///////////////////////////////////////////////////////////////////////////// // Name: src/gtk/app.cpp // Purpose: // Author: Robert Roebling // Id: $Id: app.cpp 62397 2009-10-13 06:53:16Z PC $ // Copyright: (c) 1998 Robert Roebling, Julian Smart // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifdef __VMS // vms_jackets.h should for proper working be included before anything else # include #undef ConnectionNumber #endif // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #include "wx/app.h" #ifndef WX_PRECOMP #include "wx/intl.h" #include "wx/log.h" #include "wx/utils.h" #include "wx/memory.h" #include "wx/font.h" #endif #include "wx/thread.h" #ifdef __WXGPE__ #include #endif #include "wx/gtk/win_gtk.h" #include "wx/gtk/private.h" #include //----------------------------------------------------------------------------- // link GnomeVFS //----------------------------------------------------------------------------- #if wxUSE_MIMETYPE && wxUSE_LIBGNOMEVFS #include "wx/link.h" wxFORCE_LINK_MODULE(gnome_vfs) #endif //----------------------------------------------------------------------------- // global data //----------------------------------------------------------------------------- bool g_mainThreadLocked = false; static GtkWidget *gs_RootWindow = (GtkWidget*) NULL; //----------------------------------------------------------------------------- // idle system //----------------------------------------------------------------------------- void wxapp_install_idle_handler(); #if wxUSE_THREADS static wxMutex gs_idleTagsMutex; #endif //----------------------------------------------------------------------------- // wxYield //----------------------------------------------------------------------------- // not static because used by textctrl.cpp // // MT-FIXME bool wxIsInsideYield = false; bool wxApp::Yield(bool onlyIfNeeded) { if ( wxIsInsideYield ) { if ( !onlyIfNeeded ) { wxFAIL_MSG( wxT("wxYield called recursively" ) ); } return false; } #if wxUSE_THREADS if ( !wxThread::IsMain() ) { // can't call gtk_main_iteration() from other threads like this return true; } #endif // wxUSE_THREADS wxIsInsideYield = true; // We need to remove idle callbacks or the loop will // never finish. SuspendIdleCallback(); #if wxUSE_LOG // disable log flushing from here because a call to wxYield() shouldn't // normally result in message boxes popping up &c wxLog::Suspend(); #endif while (gtk_events_pending()) gtk_main_iteration(); // It's necessary to call ProcessIdle() to update the frames sizes which // might have been changed (it also will update other things set from // OnUpdateUI() which is a nice (and desired) side effect). But we // call ProcessIdle() only once since this is not meant for longish // background jobs (controlled by wxIdleEvent::RequestMore() and the // return value of Processidle(). ProcessIdle(); #if wxUSE_LOG // let the logs be flashed again wxLog::Resume(); #endif wxIsInsideYield = false; return true; } //----------------------------------------------------------------------------- // wxWakeUpIdle //----------------------------------------------------------------------------- // RR/KH: No wxMutexGui calls are needed here according to the GTK faq, // http://www.gtk.org/faq/#AEN500 - this caused problems for wxPostEvent. void wxApp::WakeUpIdle() { wxapp_install_idle_handler(); } //----------------------------------------------------------------------------- // local functions //----------------------------------------------------------------------------- // the callback functions must be extern "C" to comply with GTK+ declarations extern "C" { // One-shot emission hook for "event" signal, to install idle handler. // This will be called when the "event" signal is issued on any GtkWidget object. static gboolean event_emission_hook(GSignalInvocationHint*, guint, const GValue*, gpointer data) { wxapp_install_idle_handler(); bool* hook_installed = (bool*)data; *hook_installed = false; // remove hook return false; } // add emission hook for "event" signal, to re-install idle handler when needed static inline void wxAddEmissionHook() { static bool hook_installed; GType widgetType = GTK_TYPE_WIDGET; // if hook not installed and GtkWidget type is loaded if (!hook_installed && g_type_class_peek(widgetType)) { static guint sig_id; if (sig_id == 0) sig_id = g_signal_lookup("event", widgetType); hook_installed = true; g_signal_add_emission_hook( sig_id, 0, event_emission_hook, &hook_installed, NULL); } } static gint wxapp_idle_callback( gpointer WXUNUSED(data) ) { // this does not look possible, but just in case... if (!wxTheApp) return false; guint idleID_save; { // Allow another idle source to be added while this one is busy. // Needed if an idle event handler runs a new event loop, // for example by showing a dialog. #if wxUSE_THREADS wxMutexLocker lock(gs_idleTagsMutex); #endif idleID_save = wxTheApp->m_idleTag; wxTheApp->m_idleTag = 0; g_isIdle = true; wxAddEmissionHook(); } #ifdef __WXDEBUG__ // don't generate the idle events while the assert modal dialog is shown, // this matches the behavior of wxMSW if (wxTheApp->IsInAssert()) return false; #endif // __WXDEBUG__ // When getting called from GDK's time-out handler // we are no longer within GDK's grab on the GUI // thread so we must lock it here ourselves. gdk_threads_enter(); // Send idle event to all who request them as long as // no events have popped up in the event queue. bool moreIdles; do { moreIdles = wxTheApp->ProcessIdle(); } while (moreIdles && gtk_events_pending() == 0); // Release lock again gdk_threads_leave(); #if wxUSE_THREADS wxMutexLocker lock(gs_idleTagsMutex); #endif // If another idle source was added, remove it if (wxTheApp->m_idleTag != 0) g_source_remove(wxTheApp->m_idleTag); wxTheApp->m_idleTag = idleID_save; g_isIdle = false; #if wxUSE_THREADS if (wxPendingEventsLocker) wxPendingEventsLocker->Enter(); #endif // Pending events can be added asynchronously, // need to keep idle source if any have appeared moreIdles = moreIdles || (wxPendingEvents && !wxPendingEvents->IsEmpty()); #if wxUSE_THREADS if (wxPendingEventsLocker) wxPendingEventsLocker->Leave(); #endif if (!moreIdles) { // Indicate that we are now in idle mode and event handlers // will have to reinstall the idle handler again. g_isIdle = true; wxTheApp->m_idleTag = 0; wxAddEmissionHook(); } // Return FALSE if no more idle events are to be sent return moreIdles; } } // extern "C" #if wxUSE_THREADS static GPollFunc wxgs_poll_func; extern "C" { static gint wxapp_poll_func( GPollFD *ufds, guint nfds, gint timeout ) { gdk_threads_enter(); wxMutexGuiLeave(); g_mainThreadLocked = true; gint res = (*wxgs_poll_func)(ufds, nfds, timeout); wxMutexGuiEnter(); g_mainThreadLocked = false; gdk_threads_leave(); return res; } } #endif // wxUSE_THREADS void wxapp_install_idle_handler() { if (wxTheApp == NULL) return; #if wxUSE_THREADS wxMutexLocker lock(gs_idleTagsMutex); #endif // Don't install the handler if it's already installed. This test *MUST* // be done when gs_idleTagsMutex is locked! if (!g_isIdle) return; // GD: this assert is raised when using the thread sample (which works) // so the test is probably not so easy. Can widget callbacks be // triggered from child threads and, if so, for which widgets? // wxASSERT_MSG( wxThread::IsMain() || gs_WakeUpIdle, wxT("attempt to install idle handler from widget callback in child thread (should be exclusively from wxWakeUpIdle)") ); wxASSERT_MSG( wxTheApp->m_idleTag == 0, wxT("attempt to install idle handler twice") ); g_isIdle = false; // This routine gets called by all event handlers // indicating that the idle is over. It may also // get called from other thread for sending events // to the main thread (and processing these in // idle time). Very low priority. wxTheApp->m_idleTag = g_idle_add_full(G_PRIORITY_LOW, wxapp_idle_callback, NULL, NULL); } //----------------------------------------------------------------------------- // Access to the root window global //----------------------------------------------------------------------------- GtkWidget* wxGetRootWindow() { if (gs_RootWindow == NULL) { gs_RootWindow = gtk_window_new( GTK_WINDOW_TOPLEVEL ); gtk_widget_realize( gs_RootWindow ); } return gs_RootWindow; } //----------------------------------------------------------------------------- // wxApp //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(wxApp,wxEvtHandler) BEGIN_EVENT_TABLE(wxApp, wxEvtHandler) EVT_IDLE(wxAppBase::OnIdle) END_EVENT_TABLE() wxApp::wxApp() { #ifdef __WXDEBUG__ m_isInAssert = false; #endif // __WXDEBUG__ m_idleTag = 0; g_isIdle = true; // this is NULL for a "regular" wxApp, but is set (and freed) by a wxGLApp m_glVisualInfo = (void *) NULL; m_glFBCInfo = (void *) NULL; } wxApp::~wxApp() { if (m_idleTag) g_source_remove( m_idleTag ); } bool wxApp::OnInitGui() { if ( !wxAppBase::OnInitGui() ) return false; // if this is a wxGLApp (derived from wxApp), and we've already // chosen a specific visual, then derive the GdkVisual from that if (m_glVisualInfo != NULL) { GdkVisual* vis = gtk_widget_get_default_visual(); GdkColormap *colormap = gdk_colormap_new( vis, FALSE ); gtk_widget_set_default_colormap( colormap ); } else { // On some machines, the default visual is just 256 colours, so // we make sure we get the best. This can sometimes be wasteful. if (m_useBestVisual) { if (m_forceTrueColour) { GdkVisual* visual = gdk_visual_get_best_with_both( 24, GDK_VISUAL_TRUE_COLOR ); if (!visual) { wxLogError(wxT("Unable to initialize TrueColor visual.")); return false; } GdkColormap *colormap = gdk_colormap_new( visual, FALSE ); gtk_widget_set_default_colormap( colormap ); } else { if (gdk_visual_get_best() != gdk_visual_get_system()) { GdkVisual* visual = gdk_visual_get_best(); GdkColormap *colormap = gdk_colormap_new( visual, FALSE ); gtk_widget_set_default_colormap( colormap ); } } } } return true; } GdkVisual *wxApp::GetGdkVisual() { GdkVisual *visual = NULL; if (m_glVisualInfo) visual = gdkx_visual_get( ((XVisualInfo *) m_glVisualInfo)->visualid ); else visual = gdk_drawable_get_visual( wxGetRootWindow()->window ); wxASSERT( visual ); return visual; } bool wxApp::Initialize(int& argc, wxChar **argv) { bool init_result; #if wxUSE_THREADS if (!g_thread_supported()) g_thread_init(NULL); wxgs_poll_func = g_main_context_get_poll_func(NULL); g_main_context_set_poll_func(NULL, wxapp_poll_func); #endif // wxUSE_THREADS gtk_set_locale(); // We should have the wxUSE_WCHAR_T test on the _outside_ #if wxUSE_WCHAR_T // gtk+ 2.0 supports Unicode through UTF-8 strings wxConvCurrent = &wxConvUTF8; #else // !wxUSE_WCHAR_T if (!wxOKlibc()) wxConvCurrent = (wxMBConv*) NULL; #endif // wxUSE_WCHAR_T/!wxUSE_WCHAR_T // decide which conversion to use for the file names // (1) this variable exists for the sole purpose of specifying the encoding // of the filenames for GTK+ programs, so use it if it is set wxString encName(wxGetenv(_T("G_FILENAME_ENCODING"))); encName = encName.BeforeFirst(_T(',')); if (encName.CmpNoCase(_T("@locale")) == 0) encName.clear(); encName.MakeUpper(); #if wxUSE_INTL if (encName.empty()) { // (2) if a non default locale is set, assume that the user wants his // filenames in this locale too encName = wxLocale::GetSystemEncodingName().Upper(); // (3) finally use UTF-8 by default if (encName.empty() || encName == _T("US-ASCII")) encName = _T("UTF-8"); wxSetEnv(_T("G_FILENAME_ENCODING"), encName); } #else if (encName.empty()) encName = _T("UTF-8"); #endif // wxUSE_INTL #if wxUSE_WCHAR_T static wxConvBrokenFileNames fileconv(encName); wxConvFileName = &fileconv; #endif // wxUSE_WCHAR_T #if wxUSE_UNICODE // gtk_init() wants UTF-8, not wchar_t, so convert int i; char **argvGTK = new char *[argc + 1]; for ( i = 0; i < argc; i++ ) { argvGTK[i] = wxStrdupA(wxConvUTF8.cWX2MB(argv[i])); } argvGTK[argc] = NULL; int argcGTK = argc; #ifdef __WXGPE__ init_result = true; // is there a _check() version of this? gpe_application_init( &argcGTK, &argvGTK ); #else init_result = gtk_init_check( &argcGTK, &argvGTK ); #endif if ( argcGTK != argc ) { // we have to drop the parameters which were consumed by GTK+ for ( i = 0; i < argcGTK; i++ ) { while ( strcmp(wxConvUTF8.cWX2MB(argv[i]), argvGTK[i]) != 0 ) { memmove(argv + i, argv + i + 1, (argc - i)*sizeof(*argv)); } } argc = argcGTK; } //else: gtk_init() didn't modify our parameters // free our copy for ( i = 0; i < argcGTK; i++ ) { free(argvGTK[i]); } delete [] argvGTK; #else // !wxUSE_UNICODE // gtk_init() shouldn't actually change argv itself (just its contents) so // it's ok to pass pointer to it init_result = gtk_init_check( &argc, &argv ); #endif // wxUSE_UNICODE/!wxUSE_UNICODE if (!init_result) { wxLogError(wxT("Unable to initialize gtk, is DISPLAY set properly?")); return false; } // update internal arg[cv] as GTK+ may have removed processed options: this->argc = argc; this->argv = argv; // we can not enter threads before gtk_init is done gdk_threads_enter(); if ( !wxAppBase::Initialize(argc, argv) ) { gdk_threads_leave(); return false; } wxSetDetectableAutoRepeat( true ); #if wxUSE_INTL wxFont::SetDefaultEncoding(wxLocale::GetSystemEncoding()); #endif WakeUpIdle(); return true; } void wxApp::CleanUp() { gdk_threads_leave(); wxAppBase::CleanUp(); } #ifdef __WXDEBUG__ void wxApp::OnAssertFailure(const wxChar *file, int line, const wxChar* func, const wxChar* cond, const wxChar *msg) { // block wx idle events while assert dialog is showing m_isInAssert = true; wxAppBase::OnAssertFailure(file, line, func, cond, msg); m_isInAssert = false; } #endif // __WXDEBUG__ void wxApp::SuspendIdleCallback() { #if wxUSE_THREADS wxMutexLocker lock(gs_idleTagsMutex); #endif if (m_idleTag != 0) { g_source_remove(m_idleTag); m_idleTag = 0; g_isIdle = true; wxAddEmissionHook(); } }