///////////////////////////////////////////////////////////////////////////// // Name: src/msw/textctrl.cpp // Purpose: wxTextCtrl // Author: Julian Smart // Modified by: // Created: 04/01/98 // Copyright: (c) Julian Smart // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #if wxUSE_TEXTCTRL #ifndef WX_PRECOMP #include "wx/textctrl.h" #include "wx/settings.h" #include "wx/brush.h" #include "wx/dcclient.h" #include "wx/utils.h" #include "wx/intl.h" #include "wx/log.h" #include "wx/app.h" #include "wx/menu.h" #include "wx/math.h" #include "wx/module.h" #include "wx/wxcrtvararg.h" #endif #include "wx/fontutil.h" #include "wx/scopedptr.h" #include "wx/stack.h" #include "wx/sysopt.h" #if wxUSE_CLIPBOARD #include "wx/clipbrd.h" #include "wx/dataobj.h" #endif #include "wx/textfile.h" #include #include "wx/msw/private.h" #include "wx/msw/winundef.h" #include #include #include #if wxUSE_RICHEDIT #include #include // MinGW32 doesn't have tom.h and doesn't define the interfaces and the // constants we need, so we can't use ITextDocument::Undo() with it. All // the other compilers do have this header. #ifndef __MINGW32_TOOLCHAIN__ #define wxHAS_TOM_H #endif #ifdef wxHAS_TOM_H #include #endif #include "wx/msw/ole/oleutils.h" #include "wx/msw/private/comptr.h" #if wxUSE_SPELLCHECK #include "wx/msw/wrapwin.h" // Add defines that are missing in MinGW. #ifndef IMF_SPELLCHECKING #define IMF_SPELLCHECKING 0x0800 #endif #ifndef SES_USECTF #define SES_USECTF 0x00010000 #endif #ifndef SES_CTFALLOWEMBED #define SES_CTFALLOWEMBED 0x00200000 #endif #ifndef SES_CTFALLOWSMARTTAG #define SES_CTFALLOWSMARTTAG 0x00400000 #endif #ifndef SES_CTFALLOWPROOFING #define SES_CTFALLOWPROOFING 0x00800000 #endif #endif // wxUSE_SPELLCHECK #endif // wxUSE_RICHEDIT #if wxUSE_INKEDIT #include #endif #include "wx/msw/missing.h" #ifndef CFM_BACKCOLOR #define CFM_BACKCOLOR 0x04000000 #endif #ifndef CFE_AUTOBACKCOLOR #define CFE_AUTOBACKCOLOR 0x04000000 #endif // missing defines for MinGW build #ifndef CFM_UNDERLINETYPE #define CFM_UNDERLINETYPE 0x00800000 #endif #ifndef CFU_UNDERLINENONE #define CFU_UNDERLINENONE 0 #endif #ifndef CFU_UNDERLINE #define CFU_UNDERLINE 1 #endif #ifndef CFU_UNDERLINEDOUBLE #define CFU_UNDERLINEDOUBLE 3 #endif #ifndef CFU_UNDERLINEWAVE #define CFU_UNDERLINEWAVE 8 #endif #if wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT // dummy value used for m_dropTarget, different from any valid pointer value // (which are all even under Windows) and NULL static wxDropTarget * wxRICHTEXT_DEFAULT_DROPTARGET = reinterpret_cast(1); #endif // wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT #if wxUSE_OLE // This must be the last header included to only affect the DEFINE_GUID() // occurrences below but not any GUIDs declared in the standard files included // above. #include namespace { // Normally the IRichEditOleCallback interface and its IID are defined in // richole.h header file included in the platform SDK but MinGW doesn't // have the IID symbol (but does have the interface). Work around it by // defining it ourselves. DEFINE_GUID(wxIID_IRichEditOleCallback, 0x00020d03, 0x0000, 0x0000, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46); } // anonymous namespace #ifdef wxHAS_TOM_H // This one is not defined in the standard libraries at all and MSDN just says // to define it explicitly, so we do it for IID_XXX constant itself and not our // own wxIID_XXX. DEFINE_GUID(IID_ITextDocument, 0x8cc497c0, 0xa1df, 0x11ce, 0x80, 0x98, 0x00, 0xaa, 0x00, 0x47, 0xbe, 0x5d); #endif // wxHAS_TOM_H #endif // wxUSE_OLE // ---------------------------------------------------------------------------- // private classes // ---------------------------------------------------------------------------- #if wxUSE_RICHEDIT // this module initializes RichEdit DLL(s) if needed class wxRichEditModule : public wxModule { public: enum Version { Version_1, // riched32.dll Version_2or3, // both use riched20.dll Version_41, // msftedit.dll (XP SP1 and Windows 2003) Version_Max }; virtual bool OnInit() wxOVERRIDE; virtual void OnExit() wxOVERRIDE; // load the richedit DLL for the specified version of rich edit static bool Load(Version version); #if wxUSE_INKEDIT // load the InkEdit library static bool LoadInkEdit(); #endif private: // the handles to richedit 1.0 and 2.0 (or 3.0) DLLs static HINSTANCE ms_hRichEdit[Version_Max]; #if wxUSE_INKEDIT static wxDynamicLibrary ms_inkEditLib; static bool ms_inkEditLibLoadAttemped; #endif wxDECLARE_DYNAMIC_CLASS(wxRichEditModule); }; HINSTANCE wxRichEditModule::ms_hRichEdit[Version_Max] = { NULL, NULL, NULL }; #if wxUSE_INKEDIT wxDynamicLibrary wxRichEditModule::ms_inkEditLib; bool wxRichEditModule::ms_inkEditLibLoadAttemped = false; #endif wxIMPLEMENT_DYNAMIC_CLASS(wxRichEditModule, wxModule); #if wxUSE_OLE extern wxMenu *wxCurrentPopupMenu; class wxTextCtrlOleCallback : public IRichEditOleCallback { public: wxTextCtrlOleCallback(wxTextCtrl *text) : m_textCtrl(text), m_menu(NULL) {} virtual ~wxTextCtrlOleCallback() { DeleteContextMenuObject(); } wxSTDMETHODIMP ContextSensitiveHelp(BOOL WXUNUSED(enterMode)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP DeleteObject(LPOLEOBJECT WXUNUSED(oleobj)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP GetClipboardData(CHARRANGE* WXUNUSED(chrg), DWORD WXUNUSED(reco), LPDATAOBJECT* WXUNUSED(dataobj)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP GetDragDropEffect(BOOL WXUNUSED(drag), DWORD WXUNUSED(grfKeyState), LPDWORD WXUNUSED(effect)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP GetInPlaceContext(LPOLEINPLACEFRAME* WXUNUSED(frame), LPOLEINPLACEUIWINDOW* WXUNUSED(doc), LPOLEINPLACEFRAMEINFO WXUNUSED(frameInfo)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP GetNewStorage(LPSTORAGE *WXUNUSED(stg)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP QueryAcceptData(LPDATAOBJECT WXUNUSED(dataobj), CLIPFORMAT* WXUNUSED(format), DWORD WXUNUSED(reco), BOOL WXUNUSED(really), HGLOBAL WXUNUSED(hMetaPict)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP QueryInsertObject(LPCLSID WXUNUSED(clsid), LPSTORAGE WXUNUSED(stg), LONG WXUNUSED(cp)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP ShowContainerUI(BOOL WXUNUSED(show)) wxOVERRIDE { return E_NOTIMPL; } wxSTDMETHODIMP GetContextMenu(WORD WXUNUSED(seltype), LPOLEOBJECT WXUNUSED(oleobj), CHARRANGE* WXUNUSED(chrg), HMENU *menu) wxOVERRIDE { // 'menu' will be shown and destroyed by the caller. We need to keep // its wx counterpart, the wxMenu instance, around until it is // dismissed, though, so store it in m_menu and destroy sometime later. DeleteContextMenuObject(); m_menu = m_textCtrl->MSWCreateContextMenu(); *menu = m_menu->GetHMenu(); // Make wx handle events from the popup menu correctly: m_menu->SetInvokingWindow(m_textCtrl); wxCurrentPopupMenu = m_menu; m_menu->UpdateUI(); return S_OK; } DECLARE_IUNKNOWN_METHODS; private: void DeleteContextMenuObject() { if ( m_menu ) { m_menu->MSWDetachHMENU(); if ( wxCurrentPopupMenu == m_menu ) wxCurrentPopupMenu = NULL; wxDELETE(m_menu); } } wxTextCtrl *m_textCtrl; wxMenu *m_menu; wxDECLARE_NO_COPY_CLASS(wxTextCtrlOleCallback); }; BEGIN_IID_TABLE(wxTextCtrlOleCallback) ADD_IID(Unknown) ADD_RAW_IID(wxIID_IRichEditOleCallback) END_IID_TABLE; IMPLEMENT_IUNKNOWN_METHODS(wxTextCtrlOleCallback) #endif // wxUSE_OLE #endif // wxUSE_RICHEDIT // a small class used to set m_updatesCount to 0 (to filter duplicate events if // necessary) and to reset it back to -1 afterwards class UpdatesCountFilter { public: UpdatesCountFilter(int& count) : m_count(count) { wxASSERT_MSG( m_count == -1 || m_count == -2, wxT("wrong initial m_updatesCount value") ); if (m_count != -2) m_count = 0; //else: we don't want to count how many update events we get as we're going // to ignore all of them } ~UpdatesCountFilter() { m_count = -1; } // return true if an event has been received bool GotUpdate() const { return m_count == 1; } private: int& m_count; wxDECLARE_NO_COPY_CLASS(UpdatesCountFilter); }; namespace { // This stack stores the length of the text being currently inserted into the // current control. // // It is used to pass information from DoWriteText() to AdjustSpaceLimit() // and is global as text can only be inserted into a few text controls at a // time (but possibly more than into one, if wxEVT_TEXT event handler does // something that results in another text control update), and we don't want to // waste space in every wxTextCtrl object for this field unnecessarily. wxStack gs_lenOfInsertedText; } // anonymous namespace // ---------------------------------------------------------------------------- // event tables and other macros // ---------------------------------------------------------------------------- wxBEGIN_EVENT_TABLE(wxTextCtrl, wxTextCtrlBase) EVT_CHAR(wxTextCtrl::OnChar) EVT_KEY_DOWN(wxTextCtrl::OnKeyDown) EVT_DROP_FILES(wxTextCtrl::OnDropFiles) EVT_MENU(wxID_CUT, wxTextCtrl::OnCut) EVT_MENU(wxID_COPY, wxTextCtrl::OnCopy) EVT_MENU(wxID_PASTE, wxTextCtrl::OnPaste) EVT_MENU(wxID_UNDO, wxTextCtrl::OnUndo) EVT_MENU(wxID_REDO, wxTextCtrl::OnRedo) EVT_MENU(wxID_CLEAR, wxTextCtrl::OnDelete) EVT_MENU(wxID_SELECTALL, wxTextCtrl::OnSelectAll) EVT_UPDATE_UI(wxID_CUT, wxTextCtrl::OnUpdateCut) EVT_UPDATE_UI(wxID_COPY, wxTextCtrl::OnUpdateCopy) EVT_UPDATE_UI(wxID_PASTE, wxTextCtrl::OnUpdatePaste) EVT_UPDATE_UI(wxID_UNDO, wxTextCtrl::OnUpdateUndo) EVT_UPDATE_UI(wxID_REDO, wxTextCtrl::OnUpdateRedo) EVT_UPDATE_UI(wxID_CLEAR, wxTextCtrl::OnUpdateDelete) EVT_UPDATE_UI(wxID_SELECTALL, wxTextCtrl::OnUpdateSelectAll) EVT_SET_FOCUS(wxTextCtrl::OnSetFocus) wxEND_EVENT_TABLE() // ============================================================================ // implementation // ============================================================================ // ---------------------------------------------------------------------------- // creation // ---------------------------------------------------------------------------- void wxTextCtrl::Init() { #if wxUSE_RICHEDIT m_verRichEdit = 0; m_richDPIscale = 1; #endif // wxUSE_RICHEDIT #if wxUSE_INKEDIT && wxUSE_RICHEDIT m_isInkEdit = 0; #endif m_privateContextMenu = NULL; m_updatesCount = -1; m_isNativeCaretShown = true; } wxTextCtrl::~wxTextCtrl() { #if wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT if ( m_dropTarget == wxRICHTEXT_DEFAULT_DROPTARGET ) { // don't try to destroy this dummy pointer in the base class dtor m_dropTarget = NULL; } #endif // wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT delete m_privateContextMenu; } bool wxTextCtrl::Create(wxWindow *parent, wxWindowID id, const wxString& value, const wxPoint& pos, const wxSize& size, long style, const wxValidator& validator, const wxString& name) { // base initialization if ( !CreateControl(parent, id, pos, size, style, validator, name) ) return false; if ( !MSWCreateText(value, pos, size) ) return false; #if wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT if ( IsRich() ) { // rich text controls have a default associated drop target which // allows them to receive (rich) text dropped on them, which is nice, // but prevents us from associating a user-defined drop target with // them as we need to unregister the old one first // // to make it work, we set m_dropTarget to this special value initially // and check for it in our SetDropTarget() m_dropTarget = wxRICHTEXT_DEFAULT_DROPTARGET; } #endif // wxUSE_DRAG_AND_DROP && wxUSE_RICHEDIT return true; } // returns true if the platform should explicitly apply a theme border bool wxTextCtrl::CanApplyThemeBorder() const { // Standard text control already handles theming return ((GetWindowStyle() & (wxTE_RICH|wxTE_RICH2)) != 0); } bool wxTextCtrl::MSWCreateText(const wxString& value, const wxPoint& pos, const wxSize& size) { // translate wxWin style flags to MSW ones WXDWORD msStyle = MSWGetCreateWindowFlags(); // do create the control - either an EDIT or RICHEDIT wxString windowClass = wxT("EDIT"); #if wxUSE_RICHEDIT if ( m_windowStyle & wxTE_AUTO_URL ) { // automatic URL detection only works in RichEdit 2.0+ m_windowStyle |= wxTE_RICH2; } if ( m_windowStyle & wxTE_RICH2 ) { // using richedit 2.0 implies using wxTE_RICH m_windowStyle |= wxTE_RICH; } // we need to load the richedit DLL before creating the rich edit control if ( m_windowStyle & wxTE_RICH ) { // versions 2.0, 3.0 and 4.1 of rich edit are mostly compatible with // each other but not with version 1.0, so we have separate flags for // the version 1.0 and the others (and so m_verRichEdit may be 0 (plain // EDIT control), 1 for version 1.0 or 2 for any higher version) // // notice that 1.0 has no Unicode support at all so in Unicode build we // must use another version #if wxUSE_UNICODE m_verRichEdit = 2; #else // !wxUSE_UNICODE m_verRichEdit = m_windowStyle & wxTE_RICH2 ? 2 : 1; #endif // wxUSE_UNICODE/!wxUSE_UNICODE #if wxUSE_INKEDIT // First test if we can load an ink edit control. Normally, all edit // controls will be made ink edit controls if a tablet environment is // found (or if msw.inkedit != 0 and the InkEd.dll is present). // However, an application can veto ink edit controls by either specifying // msw.inkedit = 0 or by removing wxTE_RICH[2] from the style. // if ((wxSystemSettings::HasFeature(wxSYS_TABLET_PRESENT) || wxSystemOptions::GetOptionInt(wxT("msw.inkedit")) != 0) && !(wxSystemOptions::HasOption(wxT("msw.inkedit")) && wxSystemOptions::GetOptionInt(wxT("msw.inkedit")) == 0)) { if (wxRichEditModule::LoadInkEdit()) { windowClass = INKEDIT_CLASS; #if wxUSE_INKEDIT && wxUSE_RICHEDIT m_isInkEdit = 1; #endif // Fake rich text version for other calls m_verRichEdit = 2; } } #endif #if wxUSE_INKEDIT if (!IsInkEdit()) #endif // wxUSE_INKEDIT { if ( m_verRichEdit == 2 ) { if ( wxRichEditModule::Load(wxRichEditModule::Version_41) ) { // yes, class name for version 4.1 really is 5.0 windowClass = wxT("RICHEDIT50W"); m_verRichEdit = 4; } else if ( wxRichEditModule::Load(wxRichEditModule::Version_2or3) ) { windowClass = wxT("RichEdit20") #if wxUSE_UNICODE wxT("W"); #else // ANSI wxT("A"); #endif // Unicode/ANSI } else // failed to load msftedit.dll and riched20.dll { m_verRichEdit = 1; } } if ( m_verRichEdit == 1 ) { if ( wxRichEditModule::Load(wxRichEditModule::Version_1) ) { windowClass = wxT("RICHEDIT"); } else // failed to load any richedit control DLL { // only give the error msg once if the DLL can't be loaded static bool s_errorGiven = false; // MT ok as only used by GUI if ( !s_errorGiven ) { wxLogError(_("Impossible to create a rich edit control, using simple text control instead. Please reinstall riched32.dll")); s_errorGiven = true; } m_verRichEdit = 0; } } } // !useInkEdit } #endif // wxUSE_RICHEDIT // we need to turn '\n's into "\r\n"s for the multiline controls wxString valueWin; if ( m_windowStyle & wxTE_MULTILINE ) { valueWin = wxTextFile::Translate(value, wxTextFileType_Dos); } else // single line { valueWin = value; } // suppress events sent during control creation: we're called either from // the ctor and then we shouldn't generate any events for compatibility // with the other ports, or from SetWindowStyleFlag() and then we shouldn't // generate the events because our text doesn't really change, the fact // that we (sometimes) need to recreate the control is just an // implementation detail m_updatesCount = -2; if ( !MSWCreateControl(windowClass.t_str(), msStyle, pos, size, valueWin) ) return false; m_updatesCount = -1; #if wxUSE_RICHEDIT if (IsRich()) { #if wxUSE_INKEDIT if (IsInkEdit()) { // Pass IEM_InsertText (0) as wParam, in order to have the ink always // converted to text. ::SendMessage(GetHwnd(), EM_SETINKINSERTMODE, 0, 0); // Make sure the mouse can be used for input ::SendMessage(GetHwnd(), EM_SETUSEMOUSEFORINPUT, 1, 0); } #endif // enable the events we're interested in: we want to get EN_CHANGE as // for the normal controls LPARAM mask = ENM_CHANGE; if (GetRichVersion() == 1 && !IsInkEdit()) { // we also need EN_MSGFILTER for richedit 1.0 for the reasons // explained in its handler mask |= ENM_MOUSEEVENTS; // we also need to force the appearance of the vertical scrollbar // initially as otherwise the control doesn't refresh correctly // after resize: but once the vertical scrollbar had been shown // (even if it's subsequently hidden) it does // // this is clearly a bug and for now it has been only noticed under // Windows XP, so if we're sure it works correctly under other // systems we could do this only for XP SetSize(-1, 1); // 1 is small enough to force vert scrollbar SetInitialSize(size); } else if ( m_windowStyle & wxTE_AUTO_URL ) { mask |= ENM_LINK; ::SendMessage(GetHwnd(), EM_AUTOURLDETECT, TRUE, 0); } ::SendMessage(GetHwnd(), EM_SETEVENTMASK, 0, mask); bool contextMenuConnected = false; #if wxUSE_OLE if ( m_verRichEdit >= 4 ) { wxTextCtrlOleCallback *cb = new wxTextCtrlOleCallback(this); if ( ::SendMessage(GetHwnd(), EM_SETOLECALLBACK, 0, (LPARAM)cb) ) { // If we succeeded in setting up the callback, we don't need to // connect to wxEVT_CONTEXT_MENU to show the menu ourselves, // but we do need to connect to wxEVT_RIGHT_UP to generate // wxContextMenuEvent ourselves as we're not going to get it // from the control which consumes it. contextMenuConnected = true; Bind(wxEVT_RIGHT_UP, &wxTextCtrl::OnRightUp, this); } } #endif if ( !contextMenuConnected ) Bind(wxEVT_CONTEXT_MENU, &wxTextCtrl::OnContextMenu, this); // Determine the system DPI and the DPI of the display the rich control // is shown on, and calculate and apply the scaling factor. // When this control is created in a (wxFrame) constructor the zoom is // not correctly applied, use CallAfter to delay setting the zoom. m_richDPIscale = GetDPI().y / (float)::GetDeviceCaps(ScreenHDC(), LOGPIXELSY); CallAfter(&wxTextCtrl::MSWSetRichZoom); } else #endif // wxUSE_RICHEDIT if ( HasFlag(wxTE_MULTILINE) && HasFlag(wxTE_READONLY) ) { // non-rich read-only multiline controls have grey background by // default under MSW but this is not always appropriate, so forcefully // reset the background colour to normal default // // this is not ideal but, after a long discussion on wx-dev (see // http://thread.gmane.org/gmane.comp.lib.wxwidgets.devel/116360/) it // was finally deemed to be the best behaviour by default (and ideally // we'd have a way to change this, see #11521) SetBackgroundColour(GetClassDefaultAttributes().colBg); } // Without this, if we pass the size in the constructor and then don't change it, // the themed borders will be drawn incorrectly. SetWindowPos(GetHwnd(), NULL, 0, 0, 0, 0, SWP_NOZORDER|SWP_NOMOVE|SWP_NOSIZE|SWP_NOACTIVATE| SWP_FRAMECHANGED); if ( IsSingleLine() ) { // If we don't set the margins explicitly, their size depends on the // control initial size, see #2438. So explicitly set them to something // consistent. And for this we have 2 candidates: EC_USEFONTINFO (which // sets the left margin to 3 pixels, at least under Windows 7) or 0. We // use the former because it looks like it was meant to be used as the // default (what else would it be there for?) and 0 looks bad in // classic mode, i.e. without themes. Also, the margin can be reset to // 0 easily by calling SetMargins() explicitly but setting it to the // default value is not currently supported. // // Finally, notice that EC_USEFONTINFO is used differently for plain // and rich text controls. WPARAM wParam; LPARAM lParam; if ( IsRich() ) { wParam = EC_USEFONTINFO; lParam = 0; } else // plain EDIT, EC_USEFONTINFO is used in lParam with them. { wParam = EC_LEFTMARGIN | EC_RIGHTMARGIN; lParam = MAKELPARAM(EC_USEFONTINFO, EC_USEFONTINFO); } ::SendMessage(GetHwnd(), EM_SETMARGINS, wParam, lParam); } #if wxUSE_RICHEDIT // For RichEdit >= 4, SetFont(), called above from MSWCreateControl(), uses // EM_SETCHARFORMAT which affects the undo buffer, meaning that CanUndo() // for a newly created control returns true, which is unexpected, so clear // the undo buffer. if ( GetRichVersion() >= 4 ) { EmptyUndoBuffer(); } #endif // wxUSE_RICHEDIT return true; } // Make sure the window style (etc.) reflects the HWND style (roughly) void wxTextCtrl::AdoptAttributesFromHWND() { wxWindow::AdoptAttributesFromHWND(); HWND hWnd = GetHwnd(); long style = ::GetWindowLong(hWnd, GWL_STYLE); // retrieve the style to see whether this is an edit or richedit ctrl #if wxUSE_RICHEDIT wxString classname = wxGetWindowClass(GetHWND()); if ( classname.IsSameAs(wxT("EDIT"), false /* no case */) ) { m_verRichEdit = 0; } else // rich edit? { wxChar c; if ( wxSscanf(classname, wxT("RichEdit%d0%c"), &m_verRichEdit, &c) != 2 ) { wxLogDebug(wxT("Unknown edit control '%s'."), classname); m_verRichEdit = 0; } } #endif // wxUSE_RICHEDIT if (style & ES_MULTILINE) m_windowStyle |= wxTE_MULTILINE; if (style & ES_PASSWORD) m_windowStyle |= wxTE_PASSWORD; if (style & ES_READONLY) m_windowStyle |= wxTE_READONLY; if (style & ES_WANTRETURN) m_windowStyle |= wxTE_PROCESS_ENTER; if (style & ES_CENTER) m_windowStyle |= wxTE_CENTRE; if (style & ES_RIGHT) m_windowStyle |= wxTE_RIGHT; } WXDWORD wxTextCtrl::MSWGetStyle(long style, WXDWORD *exstyle) const { long msStyle = wxControl::MSWGetStyle(style, exstyle); // styles which we always add by default if ( style & wxTE_MULTILINE ) { msStyle |= ES_MULTILINE | ES_WANTRETURN; if ( !(style & wxTE_NO_VSCROLL) ) { // always adjust the vertical scrollbar automatically if we have it msStyle |= WS_VSCROLL | ES_AUTOVSCROLL; #if wxUSE_RICHEDIT // we have to use this style for the rich edit controls because // without it the vertical scrollbar never appears at all in // richedit 3.0 because of our ECO_NOHIDESEL hack (search for it) if ( style & wxTE_RICH2 ) { msStyle |= ES_DISABLENOSCROLL; } #endif // wxUSE_RICHEDIT } style |= wxTE_PROCESS_ENTER; } else // !multiline { // there is really no reason to not have this style for single line // text controls msStyle |= ES_AUTOHSCROLL; } // note that wxTE_DONTWRAP is the same as wxHSCROLL so if we have a horz // scrollbar, there is no wrapping -- which makes sense if ( style & wxTE_DONTWRAP ) { // automatically scroll the control horizontally as necessary // // NB: ES_AUTOHSCROLL is needed for richedit controls or they don't // show horz scrollbar at all, even in spite of WS_HSCROLL, and as // it doesn't seem to do any harm for plain edit controls, add it // always msStyle |= WS_HSCROLL | ES_AUTOHSCROLL; } if ( style & wxTE_READONLY ) msStyle |= ES_READONLY; if ( style & wxTE_PASSWORD ) msStyle |= ES_PASSWORD; if ( style & wxTE_NOHIDESEL ) msStyle |= ES_NOHIDESEL; // note that we can't do do "& wxTE_LEFT" as wxTE_LEFT == 0 if ( style & wxTE_CENTRE ) msStyle |= ES_CENTER; else if ( style & wxTE_RIGHT ) msStyle |= ES_RIGHT; else msStyle |= ES_LEFT; // ES_LEFT is 0 as well but for consistency... return msStyle; } #if wxUSE_RICHEDIT && wxUSE_SPELLCHECK bool wxTextCtrl::EnableProofCheck(bool enable, const wxTextProofOptions& WXUNUSED(options)) { wxCHECK_MSG((m_windowStyle & wxTE_RICH2), false, "Unable to enable proof checking on a control " "that does not have wxTE_RICH2 style"); LPARAM editStyle = SES_USECTF | SES_CTFALLOWEMBED | SES_CTFALLOWSMARTTAG | SES_CTFALLOWPROOFING; ::SendMessage(GetHwnd(), EM_SETEDITSTYLE, editStyle, editStyle); LRESULT langOptions = ::SendMessage(GetHwnd(), EM_GETLANGOPTIONS, 0, 0); if ( enable ) langOptions |= IMF_SPELLCHECKING; else langOptions &= ~IMF_SPELLCHECKING; ::SendMessage(GetHwnd(), EM_SETLANGOPTIONS, 0, langOptions); return IsProofCheckEnabled(); } bool wxTextCtrl::IsProofCheckEnabled() const { LRESULT langOptions = ::SendMessage(GetHwnd(), EM_GETLANGOPTIONS, 0, 0); return (langOptions & IMF_SPELLCHECKING); } #endif // wxUSE_SPELLCHECK void wxTextCtrl::SetWindowStyleFlag(long style) { // changing the alignment of the control dynamically works under Win2003 // (but not older Windows version: it seems to work under some versions of // XP but not other ones, and we have no way to determine it so be // conservative here) and only for plain EDIT controls (not RICH ones) and // we have to recreate the control to make it always work if ( IsRich() || wxGetWinVersion() < wxWinVersion_2003 ) { const long alignMask = wxTE_LEFT | wxTE_CENTRE | wxTE_RIGHT; if ( (style & alignMask) != (GetWindowStyle() & alignMask) ) { const wxString value = GetValue(); const wxPoint pos = GetPosition(); const wxSize size = GetSize(); // delete the old window HWND hwnd = GetHwnd(); DissociateHandle(); ::DestroyWindow(hwnd); // create the new one with the updated flags m_windowStyle = style; MSWCreateText(value, pos, size); // and make sure it has the same attributes as before if ( m_hasFont ) { // calling SetFont(m_font) would do nothing as the code would // notice that the font didn't change, so force it to believe // that it did wxFont font = m_font; m_font = wxNullFont; SetFont(font); } if ( m_hasFgCol ) { wxColour colFg = m_foregroundColour; m_foregroundColour = wxNullColour; SetForegroundColour(colFg); } if ( m_hasBgCol ) { wxColour colBg = m_backgroundColour; m_backgroundColour = wxNullColour; SetBackgroundColour(colBg); } // note that text styles are lost but this is probably not a big // problem: if you use styles, you probably don't use nor change // alignment flags anyhow return; } } #if wxUSE_RICHEDIT // we have to deal with some styles separately because they can't be // changed by simply calling SetWindowLong(GWL_STYLE) but can be changed // using richedit-specific EM_SETOPTIONS if ( IsRich() && ((style & wxTE_NOHIDESEL) != (GetWindowStyle() & wxTE_NOHIDESEL)) ) { bool set = (style & wxTE_NOHIDESEL) != 0; ::SendMessage(GetHwnd(), EM_SETOPTIONS, set ? ECOOP_OR : ECOOP_AND, set ? ECO_NOHIDESEL : ~ECO_NOHIDESEL); } #endif // wxUSE_RICHEDIT wxControl::SetWindowStyleFlag(style); } // ---------------------------------------------------------------------------- // set/get the controls text // ---------------------------------------------------------------------------- bool wxTextCtrl::IsEmpty() const { // this is an optimization for multiline controls containing a lot of text if ( IsMultiLine() && GetNumberOfLines() != 1 ) return false; return wxTextCtrlBase::IsEmpty(); } wxString wxTextCtrl::GetValue() const { // range 0..-1 is special for GetRange() and means to retrieve all text return GetRange(0, -1); } wxString wxTextCtrl::GetRange(long from, long to) const { wxString str; if ( from >= to && to != -1 ) { // nothing to retrieve return str; } #if wxUSE_RICHEDIT if ( IsRich() ) { int len = GetWindowTextLength(GetHwnd()); if ( len > from ) { if ( to == -1 ) to = len; #if !wxUSE_UNICODE // we must use EM_STREAMOUT if we don't want to lose all characters // not representable in the current character set (EM_GETTEXTRANGE // simply replaces them with question marks...) if ( GetRichVersion() > 1 ) { // we must have some encoding, otherwise any 8bit chars in the // control are simply *lost* (replaced by '?') wxFontEncoding encoding = wxFONTENCODING_SYSTEM; wxFont font = m_defaultStyle.GetFont(); if ( !font.IsOk() ) font = GetFont(); if ( font.IsOk() ) { encoding = font.GetEncoding(); } #if wxUSE_INTL if ( encoding == wxFONTENCODING_SYSTEM ) { encoding = wxLocale::GetSystemEncoding(); } #endif // wxUSE_INTL if ( encoding == wxFONTENCODING_SYSTEM ) { encoding = wxFONTENCODING_ISO8859_1; } str = StreamOut(encoding); if ( !str.empty() ) { // we have to manually extract the required part, luckily // this is easy in this case as EOL characters in str are // just LFs because we remove CRs in wxRichEditStreamOut str = str.Mid(from, to - from); } } // StreamOut() wasn't used or failed, try to do it in normal way if ( str.empty() ) #endif // !wxUSE_UNICODE { // alloc one extra WORD as needed by the control wxStringBuffer tmp(str, ++len); wxChar *p = tmp; TEXTRANGE textRange; textRange.chrg.cpMin = from; textRange.chrg.cpMax = to; textRange.lpstrText = p; (void)::SendMessage(GetHwnd(), EM_GETTEXTRANGE, 0, (LPARAM)&textRange); if ( m_verRichEdit > 1 ) { // RichEdit 2.0 uses just CR ('\r') for the // newlines which is neither Unix nor Windows // style - convert it to something reasonable for ( ; *p; p++ ) { if ( *p == wxT('\r') ) *p = wxT('\n'); } } } if ( m_verRichEdit == 1 ) { // convert to the canonical form - see comment below str = wxTextFile::Translate(str, wxTextFileType_Unix); } } //else: no text at all, leave the string empty } else #endif // wxUSE_RICHEDIT { // retrieve all text: wxTextEntry method works even for multiline // controls and must be used for single line ones to account for hints str = wxTextEntry::GetValue(); // need only a range? if ( from < to ) { str = str.Mid(from, to - from); } // WM_GETTEXT uses standard DOS CR+LF (\r\n) convention - convert to the // canonical one (same one as above) for consistency with the other kinds // of controls and, more importantly, with the other ports str = wxTextFile::Translate(str, wxTextFileType_Unix); } return str; } void wxTextCtrl::DoSetValue(const wxString& value, int flags) { // if the text is long enough, it's faster to just set it instead of first // comparing it with the old one (chances are that it will be different // anyhow, this comparison is there to avoid flicker for small single-line // edit controls mostly) if ( (value.length() > 0x400) || (value != DoGetValue()) ) { DoWriteText(value, flags /* doesn't include SelectionOnly here */); // mark the control as being not dirty - we changed its text, not the // user DiscardEdits(); // for compatibility, don't move the cursor when doing SetValue() SetInsertionPoint(0); } else // same text { // still reset the modified flag even if the value didn't really change // because now it comes from the program and not the user (and do it // before generating the event so that the event handler could get the // expected value from IsModified()) DiscardEdits(); // still send an event for consistency if (flags & SetValue_SendEvent) SendUpdateEvent(); } } #if wxUSE_RICHEDIT && !wxUSE_UNICODE // TODO: using memcpy() would improve performance a lot for big amounts of text DWORD CALLBACK wxRichEditStreamIn(DWORD_PTR dwCookie, BYTE *buf, LONG cb, LONG *pcb) { *pcb = 0; const wchar_t ** const ppws = (const wchar_t **)dwCookie; wchar_t *wbuf = (wchar_t *)buf; const wchar_t *wpc = *ppws; while ( cb && *wpc ) { *wbuf++ = *wpc++; cb -= sizeof(wchar_t); (*pcb) += sizeof(wchar_t); } *ppws = wpc; return 0; } // helper struct used to pass parameters from wxTextCtrl to wxRichEditStreamOut struct wxStreamOutData { wchar_t *wpc; size_t len; }; DWORD CALLBACK wxRichEditStreamOut(DWORD_PTR dwCookie, BYTE *buf, LONG cb, LONG *pcb) { *pcb = 0; wxStreamOutData *data = (wxStreamOutData *)dwCookie; const wchar_t *wbuf = (const wchar_t *)buf; wchar_t *wpc = data->wpc; while ( cb ) { wchar_t wch = *wbuf++; // turn "\r\n" into "\n" on the fly if ( wch != L'\r' ) *wpc++ = wch; else data->len--; cb -= sizeof(wchar_t); (*pcb) += sizeof(wchar_t); } data->wpc = wpc; return 0; } bool wxTextCtrl::StreamIn(const wxString& value, wxFontEncoding encoding, bool selectionOnly) { wxCSConv conv(encoding); const size_t len = conv.MB2WC(NULL, value.mb_str(), value.length()); if (len == wxCONV_FAILED) return false; wxWCharBuffer wchBuf(len); // allocates one extra character wchar_t *wpc = wchBuf.data(); conv.MB2WC(wpc, value.mb_str(), len + 1); // finally, stream it in the control EDITSTREAM eds; wxZeroMemory(eds); eds.dwCookie = (DWORD_PTR)&wpc; // the cast below is needed for broken (very) old mingw32 headers eds.pfnCallback = (EDITSTREAMCALLBACK)wxRichEditStreamIn; // same problem as in DoWriteText(): we can get multiple events here UpdatesCountFilter ucf(m_updatesCount); ::SendMessage(GetHwnd(), EM_STREAMIN, SF_TEXT | SF_UNICODE | (selectionOnly ? SFF_SELECTION : 0), (LPARAM)&eds); // It's okay for EN_UPDATE to not be sent if the selection is empty and // the text is empty, otherwise warn the programmer about it. wxASSERT_MSG( ucf.GotUpdate() || ( !HasSelection() && value.empty() ), wxT("EM_STREAMIN didn't send EN_UPDATE?") ); if ( eds.dwError ) { wxLogLastError(wxT("EM_STREAMIN")); } return true; } wxString wxTextCtrl::StreamOut(wxFontEncoding encoding, bool selectionOnly) const { wxString out; const int len = GetWindowTextLength(GetHwnd()); wxWCharBuffer wchBuf(len); wchar_t *wpc = wchBuf.data(); wxStreamOutData data; data.wpc = wpc; data.len = len; EDITSTREAM eds; wxZeroMemory(eds); eds.dwCookie = (DWORD_PTR)&data; eds.pfnCallback = wxRichEditStreamOut; ::SendMessage ( GetHwnd(), EM_STREAMOUT, SF_TEXT | SF_UNICODE | (selectionOnly ? SFF_SELECTION : 0), (LPARAM)&eds ); if ( eds.dwError ) { wxLogLastError(wxT("EM_STREAMOUT")); } else // streamed out ok { // NUL-terminate the string because its length could have been // decreased by wxRichEditStreamOut *(wchBuf.data() + data.len) = L'\0'; // now convert to the given encoding (this is a possibly lossful // conversion but what else can we do) wxCSConv conv(encoding); size_t lenNeeded = conv.WC2MB(NULL, wchBuf, 0); if ( lenNeeded != wxCONV_FAILED && lenNeeded++ ) { conv.WC2MB(wxStringBuffer(out, lenNeeded), wchBuf, lenNeeded); } } return out; } #endif // wxUSE_RICHEDIT void wxTextCtrl::WriteText(const wxString& value) { DoWriteText(value); } void wxTextCtrl::DoWriteText(const wxString& value, int flags) { bool selectionOnly = (flags & SetValue_SelectionOnly) != 0; wxString valueDos; if ( m_windowStyle & wxTE_MULTILINE ) valueDos = wxTextFile::Translate(value, wxTextFileType_Dos); else valueDos = value; #if wxUSE_RICHEDIT // there are several complications with the rich edit controls here bool done = false; if ( IsRich() ) { // first, ensure that the new text will be in the default style if ( !m_defaultStyle.IsDefault() ) { long start, end; GetSelection(&start, &end); SetStyle(start, end, m_defaultStyle); } #if !wxUSE_UNICODE // next check if the text we're inserting must be shown in a non // default charset -- this only works for RichEdit > 1.0 if ( GetRichVersion() > 1 ) { wxFont font = m_defaultStyle.GetFont(); if ( !font.IsOk() ) font = GetFont(); if ( font.IsOk() ) { wxFontEncoding encoding = font.GetEncoding(); if ( encoding != wxFONTENCODING_SYSTEM ) { // we have to use EM_STREAMIN to force richedit control 2.0+ // to show any text in the non default charset -- otherwise // it thinks it knows better than we do and always shows it // in the default one done = StreamIn(valueDos, encoding, selectionOnly); } } } #endif // !wxUSE_UNICODE } if ( !done ) #endif // wxUSE_RICHEDIT { // in some cases we get 2 EN_CHANGE notifications after the SendMessage // call (this happens for plain EDITs with EM_REPLACESEL and under some // -- undetermined -- conditions with rich edit) and sometimes we don't // get any events at all (plain EDIT with WM_SETTEXT), so ensure that // we generate exactly one of them by ignoring all but the first one in // SendUpdateEvent() and generating one ourselves if we hadn't got any // notifications from Windows if ( !(flags & SetValue_SendEvent) ) m_updatesCount = -2; // suppress any update event UpdatesCountFilter ucf(m_updatesCount); // Remember the length of the text we're inserting so that // AdjustSpaceLimit() could adjust the limit to be big enough for it: // and also signal us whether it did it by resetting it to 0. gs_lenOfInsertedText.push(valueDos.length()); ::SendMessage(GetHwnd(), selectionOnly ? EM_REPLACESEL : WM_SETTEXT, // EM_REPLACESEL takes 1 to indicate the operation should be redoable selectionOnly ? 1 : 0, wxMSW_CONV_LPARAM(valueDos)); const int lenActuallyInserted = gs_lenOfInsertedText.top(); gs_lenOfInsertedText.pop(); if ( lenActuallyInserted == -1 ) { // Text size limit has been hit and added text has been truncated. // But the max length has been increased by the EN_MAXTEXT message // handler, which also reset the top of the lengths stack to -1), // so we should be able to set it successfully now if we try again. if ( selectionOnly ) Undo(); ::SendMessage(GetHwnd(), selectionOnly ? EM_REPLACESEL : WM_SETTEXT, selectionOnly ? 1 : 0, wxMSW_CONV_LPARAM(valueDos)); } if ( !ucf.GotUpdate() && (flags & SetValue_SendEvent) ) { SendUpdateEvent(); } } } void wxTextCtrl::AppendText(const wxString& text) { wxTextEntry::AppendText(text); #if wxUSE_RICHEDIT // don't do this if we're frozen, saves some time if ( !IsFrozen() && IsMultiLine() && GetRichVersion() > 1 ) { ::SendMessage(GetHwnd(), WM_VSCROLL, SB_BOTTOM, (LPARAM)NULL); } #endif // wxUSE_RICHEDIT } void wxTextCtrl::Clear() { ::SetWindowText(GetHwnd(), wxEmptyString); if ( IsMultiLine() && !IsRich() ) { // rich edit controls send EN_UPDATE from WM_SETTEXT handler themselves // but the normal ones don't -- make Clear() behaviour consistent by // always sending this event SendUpdateEvent(); } } bool wxTextCtrl::EmulateKeyPress(const wxKeyEvent& event) { SetFocus(); size_t lenOld = GetValue().length(); wxUint32 code = event.GetRawKeyCode(); ::keybd_event((BYTE)code, 0, 0 /* key press */, 0); ::keybd_event((BYTE)code, 0, KEYEVENTF_KEYUP, 0); // assume that any alphanumeric key changes the total number of characters // in the control - this should work in 99% of cases return GetValue().length() != lenOld; } // ---------------------------------------------------------------------------- // Accessors // ---------------------------------------------------------------------------- void wxTextCtrl::SetInsertionPointEnd() { // we must not do anything if the caret is already there because calling // SetInsertionPoint() thaws the controls if Freeze() had been called even // if it doesn't actually move the caret anywhere and so the simple fact of // doing it results in horrible flicker when appending big amounts of text // to the control in a few chunks (see DoAddText() test in the text sample) const wxTextPos lastPosition = GetLastPosition(); if ( GetInsertionPoint() == lastPosition ) { return; } SetInsertionPoint(lastPosition); } long wxTextCtrl::GetInsertionPoint() const { #if wxUSE_RICHEDIT if ( IsRich() ) { CHARRANGE range; range.cpMin = 0; range.cpMax = 0; ::SendMessage(GetHwnd(), EM_EXGETSEL, 0, (LPARAM) &range); return range.cpMin; } #endif // wxUSE_RICHEDIT return wxTextEntry::GetInsertionPoint(); } wxTextPos wxTextCtrl::GetLastPosition() const { if ( IsMultiLine() ) { #if wxUSE_RICHEDIT if ( IsRich() ) { GETTEXTLENGTHEX gtl; gtl.flags = GTL_NUMCHARS | GTL_PRECISE; gtl.codepage = GetRichVersion() > 1 ? 1200 : CP_ACP; return ::SendMessage(GetHwnd(), EM_GETTEXTLENGTHEX, (WPARAM)>l, 0); } else #endif // wxUSE_RICHEDIT { return ::GetWindowTextLength(GetHwnd()); } } return wxTextEntry::GetLastPosition(); } // If the return values from and to are the same, there is no // selection. void wxTextCtrl::GetSelection(long *from, long *to) const { #if wxUSE_RICHEDIT if ( IsRich() ) { CHARRANGE charRange; ::SendMessage(GetHwnd(), EM_EXGETSEL, 0, (LPARAM) &charRange); *from = charRange.cpMin; *to = charRange.cpMax; } else #endif // !wxUSE_RICHEDIT { wxTextEntry::GetSelection(from, to); } } // ---------------------------------------------------------------------------- // selection // ---------------------------------------------------------------------------- void wxTextCtrl::DoSetSelection(long from, long to, int flags) { HWND hWnd = GetHwnd(); #if wxUSE_RICHEDIT if ( IsRich() ) { // if from and to are both -1, it means (in wxWidgets) that all text // should be selected, translate this into Windows convention if ( (from == -1) && (to == -1) ) { from = 0; } CHARRANGE range; range.cpMin = from; range.cpMax = to; ::SendMessage(hWnd, EM_EXSETSEL, 0, (LPARAM)&range); } else #endif // wxUSE_RICHEDIT { wxTextEntry::DoSetSelection(from, to, flags); } if ( (flags & SetSel_Scroll) && !IsFrozen() ) { #if wxUSE_RICHEDIT // richedit 3.0 (i.e. the version living in riched20.dll distributed // with Windows 2000 and beyond) doesn't honour EM_SCROLLCARET when // emulating richedit 2.0 unless the control has focus or ECO_NOHIDESEL // option is set (but it does work ok in richedit 1.0 mode...) // // so to make it work we either need to give focus to it here which // will probably create many problems (dummy focus events; window // containing the text control being brought to foreground // unexpectedly; ...) or to temporarily set ECO_NOHIDESEL which may // create other problems too -- and in fact it does because if we turn // on/off this style while appending the text to the control, the // vertical scrollbar never appears in it even if we append tons of // text and to work around this the only solution I found was to use // ES_DISABLENOSCROLL // // this is very ugly but I don't see any other way to make this work long style = 0; if ( GetRichVersion() > 1 ) { if ( !HasFlag(wxTE_NOHIDESEL) ) { // setting ECO_NOHIDESEL also sets WS_VISIBLE and possibly // others, remember the style so we can reset it later if needed style = ::GetWindowLong(GetHwnd(), GWL_STYLE); ::SendMessage(GetHwnd(), EM_SETOPTIONS, ECOOP_OR, ECO_NOHIDESEL); } //else: everything is already ok } #endif // wxUSE_RICHEDIT ::SendMessage(hWnd, EM_SCROLLCARET, 0, (LPARAM)0); #if wxUSE_RICHEDIT // restore ECO_NOHIDESEL if we changed it if ( GetRichVersion() > 1 && !HasFlag(wxTE_NOHIDESEL) ) { ::SendMessage(GetHwnd(), EM_SETOPTIONS, ECOOP_AND, ~ECO_NOHIDESEL); if ( style != ::GetWindowLong(GetHwnd(), GWL_STYLE) ) ::SetWindowLong(GetHwnd(), GWL_STYLE, style); } #endif // wxUSE_RICHEDIT } } // ---------------------------------------------------------------------------- // dirty status // ---------------------------------------------------------------------------- bool wxTextCtrl::IsModified() const { return ::SendMessage(GetHwnd(), EM_GETMODIFY, 0, 0) != 0; } void wxTextCtrl::MarkDirty() { ::SendMessage(GetHwnd(), EM_SETMODIFY, TRUE, 0); } void wxTextCtrl::DiscardEdits() { ::SendMessage(GetHwnd(), EM_SETMODIFY, FALSE, 0); } // ---------------------------------------------------------------------------- // Positions <-> coords // ---------------------------------------------------------------------------- int wxTextCtrl::GetNumberOfLines() const { return (int)::SendMessage(GetHwnd(), EM_GETLINECOUNT, 0, 0); } long wxTextCtrl::XYToPosition(long x, long y) const { // This gets the char index for the _beginning_ of this line long charIndex; if ( IsMultiLine() ) { charIndex = ::SendMessage(GetHwnd(), EM_LINEINDEX, y, 0); if ( charIndex == -1 ) return -1; } else { if ( y != 0 ) return -1; charIndex = 0; } // Line is identified by a character position! long lineLength = ::SendMessage(GetHwnd(), EM_LINELENGTH, charIndex, 0); // Notice that x == lineLength is still valid because it corresponds either // to the position of the LF at the end of any line except the last one or // to the last position, which is the position after the last character, // for the last line. if ( x > lineLength ) return -1; return charIndex + x; } bool wxTextCtrl::PositionToXY(long pos, long *x, long *y) const { HWND hWnd = GetHwnd(); // This gets the line number containing the character long lineNo; #if wxUSE_RICHEDIT if ( IsRich() ) { lineNo = ::SendMessage(hWnd, EM_EXLINEFROMCHAR, 0, pos); } else #endif // wxUSE_RICHEDIT { lineNo = ::SendMessage(hWnd, EM_LINEFROMCHAR, pos, 0); } if ( lineNo == -1 ) { // no such line return false; } // This gets the char index for the _beginning_ of this line long charIndex = ::SendMessage(hWnd, EM_LINEINDEX, lineNo, 0); if ( charIndex == -1 ) { return false; } // Line is identified by a character position! // New lines characters are not included. long lineLength = ::SendMessage(hWnd, EM_LINELENGTH, charIndex, 0); // To simplify further calculations, make position relative // to the beginning of the line. pos -= charIndex; // We need to apply different approach for the position referring // to the last line so check if the next line exists. long charIndexNextLn = IsMultiLine() ? ::SendMessage(hWnd, EM_LINEINDEX, lineNo + 1, 0) : -1; if ( charIndexNextLn == -1 ) { // No next line. Char position refers to the last line so // the length of the line obtained with EM_LINELENGTH is // correct because there are no new line characters at the end. if ( pos > lineLength ) { return false; } } else { // Next line found. Char position doesn't refer to the last line // so we need to take into account new line characters which were // not counted by EM_LINELENGTH. long lineLengthFull = charIndexNextLn - charIndex; // (lineLengthFull - lineLength) can be 0 (for wrapped line), // 1 (for \r new line mark) or 2 (for \r\n new line mark). if ( pos > lineLengthFull ) { return false; } if ( pos > lineLength ) { // Char position refers to the second character of the CR/LF mark // and its physical X-Y position is the same as the position // of the first one. pos = lineLength; } } // The X position is therefore a char position in the line. if ( x ) *x = pos; if ( y ) *y = lineNo; return true; } wxTextCtrlHitTestResult wxTextCtrl::HitTest(const wxPoint& pt, long *posOut) const { // first get the position from Windows LPARAM lParam; #if wxUSE_RICHEDIT POINTL ptl; if ( IsRich() ) { // for rich edit controls the position is passed iva the struct fields ptl.x = pt.x; ptl.y = pt.y; lParam = (LPARAM)&ptl; } else #endif // wxUSE_RICHEDIT { // for the plain ones, we are limited to 16 bit positions which are // combined in a single 32 bit value lParam = MAKELPARAM(pt.x, pt.y); } LRESULT pos = ::SendMessage(GetHwnd(), EM_CHARFROMPOS, 0, lParam); if ( pos == -1 ) { // this seems to indicate an error... return wxTE_HT_UNKNOWN; } #if wxUSE_RICHEDIT if ( !IsRich() ) #endif // wxUSE_RICHEDIT { // for plain EDIT controls the higher word contains something else pos = LOWORD(pos); } // next determine where it is relatively to our point: EM_CHARFROMPOS // always returns the closest character but we need to be more precise, so // double check that we really are where it pretends POINTL ptReal; #if wxUSE_RICHEDIT // FIXME: we need to distinguish between richedit 2 and 3 here somehow but // we don't know how to do it if ( IsRich() ) { ::SendMessage(GetHwnd(), EM_POSFROMCHAR, (WPARAM)&ptReal, pos); } else #endif // wxUSE_RICHEDIT { LRESULT lRc = ::SendMessage(GetHwnd(), EM_POSFROMCHAR, pos, 0); if ( lRc == -1 ) { // this is apparently returned when pos corresponds to the last // position ptReal.x = ptReal.y = 0; } else { ptReal.x = LOWORD(lRc); ptReal.y = HIWORD(lRc); } } wxTextCtrlHitTestResult rc; if ( pt.y > ptReal.y + GetCharHeight() ) rc = wxTE_HT_BELOW; else if ( pt.x > ptReal.x + GetCharWidth() ) rc = wxTE_HT_BEYOND; else rc = wxTE_HT_ON_TEXT; if ( posOut ) *posOut = pos; return rc; } wxPoint wxTextCtrl::DoPositionToCoords(long pos) const { // FIXME: This code is broken for rich edit version 2.0 as it uses the same // API as plain edit i.e. the coordinates are returned directly instead of // filling the POINT passed as WPARAM with them but we can't distinguish // between 2.0 and 3.0 unfortunately (see also the use of EM_POSFROMCHAR // above). #if wxUSE_RICHEDIT if ( IsRich() ) { POINT pt; LRESULT rc = ::SendMessage(GetHwnd(), EM_POSFROMCHAR, (WPARAM)&pt, pos); if ( rc != -1 ) return wxPoint(pt.x, pt.y); } else #endif // wxUSE_RICHEDIT { LRESULT rc = ::SendMessage(GetHwnd(), EM_POSFROMCHAR, pos, 0); if ( rc == -1 ) { // Finding coordinates for the last position of the control fails // in plain EDIT control, try to compensate for it by finding it // ourselves from the position of the previous character. if ( pos < GetLastPosition() ) { // It's not the expected correctable failure case so just fail. return wxDefaultPosition; } if ( pos == 0 ) { // We're being asked the coordinates of the first (and last and // only) position in an empty control. There is no way to get // it directly with EM_POSFROMCHAR but EM_GETMARGINS returns // the correct value for at least the horizontal offset. rc = ::SendMessage(GetHwnd(), EM_GETMARGINS, 0, 0); // Text control seems to effectively add 1 to margin. return wxPoint(LOWORD(rc) + 1, 1); } // We do have a previous character, try to get its coordinates. rc = ::SendMessage(GetHwnd(), EM_POSFROMCHAR, pos - 1, 0); if ( rc == -1 ) { // If getting coordinates of the previous character failed as // well, just give up. return wxDefaultPosition; } wxString prevChar = GetRange(pos - 1, pos); wxSize prevCharSize = GetTextExtent(prevChar); if ( prevChar == wxT("\n" )) { // 'pos' is at the beginning of a new line so its X coordinate // should be the same as X coordinate of the first character of // any other line while its Y coordinate will be approximately // (but we can't compute it exactly...) one character height // more than that of the previous character. LRESULT coords0 = ::SendMessage(GetHwnd(), EM_POSFROMCHAR, 0, 0); if ( coords0 == -1 ) return wxDefaultPosition; rc = MAKELPARAM(LOWORD(coords0), HIWORD(rc) + prevCharSize.y); } else { // Simple case: previous character is in the same line so this // one is just after it. rc += MAKELPARAM(prevCharSize.x, 0); } } // Notice that {LO,HI}WORD macros return WORDs, i.e. unsigned shorts, // while we want to have signed values here (the y coordinate of any // position above the first currently visible line is negative, for // example), hence the need for casts. return wxPoint(static_cast(LOWORD(rc)), static_cast(HIWORD(rc))); } return wxDefaultPosition; } // ---------------------------------------------------------------------------- // // ---------------------------------------------------------------------------- void wxTextCtrl::ShowPosition(long pos) { HWND hWnd = GetHwnd(); // To scroll to a position, we pass the number of lines and characters // to scroll *by*. This means that we need to: // (1) Find the line position of the current line. // (2) Find the line position of pos. // (3) Scroll by (pos - current). // For now, ignore the horizontal scrolling. // Is this where scrolling is relative to - the line containing the caret? // Or is the first visible line??? Try first visible line. // int currentLineLineNo1 = (int)::SendMessage(hWnd, EM_LINEFROMCHAR, -1, 0L); int currentLineLineNo = (int)::SendMessage(hWnd, EM_GETFIRSTVISIBLELINE, 0, 0); int specifiedLineLineNo = (int)::SendMessage(hWnd, EM_LINEFROMCHAR, pos, 0); int linesToScroll = specifiedLineLineNo - currentLineLineNo; if (linesToScroll != 0) ::SendMessage(hWnd, EM_LINESCROLL, 0, linesToScroll); } long wxTextCtrl::GetLengthOfLineContainingPos(long pos) const { return ::SendMessage(GetHwnd(), EM_LINELENGTH, pos, 0); } int wxTextCtrl::GetLineLength(long lineNo) const { long pos = XYToPosition(0, lineNo); if ( pos == -1 ) return -1; return GetLengthOfLineContainingPos(pos); } wxString wxTextCtrl::GetLineText(long lineNo) const { size_t len = (size_t)GetLineLength(lineNo) + 1; // there must be at least enough place for the length WORD in the // buffer len += sizeof(WORD); wxString str; { wxStringBufferLength tmp(str, len); wxChar *buf = tmp; *(WORD *)buf = (WORD)len; len = (size_t)::SendMessage(GetHwnd(), EM_GETLINE, lineNo, (LPARAM)buf); #if wxUSE_RICHEDIT if ( IsRich() ) { // remove the '\r' returned by the rich edit control, the user code // should never see it if ( buf[len - 2] == wxT('\r') && buf[len - 1] == wxT('\n') ) { // richedit 1.0 uses "\r\n" as line terminator, so remove "\r" // here and "\n" below buf[len - 2] = wxT('\n'); len--; } else if ( buf[len - 1] == wxT('\r') ) { // richedit 2.0+ uses only "\r", replace it with "\n" buf[len - 1] = wxT('\n'); } } #endif // wxUSE_RICHEDIT // remove the '\n' at the end, if any (this is how this function is // supposed to work according to the docs) if ( len && buf[len - 1] == wxT('\n') ) { len--; } buf[len] = 0; tmp.SetLength(len); } return str; } void wxTextCtrl::SetMaxLength(unsigned long len) { #if wxUSE_RICHEDIT if ( IsRich() ) { ::SendMessage(GetHwnd(), EM_EXLIMITTEXT, 0, len ? len : 0x7fffffff); } else #endif // wxUSE_RICHEDIT { wxTextEntry::SetMaxLength(len); } } // ---------------------------------------------------------------------------- // RTL support // ---------------------------------------------------------------------------- void wxTextCtrl::SetLayoutDirection(wxLayoutDirection dir) { // We only need to handle this specifically for plain EDIT controls, rich // edit ones behave like any other window. if ( IsRich() ) { wxTextCtrlBase::SetLayoutDirection(dir); } else { if ( wxUpdateEditLayoutDirection(GetHwnd(), dir) ) { // Update text layout by forcing the control to redo it, a simple // Refresh() is not enough. SendSizeEvent(); Refresh(); } } } wxLayoutDirection wxTextCtrl::GetLayoutDirection() const { // Just as above, we need to handle plain EDIT controls specially. return IsRich() ? wxTextCtrlBase::GetLayoutDirection() : wxGetEditLayoutDirection(GetHwnd()); } // ---------------------------------------------------------------------------- // Undo/redo // ---------------------------------------------------------------------------- void wxTextCtrl::Redo() { #if wxUSE_RICHEDIT if ( GetRichVersion() > 1 ) { ::SendMessage(GetHwnd(), EM_REDO, 0, 0); return; } #endif // wxUSE_RICHEDIT wxTextEntry::Redo(); } bool wxTextCtrl::CanRedo() const { #if wxUSE_RICHEDIT if ( GetRichVersion() > 1 ) return ::SendMessage(GetHwnd(), EM_CANREDO, 0, 0) != 0; #endif // wxUSE_RICHEDIT return wxTextEntry::CanRedo(); } #if wxUSE_RICHEDIT void wxTextCtrl::EmptyUndoBuffer() { #if wxUSE_OLE && defined(wxHAS_TOM_H) // We need to use Undo(tomFalse) to clear the undo buffer, but calling it // also disables the undo buffer, so we need to enable it again immediately // after clearing by calling Undo(tomTrue). if ( GetRichVersion() >= 4 ) { wxCOMPtr pRichEditOle; if ( SendMessage(GetHwnd(), EM_GETOLEINTERFACE, 0, (LPARAM)&pRichEditOle) && pRichEditOle ) { wxCOMPtr pDoc; HRESULT hr = pRichEditOle->QueryInterface ( wxIID_PPV_ARGS(ITextDocument, &pDoc) ); if ( SUCCEEDED(hr) ) { hr = pDoc->Undo(tomFalse, NULL); if ( SUCCEEDED(hr) ) pDoc->Undo(tomTrue, NULL); } } } #endif // wxUSE_OLE && wxHAS_TOM_H } #endif // wxUSE_RICHEDIT // ---------------------------------------------------------------------------- // caret handling (Windows only) // ---------------------------------------------------------------------------- bool wxTextCtrl::ShowNativeCaret(bool show) { if ( show != m_isNativeCaretShown ) { if ( !(show ? ::ShowCaret(GetHwnd()) : ::HideCaret(GetHwnd())) ) { // not an error, may simply indicate that it's not shown/hidden // yet (i.e. it had been hidden/shown 2 times before) return false; } m_isNativeCaretShown = show; } return true; } // ---------------------------------------------------------------------------- // implementation details // ---------------------------------------------------------------------------- void wxTextCtrl::Command(wxCommandEvent & event) { SetValue(event.GetString()); ProcessCommand (event); } void wxTextCtrl::OnDropFiles(wxDropFilesEvent& event) { // By default, load the first file into the text window. if (event.GetNumberOfFiles() > 0) { LoadFile(event.GetFiles()[0]); } } // ---------------------------------------------------------------------------- // kbd input processing // ---------------------------------------------------------------------------- bool wxTextCtrl::MSWShouldPreProcessMessage(WXMSG* msg) { // Handle keys specific to (multiline) text controls here. if ( msg->message == WM_KEYDOWN && !(HIWORD(msg->lParam) & KF_ALTDOWN) ) { switch ( msg->wParam ) { case VK_RETURN: // This key must be handled only by multiline controls and only // if it's pressed on its own, not with some modifier. if ( !wxIsShiftDown() && !wxIsCtrlDown() && IsMultiLine() ) return false; break; case VK_BACK: if ( wxIsCtrlDown() && !wxIsShiftDown() && MSWNeedsToHandleCtrlBackspace() ) return false; break; } } // Delegate all the other checks to the base classes. return wxTextEntry::MSWShouldPreProcessMessage(msg) && wxControl::MSWShouldPreProcessMessage(msg); } void wxTextCtrl::OnChar(wxKeyEvent& event) { switch ( event.GetKeyCode() ) { case WXK_RETURN: case WXK_NUMPAD_ENTER: // Single line controls only get this key code if they have // wxTE_PROCESS_ENTER style, but multiline ones always get it // because they need it for themselves. However we shouldn't // generate wxEVT_TEXT_ENTER for the controls without this style, // so test for it explicitly. if ( HasFlag(wxTE_PROCESS_ENTER) ) { wxCommandEvent evt(wxEVT_TEXT_ENTER, m_windowId); InitCommandEvent(evt); evt.SetString(GetValue()); if ( HandleWindowEvent(evt) ) return; } break; case WXK_TAB: // ok, so this is getting absolutely ridiculous but I don't see // any other way to fix this bug: when a multiline text control is // inside a wxFrame, we need to generate the navigation event as // otherwise nothing happens at all, but when the same control is // created inside a dialog, IsDialogMessage() *does* switch focus // all by itself and so if we do it here as well, it is advanced // twice and goes to the next control... to prevent this from // happening we're doing this ugly check, the logic being that if // we don't have focus then it had been already changed to the next // control // // the right thing to do would, of course, be to understand what // the hell is IsDialogMessage() doing but this is beyond my feeble // forces at the moment unfortunately if ( !(m_windowStyle & wxTE_PROCESS_TAB) || !IsEditable() ) { if ( ::GetFocus() == GetHwnd() ) { int flags = wxNavigationKeyEvent::FromTab; if (!event.ShiftDown()) flags |= wxNavigationKeyEvent::IsForward ; if (event.ControlDown()) flags |= wxNavigationKeyEvent::WinChange ; if (Navigate(flags)) return; } } else { // Insert tab since calling the default Windows handler // doesn't seem to do it WriteText(wxT("\t")); return; } break; } // no, we didn't process it event.Skip(); } #if wxUSE_OLE void wxTextCtrl::MSWProcessSpecialKey(wxKeyEvent& event) { // It is not a good idea, in general, to manually call another event // handler, but here we need to do exactly the same thing as in OnChar() // above, so it doesn't seem to make much sense to add another function to // forward to when we can just call it directly. OnChar(event); } #endif // wxUSE_OLE void wxTextCtrl::MSWDeleteWordBack() { // Surprisingly the behaviour of Ctrl+Backspace is different in all three // cases where it's supported by MSW itself: // // 1. Rich edit controls simply ignore selection and handle it as usual. // 2. Plain edit controls don't do anything when there is selection. // 3. Notepad in Windows 10 1809 and later deletes just the selection. // // The latter behaviour seems the most useful, so do it like this here too. if ( HasSelection() ) { RemoveSelection(); return; } // This variable contains one end of the range to delete, the rest of this // function is concerned with finding the starting end of this range. const long end = GetInsertionPoint(); long col, line; if ( !PositionToXY(end, &col, &line) ) return; // We stop at the start of line, so remember it. const long start = XYToPosition(0, line); const wxString& text = GetLineText(line); // The way it works in rich text controls or when SHAutoComplete() is used // is that it deletes everything until the first span of alphanumeric // characters it finds (moving backwards). But the implementation of the // same shortcut in in notepad in Windows 10 versions 1809 and later // doesn't behave in quite the same way and doesn't handle alphanumeric // characters specially, i.e. it just stops on space. This seems more // useful and simpler to implement, and it probably will become standard in // the future, so do it like this here too. // First skip all space starting from the character to the left of the // current one. long current = end; for ( ;; ) { if ( current == start ) { // When there is nothing but spaces to the left until the start of // line, we need to delete these spaces (if any) as well as the new // line separating this line from the previous one (if any). if ( line > 0 ) { // This function is only used with plain EDITs which use "\r\n" // and so we need to subtract 2 to account for the new line. current -= 2; } break; } // We start from the previous character. --current; // Did we find the end of the previous "word"? if ( text[current - start] != ' ' ) { for ( ;; ) { if ( current == start ) { // We don't delete the new line in this case, as we're going to // delete some non-spaces in this line. break; } --current; if ( text[current - start] == ' ' ) { // Don't delete the space itself. ++current; break; } } break; } } Remove(current, end); } bool wxTextCtrl::MSWNeedsToHandleCtrlBackspace() const { // We want to handle the undocumented Ctrl+Backspace shortcut only if it's // not handled by the control itself, which is a bit tricky because it's // normally only handled by rich edit controls, but plain EDIT ones may // also handle it if they use SHAutoComplete(). return !HasFlag(wxTE_READONLY) && !IsRich() && !MSWUsesStandardAutoComplete(); } void wxTextCtrl::OnKeyDown(wxKeyEvent& event) { // Handle Ctrl+Backspace if necessary: this is not a documented standard // shortcut, but it's a de facto standard and people expect it to work. if ( MSWNeedsToHandleCtrlBackspace() && event.GetModifiers() == wxMOD_CONTROL && event.GetKeyCode() == WXK_BACK ) { MSWDeleteWordBack(); return; } // richedit control doesn't send WM_PASTE, WM_CUT and WM_COPY messages // when Ctrl-V, X or C is pressed and this prevents wxClipboardTextEvent // from working. So we work around it by intercepting these shortcuts // ourselves and emitting clipboard events (which richedit will handle, // so everything works as before, including pasting of rich text): if ( IsRich() ) { if ( event.GetModifiers() == wxMOD_CONTROL ) { switch ( event.GetKeyCode() ) { case 'C': case WXK_INSERT: Copy(); return; case 'X': Cut(); return; case 'V': Paste(); return; default: break; } } else if ( event.GetModifiers() == wxMOD_SHIFT ) { switch ( event.GetKeyCode() ) { case WXK_INSERT: Paste(); return; case WXK_DELETE: Cut(); return; } } } if ( IsMultiLine() ) { // Default window procedure of multiline edit controls posts WM_CLOSE to // the parent window when it gets Escape key press for some reason, prevent // it from doing this as this resulted in dialog boxes being closed on // Escape even when they shouldn't be (we do handle Escape ourselves // correctly in the situations when it should close them). if ( event.GetKeyCode() == WXK_ESCAPE ) return; // We also handle Ctrl-A as the native EDIT control doesn't do it by // default (but RICHEDIT one does, so there is no need to check for it // in the switch above), however it's a de facto standard accelerator // and people expect it to work. if ( event.GetModifiers() == wxMOD_CONTROL && event.GetKeyCode() == 'A' ) { SelectAll(); return; } } // no, we didn't process it event.Skip(); } void wxTextCtrl::Paste() { // Before pasting, check that the pasted text will fit, unless an explicit // maximum length was set, to avoid only pasting some part of it. // // Note that rich text controls do not send WM_PASTE, so we can't do it in // response to it, but we could handle EN_PROTECTED (after requesting it by // specifying ENM_PROTECTED in EM_SETEVENTMASK argument) and check for the // message being WM_PASTE there, but this doesn't seem to be better than // the simpler approach used here. if ( IsRich() ) { AdjustMaxLengthBeforePaste(); } wxTextCtrlBase::Paste(); } bool wxTextCtrl::MSWHandleMessage(WXLRESULT *rc, WXUINT nMsg, WXWPARAM wParam, WXLPARAM lParam) { bool processed = wxTextCtrlBase::MSWHandleMessage(rc, nMsg, wParam, lParam); switch ( nMsg ) { case WM_CHAR: // Handle the special case of "Enter" key: the user code needs to specify // wxTE_PROCESS_ENTER style to get it in the first place, but if this flag // is used, then even if the wxEVT_TEXT_ENTER handler skips the event, the // normal action of this key is not performed because IsDialogMessage() is // not called and, also, an annoying beep is generated by EDIT default // WndProc. // // Fix these problems by explicitly performing the default function of this // key (which would be done by MSWProcessMessage() if we didn't have // wxTE_PROCESS_ENTER) and preventing the default WndProc from getting it. if ( !processed && wParam == VK_RETURN && IsSingleLine() ) { if ( ClickDefaultButtonIfPossible() ) processed = true; } break; case WM_GETDLGCODE: { // Ensure that the result value is initialized even if the base // class didn't handle WM_GETDLGCODE but just update the value // returned by it if it did handle it. if ( !processed ) { *rc = MSWDefWindowProc(nMsg, wParam, lParam); processed = true; } // we always want the chars and the arrows: the arrows for // navigation and the chars because we want Ctrl-C to work even // in a read only control long lDlgCode = DLGC_WANTCHARS | DLGC_WANTARROWS; // we may have several different cases: // 1. normal: both TAB and ENTER are used for navigation // 2. ctrl wants TAB for itself: ENTER is used to pass to // the next control in the dialog // 3. ctrl wants ENTER for itself: TAB is used for dialog // navigation // 4. ctrl wants both TAB and ENTER: Ctrl-ENTER is used to // go to the next control (we need some way to do it) // multiline controls should always get ENTER for themselves if ( HasFlag(wxTE_PROCESS_ENTER) || HasFlag(wxTE_MULTILINE) ) lDlgCode |= DLGC_WANTMESSAGE; if ( HasFlag(wxTE_PROCESS_TAB) ) lDlgCode |= DLGC_WANTTAB; *rc |= lDlgCode; if ( IsMultiLine() ) { // The presence of this style, coming from the default EDIT // WndProc, indicates that the control contents should be // selected when it gets focus, but we don't want this to // happen for the multiline controls, so clear it. *rc &= ~DLGC_HASSETSEL; } } break; #if wxUSE_MENUS case WM_SETCURSOR: // rich text controls seem to have a bug and don't change the // cursor to the standard arrow one from the I-beam cursor usually // used by them even when a popup menu is shown (this works fine // for plain EDIT controls though), so explicitly work around this if ( IsRich() ) { // wxCurrentPopupMenu stores the popup menu that will receive // WM_COMMAND, but it may be non-NULL even when the underlying // native menu is no longer shown. Use ::IsMenu() to check whether // the menu still exists. extern wxMenu *wxCurrentPopupMenu; if ( wxCurrentPopupMenu && wxCurrentPopupMenu->GetInvokingWindow() == this && ::IsMenu(GetHmenuOf(wxCurrentPopupMenu)) ) ::SetCursor(GetHcursorOf(*wxSTANDARD_CURSOR)); } break; #endif // wxUSE_MENUS case WM_PASTE: // Note that we get this message for plain EDIT controls only, rich // controls are dealt with in our own Paste(). AdjustMaxLengthBeforePaste(); break; } return processed; } // ---------------------------------------------------------------------------- // text control event processing // ---------------------------------------------------------------------------- bool wxTextCtrl::SendUpdateEvent() { switch ( m_updatesCount ) { case 0: // remember that we've got an update m_updatesCount++; break; case 1: // we had already sent one event since the last control modification return false; default: wxFAIL_MSG( wxT("unexpected wxTextCtrl::m_updatesCount value") ); wxFALLTHROUGH; case -1: // we hadn't updated the control ourselves, this event comes from // the user, don't need to ignore it nor update the count break; case -2: // the control was updated programmatically and we do NOT want to // send events return false; } return SendTextUpdatedEvent(); } bool wxTextCtrl::MSWCommand(WXUINT param, WXWORD WXUNUSED(id)) { switch ( param ) { case EN_CHANGE: SendUpdateEvent(); break; case EN_MAXTEXT: // the text size limit has been hit -- try to increase it if ( !AdjustSpaceLimit() ) { wxCommandEvent event(wxEVT_TEXT_MAXLEN, m_windowId); InitCommandEvent(event); event.SetString(GetValue()); ProcessCommand(event); } break; // the other edit notification messages are not processed (or, in // the case of EN_{SET/KILL}FOCUS were already handled at WM_SET/ // KILLFOCUS level) default: return false; } // processed return true; } WXHBRUSH wxTextCtrl::MSWControlColor(WXHDC hDC, WXHWND hWnd) { if ( !IsThisEnabled() && !HasFlag(wxTE_MULTILINE) ) return MSWControlColorDisabled(hDC); return wxTextCtrlBase::MSWControlColor(hDC, hWnd); } bool wxTextCtrl::HasSpaceLimit(unsigned int *len) const { // HACK: we try to automatically extend the limit for the amount of text // to allow (interactively) entering more than 64Kb of text under // Win9x but we shouldn't reset the text limit which was previously // set explicitly with SetMaxLength() // // Unfortunately there is no EM_GETLIMITTEXTSETBYUSER and so we don't // know the limit we set (if any). We could solve this by storing the // limit we set in wxTextCtrl but to save space we prefer to simply // test here the actual limit value: we consider that SetMaxLength() // can only be called for small values while EN_MAXTEXT is only sent // for large values (in practice the default limit seems to be 30000 // but make it smaller just to be on the safe side) *len = ::SendMessage(GetHwnd(), EM_GETLIMITTEXT, 0, 0); return *len < 10001; } bool wxTextCtrl::AdjustSpaceLimit() { unsigned int limit; if ( HasSpaceLimit(&limit) ) return false; unsigned int len = ::GetWindowTextLength(GetHwnd()); if ( len >= limit ) { unsigned long increaseBy; // We need to increase the size of the buffer and to avoid increasing // it too many times make sure that we make it at least big enough to // fit all the text we are currently inserting into the control, if // we're inserting any, i.e. if we're called from DoWriteText(). if ( !gs_lenOfInsertedText.empty() ) { increaseBy = gs_lenOfInsertedText.top(); // Indicate to the caller that we increased the limit. gs_lenOfInsertedText.top() = -1; } else // Not inserting text, must be text actually typed by user. { increaseBy = 0; } // But also increase it by at least 32KB chunks -- again, to avoid // doing it too often -- and round it up to 32KB in any case. if ( increaseBy < 0x8000 ) increaseBy = 0x8000; else increaseBy = (increaseBy + 0x7fff) & ~0x7fff; SetMaxLength(len + increaseBy); } // we changed the limit return true; } void wxTextCtrl::AdjustMaxLengthBeforePaste() { #if wxUSE_CLIPBOARD // We only need to do this for multi line controls, single lines should // never receive more text than fits into them by default anyhow. if ( IsSingleLine() ) return; // Also don't override an explicitly set limit. unsigned int limit; if ( HasSpaceLimit(&limit) ) return; // Otherwise check if we have enough space for clipboard data. We only do // it for plain text because this is all we know how to handle here. wxClipboardLocker lock; wxTextDataObject textData; if ( !wxTheClipboard->GetData(textData) ) return; // Unfortunately we can't just get the length directly because we need to // convert EOLs, otherwise our calculation of the required length could be // way off when there are many lines. const unsigned long lenPasted = wxTextFile::Translate(textData.GetText(), wxTextFileType_Dos).length(); long from, to; GetSelection(&from, &to); const unsigned long lenSel = to - from; const unsigned long lenCurrent = GetLastPosition(); // We need enough space for all the current text and all the new // text, but the selection will be replaced. const unsigned long lenNeeded = lenCurrent - lenSel + lenPasted; if ( lenNeeded >= limit ) { SetMaxLength(lenNeeded); } #endif // wxUSE_CLIPBOARD } bool wxTextCtrl::AcceptsFocusFromKeyboard() const { // we don't want focus if we can't be edited unless we're a multiline // control because then it might be still nice to get focus from keyboard // to be able to scroll it without mouse return (IsEditable() || IsMultiLine()) && wxControl::AcceptsFocus(); } wxSize wxTextCtrl::DoGetBestSize() const { return DoGetSizeFromTextSize( FromDIP(DEFAULT_ITEM_WIDTH) ); } wxSize wxTextCtrl::DoGetSizeFromTextSize(int xlen, int ylen) const { int cy; wxFont font = GetFont(); font.WXAdjustToPPI(GetDPI()); wxGetCharSize(GetHWND(), NULL, &cy, font); DWORD wText = FromDIP(1); ::SystemParametersInfo(SPI_GETCARETWIDTH, 0, &wText, 0); wText += xlen; int hText = cy; if ( m_windowStyle & wxTE_MULTILINE ) { // add space for vertical scrollbar if ( !(m_windowStyle & wxTE_NO_VSCROLL) ) wText += wxGetSystemMetrics(SM_CXVSCROLL, m_parent); if ( ylen <= 0 ) { hText *= wxMax(wxMin(GetNumberOfLines(), 10), 2); // add space for horizontal scrollbar if ( m_windowStyle & wxHSCROLL ) hText += wxGetSystemMetrics(SM_CYHSCROLL, m_parent); } } // for single line control cy (height + external leading) is ok else { // Add the margins we have previously set wxPoint marg( GetMargins() ); wText += wxMax(0, marg.x); hText += wxMax(0, marg.y); } // Text controls without border are special and have the same height as // static labels (they also have the same appearance when they're disable // and are often used as a sort of copyable to the clipboard label so it's // important that they have the same height as the normal labels to not // stand out). if ( !HasFlag(wxBORDER_NONE) ) { wText += FromDIP(9); // borders and inner margins // we have to add the adjustments for the control height only once, not // once per line, so do it after multiplication above hText += EDIT_HEIGHT_FROM_CHAR_HEIGHT(cy) - cy; } // Perhaps the user wants something different from CharHeight, or ylen // is used as the height of a multiline text. if ( ylen > 0 ) hText += ylen - GetCharHeight(); return wxSize(wText, hText); } void wxTextCtrl::DoMoveWindow(int x, int y, int width, int height) { // We reset the text of single line controls each time their width changes // because they don't adjust their horizontal offset on their own and there // doesn't seem to be any way to convince them to do it other than by just // setting the text again, see #18268. const bool resetText = IsSingleLine() && !IsShownOnScreen(); int oldWidth = -1; if ( resetText ) { oldWidth = GetSize().x; } wxTextCtrlBase::DoMoveWindow(x, y, width, height); if ( resetText && GetSize().x != oldWidth ) { // We need to use DoWriteText() to avoid our own optimization in // ChangeValue() which does nothing when the text doesn't really // change. DoWriteText(DoGetValue(), 0 /* no flags for no events */); } } // ---------------------------------------------------------------------------- // standard handlers for standard edit menu events // ---------------------------------------------------------------------------- void wxTextCtrl::OnCut(wxCommandEvent& WXUNUSED(event)) { Cut(); } void wxTextCtrl::OnCopy(wxCommandEvent& WXUNUSED(event)) { Copy(); } void wxTextCtrl::OnPaste(wxCommandEvent& WXUNUSED(event)) { Paste(); } void wxTextCtrl::OnUndo(wxCommandEvent& WXUNUSED(event)) { Undo(); } void wxTextCtrl::OnRedo(wxCommandEvent& WXUNUSED(event)) { Redo(); } void wxTextCtrl::OnDelete(wxCommandEvent& WXUNUSED(event)) { RemoveSelection(); } void wxTextCtrl::OnSelectAll(wxCommandEvent& WXUNUSED(event)) { SelectAll(); } void wxTextCtrl::OnUpdateCut(wxUpdateUIEvent& event) { event.Enable( CanCut() ); } void wxTextCtrl::OnUpdateCopy(wxUpdateUIEvent& event) { event.Enable( CanCopy() ); } void wxTextCtrl::OnUpdatePaste(wxUpdateUIEvent& event) { event.Enable( CanPaste() ); } void wxTextCtrl::OnUpdateUndo(wxUpdateUIEvent& event) { event.Enable( CanUndo() ); } void wxTextCtrl::OnUpdateRedo(wxUpdateUIEvent& event) { event.Enable( CanRedo() ); } void wxTextCtrl::OnUpdateDelete(wxUpdateUIEvent& event) { event.Enable( HasSelection() && IsEditable() ); } void wxTextCtrl::OnUpdateSelectAll(wxUpdateUIEvent& event) { event.Enable( !IsEmpty() ); } void wxTextCtrl::OnSetFocus(wxFocusEvent& event) { // be sure the caret remains invisible if the user had hidden it if ( !m_isNativeCaretShown ) { ::HideCaret(GetHwnd()); } event.Skip(); } // the rest of the file only deals with the rich edit controls #if wxUSE_RICHEDIT void wxTextCtrl::OnRightUp(wxMouseEvent& eventMouse) { wxContextMenuEvent eventMenu(wxEVT_CONTEXT_MENU, GetId(), ClientToScreen(eventMouse.GetPosition())); eventMenu.SetEventObject(this); if ( !ProcessWindowEvent(eventMenu) ) eventMouse.Skip(); } void wxTextCtrl::OnContextMenu(wxContextMenuEvent& event) { if (IsRich()) { if (!m_privateContextMenu) m_privateContextMenu = MSWCreateContextMenu(); PopupMenu(m_privateContextMenu); return; } else event.Skip(); } wxMenu *wxTextCtrl::MSWCreateContextMenu() { wxMenu *m = new wxMenu; m->Append(wxID_UNDO, _("&Undo")); m->Append(wxID_REDO, _("&Redo")); m->AppendSeparator(); m->Append(wxID_CUT, _("Cu&t")); m->Append(wxID_COPY, _("&Copy")); m->Append(wxID_PASTE, _("&Paste")); m->Append(wxID_CLEAR, _("&Delete")); m->AppendSeparator(); m->Append(wxID_SELECTALL, _("Select &All")); return m; } void wxTextCtrl::MSWSetRichZoom() { // nothing to scale if ( m_richDPIscale == 1 ) return; // get the current zoom ratio UINT num = 1; UINT denom = 1; ::SendMessage(GetHWND(), EM_GETZOOM, (WPARAM)&num, (LPARAM)&denom); // combine the zoom ratio with the DPI scale factor float ratio = m_richDPIscale; if ( denom > 0 ) ratio = ratio * (num / (float)denom); // apply the new zoom ratio, Windows uses a default denominator of 100, so // do it here as well num = 100 * ratio; denom = 100; ::SendMessage(GetHWND(), EM_SETZOOM, (WPARAM)num, (LPARAM)denom); } void wxTextCtrl::MSWUpdateFontOnDPIChange(const wxSize& newDPI) { // Don't use MSWUpdateFontOnDPIChange for the rich edit controls, they // (somehow?) update their appearance on their own and changing their // HFONT, as the base class version does, would reset all the styles used // by them when the DPI changes, which is unwanted. if ( !IsRich() ) { wxTextCtrlBase::MSWUpdateFontOnDPIChange(newDPI); } // If the rich control is created on a screen with non-system DPI, an // initial zoom factor was applied. This needs to be reset after the first // DPI change. First invert the scale, then set it to 1 so it is not // applied again. else if ( m_richDPIscale != 1 ) { m_richDPIscale = 1 / m_richDPIscale; MSWSetRichZoom(); m_richDPIscale = 1; } } // ---------------------------------------------------------------------------- // EN_LINK processing // ---------------------------------------------------------------------------- bool wxTextCtrl::MSWOnNotify(int idCtrl, WXLPARAM lParam, WXLPARAM *result) { NMHDR *hdr = (NMHDR* )lParam; switch ( hdr->code ) { case EN_MSGFILTER: { const MSGFILTER *msgf = (MSGFILTER *)lParam; UINT msg = msgf->msg; // this is a bit crazy but richedit 1.0 sends us all mouse // events _except_ WM_LBUTTONUP (don't ask me why) so we have // generate the wxWin events for this message manually // // NB: in fact, this is still not totally correct as it does // send us WM_LBUTTONUP if the selection was cleared by the // last click -- so currently we get 2 events in this case, // but as I don't see any obvious way to check for this I // leave this code in place because it's still better than // not getting left up events at all if ( msg == WM_LBUTTONUP ) { WXUINT flags = msgf->wParam; int x = GET_X_LPARAM(msgf->lParam), y = GET_Y_LPARAM(msgf->lParam); HandleMouseEvent(msg, x, y, flags); } } // return true to process the event (and false to ignore it) return true; case EN_LINK: { const ENLINK *enlink = (ENLINK *)hdr; switch ( enlink->msg ) { case WM_SETCURSOR: // ok, so it is hardcoded - do we really nee to // customize it? { wxCursor cur(wxCURSOR_HAND); ::SetCursor(GetHcursorOf(cur)); *result = TRUE; break; } case WM_MOUSEMOVE: case WM_LBUTTONDOWN: case WM_LBUTTONUP: case WM_LBUTTONDBLCLK: case WM_RBUTTONDOWN: case WM_RBUTTONUP: case WM_RBUTTONDBLCLK: // send a mouse event { static const wxEventType eventsMouse[] = { wxEVT_MOTION, wxEVT_LEFT_DOWN, wxEVT_LEFT_UP, wxEVT_LEFT_DCLICK, wxEVT_RIGHT_DOWN, wxEVT_RIGHT_UP, wxEVT_RIGHT_DCLICK, }; // the event ids are consecutive wxMouseEvent evtMouse(eventsMouse[enlink->msg - WM_MOUSEMOVE]); InitMouseEvent(evtMouse, GET_X_LPARAM(enlink->lParam), GET_Y_LPARAM(enlink->lParam), enlink->wParam); wxTextUrlEvent event(m_windowId, evtMouse, enlink->chrg.cpMin, enlink->chrg.cpMax); InitCommandEvent(event); *result = ProcessCommand(event); } break; } } return true; } // not processed, leave it to the base class return wxTextCtrlBase::MSWOnNotify(idCtrl, lParam, result); } #if wxUSE_DRAG_AND_DROP void wxTextCtrl::SetDropTarget(wxDropTarget *dropTarget) { if ( m_dropTarget == wxRICHTEXT_DEFAULT_DROPTARGET ) { // get rid of the built-in drop target ::RevokeDragDrop(GetHwnd()); m_dropTarget = NULL; } wxTextCtrlBase::SetDropTarget(dropTarget); } #endif // wxUSE_DRAG_AND_DROP // ---------------------------------------------------------------------------- // colour setting for the rich edit controls // ---------------------------------------------------------------------------- bool wxTextCtrl::SetBackgroundColour(const wxColour& colour) { if ( !wxTextCtrlBase::SetBackgroundColour(colour) ) { // colour didn't really change return false; } if ( IsRich() ) { // rich edit doesn't use WM_CTLCOLOR, hence we need to send // EM_SETBKGNDCOLOR additionally ::SendMessage(GetHwnd(), EM_SETBKGNDCOLOR, 0, wxColourToRGB(colour)); } return true; } bool wxTextCtrl::SetForegroundColour(const wxColour& colour) { if ( !wxTextCtrlBase::SetForegroundColour(colour) ) { // colour didn't really change return false; } if ( IsRich() ) { // change the colour of everything WinStruct cf; cf.dwMask = CFM_COLOR; cf.crTextColor = wxColourToRGB(colour); ::SendMessage(GetHwnd(), EM_SETCHARFORMAT, SCF_ALL, (LPARAM)&cf); } return true; } bool wxTextCtrl::SetFont(const wxFont& font) { // Native text control sends EN_CHANGE when the font changes, producing // a wxEVT_TEXT event as if the user changed the value. This is not // the case, so suppress the event. wxEventBlocker block(this, wxEVT_TEXT); if ( !wxTextCtrlBase::SetFont(font) ) return false; if ( GetRichVersion() >= 4 ) { // Using WM_SETFONT is not enough with RichEdit 4.1: it does work but // for ASCII characters only and inserting a non-ASCII one into it // later reverts to the default font so use EM_SETCHARFORMAT to change // the default font for it. wxTextAttr attr; attr.SetFont(font); SetStyle(-1, -1, attr); } return true; } // ---------------------------------------------------------------------------- // styling support for rich edit controls // ---------------------------------------------------------------------------- #if _RICHEDIT_VER >= 0x0800 static const wxColour gs_underlineColourMap[] = { // The colours are coming from https://docs.microsoft.com/en-us/windows/desktop/api/tom/nf-tom-itextdocument2-geteffectcolor. wxNullColour, // text colour wxColour(0, 0, 0 ), // black wxColour(0, 0, 255), // blue wxColour(0, 255, 255), // cyan wxColour(0, 255, 0 ), // green wxColour(255, 0, 255), // magenta wxColour(255, 0, 0 ), // red wxColour(255, 255, 0 ), // yellow wxColour(255, 255, 255), // white wxColour(0, 0, 128), // navy wxColour(0, 128, 128), // teal wxColour(0, 128, 0 ), // light green wxColour(128, 0, 128), // purple wxColour(128, 0, 0 ), // maroon wxColour(128, 128, 0 ), // olive wxColour(128, 128, 128), // grey wxColour(192, 192, 192), // light grey }; #endif bool wxTextCtrl::MSWSetCharFormat(const wxTextAttr& style, long start, long end) { // initialize CHARFORMAT struct #if wxUSE_RICHEDIT2 CHARFORMAT2 cf; #else CHARFORMAT cf; #endif wxZeroMemory(cf); // we can't use CHARFORMAT2 with RichEdit 1.0, so pretend it is a simple // CHARFORMAT in that case #if wxUSE_RICHEDIT2 if ( m_verRichEdit == 1 ) { // this is the only thing the control is going to grok cf.cbSize = sizeof(CHARFORMAT); } else #endif { // CHARFORMAT or CHARFORMAT2 cf.cbSize = sizeof(cf); } if ( style.HasFont() ) { // VZ: CFM_CHARSET doesn't seem to do anything at all in RichEdit 2.0 // but using it doesn't seem to hurt neither so leaving it for now cf.dwMask |= CFM_FACE | CFM_SIZE | CFM_CHARSET | CFM_ITALIC | CFM_BOLD | CFM_UNDERLINE | CFM_STRIKEOUT; // fill in data from LOGFONT but recalculate lfHeight because we need // the real height in twips and not the negative number used inside // LOGFONT returns (this is correct in general and works with // the Windows font mapper, but not here) wxFont font(style.GetFont()); LOGFONT lf = font.GetNativeFontInfo()->lf; cf.yHeight = 20 * font.GetFractionalPointSize(); // 1 pt = 20 twips cf.bCharSet = lf.lfCharSet; cf.bPitchAndFamily = lf.lfPitchAndFamily; wxStrlcpy(cf.szFaceName, lf.lfFaceName, WXSIZEOF(cf.szFaceName)); // also deal with underline/italic/bold attributes: note that we must // always set CFM_ITALIC &c bits in dwMask, even if we don't set the // style to allow clearing it if ( lf.lfItalic ) { cf.dwEffects |= CFE_ITALIC; } if ( lf.lfWeight == FW_BOLD ) { cf.dwEffects |= CFE_BOLD; } if ( lf.lfUnderline ) { cf.dwEffects |= CFE_UNDERLINE; } if ( lf.lfStrikeOut ) { cf.dwEffects |= CFE_STRIKEOUT; } } if ( style.HasFontUnderlined() ) { cf.dwMask |= CFM_UNDERLINETYPE; BYTE underlineType = CFU_UNDERLINENONE; switch ( style.GetUnderlineType() ) { case wxTEXT_ATTR_UNDERLINE_SOLID: underlineType = CFU_UNDERLINE; break; case wxTEXT_ATTR_UNDERLINE_DOUBLE: underlineType = CFU_UNDERLINEDOUBLE; break; case wxTEXT_ATTR_UNDERLINE_SPECIAL: underlineType = CFU_UNDERLINEWAVE; break; default: underlineType = CFU_UNDERLINENONE; break; } cf.bUnderlineType = underlineType; #if _RICHEDIT_VER >= 0x0800 BYTE colour = 0; const wxColour& col = style.GetUnderlineColour(); for ( size_t c = 0; c < WXSIZEOF(gs_underlineColourMap); ++c ) { if ( col == gs_underlineColourMap[c] ) { colour = static_cast(c); break; } } cf.bUnderlineColor = colour; #endif } if ( style.HasTextColour() ) { cf.dwMask |= CFM_COLOR; cf.crTextColor = wxColourToRGB(style.GetTextColour()); } #if wxUSE_RICHEDIT2 if ( m_verRichEdit != 1 && style.HasBackgroundColour() ) { cf.dwMask |= CFM_BACKCOLOR; cf.crBackColor = wxColourToRGB(style.GetBackgroundColour()); } #endif // wxUSE_RICHEDIT2 // Apply the style either to the selection or to the entire control. WPARAM selMode; if ( start != -1 || end != -1 ) { DoSetSelection(start, end, SetSel_NoScroll); selMode = SCF_SELECTION; } else { selMode = SCF_ALL; } if ( !::SendMessage(GetHwnd(), EM_SETCHARFORMAT, selMode, (LPARAM)&cf) ) { wxLogLastError(wxT("SendMessage(EM_SETCHARFORMAT)")); return false; } return true; } bool wxTextCtrl::MSWSetParaFormat(const wxTextAttr& style, long start, long end) { #if wxUSE_RICHEDIT2 PARAFORMAT2 pf; #else PARAFORMAT pf; #endif wxZeroMemory(pf); // we can't use PARAFORMAT2 with RichEdit 1.0, so pretend it is a simple // PARAFORMAT in that case #if wxUSE_RICHEDIT2 if ( m_verRichEdit == 1 ) { // this is the only thing the control is going to grok pf.cbSize = sizeof(PARAFORMAT); } else #endif { // PARAFORMAT or PARAFORMAT2 pf.cbSize = sizeof(pf); } if (style.HasAlignment()) { pf.dwMask |= PFM_ALIGNMENT; if (style.GetAlignment() == wxTEXT_ALIGNMENT_RIGHT) pf.wAlignment = PFA_RIGHT; else if (style.GetAlignment() == wxTEXT_ALIGNMENT_CENTRE) pf.wAlignment = PFA_CENTER; else if (style.GetAlignment() == wxTEXT_ALIGNMENT_JUSTIFIED) pf.wAlignment = PFA_JUSTIFY; else pf.wAlignment = PFA_LEFT; } if (style.HasLeftIndent()) { pf.dwMask |= PFM_STARTINDENT | PFM_OFFSET; // Convert from 1/10 mm to TWIPS pf.dxStartIndent = (int) (((double) style.GetLeftIndent()) * mm2twips / 10.0) ; pf.dxOffset = (int) (((double) style.GetLeftSubIndent()) * mm2twips / 10.0) ; } if (style.HasRightIndent()) { pf.dwMask |= PFM_RIGHTINDENT; // Convert from 1/10 mm to TWIPS pf.dxRightIndent = (int) (((double) style.GetRightIndent()) * mm2twips / 10.0) ; } if (style.HasTabs()) { pf.dwMask |= PFM_TABSTOPS; const wxArrayInt& tabs = style.GetTabs(); pf.cTabCount = (SHORT)wxMin(tabs.GetCount(), MAX_TAB_STOPS); size_t i; for (i = 0; i < (size_t) pf.cTabCount; i++) { // Convert from 1/10 mm to TWIPS pf.rgxTabs[i] = (int) (((double) tabs[i]) * mm2twips / 10.0) ; } } #if wxUSE_RICHEDIT2 if ( style.HasParagraphSpacingAfter() ) { pf.dwMask |= PFM_SPACEAFTER; // Convert from 1/10 mm to TWIPS pf.dySpaceAfter = (int) (((double) style.GetParagraphSpacingAfter()) * mm2twips / 10.0) ; } if ( style.HasParagraphSpacingBefore() ) { pf.dwMask |= PFM_SPACEBEFORE; // Convert from 1/10 mm to TWIPS pf.dySpaceBefore = (int) (((double) style.GetParagraphSpacingBefore()) * mm2twips / 10.0) ; } #endif // wxUSE_RICHEDIT2 #if wxUSE_RICHEDIT2 if ( m_verRichEdit > 1 ) { if ( GetLayoutDirection() == wxLayout_RightToLeft ) { // Use RTL paragraphs in RTL mode to get proper layout pf.dwMask |= PFM_RTLPARA; pf.wEffects |= PFE_RTLPARA; } } #endif // wxUSE_RICHEDIT2 if ( pf.dwMask ) { // Do format the selection. DoSetSelection(start, end, SetSel_NoScroll); if ( !::SendMessage(GetHwnd(), EM_SETPARAFORMAT, 0, (LPARAM) &pf) ) { wxLogLastError(wxT("SendMessage(EM_SETPARAFORMAT)")); return false; } } return true; } bool wxTextCtrl::SetStyle(long start, long end, const wxTextAttr& style) { if ( !IsRich() ) { // can't do it with normal text control return false; } // the richedit 1.0 doesn't handle setting background colour, so don't // even try to do anything if it's the only thing we want to change if ( m_verRichEdit == 1 && !style.HasFont() && !style.HasTextColour() && !style.HasLeftIndent() && !style.HasRightIndent() && !style.HasAlignment() && !style.HasTabs() && !style.GetFontUnderlined() ) { // nothing to do: return true if there was really nothing to do and // false if we failed to set bg colour return !style.HasBackgroundColour(); } // order the range if needed if ( start > end ) wxSwap(start, end); // we can only change the format of the selection, so select the range we // want and restore the old selection later, after MSWSetXXXFormat() // functions (possibly) change it. long startOld, endOld; GetSelection(&startOld, &endOld); bool ok = MSWSetCharFormat(style, start, end); if ( !MSWSetParaFormat(style, start, end) ) ok = false; if ( start != startOld || end != endOld ) { // restore the original selection DoSetSelection(startOld, endOld, SetSel_NoScroll); } return ok; } bool wxTextCtrl::SetDefaultStyle(const wxTextAttr& style) { if ( !wxTextCtrlBase::SetDefaultStyle(style) ) return false; if ( IsEditable() ) { // we have to do this or the style wouldn't apply for the text typed by // the user wxTextPos posLast = GetLastPosition(); SetStyle(posLast, posLast, m_defaultStyle); } return true; } bool wxTextCtrl::GetStyle(long position, wxTextAttr& style) { if ( !IsRich() ) { // can't do it with normal text control return false; } // initialize CHARFORMAT struct #if wxUSE_RICHEDIT2 CHARFORMAT2 cf; #else CHARFORMAT cf; #endif wxZeroMemory(cf); // we can't use CHARFORMAT2 with RichEdit 1.0, so pretend it is a simple // CHARFORMAT in that case #if wxUSE_RICHEDIT2 if ( m_verRichEdit == 1 ) { // this is the only thing the control is going to grok cf.cbSize = sizeof(CHARFORMAT); } else #endif { // CHARFORMAT or CHARFORMAT2 cf.cbSize = sizeof(cf); } // we can only change the format of the selection, so select the range we // want and restore the old selection later long startOld, endOld; GetSelection(&startOld, &endOld); // but do we really have to change the selection? const bool changeSel = position != startOld; if ( changeSel ) { DoSetSelection(position, position + 1, SetSel_NoScroll); } // get the selection formatting (void) ::SendMessage(GetHwnd(), EM_GETCHARFORMAT, SCF_SELECTION, (LPARAM)&cf) ; LOGFONT lf; lf.lfWidth = 0; lf.lfCharSet = ANSI_CHARSET; // FIXME: how to get correct charset? lf.lfClipPrecision = 0; lf.lfEscapement = 0; wxStrcpy(lf.lfFaceName, cf.szFaceName); //NOTE: we _MUST_ set each of these values to _something_ since we //do not call wxZeroMemory on the LOGFONT lf if (cf.dwEffects & CFE_ITALIC) lf.lfItalic = TRUE; else lf.lfItalic = FALSE; lf.lfOrientation = 0; lf.lfPitchAndFamily = cf.bPitchAndFamily; lf.lfQuality = 0; if (cf.dwEffects & CFE_STRIKEOUT) lf.lfStrikeOut = TRUE; else lf.lfStrikeOut = FALSE; if (cf.dwEffects & CFE_UNDERLINE) lf.lfUnderline = TRUE; else lf.lfUnderline = FALSE; if (cf.dwEffects & CFE_BOLD) lf.lfWeight = FW_BOLD; else lf.lfWeight = FW_NORMAL; // Determine the pointSize that was used in SetStyle. Don't worry about // lfHeight or PPI, style.SetFont() will lose this information anyway. wxFont font(wxNativeFontInfo(lf, this)); font.SetFractionalPointSize(cf.yHeight / 20.0); // 1 pt = 20 twips if (font.IsOk()) { style.SetFont(font); } style.SetTextColour(wxColour(cf.crTextColor)); #if wxUSE_RICHEDIT2 if ( m_verRichEdit != 1 ) { // Notice that, surprisingly, CFM_BACKCOLOR is still set in the mask // even when CFE_AUTOBACKCOLOR is set in the effects, indicating that // the background colour is not used. if ( !(cf.dwEffects & CFE_AUTOBACKCOLOR) && (cf.dwMask & CFM_BACKCOLOR) ) { style.SetBackgroundColour(wxColour(cf.crBackColor)); } } #endif // wxUSE_RICHEDIT2 wxTextAttrUnderlineType underlineType = wxTEXT_ATTR_UNDERLINE_NONE; switch ( cf.bUnderlineType ) { case CFU_UNDERLINE: underlineType = wxTEXT_ATTR_UNDERLINE_SOLID; break; case CFU_UNDERLINEDOUBLE: underlineType = wxTEXT_ATTR_UNDERLINE_DOUBLE; break; case CFU_UNDERLINEWAVE: underlineType = wxTEXT_ATTR_UNDERLINE_SPECIAL; break; default: underlineType = wxTEXT_ATTR_UNDERLINE_NONE; break; } wxColour underlineColour; #if _RICHEDIT_VER >= 0x0800 if ( cf.bUnderlineColor < WXSIZEOF(gs_underlineColourMap) ) underlineColour = gs_underlineColourMap[cf.bUnderlineColor]; #endif if ( underlineType != wxTEXT_ATTR_UNDERLINE_NONE ) style.SetFontUnderlined(underlineType, underlineColour); // now get the paragraph formatting PARAFORMAT2 pf; wxZeroMemory(pf); // we can't use PARAFORMAT2 with RichEdit 1.0, so pretend it is a simple // PARAFORMAT in that case #if wxUSE_RICHEDIT2 if ( m_verRichEdit == 1 ) { // this is the only thing the control is going to grok pf.cbSize = sizeof(PARAFORMAT); } else #endif { // PARAFORMAT or PARAFORMAT2 pf.cbSize = sizeof(pf); } // do format the selection (void) ::SendMessage(GetHwnd(), EM_GETPARAFORMAT, 0, (LPARAM) &pf) ; style.SetLeftIndent( (int) ((double) pf.dxStartIndent * twips2mm * 10.0), (int) ((double) pf.dxOffset * twips2mm * 10.0) ); style.SetRightIndent( (int) ((double) pf.dxRightIndent * twips2mm * 10.0) ); if (pf.wAlignment == PFA_CENTER) style.SetAlignment(wxTEXT_ALIGNMENT_CENTRE); else if (pf.wAlignment == PFA_RIGHT) style.SetAlignment(wxTEXT_ALIGNMENT_RIGHT); else if (pf.wAlignment == PFA_JUSTIFY) style.SetAlignment(wxTEXT_ALIGNMENT_JUSTIFIED); else style.SetAlignment(wxTEXT_ALIGNMENT_LEFT); wxArrayInt tabStops; size_t i; for (i = 0; i < (size_t) pf.cTabCount; i++) { tabStops.Add( (int) ((double) (pf.rgxTabs[i] & 0xFFFF) * twips2mm * 10.0) ); } if ( changeSel ) { // restore the original selection DoSetSelection(startOld, endOld, SetSel_NoScroll); } return true; } // ---------------------------------------------------------------------------- // wxRichEditModule // ---------------------------------------------------------------------------- static const HINSTANCE INVALID_HINSTANCE = (HINSTANCE)-1; bool wxRichEditModule::OnInit() { // don't do anything - we will load it when needed return true; } void wxRichEditModule::OnExit() { for ( size_t i = 0; i < WXSIZEOF(ms_hRichEdit); i++ ) { if ( ms_hRichEdit[i] && ms_hRichEdit[i] != INVALID_HINSTANCE ) { ::FreeLibrary(ms_hRichEdit[i]); ms_hRichEdit[i] = NULL; } } #if wxUSE_INKEDIT if (ms_inkEditLib.IsLoaded()) ms_inkEditLib.Unload(); #endif } /* static */ bool wxRichEditModule::Load(Version version) { if ( ms_hRichEdit[version] == INVALID_HINSTANCE ) { // we had already tried to load it and failed return false; } if ( ms_hRichEdit[version] ) { // we've already got this one return true; } static const wxChar *const dllnames[] = { wxT("riched32"), wxT("riched20"), wxT("msftedit"), }; wxCOMPILE_TIME_ASSERT( WXSIZEOF(dllnames) == Version_Max, RichEditDllNamesVersionsMismatch ); ms_hRichEdit[version] = ::LoadLibrary(dllnames[version]); if ( !ms_hRichEdit[version] ) { ms_hRichEdit[version] = INVALID_HINSTANCE; return false; } return true; } #if wxUSE_INKEDIT // load the InkEdit library bool wxRichEditModule::LoadInkEdit() { if (ms_inkEditLibLoadAttemped) return ms_inkEditLib.IsLoaded(); ms_inkEditLibLoadAttemped = true; wxLogNull logNull; return ms_inkEditLib.Load(wxT("inked")); } #endif // wxUSE_INKEDIT #endif // wxUSE_RICHEDIT #endif // wxUSE_TEXTCTRL