END == 1); Assert(MATCH_UNTIL == 0 && MATCH_WHILE == 1); Assert(sizeof(WORD) == 2); // 16-bit WORDs if(!Cset) return E_INVALIDARG; if(IsZombie()) return CO_E_RELEASED; CCallMgr callmgr(GetPed()); LONG cch; // For cch moved TCHAR ch; // Current char LONG count = Count; // Count down variable LONG cpSave; // To save initial cp WORD ctype; // CT_TYPEx info for ch long Delta; // Value for *pDelta BOOL fInCset; // TRUE iff ch in Cset UINT i, j; // Handy indices LONG iDir = (Count > 0) ? 1 : -1; // Count increment long lVal = Cset->lVal; TCHAR * pch; // Used to walk BSTR Cset CTxtPtr tp(_rpTX); // tp to walk text with LONG vt = Cset->vt; if(pDelta) // Default neither motion *pDelta = 0; // nor match if (Mode == MOVE_IP && (_cch ^ Count) < 0 || // Wrong active end: Mode != MOVE_IP && (_cch ^ Mode) < 0) { tp.AdvanceCp(-_cch); // go to other end } cpSave = tp.GetCp(); // Save cp for checks if(Count > 0) // If matching forward, { // get current char ch = tp.GetChar(); count--; // One less char to match } else // If matching backward, ch = tp.NextCharCount(count); // start at previous char if(!ch) // At one end or other, so return S_FALSE; // signal no match // Process built-in and explicit character sets if(vt & VT_BYREF) // VB passes VT_BYREF { // unless args are lVal = *Cset->plVal; // enclosed in ()'s vt &= ~ VT_BYREF; } if(vt == VT_I2) // Should be VT_I4, but lVal &= 0xffff; // facilitate common cases // Built-in char set: either Unicode range or CT_CTYPEx if(vt == VT_I4 || vt == VT_I2) { i = lVal & 0xffff; // First code or CT mask j = lVal >> 16; // Size of range if(lVal < 0) // Unicode range Cset { // (sign bit is set) j &= 0x7fff; // Kill sign bit while (((BOOL)Match ^ (ch - i > j)) && // ch in range or not (ch = tp.NextCharCount(count))) // Another char available ; // Note: count is passed } // by reference else // CT_CTYPEx Cset { // CT_CTYPEx is given by if(!j) // upper WORD of lVal j = CT_CTYPE1; // 0 defaults to CT_CTYPE1 do { ctype = 0; // For each char, get // string type info W32->GetStringTypeEx(0, j, &ch, 1, &ctype); // Loop (up to |Count| - 1 times) as long as the characters // encountered are in the Cset (Match = MATCH_WHILE (=1)), // or as long as they are not (Match = MATCH_UNTIL (=0)). fInCset = (j == CT_CTYPE2) // CT_CTYPE2 values are ? (ctype == i) // mutually exclusive; : (ctype & i) != 0; // others can be combos } while ((Match ^ fInCset) == 0 && (ch = tp.NextCharCount(count)) != 0); } // End of built-in Csets } // End of Cset VT_I4 // Explicit char set given by chars in Cset->bstrVal else if (Cset->vt == VT_BSTR) { //REVIEW (keithcu) What is going on here? if((DWORD_PTR)Cset->bstrVal < 0xfffff) // Don't get fooled by return E_INVALIDARG; // invalid vt values j = SysStringLen(Cset->bstrVal); do { // Set i = 0 if ch isn't pch = Cset->bstrVal; // in set; this stops for(i = j; // movement i && (ch != *pch++); i--) ; // If we are doing a MATCH_WHILE routine then we only // continue while i > 0 becuase this indicates that we // found the char at the current cp in the CSet. If // we were doing a MATCH_UNTIL then we should quit when // i != 0 becuase the current char was in the CSet. } while((Match == (i ? MATCH_WHILE : MATCH_UNTIL)) && (ch = tp.NextCharCount(count))); // Break if no more chars } // or ch not in set else return E_INVALIDARG; /* If MoveWhile, leave tp immediately after last matched char going * forward and at that char going backward (helps to think of tp * pointing in between chars). If MoveUntil, leave tp at the char * going forward and just after that char going backward. * * E.g.: the code * * r.MoveUntil (C1_DIGIT, tomForward, NULL) * r.MoveEndWhile(C1_DIGIT, tomForward, NULL) * * breaks at the first digit and selects the number going forward. * Similarly * * r.MoveUntil (C1_DIGIT, tomBackward, NULL) * r.MoveStartWhile(C1_DIGIT, tomBackward, NULL) * * selects the number going backward. */ count = (Match == MATCH_WHILE && !ch) // If MoveWhile, move past ? iDir : 0; // last matched char if(Count < 0) count++; tp.AdvanceCp(count); Delta = cch = 0; // Suppress motion unless if(Match == MATCH_WHILE || ch) // match occurred { Delta = cch = tp.GetCp() - cpSave; // Calculate distance moved if(Match == MATCH_UNTIL) // For MoveUntil methods, Delta += iDir; // match counts as a char } if(pDelta) // Report motion to caller *pDelta = Delta; // if it wants to know // Handle cases for which range is changed if(cch || (Delta && _cch && Mode == MOVE_IP)) { if (Mode == MOVE_IP || // If move IP or asked to !_cch && (Mode ^ Count) < 0) // cross ends of initial { // IP, use an IP cch = 0; } else if(_cch) // Initially nondegenerate { // range if((_cch ^ Mode) < 0) // If wrong end is active, _cch = -_cch; // fake a FlipRange (will cch += _cch; // set cp shortly) if((cch ^ _cch) < 0) // If ends crossed, convert cch = 0; // to insertion point } if(Set(tp.GetCp(), cch)) // Set new range cp and cch { Update(TRUE); // Update selection return NOERROR; // Signal match occurred } return S_FALSE; } // No change in range. Return NOERROR iff match occurred for MOVE_UNTIL return Delta ? NOERROR : S_FALSE; #else return 0; #endif } /* * CTxtRange::Mover (Unit, Count, pDelta, Mode) * * @mfunc * Helper function to move end(s)

s, which end(s) * depending on Mode = MOVE_IP, MOVE_START, and MOVE_END. Collapsing * the range by using MOVE_IP counts as a Unit. * * Extends range from End if

= MOVE_END and from Start if *

= MOVE_START; else (MOVE_IP) it collapses range to Start if *

= 0 and to End if

0. * * Sets *

= count of Units moved * * Used by ITextRange::Delete(), Move(), MoveStart(), MoveEnd(), * and SetIndex() * * @rdesc * HRESULT = (if change) ? NOERROR : * (if

valid) ? S_FALSE : E_INVALIDARG */ HRESULT CTxtRange::Mover ( long Unit, //@parm Unit to use for moving active end long Count, //@parm Count of units to move active end long * pDelta, //@parm Out parm for count of units moved MOVES Mode) //@parm MOVE_START (-1), MOVE_IP (0), MOVE_END (1) { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Mover"); if(pDelta) *pDelta = 0; // Default no units moved if(IsZombie()) return CO_E_RELEASED; LONG cch; LONG cchAdj = GetAdjustedTextLength(); LONG cchMax = 0; // Default full story limits LONG cp; LONG cpMost = GetCpMost(); LONG cUnitCollapse = 0; HRESULT hr = NOERROR; CTxtRange rg(*this); // Use a copy to look around if(pDelta) *pDelta = 0; // Default no units moved if(_cch && Count) // Nondegenerate range { if(Mode == MOVE_IP) // Insertion point: will { // collapse range if Unit is if((Count ^ rg._cch) < 0) // defined. Go to correct end rg.FlipRange(); if(Count > 0) { if(cpMost > cchAdj) { cUnitCollapse = -1; // Collapse before final CR Count = 0; // No more motion } else { // Extend pDelta pcpMin pcpMost hr = rg.Expander(Unit, FALSE, NULL, NULL, &cp); cUnitCollapse = 1; // Collapse counts as a Unit Count--; // One less Unit to count } } else { hr = rg.Expander(Unit, FALSE, NULL, &cp, NULL); cUnitCollapse = -1; Count++; } if(FAILED(hr)) return hr; } else if((Mode ^ rg._cch) < 0) // MOVE_START or MOVE_END rg.FlipRange(); // Go to Start or End } if(Count > 0 && Mode != MOVE_END) // Moving IP or Start forward { cchMax = cchAdj - rg.GetCp(); // Can't pass final CR if(cchMax <= 0) // Already at or past it { // Only count comes from Count = cUnitCollapse; // possible collapse cp = cchAdj; // Put active end at cchAdj cch = (Mode == MOVE_START && cpMost > cchAdj) ? cp - cpMost : 0; goto set; } } cch = rg.UnitCounter(Unit, Count, cchMax); // Count off Count Units if(cch == tomForward) // Unit not implemented return E_NOTIMPL; if(cch == tomBackward) // Unit not available, e.g., return S_FALSE; // tomObject and no objects Count += cUnitCollapse; // Add a Unit if collapse if(!Count) // Nothing changed, so quit return S_FALSE; if (Mode == MOVE_IP || // MOVE_IP or !_cch && (Mode ^ Count) < 0) // initial IP end cross { cch = 0; // New range is degenerate } else if(_cch) // MOVE_START or MOVE_END { // with nondegenerate range if((_cch ^ Mode) < 0) // Make _cch correspond to end _cch = -_cch; // that moved cch += _cch; // Possible new range length if((cch ^ _cch) < 0) // Nondegenerate end cross cch = 0; // Use IP } cp = rg.GetCp(); set: if(Set(cp, cch)) // Attempt to set new range { // Something changed if(pDelta) // Report count of units *pDelta = Count; // advanced Update(TRUE); // Update selection return NOERROR; } return S_FALSE; } /* * * CTxtRange::Replacer (cchNew, *pch) * * @mfunc * Replace this range's using CHARFORMAT _iFormat and updating other * text runs as needed. * * Same as CTxtRange::CleanseAndReplaceRange(cchNew, *pch, publdr), * except creates its own undo builder. * * @rdesc * cch of text actually pasted * * @devnote * moves this text pointer to end of replaced text and * may move text block and formatting arrays */ LONG CTxtRange::Replacer ( LONG cchNew, //@parm Length of replacement text TCHAR const * pch, //@parm Replacement text DWORD dwFlags) //@parm ReplaceRange flags { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::Replacer"); IUndoBuilder * publdr; CGenUndoBuilder undobldr(GetPed(), UB_AUTOCOMMIT, &publdr); undobldr.StopGroupTyping(); // Note: we don't check the limit on text here. Right now, this // is only called by Delete and SetText so this is OK. However, // we might want to reinvestigate this latter if this is called // by anything else. return CleanseAndReplaceRange(cchNew, pch, FALSE, publdr, NULL, NULL, dwFlags); } /* * CTxtRange::CharFormatSetter (pCF) * * @mfunc * Helper function that's the same as CTxtRange::SetCharFormat(), but * adds undo building, and notification. * * @rdesc * HRESULT = (if success) ? NOERROR : S_FALSE * (protected) ? E_ACCESSDENIED : E_OUTOFMEMORY */ HRESULT CTxtRange::CharFormatSetter ( const CCharFormat *pCF, //@parm CCharFormat to fill with results DWORD dwMask) //@parm CHARFORMAT2 mask { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::CharFormatSetter"); if(IsZombie()) return CO_E_RELEASED; CTxtEdit *ped = GetPed(); CCallMgr callmgr(ped); IUndoBuilder * publdr; CGenUndoBuilder undobldr(ped, UB_AUTOCOMMIT, &publdr); if(WriteAccessDenied()) return E_ACCESSDENIED; undobldr.StopGroupTyping(); return SetCharFormat(pCF, FALSE, publdr, dwMask, 0); } /* * CTxtRange::ParaFormatSetter (pPF, dwMask) * * @mfunc * Helper function that's the same as CTxtRange::SetParaFormat(), but * adds protection checking, undo building, and notification. * * @rdesc * HRESULT = (if success) ? NOERROR : S_FALSE * (protected) ? E_ACCESSDENIED : E_OUTOFMEMORY */ HRESULT CTxtRange::ParaFormatSetter ( const CParaFormat *pPF, //@parm CParaFormat to fill with results DWORD dwMask) //@parm Mask to use { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::ParaFormatSetter"); if(IsZombie()) return CO_E_RELEASED; CTxtEdit *ped = GetPed(); CCallMgr callmgr(ped); IUndoBuilder * publdr; CGenUndoBuilder undobldr(ped, UB_AUTOCOMMIT, &publdr); if(WriteAccessDenied()) return E_ACCESSDENIED; undobldr.StopGroupTyping(); // In RichEdit 3.0, we don't support setting tables if(GetPF()->InTable()) dwMask &= ~PFM_TABSTOPS; return SetParaFormat(pPF, publdr, dwMask & ~PFM_TABLE); } /* * CTxtRange::WriteAccessDenied() * * @mfunc * Returns TRUE iff at least part of the range is protected and the * owner chooses to enforce it * * @rdesc * TRUE iff write access to range is denied */ BOOL CTxtRange::WriteAccessDenied () { TRACEBEGIN(TRCSUBSYSTOM, TRCSCOPEINTERN, "CTxtRange::WriteAccessDenied"); int iProt; CTxtEdit *ped = GetPed(); if (ped && ped->TxGetReadOnly() || ((iProt = IsProtected(-1)) == PROTECTED_YES || (iProt == PROTECTED_ASK && ped->IsProtectionCheckingEnabled() && ped->QueryUseProtection(this, 0, 0, 0)))) // N.B. the preceding if statement assumes that IsProtected returns a tri-value { return TRUE; } return FALSE; } /* * CTxtRange::IsTrue (f, pB) * * @mfunc * Return *

= tomTrue iff

is nonzero and pB isn't NULL * * @rdesc * HRESULT = (f) ? NOERROR : S_FALSE */ HRESULT CTxtRange::IsTrue(BOOL f, long *pB) { if(pB) *pB = tomFalse; if(IsZombie()) return CO_E_RELEASED; if(f) { if(pB) *pB = tomTrue; return NOERROR; } return S_FALSE; } /* * CTxtRange::GetLong (lValue, pLong) * * @mfunc * Return *pLong = lValue provided pLong isn't NULL and this range * isn't a zombie * * @rdesc * HRESULT = (zombie) ? CO_E_RELEASED : * (pLong) ? NOERROR : E_INVALIDARG */ HRESULT CTxtRange::GetLong ( LONG lValue, //@parm Long value to return long *pLong) //@parm Out parm to receive long value { if(IsZombie()) return CO_E_RELEASED; _TEST_INVARIANT_ if(!pLong) return E_INVALIDARG; *pLong = lValue; return NOERROR; } /* * IsSameVtables (punk1, punk2) * * @mfunc * Returns true if punk1 has same vtable as punk2 * * @rdesc * TRUE iff punk1 has same vtable as punk2 */ BOOL IsSameVtables(IUnknown *punk1, IUnknown *punk2) { return punk1 && punk2 && *(long *)punk1 == *(long *)punk2; } /* * FPPTS_TO_TWIPS (x) * * @mfunc * Returns 20*x, i.e., the number of twips corresponding to * x given in floating-point points. The value is rounded. * * @rdesc * x converted to twips */ long FPPTS_TO_TWIPS( float x) { return 20*x + ((x >= 0) ? 0.5 : -0.5); }