/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://www.qtsoftware.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ // ### 4.0: examine Q_EXPORT's below. The respective symbols had all // been in use (e.g. in the KDE wm) before the introduction of a version // map. One might want to turn some of them into proper public API and // provide a proper alternative for others. See also the exports in // qapplication_win.cpp, which suggest a unification. #include "qplatformdefs.h" #include "qcolormap.h" #include "qdesktopwidget.h" #include "qapplication.h" #include "qapplication_p.h" #include "qcursor.h" #include "qwidget.h" #include "qbitarray.h" #include "qpainter.h" #include "qfile.h" #include "qpixmapcache.h" #include "qdatetime.h" #include "qtextcodec.h" #include "qdatastream.h" #include "qbuffer.h" #include "qsocketnotifier.h" #include "qsessionmanager.h" #include "qclipboard.h" #include "qwhatsthis.h" #include "qsettings.h" #include "qstylefactory.h" #include "qfileinfo.h" #include "qdir.h" #include "qhash.h" #include "qevent.h" #include "qevent_p.h" #include "qvarlengtharray.h" #include "qdebug.h" #include #include #include #include #include #include "qstyle.h" #include "qmetaobject.h" #include "qtimer.h" #include "qlibrary.h" #include #include "qkde_p.h" #if !defined (QT_NO_TABLET) extern "C" { # define class c_class //XIproto.h has a name member named 'class' which the c++ compiler doesn't like # include # undef class } #endif //#define ALIEN_DEBUG #if !defined(QT_NO_GLIB) # include "qguieventdispatcher_glib_p.h" #endif #include "qeventdispatcher_x11_p.h" #include #include // Input method stuff #ifndef QT_NO_IM #include "qinputcontext.h" #include "qinputcontextfactory.h" #endif // QT_NO_IM #ifndef QT_NO_XFIXES #include #endif // QT_NO_XFIXES #include "qt_x11_p.h" #include "qx11info_x11.h" #define XK_MISCELLANY #include #if !defined(QT_NO_XINPUT) #include #endif #include #include #include #include #include "qwidget_p.h" #include #ifdef QT_RX71_MULTITOUCH # include # include # include #endif #if _POSIX_VERSION+0 < 200112L && !defined(Q_OS_BSD4) # define QT_NO_UNSETENV #endif QT_BEGIN_NAMESPACE //#define X_NOT_BROKEN #ifdef X_NOT_BROKEN // Some X libraries are built with setlocale #defined to _Xsetlocale, // even though library users are then built WITHOUT such a definition. // This creates a problem - Qt might setlocale() one value, but then // X looks and doesn't see the value Qt set. The solution here is to // implement _Xsetlocale just in case X calls it - redirecting it to // the real libC version. // # ifndef setlocale extern "C" char *_Xsetlocale(int category, const char *locale); char *_Xsetlocale(int category, const char *locale) { //qDebug("_Xsetlocale(%d,%s),category,locale"); return setlocale(category,locale); } # endif // setlocale #endif // X_NOT_BROKEN /* Warning: if you modify this string, modify the list of atoms in qt_x11_p.h as well! */ static const char * x11_atomnames = { // window-manager <-> client protocols "WM_PROTOCOLS\0" "WM_DELETE_WINDOW\0" "WM_TAKE_FOCUS\0" "_NET_WM_PING\0" "_NET_WM_CONTEXT_HELP\0" "_NET_WM_SYNC_REQUEST\0" "_NET_WM_SYNC_REQUEST_COUNTER\0" // ICCCM window state "WM_STATE\0" "WM_CHANGE_STATE\0" // Session management "WM_CLIENT_LEADER\0" "WM_WINDOW_ROLE\0" "SM_CLIENT_ID\0" // Clipboard "CLIPBOARD\0" "INCR\0" "TARGETS\0" "MULTIPLE\0" "TIMESTAMP\0" "CLIP_TEMPORARY\0" "_QT_SELECTION\0" "_QT_CLIPBOARD_SENTINEL\0" "_QT_SELECTION_SENTINEL\0" "RESOURCE_MANAGER\0" "_XSETROOT_ID\0" "_QT_SCROLL_DONE\0" "_QT_INPUT_ENCODING\0" "_MOTIF_WM_HINTS\0" "DTWM_IS_RUNNING\0" "KDE_FULL_SESSION\0" "KWIN_RUNNING\0" "KWM_RUNNING\0" "GNOME_BACKGROUND_PROPERTIES\0" "ENLIGHTENMENT_DESKTOP\0" "_SGI_DESKS_MANAGER\0" // EWMH (aka NETWM) "_NET_SUPPORTED\0" "_NET_VIRTUAL_ROOTS\0" "_NET_WORKAREA\0" "_NET_MOVERESIZE_WINDOW\0" "_NET_WM_MOVERESIZE\0" "_NET_WM_NAME\0" "_NET_WM_ICON_NAME\0" "_NET_WM_ICON\0" "_NET_WM_PID\0" "_NET_WM_WINDOW_OPACITY\0" "_NET_WM_STATE\0" "_NET_WM_STATE_ABOVE\0" "_NET_WM_STATE_BELOW\0" "_NET_WM_STATE_FULLSCREEN\0" "_NET_WM_STATE_MAXIMIZED_HORZ\0" "_NET_WM_STATE_MAXIMIZED_VERT\0" "_NET_WM_STATE_MODAL\0" "_NET_WM_STATE_STAYS_ON_TOP\0" "_NET_WM_STATE_DEMANDS_ATTENTION\0" "_NET_WM_USER_TIME\0" "_NET_WM_USER_TIME_WINDOW\0" "_NET_WM_FULL_PLACEMENT\0" "_NET_WM_WINDOW_TYPE\0" "_NET_WM_WINDOW_TYPE_DESKTOP\0" "_NET_WM_WINDOW_TYPE_DOCK\0" "_NET_WM_WINDOW_TYPE_TOOLBAR\0" "_NET_WM_WINDOW_TYPE_MENU\0" "_NET_WM_WINDOW_TYPE_UTILITY\0" "_NET_WM_WINDOW_TYPE_SPLASH\0" "_NET_WM_WINDOW_TYPE_DIALOG\0" "_NET_WM_WINDOW_TYPE_DROPDOWN_MENU\0" "_NET_WM_WINDOW_TYPE_POPUP_MENU\0" "_NET_WM_WINDOW_TYPE_TOOLTIP\0" "_NET_WM_WINDOW_TYPE_NOTIFICATION\0" "_NET_WM_WINDOW_TYPE_COMBO\0" "_NET_WM_WINDOW_TYPE_DND\0" "_NET_WM_WINDOW_TYPE_NORMAL\0" "_KDE_NET_WM_WINDOW_TYPE_OVERRIDE\0" "_KDE_NET_WM_FRAME_STRUT\0" "_NET_STARTUP_INFO\0" "_NET_STARTUP_INFO_BEGIN\0" "_NET_SUPPORTING_WM_CHECK\0" "_NET_WM_CM_S0\0" "_NET_SYSTEM_TRAY_VISUAL\0" // Property formats "COMPOUND_TEXT\0" "TEXT\0" "UTF8_STRING\0" // xdnd "XdndEnter\0" "XdndPosition\0" "XdndStatus\0" "XdndLeave\0" "XdndDrop\0" "XdndFinished\0" "XdndTypeList\0" "XdndActionList\0" "XdndSelection\0" "XdndAware\0" "XdndProxy\0" "XdndActionCopy\0" "XdndActionLink\0" "XdndActionMove\0" "XdndActionPrivate\0" // Motif DND "_MOTIF_DRAG_AND_DROP_MESSAGE\0" "_MOTIF_DRAG_INITIATOR_INFO\0" "_MOTIF_DRAG_RECEIVER_INFO\0" "_MOTIF_DRAG_WINDOW\0" "_MOTIF_DRAG_TARGETS\0" "XmTRANSFER_SUCCESS\0" "XmTRANSFER_FAILURE\0" // Xkb "_XKB_RULES_NAMES\0" // XEMBED "_XEMBED\0" "_XEMBED_INFO\0" "Wacom Stylus\0" "Wacom Cursor\0" "Wacom Eraser\0" }; Q_GUI_EXPORT QX11Data *qt_x11Data = 0; /***************************************************************************** Internal variables and functions *****************************************************************************/ static const char *appName = 0; // application name static const char *appClass = 0; // application class static const char *appFont = 0; // application font static const char *appBGCol = 0; // application bg color static const char *appFGCol = 0; // application fg color static const char *appBTNCol = 0; // application btn color static const char *mwGeometry = 0; // main widget geometry static const char *mwTitle = 0; // main widget title char *qt_ximServer = 0; // XIM Server will connect to static bool appSync = false; // X11 synchronization #if defined(QT_DEBUG) static bool appNoGrab = false; // X11 grabbing enabled static bool appDoGrab = false; // X11 grabbing override (gdb) #endif static bool app_save_rootinfo = false; // save root info static bool app_do_modal = false; // modal mode static Window curWin = 0; // current window // function to update the workarea of the screen - in qdesktopwidget_x11.cpp extern void qt_desktopwidget_update_workarea(); // Function to change the window manager state (from qwidget_x11.cpp) extern void qt_change_net_wm_state(const QWidget *w, bool set, Atom one, Atom two = 0); // modifier masks for alt, meta, super, hyper, and mode_switch - detected when the application starts // and/or keyboard layout changes uchar qt_alt_mask = 0; uchar qt_meta_mask = 0; uchar qt_super_mask = 0; uchar qt_hyper_mask = 0; uchar qt_mode_switch_mask = 0; // flags for extensions for special Languages, currently only for RTL languages bool qt_use_rtl_extensions = false; static Window mouseActWindow = 0; // window where mouse is static Qt::MouseButton mouseButtonPressed = Qt::NoButton; // last mouse button pressed static Qt::MouseButtons mouseButtonState = Qt::NoButton; // mouse button state static Time mouseButtonPressTime = 0; // when was a button pressed static short mouseXPos, mouseYPos; // mouse pres position in act window static short mouseGlobalXPos, mouseGlobalYPos; // global mouse press position extern QWidgetList *qt_modal_stack; // stack of modal widgets // window where mouse buttons have been pressed static Window pressed_window = XNone; // popup control static bool replayPopupMouseEvent = false; static bool popupGrabOk; bool qt_sm_blockUserInput = false; // session management Q_GUI_EXPORT int qt_xfocusout_grab_counter = 0; #if !defined (QT_NO_TABLET) Q_GLOBAL_STATIC(QTabletDeviceDataList, tablet_devices) QTabletDeviceDataList *qt_tablet_devices() { return tablet_devices(); } extern bool qt_tabletChokeMouse; #endif static bool qt_x11EventFilter(XEvent* ev) { long unused; if (qApp->filterEvent(ev, &unused)) return true; return qApp->x11EventFilter(ev); } #if !defined(QT_NO_XIM) XIMStyle qt_xim_preferred_style = 0; #endif int qt_ximComposingKeycode=0; QTextCodec * qt_input_mapper = 0; extern bool qt_check_clipboard_sentinel(); //def in qclipboard_x11.cpp extern bool qt_check_selection_sentinel(); //def in qclipboard_x11.cpp extern bool qt_xfixes_clipboard_changed(Window clipboardOwner, Time timestamp); //def in qclipboard_x11.cpp extern bool qt_xfixes_selection_changed(Window selectionOwner, Time timestamp); //def in qclipboard_x11.cpp static void qt_save_rootinfo(); Q_GUI_EXPORT bool qt_try_modal(QWidget *, XEvent *); QWidget *qt_button_down = 0; // last widget to be pressed with the mouse QPointer qt_last_mouse_receiver = 0; static QWidget *qt_popup_down = 0; // popup that contains the pressed widget extern bool qt_xdnd_dragging; // gui or non-gui from qapplication.cpp extern bool qt_is_gui_used; /*! \internal Try to resolve a \a symbol from \a library with the version specified by \a vernum. Note that, in the case of the Xfixes library, \a vernum is not the same as \c XFIXES_MAJOR - it is a part of soname and may differ from the Xfixes version. */ static void* qt_load_library_runtime(const char *library, int vernum, int highestVernum, const char *symbol) { QList versions; // we try to load in the following order: // explicit version -> the default one -> (from the highest (highestVernum) to the lowest (vernum) ) if (vernum != -1) versions << vernum; versions << -1; if (vernum != -1) { for(int i = highestVernum; i > vernum; --i) versions << i; } Q_FOREACH(int version, versions) { QLatin1String libName(library); QLibrary xfixesLib(libName, version); if (xfixesLib.load()) { void *ptr = xfixesLib.resolve(symbol); if (ptr) return ptr; } } return 0; } #ifndef QT_NO_XINPUT # ifdef QT_RUNTIME_XINPUT # define XINPUT_LOAD_RUNTIME(vernum, symbol, symbol_type) \ (symbol_type)qt_load_library_runtime("libXi", vernum, 6, #symbol); # define XINPUT_LOAD(symbol) \ XINPUT_LOAD_RUNTIME(1, symbol, Ptr##symbol) # else // not runtime XInput # define XINPUT_LOAD(symbol) symbol # endif // QT_RUNTIME_XINPUT #else // not using Xinput at all # define XINPUT_LOAD(symbol) 0 #endif // QT_NO_XINPUT #ifndef QT_NO_XFIXES # ifdef QT_RUNTIME_XFIXES # define XFIXES_LOAD_RUNTIME(vernum, symbol, symbol_type) \ (symbol_type)qt_load_library_runtime("libXfixes", vernum, 4, #symbol); # define XFIXES_LOAD_V1(symbol) \ XFIXES_LOAD_RUNTIME(1, symbol, Ptr##symbol) # define XFIXES_LOAD_V2(symbol) \ XFIXES_LOAD_RUNTIME(2, symbol, Ptr##symbol) # else // not runtime Xfixes # if XFIXES_MAJOR >= 2 # define XFIXES_LOAD_V1(symbol) symbol # define XFIXES_LOAD_V2(symbol) symbol # elif XFIXES_MAJOR >= 1 # define XFIXES_LOAD_V1(symbol) symbol # define XFIXES_LOAD_V2(symbol) 0 # else # error Unsupported version of Xfixes # endif # endif // QT_RUNTIME_XFIXES #else // not using Xfixes at all # define XFIXES_LOAD_V1(symbol) 0 # define XFIXES_LOAD_V2(symbol) 0 #endif // QT_NO_XFIXES #ifndef QT_NO_XFIXES struct qt_xfixes_selection_event_data { // which selection to filter out. Atom selection; }; #if defined(Q_C_CALLBACKS) extern "C" { #endif static Bool qt_xfixes_scanner(Display*, XEvent *event, XPointer arg) { qt_xfixes_selection_event_data *data = reinterpret_cast(arg); if (event->type == X11->xfixes_eventbase + XFixesSelectionNotify) { XFixesSelectionNotifyEvent *xfixes_event = reinterpret_cast(event); if (xfixes_event->selection == data->selection) return true; } return false; } #if defined(Q_C_CALLBACKS) } #endif #endif // QT_NO_XFIXES class QETWidget : public QWidget // event translator widget { public: QWidgetPrivate* d_func() { return QWidget::d_func(); } bool translateMouseEvent(const XEvent *); void translatePaintEvent(const XEvent *); bool translateConfigEvent(const XEvent *); bool translateCloseEvent(const XEvent *); bool translateScrollDoneEvent(const XEvent *); bool translateWheelEvent(int global_x, int global_y, int delta, Qt::MouseButtons buttons, Qt::KeyboardModifiers modifiers, Qt::Orientation orient); #if !defined (QT_NO_TABLET) bool translateXinputEvent(const XEvent*, QTabletDeviceData *tablet); #endif bool translatePropertyEvent(const XEvent *); void doDeferredMap() { Q_ASSERT(testAttribute(Qt::WA_WState_Created)); if (!testAttribute(Qt::WA_Resized)) { adjustSize(); setAttribute(Qt::WA_Resized, false); } /* workaround for WM's that throw away ConfigureRequests from the following: window->hide(); window->move(x, y); // could also be resize(), move()+resize(), or setGeometry() window->show(); */ QRect r = geometry(); XMoveResizeWindow(X11->display, internalWinId(), r.x(), r.y(), r.width(), r.height()); // static gravity! XSizeHints sh; long unused; XGetWMNormalHints(X11->display, internalWinId(), &sh, &unused); sh.flags |= USPosition | PPosition | USSize | PSize | PWinGravity; sh.x = r.x(); sh.y = r.y(); sh.width = r.width(); sh.height = r.height(); sh.win_gravity = StaticGravity; XSetWMNormalHints(X11->display, internalWinId(), &sh); setAttribute(Qt::WA_Mapped); if (testAttribute(Qt::WA_DontShowOnScreen)) return; d_func()->topData()->waitingForMapNotify = 1; XMapWindow(X11->display, internalWinId()); } }; void QApplicationPrivate::createEventDispatcher() { Q_Q(QApplication); #if !defined(QT_NO_GLIB) if (qgetenv("QT_NO_GLIB").isEmpty() && QEventDispatcherGlib::versionSupported()) eventDispatcher = (q->type() != QApplication::Tty ? new QGuiEventDispatcherGlib(q) : new QEventDispatcherGlib(q)); else #endif eventDispatcher = (q->type() != QApplication::Tty ? new QEventDispatcherX11(q) : new QEventDispatcherUNIX(q)); } /***************************************************************************** Default X error handlers *****************************************************************************/ #if defined(Q_C_CALLBACKS) extern "C" { #endif static int (*original_x_errhandler)(Display *dpy, XErrorEvent *); static int (*original_xio_errhandler)(Display *dpy); static int qt_x_errhandler(Display *dpy, XErrorEvent *err) { switch (err->error_code) { case BadAtom: if (err->request_code == 20 /* X_GetProperty */ && (err->resourceid == XA_RESOURCE_MANAGER || err->resourceid == XA_RGB_DEFAULT_MAP || err->resourceid == ATOM(_NET_SUPPORTED) || err->resourceid == ATOM(_NET_SUPPORTING_WM_CHECK) || err->resourceid == ATOM(KDE_FULL_SESSION) || err->resourceid == ATOM(KWIN_RUNNING) || err->resourceid == ATOM(XdndProxy) || err->resourceid == ATOM(XdndAware))) { // Perhaps we're running under SECURITY reduction? :/ return 0; } break; case BadWindow: if (err->request_code == 2 /* X_ChangeWindowAttributes */ || err->request_code == 38 /* X_QueryPointer */) { for (int i = 0; i < ScreenCount(dpy); ++i) { if (err->resourceid == RootWindow(dpy, i)) { // Perhaps we're running under SECURITY reduction? :/ return 0; } } } X11->seen_badwindow = true; if (err->request_code == 25 /* X_SendEvent */) { for (int i = 0; i < ScreenCount(dpy); ++i) { if (err->resourceid == RootWindow(dpy, i)) { // Perhaps we're running under SECURITY reduction? :/ return 0; } } if (X11->xdndHandleBadwindow()) { qDebug("xdndHandleBadwindow returned true"); return 0; } } if (X11->ignore_badwindow) return 0; break; case BadMatch: if (err->request_code == 42 /* X_SetInputFocus */) return 0; break; default: #if !defined(QT_NO_XINPUT) if (err->request_code == X11->xinput_major && err->error_code == (X11->xinput_errorbase + XI_BadDevice) && err->minor_code == 3 /* X_OpenDevice */) { return 0; } #endif break; } char errstr[256]; XGetErrorText( dpy, err->error_code, errstr, 256 ); char buffer[256]; char request_str[256]; qsnprintf(buffer, 256, "%d", err->request_code); XGetErrorDatabaseText(dpy, "XRequest", buffer, "", request_str, 256); if (err->request_code < 128) { // X error for a normal protocol request qWarning( "X Error: %s %d\n" " Major opcode: %d (%s)\n" " Resource id: 0x%lx", errstr, err->error_code, err->request_code, request_str, err->resourceid ); } else { // X error for an extension request const char *extensionName = 0; if (err->request_code == X11->xrender_major) extensionName = "RENDER"; else if (err->request_code == X11->xrandr_major) extensionName = "RANDR"; else if (err->request_code == X11->xinput_major) extensionName = "XInputExtension"; else if (err->request_code == X11->mitshm_major) extensionName = "MIT-SHM"; char minor_str[256]; if (extensionName) { qsnprintf(buffer, 256, "%s.%d", extensionName, err->minor_code); XGetErrorDatabaseText(dpy, "XRequest", buffer, "", minor_str, 256); } else { extensionName = "Uknown extension"; qsnprintf(minor_str, 256, "Unknown request"); } qWarning( "X Error: %s %d\n" " Extension: %d (%s)\n" " Minor opcode: %d (%s)\n" " Resource id: 0x%lx", errstr, err->error_code, err->request_code, extensionName, err->minor_code, minor_str, err->resourceid ); } // ### we really should distinguish between severe, non-severe and // ### application specific errors return 0; } static int qt_xio_errhandler(Display *) { qWarning("%s: Fatal IO error: client killed", appName); QApplicationPrivate::reset_instance_pointer(); exit(1); //### give the application a chance for a proper shutdown instead, //### exit(1) doesn't help. return 0; } #if defined(Q_C_CALLBACKS) } #endif #ifndef QT_NO_XSYNC struct qt_sync_request_event_data { WId window; }; #if defined(Q_C_CALLBACKS) extern "C" { #endif static Bool qt_sync_request_scanner(Display*, XEvent *event, XPointer arg) { qt_sync_request_event_data *data = reinterpret_cast(arg); if (event->type == ClientMessage && event->xany.window == data->window && event->xclient.message_type == ATOM(WM_PROTOCOLS) && (Atom)event->xclient.data.l[0] == ATOM(_NET_WM_SYNC_REQUEST)) { QWidget *w = QWidget::find(event->xany.window); if (QTLWExtra *tlw = ((QETWidget*)w)->d_func()->maybeTopData()) { const ulong timestamp = (const ulong) event->xclient.data.l[1]; if (timestamp > X11->time) X11->time = timestamp; if (timestamp == CurrentTime || timestamp > tlw->syncRequestTimestamp) { tlw->syncRequestTimestamp = timestamp; tlw->newCounterValueLo = event->xclient.data.l[2]; tlw->newCounterValueHi = event->xclient.data.l[3]; } } return true; } return false; } #if defined(Q_C_CALLBACKS) } #endif #endif // QT_NO_XSYNC static void qt_x11_create_intern_atoms() { const char *names[QX11Data::NAtoms]; const char *ptr = x11_atomnames; int i = 0; while (*ptr) { names[i++] = ptr; while (*ptr) ++ptr; ++ptr; } Q_ASSERT(i == QX11Data::NPredefinedAtoms); QByteArray settings_atom_name("_QT_SETTINGS_TIMESTAMP_"); settings_atom_name += XDisplayName(X11->displayName); names[i++] = settings_atom_name; Q_ASSERT(i == QX11Data::NAtoms); #if defined(XlibSpecificationRelease) && (XlibSpecificationRelease >= 6) XInternAtoms(X11->display, (char **)names, i, False, X11->atoms); #else for (i = 0; i < QX11Data::NAtoms; ++i) X11->atoms[i] = XInternAtom(X11->display, (char *)names[i], False); #endif } Q_GUI_EXPORT void qt_x11_apply_settings_in_all_apps() { QByteArray stamp; QDataStream s(&stamp, QIODevice::WriteOnly); s << QDateTime::currentDateTime(); XChangeProperty(QX11Info::display(), QX11Info::appRootWindow(0), ATOM(_QT_SETTINGS_TIMESTAMP), ATOM(_QT_SETTINGS_TIMESTAMP), 8, PropModeReplace, (unsigned char *)stamp.data(), stamp.size()); } /*! \internal apply the settings to the application */ bool QApplicationPrivate::x11_apply_settings() { QSettings settings(QSettings::UserScope, QLatin1String("Trolltech")); settings.beginGroup(QLatin1String("Qt")); /* Qt settings. This is now they are written into the datastream. Palette / * - QPalette font - QFont libraryPath - QStringList style - QString doubleClickInterval - int keyboardInputInterval - int cursorFlashTime - int wheelScrollLines - int colorSpec - QString defaultCodec - QString globalStrut/width - int globalStrut/height - int GUIEffects - QStringList Font Substitutions/ * - QStringList Font Substitutions/... - QStringList */ QStringList strlist; int i; QPalette pal(Qt::black); int groupCount = 0; strlist = settings.value(QLatin1String("Palette/active")).toStringList(); if (!strlist.isEmpty()) { ++groupCount; for (i = 0; i < qMin(strlist.count(), int(QPalette::NColorRoles)); i++) pal.setColor(QPalette::Active, (QPalette::ColorRole) i, QColor(strlist[i])); } strlist = settings.value(QLatin1String("Palette/inactive")).toStringList(); if (!strlist.isEmpty()) { ++groupCount; for (i = 0; i < qMin(strlist.count(), int(QPalette::NColorRoles)); i++) pal.setColor(QPalette::Inactive, (QPalette::ColorRole) i, QColor(strlist[i])); } strlist = settings.value(QLatin1String("Palette/disabled")).toStringList(); if (!strlist.isEmpty()) { ++groupCount; for (i = 0; i < qMin(strlist.count(), int(QPalette::NColorRoles)); i++) pal.setColor(QPalette::Disabled, (QPalette::ColorRole) i, QColor(strlist[i])); } // ### Fix properly for 4.6 bool usingGtkSettings = QApplicationPrivate::app_style && QApplicationPrivate::app_style->inherits("QGtkStyle"); if (!usingGtkSettings) { if (groupCount == QPalette::NColorGroups) QApplicationPrivate::setSystemPalette(pal); } if (!appFont) { // ### Fix properly for 4.6 if (!usingGtkSettings) { QFont font(QApplication::font()); QString fontDescription; // Override Qt font if KDE4 settings can be used if (X11->desktopVersion == 4) { QSettings kdeSettings(QKde::kdeHome() + QLatin1String("/share/config/kdeglobals"), QSettings::IniFormat); fontDescription = kdeSettings.value(QLatin1String("font")).toString(); if (fontDescription.isEmpty()) { // KDE stores fonts without quotes fontDescription = kdeSettings.value(QLatin1String("font")).toStringList().join(QLatin1String(",")); } } if (fontDescription.isEmpty()) fontDescription = settings.value(QLatin1String("font")).toString(); if (!fontDescription .isEmpty()) { font.fromString(fontDescription ); QApplicationPrivate::setSystemFont(font); } } } // read library (ie. plugin) path list QString libpathkey = QString::fromLatin1("%1.%2/libraryPath") .arg(QT_VERSION >> 16) .arg((QT_VERSION & 0xff00) >> 8); QStringList pathlist = settings.value(libpathkey).toString().split(QLatin1Char(':')); if (! pathlist.isEmpty()) { QStringList::ConstIterator it = pathlist.constBegin(); while (it != pathlist.constEnd()) QApplication::addLibraryPath(*it++); } // read new QStyle QString stylename = settings.value(QLatin1String("style")).toString(); if (stylename.isEmpty() && QApplicationPrivate::styleOverride.isNull() && X11->use_xrender) { stylename = x11_desktop_style(); } static QString currentStyleName = stylename; if (QCoreApplication::startingUp()) { if (!stylename.isEmpty() && QApplicationPrivate::styleOverride.isNull()) QApplicationPrivate::styleOverride = stylename; } else { if (currentStyleName != stylename) { currentStyleName = stylename; QApplication::setStyle(stylename); } } int num = settings.value(QLatin1String("doubleClickInterval"), QApplication::doubleClickInterval()).toInt(); QApplication::setDoubleClickInterval(num); num = settings.value(QLatin1String("cursorFlashTime"), QApplication::cursorFlashTime()).toInt(); QApplication::setCursorFlashTime(num); num = settings.value(QLatin1String("wheelScrollLines"), QApplication::wheelScrollLines()).toInt(); QApplication::setWheelScrollLines(num); QString colorspec = settings.value(QLatin1String("colorSpec"), QVariant(QLatin1String("default"))).toString(); if (colorspec == QLatin1String("normal")) QApplication::setColorSpec(QApplication::NormalColor); else if (colorspec == QLatin1String("custom")) QApplication::setColorSpec(QApplication::CustomColor); else if (colorspec == QLatin1String("many")) QApplication::setColorSpec(QApplication::ManyColor); else if (colorspec != QLatin1String("default")) colorspec = QLatin1String("default"); QString defaultcodec = settings.value(QLatin1String("defaultCodec"), QVariant(QLatin1String("none"))).toString(); if (defaultcodec != QLatin1String("none")) { QTextCodec *codec = QTextCodec::codecForName(defaultcodec.toLatin1()); if (codec) QTextCodec::setCodecForTr(codec); } int w = settings.value(QLatin1String("globalStrut/width")).toInt(); int h = settings.value(QLatin1String("globalStrut/height")).toInt(); QSize strut(w, h); if (strut.isValid()) QApplication::setGlobalStrut(strut); QStringList effects = settings.value(QLatin1String("GUIEffects")).toStringList(); QApplication::setEffectEnabled(Qt::UI_General, effects.contains(QLatin1String("general"))); QApplication::setEffectEnabled(Qt::UI_AnimateMenu, effects.contains(QLatin1String("animatemenu"))); QApplication::setEffectEnabled(Qt::UI_FadeMenu, effects.contains(QLatin1String("fademenu"))); QApplication::setEffectEnabled(Qt::UI_AnimateCombo, effects.contains(QLatin1String("animatecombo"))); QApplication::setEffectEnabled(Qt::UI_AnimateTooltip, effects.contains(QLatin1String("animatetooltip"))); QApplication::setEffectEnabled(Qt::UI_FadeTooltip, effects.contains(QLatin1String("fadetooltip"))); QApplication::setEffectEnabled(Qt::UI_AnimateToolBox, effects.contains(QLatin1String("animatetoolbox"))); if (!X11->has_fontconfig) { settings.beginGroup(QLatin1String("Font Substitutions")); QStringList fontsubs = settings.childKeys(); if (!fontsubs.isEmpty()) { QStringList::Iterator it = fontsubs.begin(); for (; it != fontsubs.end(); ++it) { QString fam = *it; QStringList subs = settings.value(fam).toStringList(); QFont::insertSubstitutions(fam, subs); } } settings.endGroup(); } qt_use_rtl_extensions = settings.value(QLatin1String("useRtlExtensions"), false).toBool(); #ifndef QT_NO_XIM if (qt_xim_preferred_style == 0) { QString ximInputStyle = settings.value(QLatin1String("XIMInputStyle"), QVariant(QLatin1String("on the spot"))).toString().toLower(); if (ximInputStyle == QLatin1String("on the spot")) qt_xim_preferred_style = XIMPreeditCallbacks | XIMStatusNothing; else if (ximInputStyle == QLatin1String("over the spot")) qt_xim_preferred_style = XIMPreeditPosition | XIMStatusNothing; else if (ximInputStyle == QLatin1String("off the spot")) qt_xim_preferred_style = XIMPreeditArea | XIMStatusArea; else if (ximInputStyle == QLatin1String("root")) qt_xim_preferred_style = XIMPreeditNothing | XIMStatusNothing; } #endif QStringList inputMethods = QInputContextFactory::keys(); if (inputMethods.size() > 2 && inputMethods.contains(QLatin1String("imsw-multi"))) { X11->default_im = QLatin1String("imsw-multi"); } else { X11->default_im = settings.value(QLatin1String("DefaultInputMethod"), QLatin1String("xim")).toString(); } settings.endGroup(); // Qt return true; } /*! \internal Resets the QApplication::instance() pointer to zero */ void QApplicationPrivate::reset_instance_pointer() { QApplication::self = 0; } // read the _QT_INPUT_ENCODING property and apply the settings to // the application static void qt_set_input_encoding() { Atom type; int format; ulong nitems, after = 1; unsigned char *data = 0; int e = XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_QT_INPUT_ENCODING), 0, 1024, False, XA_STRING, &type, &format, &nitems, &after, &data); if (e != Success || !nitems || type == XNone) { // Always use the locale codec, since we have no examples of non-local // XIMs, and since we cannot get a sensible answer about the encoding // from the XIM. qt_input_mapper = QTextCodec::codecForLocale(); } else { if (!qstricmp((char *)data, "locale")) qt_input_mapper = QTextCodec::codecForLocale(); else qt_input_mapper = QTextCodec::codecForName((char *)data); // make sure we have an input codec if(!qt_input_mapper) qt_input_mapper = QTextCodec::codecForName("ISO 8859-1"); } if (qt_input_mapper && qt_input_mapper->mibEnum() == 11) // 8859-8 qt_input_mapper = QTextCodec::codecForName("ISO 8859-8-I"); if(data) XFree((char *)data); } // set font, foreground and background from x11 resources. The // arguments may override the resource settings. static void qt_set_x11_resources(const char* font = 0, const char* fg = 0, const char* bg = 0, const char* button = 0) { QString resFont, resFG, resBG, resButton, resEF, sysFont, selectBackground, selectForeground; QApplication::setEffectEnabled(Qt::UI_General, false); QApplication::setEffectEnabled(Qt::UI_AnimateMenu, false); QApplication::setEffectEnabled(Qt::UI_FadeMenu, false); QApplication::setEffectEnabled(Qt::UI_AnimateCombo, false); QApplication::setEffectEnabled(Qt::UI_AnimateTooltip, false); QApplication::setEffectEnabled(Qt::UI_FadeTooltip, false); QApplication::setEffectEnabled(Qt::UI_AnimateToolBox, false); bool paletteAlreadySet = false; if (QApplication::desktopSettingsAware()) { // first, read from settings QApplicationPrivate::x11_apply_settings(); // the call to QApplication::style() below creates the system // palette, which breaks the logic after the RESOURCE_MANAGER // loop... so I have to save this value to be able to use it later paletteAlreadySet = (QApplicationPrivate::sys_pal != 0); // second, parse the RESOURCE_MANAGER property int format; ulong nitems, after = 1; QString res; long offset = 0; Atom type = XNone; while (after > 0) { uchar *data = 0; if (XGetWindowProperty(X11->display, QX11Info::appRootWindow(0), ATOM(RESOURCE_MANAGER), offset, 8192, False, AnyPropertyType, &type, &format, &nitems, &after, &data) != Success) { res = QString(); break; } if (type == XA_STRING) res += QString::fromLatin1((char*)data); else res += QString::fromLocal8Bit((char*)data); offset += 2048; // offset is in 32bit quantities... 8192/4 == 2048 if (data) XFree((char *)data); } QString key, value; int l = 0, r; QString apn = QString::fromLocal8Bit(appName); QString apc = QString::fromLocal8Bit(appClass); int apnl = apn.length(); int apcl = apc.length(); int resl = res.length(); while (l < resl) { r = res.indexOf(QLatin1Char('\n'), l); if (r < 0) r = resl; while (res.at(l).isSpace()) l++; bool mine = false; QChar sc = res.at(l + 1); if (res.at(l) == QLatin1Char('*') && (sc == QLatin1Char('f') || sc == QLatin1Char('b') || sc == QLatin1Char('g') || sc == QLatin1Char('F') || sc == QLatin1Char('B') || sc == QLatin1Char('G') || sc == QLatin1Char('s') || sc == QLatin1Char('S') // capital T only, since we're looking for "Text.selectSomething" || sc == QLatin1Char('T'))) { // OPTIMIZED, since we only want "*[fbgsT].." QString item = res.mid(l, r - l).simplified(); int i = item.indexOf(QLatin1Char(':')); key = item.left(i).trimmed().mid(1).toLower(); value = item.right(item.length() - i - 1).trimmed(); mine = true; } else if ((apnl && res.at(l) == apn.at(0)) || (appClass && apcl && res.at(l) == apc.at(0))) { if (res.mid(l,apnl) == apn && (res.at(l+apnl) == QLatin1Char('.') || res.at(l+apnl) == QLatin1Char('*'))) { QString item = res.mid(l, r - l).simplified(); int i = item.indexOf(QLatin1Char(':')); key = item.left(i).trimmed().mid(apnl+1).toLower(); value = item.right(item.length() - i - 1).trimmed(); mine = true; } else if (res.mid(l,apcl) == apc && (res.at(l+apcl) == QLatin1Char('.') || res.at(l+apcl) == QLatin1Char('*'))) { QString item = res.mid(l, r - l).simplified(); int i = item.indexOf(QLatin1Char(':')); key = item.left(i).trimmed().mid(apcl+1).toLower(); value = item.right(item.length() - i - 1).trimmed(); mine = true; } } if (mine) { if (!font && key == QLatin1String("systemfont")) sysFont = value.left(value.lastIndexOf(QLatin1Char(':'))); if (!font && key == QLatin1String("font")) resFont = value; else if (!fg && !paletteAlreadySet) { if (key == QLatin1String("foreground")) resFG = value; else if (!bg && key == QLatin1String("background")) resBG = value; else if (!bg && !button && key == QLatin1String("button.background")) resButton = value; else if (key == QLatin1String("text.selectbackground")) { selectBackground = value; } else if (key == QLatin1String("text.selectforeground")) { selectForeground = value; } } else if (key == QLatin1String("guieffects")) resEF = value; // NOTE: if you add more, change the [fbg] stuff above } l = r + 1; } } if (!sysFont.isEmpty()) resFont = sysFont; if (resFont.isEmpty()) resFont = QString::fromLocal8Bit(font); if (resFG.isEmpty()) resFG = QString::fromLocal8Bit(fg); if (resBG.isEmpty()) resBG = QString::fromLocal8Bit(bg); if (resButton.isEmpty()) resButton = QString::fromLocal8Bit(button); if (!resFont.isEmpty() && !X11->has_fontconfig && !QApplicationPrivate::sys_font) { // set application font QFont fnt; fnt.setRawName(resFont); // the font we get may actually be an alias for another font, // so we reset the application font to the real font info. if (! fnt.exactMatch()) { QFontInfo fontinfo(fnt); fnt.setFamily(fontinfo.family()); fnt.setRawMode(fontinfo.rawMode()); if (! fnt.rawMode()) { fnt.setItalic(fontinfo.italic()); fnt.setWeight(fontinfo.weight()); fnt.setUnderline(fontinfo.underline()); fnt.setStrikeOut(fontinfo.strikeOut()); fnt.setStyleHint(fontinfo.styleHint()); if (fnt.pointSize() <= 0 && fnt.pixelSize() <= 0) { // size is all wrong... fix it qreal pointSize = fontinfo.pixelSize() * 72. / (float) QX11Info::appDpiY(); if (pointSize <= 0) pointSize = 12; fnt.setPointSize(qRound(pointSize)); } } } QApplicationPrivate::setSystemFont(fnt); } // QGtkStyle sets it's own system palette bool gtkStyle = QApplicationPrivate::app_style && QApplicationPrivate::app_style->inherits("QGtkStyle"); bool kdeColors = (QApplication::desktopSettingsAware() && X11->desktopEnvironment == DE_KDE); if (!gtkStyle && (kdeColors || (button || !resBG.isEmpty() || !resFG.isEmpty()))) {// set app colors bool allowX11ColorNames = QColor::allowX11ColorNames(); QColor::setAllowX11ColorNames(true); (void) QApplication::style(); // trigger creation of application style and system palettes QColor btn; QColor bg; QColor fg; QColor bfg; QColor wfg; if (!resBG.isEmpty()) bg = QColor(resBG); if (!bg.isValid()) bg = QApplicationPrivate::sys_pal->color(QPalette::Active, QPalette::Window); if (!resFG.isEmpty()) fg = QColor(resFG); if (!fg.isValid()) fg = QApplicationPrivate::sys_pal->color(QPalette::Active, QPalette::WindowText); if (!resButton.isEmpty()) btn = QColor(resButton); else if (!resBG.isEmpty()) btn = bg; if (!btn.isValid()) btn = QApplicationPrivate::sys_pal->color(QPalette::Active, QPalette::Button); int h,s,v; fg.getHsv(&h,&s,&v); QColor base = Qt::white; bool bright_mode = false; if (v >= 255 - 50) { base = btn.darker(150); bright_mode = true; } QPalette pal(fg, btn, btn.lighter(125), btn.darker(130), btn.darker(120), wfg.isValid() ? wfg : fg, Qt::white, base, bg); QColor disabled((fg.red() + btn.red()) / 2, (fg.green() + btn.green())/ 2, (fg.blue() + btn.blue()) / 2); pal.setColorGroup(QPalette::Disabled, disabled, btn, btn.lighter(125), btn.darker(130), btn.darker(150), disabled, Qt::white, Qt::white, bg); QColor highlight, highlightText; if (!selectBackground.isEmpty() && !selectForeground.isEmpty()) { highlight = QColor(selectBackground); highlightText = QColor(selectForeground); } if (highlight.isValid() && highlightText.isValid()) { pal.setColor(QPalette::Highlight, highlight); pal.setColor(QPalette::HighlightedText, highlightText); // calculate disabled colors by removing saturation highlight.setHsv(highlight.hue(), 0, highlight.value(), highlight.alpha()); highlightText.setHsv(highlightText.hue(), 0, highlightText.value(), highlightText.alpha()); pal.setColor(QPalette::Disabled, QPalette::Highlight, highlight); pal.setColor(QPalette::Disabled, QPalette::HighlightedText, highlightText); } else if (bright_mode) { pal.setColor(QPalette::HighlightedText, base); pal.setColor(QPalette::Highlight, Qt::white); pal.setColor(QPalette::Disabled, QPalette::HighlightedText, base); pal.setColor(QPalette::Disabled, QPalette::Highlight, Qt::white); } else { pal.setColor(QPalette::HighlightedText, Qt::white); pal.setColor(QPalette::Highlight, Qt::darkBlue); pal.setColor(QPalette::Disabled, QPalette::HighlightedText, Qt::white); pal.setColor(QPalette::Disabled, QPalette::Highlight, Qt::darkBlue); } if (kdeColors) pal = QKde::kdePalette().resolve(pal); QApplicationPrivate::setSystemPalette(pal); QColor::setAllowX11ColorNames(allowX11ColorNames); } if (!resEF.isEmpty()) { QStringList effects = resEF.split(QLatin1Char(' ')); QApplication::setEffectEnabled(Qt::UI_General, effects.contains(QLatin1String("general"))); QApplication::setEffectEnabled(Qt::UI_AnimateMenu, effects.contains(QLatin1String("animatemenu"))); QApplication::setEffectEnabled(Qt::UI_FadeMenu, effects.contains(QLatin1String("fademenu"))); QApplication::setEffectEnabled(Qt::UI_AnimateCombo, effects.contains(QLatin1String("animatecombo"))); QApplication::setEffectEnabled(Qt::UI_AnimateTooltip, effects.contains(QLatin1String("animatetooltip"))); QApplication::setEffectEnabled(Qt::UI_FadeTooltip, effects.contains(QLatin1String("fadetooltip"))); QApplication::setEffectEnabled(Qt::UI_AnimateToolBox, effects.contains(QLatin1String("animatetoolbox"))); } QIconLoader::instance()->updateSystemTheme(); } // update the supported array static void qt_get_net_supported() { Atom type; int format; long offset = 0; unsigned long nitems, after; unsigned char *data = 0; int e = XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_NET_SUPPORTED), 0, 0, False, XA_ATOM, &type, &format, &nitems, &after, &data); if (data) XFree(data); if (X11->net_supported_list) delete [] X11->net_supported_list; X11->net_supported_list = 0; if (e == Success && type == XA_ATOM && format == 32) { QBuffer ts; ts.open(QIODevice::WriteOnly); while (after > 0) { XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_NET_SUPPORTED), offset, 1024, False, XA_ATOM, &type, &format, &nitems, &after, &data); if (type == XA_ATOM && format == 32) { ts.write(reinterpret_cast(data), nitems * sizeof(long)); offset += nitems; } else after = 0; if (data) XFree(data); } // compute nitems QByteArray buffer(ts.buffer()); nitems = buffer.size() / sizeof(Atom); X11->net_supported_list = new Atom[nitems + 1]; Atom *a = (Atom *) buffer.data(); uint i; for (i = 0; i < nitems; i++) X11->net_supported_list[i] = a[i]; X11->net_supported_list[nitems] = 0; } } bool QX11Data::isSupportedByWM(Atom atom) { if (!X11->net_supported_list) return false; bool supported = false; int i = 0; while (X11->net_supported_list[i] != 0) { if (X11->net_supported_list[i++] == atom) { supported = true; break; } } return supported; } // update the virtual roots array static void qt_get_net_virtual_roots() { if (X11->net_virtual_root_list) delete [] X11->net_virtual_root_list; X11->net_virtual_root_list = 0; if (!X11->isSupportedByWM(ATOM(_NET_VIRTUAL_ROOTS))) return; Atom type; int format; long offset = 0; unsigned long nitems, after; unsigned char *data; int e = XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_NET_VIRTUAL_ROOTS), 0, 0, False, XA_ATOM, &type, &format, &nitems, &after, &data); if (data) XFree(data); if (e == Success && type == XA_ATOM && format == 32) { QBuffer ts; ts.open(QIODevice::WriteOnly); while (after > 0) { XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_NET_VIRTUAL_ROOTS), offset, 1024, False, XA_ATOM, &type, &format, &nitems, &after, &data); if (type == XA_ATOM && format == 32) { ts.write(reinterpret_cast(data), nitems * 4); offset += nitems; } else after = 0; if (data) XFree(data); } // compute nitems QByteArray buffer(ts.buffer()); nitems = buffer.size() / sizeof(Window); X11->net_virtual_root_list = new Window[nitems + 1]; Window *a = (Window *) buffer.data(); uint i; for (i = 0; i < nitems; i++) X11->net_virtual_root_list[i] = a[i]; X11->net_virtual_root_list[nitems] = 0; } } void qt_net_remove_user_time(QWidget *tlw) { Q_ASSERT(tlw); QTLWExtra *extra = tlw->d_func()->maybeTopData(); if (extra && extra->userTimeWindow) { Q_ASSERT(tlw->internalWinId()); XDeleteProperty(X11->display, tlw->internalWinId(), ATOM(_NET_WM_USER_TIME_WINDOW)); XDestroyWindow(X11->display, extra->userTimeWindow); extra->userTimeWindow = 0; } } void qt_net_update_user_time(QWidget *tlw, unsigned long timestamp) { Q_ASSERT(tlw); Q_ASSERT(tlw->isWindow()); Q_ASSERT(tlw->testAttribute(Qt::WA_WState_Created)); QTLWExtra *extra = tlw->d_func()->topData(); WId wid = tlw->internalWinId(); const bool isSupportedByWM = X11->isSupportedByWM(ATOM(_NET_WM_USER_TIME_WINDOW)); if (extra->userTimeWindow || isSupportedByWM) { if (!extra->userTimeWindow) { extra->userTimeWindow = XCreateSimpleWindow(X11->display, tlw->internalWinId(), -1, -1, 1, 1, 0, 0, 0); wid = extra->userTimeWindow; XChangeProperty(X11->display, tlw->internalWinId(), ATOM(_NET_WM_USER_TIME_WINDOW), XA_WINDOW, 32, PropModeReplace, (unsigned char *)&wid, 1); XDeleteProperty(X11->display, tlw->internalWinId(), ATOM(_NET_WM_USER_TIME)); } else if (!isSupportedByWM) { // WM no longer supports it, then we should remove the // _NET_WM_USER_TIME_WINDOW atom. qt_net_remove_user_time(tlw); } else { wid = extra->userTimeWindow; } } XChangeProperty(X11->display, wid, ATOM(_NET_WM_USER_TIME), XA_CARDINAL, 32, PropModeReplace, (unsigned char *) ×tamp, 1); } static void qt_check_focus_model() { Window fw = XNone; int unused; XGetInputFocus(X11->display, &fw, &unused); if (fw == PointerRoot) X11->focus_model = QX11Data::FM_PointerRoot; else X11->focus_model = QX11Data::FM_Other; } #ifndef QT_NO_TABLET #if !defined (Q_OS_IRIX) // from include/Xwacom.h # define XWACOM_PARAM_TOOLID 322 # define XWACOM_PARAM_TOOLSERIAL 323 typedef WACOMCONFIG * (*PtrWacomConfigInit) (Display*, WACOMERRORFUNC); typedef WACOMDEVICE * (*PtrWacomConfigOpenDevice) (WACOMCONFIG*, const char*); typedef int *(*PtrWacomConfigGetRawParam) (WACOMDEVICE*, int, int*, int, unsigned*); typedef int (*PtrWacomConfigCloseDevice) (WACOMDEVICE *); typedef void (*PtrWacomConfigTerm) (WACOMCONFIG *); static PtrWacomConfigInit ptrWacomConfigInit = 0; static PtrWacomConfigOpenDevice ptrWacomConfigOpenDevice = 0; static PtrWacomConfigGetRawParam ptrWacomConfigGetRawParam = 0; static PtrWacomConfigCloseDevice ptrWacomConfigCloseDevice = 0; static PtrWacomConfigTerm ptrWacomConfigTerm = 0; Q_GLOBAL_STATIC(QByteArray, wacomDeviceName) #endif #endif /***************************************************************************** qt_init() - initializes Qt for X11 *****************************************************************************/ #if !defined(QT_NO_FONTCONFIG) static void getXDefault(const char *group, const char *key, int *val) { char *str = XGetDefault(X11->display, group, key); if (str) { char *end = 0; int v = strtol(str, &end, 0); if (str != end) *val = v; } } static void getXDefault(const char *group, const char *key, double *val) { char *str = XGetDefault(X11->display, group, key); if (str) { bool ok; double v = QByteArray(str).toDouble(&ok); if (ok) *val = v; } } static void getXDefault(const char *group, const char *key, bool *val) { char *str = XGetDefault(X11->display, group, key); if (str) { char c = str[0]; if (isupper((int)c)) c = tolower(c); if (c == 't' || c == 'y' || c == '1') *val = true; else if (c == 'f' || c == 'n' || c == '0') *val = false; if (c == 'o') { c = str[1]; if (isupper((int)c)) c = tolower(c); if (c == 'n') *val = true; if (c == 'f') *val = false; } } } #endif // ### This should be static but it isn't because of the friend declaration // ### in qpaintdevice.h which then should have a static too but can't have // ### it because "storage class specifiers invalid in friend function // ### declarations" :-) Ideas anyone? void qt_init(QApplicationPrivate *priv, int, Display *display, Qt::HANDLE visual, Qt::HANDLE colormap) { X11 = new QX11Data; X11->display = display; X11->displayName = 0; X11->foreignDisplay = (display != 0); X11->focus_model = -1; // RANDR X11->use_xrandr = false; X11->xrandr_major = 0; X11->xrandr_eventbase = 0; X11->xrandr_errorbase = 0; // RENDER X11->use_xrender = false; X11->xrender_major = 0; X11->xrender_version = 0; // XFIXES X11->use_xfixes = false; X11->xfixes_major = 0; X11->xfixes_eventbase = 0; X11->xfixes_errorbase = 0; // XInputExtension X11->use_xinput = false; X11->xinput_major = 0; X11->xinput_eventbase = 0; X11->xinput_errorbase = 0; // MIT-SHM X11->use_mitshm = false; X11->mitshm_major = 0; X11->sip_serial = 0; X11->net_supported_list = 0; X11->net_virtual_root_list = 0; X11->wm_client_leader = 0; X11->screens = 0; X11->argbVisuals = 0; X11->argbColormaps = 0; X11->screenCount = 0; X11->time = CurrentTime; X11->userTime = CurrentTime; X11->ignore_badwindow = false; X11->seen_badwindow = false; X11->motifdnd_active = false; X11->default_im = QLatin1String("imsw-multi"); priv->inputContext = 0; // colormap control X11->visual_class = -1; X11->visual_id = -1; X11->color_count = 0; X11->custom_cmap = false; // outside visual/colormap X11->visual = reinterpret_cast(visual); X11->colormap = colormap; // Fontconfig X11->has_fontconfig = false; #if !defined(QT_NO_FONTCONFIG) if (qgetenv("QT_X11_NO_FONTCONFIG").isNull()) X11->has_fontconfig = FcInit(); X11->fc_antialias = true; #endif #ifndef QT_NO_XRENDER memset(X11->solid_fills, 0, sizeof(X11->solid_fills)); for (int i = 0; i < X11->solid_fill_count; ++i) X11->solid_fills[i].screen = -1; memset(X11->pattern_fills, 0, sizeof(X11->pattern_fills)); for (int i = 0; i < X11->pattern_fill_count; ++i) X11->pattern_fills[i].screen = -1; #endif X11->startupId = 0; int argc = priv->argc; char **argv = priv->argv; if (X11->display) { // Qt part of other application // Set application name and class appName = qstrdup("Qt-subapplication"); char *app_class = 0; if (argv) { const char* p = strrchr(argv[0], '/'); app_class = qstrdup(p ? p + 1 : argv[0]); if (app_class[0]) app_class[0] = toupper(app_class[0]); } appClass = app_class; } else { // Qt controls everything (default) // Set application name and class char *app_class = 0; if (argv && argv[0]) { const char *p = strrchr(argv[0], '/'); appName = p ? p + 1 : argv[0]; app_class = qstrdup(appName); if (app_class[0]) app_class[0] = toupper(app_class[0]); } appClass = app_class; } // Install default error handlers original_x_errhandler = XSetErrorHandler(qt_x_errhandler); original_xio_errhandler = XSetIOErrorHandler(qt_xio_errhandler); // Get command line params int j = argc ? 1 : 0; for (int i=1; idisplay) X11->displayName = argv[i]; } else if (arg == "-fn" || arg == "-font") { if (++i < argc) appFont = argv[i]; } else if (arg == "-bg" || arg == "-background") { if (++i < argc) appBGCol = argv[i]; } else if (arg == "-btn" || arg == "-button") { if (++i < argc) appBTNCol = argv[i]; } else if (arg == "-fg" || arg == "-foreground") { if (++i < argc) appFGCol = argv[i]; } else if (arg == "-name") { if (++i < argc) appName = argv[i]; } else if (arg == "-title") { if (++i < argc) mwTitle = argv[i]; } else if (arg == "-geometry") { if (++i < argc) mwGeometry = argv[i]; } else if (arg == "-im") { if (++i < argc) qt_ximServer = argv[i]; } else if (arg == "-ncols") { // xv and netscape use this name if (++i < argc) X11->color_count = qMax(0,atoi(argv[i])); } else if (arg == "-visual") { // xv and netscape use this name if (++i < argc && !X11->visual) { QString s = QString::fromLocal8Bit(argv[i]).toLower(); if (s == QLatin1String("staticgray")) X11->visual_class = StaticGray; else if (s == QLatin1String("grayscale")) X11->visual_class = XGrayScale; else if (s == QLatin1String("staticcolor")) X11->visual_class = StaticColor; else if (s == QLatin1String("pseudocolor")) X11->visual_class = PseudoColor; else if (s == QLatin1String("truecolor")) X11->visual_class = TrueColor; else if (s == QLatin1String("directcolor")) X11->visual_class = DirectColor; else X11->visual_id = static_cast(strtol(argv[i], 0, 0)); } #ifndef QT_NO_XIM } else if (arg == "-inputstyle") { if (++i < argc) { QString s = QString::fromLocal8Bit(argv[i]).toLower(); if (s == QLatin1String("onthespot")) qt_xim_preferred_style = XIMPreeditCallbacks | XIMStatusNothing; else if (s == QLatin1String("overthespot")) qt_xim_preferred_style = XIMPreeditPosition | XIMStatusNothing; else if (s == QLatin1String("offthespot")) qt_xim_preferred_style = XIMPreeditArea | XIMStatusArea; else if (s == QLatin1String("root")) qt_xim_preferred_style = XIMPreeditNothing | XIMStatusNothing; } #endif } else if (arg == "-cmap") { // xv uses this name if (!X11->colormap) X11->custom_cmap = true; } else if (arg == "-sync") appSync = !appSync; #if defined(QT_DEBUG) else if (arg == "-nograb") appNoGrab = !appNoGrab; else if (arg == "-dograb") appDoGrab = !appDoGrab; #endif else argv[j++] = argv[i]; } priv->argc = j; #if defined(QT_DEBUG) && defined(Q_OS_LINUX) if (!appNoGrab && !appDoGrab) { QString s; s.sprintf("/proc/%d/cmdline", getppid()); QFile f(s); if (f.open(QIODevice::ReadOnly)) { s.clear(); char c; while (f.getChar(&c) && c) { if (c == '/') s.clear(); else s += QLatin1Char(c); } if (s == QLatin1String("gdb")) { appNoGrab = true; qDebug("Qt: gdb: -nograb added to command-line options.\n" "\t Use the -dograb option to enforce grabbing."); } f.close(); } } #endif // Connect to X server if (qt_is_gui_used && !X11->display) { if ((X11->display = XOpenDisplay(X11->displayName)) == 0) { qWarning("%s: cannot connect to X server %s", appName, XDisplayName(X11->displayName)); QApplicationPrivate::reset_instance_pointer(); exit(1); } if (appSync) // if "-sync" argument XSynchronize(X11->display, true); } // Common code, regardless of whether display is foreign. // Get X parameters if (qt_is_gui_used) { X11->defaultScreen = DefaultScreen(X11->display); X11->screenCount = ScreenCount(X11->display); X11->screens = new QX11InfoData[X11->screenCount]; X11->argbVisuals = new Visual *[X11->screenCount]; X11->argbColormaps = new Colormap[X11->screenCount]; for (int s = 0; s < X11->screenCount; s++) { QX11InfoData *screen = X11->screens + s; screen->ref = 1; // ensures it doesn't get deleted screen->screen = s; screen->dpiX = (DisplayWidth(X11->display, s) * 254 + DisplayWidthMM(X11->display, s)*5) / (DisplayWidthMM(X11->display, s)*10); screen->dpiY = (DisplayHeight(X11->display, s) * 254 + DisplayHeightMM(X11->display, s)*5) / (DisplayHeightMM(X11->display, s)*10); X11->argbVisuals[s] = 0; X11->argbColormaps[s] = 0; } #ifndef QT_NO_XRENDER int xrender_eventbase, xrender_errorbase; // See if XRender is supported on the connected display if (XQueryExtension(X11->display, "RENDER", &X11->xrender_major, &xrender_eventbase, &xrender_errorbase) && XRenderQueryExtension(X11->display, &xrender_eventbase, &xrender_errorbase)) { // Check the version as well - we need v0.4 or higher int major = 0; int minor = 0; XRenderQueryVersion(X11->display, &major, &minor); if (qgetenv("QT_X11_NO_XRENDER").isNull()) { X11->use_xrender = (major >= 0 && minor >= 5); X11->xrender_version = major*100+minor; // workaround for broken XServer on Ubuntu Breezy (6.8 compiled with 7.0 // protocol headers) if (X11->xrender_version == 10 && VendorRelease(X11->display) < 60900000 && QByteArray(ServerVendor(X11->display)).contains("X.Org")) X11->xrender_version = 9; } } #endif // QT_NO_XRENDER #ifndef QT_NO_MITSHM int mitshm_minor; int mitshm_major; int mitshm_eventbase; int mitshm_errorbase; int mitshm_pixmaps; if (XQueryExtension(X11->display, "MIT-SHM", &X11->mitshm_major, &mitshm_eventbase, &mitshm_errorbase) && XShmQueryVersion(X11->display, &mitshm_major, &mitshm_minor, &mitshm_pixmaps)) { QString displayName = QLatin1String(XDisplayName(NULL)); // MITSHM only works for local displays, so do a quick check here // to determine whether the display is local or not (not 100 % accurate). // BGR server layouts are not supported either, since it requires the raster // engine to work on a QImage with BGR layout. bool local = displayName.isEmpty() || displayName.lastIndexOf(QLatin1Char(':')) == 0; if (local && (qgetenv("QT_X11_NO_MITSHM").toInt() == 0)) { Visual *defaultVisual = DefaultVisual(X11->display, DefaultScreen(X11->display)); X11->use_mitshm = mitshm_pixmaps && (defaultVisual->red_mask == 0xff0000 && defaultVisual->green_mask == 0xff00 && defaultVisual->blue_mask == 0xff); } } #endif // QT_NO_MITSHM // initialize the graphics system - order is imporant here - it must be done before // the QColormap::initialize() call QApplicationPrivate::graphics_system = QGraphicsSystemFactory::create(QApplicationPrivate::graphics_system_name); QColormap::initialize(); // Support protocols X11->xdndSetup(); // Finally create all atoms qt_x11_create_intern_atoms(); // initialize NET lists qt_get_net_supported(); qt_get_net_virtual_roots(); #ifndef QT_NO_XRANDR // See if XRandR is supported on the connected display if (XQueryExtension(X11->display, "RANDR", &X11->xrandr_major, &X11->xrandr_eventbase, &X11->xrandr_errorbase)) { # ifdef QT_RUNTIME_XRANDR X11->ptrXRRSelectInput = 0; X11->ptrXRRUpdateConfiguration = 0; X11->ptrXRRRootToScreen = 0; X11->ptrXRRQueryExtension = 0; QLibrary xrandrLib(QLatin1String("Xrandr"), 2); if (!xrandrLib.load()) { // try without the version number xrandrLib.setFileName(QLatin1String("Xrandr")); xrandrLib.load(); } if (xrandrLib.isLoaded()) { X11->ptrXRRSelectInput = (PtrXRRSelectInput) xrandrLib.resolve("XRRSelectInput"); X11->ptrXRRUpdateConfiguration = (PtrXRRUpdateConfiguration) xrandrLib.resolve("XRRUpdateConfiguration"); X11->ptrXRRRootToScreen = (PtrXRRRootToScreen) xrandrLib.resolve("XRRRootToScreen"); X11->ptrXRRQueryExtension = (PtrXRRQueryExtension) xrandrLib.resolve("XRRQueryExtension"); } # else X11->ptrXRRSelectInput = XRRSelectInput; X11->ptrXRRUpdateConfiguration = XRRUpdateConfiguration; X11->ptrXRRRootToScreen = XRRRootToScreen; X11->ptrXRRQueryExtension = XRRQueryExtension; # endif if (X11->ptrXRRQueryExtension && X11->ptrXRRQueryExtension(X11->display, &X11->xrandr_eventbase, &X11->xrandr_errorbase)) { // XRandR is supported X11->use_xrandr = true; } } #endif // QT_NO_XRANDR #ifndef QT_NO_XRENDER if (X11->use_xrender) { // XRender is supported, let's see if we have a PictFormat for the // default visual XRenderPictFormat *format = XRenderFindVisualFormat(X11->display, (Visual *) QX11Info::appVisual(X11->defaultScreen)); if (!format) { X11->use_xrender = false; } } #endif // QT_NO_XRENDER #ifndef QT_NO_XFIXES // See if Xfixes is supported on the connected display if (XQueryExtension(X11->display, "XFIXES", &X11->xfixes_major, &X11->xfixes_eventbase, &X11->xfixes_errorbase)) { X11->ptrXFixesQueryExtension = XFIXES_LOAD_V1(XFixesQueryExtension); X11->ptrXFixesQueryVersion = XFIXES_LOAD_V1(XFixesQueryVersion); X11->ptrXFixesSetCursorName = XFIXES_LOAD_V2(XFixesSetCursorName); X11->ptrXFixesSelectSelectionInput = XFIXES_LOAD_V2(XFixesSelectSelectionInput); if(X11->ptrXFixesQueryExtension && X11->ptrXFixesQueryVersion && X11->ptrXFixesQueryExtension(X11->display, &X11->xfixes_eventbase, &X11->xfixes_errorbase)) { // Xfixes is supported. // Note: the XFixes protocol version is negotiated using QueryVersion. // We supply the highest version we support, the X server replies with // the highest version it supports, but no higher than the version we // asked for. The version sent back is the protocol version the X server // will use to talk us. If this call is removed, the behavior of the // X server when it receives an XFixes request is undefined. int major = 3; int minor = 0; X11->ptrXFixesQueryVersion(X11->display, &major, &minor); X11->use_xfixes = (major >= 1); X11->xfixes_major = major; } } #endif // QT_NO_XFIXES #ifndef QT_NO_XCURSOR #ifdef QT_RUNTIME_XCURSOR X11->ptrXcursorLibraryLoadCursor = 0; QLibrary xcursorLib(QLatin1String("Xcursor"), 1); bool xcursorFound = xcursorLib.load(); if (!xcursorFound) { //try without the version number xcursorLib.setFileName(QLatin1String("Xcursor")); xcursorFound = xcursorLib.load(); } if (xcursorFound) { X11->ptrXcursorLibraryLoadCursor = (PtrXcursorLibraryLoadCursor) xcursorLib.resolve("XcursorLibraryLoadCursor"); } #else X11->ptrXcursorLibraryLoadCursor = XcursorLibraryLoadCursor; #endif // QT_RUNTIME_XCURSOR #endif // QT_NO_XCURSOR #ifndef QT_NO_XSYNC int xsync_evbase, xsync_errbase; int major, minor; if (XSyncQueryExtension(X11->display, &xsync_evbase, &xsync_errbase)) XSyncInitialize(X11->display, &major, &minor); #endif // QT_NO_XSYNC #ifndef QT_NO_XINERAMA #ifdef QT_RUNTIME_XINERAMA X11->ptrXineramaQueryExtension = 0; X11->ptrXineramaIsActive = 0; X11->ptrXineramaQueryScreens = 0; QLibrary xineramaLib(QLatin1String("Xinerama"), 1); bool xineramaFound = xineramaLib.load(); if (!xineramaFound) { //try without the version number xineramaLib.setFileName(QLatin1String("Xinerama")); xineramaFound = xineramaLib.load(); } if (xineramaFound) { X11->ptrXineramaQueryExtension = (PtrXineramaQueryExtension) xineramaLib.resolve("XineramaQueryExtension"); X11->ptrXineramaIsActive = (PtrXineramaIsActive) xineramaLib.resolve("XineramaIsActive"); X11->ptrXineramaQueryScreens = (PtrXineramaQueryScreens) xineramaLib.resolve("XineramaQueryScreens"); } #else X11->ptrXineramaQueryScreens = XineramaQueryScreens; X11->ptrXineramaIsActive = XineramaIsActive; X11->ptrXineramaQueryExtension = XineramaQueryExtension; #endif // QT_RUNTIME_XINERAMA #endif // QT_NO_XINERAMA #ifndef QT_NO_XINPUT // See if Xinput is supported on the connected display X11->ptrXCloseDevice = 0; X11->ptrXListInputDevices = 0; X11->ptrXOpenDevice = 0; X11->ptrXFreeDeviceList = 0; X11->ptrXSelectExtensionEvent = 0; X11->use_xinput = XQueryExtension(X11->display, "XInputExtension", &X11->xinput_major, &X11->xinput_eventbase, &X11->xinput_errorbase); if (X11->use_xinput) { X11->ptrXCloseDevice = XINPUT_LOAD(XCloseDevice); X11->ptrXListInputDevices = XINPUT_LOAD(XListInputDevices); X11->ptrXOpenDevice = XINPUT_LOAD(XOpenDevice); X11->ptrXFreeDeviceList = XINPUT_LOAD(XFreeDeviceList); X11->ptrXSelectExtensionEvent = XINPUT_LOAD(XSelectExtensionEvent); } #endif // QT_NO_XINPUT #if !defined(QT_NO_FONTCONFIG) int dpi = 0; getXDefault("Xft", FC_DPI, &dpi); if (dpi) { for (int s = 0; s < ScreenCount(X11->display); ++s) { QX11Info::setAppDpiX(s, dpi); QX11Info::setAppDpiY(s, dpi); } } double fc_scale = 1.; getXDefault("Xft", FC_SCALE, &fc_scale); X11->fc_scale = fc_scale; for (int s = 0; s < ScreenCount(X11->display); ++s) { int subpixel = FC_RGBA_UNKNOWN; #if RENDER_MAJOR > 0 || RENDER_MINOR >= 6 if (X11->use_xrender) { int rsp = XRenderQuerySubpixelOrder(X11->display, s); switch (rsp) { default: case SubPixelUnknown: subpixel = FC_RGBA_UNKNOWN; break; case SubPixelHorizontalRGB: subpixel = FC_RGBA_RGB; break; case SubPixelHorizontalBGR: subpixel = FC_RGBA_BGR; break; case SubPixelVerticalRGB: subpixel = FC_RGBA_VRGB; break; case SubPixelVerticalBGR: subpixel = FC_RGBA_VBGR; break; case SubPixelNone: subpixel = FC_RGBA_NONE; break; } } #endif char *rgba = XGetDefault(X11->display, "Xft", FC_RGBA); if (rgba) { char *end = 0; int v = strtol(rgba, &end, 0); if (rgba != end) { subpixel = v; } else if (qstrncmp(rgba, "unknown", 7) == 0) { subpixel = FC_RGBA_UNKNOWN; } else if (qstrncmp(rgba, "rgb", 3) == 0) { subpixel = FC_RGBA_RGB; } else if (qstrncmp(rgba, "bgr", 3) == 0) { subpixel = FC_RGBA_BGR; } else if (qstrncmp(rgba, "vrgb", 4) == 0) { subpixel = FC_RGBA_VRGB; } else if (qstrncmp(rgba, "vbgr", 4) == 0) { subpixel = FC_RGBA_VBGR; } else if (qstrncmp(rgba, "none", 4) == 0) { subpixel = FC_RGBA_NONE; } } X11->screens[s].subpixel = subpixel; } getXDefault("Xft", FC_ANTIALIAS, &X11->fc_antialias); #ifdef FC_HINT_STYLE getXDefault("Xft", FC_HINT_STYLE, &X11->fc_hint_style); #endif #if 0 // ###### these are implemented by Xft, not sure we need them getXDefault("Xft", FC_AUTOHINT, &X11->fc_autohint); getXDefault("Xft", FC_HINTING, &X11->fc_autohint); getXDefault("Xft", FC_MINSPACE, &X11->fc_autohint); #endif #endif // QT_NO_XRENDER // initialize key mapper QKeyMapper::changeKeyboard(); #ifndef QT_NO_XKB if (qt_keymapper_private()->useXKB) { // If XKB is detected, set the GrabsUseXKBState option so input method // compositions continue to work (ie. deadkeys) unsigned int state = XkbPCF_GrabsUseXKBStateMask; (void) XkbSetPerClientControls(X11->display, state, &state); } #endif // QT_NO_XKB // Misc. initialization #if 0 //disabled for now.. QSegfaultHandler::initialize(priv->argv, priv->argc); #endif QCursorData::initialize(); } QFont::initialize(); if(qt_is_gui_used) { qApp->setObjectName(QString::fromLocal8Bit(appName)); int screen; for (screen = 0; screen < X11->screenCount; ++screen) { XSelectInput(X11->display, QX11Info::appRootWindow(screen), KeymapStateMask | EnterWindowMask | LeaveWindowMask | PropertyChangeMask); #ifndef QT_NO_XRANDR if (X11->use_xrandr) X11->ptrXRRSelectInput(X11->display, QX11Info::appRootWindow(screen), True); #endif // QT_NO_XRANDR } } if (qt_is_gui_used) { // Attempt to determine the current running X11 Desktop Enviornment // Use dbus if/when we can, but fall back to using windowManagerName() for now X11->compositingManagerRunning = XGetSelectionOwner(X11->display, ATOM(_NET_WM_CM_S0)); X11->desktopEnvironment = DE_UNKNOWN; X11->desktopVersion = 0; // See if the current window manager is using the freedesktop.org spec to give its name Window windowManagerWindow = XNone; Atom typeReturned; int formatReturned; unsigned long nitemsReturned; unsigned long unused; unsigned char *data = 0; if (XGetWindowProperty(QX11Info::display(), QX11Info::appRootWindow(), ATOM(_NET_SUPPORTING_WM_CHECK), 0, 1024, False, XA_WINDOW, &typeReturned, &formatReturned, &nitemsReturned, &unused, &data) == Success) { if (typeReturned == XA_WINDOW && formatReturned == 32) windowManagerWindow = *((Window*) data); if (data) XFree(data); if (windowManagerWindow != XNone) { QString wmName; Atom utf8atom = ATOM(UTF8_STRING); if (XGetWindowProperty(QX11Info::display(), windowManagerWindow, ATOM(_NET_WM_NAME), 0, 1024, False, utf8atom, &typeReturned, &formatReturned, &nitemsReturned, &unused, &data) == Success) { if (typeReturned == utf8atom && formatReturned == 8) wmName = QString::fromUtf8((const char*)data); if (data) XFree(data); if (wmName == QLatin1String("KWin")) X11->desktopEnvironment = DE_KDE; if (wmName == QLatin1String("Metacity")) X11->desktopEnvironment = DE_GNOME; } } } // Running a different/newer/older window manager? Try some other things if (X11->desktopEnvironment == DE_UNKNOWN){ Atom type; int format; unsigned long length, after; uchar *data = 0; if (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(DTWM_IS_RUNNING), 0, 1, False, AnyPropertyType, &type, &format, &length, &after, &data) == Success && length) { // DTWM is running, meaning most likely CDE is running... X11->desktopEnvironment = DE_CDE; } else if (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(GNOME_BACKGROUND_PROPERTIES), 0, 1, False, AnyPropertyType, &type, &format, &length, &after, &data) == Success && length) { X11->desktopEnvironment = DE_GNOME; } else if (!qgetenv("GNOME_DESKTOP_SESSION_ID").isEmpty()) { X11->desktopEnvironment = DE_GNOME; } else if ((XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(KDE_FULL_SESSION), 0, 1, False, AnyPropertyType, &type, &format, &length, &after, &data) == Success && length) || (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(KWIN_RUNNING), 0, 1, False, AnyPropertyType, &type, &format, &length, &after, &data) == Success && length) || (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(KWM_RUNNING), 0, 1, False, AnyPropertyType, &type, &format, &length, &after, &data) == Success && length)) { X11->desktopEnvironment = DE_KDE; } else if (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_SGI_DESKS_MANAGER), 0, 1, False, XA_WINDOW, &type, &format, &length, &after, &data) == Success && length) { X11->desktopEnvironment = DE_4DWM; } if (data) XFree((char *)data); } if (X11->desktopEnvironment == DE_KDE) X11->desktopVersion = QString::fromLocal8Bit(qgetenv("KDE_SESSION_VERSION")).toInt(); qt_set_input_encoding(); qt_set_x11_resources(appFont, appFGCol, appBGCol, appBTNCol); // be smart about the size of the default font. most X servers have helvetica // 12 point available at 2 resolutions: // 75dpi (12 pixels) and 100dpi (17 pixels). // At 95 DPI, a 12 point font should be 16 pixels tall - in which case a 17 // pixel font is a closer match than a 12 pixel font int ptsz = (X11->use_xrender ? 9 : (int) (((QX11Info::appDpiY() >= 95 ? 17. : 12.) * 72. / (float) QX11Info::appDpiY()) + 0.5)); if (!QApplicationPrivate::sys_font) { // no font from settings or RESOURCE_MANAGER, provide a fallback QFont f(X11->has_fontconfig ? QLatin1String("Sans Serif") : QLatin1String("Helvetica"), ptsz); QApplicationPrivate::setSystemFont(f); } #if !defined (QT_NO_TABLET) if (X11->use_xinput) { int ndev, i, j; bool gotStylus, gotEraser; XDeviceInfo *devices = 0, *devs; XInputClassInfo *ip; XAnyClassPtr any; XValuatorInfoPtr v; XAxisInfoPtr a; XDevice *dev = 0; if (X11->ptrXListInputDevices) { devices = X11->ptrXListInputDevices(X11->display, &ndev); if (!devices) qWarning("QApplication: Failed to get list of tablet devices"); } if (!devices) ndev = -1; QTabletEvent::TabletDevice deviceType; for (devs = devices, i = 0; i < ndev && devs; i++, devs++) { dev = 0; deviceType = QTabletEvent::NoDevice; gotStylus = false; gotEraser = false; #if defined(Q_OS_IRIX) QString devName = QString::fromLocal8Bit(devs->name).toLower(); if (devName == QLatin1String(WACOM_NAME)) { deviceType = QTabletEvent::Stylus; gotStylus = true; } #else if (devs->type == ATOM(XWacomStylus)) { deviceType = QTabletEvent::Stylus; if (wacomDeviceName()->isEmpty()) wacomDeviceName()->append(devs->name); gotStylus = true; } else if (devs->type == ATOM(XWacomEraser)) { deviceType = QTabletEvent::XFreeEraser; gotEraser = true; } #endif if (deviceType == QTabletEvent::NoDevice) continue; if (gotStylus || gotEraser) { if (X11->ptrXOpenDevice) dev = X11->ptrXOpenDevice(X11->display, devs->id); if (!dev) continue; QTabletDeviceData device_data; device_data.deviceType = deviceType; device_data.eventCount = 0; device_data.device = dev; device_data.xinput_motion = -1; device_data.xinput_key_press = -1; device_data.xinput_key_release = -1; device_data.xinput_button_press = -1; device_data.xinput_button_release = -1; device_data.xinput_proximity_in = -1; device_data.xinput_proximity_out = -1; device_data.widgetToGetPress = 0; if (dev->num_classes > 0) { for (ip = dev->classes, j = 0; j < dev->num_classes; ip++, j++) { switch (ip->input_class) { case KeyClass: DeviceKeyPress(dev, device_data.xinput_key_press, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; DeviceKeyRelease(dev, device_data.xinput_key_release, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; break; case ButtonClass: DeviceButtonPress(dev, device_data.xinput_button_press, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; DeviceButtonRelease(dev, device_data.xinput_button_release, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; break; case ValuatorClass: // I'm only going to be interested in motion when the // stylus is already down anyway! DeviceMotionNotify(dev, device_data.xinput_motion, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; ProximityIn(dev, device_data.xinput_proximity_in, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; ProximityOut(dev, device_data.xinput_proximity_out, device_data.eventList[device_data.eventCount]); if (device_data.eventList[device_data.eventCount]) ++device_data.eventCount; default: break; } } } // get the min/max value for pressure! any = (XAnyClassPtr) (devs->inputclassinfo); for (j = 0; j < devs->num_classes; j++) { if (any->c_class == ValuatorClass) { v = (XValuatorInfoPtr) any; a = (XAxisInfoPtr) ((char *) v + sizeof (XValuatorInfo)); #if defined (Q_OS_IRIX) // I'm not exaclty wild about this, but the // dimensions of the tablet are more relevant here // than the min and max values from the axis // (actually it seems to be 2/3 or what is in the // axis. So we'll try to parse it from this // string. --tws char returnString[SGIDeviceRtrnLen]; int tmp; if (XSGIMiscQueryExtension(X11->display, &tmp, &tmp) && XSGIDeviceQuery(X11->display, devs->id, "dimensions", returnString)) { QString str = QLatin1String(returnString); int comma = str.indexOf(','); device_data.minX = 0; device_data.minY = 0; device_data.maxX = str.left(comma).toInt(); device_data.maxY = str.mid(comma + 1).toInt(); } else { device_data.minX = a[WAC_XCOORD_I].min_value; device_data.maxX = a[WAC_XCOORD_I].max_value; device_data.minY = a[WAC_YCOORD_I].min_value; device_data.maxY = a[WAC_YCOORD_I].max_value; } device_data.minPressure = a[WAC_PRESSURE_I].min_value; device_data.maxPressure = a[WAC_PRESSURE_I].max_value; device_data.minTanPressure = a[WAC_TAN_PRESSURE_I].min_value; device_data.maxTanPressure = a[WAC_TAN_PRESSURE_I].max_value; device_data.minZ = a[WAC_ZCOORD_I].min_value; device_data.maxZ = a[WAC_ZCOORD_I].max_value; #else device_data.minX = a[0].min_value; device_data.maxX = a[0].max_value; device_data.minY = a[1].min_value; device_data.maxY = a[1].max_value; device_data.minPressure = a[2].min_value; device_data.maxPressure = a[2].max_value; device_data.minTanPressure = 0; device_data.maxTanPressure = 0; device_data.minZ = 0; device_data.maxZ = 0; #endif // got the max pressure no need to go further... break; } any = (XAnyClassPtr) ((char *) any + any->length); } // end of for loop tablet_devices()->append(device_data); } // if (gotStylus || gotEraser) } if (X11->ptrXFreeDeviceList) X11->ptrXFreeDeviceList(devices); } #endif // QT_NO_TABLET X11->startupId = getenv("DESKTOP_STARTUP_ID"); if (X11->startupId) { #ifndef QT_NO_UNSETENV unsetenv("DESKTOP_STARTUP_ID"); #else // it's a small memory leak, however we won't crash if Qt is // unloaded and someones tries to use the envoriment. putenv(strdup("DESKTOP_STARTUP_ID=")); #endif } } else { // read some non-GUI settings when not using the X server... if (QApplication::desktopSettingsAware()) { QSettings settings(QSettings::UserScope, QLatin1String("Trolltech")); settings.beginGroup(QLatin1String("Qt")); // read library (ie. plugin) path list QString libpathkey = QString::fromLatin1("%1.%2/libraryPath") .arg(QT_VERSION >> 16) .arg((QT_VERSION & 0xff00) >> 8); QStringList pathlist = settings.value(libpathkey).toString().split(QLatin1Char(':')); if (! pathlist.isEmpty()) { QStringList::ConstIterator it = pathlist.constBegin(); while (it != pathlist.constEnd()) QApplication::addLibraryPath(*it++); } QString defaultcodec = settings.value(QLatin1String("defaultCodec"), QVariant(QLatin1String("none"))).toString(); if (defaultcodec != QLatin1String("none")) { QTextCodec *codec = QTextCodec::codecForName(defaultcodec.toLatin1()); if (codec) QTextCodec::setCodecForTr(codec); } settings.endGroup(); // Qt } } #if !defined (Q_OS_IRIX) && !defined (QT_NO_TABLET) QLibrary wacom(QString::fromLatin1("wacomcfg"), 0); // version 0 is the latest release at time of writing this. if (wacom.load()) { // NOTE: C casts instead of reinterpret_cast for GCC 3.3.x ptrWacomConfigInit = (PtrWacomConfigInit)wacom.resolve("WacomConfigInit"); ptrWacomConfigOpenDevice = (PtrWacomConfigOpenDevice)wacom.resolve("WacomConfigOpenDevice"); ptrWacomConfigGetRawParam = (PtrWacomConfigGetRawParam)wacom.resolve("WacomConfigGetRawParam"); ptrWacomConfigCloseDevice = (PtrWacomConfigCloseDevice)wacom.resolve("WacomConfigCloseDevice"); ptrWacomConfigTerm = (PtrWacomConfigTerm)wacom.resolve("WacomConfigTerm"); if (ptrWacomConfigInit == 0 || ptrWacomConfigOpenDevice == 0 || ptrWacomConfigGetRawParam == 0 || ptrWacomConfigCloseDevice == 0 || ptrWacomConfigTerm == 0) { // either we have all, or we have none. ptrWacomConfigInit = 0; ptrWacomConfigOpenDevice = 0; ptrWacomConfigGetRawParam = 0; ptrWacomConfigCloseDevice = 0; ptrWacomConfigTerm = 0; } } #endif } // run-time search for default style /*! \internal */ QString QApplicationPrivate::x11_desktop_style() { QString stylename; switch(X11->desktopEnvironment) { case DE_KDE: stylename = QKde::kdeStyle(); break; case DE_GNOME: { QStringList availableStyles = QStyleFactory::keys(); // Set QGtkStyle for GNOME if available QString gtkStyleKey = QString::fromLatin1("GTK+"); if (availableStyles.contains(gtkStyleKey)) { stylename = gtkStyleKey; break; } if (X11->use_xrender) stylename = QLatin1String("cleanlooks"); else stylename = QLatin1String("windows"); break; } case DE_CDE: stylename = QLatin1String("cde"); break; default: // Don't do anything break; } return stylename; } void QApplicationPrivate::initializeWidgetPaletteHash() { } /***************************************************************************** qt_cleanup() - cleans up when the application is finished *****************************************************************************/ void qt_cleanup() { if (app_save_rootinfo) // root window must keep state qt_save_rootinfo(); if (qt_is_gui_used) { QPixmapCache::clear(); QCursorData::cleanup(); QFont::cleanup(); QColormap::cleanup(); #if !defined (QT_NO_TABLET) QTabletDeviceDataList *devices = qt_tablet_devices(); if (X11->ptrXCloseDevice) for (int i = 0; i < devices->size(); ++i) X11->ptrXCloseDevice(X11->display, (XDevice*)devices->at(i).device); devices->clear(); #endif } #ifndef QT_NO_XRENDER for (int i = 0; i < X11->solid_fill_count; ++i) { if (X11->solid_fills[i].picture) XRenderFreePicture(X11->display, X11->solid_fills[i].picture); } for (int i = 0; i < X11->pattern_fill_count; ++i) { if (X11->pattern_fills[i].picture) XRenderFreePicture(X11->display, X11->pattern_fills[i].picture); } #endif #if !defined(QT_NO_IM) delete QApplicationPrivate::inputContext; QApplicationPrivate::inputContext = 0; #endif // Reset the error handlers if (qt_is_gui_used) XSync(X11->display, False); // sync first to process all possible errors XSetErrorHandler(original_x_errhandler); XSetIOErrorHandler(original_xio_errhandler); if (X11->argbColormaps) { for (int s = 0; s < X11->screenCount; s++) { if (X11->argbColormaps[s]) XFreeColormap(X11->display, X11->argbColormaps[s]); } } if (qt_is_gui_used && !X11->foreignDisplay) XCloseDisplay(X11->display); // close X display X11->display = 0; delete [] X11->screens; delete [] X11->argbVisuals; delete [] X11->argbColormaps; if (X11->foreignDisplay) { delete [] (char *)appName; appName = 0; } delete [] (char *)appClass; appClass = 0; if (X11->net_supported_list) delete [] X11->net_supported_list; X11->net_supported_list = 0; if (X11->net_virtual_root_list) delete [] X11->net_virtual_root_list; X11->net_virtual_root_list = 0; delete X11; X11 = 0; } /***************************************************************************** Platform specific global and internal functions *****************************************************************************/ void qt_save_rootinfo() // save new root info { Atom type; int format; unsigned long length, after; uchar *data = 0; if (ATOM(_XSETROOT_ID)) { // kill old pixmap if (XGetWindowProperty(X11->display, QX11Info::appRootWindow(), ATOM(_XSETROOT_ID), 0, 1, True, AnyPropertyType, &type, &format, &length, &after, &data) == Success) { if (type == XA_PIXMAP && format == 32 && length == 1 && after == 0 && data) { XKillClient(X11->display, *((Pixmap*)data)); } Pixmap dummy = XCreatePixmap(X11->display, QX11Info::appRootWindow(), 1, 1, 1); XChangeProperty(X11->display, QX11Info::appRootWindow(), ATOM(_XSETROOT_ID), XA_PIXMAP, 32, PropModeReplace, (uchar *)&dummy, 1); XSetCloseDownMode(X11->display, RetainPermanent); } } if (data) XFree((char *)data); } void qt_updated_rootinfo() { app_save_rootinfo = true; } // ### Cleanup, this function is not in use! bool qt_wstate_iconified(WId winid) { Atom type; int format; unsigned long length, after; uchar *data = 0; int r = XGetWindowProperty(X11->display, winid, ATOM(WM_STATE), 0, 2, False, AnyPropertyType, &type, &format, &length, &after, &data); bool iconic = false; if (r == Success && data && format == 32) { // quint32 *wstate = (quint32*)data; unsigned long *wstate = (unsigned long *) data; iconic = (*wstate == IconicState); XFree((char *)data); } return iconic; } QString QApplicationPrivate::appName() const { return QString::fromLocal8Bit(QT_PREPEND_NAMESPACE(appName)); } const char *QX11Info::appClass() // get application class { return QT_PREPEND_NAMESPACE(appClass); } bool qt_nograb() // application no-grab option { #if defined(QT_DEBUG) return appNoGrab; #else return false; #endif } /***************************************************************************** Platform specific QApplication members *****************************************************************************/ #ifdef QT3_SUPPORT void QApplication::setMainWidget(QWidget *mainWidget) { #ifndef QT_NO_DEBUG if (mainWidget && mainWidget->parentWidget() && mainWidget->isWindow()) qWarning("QApplication::setMainWidget: New main widget (%s/%s) " "has a parent", mainWidget->metaObject()->className(), mainWidget->objectName().toLocal8Bit().constData()); #endif if (mainWidget) mainWidget->d_func()->createWinId(); QApplicationPrivate::main_widget = mainWidget; if (QApplicationPrivate::main_widget) // give WM command line QApplicationPrivate::applyX11SpecificCommandLineArguments(QApplicationPrivate::main_widget); } #endif void QApplicationPrivate::applyX11SpecificCommandLineArguments(QWidget *main_widget) { static bool beenHereDoneThat = false; if (beenHereDoneThat) return; beenHereDoneThat = true; Q_ASSERT(main_widget->testAttribute(Qt::WA_WState_Created)); if (mwTitle) { XStoreName(X11->display, main_widget->effectiveWinId(), (char*)mwTitle); QByteArray net_wm_name = QString::fromLocal8Bit(mwTitle).toUtf8(); XChangeProperty(X11->display, main_widget->effectiveWinId(), ATOM(_NET_WM_NAME), ATOM(UTF8_STRING), 8, PropModeReplace, (unsigned char *)net_wm_name.data(), net_wm_name.size()); } if (mwGeometry) { // parse geometry int x, y; int w, h; int m = XParseGeometry((char*)mwGeometry, &x, &y, (uint*)&w, (uint*)&h); QSize minSize = main_widget->minimumSize(); QSize maxSize = main_widget->maximumSize(); if ((m & XValue) == 0) x = main_widget->geometry().x(); if ((m & YValue) == 0) y = main_widget->geometry().y(); if ((m & WidthValue) == 0) w = main_widget->width(); if ((m & HeightValue) == 0) h = main_widget->height(); w = qMin(w,maxSize.width()); h = qMin(h,maxSize.height()); w = qMax(w,minSize.width()); h = qMax(h,minSize.height()); if ((m & XNegative)) { x = QApplication::desktop()->width() + x - w; } if ((m & YNegative)) { y = QApplication::desktop()->height() + y - h; } main_widget->setGeometry(x, y, w, h); } } #ifndef QT_NO_CURSOR /***************************************************************************** QApplication cursor stack *****************************************************************************/ extern void qt_x11_enforce_cursor(QWidget * w); void QApplication::setOverrideCursor(const QCursor &cursor) { qApp->d_func()->cursor_list.prepend(cursor); QWidgetList all = allWidgets(); for (QWidgetList::ConstIterator it = all.constBegin(); it != all.constEnd(); ++it) { register QWidget *w = *it; if ((w->testAttribute(Qt::WA_SetCursor) || w->isWindow()) && (w->windowType() != Qt::Desktop)) qt_x11_enforce_cursor(w); } XFlush(X11->display); // make X execute it NOW } void QApplication::restoreOverrideCursor() { if (qApp->d_func()->cursor_list.isEmpty()) return; qApp->d_func()->cursor_list.removeFirst(); if (QWidgetPrivate::mapper != 0 && !closingDown()) { QWidgetList all = allWidgets(); for (QWidgetList::ConstIterator it = all.constBegin(); it != all.constEnd(); ++it) { register QWidget *w = *it; if ((w->testAttribute(Qt::WA_SetCursor) || w->isWindow()) && (w->windowType() != Qt::Desktop)) qt_x11_enforce_cursor(w); } XFlush(X11->display); } } #endif /***************************************************************************** Routines to find a Qt widget from a screen position *****************************************************************************/ Window QX11Data::findClientWindow(Window win, Atom property, bool leaf) { Atom type = XNone; int format, i; ulong nitems, after; uchar *data = 0; Window root, parent, target=0, *children=0; uint nchildren; if (XGetWindowProperty(X11->display, win, property, 0, 0, false, AnyPropertyType, &type, &format, &nitems, &after, &data) == Success) { if (data) XFree((char *)data); if (type) return win; } if (!XQueryTree(X11->display,win,&root,&parent,&children,&nchildren)) { if (children) XFree((char *)children); return 0; } for (i=nchildren-1; !target && i >= 0; i--) target = X11->findClientWindow(children[i], property, leaf); if (children) XFree((char *)children); return target; } QWidget *QApplication::topLevelAt(const QPoint &p) { #ifdef QT_NO_CURSOR Q_UNUSED(p); return 0; #else int screen = QCursor::x11Screen(); int unused; int x = p.x(); int y = p.y(); Window target; if (!XTranslateCoordinates(X11->display, QX11Info::appRootWindow(screen), QX11Info::appRootWindow(screen), x, y, &unused, &unused, &target)) { return 0; } if (!target || target == QX11Info::appRootWindow(screen)) return 0; QWidget *w; w = QWidget::find((WId)target); if (!w) { X11->ignoreBadwindow(); target = X11->findClientWindow(target, ATOM(WM_STATE), true); if (X11->badwindow()) return 0; w = QWidget::find((WId)target); if (!w) { // Perhaps the widget at (x,y) is inside a foreign application? // Search all toplevel widgets to see if one is within target QWidgetList list = QApplication::topLevelWidgets(); for (int i = 0; i < list.count(); ++i) { QWidget *widget = list.at(i); Window ctarget = target; if (widget->isVisible() && !(widget->windowType() == Qt::Desktop)) { Q_ASSERT(widget->testAttribute(Qt::WA_WState_Created)); Window wid = widget->internalWinId(); while (ctarget && !w) { X11->ignoreBadwindow(); if (!XTranslateCoordinates(X11->display, QX11Info::appRootWindow(screen), ctarget, x, y, &unused, &unused, &ctarget) || X11->badwindow()) break; if (ctarget == wid) { // Found! w = widget; break; } } } if (w) break; } } } return w ? w->window() : 0; #endif } void QApplication::syncX() { if (X11->display) XSync(X11->display, False); // don't discard events } void QApplication::beep() { if (X11->display) XBell(X11->display, 0); else printf("\7"); } void QApplication::alert(QWidget *widget, int msec) { if (!QApplicationPrivate::checkInstance("alert")) return; QWidgetList windowsToMark; if (!widget) { windowsToMark += topLevelWidgets(); } else { windowsToMark.append(widget->window()); } for (int i = 0; i < windowsToMark.size(); ++i) { QWidget *window = windowsToMark.at(i); if (!window->isActiveWindow()) { qt_change_net_wm_state(window, true, ATOM(_NET_WM_STATE_DEMANDS_ATTENTION)); if (msec != 0) { QTimer *timer = new QTimer(qApp); timer->setSingleShot(true); connect(timer, SIGNAL(timeout()), qApp, SLOT(_q_alertTimeOut())); if (QTimer *oldTimer = qApp->d_func()->alertTimerHash.value(window)) { qApp->d_func()->alertTimerHash.remove(window); delete oldTimer; } qApp->d_func()->alertTimerHash.insert(window, timer); timer->start(msec); } } } } void QApplicationPrivate::_q_alertTimeOut() { if (QTimer *timer = qobject_cast(q_func()->sender())) { QHash::iterator it = alertTimerHash.begin(); while (it != alertTimerHash.end()) { if (it.value() == timer) { QWidget *window = it.key(); qt_change_net_wm_state(window, false, ATOM(_NET_WM_STATE_DEMANDS_ATTENTION)); alertTimerHash.erase(it); timer->deleteLater(); break; } ++it; } } } /***************************************************************************** Special lookup functions for windows that have been reparented recently *****************************************************************************/ static QWidgetMapper *wPRmapper = 0; // alternative widget mapper void qPRCreate(const QWidget *widget, Window oldwin) { // QWidget::reparent mechanism if (!wPRmapper) wPRmapper = new QWidgetMapper; QETWidget *w = static_cast(const_cast(widget)); wPRmapper->insert((int)oldwin, w); // add old window to mapper w->setAttribute(Qt::WA_WState_Reparented); // set reparented flag } void qPRCleanup(QWidget *widget) { QETWidget *etw = static_cast(const_cast(widget)); if (!(wPRmapper && widget->testAttribute(Qt::WA_WState_Reparented))) return; // not a reparented widget QWidgetMapper::Iterator it = wPRmapper->begin(); while (it != wPRmapper->constEnd()) { QWidget *w = *it; if (w == etw) { // found widget etw->setAttribute(Qt::WA_WState_Reparented, false); // clear flag it = wPRmapper->erase(it);// old window no longer needed } else { ++it; } } if (wPRmapper->size() == 0) { // became empty delete wPRmapper; // then reset alt mapper wPRmapper = 0; } } static QETWidget *qPRFindWidget(Window oldwin) { return wPRmapper ? (QETWidget*)wPRmapper->value((int)oldwin, 0) : 0; } int QApplication::x11ClientMessage(QWidget* w, XEvent* event, bool passive_only) { if (w && !w->internalWinId()) return 0; QETWidget *widget = (QETWidget*)w; if (event->xclient.format == 32 && event->xclient.message_type) { if (event->xclient.message_type == ATOM(WM_PROTOCOLS)) { Atom a = event->xclient.data.l[0]; if (a == ATOM(WM_DELETE_WINDOW)) { if (passive_only) return 0; widget->translateCloseEvent(event); } else if (a == ATOM(WM_TAKE_FOCUS)) { if ((ulong) event->xclient.data.l[1] > X11->time) X11->time = event->xclient.data.l[1]; QWidget *amw = activeModalWidget(); if (amw && !QApplicationPrivate::tryModalHelper(widget, 0)) { QWidget *p = amw->parentWidget(); while (p && p != widget) p = p->parentWidget(); if (!p || !X11->net_supported_list) amw->raise(); // help broken window managers amw->activateWindow(); } #ifndef QT_NO_WHATSTHIS } else if (a == ATOM(_NET_WM_CONTEXT_HELP)) { QWhatsThis::enterWhatsThisMode(); #endif // QT_NO_WHATSTHIS } else if (a == ATOM(_NET_WM_PING)) { // avoid send/reply loops Window root = RootWindow(X11->display, w->x11Info().screen()); if (event->xclient.window != root) { event->xclient.window = root; XSendEvent(event->xclient.display, event->xclient.window, False, SubstructureNotifyMask|SubstructureRedirectMask, event); } #ifndef QT_NO_XSYNC } else if (a == ATOM(_NET_WM_SYNC_REQUEST)) { const ulong timestamp = (const ulong) event->xclient.data.l[1]; if (timestamp > X11->time) X11->time = timestamp; if (QTLWExtra *tlw = w->d_func()->maybeTopData()) { if (timestamp == CurrentTime || timestamp > tlw->syncRequestTimestamp) { tlw->syncRequestTimestamp = timestamp; tlw->newCounterValueLo = event->xclient.data.l[2]; tlw->newCounterValueHi = event->xclient.data.l[3]; } } #endif } } else if (event->xclient.message_type == ATOM(_QT_SCROLL_DONE)) { widget->translateScrollDoneEvent(event); } else if (event->xclient.message_type == ATOM(XdndPosition)) { X11->xdndHandlePosition(widget, event, passive_only); } else if (event->xclient.message_type == ATOM(XdndEnter)) { X11->xdndHandleEnter(widget, event, passive_only); } else if (event->xclient.message_type == ATOM(XdndStatus)) { X11->xdndHandleStatus(widget, event, passive_only); } else if (event->xclient.message_type == ATOM(XdndLeave)) { X11->xdndHandleLeave(widget, event, passive_only); } else if (event->xclient.message_type == ATOM(XdndDrop)) { X11->xdndHandleDrop(widget, event, passive_only); } else if (event->xclient.message_type == ATOM(XdndFinished)) { X11->xdndHandleFinished(widget, event, passive_only); } else { if (passive_only) return 0; // All other are interactions } } else { X11->motifdndHandle(widget, event, passive_only); } return 0; } int QApplication::x11ProcessEvent(XEvent* event) { Q_D(QApplication); QScopedLoopLevelCounter loopLevelCounter(d->threadData); #ifdef ALIEN_DEBUG //qDebug() << "QApplication::x11ProcessEvent:" << event->type; #endif switch (event->type) { case ButtonPress: pressed_window = event->xbutton.window; X11->userTime = event->xbutton.time; // fallthrough intended case ButtonRelease: X11->time = event->xbutton.time; break; case MotionNotify: X11->time = event->xmotion.time; break; case XKeyPress: X11->userTime = event->xkey.time; // fallthrough intended case XKeyRelease: X11->time = event->xkey.time; break; case PropertyNotify: X11->time = event->xproperty.time; break; case EnterNotify: case LeaveNotify: X11->time = event->xcrossing.time; break; case SelectionClear: X11->time = event->xselectionclear.time; break; default: break; } #ifndef QT_NO_XFIXES if (X11->use_xfixes && event->type == (X11->xfixes_eventbase + XFixesSelectionNotify)) { XFixesSelectionNotifyEvent *req = reinterpret_cast(event); X11->time = req->selection_timestamp; } #endif QETWidget *widget = (QETWidget*)QWidget::find((WId)event->xany.window); if (wPRmapper) { // just did a widget reparent? if (widget == 0) { // not in std widget mapper switch (event->type) { // only for mouse/key events case ButtonPress: case ButtonRelease: case MotionNotify: case XKeyPress: case XKeyRelease: widget = qPRFindWidget(event->xany.window); break; } } else if (widget->testAttribute(Qt::WA_WState_Reparented)) qPRCleanup(widget); // remove from alt mapper } QETWidget *keywidget=0; bool grabbed=false; if (event->type==XKeyPress || event->type==XKeyRelease) { keywidget = (QETWidget*)QWidget::keyboardGrabber(); if (keywidget) { grabbed = true; } else if (!keywidget) { if (d->inPopupMode()) // no focus widget, see if we have a popup keywidget = (QETWidget*) (activePopupWidget()->focusWidget() ? activePopupWidget()->focusWidget() : activePopupWidget()); else if (QApplicationPrivate::focus_widget) keywidget = (QETWidget*)QApplicationPrivate::focus_widget; else if (widget) keywidget = (QETWidget*)widget->window(); } } #ifndef QT_NO_IM // Filtering input events by the input context. It has to be taken // place before any other key event consumers such as eventfilters // and accelerators because some input methods require quite // various key combination and sequences. It often conflicts with // accelerators and so on, so we must give the input context the // filtering opportunity first to ensure all input methods work // properly regardless of application design. if(keywidget && keywidget->isEnabled() && keywidget->testAttribute(Qt::WA_InputMethodEnabled)) { // block user interaction during session management if((event->type==XKeyPress || event->type==XKeyRelease) && qt_sm_blockUserInput) return true; // for XIM handling QInputContext *qic = keywidget->inputContext(); if(qic && qic->x11FilterEvent(keywidget, event)) return true; // filterEvent() accepts QEvent *event rather than preexpanded // key event attribute values. This is intended to pass other // QInputEvent in future. Other non IM-related events should // not be forwarded to input contexts to prevent weird event // handling. if ((event->type == XKeyPress || event->type == XKeyRelease)) { int code = -1; int count = 0; Qt::KeyboardModifiers modifiers; QEvent::Type type; QString text; KeySym keySym; qt_keymapper_private()->translateKeyEventInternal(keywidget, event, keySym, count, text, modifiers, code, type, false); // both key press/release is required for some complex // input methods. don't eliminate anything. QKeyEventEx keyevent(type, code, modifiers, text, false, qMax(qMax(count, 1), text.length()), event->xkey.keycode, keySym, event->xkey.state); if(qic && qic->filterEvent(&keyevent)) return true; } } else #endif // QT_NO_IM { if (XFilterEvent(event, XNone)) return true; } if (qt_x11EventFilter(event)) // send through app filter return 1; if (event->type == MappingNotify) { // keyboard mapping changed XRefreshKeyboardMapping(&event->xmapping); QKeyMapper::changeKeyboard(); return 0; } if (!widget) { // don't know this windows QWidget* popup = QApplication::activePopupWidget(); if (popup) { /* That is more than suboptimal. The real solution should do some keyevent and buttonevent translation, so that the popup still continues to work as the user expects. Unfortunately this translation is currently only possible with a known widget. I'll change that soon (Matthias). */ // Danger - make sure we don't lock the server switch (event->type) { case ButtonPress: case ButtonRelease: case XKeyPress: case XKeyRelease: do { popup->close(); } while ((popup = qApp->activePopupWidget())); return 1; } } return -1; } if (event->type == XKeyPress || event->type == XKeyRelease) widget = keywidget; // send XKeyEvents through keywidget->x11Event() if (app_do_modal) // modal event handling if (!qt_try_modal(widget, event)) { if (event->type == ClientMessage && !widget->x11Event(event)) x11ClientMessage(widget, event, true); return 1; } if (widget->x11Event(event)) // send through widget filter return 1; #if !defined (QT_NO_TABLET) if (!qt_xdnd_dragging) { QTabletDeviceDataList *tablets = qt_tablet_devices(); for (int i = 0; i < tablets->size(); ++i) { QTabletDeviceData &tab = tablets->operator [](i); if (event->type == tab.xinput_motion || event->type == tab.xinput_button_release || event->type == tab.xinput_button_press || event->type == tab.xinput_proximity_in || event->type == tab.xinput_proximity_out) { widget->translateXinputEvent(event, &tab); return 0; } } } #endif #ifndef QT_NO_XRANDR if (X11->use_xrandr && event->type == (X11->xrandr_eventbase + RRScreenChangeNotify)) { // update Xlib internals with the latest screen configuration X11->ptrXRRUpdateConfiguration(event); // update the size for desktop widget int scr = X11->ptrXRRRootToScreen(X11->display, event->xany.window); QDesktopWidget *desktop = QApplication::desktop(); QWidget *w = desktop->screen(scr); QSize oldSize(w->size()); w->data->crect.setWidth(DisplayWidth(X11->display, scr)); w->data->crect.setHeight(DisplayHeight(X11->display, scr)); QResizeEvent e(w->size(), oldSize); QApplication::sendEvent(w, &e); if (w != desktop) QApplication::sendEvent(desktop, &e); } #endif // QT_NO_XRANDR #ifndef QT_NO_XFIXES if (X11->use_xfixes && event->type == (X11->xfixes_eventbase + XFixesSelectionNotify)) { XFixesSelectionNotifyEvent *req = reinterpret_cast(event); // compress all XFixes events related to this selection // we don't want to handle old SelectionNotify events. qt_xfixes_selection_event_data xfixes_event; xfixes_event.selection = req->selection; for (XEvent ev;;) { if (!XCheckIfEvent(X11->display, &ev, &qt_xfixes_scanner, (XPointer)&xfixes_event)) break; } if (req->selection == ATOM(CLIPBOARD)) { if (qt_xfixes_clipboard_changed(req->owner, req->selection_timestamp)) { emit clipboard()->changed(QClipboard::Clipboard); emit clipboard()->dataChanged(); } } else if (req->selection == XA_PRIMARY) { if (qt_xfixes_selection_changed(req->owner, req->selection_timestamp)) { emit clipboard()->changed(QClipboard::Selection); emit clipboard()->selectionChanged(); } } } #endif // QT_NO_XFIXES switch (event->type) { case ButtonRelease: // mouse event if (!d->inPopupMode() && !QWidget::mouseGrabber() && pressed_window != widget->internalWinId() && (widget = (QETWidget*) QWidget::find((WId)pressed_window)) == 0) break; // fall through intended case ButtonPress: if (event->xbutton.root != RootWindow(X11->display, widget->x11Info().screen()) && ! qt_xdnd_dragging) { while (activePopupWidget()) activePopupWidget()->close(); return 1; } if (event->type == ButtonPress) qt_net_update_user_time(widget->window(), X11->userTime); // fall through intended case MotionNotify: #if !defined(QT_NO_TABLET) if (!qt_tabletChokeMouse) { #endif if (widget->testAttribute(Qt::WA_TransparentForMouseEvents)) { QPoint pos(event->xbutton.x, event->xbutton.y); pos = widget->d_func()->mapFromWS(pos); QWidget *window = widget->window(); pos = widget->mapTo(window, pos); if (QWidget *child = window->childAt(pos)) { widget = static_cast(child); pos = child->mapFrom(window, pos); event->xbutton.x = pos.x(); event->xbutton.y = pos.y(); } } widget->translateMouseEvent(event); #if !defined(QT_NO_TABLET) } else { qt_tabletChokeMouse = false; } #endif break; case XKeyPress: // keyboard event qt_net_update_user_time(widget->window(), X11->userTime); // fallthrough intended case XKeyRelease: { if (keywidget && keywidget->isEnabled()) { // should always exist // qDebug("sending key event"); qt_keymapper_private()->translateKeyEvent(keywidget, event, grabbed); } break; } case GraphicsExpose: case Expose: // paint event widget->translatePaintEvent(event); break; case ConfigureNotify: // window move/resize event if (event->xconfigure.event == event->xconfigure.window) widget->translateConfigEvent(event); break; case XFocusIn: { // got focus if ((widget->windowType() == Qt::Desktop)) break; if (d->inPopupMode()) // some delayed focus event to ignore break; if (!widget->isWindow()) break; if (event->xfocus.detail != NotifyAncestor && event->xfocus.detail != NotifyInferior && event->xfocus.detail != NotifyNonlinear) break; setActiveWindow(widget); if (X11->focus_model == QX11Data::FM_PointerRoot) { // We got real input focus from somewhere, but we were in PointerRoot // mode, so we don't trust this event. Check the focus model to make // sure we know what focus mode we are using... qt_check_focus_model(); } } break; case XFocusOut: // lost focus if ((widget->windowType() == Qt::Desktop)) break; if (!widget->isWindow()) break; if (event->xfocus.mode == NotifyGrab) { qt_xfocusout_grab_counter++; break; } if (event->xfocus.detail != NotifyAncestor && event->xfocus.detail != NotifyNonlinearVirtual && event->xfocus.detail != NotifyNonlinear) break; if (!d->inPopupMode() && widget == QApplicationPrivate::active_window) { XEvent ev; bool focus_will_change = false; if (XCheckTypedEvent(X11->display, XFocusIn, &ev)) { // we're about to get an XFocusIn, if we know we will // get a new active window, we don't want to set the // active window to 0 now QWidget *w2 = QWidget::find(ev.xany.window); if (w2 && w2->windowType() != Qt::Desktop && !d->inPopupMode() // some delayed focus event to ignore && w2->isWindow() && (ev.xfocus.detail == NotifyAncestor || ev.xfocus.detail == NotifyInferior || ev.xfocus.detail == NotifyNonlinear)) focus_will_change = true; XPutBackEvent(X11->display, &ev); } if (!focus_will_change) setActiveWindow(0); } break; case EnterNotify: { // enter window if (QWidget::mouseGrabber() && (!d->inPopupMode() || widget->window() != activePopupWidget())) break; if ((event->xcrossing.mode != NotifyNormal && event->xcrossing.mode != NotifyUngrab) || event->xcrossing.detail == NotifyVirtual || event->xcrossing.detail == NotifyNonlinearVirtual) break; if (event->xcrossing.focus && !(widget->windowType() == Qt::Desktop) && !widget->isActiveWindow()) { if (X11->focus_model == QX11Data::FM_Unknown) // check focus model qt_check_focus_model(); if (X11->focus_model == QX11Data::FM_PointerRoot) // PointerRoot mode setActiveWindow(widget); } if (qt_button_down && !d->inPopupMode()) break; QWidget *alien = widget->childAt(widget->d_func()->mapFromWS(QPoint(event->xcrossing.x, event->xcrossing.y))); QWidget *enter = alien ? alien : widget; QWidget *leave = 0; if (qt_last_mouse_receiver && !qt_last_mouse_receiver->internalWinId()) leave = qt_last_mouse_receiver; else leave = QWidget::find(curWin); // ### Alien: enter/leave might be wrong here with overlapping siblings // if the enter widget is native and stacked under a non-native widget. QApplicationPrivate::dispatchEnterLeave(enter, leave); curWin = widget->internalWinId(); qt_last_mouse_receiver = enter; if (!d->inPopupMode() || widget->window() == activePopupWidget()) widget->translateMouseEvent(event); //we don't get MotionNotify, emulate it } break; case LeaveNotify: { // leave window QWidget *mouseGrabber = QWidget::mouseGrabber(); if (mouseGrabber && !d->inPopupMode()) break; if (curWin && widget->internalWinId() != curWin) break; if ((event->xcrossing.mode != NotifyNormal && event->xcrossing.mode != NotifyUngrab) || event->xcrossing.detail == NotifyInferior) break; if (!(widget->windowType() == Qt::Desktop)) widget->translateMouseEvent(event); //we don't get MotionNotify, emulate it QWidget* enter = 0; QPoint enterPoint; XEvent ev; while (XCheckMaskEvent(X11->display, EnterWindowMask | LeaveWindowMask , &ev) && !qt_x11EventFilter(&ev)) { QWidget* event_widget = QWidget::find(ev.xcrossing.window); if(event_widget && event_widget->x11Event(&ev)) break; if (ev.type == LeaveNotify || (ev.xcrossing.mode != NotifyNormal && ev.xcrossing.mode != NotifyUngrab) || ev.xcrossing.detail == NotifyVirtual || ev.xcrossing.detail == NotifyNonlinearVirtual) continue; enter = event_widget; if (enter) enterPoint = enter->d_func()->mapFromWS(QPoint(ev.xcrossing.x, ev.xcrossing.y)); if (ev.xcrossing.focus && enter && !(enter->windowType() == Qt::Desktop) && !enter->isActiveWindow()) { if (X11->focus_model == QX11Data::FM_Unknown) // check focus model qt_check_focus_model(); if (X11->focus_model == QX11Data::FM_PointerRoot) // PointerRoot mode setActiveWindow(enter); } break; } if ((! enter || (enter->windowType() == Qt::Desktop)) && event->xcrossing.focus && widget == QApplicationPrivate::active_window && X11->focus_model == QX11Data::FM_PointerRoot // PointerRoot mode ) { setActiveWindow(0); } if (qt_button_down && !d->inPopupMode()) break; if (!curWin) QApplicationPrivate::dispatchEnterLeave(widget, 0); if (enter) { QWidget *alienEnter = enter->childAt(enterPoint); if (alienEnter) enter = alienEnter; } QWidget *leave = qt_last_mouse_receiver ? qt_last_mouse_receiver : widget; QWidget *activePopupWidget = qApp->activePopupWidget(); if (mouseGrabber && activePopupWidget && leave == activePopupWidget) enter = mouseGrabber; else if (enter != widget && mouseGrabber) { if (!widget->rect().contains(widget->d_func()->mapFromWS(QPoint(event->xcrossing.x, event->xcrossing.y)))) break; } QApplicationPrivate::dispatchEnterLeave(enter, leave); qt_last_mouse_receiver = enter; if (enter && QApplicationPrivate::tryModalHelper(enter, 0)) { QWidget *nativeEnter = enter->internalWinId() ? enter : enter->nativeParentWidget(); curWin = nativeEnter->internalWinId(); static_cast(nativeEnter)->translateMouseEvent(&ev); //we don't get MotionNotify, emulate it } else { curWin = 0; qt_last_mouse_receiver = 0; } } break; case UnmapNotify: // window hidden if (widget->isWindow()) { Q_ASSERT(widget->testAttribute(Qt::WA_WState_Created)); widget->d_func()->topData()->waitingForMapNotify = 0; if (widget->windowType() != Qt::Popup && !widget->testAttribute(Qt::WA_DontShowOnScreen)) { widget->setAttribute(Qt::WA_Mapped, false); if (widget->isVisible()) { widget->d_func()->topData()->spont_unmapped = 1; QHideEvent e; QApplication::sendSpontaneousEvent(widget, &e); widget->d_func()->hideChildren(true); } } if (!widget->d_func()->topData()->validWMState && X11->deferred_map.removeAll(widget)) widget->doDeferredMap(); } break; case MapNotify: // window shown if (widget->isWindow()) { widget->d_func()->topData()->waitingForMapNotify = 0; if (widget->windowType() != Qt::Popup) { widget->setAttribute(Qt::WA_Mapped); if (widget->d_func()->topData()->spont_unmapped) { widget->d_func()->topData()->spont_unmapped = 0; widget->d_func()->showChildren(true); QShowEvent e; QApplication::sendSpontaneousEvent(widget, &e); // show() must have been called on this widget in // order to reach this point, but we could have // cleared these 2 attributes in case something // previously forced us into WithdrawnState // (e.g. kdocker) widget->setAttribute(Qt::WA_WState_ExplicitShowHide, true); widget->setAttribute(Qt::WA_WState_Visible, true); } } } break; case ClientMessage: // client message return x11ClientMessage(widget,event,False); case ReparentNotify: { // window manager reparents // compress old reparent events to self XEvent ev; while (XCheckTypedWindowEvent(X11->display, widget->effectiveWinId(), ReparentNotify, &ev)) { if (ev.xreparent.window != ev.xreparent.event) { XPutBackEvent(X11->display, &ev); break; } } if (widget->isWindow()) { QTLWExtra *topData = widget->d_func()->topData(); // store the parent. Useful for many things, embedding for instance. topData->parentWinId = event->xreparent.parent; // the widget frame strut should also be invalidated widget->data->fstrut_dirty = 1; // work around broken window managers... if we get a // ReparentNotify before the MapNotify, we assume that // we're being managed by a reparenting window // manager. // // however, the WM_STATE property may not have been set // yet, but we are going to assume that it will // be... otherwise we could try to map again after getting // an UnmapNotify... which could then, in turn, trigger a // race in the window manager which causes the window to // disappear when it really should be hidden. if (topData->waitingForMapNotify && !topData->validWMState) { topData->waitingForMapNotify = 0; topData->validWMState = 1; } if (X11->focus_model != QX11Data::FM_Unknown) { // toplevel reparented... QWidget *newparent = QWidget::find(event->xreparent.parent); if (! newparent || (newparent->windowType() == Qt::Desktop)) { // we dont' know about the new parent (or we've been // reparented to root), perhaps a window manager // has been (re)started? reset the focus model to unknown X11->focus_model = QX11Data::FM_Unknown; } } } break; } case SelectionRequest: { XSelectionRequestEvent *req = &event->xselectionrequest; if (! req) break; if (ATOM(XdndSelection) && req->selection == ATOM(XdndSelection)) { X11->xdndHandleSelectionRequest(req); } else if (qt_clipboard) { QClipboardEvent e(reinterpret_cast(event)); QApplication::sendSpontaneousEvent(qt_clipboard, &e); } break; } case SelectionClear: { XSelectionClearEvent *req = &event->xselectionclear; // don't deliver dnd events to the clipboard, it gets confused if (! req || (ATOM(XdndSelection) && req->selection == ATOM(XdndSelection))) break; if (qt_clipboard && !X11->use_xfixes) { QClipboardEvent e(reinterpret_cast(event)); QApplication::sendSpontaneousEvent(qt_clipboard, &e); } break; } case SelectionNotify: { XSelectionEvent *req = &event->xselection; // don't deliver dnd events to the clipboard, it gets confused if (! req || (ATOM(XdndSelection) && req->selection == ATOM(XdndSelection))) break; if (qt_clipboard) { QClipboardEvent e(reinterpret_cast(event)); QApplication::sendSpontaneousEvent(qt_clipboard, &e); } break; } case PropertyNotify: // some properties changed if (event->xproperty.window == QX11Info::appRootWindow(0)) { // root properties for the first screen if (!X11->use_xfixes && event->xproperty.atom == ATOM(_QT_CLIPBOARD_SENTINEL)) { if (qt_check_clipboard_sentinel()) { emit clipboard()->changed(QClipboard::Clipboard); emit clipboard()->dataChanged(); } } else if (!X11->use_xfixes && event->xproperty.atom == ATOM(_QT_SELECTION_SENTINEL)) { if (qt_check_selection_sentinel()) { emit clipboard()->changed(QClipboard::Selection); emit clipboard()->selectionChanged(); } } else if (QApplicationPrivate::obey_desktop_settings) { if (event->xproperty.atom == ATOM(RESOURCE_MANAGER)) qt_set_x11_resources(); else if (event->xproperty.atom == ATOM(_QT_SETTINGS_TIMESTAMP)) qt_set_x11_resources(); } } if (event->xproperty.window == QX11Info::appRootWindow()) { // root properties for the default screen if (event->xproperty.atom == ATOM(_QT_INPUT_ENCODING)) { qt_set_input_encoding(); } else if (event->xproperty.atom == ATOM(_NET_SUPPORTED)) { qt_get_net_supported(); } else if (event->xproperty.atom == ATOM(_NET_VIRTUAL_ROOTS)) { qt_get_net_virtual_roots(); } else if (event->xproperty.atom == ATOM(_NET_WORKAREA)) { qt_desktopwidget_update_workarea(); } } else if (widget) { widget->translatePropertyEvent(event); } else { return -1; // don't know this window } break; default: break; } return 0; } bool QApplication::x11EventFilter(XEvent *) { return false; } /***************************************************************************** Modal widgets; Since Xlib has little support for this we roll our own modal widget mechanism. A modal widget without a parent becomes application-modal. A modal widget with a parent becomes modal to its parent and grandparents.. QApplicationPrivate::enterModal() Enters modal state Arguments: QWidget *widget A modal widget QApplicationPrivate::leaveModal() Leaves modal state for a widget Arguments: QWidget *widget A modal widget *****************************************************************************/ bool QApplicationPrivate::modalState() { return app_do_modal; } void QApplicationPrivate::enterModal_sys(QWidget *widget) { if (!qt_modal_stack) qt_modal_stack = new QWidgetList; QWidget *leave = qt_last_mouse_receiver; if (!leave) leave = QWidget::find((WId)curWin); QApplicationPrivate::dispatchEnterLeave(0, leave); qt_modal_stack->insert(0, widget); app_do_modal = true; curWin = 0; qt_last_mouse_receiver = 0; } void QApplicationPrivate::leaveModal_sys(QWidget *widget) { if (qt_modal_stack && qt_modal_stack->removeAll(widget)) { if (qt_modal_stack->isEmpty()) { delete qt_modal_stack; qt_modal_stack = 0; QPoint p(QCursor::pos()); QWidget* w = QApplication::widgetAt(p.x(), p.y()); QWidget *leave = qt_last_mouse_receiver; if (!leave) leave = QWidget::find((WId)curWin); if (QWidget *grabber = QWidget::mouseGrabber()) { w = grabber; if (leave == w) leave = 0; } QApplicationPrivate::dispatchEnterLeave(w, leave); // send synthetic enter event curWin = w ? w->effectiveWinId() : 0; qt_last_mouse_receiver = w; } } app_do_modal = qt_modal_stack != 0; } bool qt_try_modal(QWidget *widget, XEvent *event) { if (qt_xdnd_dragging) { // allow mouse events while DnD is active switch (event->type) { case ButtonPress: case ButtonRelease: case MotionNotify: return true; default: break; } } // allow mouse release events to be sent to widgets that have been pressed if (event->type == ButtonRelease) { QWidget *alienWidget = widget->childAt(widget->mapFromGlobal(QPoint(event->xbutton.x_root, event->xbutton.y_root))); if (widget == qt_button_down || (alienWidget && alienWidget == qt_button_down)) return true; } if (QApplicationPrivate::tryModalHelper(widget)) return true; // disallow mouse/key events switch (event->type) { case ButtonPress: case ButtonRelease: case MotionNotify: case XKeyPress: case XKeyRelease: case EnterNotify: case LeaveNotify: case ClientMessage: return false; default: break; } return true; } /***************************************************************************** Popup widget mechanism openPopup() Adds a widget to the list of popup widgets Arguments: QWidget *widget The popup widget to be added closePopup() Removes a widget from the list of popup widgets Arguments: QWidget *widget The popup widget to be removed *****************************************************************************/ static int openPopupCount = 0; void QApplicationPrivate::openPopup(QWidget *popup) { Q_Q(QApplication); openPopupCount++; if (!QApplicationPrivate::popupWidgets) { // create list QApplicationPrivate::popupWidgets = new QWidgetList; } QApplicationPrivate::popupWidgets->append(popup); // add to end of list Display *dpy = X11->display; if (QApplicationPrivate::popupWidgets->count() == 1 && !qt_nograb()){ // grab mouse/keyboard Q_ASSERT(popup->testAttribute(Qt::WA_WState_Created)); int r = XGrabKeyboard(dpy, popup->effectiveWinId(), false, GrabModeAsync, GrabModeAsync, X11->time); if ((popupGrabOk = (r == GrabSuccess))) { r = XGrabPointer(dpy, popup->effectiveWinId(), true, (ButtonPressMask | ButtonReleaseMask | ButtonMotionMask | EnterWindowMask | LeaveWindowMask | PointerMotionMask), GrabModeAsync, GrabModeAsync, XNone, XNone, X11->time); if (!(popupGrabOk = (r == GrabSuccess))) { // transfer grab back to the keyboard grabber if any if (QWidgetPrivate::keyboardGrabber != 0) QWidgetPrivate::keyboardGrabber->grabKeyboard(); else XUngrabKeyboard(dpy, X11->time); } } } // popups are not focus-handled by the window system (the first // popup grabbed the keyboard), so we have to do that manually: A // new popup gets the focus if (popup->focusWidget()) { popup->focusWidget()->setFocus(Qt::PopupFocusReason); } else if (QApplicationPrivate::popupWidgets->count() == 1) { // this was the first popup if (QWidget *fw = QApplication::focusWidget()) { QFocusEvent e(QEvent::FocusOut, Qt::PopupFocusReason); q->sendEvent(fw, &e); } } } void QApplicationPrivate::closePopup(QWidget *popup) { Q_Q(QApplication); if (!QApplicationPrivate::popupWidgets) return; QApplicationPrivate::popupWidgets->removeAll(popup); if (popup == qt_popup_down) { qt_button_down = 0; qt_popup_down = 0; } if (QApplicationPrivate::popupWidgets->count() == 0) { // this was the last popup delete QApplicationPrivate::popupWidgets; QApplicationPrivate::popupWidgets = 0; if (!qt_nograb() && popupGrabOk) { // grabbing not disabled Display *dpy = X11->display; if (popup->geometry().contains(QPoint(mouseGlobalXPos, mouseGlobalYPos)) || popup->testAttribute(Qt::WA_NoMouseReplay)) { // mouse release event or inside replayPopupMouseEvent = false; } else { // mouse press event mouseButtonPressTime -= 10000; // avoid double click replayPopupMouseEvent = true; } // transfer grab back to mouse grabber if any, otherwise release the grab if (QWidgetPrivate::mouseGrabber != 0) QWidgetPrivate::mouseGrabber->grabMouse(); else XUngrabPointer(dpy, X11->time); // transfer grab back to keyboard grabber if any, otherwise release the grab if (QWidgetPrivate::keyboardGrabber != 0) QWidgetPrivate::keyboardGrabber->grabKeyboard(); else XUngrabKeyboard(dpy, X11->time); XFlush(dpy); } if (QApplicationPrivate::active_window) { if (QWidget *fw = QApplicationPrivate::active_window->focusWidget()) { if (fw != QApplication::focusWidget()) { fw->setFocus(Qt::PopupFocusReason); } else { QFocusEvent e(QEvent::FocusIn, Qt::PopupFocusReason); q->sendEvent(fw, &e); } } } } else { // popups are not focus-handled by the window system (the // first popup grabbed the keyboard), so we have to do that // manually: A popup was closed, so the previous popup gets // the focus. QWidget* aw = QApplicationPrivate::popupWidgets->last(); if (QWidget *fw = aw->focusWidget()) fw->setFocus(Qt::PopupFocusReason); // regrab the keyboard and mouse in case 'popup' lost the grab if (QApplicationPrivate::popupWidgets->count() == 1 && !qt_nograb()){ // grab mouse/keyboard Display *dpy = X11->display; Q_ASSERT(aw->testAttribute(Qt::WA_WState_Created)); int r = XGrabKeyboard(dpy, aw->effectiveWinId(), false, GrabModeAsync, GrabModeAsync, X11->time); if ((popupGrabOk = (r == GrabSuccess))) { r = XGrabPointer(dpy, aw->effectiveWinId(), true, (ButtonPressMask | ButtonReleaseMask | ButtonMotionMask | EnterWindowMask | LeaveWindowMask | PointerMotionMask), GrabModeAsync, GrabModeAsync, XNone, XNone, X11->time); if (!(popupGrabOk = (r == GrabSuccess))) { // transfer grab back to keyboard grabber if (QWidgetPrivate::keyboardGrabber != 0) QWidgetPrivate::keyboardGrabber->grabKeyboard(); else XUngrabKeyboard(dpy, X11->time); } } } } } /***************************************************************************** Event translation; translates X11 events to Qt events *****************************************************************************/ // // Mouse event translation // // Xlib doesn't give mouse double click events, so we generate them by // comparing window, time and position between two mouse press events. // static Qt::MouseButtons translateMouseButtons(int s) { Qt::MouseButtons ret = 0; if (s & Button1Mask) ret |= Qt::LeftButton; if (s & Button2Mask) ret |= Qt::MidButton; if (s & Button3Mask) ret |= Qt::RightButton; return ret; } Qt::KeyboardModifiers QX11Data::translateModifiers(int s) { Qt::KeyboardModifiers ret = 0; if (s & ShiftMask) ret |= Qt::ShiftModifier; if (s & ControlMask) ret |= Qt::ControlModifier; if (s & qt_alt_mask) ret |= Qt::AltModifier; if (s & qt_meta_mask) ret |= Qt::MetaModifier; if (s & qt_mode_switch_mask) ret |= Qt::GroupSwitchModifier; return ret; } bool QETWidget::translateMouseEvent(const XEvent *event) { if (!isWindow() && testAttribute(Qt::WA_NativeWindow)) Q_ASSERT(internalWinId()); Q_D(QWidget); QEvent::Type type; // event parameters QPoint pos; QPoint globalPos; Qt::MouseButton button = Qt::NoButton; Qt::MouseButtons buttons; Qt::KeyboardModifiers modifiers; XEvent nextEvent; if (qt_sm_blockUserInput) // block user interaction during session management return true; if (event->type == MotionNotify) { // mouse move if (event->xmotion.root != RootWindow(X11->display, x11Info().screen()) && ! qt_xdnd_dragging) return false; XMotionEvent lastMotion = event->xmotion; while(XPending(X11->display)) { // compress mouse moves XNextEvent(X11->display, &nextEvent); if (nextEvent.type == ConfigureNotify || nextEvent.type == PropertyNotify || nextEvent.type == Expose || nextEvent.type == GraphicsExpose || nextEvent.type == NoExpose || nextEvent.type == KeymapNotify || ((nextEvent.type == EnterNotify || nextEvent.type == LeaveNotify) && qt_button_down == this) || (nextEvent.type == ClientMessage && (nextEvent.xclient.message_type == ATOM(_QT_SCROLL_DONE) || (nextEvent.xclient.message_type == ATOM(WM_PROTOCOLS) && (Atom)nextEvent.xclient.data.l[0] == ATOM(_NET_WM_SYNC_REQUEST))))) { qApp->x11ProcessEvent(&nextEvent); continue; } else if (nextEvent.type != MotionNotify || nextEvent.xmotion.window != event->xmotion.window || nextEvent.xmotion.state != event->xmotion.state) { XPutBackEvent(X11->display, &nextEvent); break; } if (!qt_x11EventFilter(&nextEvent) && !x11Event(&nextEvent)) // send event through filter lastMotion = nextEvent.xmotion; else break; } type = QEvent::MouseMove; pos.rx() = lastMotion.x; pos.ry() = lastMotion.y; pos = d->mapFromWS(pos); globalPos.rx() = lastMotion.x_root; globalPos.ry() = lastMotion.y_root; buttons = translateMouseButtons(lastMotion.state); modifiers = X11->translateModifiers(lastMotion.state); if (qt_button_down && !buttons) qt_button_down = 0; } else if (event->type == EnterNotify || event->type == LeaveNotify) { XEvent *xevent = (XEvent *)event; //unsigned int xstate = event->xcrossing.state; type = QEvent::MouseMove; pos.rx() = xevent->xcrossing.x; pos.ry() = xevent->xcrossing.y; pos = d->mapFromWS(pos); globalPos.rx() = xevent->xcrossing.x_root; globalPos.ry() = xevent->xcrossing.y_root; buttons = translateMouseButtons(xevent->xcrossing.state); modifiers = X11->translateModifiers(xevent->xcrossing.state); if (qt_button_down && !buttons) qt_button_down = 0; if (qt_button_down) return true; } else { // button press or release pos.rx() = event->xbutton.x; pos.ry() = event->xbutton.y; pos = d->mapFromWS(pos); globalPos.rx() = event->xbutton.x_root; globalPos.ry() = event->xbutton.y_root; buttons = translateMouseButtons(event->xbutton.state); modifiers = X11->translateModifiers(event->xbutton.state); switch (event->xbutton.button) { case Button1: button = Qt::LeftButton; break; case Button2: button = Qt::MidButton; break; case Button3: button = Qt::RightButton; break; case Button4: case Button5: case 6: case 7: // the fancy mouse wheel. // We are only interested in ButtonPress. if (event->type == ButtonPress){ // compress wheel events (the X Server will simply // send a button press for each single notch, // regardless whether the application can catch up // or not) int delta = 1; XEvent xevent; while (XCheckTypedWindowEvent(X11->display, effectiveWinId(), ButtonPress, &xevent)){ if (xevent.xbutton.button != event->xbutton.button){ XPutBackEvent(X11->display, &xevent); break; } delta++; } // the delta is defined as multiples of // WHEEL_DELTA, which is set to 120. Future wheels // may offer a finer-resolution. A positive delta // indicates forward rotation, a negative one // backward rotation respectively. int btn = event->xbutton.button; delta *= 120 * ((btn == Button4 || btn == 6) ? 1 : -1); bool hor = (((btn == Button4 || btn == Button5) && (modifiers & Qt::AltModifier)) || (btn == 6 || btn == 7)); translateWheelEvent(globalPos.x(), globalPos.y(), delta, buttons, modifiers, (hor) ? Qt::Horizontal: Qt::Vertical); } return true; case 8: button = Qt::XButton1; break; case 9: button = Qt::XButton2; break; } if (event->type == ButtonPress) { // mouse button pressed buttons |= button; #if defined(Q_OS_IRIX) && !defined(QT_NO_TABLET) QTabletDeviceDataList *tablets = qt_tablet_devices(); for (int i = 0; i < tablets->size(); ++i) { QTabletDeviceData &tab = tablets->operator[](i); XEvent myEv; if (XCheckTypedEvent(X11->display, tab.xinput_button_press, &myEv)) { if (translateXinputEvent(&myEv, &tab)) { //Spontaneous event sent. Check if we need to continue. if (qt_tabletChokeMouse) { qt_tabletChokeMouse = false; return false; } } } } #endif if (!qt_button_down) { qt_button_down = childAt(pos); //magic for masked widgets if (!qt_button_down) qt_button_down = this; } if (mouseActWindow == event->xbutton.window && mouseButtonPressed == button && (long)event->xbutton.time -(long)mouseButtonPressTime < QApplication::doubleClickInterval() && qAbs(event->xbutton.x - mouseXPos) < 5 && qAbs(event->xbutton.y - mouseYPos) < 5) { type = QEvent::MouseButtonDblClick; mouseButtonPressTime -= 2000; // no double-click next time } else { type = QEvent::MouseButtonPress; mouseButtonPressTime = event->xbutton.time; } mouseButtonPressed = button; // save event params for mouseXPos = event->xbutton.x; // future double click tests mouseYPos = event->xbutton.y; mouseGlobalXPos = globalPos.x(); mouseGlobalYPos = globalPos.y(); } else { // mouse button released buttons &= ~button; #if defined(Q_OS_IRIX) && !defined(QT_NO_TABLET) QTabletDeviceDataList *tablets = qt_tablet_devices(); for (int i = 0; i < tablets->size(); ++i) { QTabletDeviceData &tab = tablets->operator[](i); XEvent myEv; if (XCheckTypedEvent(X11->display, tab.xinput_button_press, &myEv)) { if (translateXinputEvent(&myEv, &tab)) { //Spontaneous event sent. Check if we need to continue. if (qt_tabletChokeMouse) { qt_tabletChokeMouse = false; return false; } } } } #endif type = QEvent::MouseButtonRelease; } } mouseActWindow = effectiveWinId(); // save some event params mouseButtonState = buttons; if (type == 0) // don't send event return false; if (qApp->d_func()->inPopupMode()) { // in popup mode QWidget *activePopupWidget = qApp->activePopupWidget(); QWidget *popup = qApp->activePopupWidget(); if (popup != this) { if (event->type == LeaveNotify) return false; if ((windowType() == Qt::Popup) && rect().contains(pos) && 0) popup = this; else // send to last popup pos = popup->mapFromGlobal(globalPos); } bool releaseAfter = false; QWidget *popupChild = popup->childAt(pos); if (popup != qt_popup_down){ qt_button_down = 0; qt_popup_down = 0; } switch (type) { case QEvent::MouseButtonPress: case QEvent::MouseButtonDblClick: qt_button_down = popupChild; qt_popup_down = popup; break; case QEvent::MouseButtonRelease: releaseAfter = true; break; default: break; // nothing for mouse move } int oldOpenPopupCount = openPopupCount; if (popup->isEnabled()) { // deliver event replayPopupMouseEvent = false; QWidget *receiver = popup; QPoint widgetPos = pos; if (qt_button_down) receiver = qt_button_down; else if (popupChild) receiver = popupChild; if (receiver != popup) widgetPos = receiver->mapFromGlobal(globalPos); QWidget *alien = childAt(mapFromGlobal(globalPos)); QMouseEvent e(type, widgetPos, globalPos, button, buttons, modifiers); QApplicationPrivate::sendMouseEvent(receiver, &e, alien, this, &qt_button_down, qt_last_mouse_receiver); } else { // close disabled popups when a mouse button is pressed or released switch (type) { case QEvent::MouseButtonPress: case QEvent::MouseButtonDblClick: case QEvent::MouseButtonRelease: popup->close(); break; default: break; } } if (qApp->activePopupWidget() != activePopupWidget && replayPopupMouseEvent) { // the active popup was closed, replay the mouse event if (!(windowType() == Qt::Popup)) { #if 1 qt_button_down = 0; #else if (buttons == button) qt_button_down = this; QMouseEvent e(type, mapFromGlobal(globalPos), globalPos, button, buttons, modifiers); QApplication::sendSpontaneousEvent(this, &e); if (type == QEvent::MouseButtonPress && button == Qt::RightButton && (openPopupCount == oldOpenPopupCount)) { QContextMenuEvent e(QContextMenuEvent::Mouse, mapFromGlobal(globalPos), globalPos, modifiers); QApplication::sendSpontaneousEvent(this, &e); } #endif } replayPopupMouseEvent = false; } else if (type == QEvent::MouseButtonPress && button == Qt::RightButton && (openPopupCount == oldOpenPopupCount)) { QWidget *popupEvent = popup; if (qt_button_down) popupEvent = qt_button_down; else if(popupChild) popupEvent = popupChild; QContextMenuEvent e(QContextMenuEvent::Mouse, pos, globalPos, modifiers); QApplication::sendSpontaneousEvent(popupEvent, &e); } if (releaseAfter) { qt_button_down = 0; qt_popup_down = 0; } } else { QWidget *alienWidget = childAt(pos); QWidget *widget = QApplicationPrivate::pickMouseReceiver(this, globalPos, pos, type, buttons, qt_button_down, alienWidget); if (!widget) { if (type == QEvent::MouseButtonRelease) QApplicationPrivate::mouse_buttons &= ~button; return false; // don't send event } int oldOpenPopupCount = openPopupCount; QMouseEvent e(type, pos, globalPos, button, buttons, modifiers); QApplicationPrivate::sendMouseEvent(widget, &e, alienWidget, this, &qt_button_down, qt_last_mouse_receiver); if (type == QEvent::MouseButtonPress && button == Qt::RightButton && (openPopupCount == oldOpenPopupCount)) { QContextMenuEvent e(QContextMenuEvent::Mouse, pos, globalPos, modifiers); QApplication::sendSpontaneousEvent(widget, &e); } } return true; } // // Wheel event translation // bool QETWidget::translateWheelEvent(int global_x, int global_y, int delta, Qt::MouseButtons buttons, Qt::KeyboardModifiers modifiers, Qt::Orientation orient) { const QPoint globalPos = QPoint(global_x, global_y); QPoint pos = mapFromGlobal(globalPos); QWidget *widget = childAt(pos); if (!widget) widget = this; else if (!widget->internalWinId()) pos = widget->mapFromGlobal(globalPos); #ifdef ALIEN_DEBUG qDebug() << "QETWidget::translateWheelEvent: receiver:" << widget << "pos:" << pos; #endif // send the event to the widget or its ancestors { QWidget* popup = qApp->activePopupWidget(); if (popup && window() != popup) popup->close(); QWheelEvent e(pos, globalPos, delta, buttons, modifiers, orient); if (QApplication::sendSpontaneousEvent(widget, &e)) return true; } // send the event to the widget that has the focus or its ancestors, if different if (widget != qApp->focusWidget() && (widget = qApp->focusWidget())) { if (widget && !widget->internalWinId()) pos = widget->mapFromGlobal(globalPos); QWidget* popup = qApp->activePopupWidget(); if (popup && widget != popup) popup->hide(); QWheelEvent e(pos, globalPos, delta, buttons, modifiers, orient); if (QApplication::sendSpontaneousEvent(widget, &e)) return true; } return false; } // // XInput Translation Event // #if !defined (QT_NO_TABLET) #if !defined (Q_OS_IRIX) void fetchWacomToolId(int &deviceType, qint64 &serialId) { if (ptrWacomConfigInit == 0) // we actually have the lib return; WACOMCONFIG *config = ptrWacomConfigInit(X11->display, 0); if (config == 0) return; WACOMDEVICE *device = ptrWacomConfigOpenDevice (config, wacomDeviceName()->constData()); if (device == 0) return; unsigned keys[1]; int serialInt; ptrWacomConfigGetRawParam (device, XWACOM_PARAM_TOOLSERIAL, &serialInt, 1, keys); serialId = serialInt; int toolId; ptrWacomConfigGetRawParam (device, XWACOM_PARAM_TOOLID, &toolId, 1, keys); switch(toolId) { case 0x007: /* Mouse 4D and 2D */ case 0x017: /* Intuos3 2D Mouse */ case 0x094: case 0x09c: deviceType = QTabletEvent::FourDMouse; break; case 0x096: /* Lens cursor */ case 0x097: /* Intuos3 Lens cursor */ deviceType = QTabletEvent::Puck; break; case 0x0fa: case 0x81b: /* Intuos3 Classic Pen Eraser */ case 0x82a: /* Eraser */ case 0x82b: /* Intuos3 Grip Pen Eraser */ case 0x85a: case 0x91a: case 0x91b: /* Intuos3 Airbrush Eraser */ case 0xd1a: deviceType = QTabletEvent::XFreeEraser; break; case 0x112: case 0x912: case 0x913: /* Intuos3 Airbrush */ case 0xd12: deviceType = QTabletEvent::Airbrush; break; case 0x012: case 0x022: case 0x032: case 0x801: /* Intuos3 Inking pen */ case 0x812: /* Inking pen */ case 0x813: /* Intuos3 Classic Pen */ case 0x822: /* Pen */ case 0x823: /* Intuos3 Grip Pen */ case 0x832: /* Stroke pen */ case 0x842: case 0x852: case 0x885: /* Intuos3 Marker Pen */ default: /* Unknown tool */ deviceType = QTabletEvent::Stylus; } /* Close device and return */ ptrWacomConfigCloseDevice (device); ptrWacomConfigTerm(config); } #endif struct qt_tablet_motion_data { Time timestamp; int tabletMotionType; bool error; // found a reason to stop searching }; static Bool qt_mouseMotion_scanner(Display *, XEvent *event, XPointer arg) { qt_tablet_motion_data *data = (qt_tablet_motion_data *) arg; if (data->error) return false; if (event->type == MotionNotify) return true; data->error = event->type != data->tabletMotionType; // we stop compression when another event gets in between. return false; } static Bool qt_tabletMotion_scanner(Display *, XEvent *event, XPointer arg) { qt_tablet_motion_data *data = (qt_tablet_motion_data *) arg; if (data->error) return false; if (event->type == data->tabletMotionType) { if (data->timestamp > 0) { if ((reinterpret_cast(event))->time > data->timestamp) { data->error = true; return false; } } return true; } data->error = event->type != MotionNotify; // we stop compression when another event gets in between. return false; } bool QETWidget::translateXinputEvent(const XEvent *ev, QTabletDeviceData *tablet) { #if defined (Q_OS_IRIX) // Wacom has put defines in their wacom.h file so it would be quite wise // to use them, need to think of a decent way of not using // it when it doesn't exist... XDeviceState *s; XInputClass *iClass; XValuatorState *vs; int j; #endif Q_ASSERT(tablet != 0); QWidget *w = this; QPoint global, curr; QPointF hiRes; qreal pressure = 0; int xTilt = 0, yTilt = 0, z = 0; qreal tangentialPressure = 0; qreal rotation = 0; int deviceType = QTabletEvent::NoDevice; int pointerType = QTabletEvent::UnknownPointer; XEvent mouseMotionEvent; const XDeviceMotionEvent *motion = 0; XDeviceButtonEvent *button = 0; const XProximityNotifyEvent *proximity = 0; QEvent::Type t; Qt::KeyboardModifiers modifiers = 0; bool reinsertMouseEvent = false; XEvent mouseMotionEventSave; #if !defined (Q_OS_IRIX) XID device_id; #endif if (ev->type == tablet->xinput_motion) { motion = reinterpret_cast(ev); // Do event compression. Skip over tablet+mouse move events if there are newer ones. qt_tablet_motion_data tabletMotionData; tabletMotionData.tabletMotionType = tablet->xinput_motion; while (true) { // Find first mouse event since we expect them in pairs inside Qt tabletMotionData.error =false; tabletMotionData.timestamp = 0; if (XCheckIfEvent(X11->display, &mouseMotionEvent, &qt_mouseMotion_scanner, (XPointer) &tabletMotionData)) { mouseMotionEventSave = mouseMotionEvent; reinsertMouseEvent = true; } else { break; } // Now discard any duplicate tablet events. XEvent dummy; tabletMotionData.error = false; tabletMotionData.timestamp = mouseMotionEvent.xmotion.time; while (XCheckIfEvent(X11->display, &dummy, &qt_tabletMotion_scanner, (XPointer) &tabletMotionData)) { motion = reinterpret_cast(&dummy); } // now check if there are more recent tablet motion events since we'll compress the current one with // newer ones in that case tabletMotionData.error = false; tabletMotionData.timestamp = 0; if (! XCheckIfEvent(X11->display, &dummy, &qt_tabletMotion_scanner, (XPointer) &tabletMotionData)) { break; // done with compression } motion = reinterpret_cast(&dummy); } if (reinsertMouseEvent) { XPutBackEvent(X11->display, &mouseMotionEventSave); } t = QEvent::TabletMove; global = QPoint(motion->x_root, motion->y_root); curr = QPoint(motion->x, motion->y); #if !defined (Q_OS_IRIX) device_id = motion->deviceid; #endif } else if (ev->type == tablet->xinput_button_press || ev->type == tablet->xinput_button_release) { if (ev->type == tablet->xinput_button_press) { t = QEvent::TabletPress; } else { t = QEvent::TabletRelease; } button = (XDeviceButtonEvent*)ev; global = QPoint(button->x_root, button->y_root); curr = QPoint(button->x, button->y); #if !defined (Q_OS_IRIX) device_id = button->deviceid; #endif } else { // Proximity if (ev->type == tablet->xinput_proximity_in) t = QEvent::TabletEnterProximity; else t = QEvent::TabletLeaveProximity; proximity = (const XProximityNotifyEvent*)ev; #if !defined (Q_OS_IRIX) device_id = proximity->deviceid; #endif } qint64 uid = 0; #if defined (Q_OS_IRIX) QRect screenArea = qApp->desktop()->screenGeometry(this); s = XQueryDeviceState(X11->display, static_cast(tablet->device)); if (!s) return false; iClass = s->data; for (j = 0; j < s->num_classes; j++) { if (iClass->c_class == ValuatorClass) { vs = reinterpret_cast(iClass); // figure out what device we have, based on bitmasking... if (vs->valuators[WAC_TRANSDUCER_I] & WAC_TRANSDUCER_PROX_MSK) { switch (vs->valuators[WAC_TRANSDUCER_I] & WAC_TRANSDUCER_MSK) { case WAC_PUCK_ID: pointerType = QTabletEvent::Puck; break; case WAC_STYLUS_ID: pointerType = QTabletEvent::Pen; break; case WAC_ERASER_ID: pointerType = QTabletEvent::Eraser; break; } // Get a Unique Id for the device, Wacom gives us this ability uid = vs->valuators[WAC_TRANSDUCER_I] & WAC_TRANSDUCER_ID_MSK; uid = (uid << 24) | vs->valuators[WAC_SERIAL_NUM_I]; switch (WAC_TRANSDUCER_I & 0x0F0600) { case 0x080200: deviceType = QTabletEvent::Stylus; break; case 0x090200: deviceType = QTabletEvent::Airbrush; break; case 0x000400: deviceType = QTabletEvent::FourDMouse; break; case 0x000600: deviceType = QTabletEvent::Puck; break; case 0x080400: deviceType = QTabletEvent::RotationStylus; break; } } else { pointerType = QTabletEvent::UnknownPointer; deviceType = QTabletEvent::NoDevice; uid = 0; } if (!proximity) { // apparently Wacom needs a cast for the +/- values to make sense xTilt = short(vs->valuators[WAC_XTILT_I]); yTilt = short(vs->valuators[WAC_YTILT_I]); pressure = vs->valuators[WAC_PRESSURE_I]; if (deviceType == QTabletEvent::FourDMouse || deviceType == QTabletEvent::RotationStylus) { rotation = vs->valuators[WAC_ROTATION_I] / 64.0; if (deviceType == QTabletEvent::FourDMouse) z = vs->valuators[WAC_ZCOORD_I]; } else if (deviceType == QTabletEvent::Airbrush) { tangentialPressure = vs->valuators[WAC_TAN_PRESSURE_I] / qreal(tablet->maxTanPressure - tablet->minTanPressure); } hiRes = tablet->scaleCoord(vs->valuators[WAC_XCOORD_I], vs->valuators[WAC_YCOORD_I], screenArea.x(), screenArea.width(), screenArea.y(), screenArea.height()); } break; } iClass = reinterpret_cast(reinterpret_cast(iClass) + iClass->length); } XFreeDeviceState(s); #else QTabletDeviceDataList *tablet_list = qt_tablet_devices(); for (int i = 0; i < tablet_list->size(); ++i) { const QTabletDeviceData &t = tablet_list->at(i); if (device_id == static_cast(t.device)->device_id) { deviceType = t.deviceType; if (t.deviceType == QTabletEvent::XFreeEraser) { deviceType = QTabletEvent::Stylus; pointerType = QTabletEvent::Eraser; } else if (t.deviceType == QTabletEvent::Stylus) { pointerType = QTabletEvent::Pen; } break; } } fetchWacomToolId(deviceType, uid); QRect screenArea = qApp->desktop()->rect(); if (motion) { xTilt = (short) motion->axis_data[3]; yTilt = (short) motion->axis_data[4]; rotation = ((short) motion->axis_data[5]) / 64.0; pressure = (short) motion->axis_data[2]; modifiers = X11->translateModifiers(motion->state); hiRes = tablet->scaleCoord(motion->axis_data[0], motion->axis_data[1], screenArea.x(), screenArea.width(), screenArea.y(), screenArea.height()); } else if (button) { xTilt = (short) button->axis_data[3]; yTilt = (short) button->axis_data[4]; rotation = ((short) button->axis_data[5]) / 64.0; pressure = (short) button->axis_data[2]; modifiers = X11->translateModifiers(button->state); hiRes = tablet->scaleCoord(button->axis_data[0], button->axis_data[1], screenArea.x(), screenArea.width(), screenArea.y(), screenArea.height()); } else if (proximity) { pressure = 0; modifiers = 0; } if (deviceType == QTabletEvent::Airbrush) { tangentialPressure = rotation; rotation = 0.; } #endif QWidget *child = w->childAt(curr); if (child) { w = child; curr = w->mapFromGlobal(global); } if (t == QEvent::TabletPress) { tablet->widgetToGetPress = w; } else if (t == QEvent::TabletRelease && tablet->widgetToGetPress) { w = tablet->widgetToGetPress; curr = w->mapFromGlobal(global); tablet->widgetToGetPress = 0; } QTabletEvent e(t, curr, global, hiRes, deviceType, pointerType, qreal(pressure / qreal(tablet->maxPressure - tablet->minPressure)), xTilt, yTilt, tangentialPressure, rotation, z, modifiers, uid); if (proximity) QApplication::sendSpontaneousEvent(qApp, &e); else QApplication::sendSpontaneousEvent(w, &e); return true; } #endif bool QETWidget::translatePropertyEvent(const XEvent *event) { Q_D(QWidget); if (!isWindow()) return true; Atom ret; int format, e; unsigned char *data = 0; unsigned long nitems, after; if (event->xproperty.atom == ATOM(_KDE_NET_WM_FRAME_STRUT)) { this->data->fstrut_dirty = 1; if (event->xproperty.state == PropertyNewValue) { e = XGetWindowProperty(X11->display, event->xproperty.window, ATOM(_KDE_NET_WM_FRAME_STRUT), 0, 4, // struts are 4 longs False, XA_CARDINAL, &ret, &format, &nitems, &after, &data); if (e == Success && ret == XA_CARDINAL && format == 32 && nitems == 4) { long *strut = (long *) data; d->topData()->frameStrut.setCoords(strut[0], strut[2], strut[1], strut[3]); this->data->fstrut_dirty = 0; } } } else if (event->xproperty.atom == ATOM(_NET_WM_STATE)) { bool max = false; bool full = false; Qt::WindowStates oldState = Qt::WindowStates(this->data->window_state); if (event->xproperty.state == PropertyNewValue) { // using length of 1024 should be safe for all current and // possible NET states... e = XGetWindowProperty(X11->display, event->xproperty.window, ATOM(_NET_WM_STATE), 0, 1024, False, XA_ATOM, &ret, &format, &nitems, &after, &data); if (e == Success && ret == XA_ATOM && format == 32 && nitems > 0) { Atom *states = (Atom *) data; unsigned long i; uint maximized = 0; for (i = 0; i < nitems; i++) { if (states[i] == ATOM(_NET_WM_STATE_MAXIMIZED_VERT)) maximized |= 1; else if (states[i] == ATOM(_NET_WM_STATE_MAXIMIZED_HORZ)) maximized |= 2; else if (states[i] == ATOM(_NET_WM_STATE_FULLSCREEN)) full = true; } if (maximized == 3) { // only set maximized if both horizontal and vertical properties are set max = true; } } } bool send_event = false; if (X11->isSupportedByWM(ATOM(_NET_WM_STATE_MAXIMIZED_VERT)) && X11->isSupportedByWM(ATOM(_NET_WM_STATE_MAXIMIZED_HORZ))) { if (max && !isMaximized()) { this->data->window_state = this->data->window_state | Qt::WindowMaximized; send_event = true; } else if (!max && isMaximized()) { this->data->window_state &= ~Qt::WindowMaximized; send_event = true; } } if (X11->isSupportedByWM(ATOM(_NET_WM_STATE_FULLSCREEN))) { if (full && !isFullScreen()) { this->data->window_state = this->data->window_state | Qt::WindowFullScreen; send_event = true; } else if (!full && isFullScreen()) { this->data->window_state &= ~Qt::WindowFullScreen; send_event = true; } } if (send_event) { QWindowStateChangeEvent e(oldState); QApplication::sendSpontaneousEvent(this, &e); } } else if (event->xproperty.atom == ATOM(WM_STATE)) { // the widget frame strut should also be invalidated this->data->fstrut_dirty = 1; if (event->xproperty.state == PropertyDelete) { // the window manager has removed the WM State property, // so it is now in the withdrawn state (ICCCM 4.1.3.1) and // we are free to reuse this window d->topData()->parentWinId = 0; d->topData()->validWMState = 0; // map the window if we were waiting for a transition to // withdrawn if (X11->deferred_map.removeAll(this)) { doDeferredMap(); } else if (isVisible() && !testAttribute(Qt::WA_Mapped) && !testAttribute(Qt::WA_OutsideWSRange)) { // so that show() will work again. As stated in the // ICCCM section 4.1.4: "Only the client can effect a // transition into or out of the Withdrawn state.", // but apparently this particular window manager // doesn't seem to care setAttribute(Qt::WA_WState_ExplicitShowHide, false); setAttribute(Qt::WA_WState_Visible, false); } } else { // the window manager has changed the WM State property... // we are wanting to see if we are withdrawn so that we // can reuse this window... e = XGetWindowProperty(X11->display, internalWinId(), ATOM(WM_STATE), 0, 2, False, ATOM(WM_STATE), &ret, &format, &nitems, &after, &data); if (e == Success && ret == ATOM(WM_STATE) && format == 32 && nitems > 0) { long *state = (long *) data; switch (state[0]) { case WithdrawnState: // if we are in the withdrawn state, we are free // to reuse this window provided we remove the // WM_STATE property (ICCCM 4.1.3.1) XDeleteProperty(X11->display, internalWinId(), ATOM(WM_STATE)); // set the parent id to zero, so that show() will // work again d->topData()->parentWinId = 0; d->topData()->validWMState = 0; // map the window if we were waiting for a // transition to withdrawn if (X11->deferred_map.removeAll(this)) { doDeferredMap(); } else if (isVisible() && !testAttribute(Qt::WA_Mapped) && !testAttribute(Qt::WA_OutsideWSRange)) { // so that show() will work again. As stated // in the ICCCM section 4.1.4: "Only the // client can effect a transition into or out // of the Withdrawn state.", but apparently // this particular window manager doesn't seem // to care setAttribute(Qt::WA_WState_ExplicitShowHide, false); setAttribute(Qt::WA_WState_Visible, false); } break; case IconicState: d->topData()->validWMState = 1; if (!isMinimized()) { // window was minimized this->data->window_state = this->data->window_state | Qt::WindowMinimized; QWindowStateChangeEvent e(Qt::WindowStates(this->data->window_state & ~Qt::WindowMinimized)); QApplication::sendSpontaneousEvent(this, &e); } break; default: d->topData()->validWMState = 1; if (isMinimized()) { // window was un-minimized this->data->window_state &= ~Qt::WindowMinimized; QWindowStateChangeEvent e(Qt::WindowStates(this->data->window_state | Qt::WindowMinimized)); QApplication::sendSpontaneousEvent(this, &e); } break; } } } } else if (event->xproperty.atom == ATOM(_NET_WM_WINDOW_OPACITY)) { // the window opacity was changed if (event->xproperty.state == PropertyNewValue) { e = XGetWindowProperty(event->xclient.display, event->xclient.window, ATOM(_NET_WM_WINDOW_OPACITY), 0, 1, False, XA_CARDINAL, &ret, &format, &nitems, &after, &data); if (e == Success && ret == XA_CARDINAL && format == 32 && nitems == 1 && after == 0 && data) { ulong value = *(ulong*)(data); d->topData()->opacity = uint(value >> 24); } } else d->topData()->opacity = 255; } if (data) XFree(data); return true; } // // Paint event translation // // When receiving many expose events, we compress them (union of all expose // rectangles) into one event which is sent to the widget. struct PaintEventInfo { Window window; }; #if defined(Q_C_CALLBACKS) extern "C" { #endif static Bool isPaintOrScrollDoneEvent(Display *, XEvent *ev, XPointer a) { PaintEventInfo *info = (PaintEventInfo *)a; if (ev->type == Expose || ev->type == GraphicsExpose || (ev->type == ClientMessage && ev->xclient.message_type == ATOM(_QT_SCROLL_DONE))) { if (ev->xexpose.window == info->window) return True; } return False; } #if defined(Q_C_CALLBACKS) } #endif static bool translateBySips(QWidget* that, QRect& paintRect) { int dx=0, dy=0; int sips=0; for (int i = 0; i < X11->sip_list.size(); ++i) { const QX11Data::ScrollInProgress &sip = X11->sip_list.at(i); if (sip.scrolled_widget == that) { if (sips) { dx += sip.dx; dy += sip.dy; } sips++; } } if (sips > 1) { paintRect.translate(dx, dy); return true; } return false; } void QETWidget::translatePaintEvent(const XEvent *event) { if (!isWindow() && testAttribute(Qt::WA_NativeWindow)) Q_ASSERT(internalWinId()); Q_D(QWidget); QRect paintRect(event->xexpose.x, event->xexpose.y, event->xexpose.width, event->xexpose.height); XEvent xevent; PaintEventInfo info; info.window = internalWinId(); translateBySips(this, paintRect); paintRect = d->mapFromWS(paintRect); QRegion paintRegion = paintRect; // WARNING: this is O(number_of_events * number_of_matching_events) while (XCheckIfEvent(X11->display,&xevent,isPaintOrScrollDoneEvent, (XPointer)&info) && !qt_x11EventFilter(&xevent) && !x11Event(&xevent)) // send event through filter { if (xevent.type == Expose || xevent.type == GraphicsExpose) { QRect exposure(xevent.xexpose.x, xevent.xexpose.y, xevent.xexpose.width, xevent.xexpose.height); translateBySips(this, exposure); exposure = d->mapFromWS(exposure); paintRegion |= exposure; } else { translateScrollDoneEvent(&xevent); } } if (!paintRegion.isEmpty() && !testAttribute(Qt::WA_WState_ConfigPending)) d->syncBackingStore(paintRegion); } // // Scroll-done event translation. // bool QETWidget::translateScrollDoneEvent(const XEvent *event) { long id = event->xclient.data.l[0]; // Remove any scroll-in-progress record for the given id. for (int i = 0; i < X11->sip_list.size(); ++i) { const QX11Data::ScrollInProgress &sip = X11->sip_list.at(i); if (sip.id == id) { X11->sip_list.removeAt(i); return true; } } return false; } // // ConfigureNotify (window move and resize) event translation bool QETWidget::translateConfigEvent(const XEvent *event) { Q_ASSERT((!isWindow() && !testAttribute(Qt::WA_NativeWindow)) ? internalWinId() : true); Q_D(QWidget); bool wasResize = testAttribute(Qt::WA_WState_ConfigPending); // set in QWidget::setGeometry_sys() setAttribute(Qt::WA_WState_ConfigPending, false); if (testAttribute(Qt::WA_OutsideWSRange)) { // discard events for windows that have a geometry X can't handle XEvent xevent; while (XCheckTypedWindowEvent(X11->display,internalWinId(), ConfigureNotify,&xevent) && !qt_x11EventFilter(&xevent) && !x11Event(&xevent)) // send event through filter ; return true; } const QSize oldSize = size(); if (isWindow()) { QPoint newCPos(geometry().topLeft()); QSize newSize(event->xconfigure.width, event->xconfigure.height); bool trust = isVisible() && (d->topData()->parentWinId == XNone || d->topData()->parentWinId == QX11Info::appRootWindow()); if (event->xconfigure.send_event || trust) { // if a ConfigureNotify comes from a real sendevent request, we can // trust its values. newCPos.rx() = event->xconfigure.x + event->xconfigure.border_width; newCPos.ry() = event->xconfigure.y + event->xconfigure.border_width; } if (isVisible()) QApplication::syncX(); if (d->extra->compress_events) { // ConfigureNotify compression for faster opaque resizing XEvent otherEvent; while (XCheckTypedWindowEvent(X11->display, internalWinId(), ConfigureNotify, &otherEvent)) { if (qt_x11EventFilter(&otherEvent)) continue; if (x11Event(&otherEvent)) continue; if (otherEvent.xconfigure.event != otherEvent.xconfigure.window) continue; newSize.setWidth(otherEvent.xconfigure.width); newSize.setHeight(otherEvent.xconfigure.height); if (otherEvent.xconfigure.send_event || trust) { newCPos.rx() = otherEvent.xconfigure.x + otherEvent.xconfigure.border_width; newCPos.ry() = otherEvent.xconfigure.y + otherEvent.xconfigure.border_width; } } #ifndef QT_NO_XSYNC qt_sync_request_event_data sync_event; sync_event.window = internalWinId(); for (XEvent ev;;) { if (!XCheckIfEvent(X11->display, &ev, &qt_sync_request_scanner, (XPointer)&sync_event)) break; } #endif // QT_NO_XSYNC } QRect cr (geometry()); if (newCPos != cr.topLeft()) { // compare with cpos (exluding frame) QPoint oldPos = geometry().topLeft(); cr.moveTopLeft(newCPos); data->crect = cr; if (isVisible()) { QMoveEvent e(newCPos, oldPos); // pos (including frame), not cpos QApplication::sendSpontaneousEvent(this, &e); } else { setAttribute(Qt::WA_PendingMoveEvent, true); } } if (newSize != cr.size()) { // size changed cr.setSize(newSize); data->crect = cr; uint old_state = data->window_state; if (!X11->isSupportedByWM(ATOM(_NET_WM_STATE_MAXIMIZED_VERT)) && !X11->isSupportedByWM(ATOM(_NET_WM_STATE_MAXIMIZED_HORZ))) data->window_state &= ~Qt::WindowMaximized; if (!X11->isSupportedByWM(ATOM(_NET_WM_STATE_FULLSCREEN))) data->window_state &= ~Qt::WindowFullScreen; if (old_state != data->window_state) { QWindowStateChangeEvent e((Qt::WindowStates) old_state); QApplication::sendEvent(this, &e); } if (!isVisible()) setAttribute(Qt::WA_PendingResizeEvent, true); wasResize = true; } } else { XEvent xevent; while (XCheckTypedWindowEvent(X11->display,internalWinId(), ConfigureNotify,&xevent) && !qt_x11EventFilter(&xevent) && !x11Event(&xevent)) // send event through filter ; } if (wasResize) { static bool slowResize = qgetenv("QT_SLOW_TOPLEVEL_RESIZE").toInt(); if (d->extra->compress_events && !slowResize && !data->in_show && isVisible()) { QApplication::syncX(); XEvent otherEvent; while (XCheckTypedWindowEvent(X11->display, internalWinId(), ConfigureNotify, &otherEvent) && !qt_x11EventFilter(&otherEvent) && !x11Event(&otherEvent) && otherEvent.xconfigure.event == otherEvent.xconfigure.window) { data->crect.setWidth(otherEvent.xconfigure.width); data->crect.setHeight(otherEvent.xconfigure.height); } } if (isVisible() && data->crect.size() != oldSize) { Q_ASSERT(d->extra->topextra); QWidgetBackingStore *bs = d->extra->topextra->backingStore; const bool hasStaticContents = bs && bs->hasStaticContents(); // If we have a backing store with static contents, we have to disable the top-level // resize optimization in order to get invalidated regions for resized widgets. // The optimization discards all invalidateBuffer() calls since we're going to // repaint everything anyways, but that's not the case with static contents. if (!slowResize && !hasStaticContents) d->extra->topextra->inTopLevelResize = true; QResizeEvent e(data->crect.size(), oldSize); QApplication::sendSpontaneousEvent(this, &e); } const bool waitingForMapNotify = d->extra->topextra && d->extra->topextra->waitingForMapNotify; if (!waitingForMapNotify) { if (d->paintOnScreen()) { QRegion updateRegion(rect()); if (testAttribute(Qt::WA_StaticContents)) updateRegion -= QRect(0, 0, oldSize.width(), oldSize.height()); d->syncBackingStore(updateRegion); } else { d->syncBackingStore(); } } if (d->extra && d->extra->topextra) d->extra->topextra->inTopLevelResize = false; } #ifndef QT_NO_XSYNC if (QTLWExtra *tlwExtra = d->maybeTopData()) { if (tlwExtra->newCounterValueLo != 0 || tlwExtra->newCounterValueHi != 0) { XSyncValue value; XSyncIntsToValue(&value, tlwExtra->newCounterValueLo, tlwExtra->newCounterValueHi); XSyncSetCounter(X11->display, tlwExtra->syncUpdateCounter, value); tlwExtra->newCounterValueHi = 0; tlwExtra->newCounterValueLo = 0; } } #endif return true; } // // Close window event translation. // bool QETWidget::translateCloseEvent(const XEvent *) { Q_D(QWidget); return d->close_helper(QWidgetPrivate::CloseWithSpontaneousEvent); } void QApplication::setCursorFlashTime(int msecs) { QApplicationPrivate::cursor_flash_time = msecs; } int QApplication::cursorFlashTime() { return QApplicationPrivate::cursor_flash_time; } void QApplication::setDoubleClickInterval(int ms) { QApplicationPrivate::mouse_double_click_time = ms; } int QApplication::doubleClickInterval() { return QApplicationPrivate::mouse_double_click_time; } void QApplication::setKeyboardInputInterval(int ms) { QApplicationPrivate::keyboard_input_time = ms; } int QApplication::keyboardInputInterval() { return QApplicationPrivate::keyboard_input_time; } void QApplication::setWheelScrollLines(int n) { QApplicationPrivate::wheel_scroll_lines = n; } int QApplication::wheelScrollLines() { return QApplicationPrivate::wheel_scroll_lines; } void QApplication::setEffectEnabled(Qt::UIEffect effect, bool enable) { switch (effect) { case Qt::UI_AnimateMenu: if (enable) QApplicationPrivate::fade_menu = false; QApplicationPrivate::animate_menu = enable; break; case Qt::UI_FadeMenu: if (enable) QApplicationPrivate::animate_menu = true; QApplicationPrivate::fade_menu = enable; break; case Qt::UI_AnimateCombo: QApplicationPrivate::animate_combo = enable; break; case Qt::UI_AnimateTooltip: if (enable) QApplicationPrivate::fade_tooltip = false; QApplicationPrivate::animate_tooltip = enable; break; case Qt::UI_FadeTooltip: if (enable) QApplicationPrivate::animate_tooltip = true; QApplicationPrivate::fade_tooltip = enable; break; case Qt::UI_AnimateToolBox: QApplicationPrivate::animate_toolbox = enable; break; default: QApplicationPrivate::animate_ui = enable; break; } } bool QApplication::isEffectEnabled(Qt::UIEffect effect) { if (QColormap::instance().depth() < 16 || !QApplicationPrivate::animate_ui) return false; switch(effect) { case Qt::UI_AnimateMenu: return QApplicationPrivate::animate_menu; case Qt::UI_FadeMenu: return QApplicationPrivate::fade_menu; case Qt::UI_AnimateCombo: return QApplicationPrivate::animate_combo; case Qt::UI_AnimateTooltip: return QApplicationPrivate::animate_tooltip; case Qt::UI_FadeTooltip: return QApplicationPrivate::fade_tooltip; case Qt::UI_AnimateToolBox: return QApplicationPrivate::animate_toolbox; default: return QApplicationPrivate::animate_ui; } } /***************************************************************************** Session management support *****************************************************************************/ #ifndef QT_NO_SESSIONMANAGER QT_BEGIN_INCLUDE_NAMESPACE #include QT_END_INCLUDE_NAMESPACE class QSessionManagerPrivate : public QObjectPrivate { public: QSessionManagerPrivate(QSessionManager* mgr, QString& id, QString& key) : QObjectPrivate(), sm(mgr), sessionId(id), sessionKey(key), eventLoop(0) {} QSessionManager* sm; QStringList restartCommand; QStringList discardCommand; QString& sessionId; QString& sessionKey; QSessionManager::RestartHint restartHint; QEventLoop *eventLoop; }; class QSmSocketReceiver : public QObject { Q_OBJECT public: QSmSocketReceiver(int socket) { QSocketNotifier* sn = new QSocketNotifier(socket, QSocketNotifier::Read, this); connect(sn, SIGNAL(activated(int)), this, SLOT(socketActivated(int))); } public slots: void socketActivated(int); }; static SmcConn smcConnection = 0; static bool sm_interactionActive; static bool sm_smActive; static int sm_interactStyle; static int sm_saveType; static bool sm_cancel; // static bool sm_waitingForPhase2; ### never used?!? static bool sm_waitingForInteraction; static bool sm_isshutdown; // static bool sm_shouldbefast; ### never used?!? static bool sm_phase2; static bool sm_in_phase2; static QSmSocketReceiver* sm_receiver = 0; static void resetSmState(); static void sm_setProperty(const char* name, const char* type, int num_vals, SmPropValue* vals); static void sm_saveYourselfCallback(SmcConn smcConn, SmPointer clientData, int saveType, Bool shutdown , int interactStyle, Bool fast); static void sm_saveYourselfPhase2Callback(SmcConn smcConn, SmPointer clientData) ; static void sm_dieCallback(SmcConn smcConn, SmPointer clientData) ; static void sm_shutdownCancelledCallback(SmcConn smcConn, SmPointer clientData); static void sm_saveCompleteCallback(SmcConn smcConn, SmPointer clientData); static void sm_interactCallback(SmcConn smcConn, SmPointer clientData); static void sm_performSaveYourself(QSessionManagerPrivate*); static void resetSmState() { // sm_waitingForPhase2 = false; ### never used?!? sm_waitingForInteraction = false; sm_interactionActive = false; sm_interactStyle = SmInteractStyleNone; sm_smActive = false; qt_sm_blockUserInput = false; sm_isshutdown = false; // sm_shouldbefast = false; ### never used?!? sm_phase2 = false; sm_in_phase2 = false; } // theoretically it's possible to set several properties at once. For // simplicity, however, we do just one property at a time static void sm_setProperty(const char* name, const char* type, int num_vals, SmPropValue* vals) { if (num_vals) { SmProp prop; prop.name = (char*)name; prop.type = (char*)type; prop.num_vals = num_vals; prop.vals = vals; SmProp* props[1]; props[0] = ∝ SmcSetProperties(smcConnection, 1, props); } else { char* names[1]; names[0] = (char*) name; SmcDeleteProperties(smcConnection, 1, names); } } static void sm_setProperty(const QString& name, const QString& value) { QByteArray v = value.toUtf8(); SmPropValue prop; prop.length = v.length(); prop.value = (SmPointer) v.constData(); sm_setProperty(name.toLatin1().data(), SmARRAY8, 1, &prop); } static void sm_setProperty(const QString& name, const QStringList& value) { SmPropValue *prop = new SmPropValue[value.count()]; int count = 0; QList vl; for (QStringList::ConstIterator it = value.begin(); it != value.end(); ++it) { prop[count].length = (*it).length(); vl.append((*it).toUtf8()); prop[count].value = (char*)vl.last().data(); ++count; } sm_setProperty(name.toLatin1().data(), SmLISTofARRAY8, count, prop); delete [] prop; } // workaround for broken libsm, see below struct QT_smcConn { unsigned int save_yourself_in_progress : 1; unsigned int shutdown_in_progress : 1; }; static void sm_saveYourselfCallback(SmcConn smcConn, SmPointer clientData, int saveType, Bool shutdown , int interactStyle, Bool /*fast*/) { if (smcConn != smcConnection) return; sm_cancel = false; sm_smActive = true; sm_isshutdown = shutdown; sm_saveType = saveType; sm_interactStyle = interactStyle; // sm_shouldbefast = fast; ### never used?!? // ugly workaround for broken libSM. libSM should do that _before_ // actually invoking the callback in sm_process.c ((QT_smcConn*)smcConn)->save_yourself_in_progress = true; if (sm_isshutdown) ((QT_smcConn*)smcConn)->shutdown_in_progress = true; sm_performSaveYourself((QSessionManagerPrivate*) clientData); if (!sm_isshutdown) // we cannot expect a confirmation message in that case resetSmState(); } static void sm_performSaveYourself(QSessionManagerPrivate* smd) { if (sm_isshutdown) qt_sm_blockUserInput = true; QSessionManager* sm = smd->sm; // generate a new session key timeval tv; gettimeofday(&tv, 0); smd->sessionKey = QString::number(qulonglong(tv.tv_sec)) + QLatin1Char('_') + QString::number(qulonglong(tv.tv_usec)); QStringList arguments = qApp->arguments(); QString argument0 = arguments.isEmpty() ? qApp->applicationFilePath() : arguments.at(0); // tell the session manager about our program in best POSIX style sm_setProperty(QString::fromLatin1(SmProgram), argument0); // tell the session manager about our user as well. struct passwd *entryPtr = 0; #if !defined(QT_NO_THREAD) && defined(_POSIX_THREAD_SAFE_FUNCTIONS) && !defined(Q_OS_OPENBSD) QVarLengthArray buf(sysconf(_SC_GETPW_R_SIZE_MAX)); struct passwd entry; getpwuid_r(geteuid(), &entry, buf.data(), buf.size(), &entryPtr); #else entryPtr = getpwuid(geteuid()); #endif if (entryPtr) sm_setProperty(QString::fromLatin1(SmUserID), QString::fromLatin1(entryPtr->pw_name)); // generate a restart and discard command that makes sense QStringList restart; restart << argument0 << QLatin1String("-session") << smd->sessionId + QLatin1Char('_') + smd->sessionKey; if (qstricmp(appName, QX11Info::appClass()) != 0) restart << QLatin1String("-name") << qAppName(); sm->setRestartCommand(restart); QStringList discard; sm->setDiscardCommand(discard); switch (sm_saveType) { case SmSaveBoth: qApp->commitData(*sm); if (sm_isshutdown && sm_cancel) break; // we cancelled the shutdown, no need to save state // fall through case SmSaveLocal: qApp->saveState(*sm); break; case SmSaveGlobal: qApp->commitData(*sm); break; default: break; } if (sm_phase2 && !sm_in_phase2) { SmcRequestSaveYourselfPhase2(smcConnection, sm_saveYourselfPhase2Callback, (SmPointer*) smd); qt_sm_blockUserInput = false; } else { // close eventual interaction monitors and cancel the // shutdown, if required. Note that we can only cancel when // performing a shutdown, it does not work for checkpoints if (sm_interactionActive) { SmcInteractDone(smcConnection, sm_isshutdown && sm_cancel); sm_interactionActive = false; } else if (sm_cancel && sm_isshutdown) { if (sm->allowsErrorInteraction()) { SmcInteractDone(smcConnection, True); sm_interactionActive = false; } } // set restart and discard command in session manager sm_setProperty(QString::fromLatin1(SmRestartCommand), sm->restartCommand()); sm_setProperty(QString::fromLatin1(SmDiscardCommand), sm->discardCommand()); // set the restart hint SmPropValue prop; prop.length = sizeof(int); int value = sm->restartHint(); prop.value = (SmPointer) &value; sm_setProperty(SmRestartStyleHint, SmCARD8, 1, &prop); // we are done SmcSaveYourselfDone(smcConnection, !sm_cancel); } } static void sm_dieCallback(SmcConn smcConn, SmPointer /* clientData */) { if (smcConn != smcConnection) return; resetSmState(); QEvent quitEvent(QEvent::Quit); QApplication::sendEvent(qApp, &quitEvent); } static void sm_shutdownCancelledCallback(SmcConn smcConn, SmPointer clientData) { if (smcConn != smcConnection) return; if (sm_waitingForInteraction) ((QSessionManagerPrivate *) clientData)->eventLoop->exit(); resetSmState(); } static void sm_saveCompleteCallback(SmcConn smcConn, SmPointer /*clientData */) { if (smcConn != smcConnection) return; resetSmState(); } static void sm_interactCallback(SmcConn smcConn, SmPointer clientData) { if (smcConn != smcConnection) return; if (sm_waitingForInteraction) ((QSessionManagerPrivate *) clientData)->eventLoop->exit(); } static void sm_saveYourselfPhase2Callback(SmcConn smcConn, SmPointer clientData) { if (smcConn != smcConnection) return; sm_in_phase2 = true; sm_performSaveYourself((QSessionManagerPrivate*) clientData); } void QSmSocketReceiver::socketActivated(int) { IceProcessMessages(SmcGetIceConnection(smcConnection), 0, 0); } #undef Bool QT_BEGIN_INCLUDE_NAMESPACE #include "qapplication_x11.moc" QT_END_INCLUDE_NAMESPACE QSessionManager::QSessionManager(QApplication * app, QString &id, QString& key) : QObject(*new QSessionManagerPrivate(this, id, key), app) { Q_D(QSessionManager); d->restartHint = RestartIfRunning; resetSmState(); char cerror[256]; char* myId = 0; QByteArray b_id = id.toLatin1(); char* prevId = b_id.data(); SmcCallbacks cb; cb.save_yourself.callback = sm_saveYourselfCallback; cb.save_yourself.client_data = (SmPointer) d; cb.die.callback = sm_dieCallback; cb.die.client_data = (SmPointer) d; cb.save_complete.callback = sm_saveCompleteCallback; cb.save_complete.client_data = (SmPointer) d; cb.shutdown_cancelled.callback = sm_shutdownCancelledCallback; cb.shutdown_cancelled.client_data = (SmPointer) d; // avoid showing a warning message below if (qgetenv("SESSION_MANAGER").isEmpty()) return; smcConnection = SmcOpenConnection(0, 0, 1, 0, SmcSaveYourselfProcMask | SmcDieProcMask | SmcSaveCompleteProcMask | SmcShutdownCancelledProcMask, &cb, prevId, &myId, 256, cerror); id = QString::fromLatin1(myId); ::free(myId); // it was allocated by C QString error = QString::fromLocal8Bit(cerror); if (!smcConnection) { qWarning("Qt: Session management error: %s", qPrintable(error)); } else { sm_receiver = new QSmSocketReceiver(IceConnectionNumber(SmcGetIceConnection(smcConnection))); } } QSessionManager::~QSessionManager() { if (smcConnection) SmcCloseConnection(smcConnection, 0, 0); smcConnection = 0; delete sm_receiver; } QString QSessionManager::sessionId() const { Q_D(const QSessionManager); return d->sessionId; } QString QSessionManager::sessionKey() const { Q_D(const QSessionManager); return d->sessionKey; } void* QSessionManager::handle() const { return (void*) smcConnection; } bool QSessionManager::allowsInteraction() { Q_D(QSessionManager); if (sm_interactionActive) return true; if (sm_waitingForInteraction) return false; if (sm_interactStyle == SmInteractStyleAny) { sm_waitingForInteraction = SmcInteractRequest(smcConnection, SmDialogNormal, sm_interactCallback, (SmPointer*) d); } if (sm_waitingForInteraction) { QEventLoop eventLoop; d->eventLoop = &eventLoop; (void) eventLoop.exec(); d->eventLoop = 0; sm_waitingForInteraction = false; if (sm_smActive) { // not cancelled sm_interactionActive = true; qt_sm_blockUserInput = false; return true; } } return false; } bool QSessionManager::allowsErrorInteraction() { Q_D(QSessionManager); if (sm_interactionActive) return true; if (sm_waitingForInteraction) return false; if (sm_interactStyle == SmInteractStyleAny || sm_interactStyle == SmInteractStyleErrors) { sm_waitingForInteraction = SmcInteractRequest(smcConnection, SmDialogError, sm_interactCallback, (SmPointer*) d); } if (sm_waitingForInteraction) { QEventLoop eventLoop; d->eventLoop = &eventLoop; (void) eventLoop.exec(); d->eventLoop = 0; sm_waitingForInteraction = false; if (sm_smActive) { // not cancelled sm_interactionActive = true; qt_sm_blockUserInput = false; return true; } } return false; } void QSessionManager::release() { if (sm_interactionActive) { SmcInteractDone(smcConnection, False); sm_interactionActive = false; if (sm_smActive && sm_isshutdown) qt_sm_blockUserInput = true; } } void QSessionManager::cancel() { sm_cancel = true; } void QSessionManager::setRestartHint(QSessionManager::RestartHint hint) { Q_D(QSessionManager); d->restartHint = hint; } QSessionManager::RestartHint QSessionManager::restartHint() const { Q_D(const QSessionManager); return d->restartHint; } void QSessionManager::setRestartCommand(const QStringList& command) { Q_D(QSessionManager); d->restartCommand = command; } QStringList QSessionManager::restartCommand() const { Q_D(const QSessionManager); return d->restartCommand; } void QSessionManager::setDiscardCommand(const QStringList& command) { Q_D(QSessionManager); d->discardCommand = command; } QStringList QSessionManager::discardCommand() const { Q_D(const QSessionManager); return d->discardCommand; } void QSessionManager::setManagerProperty(const QString& name, const QString& value) { sm_setProperty(name, value); } void QSessionManager::setManagerProperty(const QString& name, const QStringList& value) { sm_setProperty(name, value); } bool QSessionManager::isPhase2() const { return sm_in_phase2; } void QSessionManager::requestPhase2() { sm_phase2 = true; } #endif // QT_NO_SESSIONMANAGER #if defined(QT_RX71_MULTITOUCH) static inline int testBit(const char *array, int bit) { return (array[bit/8] & (1<<(bit%8))); } static int openRX71Device(const QByteArray &deviceName) { int fd = open(deviceName, O_RDONLY | O_NONBLOCK); if (fd == -1) { fd = -errno; return fd; } // fetch the event type mask and check that the device reports absolute coordinates char eventTypeMask[(EV_MAX + sizeof(char) - 1) * sizeof(char) + 1]; memset(eventTypeMask, 0, sizeof(eventTypeMask)); if (ioctl(fd, EVIOCGBIT(0, sizeof(eventTypeMask)), eventTypeMask) < 0) { close(fd); return -1; } if (!testBit(eventTypeMask, EV_ABS)) { close(fd); return -1; } // make sure that we can get the absolute X and Y positions from the device char absMask[(ABS_MAX + sizeof(char) - 1) * sizeof(char) + 1]; memset(absMask, 0, sizeof(absMask)); if (ioctl(fd, EVIOCGBIT(EV_ABS, sizeof(absMask)), absMask) < 0) { close(fd); return -1; } if (!testBit(absMask, ABS_X) || !testBit(absMask, ABS_Y)) { close(fd); return -1; } return fd; } void QApplicationPrivate::initializeMultitouch_sys() { Q_Q(QApplication); QByteArray deviceName = QByteArray("/dev/input/event"); int currentDeviceNumber = 0; for (;;) { int fd = openRX71Device(QByteArray(deviceName + QByteArray::number(currentDeviceNumber++))); if (fd == -ENOENT) { // no more devices break; } if (fd < 0) { // not a touch device continue; } struct input_absinfo abs_x, abs_y, abs_z; ioctl(fd, EVIOCGABS(ABS_X), &abs_x); ioctl(fd, EVIOCGABS(ABS_Y), &abs_y); ioctl(fd, EVIOCGABS(ABS_Z), &abs_z); int deviceNumber = allRX71TouchPoints.count(); QSocketNotifier *socketNotifier = new QSocketNotifier(fd, QSocketNotifier::Read, q); QObject::connect(socketNotifier, SIGNAL(activated(int)), q, SLOT(_q_readRX71MultiTouchEvents())); RX71TouchPointState touchPointState = { socketNotifier, QTouchEvent::TouchPoint(deviceNumber), abs_x.minimum, abs_x.maximum, q->desktop()->screenGeometry().width(), abs_y.minimum, abs_y.maximum, q->desktop()->screenGeometry().height(), abs_z.minimum, abs_z.maximum }; allRX71TouchPoints.append(touchPointState); } hasRX71MultiTouch = allRX71TouchPoints.count() > 1; if (!hasRX71MultiTouch) { for (int i = 0; i < allRX71TouchPoints.count(); ++i) { QSocketNotifier *socketNotifier = allRX71TouchPoints.at(i).socketNotifier; close(socketNotifier->socket()); delete socketNotifier; } allRX71TouchPoints.clear(); } } void QApplicationPrivate::cleanupMultitouch_sys() { hasRX71MultiTouch = false; for (int i = 0; i < allRX71TouchPoints.count(); ++i) { QSocketNotifier *socketNotifier = allRX71TouchPoints.at(i).socketNotifier; close(socketNotifier->socket()); delete socketNotifier; } allRX71TouchPoints.clear(); } bool QApplicationPrivate::readRX71MultiTouchEvents(int deviceNumber) { RX71TouchPointState &touchPointState = allRX71TouchPoints[deviceNumber]; QSocketNotifier *socketNotifier = touchPointState.socketNotifier; int fd = socketNotifier->socket(); QTouchEvent::TouchPoint &touchPoint = touchPointState.touchPoint; bool down = touchPoint.state() != Qt::TouchPointReleased; if (down) touchPoint.setState(Qt::TouchPointStationary); bool changed = false; for (;;) { struct input_event inputEvent; int bytesRead = read(fd, &inputEvent, sizeof(inputEvent)); if (bytesRead <= 0) break; if (bytesRead != sizeof(inputEvent)) { qWarning("Qt: INTERNAL ERROR: short read in readRX71MultiTouchEvents()"); return false; } switch (inputEvent.type) { case EV_SYN: changed = true; switch (touchPoint.state()) { case Qt::TouchPointPressed: case Qt::TouchPointReleased: // make sure we don't compress pressed and releases with any other events return changed; default: break; } continue; case EV_KEY: case EV_ABS: break; default: qWarning("Qt: WARNING: unknown event type %d on multitouch device", inputEvent.type); continue; } QPointF screenPos = touchPoint.screenPos(); switch (inputEvent.code) { case BTN_TOUCH: if (!down && inputEvent.value != 0) touchPoint.setState(Qt::TouchPointPressed); else if (down && inputEvent.value == 0) touchPoint.setState(Qt::TouchPointReleased); break; case ABS_TOOL_WIDTH: case ABS_VOLUME: case ABS_PRESSURE: // ignore for now break; case ABS_X: { qreal newValue = ((qreal(inputEvent.value - touchPointState.minX) / qreal(touchPointState.maxX - touchPointState.minX)) * touchPointState.scaleX); screenPos.rx() = newValue; touchPoint.setScreenPos(screenPos); break; } case ABS_Y: { qreal newValue = ((qreal(inputEvent.value - touchPointState.minY) / qreal(touchPointState.maxY - touchPointState.minY)) * touchPointState.scaleY); screenPos.ry() = newValue; touchPoint.setScreenPos(screenPos); break; } case ABS_Z: { // map Z (signal strength) to pressure for now qreal newValue = (qreal(inputEvent.value - touchPointState.minZ) / qreal(touchPointState.maxZ - touchPointState.minZ)); touchPoint.setPressure(newValue); break; } default: qWarning("Qt: WARNING: unknown event code %d on multitouch device", inputEvent.code); continue; } } if (down && touchPoint.state() != Qt::TouchPointReleased) touchPoint.setState(changed ? Qt::TouchPointMoved : Qt::TouchPointStationary); return changed; } void QApplicationPrivate::_q_readRX71MultiTouchEvents() { // read touch events from all devices bool changed = false; for (int i = 0; i < allRX71TouchPoints.count(); ++i) changed = readRX71MultiTouchEvents(i) || changed; if (!changed) return; QList touchPoints; for (int i = 0; i < allRX71TouchPoints.count(); ++i) touchPoints.append(allRX71TouchPoints.at(i).touchPoint); translateRawTouchEvent(0, QTouchEvent::TouchScreen, touchPoints); } #else // !QT_RX71_MULTITOUCH void QApplicationPrivate::initializeMultitouch_sys() { } void QApplicationPrivate::cleanupMultitouch_sys() { } #endif // QT_RX71_MULTITOUCH QT_END_NAMESPACE