/* * @doc INTERNAL * * @module HOST.C -- Text Host for CreateWindow() Rich Edit Control | * Implements CTxtWinHost message and ITextHost interfaces * * Original Author: * Original RichEdit code: David R. Fulmer * Christian Fortini * Murray Sargent * * History: * 8/1/95 ricksa Documented and brought to new ITextHost definition * 10/28/95 murrays cleaned up and moved default char/paraformat cache * cache code into text services * * Set tabs every four (4) columns * * Copyright (c) 1995-2000 Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_host.h" #include "imm.h" #include "_format.h" #include "_edit.h" #include "_cfpf.h" #ifndef NOWINDOWHOSTS ASSERTDATA CTxtWinHost *g_phostdel = NULL; #define EN_CLIPFORMAT 0x0712 #define ENM_CLIPFORMAT 0x00000080 void DeleteDanglingHosts() { CLock lock; CTxtWinHost *phostdel = g_phostdel; while(phostdel) { CTxtWinHost *phost = phostdel; phostdel = phostdel->_pnextdel; CTxtWinHost::OnNCDestroy(phost); } g_phostdel = NULL; } #ifndef NOANSIWINDOWS //////////////////////////// System Window Procs //////////////////////////// LRESULT CreateAnsiWindow( HWND hwnd, UINT msg, CREATESTRUCTA *pcsa, BOOL fIs10) { AssertSz((WM_CREATE == msg) || (WM_NCCREATE == msg), "CreateAnsiWindow called with invalid message!"); CTxtWinHost *phost = (CTxtWinHost *) GetWindowLongPtr(hwnd, ibPed); // The only thing we need to convert are the strings, // so just do a structure copy and replace the strings. CREATESTRUCTW csw = *(CREATESTRUCTW *)pcsa; CStrInW strinwName(pcsa->lpszName, GetKeyboardCodePage()); CStrInW strinwClass(pcsa->lpszClass, CP_ACP); csw.lpszName = (WCHAR *)strinwName; csw.lpszClass = (WCHAR *)strinwClass; if (!phost) { // No host yet so create it phost = CTxtWinHost::OnNCCreate(hwnd, &csw, TRUE, fIs10); } if (WM_NCCREATE == msg) { return phost != NULL; } if (NULL == phost) { // For WM_CREATE -1 indicates failure return -1; } // Do the stuff specific to create return phost->OnCreate(&csw); } extern "C" LRESULT CALLBACK RichEdit10ANSIWndProc( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam) { TRACEBEGINPARAM(TRCSUBSYSHOST, TRCSCOPEINTERN, "RichEdit10ANSIWndProc", msg); if ((WM_CREATE == msg) || (WM_NCCREATE == msg)) { return CreateAnsiWindow(hwnd, msg, (CREATESTRUCTA *) lparam, TRUE); } // ignore WM_DESTROY and wait for WM_NCDESTROY if (WM_DESTROY == msg) { #ifndef NOWINDOWHOSTS CLock lock; CTxtWinHost *phost = (CTxtWinHost *) GetWindowLongPtr(hwnd, ibPed); phost->_pnextdel = g_phostdel; g_phostdel = phost; #endif return 0; } if (WM_NCDESTROY == msg) msg = WM_DESTROY; return W32->ANSIWndProc( hwnd, msg, wparam, lparam, TRUE); } LRESULT CALLBACK RichEditANSIWndProc( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam) { TRACEBEGINPARAM(TRCSUBSYSHOST, TRCSCOPEINTERN, "RichEditANSIWndProc", msg); if ((WM_CREATE == msg) || (WM_NCCREATE == msg)) { return CreateAnsiWindow(hwnd, msg, (CREATESTRUCTA *) lparam, FALSE); } return W32->ANSIWndProc( hwnd, msg, wparam, lparam, FALSE); } #else // NOANSIWINDOWS extern "C" LRESULT CALLBACK RichEdit10ANSIWndProc( HWND , UINT , WPARAM , LPARAM) { return 0; } LRESULT CALLBACK RichEditANSIWndProc( HWND , UINT , WPARAM , LPARAM) { return 0; } #endif // NOANSIWINDOWS /* * RichEditWndProc (hwnd, msg, wparam, lparam) * * @mfunc * Handle window messages pertinent to the host and pass others on to * text services. * * #rdesc * LRESULT = (code processed) ? 0 : 1 */ LRESULT CALLBACK RichEditWndProc( HWND hwnd, UINT msg, WPARAM wparam, LPARAM lparam) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "RichEditWndProc"); LRESULT lres = 0; HRESULT hr; SETTEXTEX st; CTxtWinHost *phost = hwnd ? (CTxtWinHost *) GetWindowLongPtr(hwnd, ibPed) : NULL; #ifdef DEBUG Tracef(TRCSEVINFO, "hwnd %lx, msg %lx, wparam %lx, lparam %lx", hwnd, msg, wparam, lparam); #endif // DEBUG switch(msg) { #ifdef WM_NCCREATE case WM_NCCREATE: return CTxtWinHost::OnNCCreate(hwnd, (CREATESTRUCT *)lparam, FALSE, FALSE) != NULL; #endif case WM_CREATE: // We may be on a system with no WM_NCCREATE (e.g. WinCE) if (!phost) { phost = CTxtWinHost::OnNCCreate(hwnd, (CREATESTRUCT *) lparam, FALSE, FALSE); } break; case WM_DESTROY: if(phost) { #ifndef NOWINDOWHOSTS CLock lock; CTxtWinHost *phostdel = g_phostdel; if (phostdel == phost) g_phostdel = phost->_pnextdel; else { while (phostdel) { if (phostdel->_pnextdel == phost) { phostdel->_pnextdel = phost->_pnextdel; break; } phostdel = phostdel->_pnextdel; } } #endif CTxtWinHost::OnNCDestroy(phost); } return 0; } if (!phost) return ::DefWindowProc(hwnd, msg, wparam, lparam); // In certain out-of-memory situations, clients may try to re-enter us // with calls. Just bail on the call if we don't have a text services // pointer. if(!phost->_pserv) return 0; // stabilize ourselves phost->AddRef(); // Handle mouse/keyboard/scroll message-filter notifications if(phost->_fKeyMaskSet || phost->_fMouseMaskSet || phost->_fScrollMaskSet) { // We may need to fire a MSGFILTER notification. In the tests // below, we check to see if mouse, keyboard, or scroll events // are hit and enabled for notifications. If so, we fire the // msgfilter notification. The list of events was generated // from RichEdit 1.0 sources. The code gets all keyboard and // mouse actions, whereas the RichEdit 1.0 code only got // WM_KEYDOWN, WM_KEYUP, WM_CHAR, WM_SYSKEYDOWN, WM_SYSKEYUP, // WM_MOUSEACTIVATE, WM_LBUTTONDOWN, WM_LBUTTONUP, WM_MOUSEMOVE, // WM_RBUTTONDBLCLK, WM_RBUTTONDOWN, WM_RBUTTONUP. Note that the // following code doesn't send a notification for AltGr characters // (LeftCtrl+RightAlt+vkey), since some hosts misinterpret these // characters as hot keys. if (phost->_fKeyMaskSet && IN_RANGE(WM_KEYFIRST, msg, WM_KEYLAST) && (msg != WM_KEYDOWN || (GetKeyboardFlags() & (ALT | CTRL)) != (LCTRL | RALT)) || // AltGr phost->_fMouseMaskSet && (msg == WM_MOUSEACTIVATE || IN_RANGE(WM_MOUSEFIRST, msg, WM_MOUSELAST)) || phost->_fScrollMaskSet && IN_RANGE(WM_HSCROLL, msg, WM_VSCROLL)) { MSGFILTER msgfltr; ZeroMemory(&msgfltr.nmhdr, sizeof(NMHDR)); msgfltr.msg = msg; msgfltr.wParam = wparam; msgfltr.lParam = lparam; // The MSDN document on MSGFILTER is wrong, if the // send message returns 0 (NOERROR via TxNotify in this // case), it means process the event. Otherwise, return. // // The documentation states the reverse. // if(phost->TxNotify(EN_MSGFILTER, &msgfltr) == NOERROR) { // Since client is allowed to modify the contents of // msgfltr, we must use the returned values. msg = msgfltr.msg; wparam = msgfltr.wParam; lparam = msgfltr.lParam; } else { lres = ::DefWindowProc(hwnd, msg, wparam, lparam); goto Exit; } } } switch(msg) { case EM_SETEVENTMASK: phost->_fKeyMaskSet = !!(lparam & ENM_KEYEVENTS); phost->_fMouseMaskSet = !!(lparam & ENM_MOUSEEVENTS); phost->_fScrollMaskSet = !!(lparam & ENM_SCROLLEVENTS); goto serv; case EM_SETSEL: // When we are in a dialog box that is empty, EM_SETSEL will not select // the final always existing EOP if the control is rich. if (phost->_fUseSpecialSetSel && ((CTxtEdit *)phost->_pserv)->GetAdjustedTextLength() == 0 && wparam != -1) { lparam = 0; wparam = 0; } goto serv; case WM_CREATE: { //bug fix #5386 //need to convert ANSI -> UNICODE for Win9x systems which didn't go through //the ANSI wndProc #ifndef NOANSIWINDOWS if (W32->OnWin9x() && !phost->_fANSIwindow) { CREATESTRUCT cs = *(CREATESTRUCT*)lparam; CStrInW strinwName(((CREATESTRUCTA*)lparam)->lpszName, GetKeyboardCodePage()); CStrInW strinwClass(((CREATESTRUCTA*)lparam)->lpszClass, CP_ACP); cs.lpszName = (WCHAR*)strinwName; cs.lpszClass = (WCHAR*)strinwClass; lres = phost->OnCreate(&cs); } else #endif lres = phost->OnCreate((CREATESTRUCT*)lparam); } break; case WM_KEYDOWN: lres = phost->OnKeyDown((WORD) wparam, (DWORD) lparam); if(lres) // Didn't process code: goto serv; // give it to text services break; case WM_GETTEXT: #ifndef NOANSIWINDOWS GETTEXTEX gt; if (W32->OnWin9x() || phost->_fANSIwindow) W32->AnsiFilter( msg, wparam, lparam, (void *) > ); #endif goto serv; case WM_COPYDATA: PCOPYDATASTRUCT pcds; pcds = (PCOPYDATASTRUCT) lparam; if (HIWORD(pcds->dwData) == 1200 && // Unicode code page LOWORD(pcds->dwData) == WM_SETTEXT) // Only message we know about { st.flags = ST_CHECKPROTECTION; st.codepage = 1200; msg = EM_SETTEXTEX; wparam = (WPARAM) &st; lparam = (LPARAM) pcds->lpData; goto serv; } else lres = ::DefWindowProc(hwnd, msg, wparam, lparam); break; case WM_GETTEXTLENGTH: #ifndef NOANSIWINDOWS GETTEXTLENGTHEX gtl; if (W32->OnWin9x() || phost->_fANSIwindow) W32->AnsiFilter( msg, wparam, lparam, (void *) >l ); #endif goto serv; case WM_CHAR: if(GetKeyboardFlags() & ALTNUMPAD) // Handle Alt+0ddd in CTxtEdit goto serv; // so that other hosts also work #ifndef NOANSIWINDOWS else if (W32->OnWin9x() || phost->_fANSIwindow) { CW32System::WM_CHAR_INFO wmci; wmci._fAccumulate = phost->_fAccumulateDBC != 0; W32->AnsiFilter( msg, wparam, lparam, (void *) &wmci, ((CTxtEdit *)phost->_pserv)->Get10Mode() ); if (wmci._fLeadByte) { phost->_fAccumulateDBC = TRUE; phost->_chLeadByte = wparam << 8; goto Exit; // Wait for trail byte } else if (wmci._fTrailByte) { wparam = phost->_chLeadByte | wparam; phost->_fAccumulateDBC = FALSE; phost->_chLeadByte = 0; msg = WM_IME_CHAR; goto serv; } else if (wmci._fIMEChar) { msg = WM_IME_CHAR; goto serv; } } #endif lres = phost->OnChar((WORD) wparam, (DWORD) lparam); if(lres) // Didn't process code: goto serv; // give it to text services break; case WM_ENABLE: if(!wparam ^ phost->_fDisabled) { // Stated of window changed so invalidate it so it will // get redrawn. phost->TxInvalidateRect(NULL, TRUE); phost->SetScrollBarsForWmEnable(wparam); } phost->_fDisabled = !wparam; // Set disabled flag lres = 0; // Return value for message // Fall thru to WM_SYSCOLORCHANGE? case WM_SYSCOLORCHANGE: phost->OnSysColorChange(); goto serv; // Notify text services that // system colors have changed case WM_GETDLGCODE: lres = phost->OnGetDlgCode(wparam, lparam); break; case EM_GETOPTIONS: lres = phost->OnGetOptions(); break; case EM_GETPASSWORDCHAR: lres = phost->_chPassword; break; case EM_GETRECT: phost->OnGetRect((LPRECT)lparam); break; case EM_HIDESELECTION: if(lparam) { DWORD dwPropertyBits = 0; phost->_dwStyle |= ES_NOHIDESEL; if(wparam) { phost->_dwStyle &= ~ES_NOHIDESEL; dwPropertyBits = TXTBIT_HIDESELECTION; } // Notify text services of change in status. phost->_pserv->OnTxPropertyBitsChange(TXTBIT_HIDESELECTION, dwPropertyBits); } goto serv; case EM_SETBKGNDCOLOR: lres = (LRESULT) phost->_crBackground; phost->_fNotSysBkgnd = !wparam; phost->_crBackground = (COLORREF) lparam; if(wparam) phost->_crBackground = GetSysColor(COLOR_WINDOW); if(lres != (LRESULT) phost->_crBackground) { // Notify text services that color has changed LRESULT lres1 = 0; phost->_pserv->TxSendMessage(WM_SYSCOLORCHANGE, 0, 0, &lres1); phost->TxInvalidateRect(NULL, TRUE); } break; case WM_STYLECHANGING: // Just pass this one to the default window proc lres = ::DefWindowProc(hwnd, msg, wparam, lparam); break; case WM_STYLECHANGED: // // For now, we only interested in GWL_EXSTYLE Transparent mode changed. // This is to fix Bug 753 since Window95 is not passing us // the WS_EX_TRANSPARENT. // lres = 1; if(GWL_EXSTYLE == wparam) { LPSTYLESTRUCT lpss = (LPSTYLESTRUCT) lparam; if(phost->IsTransparentMode() != (BOOL)(lpss->styleNew & WS_EX_TRANSPARENT)) { phost->_dwExStyle = lpss->styleNew; ((CTxtEdit *)phost->_pserv)->OnTxBackStyleChange(TRUE); // Return 0 to indicate we have handled this message lres = 0; } } break; case EM_SHOWSCROLLBAR: { Assert(wparam == SB_VERT || wparam == SB_HORZ); DWORD dwBit = wparam == SB_VERT ? WS_VSCROLL : WS_HSCROLL; phost->_dwStyle |= dwBit; if(!lparam) phost->_dwStyle &= ~dwBit; phost->TxShowScrollBar((int) wparam, lparam); if (lparam) phost->TxSetScrollRange((int) wparam, 0, 0, TRUE); } break; case EM_SETOPTIONS: phost->OnSetOptions((WORD) wparam, (DWORD) lparam); lres = (phost->_dwStyle & ECO_STYLES); if(phost->_fEnableAutoWordSel) lres |= ECO_AUTOWORDSELECTION; break; case EM_SETPASSWORDCHAR: if(phost->_chPassword != (TCHAR)wparam) { phost->_chPassword = (TCHAR)wparam; phost->_pserv->OnTxPropertyBitsChange(TXTBIT_USEPASSWORD, phost->_chPassword ? TXTBIT_USEPASSWORD : 0); } break; case EM_SETREADONLY: phost->OnSetReadOnly(BOOL(wparam)); lres = 1; break; case EM_SETRECTNP: case EM_SETRECT: phost->OnSetRect((LPRECT)lparam, wparam == 1, msg == EM_SETRECT); break; case WM_SIZE: phost->_pserv->TxSendMessage(msg, wparam, lparam, &lres); lres = phost->OnSize(hwnd, wparam, (int)LOWORD(lparam), (int)HIWORD(lparam)); break; case WM_WINDOWPOSCHANGING: lres = ::DefWindowProc(hwnd, msg, wparam, lparam); // richedit 1.0 didn't cause InvalidateRect which OnSunkenWindowPosChanging will do if(phost->TxGetEffects() == TXTEFFECT_SUNKEN && !((CTxtEdit *)phost->_pserv)->Get10Mode()) phost->OnSunkenWindowPosChanging(hwnd, (WINDOWPOS *) lparam); break; case WM_SETCURSOR: // Only set cursor when over us rather than a child; this // helps prevent us from fighting it out with an inplace child if((HWND)wparam == hwnd) { if(!(lres = ::DefWindowProc(hwnd, msg, wparam, lparam))) { POINT pt; GetCursorPos(&pt); ::ScreenToClient(hwnd, &pt); phost->_pserv->OnTxSetCursor( DVASPECT_CONTENT, -1, NULL, NULL, NULL, NULL, NULL, // Client rect - no redraw pt.x, pt.y); lres = TRUE; } } break; case WM_SHOWWINDOW: hr = phost->OnTxVisibleChange((BOOL)wparam); break; case WM_NCPAINT: lres = ::DefWindowProc(hwnd, msg, wparam, lparam); break; case WM_PRINTCLIENT: case WM_PAINT: { PAINTSTRUCT ps; HPALETTE hpalOld = NULL; HDC hdc; RECT rcClient; //RAID 6964: WM_PRINTCLIENT should not call BeginPaint. If a HDC is passed //down in the wparam, use it instead of calling BeginPaint. if (!wparam || ((CTxtEdit *)phost->_pserv)->Get10Mode()) hdc = BeginPaint(hwnd, &ps); else hdc = (HDC) wparam; // Set up the palette for drawing our data if(phost->_hpal) { hpalOld = SelectPalette(hdc, phost->_hpal, TRUE); RealizePalette(hdc); } // Since we are using the CS_PARENTDC style, make sure // the clip region is limited to our client window. GetClientRect(hwnd, &rcClient); SaveDC(hdc); IntersectClipRect(hdc, rcClient.left, rcClient.top, rcClient.right, rcClient.bottom); phost->_pserv->TxDraw( DVASPECT_CONTENT, // Draw Aspect -1, // Lindex NULL, // Info for drawing optimazation NULL, // target device information hdc, // Draw device HDC NULL, // Target device HDC (const RECTL *) &rcClient,// Bounding client rectangle NULL, // Clipping rectangle for metafiles &ps.rcPaint, // Update rectangle NULL, // Call back function NULL, // Call back parameter TXTVIEW_ACTIVE); // What view - the active one! // Restore palette if there is one #ifndef NOPALETTE if(hpalOld) SelectPalette(hdc, hpalOld, TRUE); #endif RestoreDC(hdc, -1); if (!wparam || ((CTxtEdit *)phost->_pserv)->Get10Mode()) EndPaint(hwnd, &ps); } break; case EM_SETMARGINS: phost->OnSetMargins(wparam, LOWORD(lparam), HIWORD(lparam)); break; case EM_SETPALETTE: // Application is setting a palette for us to use. phost->_hpal = (HPALETTE) wparam; // Invalidate the window & repaint to reflect the new palette. InvalidateRect(hwnd, NULL, TRUE); break; default: serv: hr = phost->_pserv->TxSendMessage(msg, wparam, lparam, &lres); if(hr == S_FALSE) { // Message was not processed by text services so send it // to the default window proc. lres = ::DefWindowProc(hwnd, msg, wparam, lparam); } } Exit: phost->Release(); return lres; } static BOOL GetIconic( HWND hwnd) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "GetIconic"); while(hwnd) { if(IsIconic(hwnd)) return TRUE; hwnd = GetParent(hwnd); } return FALSE; } //////////////// CTxtWinHost Creation/Initialization/Destruction /////////////////////// /* * CTxtWinHost::OnNCCreate (hwnd, pcs) * * @mfunc * Static global method to handle WM_NCCREATE message (see remain.c) */ CTxtWinHost *CTxtWinHost::OnNCCreate( HWND hwnd, const CREATESTRUCT *pcs, BOOL fIsAnsi, BOOL fIs10Mode) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnNCCreate"); #if defined DEBUG && !defined(NOFULLDEBUG) GdiSetBatchLimit(1); #endif CTxtWinHost *phost = new CTxtWinHost(); if(!phost) return 0; CREATESTRUCT cs = *pcs; // prefer C++ compiler not to modify constant #ifndef NOCOMPLEXSCRIPTS BOOL fMirrorWnd = !!(cs.dwExStyle & WS_EX_LAYOUTRTL); // Inherit parent window's mirroring if (fMirrorWnd) { // Force RTL reading cs.style |= ES_RIGHT; cs.dwExStyle |= WS_EX_RTLREADING; } #endif #ifndef NOANSIWINDOWS //bug fix #5386 // Window wasn't created with the Richedit20A window class // and we are under Win9x, need to convert string to UNICODE CStrInW strinwName(((LPSTR)pcs->lpszName), GetKeyboardCodePage()); CStrInW strinwClass(((LPSTR)pcs->lpszClass), CP_ACP); if (!fIsAnsi && W32->OnWin9x()) { cs.lpszName = (WCHAR *)strinwName; cs.lpszClass = (WCHAR *)strinwClass; } #endif // Stores phost in associated window data if(!phost->Init(hwnd, (const CREATESTRUCT*)&cs, fIsAnsi, fIs10Mode)) { phost->Shutdown(); delete phost; phost = NULL; } #ifndef NOCOMPLEXSCRIPTS if (phost && fMirrorWnd) { // Disable mirroring layout to avoid mirrored mapping mode SetWindowLong(hwnd, GWL_STYLE, cs.style | ES_RIGHT); SetWindowLong(hwnd, GWL_EXSTYLE, (cs.dwExStyle & ~WS_EX_LAYOUTRTL) | WS_EX_LEFTSCROLLBAR); } #endif return phost; } /* * CTxtWinHost::OnNCDestroy (phost) * * @mfunc * Static global method to handle WM_CREATE message * * @devnote * phost ptr is stored in window data (GetWindowLong()) */ void CTxtWinHost::OnNCDestroy( CTxtWinHost *phost) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnNCDestroy"); phost->Shutdown(); phost->Release(); } /* * CTxtWinHost::CTxtWinHost() * * @mfunc * constructor */ CTxtWinHost::CTxtWinHost() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::CTxtWinHost"); #ifndef NOACCESSIBILITY _pTypeInfo = NULL; #endif _fRegisteredForDrop = FALSE; _crefs = 1; if(!_fNotSysBkgnd) _crBackground = GetSysColor(COLOR_WINDOW); } /* * CTxtWinHost::~CTxtWinHost() * * @mfunc * destructor */ CTxtWinHost::~CTxtWinHost() { AssertSz(_pserv == NULL, "CTxtWinHost::~CTxtWinHost - shutdown not called till destructor"); if(_pserv) Shutdown(); } /* * CTxtWinHost::Shutdown() * * @mfunc Shut down this object, but doesn't delete memory */ void CTxtWinHost::Shutdown() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::Shutdown"); ITextServices *pserv; HostRevokeDragDrop(); // Revoke our drop target if(_pserv) { // Guarantee that no recursive callbacks can happen during shutdown. pserv = _pserv; _pserv = NULL; pserv->OnTxInPlaceDeactivate(); pserv->Release(); // Host release was not the final release so notify // text services that they need to keep their reference // to the host valid. if (!_fTextServiceFree) { ((CTxtEdit *)pserv)->SetReleaseHost(); } } #if 0 ImmTerminate(); // Terminate only useful on Mac. #endif if(_hwnd) SetWindowLongPtr(_hwnd, ibPed, 0); } /* * CTxtWinHost::Init (hwnd, pcs) * * @mfunc * Initialize this CTxtWinHost */ BOOL CTxtWinHost::Init( HWND hwnd, //@parm Window handle for this control const CREATESTRUCT *pcs, //@parm Corresponding CREATESTRUCT BOOL fIsAnsi, //@parm is ansi window BOOL fIs10Mode) //@parm is 1.0 mode window { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::Init"); AssertSz(!fIs10Mode || (fIsAnsi && fIs10Mode), "CTxtWinHost::Init input flags are out of sync!"); if(!pcs->lpszClass) return FALSE; // Set pointer back to CTxtWinHost from the window if(hwnd) SetWindowLongPtr(hwnd, ibPed, (INT_PTR)this); _hwnd = hwnd; // Here we want to keep track of the "RichEdit20A"window class // The RICHEDIT window class is handled by a wrapper dll. // If the class name is "RICHEDIT", then we need to turn on the // RichEdit 1.0 compatibility bit. IsAnsiWindowClass tests that class as well. _fANSIwindow = fIsAnsi; // Edit controls created without a window are multiline by default // so that paragraph formats can be _dwStyle = ES_MULTILINE; _fHidden = TRUE; if(pcs) { _hwndParent = pcs->hwndParent; _dwExStyle = pcs->dwExStyle; _dwStyle = pcs->style; if (!fIs10Mode) { // Only set this for 2.0 windows // According to the edit control documentation WS_HSCROLL implies that // ES_AUTOSCROLL is set and WS_VSCROLL implies that ES_AUTOVSCROLL is // set. Here, we make this so. if(_dwStyle & WS_HSCROLL) _dwStyle |= ES_AUTOHSCROLL; // handle default disabled if(_dwStyle & WS_DISABLED) _fDisabled = TRUE; } else { if (GetBkMode(GetDC(hwnd)) == TRANSPARENT) _dwExStyle |= WS_EX_TRANSPARENT; else _dwExStyle &= ~WS_EX_TRANSPARENT; } if(_dwStyle & WS_VSCROLL) _dwStyle |= ES_AUTOVSCROLL; _fBorder = !!(_dwStyle & WS_BORDER); if((_dwStyle & ES_SUNKEN) || (_dwExStyle & WS_EX_CLIENTEDGE)) _fBorder = TRUE; // handle default passwords if(_dwStyle & ES_PASSWORD) _chPassword = TEXT('*'); // On Win95 ES_SUNKEN and WS_BORDER get mapped to WS_EX_CLIENTEDGE if(_fBorder && W32->_dwMajorVersion >= VERS4) { _dwExStyle |= WS_EX_CLIENTEDGE; SetWindowLong(_hwnd, GWL_EXSTYLE, _dwExStyle); } #ifndef NORIGHTTOLEFT // Process some flags for mirrored control if (_dwExStyle & WS_EX_LAYOUTRTL) { // Swap whatever RTL params we have _dwStyle = (_dwStyle & ~ES_RIGHT) | (_dwStyle & ES_RIGHT ^ ES_RIGHT); _dwExStyle = (_dwExStyle & ~WS_EX_RTLREADING) | (_dwExStyle & WS_EX_RTLREADING ^ WS_EX_RTLREADING); _dwExStyle = (_dwExStyle & ~WS_EX_LEFTSCROLLBAR) | (_dwStyle & ES_RIGHT ? WS_EX_LEFTSCROLLBAR : 0); // Disable mirroring layout to avoid GDI mirroring mapping mode _dwExStyle &= ~WS_EX_LAYOUTRTL; SetWindowLong(_hwnd, GWL_STYLE, _dwStyle); SetWindowLong(_hwnd, GWL_EXSTYLE, _dwExStyle); } #endif } // Create Text Services component // Watch out for sys param and sys font initialization!! see below. if(FAILED(CreateTextServices())) return FALSE; _xInset = (char)W32->GetCxBorder(); _yInset = (char)W32->GetCyBorder(); if (!_fBorder) { _xInset += _xInset; _yInset += _yInset; } // At this point the border flag is set and so is the pixels per inch // so we can initalize the inset. // This must be done after CreatingTextServices so sys params are valid SetDefaultInset(); // Set alignment and paragraph direction PARAFORMAT PF2; PF2.dwMask = 0; #ifndef NOCOMPLEXSCRIPTS BOOL fRCAlign = _dwStyle & (ES_RIGHT | ES_CENTER) || _dwExStyle & WS_EX_RIGHT; if(fRCAlign) { PF2.dwMask |= PFM_ALIGNMENT; PF2.wAlignment = (WORD)(_dwStyle & ES_CENTER ? PFA_CENTER : PFA_RIGHT); // right or center-aligned } if(_dwExStyle & WS_EX_RTLREADING) { PF2.dwMask |= PFM_RTLPARA; PF2.wEffects = PFE_RTLPARA; // RTL reading order } #endif if (PF2.dwMask) { PF2.cbSize = sizeof(PARAFORMAT2); // tell text services _pserv->TxSendMessage(EM_SETPARAFORMAT, SPF_SETDEFAULT, (LPARAM)&PF2, NULL); } if (fIs10Mode) { ((CTxtEdit *)_pserv)->Set10Mode(); // Remove the WS_VSCROLL and WS_HSCROLL initially if (_hwnd && !(_dwStyle & ES_DISABLENOSCROLL)) { SetScrollRange(_hwnd, SB_VERT, 0, 0, TRUE); SetScrollRange(_hwnd, SB_HORZ, 0, 0, TRUE); DWORD dwStyle = _dwStyle & ~(WS_VSCROLL | WS_HSCROLL); SetWindowLong(_hwnd, GWL_STYLE, dwStyle); // bug fix: // On some systems, ie Digital PII-266, we don't get a WM_PAINT message // when we change the window style. So force a WM_PAINT into the message queue TxInvalidateRect(NULL, TRUE); } } // Set window text if(pcs && pcs->lpszName) { if(FAILED(_pserv->TxSetText((TCHAR *)pcs->lpszName))) { SafeReleaseAndNULL((IUnknown **)&_pserv); return FALSE; } } if(_dwStyle & ES_LOWERCASE) _pserv->TxSendMessage(EM_SETEDITSTYLE, SES_LOWERCASE, SES_LOWERCASE | SES_UPPERCASE, NULL); #if 0 if(!ImmInitialize()) // Mac Only { #if defined(DEBUG) OutputDebugString(TEXT("Could not register Imm ImmInitializeForMac.\r\n")); #endif // DEBUG } #endif return TRUE; } HRESULT CTxtWinHost::CreateTextServices() { IUnknown *pUnk; HRESULT hr = ::CreateTextServices(NULL, this, &pUnk); if(hr != NOERROR) return hr; // Get text services interface hr = pUnk->QueryInterface(IID_ITextServices, (void **)&_pserv); // Regardless of whether the previous call succeeded or failed, we are // done with the private interface. pUnk->Release(); #ifndef NOCOMPLEXSCRIPTS if(hr == NOERROR) { ((CTxtEdit *)_pserv)->_fInOurHost = TRUE; // FE extended styles might set the fFE bit if(_dwExStyle & (WS_EX_RIGHT | WS_EX_RTLREADING | WS_EX_LEFTSCROLLBAR)) _pserv->TxSendMessage(EM_SETEDITSTYLE, SES_BIDI, SES_BIDI, NULL); } #endif return hr; } /* * CTxtWinHost::OnCreate (pcs) * * @mfunc * Handle WM_CREATE message * * @rdesc * LRESULT = -1 if failed to in-place activate; else 0 */ LRESULT CTxtWinHost::OnCreate( const CREATESTRUCT *pcs) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnCreate"); RECT rcClient; // sometimes, these values are -1 (from windows itself); just treat them // as zero in that case LONG cy = (pcs->cy < 0) ? 0 : pcs->cy; LONG cx = (pcs->cx < 0) ? 0 : pcs->cx; rcClient.top = pcs->y; rcClient.bottom = rcClient.top + cy; rcClient.left = pcs->x; rcClient.right = rcClient.left + cx; // Notify Text Services that we are in place active if(FAILED(_pserv->OnTxInPlaceActivate(&rcClient))) return -1; DWORD dwStyle = GetWindowLong(_hwnd, GWL_STYLE); // Hide all scrollbars to start if(_hwnd && !(dwStyle & ES_DISABLENOSCROLL) && !((CTxtEdit *)_pserv)->Get10Mode()) { SetScrollRange(_hwnd, SB_VERT, 0, 0, TRUE); SetScrollRange(_hwnd, SB_HORZ, 0, 0, TRUE); dwStyle &= ~(WS_VSCROLL | WS_HSCROLL); SetWindowLong(_hwnd, GWL_STYLE, dwStyle); } if(!(dwStyle & (ES_READONLY | ES_NOOLEDRAGDROP))) { // This isn't a read only window or a no drop window, // so we need a drop target. HostRegisterDragDrop(); } _usIMEMode = 0; if(dwStyle & ES_NOIME) { _usIMEMode = ES_NOIME; // Tell textservices to turnoff ime _pserv->TxSendMessage(EM_SETEDITSTYLE, SES_NOIME, SES_NOIME, NULL); } else if(dwStyle & ES_SELFIME) _usIMEMode = ES_SELFIME; return 0; } ///////////////////////////////// IUnknown //////////////////////////////// HRESULT CTxtWinHost::QueryInterface(REFIID riid, void **ppv) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::QueryInterface"); if(IsEqualIID(riid, IID_IUnknown)) *ppv = (IUnknown *)(ITextHost2*)this; else if(IsEqualIID(riid, IID_ITextHost) ) *ppv = (ITextHost *)(CTxtWinHost*)this; else if(IsEqualIID(riid, IID_ITextHost2) ) *ppv = (ITextHost2 *)(CTxtWinHost*)this; else *ppv = NULL; if(*ppv) { AddRef(); return NOERROR; } return E_NOINTERFACE; } ULONG CTxtWinHost::AddRef(void) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::AddRef"); return ++_crefs; } ULONG CTxtWinHost::Release(void) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::Release"); --_crefs; if(!_crefs) { #ifndef NOACCESSIBILITY if(_pTypeInfo) { _pTypeInfo->Release(); _pTypeInfo = NULL; } #endif delete this; return 0; } return _crefs; } //////////////////////////////// Activation //////////////////////////////// //////////////////////////////// Properties //////////////////////////////// TXTEFFECT CTxtWinHost::TxGetEffects() const { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::TxGetEffects"); if((_dwStyle & ES_SUNKEN) || (_dwExStyle & WS_EX_CLIENTEDGE)) return TXTEFFECT_SUNKEN; return TXTEFFECT_NONE; } /////////////////////////////// Keyboard Messages ////////////////////////////////// /* * CTxtWinHost::OnKeyDown (vkey, dwFlags) * * @mfunc * Handle WM_KEYDOWN messages that need to send a message to the parent * window (may happen when control is in a dialog box) * * #rdesc * LRESULT = (code processed) ? 0 : 1 */ LRESULT CTxtWinHost::OnKeyDown( WORD vkey, //@parm WM_KEYDOWN wparam (virtual key code) DWORD dwFlags) //@parm WM_KEYDOWN flags { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnKeyDown"); if(!_fInDialogBox) // Not in a dialog box return 1; // Signal key-down msg not processed DWORD dwKeyFlags = GetKeyboardFlags(); switch(vkey) { case VK_ESCAPE: PostMessage(_hwndParent, WM_CLOSE, 0, 0); return 0; case VK_RETURN: if(!(dwKeyFlags & CTRL) && !(_dwStyle & ES_WANTRETURN)) { // Send to default button HWND hwndT; LRESULT id = SendMessage(_hwndParent, DM_GETDEFID, 0, 0); if(LOWORD(id) && (hwndT = GetDlgItem(_hwndParent, LOWORD(id)))) { SendMessage(_hwndParent, WM_NEXTDLGCTL, (WPARAM) hwndT, (LPARAM) 1); if(GetFocus() != _hwnd) PostMessage(hwndT, WM_KEYDOWN, (WPARAM) VK_RETURN, 0); } return 0; } break; case VK_TAB: if(!(dwKeyFlags & CTRL)) { SendMessage(_hwndParent, WM_NEXTDLGCTL, !!(dwKeyFlags & SHIFT), 0); return 0; } break; } return 1; } /* * CTxtWinHost::OnChar (vkey, dwFlags) * * @mfunc * Eat some WM_CHAR messages for a control in a dialog box * * #rdesc * LRESULT = (code processed) ? 0 : 1 */ LRESULT CTxtWinHost::OnChar( WORD vkey, //@parm WM_CHAR wparam (translated key code) DWORD dwFlags) //@parm WM_CHAR flags { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnChar"); if(!_fInDialogBox || (GetKeyboardFlags() & CTRL)) return 1; switch(vkey) { case 'J' - 0x40: // Ctrl-Return generates Ctrl-J (LF): case VK_RETURN: // treat it as an ordinary return // We need to filter-out cases where we don't want to insert in // 1.0 mode here since the info isn't available within the ped if (((CTxtEdit*)_pserv)->Get10Mode()) { if (_fInDialogBox && dwFlags != MK_CONTROL && !(_dwStyle & ES_WANTRETURN)) return 0; if (!(_dwStyle & ES_MULTILINE)) { //richedit beeps in this case ((CTxtEdit*)_pserv)->Beep(); return 0; } } else if (!(_dwStyle & ES_WANTRETURN)) return 0; // Signal char processed (eaten) break; case VK_TAB: return 0; } return 1; // Signal char not processed } ///////////////////////////////// View rectangle ////////////////////////////////////// void CTxtWinHost::OnGetRect( LPRECT prc) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnGetRect"); RECT rcInset; LONG lSelBarWidth = 0; if(_fEmSetRectCalled) { // Get the selection bar width and add it back to the view inset so // we return the rectangle that the application set. TxGetSelectionBarWidth(&lSelBarWidth); } // Get view inset (in HIMETRIC) TxGetViewInset(&rcInset); // Get client rect in pixels TxGetClientRect(prc); // Modify the client rect by the inset converted to pixels prc->left += W32->HimetricToDevice(rcInset.left + lSelBarWidth, W32->GetXPerInchScreenDC()); prc->top += W32->HimetricToDevice(rcInset.top, W32->GetYPerInchScreenDC()); prc->right -= W32->HimetricToDevice(rcInset.right, W32->GetXPerInchScreenDC()); prc->bottom -= W32->HimetricToDevice(rcInset.bottom, W32->GetYPerInchScreenDC()); } void CTxtWinHost::OnSetRect( LPRECT prc, //@parm Desired formatting RECT BOOL fNewBehavior, //@parm If TRUE, prc is inset RECT directly BOOL fRedraw) //@parm If TRUE, redraw after setting RECT { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSetRect"); RECT rcClient; LONG lSelBarWidth; // Assuming this is not set to the default, turn on special EM_SETRECT // processing. The important part of this is that we subtract the selection // bar from the view inset because the EM_SETRECT rectangle does not // include the selection bar. _fEmSetRectCalled = TRUE; if(!prc) { // We are back to the default so turn off special EM_SETRECT procesing. _fEmSetRectCalled = FALSE; SetDefaultInset(); } else { // For screen display, the following intersects new view RECT // with adjusted client area RECT TxGetClientRect(&rcClient); // Adjust client rect. Factors in space for borders if(_fBorder) { rcClient.top += _yInset; rcClient.bottom -= _yInset - 1; rcClient.left += _xInset; rcClient.right -= _xInset; } if(!fNewBehavior) { // Intersect new view rectangle with adjusted client area rectangle if(!IntersectRect(&_rcViewInset, &rcClient, prc)) _rcViewInset = rcClient; } else _rcViewInset = *prc; // Get selection bar width TxGetSelectionBarWidth(&lSelBarWidth); // Compute inset in pixels and convert to HIMETRIC. _rcViewInset.left = W32->DeviceToHimetric(_rcViewInset.left - rcClient.left, W32->GetXPerInchScreenDC()) - lSelBarWidth; _rcViewInset.top = W32->DeviceToHimetric(_rcViewInset.top - rcClient.top, W32->GetYPerInchScreenDC()); _rcViewInset.right = W32->DeviceToHimetric(rcClient.right - _rcViewInset.right, W32->GetXPerInchScreenDC()); _rcViewInset.bottom = W32->DeviceToHimetric(rcClient.bottom - _rcViewInset.bottom, W32->GetYPerInchScreenDC()); } if(fRedraw) { _pserv->OnTxPropertyBitsChange(TXTBIT_VIEWINSETCHANGE, TXTBIT_VIEWINSETCHANGE); } } /////////////////////////////// System notifications ////////////////////////////////// void CTxtWinHost::OnSysColorChange() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSysColorChange"); if(!_fNotSysBkgnd) _crBackground = GetSysColor(COLOR_WINDOW); TxInvalidateRect(NULL, TRUE); } /* * CTxtWinHost::OnGetDlgCode (wparam, lparam) * * @mfunc * Handle some WM_GETDLGCODE messages * * #rdesc * LRESULT = dialog code */ LRESULT CTxtWinHost::OnGetDlgCode( WPARAM wparam, LPARAM lparam) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnGetDlgCode"); LRESULT lres = DLGC_WANTCHARS | DLGC_WANTARROWS | DLGC_WANTTAB; if(_dwStyle & ES_MULTILINE) lres |= DLGC_WANTALLKEYS; if(!(_dwStyle & ES_SAVESEL)) lres |= DLGC_HASSETSEL; // HACK: If we get one of these messages then we turn on the special // EM_SETSEL behavior. The problem is that _fInDialogBox gets turned // on after the EM_SETSEL has occurred. _fUseSpecialSetSel = TRUE; /* ** -------------------------------------------- JEFFBOG HACK ---- ** Only set Dialog Box Flag if GETDLGCODE message is generated by ** IsDialogMessage -- if so, the lParam will be a pointer to the ** message structure passed to IsDialogMessage; otherwise, lParam ** will be NULL. Reason for the HACK alert: the wParam & lParam ** for GETDLGCODE is still not clearly defined and may end up ** changing in a way that would throw this off ** -------------------------------------------- JEFFBOG HACK ---- */ if(lparam) _fInDialogBox = TRUE; /* ** If this is a WM_SYSCHAR message generated by the UNDO keystroke ** we want this message so we can EAT IT in remain.c, case WM_SYSCHAR: */ if (lparam && (((LPMSG)lparam)->message == WM_SYSCHAR) && (((LPMSG)lparam)->lParam & SYS_ALTERNATE) && wparam == VK_BACK) { lres |= DLGC_WANTMESSAGE; } return lres; } ///////////////////////////////// Other messages ////////////////////////////////////// LRESULT CTxtWinHost::OnGetOptions() const { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnGetOptions"); LRESULT lres = (_dwStyle & ECO_STYLES); if(_fEnableAutoWordSel) lres |= ECO_AUTOWORDSELECTION; return lres; } void CTxtWinHost::OnSetOptions( WORD wOp, DWORD eco) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSetOptions"); DWORD dwChangeMask = 0; DWORD dwProp = 0; DWORD dwStyle; DWORD dwStyleNew = _dwStyle; const BOOL fAutoWordSel = !!(eco & ECO_AUTOWORDSELECTION); BOOL bNeedToTurnOffIME = FALSE; // We keep track of the bits changed and then if any have changed we // query for all of our property bits and then send them. This simplifies // the code because we don't have to set all the bits specially. If the // code is changed to make the properties more in line with the new // model, we want to look at this code again. // Single line controls can't have a selection bar or do vertical writing if(!(_dwStyle & ES_MULTILINE)) eco &= ~ECO_SELECTIONBAR; Assert((DWORD)fAutoWordSel <= 1); // Make sure that BOOL is 1/0 dwStyle = (eco & ECO_STYLES); switch(wOp) { case ECOOP_SET: dwStyleNew = (dwStyleNew & ~ECO_STYLES) | dwStyle; _fEnableAutoWordSel = fAutoWordSel; break; case ECOOP_OR: dwStyleNew |= dwStyle; // Setting a :1 flag = TRUE if(fAutoWordSel) // or FALSE is 1 instruction _fEnableAutoWordSel = TRUE; // Setting it to a BOOL break; // averages 9 instructions! case ECOOP_AND: dwStyleNew &= (dwStyle | ~ECO_STYLES); if(!fAutoWordSel) _fEnableAutoWordSel = FALSE; break; case ECOOP_XOR: dwStyleNew ^= dwStyle; if(fAutoWordSel) _fEnableAutoWordSel ^= 1; break; } if(_fEnableAutoWordSel != (unsigned)fAutoWordSel) dwChangeMask |= TXTBIT_AUTOWORDSEL; if(dwStyleNew != _dwStyle) { DWORD dwChange = dwStyleNew ^ _dwStyle; AssertSz(!(dwChange & ~ECO_STYLES), "non-eco style changed"); if(!(dwStyleNew & ES_MULTILINE)) dwStyleNew &= ~ES_VERTICAL; _dwStyle = dwStyleNew; SetWindowLong(_hwnd, GWL_STYLE, dwStyleNew & ~ES_VERTICAL); if(dwChange & ES_NOHIDESEL) dwChangeMask |= TXTBIT_HIDESELECTION; // These two local variables to use to keep track of // previous setting of ES_READONLY BOOL bReadOnly = (_dwStyle & ES_READONLY); if(dwChange & ES_READONLY) { dwChangeMask |= TXTBIT_READONLY; // Change drop target state as appropriate. if(dwStyleNew & ES_READONLY) HostRevokeDragDrop(); else HostRegisterDragDrop(); bReadOnly = (dwStyleNew & ES_READONLY); } if(dwChange & ES_VERTICAL) dwChangeMask |= TXTBIT_VERTICAL; if(dwChange & ES_NOIME) { _usIMEMode = (dwStyleNew & ES_NOIME) ? ES_NOIME : 0; bNeedToTurnOffIME = (_usIMEMode ==ES_NOIME); } else if(dwChange & ES_SELFIME) _usIMEMode = (dwStyleNew & ES_SELFIME) ? ES_SELFIME : 0; // No action required for ES_WANTRETURN nor for ES_SAVESEL // Do this last if(dwChange & ES_SELECTIONBAR) dwChangeMask |= TXTBIT_SELBARCHANGE; } if (dwChangeMask) { TxGetPropertyBits(dwChangeMask, &dwProp); _pserv->OnTxPropertyBitsChange(dwChangeMask, dwProp); } if (bNeedToTurnOffIME) // Tell textservices to turnoff ime _pserv->TxSendMessage(EM_SETEDITSTYLE, SES_NOIME, SES_NOIME, NULL); } void CTxtWinHost::OnSetReadOnly( BOOL fReadOnly) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSetReadOnly"); DWORD dwT = GetWindowLong(_hwnd, GWL_STYLE); DWORD dwUpdatedBits = 0; if(fReadOnly) { dwT |= ES_READONLY; _dwStyle |= ES_READONLY; // Turn off Drag Drop HostRevokeDragDrop(); dwUpdatedBits |= TXTBIT_READONLY; } else { dwT &= ~ES_READONLY; _dwStyle &= ~ES_READONLY; // Turn drag drop back on HostRegisterDragDrop(); } _pserv->OnTxPropertyBitsChange(TXTBIT_READONLY, dwUpdatedBits); SetWindowLong(_hwnd, GWL_STYLE, dwT); } //////////////////////////////////// Helpers ///////////////////////////////////////// void CTxtWinHost::SetDefaultInset() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::SetDefaultInset"); // Generate default view rect from client rect if(_fBorder) { // Factors in space for borders _rcViewInset.top = W32->DeviceToHimetric(_yInset, W32->GetYPerInchScreenDC()); _rcViewInset.bottom = W32->DeviceToHimetric(_yInset - 1, W32->GetYPerInchScreenDC()); _rcViewInset.left = W32->DeviceToHimetric(_xInset, W32->GetXPerInchScreenDC()); _rcViewInset.right = W32->DeviceToHimetric(_xInset, W32->GetXPerInchScreenDC()); } else { // Default the top and bottom inset to 0 and the left and right // to the size of the border. _rcViewInset.top = 0; _rcViewInset.bottom = 0; _rcViewInset.left = W32->DeviceToHimetric(W32->GetCxBorder(), W32->GetXPerInchScreenDC()); _rcViewInset.right = W32->DeviceToHimetric(W32->GetCxBorder(), W32->GetXPerInchScreenDC()); } } ///////////////////////////////// East Asia Support ////////////////////////////////////// HIMC CTxtWinHost::TxImmGetContext() { #ifndef NOFEPROCESSING TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::TxImmGetContext"); HIMC himc; Assert(_hwnd); himc = ImmGetContext(_hwnd, FALSE); return himc; #else return NULL; #endif } void CTxtWinHost::TxImmReleaseContext( HIMC himc) { #ifndef NOFEPROCESSING TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::TxImmReleaseContext"); Assert(_hwnd); ImmReleaseContext(_hwnd, himc, FALSE); #endif } void CTxtWinHost::HostRevokeDragDrop() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::HostRevokeDragDrop"); if(_fRegisteredForDrop) { // Note that if the revoke fails we want to know about this in debug // builds so we can fix any problems. In retail, we can't really do // so we just ignore it. #if !defined(NOFULLDEBUG) && defined(DEBUG) HRESULT hr = #endif // DEBUG RevokeDragDrop(_hwnd); #if !defined(NOFULLDEBUG) && defined(DEBUG) TESTANDTRACEHR(hr); #endif // DEBUG _fRegisteredForDrop = FALSE; } } void CTxtWinHost::HostRegisterDragDrop() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::RegisterDragDrop"); IDropTarget *pdt = NULL; if(!_fRegisteredForDrop && _pserv->TxGetDropTarget(&pdt) == NOERROR) { // The most likely reason for RegisterDragDrop to fail is some kind of // bug in our program. HRESULT hr = RegisterDragDrop(_hwnd, pdt); if(hr == NOERROR) _fRegisteredForDrop = TRUE; if (pdt) pdt->Release(); } } #define cmultBorder 1 void CTxtWinHost::OnSunkenWindowPosChanging( HWND hwnd, WINDOWPOS *pwndpos) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSunkenWindowPosChanging"); if(IsWindowVisible(hwnd)) { RECT rc; HWND hwndParent; GetWindowRect(hwnd, &rc); InflateRect(&rc, W32->GetCxBorder() * cmultBorder, W32->GetCyBorder() * cmultBorder); hwndParent = GetParent(hwnd); MapWindowPoints(HWND_DESKTOP, hwndParent, (POINT *) &rc, 2); InvalidateRect(hwndParent, &rc, TRUE); } } LRESULT CTxtWinHost::OnSize( HWND hwnd, WORD fwSizeType, int nWidth, int nHeight) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnSize"); BOOL fIconic = GetIconic(hwnd); DWORD dw = TXTBIT_CLIENTRECTCHANGE; if(_sWidth != nWidth && !fIconic && !_fIconic) { _sWidth = (short)nWidth; // Be sure to update _sWidth dw = TXTBIT_EXTENTCHANGE; } if(!_fVisible) { if(!fIconic) _fResized = TRUE; } else if(!fIconic) { // We use this property because this will force a recalc. // We don't actually recalc on a client rect change because // most of the time it is pointless. We force one here because // some applications use size changes to calculate the optimal // size of the window. _pserv->OnTxPropertyBitsChange(dw, dw); if(_fIconic) { TRACEINFOSZ("Restoring from iconic"); InvalidateRect(hwnd, NULL, TRUE); } } _fIconic = fIconic; // Update _fIconic return 0; } HRESULT CTxtWinHost::OnTxVisibleChange( BOOL fVisible) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEINTERN, "CTxtWinHost::OnTxVisibleChange"); _fVisible = fVisible; if(!_fVisible && _fResized) { RECT rc; // Control was resized while hidden, need to really resize now TxGetClientRect(&rc); _fResized = FALSE; _pserv->OnTxPropertyBitsChange(TXTBIT_CLIENTRECTCHANGE, TXTBIT_CLIENTRECTCHANGE); } return S_OK; } //////////////////////////// ITextHost Interface //////////////////////////// // @doc EXTERNAL /* * CTxtWinHost::TxGetDC() * * @mfunc * Abstracts GetDC so Text Services does not need a window handle. * * @rdesc * A DC or NULL in the event of an error. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ HDC CTxtWinHost::TxGetDC() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetDC"); Assert(_hwnd); return ::GetDC(_hwnd); } /* * CTxtWinHost::TxReleaseDC (hdc) * * @mfunc * Release DC gotten by TxGetDC. * * @rdesc * 1 - HDC was released. * 0 - HDC was not released. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ int CTxtWinHost::TxReleaseDC( HDC hdc) //@parm DC to release { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxReleaseDC"); Assert(_hwnd); return ::ReleaseDC (_hwnd, hdc); } /* * CTxtWinHost::TxShowScrollBar (fnBar, fShow) * * @mfunc * Shows or Hides scroll bar in Text Host window * * @rdesc * TRUE on success, FALSE otherwise * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxShowScrollBar( INT fnBar, //@parm Specifies scroll bar(s) to be shown or hidden BOOL fShow) //@parm Specifies whether scroll bar is shown or hidden { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxShowScrollBar"); Assert(_hwnd); LONG nMax; if(fnBar == SB_HORZ) _pserv->TxGetHScroll(NULL, &nMax, NULL, NULL, NULL); else _pserv->TxGetVScroll(NULL, &nMax, NULL, NULL, NULL); return W32->ShowScrollBar(_hwnd, fnBar, fShow, nMax); } /* * CTxtWinHost::TxEnableScrollBar (fuSBFlags, fuArrowflags) * * @mfunc * Enables or disables one or both scroll bar arrows * in Text Host window. * * @rdesc * If the arrows are enabled or disabled as specified, the return * value is TRUE. If the arrows are already in the requested state or an * error occurs, the return value is FALSE. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxEnableScrollBar ( INT fuSBFlags, //@parm Specifies scroll bar type INT fuArrowflags) //@parm Specifies whether and which scroll bar arrows // are enabled or disabled { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxEnableScrollBar"); Assert(_hwnd); return W32->EnableScrollBar(_hwnd, fuSBFlags, fuArrowflags); } /* * CTxtWinHost::TxSetScrollRange (fnBar, nMinPos, nMaxPos, fRedraw) * * @mfunc * Sets the minimum and maximum position values for the specified * scroll bar in the text host window. * * @rdesc * If the arrows are enabled or disabled as specified, the return value * is TRUE. If the arrows are already in the requested state or an error * occurs, the return value is FALSE. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxSetScrollRange( INT fnBar, //@parm Scroll bar flag LONG nMinPos, //@parm Minimum scrolling position INT nMaxPos, //@parm Maximum scrolling position BOOL fRedraw) //@parm Specifies whether scroll bar should be redrawn { // to reflect change TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetScrollRange"); Assert(_hwnd); if(NULL == _pserv) { // We are initializing so do this instead of callback return ::SetScrollRange(_hwnd, fnBar, nMinPos, nMaxPos, fRedraw); } SetScrollInfo(fnBar, fRedraw); return TRUE; } /* * CTxtWinHost::TxSetScrollPos (fnBar, nPos, fRedraw) * * @mfunc * Tells Text host to set the position of the scroll box (thumb) in the * specified scroll bar and, if requested, redraws the scroll bar to * reflect the new position of the scroll box. * * @rdesc * TRUE on success; FALSE otherwise. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxSetScrollPos ( INT fnBar, //@parm Scroll bar flag INT nPos, //@parm New position in scroll box BOOL fRedraw) //@parm Redraw flag { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetScrollPos"); Assert(_hwnd); if(NULL == _pserv) { // We are initializing so do this instead of callback return ::SetScrollPos(_hwnd, fnBar, nPos, fRedraw); } SetScrollInfo(fnBar, fRedraw); return TRUE; } /* * CTxtWinHost::TxInvalidateRect (prc, fMode) * * @mfunc * Adds a rectangle to the Text Host window's update region * * @comm * This function may be called while inactive; however the host * implementation is free to invalidate an area greater than * the requested rect. * * Note: In transparent mode, we need to pass TRUE to InvalidateRect. * However, in all other cases, it is best to pass FALSE, because we always * repaint the backgrounds of our displays. */ void CTxtWinHost::TxInvalidateRect( LPCRECT prc, //@parm Address of rectangle coordinates BOOL fMode) //@parm Erase background flag { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxInvalidateRect"); Assert(_hwnd); if(!_fVisible) { // There doesn't seem to be a deterministic way to determine whether // our window is visible or not via message notifications. Therefore, // we check this each time in case it might have changed. _fVisible = IsWindowVisible(_hwnd); if(_fVisible) OnTxVisibleChange(TRUE); } // Don't bother with invalidating rect if we aren't visible if(_fVisible) { if(IsTransparentMode()) { RECT rcParent; HWND hParent = ::GetParent(_hwnd); Assert(hParent); // For transparent mode, we need to invalidate the parent // so it will paint the background. if(prc) rcParent = *prc; else TxGetClientRect(&rcParent); ::MapWindowPoints(_hwnd, hParent, (LPPOINT)&rcParent, 2); ::InvalidateRect(hParent, &rcParent, TRUE); // ::HideCaret(_hwnd); } ::InvalidateRect(_hwnd, prc, FALSE); } } /* * CTxtWinHost::TxViewChange (fUpdate) * * @mfunc * Notify Text Host that update region should be repainted. * * @comm * It is the responsibility of the text services to call * TxViewChanged every time it decides that it's visual representation * has changed, regardless of whether the control is active or * not. If the control is active, the text services has the additional * responsibility of making sure the controls window is updated. * It can do this in a number of ways: 1) get a DC for the control's * window and start blasting pixels (TxGetDC and TxReleaseDC), 2) * invalidate the control's window (TxInvalidate), or 3) scroll * the control's window (TxScrollWindowEx). * * Text services can choose to call TxViewChange after it has * performed any operations to update the active view and pass a * true along with the call. By passing true, the text host * calls UpdateWindow to make sure any unpainted areas of the * active control are repainted. */ void CTxtWinHost::TxViewChange( BOOL fUpdate) //@parm TRUE = call update window { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxViewChange"); Assert(_hwnd); // Don't bother with paint since we aren't visible if(_fVisible) { // For updates requests that are FALSE, we will let the next WM_PAINT // message pick up the draw. if(fUpdate) { if(IsTransparentMode()) { HWND hParent = GetParent (_hwnd); Assert(hParent); // For transparent mode, we need to update the parent first // before we can update ourself. Otherwise, what we painted will // be erased by the parent's background later. ::UpdateWindow (hParent); } ::UpdateWindow (_hwnd); } } } /* * CTxtWinHost::TxCreateCaret (hbmp, xWidth, yHeight) * * @mfunc * Create new shape for Text Host's caret * * @rdesc * TRUE on success, FALSE otherwise. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxCreateCaret( HBITMAP hbmp, //@parm Handle of bitmap for caret shape INT xWidth, //@parm Caret width INT yHeight) //@parm Caret height { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxCreateCaret"); Assert(_hwnd); return ::CreateCaret (_hwnd, hbmp, xWidth, yHeight); } /* * CTxtWinHost::TxShowCaret (fShow) * * @mfunc * Make caret visible/invisible at caret position in Text Host window. * * @rdesc * TRUE - call succeeded * FALSE - call failed * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxShowCaret( BOOL fShow) //@parm Flag whether caret is visible { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxShowCaret"); return fShow ? ::ShowCaret(_hwnd) : ::HideCaret(_hwnd); } /* * CTxtWinHost::TxSetCaretPos (x, y) * * @mfunc * Move caret position to specified coordinates in Text Host window. * * @rdesc * TRUE - call succeeded * FALSE - call failed * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ BOOL CTxtWinHost::TxSetCaretPos( INT x, //@parm Horizontal position (in client coordinates) INT y) //@parm Vertical position (in client coordinates) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetCaretPos"); return ::SetCaretPos(x, y); } /* * CTxtWinHost::TxSetTimer (idTimer, uTimeout) * * @mfunc * Request Text Host to creates a timer with specified time out. * * @rdesc * TRUE - call succeeded * FALSE - call failed */ BOOL CTxtWinHost::TxSetTimer( UINT idTimer, //@parm Timer identifier UINT uTimeout) //@parm Timeout in msec { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetTimer"); Assert(_hwnd); return ::SetTimer(_hwnd, idTimer, uTimeout, NULL); } /* * CTxtWinHost::TxKillTimer (idTimer) * * @mfunc * Destroy specified timer * * @rdesc * TRUE - call succeeded * FALSE - call failed * * @comm * This method may be called at any time irrespective of active versus * inactive state. */ void CTxtWinHost::TxKillTimer( UINT idTimer) //@parm id of timer { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxKillTimer"); Assert(_hwnd); ::KillTimer(_hwnd, idTimer); } /* * CTxtWinHost::TxScrollWindowEx (dx, dy, lprcScroll, lprcClip, hrgnUpdate, * lprcUpdate, fuScroll) * @mfunc * Request Text Host to scroll the content of the specified client area * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ void CTxtWinHost::TxScrollWindowEx ( INT dx, //@parm Amount of horizontal scrolling INT dy, //@parm Amount of vertical scrolling LPCRECT lprcScroll, //@parm Scroll rectangle LPCRECT lprcClip, //@parm Clip rectangle HRGN hrgnUpdate, //@parm Handle of update region LPRECT lprcUpdate, //@parm Update rectangle UINT fuScroll) //@parm Scrolling flags { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxScrollWindowEx"); Assert(_hwnd); ::ScrollWindowEx(_hwnd, dx, dy, lprcScroll, lprcClip, hrgnUpdate, lprcUpdate, fuScroll); } /* * CTxtWinHost::TxSetCapture (fCapture) * * @mfunc * Set mouse capture in Text Host's window. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may do nothing. */ void CTxtWinHost::TxSetCapture( BOOL fCapture) //@parm Whether to get or release capture { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetCapture"); Assert(_hwnd); if (fCapture) ::SetCapture(_hwnd); else ::ReleaseCapture(); } /* * CTxtWinHost::TxSetFocus () * * @mfunc * Set focus in text host window. * * @comm * This method is only valid when the control is in-place active; * calls while inactive may fail. */ void CTxtWinHost::TxSetFocus() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetFocus"); Assert(_hwnd); ::SetFocus(_hwnd); } /* * CTxtWinHost::TxSetCursor (hcur, fText) * * @mfunc * Establish a new cursor shape in the Text Host's window. * * @comm * This method may be called at any time, irrespective of * active vs. inactive state. * * ITextHost::TxSetCursor should be called back by the Text Services * to actually set the mouse cursor. If the fText parameter is TRUE, * Text Services is trying to set the "text" cursor (cursor over text * that is not selected, currently an IBEAM). In that case, the host * can set it to whatever the control MousePointer property is. This is * required by VB compatibility since, via the MousePointer property, * the VB programmer has control over the shape of the mouse cursor, * whenever it would normally be set to an IBEAM. */ void CTxtWinHost::TxSetCursor( HCURSOR hcur, //@parm Handle to cursor BOOL fText) //@parm Indicates caller wants to set text cursor // (IBeam) if true. { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxSetCursor"); ::SetCursor(hcur); } /* * CTxtWinHost::TxScreenToClient (lppt) * * @mfunc * Convert screen coordinates to Text Host window coordinates. * * @rdesc * TRUE - call succeeded * FALSE - call failed */ BOOL CTxtWinHost::TxScreenToClient( LPPOINT lppt) //@parm Coordinates for point { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxScreenToClient"); Assert(_hwnd); return ::ScreenToClient(_hwnd, lppt); } /* * CTxtWinHost::TxClientToScreen (lppt) * * @mfunc * Convert Text Host coordinates to screen coordinates * * @rdesc * TRUE - call succeeded * FALSE - call failed * * @comm * This call is valid at any time, although it is allowed to * fail. In general, if text services has coordinates it needs * to translate from client coordinates (e.g. for TOM's * PointFromRange method) the text services will actually be * visible. * * However, if no conversion is possible, then the method will fail. */ BOOL CTxtWinHost::TxClientToScreen( LPPOINT lppt) //@parm Client coordinates to convert. { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxClientToScreen"); Assert(_hwnd); return ::ClientToScreen(_hwnd, lppt); } /* * CTxtWinHost::TxActivate (plOldState) * * @mfunc * Notify Text Host that control is active * * @rdesc * S_OK - call succeeded. * E_FAIL - activation is not possible at this time * * @comm * It is legal for the host to refuse an activation request; * the control may be minimized and thus invisible, for instance. * * The caller should be able to gracefully handle failure to activate. * * Calling this method more than once does not cumulate; only * once TxDeactivate call is necessary to deactive. * * This function returns an opaque handle in

. The caller * (Text Services) should hang onto this handle and return it in a * subsequent call to TxDeactivate. */ HRESULT CTxtWinHost::TxActivate( LONG *plOldState) //@parm Where to put previous activation state { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxActivate"); return S_OK; } /* * CTxtWinHost::TxDeactivate (lNewState) * * @mfunc * Notify Text Host that control is now inactive * * @rdesc * S_OK - call succeeded. * E_FAIL * * @comm * Calling this method more than once does not cumulate */ HRESULT CTxtWinHost::TxDeactivate( LONG lNewState) //@parm New state (typically value returned by // TxActivate { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxDeactivate"); return S_OK; } /* * CTxtWinHost::TxGetClientRect (prc) * * @mfunc * Retrieve client coordinates of Text Host's client area. * * @rdesc * HRESULT = (success) ? S_OK : E_FAIL */ HRESULT CTxtWinHost::TxGetClientRect( LPRECT prc) //@parm Where to put client coordinates { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetClientRect"); Assert(_hwnd && prc); return ::GetClientRect(_hwnd, prc) ? S_OK : E_FAIL; } /* * CTxtWinHost::TxGetViewInset (prc) * * @mfunc * Get inset for Text Host window. Inset is the "white space" * around text. * * @rdesc * HRESULT = NOERROR * * @comm * The Inset rectangle is not strictly a rectangle. The top, bottom, * left, and right fields of the rect structure indicate how far in * each direction drawing should be inset. Inset sizes are in client * coordinates. */ HRESULT CTxtWinHost::TxGetViewInset( LPRECT prc) //@parm Where to put inset rectangle { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetViewInset"); Assert(prc); *prc = _rcViewInset; return NOERROR; } /* * CTxtWinHost::TxGetCharFormat (ppCF) * * @mfunc * Get Text Host's default character format * * @rdesc * HRESULT = E_NOTIMPL (not needed in simple Windows host, since text * services provides desired default) * * @comm * The callee retains ownwership of the charformat returned. However, * the pointer returned must remain valid until the callee notifies * Text Services via OnTxPropertyBitsChange that the default character * format has changed. */ HRESULT CTxtWinHost::TxGetCharFormat( const CHARFORMAT **ppCF) //@parm Where to put ptr to default // character format { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetCharFormat"); return E_NOTIMPL; } /* * CTxtWinHost::TxGetParaFormat (ppPF) * * @mfunc * Get Text Host default paragraph format * * @rdesc * HRESULT = E_NOTIMPL (not needed in simple Windows host, since text * services provides desired default) * * @comm * The host object (callee) retains ownership of the PARAFORMAT returned. * However, the pointer returned must remain valid until the host notifies * Text Services (the caller) via OnTxPropertyBitsChange that the default * paragraph format has changed. */ HRESULT CTxtWinHost::TxGetParaFormat( const PARAFORMAT **ppPF) //@parm Where to put ptr to default // paragraph format { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetParaFormat"); return E_NOTIMPL; } /* * CTxtWinHost::TxGetSysColor (nIndex) * * @mfunc * Get specified color identifer from Text Host. * * @rdesc * Color identifier * * @comm * Note that the color returned may be *different* than the * color that would be returned from a call to GetSysColor. * This allows hosts to override default system behavior. * * Needless to say, hosts should be very careful about overriding * normal system behavior as it could result in inconsistent UI * (particularly with respect to Accessibility options). */ COLORREF CTxtWinHost::TxGetSysColor( int nIndex) //@parm Color to get, same parameter as // GetSysColor Win32 API { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetSysColor"); if (!_fDisabled || nIndex != COLOR_WINDOW && nIndex != COLOR_WINDOWTEXT) { // This window is not disabled or the color is not interesting // in the disabled case. return (nIndex == COLOR_WINDOW && _fNotSysBkgnd) ? _crBackground : GetSysColor(nIndex); } // Disabled case if (COLOR_WINDOWTEXT == nIndex) { // Color of text for disabled window return GetSysColor(COLOR_GRAYTEXT); } // Background color for disabled window return GetSysColor(COLOR_3DFACE); } /* * CTxtWinHost::TxGetBackStyle (pstyle) * * @mfunc * Get Text Host background style. * * @rdesc * HRESULT = S_OK * * @xref */ HRESULT CTxtWinHost::TxGetBackStyle( TXTBACKSTYLE *pstyle) //@parm Where to put background style { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetBackStyle"); *pstyle = (_dwExStyle & WS_EX_TRANSPARENT) ? TXTBACK_TRANSPARENT : TXTBACK_OPAQUE; return NOERROR; } /* * CTxtWinHost::TxGetMaxLength (pLength) * * @mfunc * Get Text Host's maximum allowed length. * * @rdesc * HRESULT = S_OK * * @comm * This method parallels the EM_LIMITTEXT message. * If INFINITE (0xFFFFFFFF) is returned, then text services * will use as much memory as needed to store any given text. * * If the limit returned is less than the number of characters * currently in the text engine, no data is lost. Instead, * no edits will be allowed to the text *other* than deletion * until the text is reduced to below the limit. */ HRESULT CTxtWinHost::TxGetMaxLength( DWORD *pLength) //@parm Maximum allowed length, in number of // characters { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetMaxLength"); AssertSz(FALSE, "CTxtWinHost::TxGetMaxLength why is this being called?"); return NOERROR; } /* * CTxtWinHost::TxGetScrollBars (pdwScrollBar) * * @mfunc * Get Text Host's scroll bars supported. * * @rdesc * HRESULT = S_OK * * @comm *

is filled with a boolean combination of the * window styles related to scroll bars. Specifically, these are: * * WS_VSCROLL * WS_HSCROLL * ES_AUTOVSCROLL * ES_AUTOHSCROLL * ES_DISABLENOSCROLL */ HRESULT CTxtWinHost::TxGetScrollBars( DWORD *pdwScrollBar) //@parm Where to put scrollbar information { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetScrollBars"); *pdwScrollBar = _dwStyle & (WS_VSCROLL | WS_HSCROLL | ES_AUTOVSCROLL | ES_AUTOHSCROLL | ES_DISABLENOSCROLL); return NOERROR; } /* * CTxtWinHost::TxGetPasswordChar (pch) * * @mfunc * Get Text Host's password character. * * @rdesc * HRESULT = (password character not enabled) ? S_FALSE : S_OK * * @comm * The password char will only be shown if the TXTBIT_USEPASSWORD bit * is enabled in TextServices. If the password character changes, * re-enable the TXTBIT_USEPASSWORD bit via * ITextServices::OnTxPropertyBitsChange. */ HRESULT CTxtWinHost::TxGetPasswordChar( TCHAR *pch) //@parm Where to put password character { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetPasswordChar"); *pch = _chPassword; return NOERROR; } /* * CTxtWinHost::TxGetAcceleratorPos (pcp) * * @mfunc * Get special character to use for underlining accelerator character. * * @rdesc * Via

, returns character position at which underlining * should occur. -1 indicates that no character should be underlined. * Return value is an HRESULT (usually S_OK). * * @comm * Accelerators allow keyboard shortcuts to various UI elements (like * buttons. Typically, the shortcut character is underlined. * * This function tells Text Services which character is the accelerator * and thus should be underlined. Note that Text Services will *not* * process accelerators; that is the responsiblity of the host. * * This method will typically only be called if the TXTBIT_SHOWACCELERATOR * bit is set in text services. * * Note that *any* change to the text in text services will result in the * invalidation of the accelerator underlining. In this case, it is the * host's responsibility to recompute the appropriate character position * and inform text services that a new accelerator is available. */ HRESULT CTxtWinHost::TxGetAcceleratorPos( LONG *pcp) //@parm Out parm to receive cp of character to underline { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetAcceleratorPos"); *pcp = -1; return S_OK; } /* * CTxtWinHost::OnTxCharFormatChange * * @mfunc * Set default character format for the Text Host. * * @rdesc * S_OK - call succeeded. * E_INVALIDARG * E_FAIL */ HRESULT CTxtWinHost::OnTxCharFormatChange( const CHARFORMAT *pcf) //@parm New default character format { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::OnTxCharFormatChange"); return S_OK; } /* * CTxtWinHost::OnTxParaFormatChange * * @mfunc * Set default paragraph format for the Text Host. * * @rdesc * S_OK - call succeeded. * E_INVALIDARG * E_FAIL */ HRESULT CTxtWinHost::OnTxParaFormatChange( const PARAFORMAT *ppf) //@parm New default paragraph format { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::OnTxParaFormatChange"); return S_OK; } /* * CTxtWinHost::TxGetPropertyBits (dwMask, dwBits) * * @mfunc * Get the bit property settings for Text Host. * * @rdesc * S_OK * * @comm * This call is valid at any time, for any combination of * requested property bits.

may be used by the * caller to request specific properties. */ HRESULT CTxtWinHost::TxGetPropertyBits( DWORD dwMask, //@parm Mask of bit properties to get DWORD *pdwBits) //@parm Where to put bit values { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetPropertyBits"); // FUTURE: Obvious optimization is to save bits in host the same way that // they are returned and just return them instead of this mess. // Note: this RichEdit host never sets TXTBIT_SHOWACCELERATOR or // TXTBIT_SAVESELECTION. They are currently only used by Forms^3 host. // This host is always rich text. DWORD dwProperties = TXTBIT_RICHTEXT | TXTBIT_ALLOWBEEP; #ifdef DEBUG // make sure that TS doesn't think it's plain text mode when // we return TXTBIT_RICHTEXT if((dwMask & TXTBIT_RICHTEXT) && _pserv) { DWORD mode; mode = _pserv->TxSendMessage(EM_GETTEXTMODE, 0, 0, NULL); Assert(mode == TM_RICHTEXT); } #endif // DEBUG if(_dwStyle & ES_MULTILINE) dwProperties |= TXTBIT_MULTILINE; if(_dwStyle & ES_READONLY) dwProperties |= TXTBIT_READONLY; if(_dwStyle & ES_PASSWORD) dwProperties |= TXTBIT_USEPASSWORD; if(!(_dwStyle & ES_NOHIDESEL)) dwProperties |= TXTBIT_HIDESELECTION; if(_fEnableAutoWordSel) dwProperties |= TXTBIT_AUTOWORDSEL; if(!(_dwStyle & ES_AUTOHSCROLL)) dwProperties |= TXTBIT_WORDWRAP; if(_dwStyle & ES_VERTICAL) dwProperties |= TXTBIT_VERTICAL; if(_dwStyle & ES_NOOLEDRAGDROP) dwProperties |= TXTBIT_DISABLEDRAG; *pdwBits = dwProperties & dwMask; return NOERROR; } /* * CTxtWinHost::TxNotify (iNotify, pv) * * @mfunc * Notify Text Host of various events. Note that there are * two basic categories of events, "direct" events and * "delayed" events. Direct events are sent immediately as * they need some processing: EN_PROTECTED is a canonical * example. Delayed events are sent after all processing * has occurred; the control is thus in a "stable" state. * EN_CHANGE, EN_ERRSPACE, EN_SELCHANGED are examples * of delayed notifications. * * * @rdesc * S_OK - call succeeded * S_FALSE -- success, but do some different action * depending on the event type (see below). * * @comm * The notification events are the same as the notification * messages sent to the parent window of a richedit window. * The firing of events may be controlled with a mask set via * the EM_SETEVENTMASK message. * * In general, is legal to make any calls to text services while * processing this method; however, implementors are cautioned * to avoid excessive recursion. * * Here is the complete list of notifications that may be * sent and a brief description of each: * *

Sent when some data in the edit control * changes (such as text or formatting). Controlled by the * ENM_CHANGE event mask. This notification is sent _after_ * any screen updates have been requested. * *

PenWin only; currently unused. * *

If the client registered the edit * control via DragAcceptFiles, this event will be sent when * a WM_DROPFILES or DragEnter(CF_HDROP) message is received. * If S_FALSE is returned, the drop will be ignored, otherwise, * the drop will be processed. The ENM_DROPFILES mask * controls this event notification. * *

Sent when the edit control cannot * allocate enough memory. No additional data is sent and * there is no mask for this event. * *

Sent when the user clicks on an edit * control's horizontal scroll bar, but before the screen * is updated. No additional data is sent. The ENM_SCROLL * mask controls this event. * *

unused * *

Sent when the edit control looses focus. * No additional data is sent and there is no mask. * *

Sent when the current text insertion * has exceeded the specified number of characters for the * edit control. The text insertion has been truncated. * There is no mask for this event. * *

NB!!! THIS MESSAGE IS NOT SENT TO * TxNotify, but is included here for completeness. With * ITextServices::TxSendMessage, client have complete * flexibility in filtering all window messages. * * Sent on a keyboard or mouse event * in the control. A MSGFILTER data structure is sent, * containing the msg, wparam and lparam. If S_FALSE is * returned from this notification, the msg is processed by * TextServices, otherwise, the message is ignored. Note * that in this case, the callee has the opportunity to modify * the msg, wparam, and lparam before TextServices continues * processing. The ENM_KEYEVENTS and ENM_MOUSEEVENTS masks * control this event for the respective event types. * *

Sent when an OLE call fails. The * ENOLEOPFAILED struct is passed with the index of the object * and the error code. Mask value is nothing. * *

Sent when the user is taking an * action that would change a protected range of text. An * ENPROTECTED data structure is sent, indicating the range * of text affected and the window message (if any) affecting * the change. If S_FALSE is returned, the edit will fail. * The ENM_PROTECTED mask controls this event. * *

Sent when a control's contents are * either smaller or larger than the control's window size. * The client is responsible for resizing the control. A * REQRESIZE structure is sent, indicating the new size of * the control. NB! Only the size is indicated in this * structure; it is the host's responsibility to do any * translation necessary to generate a new client rectangle. * The ENM_REQUESTRESIZE mask controls this event. * *

Sent when an edit control is being * destroyed, the callee should indicate whether or not * OleFlushClipboard should be called. Data indicating the * number of characters and objects to be flushed is sent * in the ENSAVECLIPBOARD data structure. * Mask value is nothing. * *

Sent when the current selection has * changed. A SELCHANGE data structure is also sent, which * indicates the new selection range at the type of data * the selection is currently over. Controlled via the * ENM_SELCHANGE mask. * *

Sent when the edit control receives the * keyboard focus. No extra data is sent; there is no mask. * *

Sent when an action occurs for which * the control cannot allocate enough memory to maintain the * undo state. If S_FALSE is returned, the action will be * stopped; otherwise, the action will continue. * *

Sent before an edit control requests a * redraw of altered data or text. No additional data is * sent. This event is controlled via the ENM_UPDATE mask. * *

Sent when the user clicks an edit control's * vertical scrollbar bar before the screen is updated. * Controlled via the ENM_SCROLL mask; no extra data is sent. * *

Sent when a mouse event (or WM_SETCURSOR) happens * over a range of text that has the EN_LINK mask bit set. * An ENLINK data structure will be sent with relevant info. */ HRESULT CTxtWinHost::TxNotify( DWORD iNotify, //@parm Event to notify host of. One of the // EN_XXX values from Win32, e.g., EN_CHANGE void *pv) //@parm In-only parameter with extra data. Type // dependent on

{ TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxNotify"); HRESULT hr = NOERROR; LONG nId; NMHDR * phdr; REQRESIZE * preq; RECT rcOld; // We assume here that TextServices has already masked out notifications, // so if we get one here, it should be sent if(_hwndParent) { nId = GetWindowLong(_hwnd, GWL_ID); // First, handle WM_NOTIFY style notifications switch(iNotify) { case EN_REQUESTRESIZE: // Need to map new size into correct rectangle Assert(pv); GetWindowRect(_hwnd, &rcOld); MapWindowPoints(HWND_DESKTOP, _hwndParent, (POINT *) &rcOld, 2); preq = (REQRESIZE *)pv; preq->rc.top = rcOld.top; preq->rc.left = rcOld.left; preq->rc.right += rcOld.left; preq->rc.bottom += rcOld.top; // FALL-THROUGH!! case EN_DROPFILES: case EN_MSGFILTER: case EN_OLEOPFAILED: case EN_PROTECTED: case EN_SAVECLIPBOARD: case EN_SELCHANGE: case EN_STOPNOUNDO: case EN_LINK: case EN_OBJECTPOSITIONS: case EN_DRAGDROPDONE: case EN_LOWFIRTF: case EN_CLIPFORMAT: if(pv) // Fill out NMHDR portion of pv { phdr = (NMHDR *)pv; phdr->hwndFrom = _hwnd; phdr->idFrom = nId; phdr->code = iNotify; } if(SendMessage(_hwndParent, WM_NOTIFY, (WPARAM) nId, (LPARAM) pv)) hr = S_FALSE; break; default: SendMessage(_hwndParent, WM_COMMAND, GET_WM_COMMAND_MPS(nId, _hwnd, iNotify)); } } return hr; } /* * CTxtWinHost::TxGetExtent (lpExtent) * * @mfunc * Return native size of the control in HIMETRIC * * @rdesc * S_OK * some failure code * * @comm * This method is used by Text Services to implement zooming. * Text Services would derive the zoom factor from the ratio between * the himetric and device pixel extent of the client rectangle. * * [vertical zoom factor] = [pixel height of the client rect] * 2540 * / [himetric vertical extent] * [pixel per vertical inch (from DC)] * * If the vertical and horizontal zoom factors are not the same, Text * Services could ignore the horizontal zoom factor and assume it is * the same as the vertical one. */ HRESULT CTxtWinHost::TxGetExtent( LPSIZEL lpExtent) //@parm Extent in himetric { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetExtent"); AssertSz(lpExtent, "CTxtWinHost::TxGetExtent Invalid lpExtent"); // We could implement the TxGetExtent in the following way. However, the // call to this in ITextServices is implemented in such a way that it // does something sensible in the face of an error in this call. That // something sensible is that it sets the extent equal to the current // client rectangle which is what the following does in a rather convoluted // manner. Therefore, we dump the following and just return an error. #if 0 // The window's host extent is always the same as the client // rectangle. RECT rc; HRESULT hr = TxGetClientRect(&rc); // Get our client rectangle if(SUCCEEDED(hr)) { // Calculate the length & convert to himetric lpExtent->cx = DXtoHimetricX(rc.right - rc.left, W32->GetXPerInchScreenDC()); lpExtent->cy = DYtoHimetricY(rc.bottom - rc.top, W32->GetYPerInchScreenDC()); } return hr; #endif // 0 return E_NOTIMPL; } HRESULT CTxtWinHost::TxEBookLoadImage( LPWSTR lpszName, LPARAM * pID, SIZE * psize, DWORD *pdwFlags) { return E_NOTIMPL; } HRESULT CTxtWinHost::TxEBookImageDraw(LPARAM ID, HDC hdc, POINT *topLeft, RECT *prcRenderint, BOOL fSelected) { return E_NOTIMPL; } HRESULT CTxtWinHost::TxGetHorzExtent(LONG *plHorzExtent) { return E_NOTIMPL; } /* * CTxtWinHost::TxGetSelectionBarWidth (lSelBarWidth) * * @mfunc * Returns size of selection bar in HIMETRIC * * @rdesc * S_OK */ HRESULT CTxtWinHost::TxGetSelectionBarWidth ( LONG *lSelBarWidth) //@parm Where to return selection bar width // in HIMETRIC { *lSelBarWidth = (_dwStyle & ES_SELECTIONBAR) ? W32->GetDxSelBar() : 0; return S_OK; } // // ITextHost2 methods // /* * CTxtWinHost::TxIsDoubleClickPending * * @mfunc Look into the message queue for this hwnd and see if a * double click is pending. This enables TextServices to * effeciently transition between two inplace active objects. * * @rdesc BOOL */ BOOL CTxtWinHost::TxIsDoubleClickPending() { MSG msg; TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxIsDoubleClickPending"); if(PeekMessage(&msg, _hwnd, WM_LBUTTONDBLCLK, WM_LBUTTONDBLCLK, PM_NOREMOVE | PM_NOYIELD)) { return TRUE; } return FALSE; } /* * CTxtWinHost::TxGetWindow * * @mfunc Fetches the window associated with this control (or * set of controls potentially). Useful for answering * IOleWindow::GetWindow. * * @rdesc HRESULT */ HRESULT CTxtWinHost::TxGetWindow(HWND *phwnd) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::GetWindow"); *phwnd = _hwnd; return NOERROR; } /* * CTxtWinHost::SetForegroundWindow * * @mfunc Sets window to foreground window & gives the focus * * @rdesc NOERROR - succeeded * E_FAIL - failed. */ HRESULT CTxtWinHost::TxSetForegroundWindow() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::SetForegroundWindow"); if(!SetForegroundWindow(_hwnd)) SetFocus(_hwnd); return NOERROR; } /* * CTxtWinHost::TxGetPalette * * @mfunc Returns application specific palette if there is one * * @rdesc ~NULL - there was one * NULL - use default palette */ HPALETTE CTxtWinHost::TxGetPalette() { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetPalette"); return _hpal; } /* * CTxtWinHost::TxGetFEFlags * * @mfunc return FE settings * * @rdesc NOERROR - succeeded * E_FAIL - failed. */ HRESULT CTxtWinHost::TxGetFEFlags(LONG *pFEFlags) { TRACEBEGIN(TRCSUBSYSHOST, TRCSCOPEEXTERN, "CTxtWinHost::TxGetFEFlags"); if (!pFEFlags) return E_INVALIDARG; *pFEFlags = 0; if (_usIMEMode == ES_NOIME) *pFEFlags |= ES_NOIME; if (_usIMEMode == ES_SELFIME) *pFEFlags |= ES_SELFIME; return NOERROR; } // Helper function in edit.cpp LONG GetECDefaultHeightAndWidth( ITextServices *pts, HDC hdc, LONG lZoomNumerator, LONG lZoomDenominator, LONG yPixelsPerInch, LONG *pxAveWidth, LONG *pxOverhang, LONG *pxUnderhang); /* * CTxtWinHost::OnSetMargins * * @mfunc Handle EM_SETMARGINS message * * @rdesc None. */ void CTxtWinHost::OnSetMargins( DWORD fwMargin, //@parm Type of requested operation DWORD xLeft, //@parm Where to put left margin DWORD xRight) //@parm Where to put right margin { LONG xLeftMargin = -1; LONG xRightMargin = -1; HDC hdc; if(EC_USEFONTINFO == fwMargin) { // Get the DC since it is needed for the call hdc = GetDC(_hwnd); // Multiline behaves differently than single line if (_dwStyle & ES_MULTILINE) { // Multiline - over/underhange controls margin GetECDefaultHeightAndWidth(_pserv, hdc, 1, 1, W32->GetYPerInchScreenDC(), NULL, &xLeftMargin, &xRightMargin); } else { // Single line edit controls set the margins to // the average character width on both left and // right. GetECDefaultHeightAndWidth(_pserv, hdc, 1, 1, W32->GetYPerInchScreenDC(), &xLeftMargin, NULL, NULL); xRightMargin = xLeftMargin; } ReleaseDC(_hwnd, hdc); } else { // The request is for setting exact pixels. if(EC_LEFTMARGIN & fwMargin) xLeftMargin = xLeft; if(EC_RIGHTMARGIN & fwMargin) xRightMargin = xRight; } // Set left margin if so requested if (xLeftMargin != -1) _rcViewInset.left = W32->DeviceToHimetric(xLeftMargin, W32->GetXPerInchScreenDC()); // Set right margin if so requested if (xRightMargin != -1) _rcViewInset.right = W32->DeviceToHimetric(xRightMargin, W32->GetXPerInchScreenDC()); if (xLeftMargin != -1 || xRightMargin != -1) _pserv->OnTxPropertyBitsChange(TXTBIT_VIEWINSETCHANGE, TXTBIT_VIEWINSETCHANGE); } /* * CTxtWinHost::SetScrollInfo * * @mfunc Set scrolling information for the scroll bar. */ void CTxtWinHost::SetScrollInfo( INT fnBar, //@parm Specifies scroll bar to be updated BOOL fRedraw) //@parm whether redraw is necessary { // Set up the basic structure for the call SCROLLINFO si; si.cbSize = sizeof(SCROLLINFO); si.fMask = SIF_ALL; AssertSz(_pserv != NULL, "CTxtWinHost::SetScrollInfo called with NULL _pserv"); // Call back to the control to get the parameters if(fnBar == SB_HORZ) { _pserv->TxGetHScroll((LONG *) &si.nMin, (LONG *) &si.nMax, (LONG *) &si.nPos, (LONG *) &si.nPage, NULL); } else { _pserv->TxGetVScroll((LONG *) &si.nMin, (LONG *) &si.nMax, (LONG *) &si.nPos, (LONG *) &si.nPage, NULL); } // Do the call ::SetScrollInfo(_hwnd, fnBar, &si, fRedraw); } /* * CTxtWinHost::SetScrollBarsForWmEnable * * @mfunc Enable/Disable scroll bars * * @rdesc None. */ void CTxtWinHost::SetScrollBarsForWmEnable( BOOL fEnable) //@parm Whether scrollbars s/b enabled or disabled. { if(!_pserv) // If no edit object, return; // no scrollbars BOOL fHoriz = FALSE; BOOL fVert = FALSE; UINT wArrows = fEnable ? ESB_ENABLE_BOTH : ESB_DISABLE_BOTH; _pserv->TxGetHScroll(NULL, NULL, NULL, NULL, &fHoriz); _pserv->TxGetVScroll(NULL, NULL, NULL, NULL, &fVert); if(fHoriz) // There is a horizontal scroll bar W32->EnableScrollBar(_hwnd, SB_HORZ, wArrows); if(fVert) // There is a vertical scroll bar W32->EnableScrollBar(_hwnd, SB_VERT, wArrows); } /* * CTxtWinHost::SetScrollBarsForWmEnable * * @mfunc Notification that Text Services is released. * * @rdesc None. */ void CTxtWinHost::TxFreeTextServicesNotification() { _fTextServiceFree = TRUE; } /* * CTxtWinHost::TxGetEditStyle * * @mfunc Get Edit Style flags * * @rdesc NOERROR is data available. */ HRESULT CTxtWinHost::TxGetEditStyle( DWORD dwItem, DWORD *pdwData) { if (!pdwData) return E_INVALIDARG; *pdwData = 0; if (dwItem & TXES_ISDIALOG && _fInDialogBox) *pdwData |= TXES_ISDIALOG; return NOERROR; } /* * CTxtWinHost::TxGetWindowStyles * * @mfunc Return window style bits * * @rdesc NOERROR is data available. */ HRESULT CTxtWinHost::TxGetWindowStyles(DWORD *pdwStyle, DWORD *pdwExStyle) { if (!pdwStyle || !pdwExStyle) return E_INVALIDARG; *pdwStyle = _dwStyle; *pdwExStyle = _dwExStyle; return NOERROR; } #endif // NOWINDOWHOSTS