// Screen.cc for Fluxbox Window Manager // Copyright (c) 2001 - 2006 Henrik Kinnunen (fluxgen at fluxbox dot org) // // Screen.cc for Blackbox - an X11 Window manager // Copyright (c) 1997 - 2000 Brad Hughes (bhughes at tcac.net) // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL // THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. #include "Screen.hh" #include "fluxbox.hh" #include "Keys.hh" #include "Window.hh" #include "WindowCmd.hh" #include "Workspace.hh" #include "Layer.hh" #include "FocusControl.hh" #include "ScreenPlacement.hh" // menus #include "ConfigMenu.hh" #include "FbMenu.hh" #include "LayerMenu.hh" #include "MenuCreator.hh" #include "WinClient.hh" #include "FbWinFrame.hh" #include "Strut.hh" #include "FbTk/CommandParser.hh" #include "AtomHandler.hh" #include "HeadArea.hh" #include "RectangleUtil.hh" #include "FbCommands.hh" #ifdef USE_SYSTRAY #include "SystemTray.hh" #endif #include "Debug.hh" #include "FbTk/I18n.hh" #include "FbTk/FbWindow.hh" #include "FbTk/SimpleCommand.hh" #include "FbTk/MultLayers.hh" #include "FbTk/LayerItem.hh" #include "FbTk/MacroCommand.hh" #include "FbTk/StringUtil.hh" #include "FbTk/ImageControl.hh" #include "FbTk/EventManager.hh" #include "FbTk/Transparent.hh" #include "FbTk/Select2nd.hh" #include "FbTk/Compose.hh" #include "FbTk/FbString.hh" #include "FbTk/STLUtil.hh" #include "FbTk/KeyUtil.hh" #include "FbTk/Util.hh" #ifdef USE_SLIT #include "Slit.hh" #include "SlitClient.hh" #else // fill it in class Slit {}; #endif // USE_SLIT #ifdef USE_TOOLBAR #include "Toolbar.hh" #else class Toolbar {}; #endif // USE_TOOLBAR #ifdef STDC_HEADERS #include #endif // STDC_HEADERS #ifdef HAVE_UNISTD_H #include #include #endif // HAVE_UNISTD_H #ifdef TIME_WITH_SYS_TIME #include #include #else // !TIME_WITH_SYS_TIME #ifdef HAVE_SYS_TIME_H #include #else // !HAVE_SYS_TIME_H #include #endif // HAVE_SYS_TIME_H #endif // TIME_WITH_SYS_TIME #include #include #include #ifdef XINERAMA extern "C" { #include } #endif // XINERAMA #if defined(HAVE_RANDR) || defined(HAVE_RANDR1_2) #include #endif // HAVE_RANDR #include #include #include #include #include #include using std::cerr; using std::endl; using std::string; using std::make_pair; using std::pair; using std::list; using std::vector; using std::mem_fn; using std::equal_to; using std::hex; using std::dec; using namespace std::placeholders; static bool running = true; namespace { int anotherWMRunning(Display *display, XErrorEvent *) { _FB_USES_NLS; cerr<<_FB_CONSOLETEXT(Screen, AnotherWMRunning, "BScreen::BScreen: an error occured while querying the X server.\n" " another window manager already running on display ", "Message when another WM is found already active on all screens") <display(); initAtoms(disp); // Create the first one, initXinerama will expand this if needed. m_head_areas.resize(1); m_head_areas[0] = new HeadArea(); initXinerama(); // setup error handler to catch "screen already managed by other wm" XErrorHandler old = XSetErrorHandler((XErrorHandler) anotherWMRunning); rootWindow().setEventMask(ColormapChangeMask | EnterWindowMask | PropertyChangeMask | SubstructureRedirectMask | KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask| SubstructureNotifyMask); fluxbox->sync(false); XSetErrorHandler((XErrorHandler) old); m_state.managed = running; if (!m_state.managed) { delete m_placement_strategy; m_placement_strategy = 0; delete m_focus_control; m_focus_control = 0; return; } // we're going to manage the screen, so now add our pid #ifdef HAVE_GETPID unsigned long bpid = static_cast(getpid()); rootWindow().changeProperty(fluxbox->getFluxboxPidAtom(), XA_CARDINAL, sizeof(pid_t) * 8, PropModeReplace, (unsigned char *) &bpid, 1); #endif // HAVE_GETPID // check if we're the first EWMH compliant window manager on this screen union { Atom atom; unsigned long ul; int i; } ignore; unsigned char *ret_prop; if (rootWindow().property(atom_wm_check, 0l, 1l, False, XA_WINDOW, &ignore.atom, &ignore.i, &ignore.ul, &ignore.ul, &ret_prop) ) { m_state.restart = (ret_prop != NULL); XFree(ret_prop); } // setup RANDR for this screens root window #if defined(HAVE_RANDR) int randr_mask = RRScreenChangeNotifyMask; # ifdef RRCrtcChangeNotifyMask randr_mask |= RRCrtcChangeNotifyMask; # endif # ifdef RROutputChangeNotifyMask randr_mask |= RROutputChangeNotifyMask; # endif # ifdef RROutputPropertyNotifyMask randr_mask |= RROutputPropertyNotifyMask; # endif XRRSelectInput(disp, rootWindow().window(), randr_mask); #endif // HAVE_RANDR _FB_USES_NLS; #ifdef DEBUG fprintf(stderr, _FB_CONSOLETEXT(Screen, ManagingScreen, "BScreen::BScreen: managing screen %d " "using visual 0x%lx, depth %d\n", "informational message saying screen number (%d), visual (%lx), and colour depth (%d)").c_str(), screenNumber(), XVisualIDFromVisual(rootWindow().visual()), rootWindow().maxDepth()); #endif // DEBUG FbTk::EventManager *evm = FbTk::EventManager::instance(); evm->add(*this, rootWindow()); Keys *keys = fluxbox->keys(); if (keys) keys->registerWindow(rootWindow().window(), *this, Keys::GLOBAL|Keys::ON_DESKTOP); rootWindow().setCursor(XCreateFontCursor(disp, XC_left_ptr)); // load this screens resources fluxbox->load_rc(*this); // setup image cache engine m_image_control.reset(new FbTk::ImageControl(scrn, fluxbox->colorsPerChannel(), fluxbox->getCacheLife(), fluxbox->getCacheMax())); imageControl().installRootColormap(); root_colormap_installed = true; m_root_theme.reset(new RootTheme(imageControl())); m_root_theme->reconfigTheme(); focusedWinFrameTheme()->setAlpha(*resource.focused_alpha); unfocusedWinFrameTheme()->setAlpha(*resource.unfocused_alpha); m_menutheme->setAlpha(*resource.menu_alpha); clampMenuDelay(*resource.menu_delay); m_menutheme->setDelay(*resource.menu_delay); m_tracker.join(focusedWinFrameTheme()->reconfigSig(), FbTk::MemFun(*this, &BScreen::focusedWinFrameThemeReconfigured)); renderGeomWindow(); renderPosWindow(); m_tooltip_window->setDelay(*resource.tooltip_delay); // setup workspaces and workspace menu int nr_ws = *resource.workspaces; addWorkspace(); // at least one for (int i = 1; i < nr_ws; ++i) { addWorkspace(); } m_current_workspace = m_workspaces_list.front(); m_windowmenu.reset(MenuCreator::createMenu("", *this)); m_windowmenu->setInternalMenu(); m_windowmenu->setReloadHelper(new FbTk::AutoReloadHelper()); m_windowmenu->reloadHelper()->setReloadCmd(FbTk::RefCount >(new FbTk::SimpleCommand(*this, &BScreen::rereadWindowMenu))); m_rootmenu.reset(MenuCreator::createMenu("", *this)); m_rootmenu->setReloadHelper(new FbTk::AutoReloadHelper()); m_rootmenu->reloadHelper()->setReloadCmd(FbTk::RefCount >(new FbTk::SimpleCommand(*this, &BScreen::rereadMenu))); m_configmenu.reset(MenuCreator::createMenu(_FB_XTEXT(Menu, Configuration, "Configuration", "Title of configuration menu"), *this)); m_configmenu->setInternalMenu(); setupConfigmenu(*m_configmenu.get()); // check which desktop we should start on int first_desktop = 0; if (m_state.restart) { bool exists; int ret = (rootWindow().cardinalProperty(atom_net_desktop, &exists)); if (exists) { first_desktop = FbTk::Util::clamp(ret, 0, nr_ws); } } changeWorkspaceID(first_desktop); #ifdef USE_SLIT if (opts & Fluxbox::OPT_SLIT) { Slit* slit = new Slit(*this, *layerManager().getLayer(ResourceLayer::DESKTOP), fluxbox->getSlitlistFilename().c_str()); m_slit.reset(slit); } #endif // USE_SLIT rm.unlock(); XFlush(disp); } BScreen::~BScreen() { if (!m_state.managed) return; m_toolbar.reset(0); m_toolButtonMap.reset(0); FbTk::EventManager *evm = FbTk::EventManager::instance(); evm->remove(rootWindow()); Keys *keys = Fluxbox::instance()->keys(); if (keys) keys->unregisterWindow(rootWindow().window()); if (m_rootmenu.get() != 0) m_rootmenu->removeAll(); // Since workspacemenu holds client list menus (from workspace) // we need to destroy it before we destroy workspaces m_workspacemenu.reset(0); removeWorkspaceNames(); using namespace FbTk::STLUtil; destroyAndClear(m_workspaces_list); destroyAndClear(m_managed_resources); //why not destroyAndClear(m_icon_list); ? //problem with that: a delete FluxboxWindow* calls m_diesig.notify() //which leads to screen.removeWindow() which leads to removeIcon(win) //which would modify the m_icon_list anyways... Icons tmp; tmp = m_icon_list; while(!tmp.empty()) { removeWindow(tmp.back()); tmp.back()->restore(true); delete (tmp.back()); tmp.pop_back(); } if (hasXinerama()) { m_xinerama.heads.clear(); } // slit must be destroyed before headAreas (Struts) m_slit.reset(0); m_windowmenu.reset(0); m_rootmenu.reset(0); m_workspacemenu.reset(0); m_configmenu.reset(0); // TODO fluxgen: check if this is the right place for (size_t i = 0; i < m_head_areas.size(); i++) delete m_head_areas[i]; delete m_focus_control; delete m_placement_strategy; } bool BScreen::isRestart() { return Fluxbox::instance()->isStartup() && m_state.restart; } void BScreen::initWindows() { #ifdef USE_TOOLBAR if (m_opts & Fluxbox::OPT_TOOLBAR) { m_toolButtonMap.reset(new ToolButtonMap()); Toolbar* tb = new Toolbar(*this, *layerManager().getLayer(::ResourceLayer::NORMAL)); m_toolbar.reset(tb); } #endif // USE_TOOLBAR unsigned int nchild; Window r, p, *children; Fluxbox* fluxbox = Fluxbox::instance(); Display* disp = fluxbox->display(); XQueryTree(disp, rootWindow().window(), &r, &p, &children, &nchild); // preen the window list of all icon windows... for better dockapp support for (unsigned int i = 0; i < nchild; i++) { if (children[i] == None) continue; XWMHints *wmhints = XGetWMHints(disp, children[i]); if (wmhints) { if ((wmhints->flags & IconWindowHint) && (wmhints->icon_window != children[i])) for (unsigned int j = 0; j < nchild; j++) { if (children[j] == wmhints->icon_window) { fbdbg<<"BScreen::initWindows(): children[j] = 0x"<validateWindow(children[i])) { fbdbg<<"BScreen::initWindows(): not valid window = "<searchWindow(transient_for) == 0 && !safety_flag) { // add this window back to the beginning of the list of children children[num_transients] = children[i]; num_transients++; fbdbg<<"BScreen::initWindows(): postpone creation of 0x"<show(); #endif // USE_SLIT } unsigned int BScreen::currentWorkspaceID() const { return m_current_workspace->workspaceID(); } const Strut* BScreen::availableWorkspaceArea(int head) const { if (head > numHeads()) { /* May this ever happen? */ static Strut whole(-1 /* should never be used */, 0, width(), 0, height()); return &whole; } return m_head_areas[head ? head-1 : 0]->availableWorkspaceArea(); } unsigned int BScreen::maxLeft(int head) const { // we ignore strut if we're doing full maximization if (hasXinerama()) return doFullMax() ? getHeadX(head) : getHeadX(head) + availableWorkspaceArea(head)->left(); else return doFullMax() ? 0 : availableWorkspaceArea(head)->left(); } unsigned int BScreen::maxRight(int head) const { // we ignore strut if we're doing full maximization if (hasXinerama()) return doFullMax() ? getHeadX(head) + getHeadWidth(head) : getHeadX(head) + getHeadWidth(head) - availableWorkspaceArea(head)->right(); else return doFullMax() ? width() : width() - availableWorkspaceArea(head)->right(); } unsigned int BScreen::maxTop(int head) const { // we ignore strut if we're doing full maximization if (hasXinerama()) return doFullMax() ? getHeadY(head) : getHeadY(head) + availableWorkspaceArea(head)->top(); else return doFullMax() ? 0 : availableWorkspaceArea(head)->top(); } unsigned int BScreen::maxBottom(int head) const { // we ignore strut if we're doing full maximization if (hasXinerama()) return doFullMax() ? getHeadY(head) + getHeadHeight(head) : getHeadY(head) + getHeadHeight(head) - availableWorkspaceArea(head)->bottom(); else return doFullMax() ? height() : height() - availableWorkspaceArea(head)->bottom(); } void BScreen::focusedWinFrameThemeReconfigured() { renderGeomWindow(); renderPosWindow(); Fluxbox *fluxbox = Fluxbox::instance(); const std::list winlist = focusControl().focusedOrderWinList().clientList(); std::list::const_iterator it = winlist.begin(); std::list::const_iterator it_end = winlist.end(); for (; it != it_end; ++it) fluxbox->updateFrameExtents(*(*it)->fbwindow()); } void BScreen::propertyNotify(Atom atom) { if (allowRemoteActions() && atom == atom_fbcmd) { Atom xa_ret_type; int ret_format; unsigned long ret_nitems, ret_bytes_after; char *str; if (rootWindow().property(atom_fbcmd, 0l, 64l, True, XA_STRING, &xa_ret_type, &ret_format, &ret_nitems, &ret_bytes_after, (unsigned char **)&str) && str) { if (ret_bytes_after) { XFree(str); long len = 64 + (ret_bytes_after + 3)/4; rootWindow().property(atom_fbcmd, 0l, len, True, XA_STRING, &xa_ret_type, &ret_format, &ret_nitems, &ret_bytes_after, (unsigned char **)&str); } static std::unique_ptr > cmd; cmd.reset(FbTk::CommandParser::instance().parse(str, false)); if (cmd.get()) { cmd->execute(); } XFree(str); } // TODO: this doesn't belong in FbPixmap } else if (FbTk::FbPixmap::rootwinPropertyNotify(screenNumber(), atom)) m_bg_change_sig.emit(*this); } void BScreen::keyPressEvent(XKeyEvent &ke) { if (Fluxbox::instance()->keys()->doAction(ke.type, ke.state, ke.keycode, Keys::GLOBAL|(ke.subwindow ? 0 : Keys::ON_DESKTOP), 0, ke.time)) { // re-grab keyboard, so we don't pass KeyRelease to clients // also for catching invalid keys in the middle of keychains FbTk::EventManager::instance()->grabKeyboard(rootWindow().window()); XAllowEvents(Fluxbox::instance()->display(), SyncKeyboard, CurrentTime); } else { XAllowEvents(Fluxbox::instance()->display(), ReplayKeyboard, CurrentTime); } } void BScreen::keyReleaseEvent(XKeyEvent &ke) { if (m_state.cycling) { unsigned int state = FbTk::KeyUtil::instance().cleanMods(ke.state); state &= ~FbTk::KeyUtil::instance().keycodeToModmask(ke.keycode); if (state) // still cycling return; m_state.cycling = false; focusControl().stopCyclingFocus(); } if (!Fluxbox::instance()->keys()->inKeychain()) FbTk::EventManager::instance()->ungrabKeyboard(); } void BScreen::buttonPressEvent(XButtonEvent &be) { if (be.button == 1 && !isRootColormapInstalled()) imageControl().installRootColormap(); Keys *keys = Fluxbox::instance()->keys(); if (keys->doAction(be.type, be.state, be.button, Keys::GLOBAL|Keys::ON_DESKTOP, 0, be.time)) { XAllowEvents(Fluxbox::instance()->display(), SyncPointer, CurrentTime); } else { XAllowEvents(Fluxbox::instance()->display(), ReplayPointer, CurrentTime); } } void BScreen::cycleFocus(int options, const ClientPattern *pat, bool reverse) { // get modifiers from event that causes this for focus order cycling XEvent ev = Fluxbox::instance()->lastEvent(); unsigned int mods = 0; if (ev.type == KeyPress) mods = FbTk::KeyUtil::instance().cleanMods(ev.xkey.state); else if (ev.type == ButtonPress) mods = FbTk::KeyUtil::instance().cleanMods(ev.xbutton.state); if (!m_state.cycling && mods) { m_state.cycling = true; FbTk::EventManager::instance()->grabKeyboard(rootWindow().window()); } if (mods == 0) // can't stacked cycle unless there is a mod to grab options |= FocusableList::STATIC_ORDER; const FocusableList *win_list = FocusableList::getListFromOptions(*this, options); focusControl().cycleFocus(*win_list, pat, reverse); } void BScreen::reconfigure() { Fluxbox *fluxbox = Fluxbox::instance(); focusedWinFrameTheme()->setAlpha(*resource.focused_alpha); unfocusedWinFrameTheme()->setAlpha(*resource.unfocused_alpha); m_menutheme->setAlpha(*resource.menu_alpha); clampMenuDelay(*resource.menu_delay); m_menutheme->setDelay(*resource.menu_delay); // provide the number of workspaces from the init-file const unsigned int nr_ws = *resource.workspaces; if (nr_ws > m_workspaces_list.size()) { while(nr_ws != m_workspaces_list.size()) { addWorkspace(); } } else if (nr_ws < m_workspaces_list.size()) { while(nr_ws != m_workspaces_list.size()) { removeLastWorkspace(); } } // update menu filenames m_rootmenu->reloadHelper()->setMainFile(fluxbox->getMenuFilename()); m_windowmenu->reloadHelper()->setMainFile(windowMenuFilename()); // reconfigure workspaces for_each(m_workspaces_list.begin(), m_workspaces_list.end(), mem_fn(&Workspace::reconfigure)); // reconfigure Icons for_each(m_icon_list.begin(), m_icon_list.end(), mem_fn(&FluxboxWindow::reconfigure)); imageControl().cleanCache(); // notify objects that the screen is reconfigured m_reconfigure_sig.emit(*this); // Reload style FbTk::ThemeManager::instance().load(fluxbox->getStyleFilename(), fluxbox->getStyleOverlayFilename(), m_root_theme->screenNum()); reconfigureTabs(); reconfigureStruts(); } void BScreen::reconfigureTabs() { const std::list winlist = focusControl().focusedOrderWinList().clientList(); std::list::const_iterator it = winlist.begin(), it_end = winlist.end(); for (; it != it_end; ++it) (*it)->fbwindow()->applyDecorations(); } static void parseStruts(const std::string &s, int &l, int &r, int &t, int &b) { std::list v; FbTk::StringUtil::stringtok(v, s, " ,"); std::list::iterator it = v.begin(); if (it != v.end()) l = std::max(0, atoi(it->c_str())); if (++it != v.end()) r = std::max(0, atoi(it->c_str())); if (++it != v.end()) t = std::max(0, atoi(it->c_str())); if (++it != v.end()) b = std::max(0, atoi(it->c_str())); } void BScreen::reconfigureStruts() { for (std::vector::iterator it = m_head_struts.begin(), end = m_head_struts.end(); it != end; ++it) { clearStrut(*it); } m_head_struts.clear(); int gl = 0, gr = 0, gt = 0, gb = 0; parseStruts(FbTk::Resource(resourceManager(), "", name() + ".struts", altName() + ".Struts"), gl, gr, gt, gb); const int nh = std::max(1, numHeads()); for (int i = 1; i <= nh; ++i) { int l = gl, r = gr, t = gt, b = gb; char ai[16]; sprintf(ai, "%d", i); parseStruts(FbTk::Resource(resourceManager(), "", name() + ".struts." + ai, altName() + ".Struts." + ai), l, r, t, b); if (l+t+r+b) m_head_struts.push_back(requestStrut(i, l, r, t, b)); } updateAvailableWorkspaceArea(); } void BScreen::updateWorkspaceName(unsigned int w) { Workspace *space = getWorkspace(w); if (space) { m_workspace_names[w] = space->name(); m_workspacenames_sig.emit(*this); Fluxbox::instance()->save_rc(); } } void BScreen::removeWorkspaceNames() { m_workspace_names.clear(); } void BScreen::addIcon(FluxboxWindow *w) { if (w == 0) return; // make sure we have a unique list if (find(iconList().begin(), iconList().end(), w) != iconList().end()) return; iconList().push_back(w); // notify listeners iconListSig().emit(*this); } void BScreen::removeIcon(FluxboxWindow *w) { if (w == 0) return; Icons::iterator erase_it = find_if(iconList().begin(), iconList().end(), std::bind(equal_to(), _1, w)); // no need to send iconlist signal if we didn't // change the iconlist if (erase_it != m_icon_list.end()) { iconList().erase(erase_it); iconListSig().emit(*this); } } void BScreen::removeWindow(FluxboxWindow *win) { fbdbg<<"BScreen::removeWindow("<workspaceNumber()); if (space != 0) space->removeWindow(win, false); } void BScreen::removeClient(WinClient &client) { focusControl().removeClient(client); if (client.fbwindow() && client.fbwindow()->isIconic()) iconListSig().emit(*this); using namespace FbTk; // remove any grouping this is expecting Groupables::iterator erase_it = find_if(m_expecting_groups.begin(), m_expecting_groups.end(), Compose(std::bind(equal_to(), _1, &client), Select2nd())); if (erase_it != m_expecting_groups.end()) m_expecting_groups.erase(erase_it); // the client could be on icon menu so we update it //!! TODO: check this with the new icon menu // updateIconMenu(); } int BScreen::addWorkspace() { bool save_name = getNameOfWorkspace(m_workspaces_list.size()) == ""; std::string name = getNameOfWorkspace(m_workspaces_list.size()); Workspace *ws = new Workspace(*this, name, m_workspaces_list.size()); m_workspaces_list.push_back(ws); if (save_name) { addWorkspaceName(ws->name().c_str()); m_workspacenames_sig.emit(*this); } saveWorkspaces(m_workspaces_list.size()); workspaceCountSig().emit( *this ); return m_workspaces_list.size(); } /// removes last workspace /// @return number of desktops left int BScreen::removeLastWorkspace() { if (m_workspaces_list.size() <= 1) return 0; Workspace *wkspc = m_workspaces_list.back(); if (m_current_workspace->workspaceID() == wkspc->workspaceID()) changeWorkspaceID(m_current_workspace->workspaceID() - 1); if (m_former_workspace && m_former_workspace->workspaceID() == wkspc->workspaceID()) m_former_workspace = 0; wkspc->removeAll(wkspc->workspaceID()-1); Icons::iterator it = iconList().begin(); const Icons::iterator it_end = iconList().end(); for (; it != it_end; ++it) { if ((*it)->workspaceNumber() == wkspc->workspaceID()) (*it)->setWorkspace(wkspc->workspaceID()-1); } m_clientlist_sig.emit(*this); //remove last workspace m_workspaces_list.pop_back(); saveWorkspaces(m_workspaces_list.size()); workspaceCountSig().emit( *this ); // must be deleted after we send notify!! // so we dont get bad pointers somewhere // while processing the notify signal delete wkspc; return m_workspaces_list.size(); } void BScreen::changeWorkspaceID(unsigned int id, bool revert) { if (! m_current_workspace || id >= m_workspaces_list.size() || id == m_current_workspace->workspaceID()) return; m_former_workspace = m_current_workspace; /* Ignore all EnterNotify events until the pointer actually moves */ this->focusControl().ignoreAtPointer(); FbTk::App::instance()->sync(false); Fluxbox::instance()->grab(); FluxboxWindow *focused = FocusControl::focusedFbWindow(); if (focused && focused->isMoving() && doOpaqueMove()) // don't reassociate if not opaque moving reassociateWindow(focused, id, true); // set new workspace Workspace *old = currentWorkspace(); m_current_workspace = getWorkspace(id); // we show new workspace first in order to appear faster currentWorkspace()->showAll(); // reassociate all windows that are stuck to the new workspace Workspace::Windows wins = old->windowList(); Workspace::Windows::iterator it = wins.begin(); for (; it != wins.end(); ++it) { if ((*it)->isStuck()) { reassociateWindow(*it, id, true); } } // change workspace ID of stuck iconified windows, too Icons::iterator icon_it = iconList().begin(); for (; icon_it != iconList().end(); ++icon_it) { if ((*icon_it)->isStuck()) (*icon_it)->setWorkspace(id); } if (focused && focused->isMoving() && doOpaqueMove()) focused->focus(); else if (revert) FocusControl::revertFocus(*this); old->hideAll(false); Fluxbox::instance()->ungrab(); FbTk::App::instance()->sync(false); m_currentworkspace_sig.emit(*this); // do this after atom handlers, so scripts can access new workspace number Fluxbox::instance()->keys()->doAction(FocusIn, 0, 0, Keys::ON_DESKTOP); } void BScreen::sendToWorkspace(unsigned int id, FluxboxWindow *win, bool changeWS) { if (! m_current_workspace || id >= m_workspaces_list.size()) return; if (!win) win = FocusControl::focusedFbWindow(); if (!win || &win->screen() != this || win->isStuck()) return; FbTk::App::instance()->sync(false); windowMenu().hide(); reassociateWindow(win, id, true); // change workspace ? if (changeWS) changeWorkspaceID(id, false); // if the window is on current workspace, show it; else hide it. if (id == currentWorkspace()->workspaceID() && !win->isIconic()) win->show(); else { win->hide(true); FocusControl::revertFocus(*this); } // send all the transients too FluxboxWindow::ClientList::iterator client_it = win->clientList().begin(); FluxboxWindow::ClientList::iterator client_it_end = win->clientList().end(); for (; client_it != client_it_end; ++client_it) { WinClient::TransientList::const_iterator it = (*client_it)->transientList().begin(); WinClient::TransientList::const_iterator it_end = (*client_it)->transientList().end(); for (; it != it_end; ++it) { if ((*it)->fbwindow()) sendToWorkspace(id, (*it)->fbwindow(), false); } } } bool BScreen::isKdeDockapp(Window client) const { //Check and see if client is KDE dock applet. bool iskdedockapp = false; Atom ajunk; int ijunk; unsigned long *data = 0, uljunk; Display *disp = FbTk::App::instance()->display(); // Check if KDE v2.x dock applet if (XGetWindowProperty(disp, client, atom_kde_systray, 0l, 1l, False, XA_WINDOW, &ajunk, &ijunk, &uljunk, &uljunk, (unsigned char **) &data) == Success) { if (data) iskdedockapp = true; XFree((void *) data); data = 0; } // Check if KDE v1.x dock applet if (!iskdedockapp) { if (XGetWindowProperty(disp, client, atom_kwm1, 0l, 1l, False, atom_kwm1, &ajunk, &ijunk, &uljunk, &uljunk, (unsigned char **) &data) == Success && data) { iskdedockapp = (data && data[0] != 0); XFree((void *) data); data = 0; } } return iskdedockapp; } bool BScreen::addKdeDockapp(Window client) { XSelectInput(FbTk::App::instance()->display(), client, StructureNotifyMask); FbTk::EventHandler *evh = 0; FbTk::EventManager *evm = FbTk::EventManager::instance(); AtomHandler* handler = 0; #if USE_SYSTRAY handler = Fluxbox::instance()->getAtomHandler(SystemTray::getNetSystemTrayAtom(screenNumber())); #endif if (handler == 0) { #ifdef USE_SLIT if (slit() != 0 && slit()->acceptKdeDockapp()) slit()->addClient(client); else #endif // USE_SLIT return false; } else { // this handler is a special case // so we call setupClient in it WinClient winclient(client, *this); handler->setupClient(winclient); // we need to save old handler and re-add it later evh = evm->find(client); } if (evh != 0) // re-add handler evm->add(*evh, client); return true; } FluxboxWindow *BScreen::createWindow(Window client) { Fluxbox* fluxbox = Fluxbox::instance(); fluxbox->sync(false); if (isKdeDockapp(client) && addKdeDockapp(client)) { return 0; // dont create a FluxboxWindow for this one } WinClient *winclient = new WinClient(client, *this); if (winclient->initial_state == WithdrawnState || winclient->getWMClassClass() == "DockApp") { delete winclient; #ifdef USE_SLIT if (slit() && !isKdeDockapp(client)) slit()->addClient(client); #endif // USE_SLIT return 0; } // check if it should be grouped with something else WinClient* other = findGroupLeft(*winclient); if (!other && m_placement_strategy->placementPolicy() == ScreenPlacement::AUTOTABPLACEMENT) other = FocusControl::focusedWindow(); FluxboxWindow* win = other ? other->fbwindow() : 0; if (other && win) { win->attachClient(*winclient); fluxbox->attachSignals(*winclient); } else { fluxbox->attachSignals(*winclient); if (winclient->fbwindow()) { // may have been set in an atomhandler win = winclient->fbwindow(); Workspace *workspace = getWorkspace(win->workspaceNumber()); if (workspace) workspace->updateClientmenu(); } else { win = new FluxboxWindow(*winclient); if (!win->isManaged()) { delete win; return 0; } } } // add the window to the focus list // always add to front on startup to keep the focus order the same if (win->isFocused() || fluxbox->isStartup()) focusControl().addFocusFront(*winclient); else focusControl().addFocusBack(*winclient); // we also need to check if another window expects this window to the left // and if so, then join it. if ((other = findGroupRight(*winclient)) && other->fbwindow() != win) win->attachClient(*other); else if (other) // should never happen win->moveClientRightOf(*other, *winclient); m_clientlist_sig.emit(*this); fluxbox->sync(false); return win; } FluxboxWindow *BScreen::createWindow(WinClient &client) { if (isKdeDockapp(client.window()) && addKdeDockapp(client.window())) { return 0; } FluxboxWindow *win = new FluxboxWindow(client); #ifdef SLIT if (slit() != 0) { if (win->initialState() == WithdrawnState) { slit()->addClient(client.window()); } else if (client->getWMClassClass() == "DockApp") { slit()->addClient(client.window()); } } #endif // SLIT if (!win->isManaged()) { delete win; return 0; } win->show(); // don't ask me why, but client doesn't seem to keep focus in new window // and we don't seem to get a FocusIn event from setInputFocus if ((focusControl().focusNew() || FocusControl::focusedWindow() == &client) && win->focus()) FocusControl::setFocusedWindow(&client); m_clientlist_sig.emit(*this); return win; } Strut *BScreen::requestStrut(int head, int left, int right, int top, int bottom) { if (head > numHeads() && head != 1) { // head does not exist (if head == 1, then numHeads() == 0, // which means no xinerama, but there's a head after all head = numHeads(); } int begin = head-1; int end = head; if (head == 0) { // all heads (or no xinerama) begin = 0; end = (numHeads() ? numHeads() : 1); } Strut* next = 0; for (int i = begin; i != end; i++) { next = m_head_areas[i]->requestStrut(i+1, left, right, top, bottom, next); } return next; } void BScreen::clearStrut(Strut *str) { if (str->next()) clearStrut(str->next()); int head = str->head() ? str->head() - 1 : 0; /* The number of heads may have changed, be careful. */ if (head < (numHeads() ? numHeads() : 1)) m_head_areas[head]->clearStrut(str); // str is invalid now } void BScreen::updateAvailableWorkspaceArea() { size_t n = (numHeads() ? numHeads() : 1); bool updated = false; for (size_t i = 0; i < n; i++) { updated = m_head_areas[i]->updateAvailableWorkspaceArea() || updated; } if (updated) m_workspace_area_sig.emit(*this); } void BScreen::addWorkspaceName(const char *name) { m_workspace_names.push_back(FbTk::FbStringUtil::LocaleStrToFb(name)); Workspace *wkspc = getWorkspace(m_workspace_names.size()-1); if (wkspc) wkspc->setName(m_workspace_names.back()); } string BScreen::getNameOfWorkspace(unsigned int workspace) const { if (workspace < m_workspace_names.size()) return m_workspace_names[workspace]; else return ""; } void BScreen::reassociateWindow(FluxboxWindow *w, unsigned int wkspc_id, bool ignore_sticky) { if (w == 0) return; if (wkspc_id >= numberOfWorkspaces()) wkspc_id = currentWorkspace()->workspaceID(); if (!w->isIconic() && w->workspaceNumber() == wkspc_id) return; if (w->isIconic()) { removeIcon(w); getWorkspace(wkspc_id)->addWindow(*w); } else if (ignore_sticky || ! w->isStuck()) { // fresh windows have workspaceNumber == -1, which leads to // an invalid workspace (unsigned int) Workspace* ws = getWorkspace(w->workspaceNumber()); if (ws) ws->removeWindow(w, true); getWorkspace(wkspc_id)->addWindow(*w); } } #if USE_TOOLBAR void BScreen::clearToolButtonMap() { m_toolButtonMap->clear(); } void BScreen::mapToolButton(std::string name, FbTk::TextButton *button) { m_toolButtonMap->insert(std::pair(name, button)); } bool BScreen::relabelToolButton(std::string button, std::string label) { ToolButtonMap::const_iterator it = m_toolButtonMap->find(button); if (it != m_toolButtonMap->end() && it->second) { it->second->setText(label); m_toolbar->relayout(); return true; } return false; } #endif void BScreen::initMenus() { m_workspacemenu.reset(MenuCreator::createMenuType("workspacemenu", screenNumber())); m_rootmenu->reloadHelper()->setMainFile(Fluxbox::instance()->getMenuFilename()); m_windowmenu->reloadHelper()->setMainFile(windowMenuFilename()); } void BScreen::rereadMenu() { m_rootmenu->removeAll(); m_rootmenu->setLabel(FbTk::BiDiString("")); Fluxbox * const fb = Fluxbox::instance(); if (!fb->getMenuFilename().empty()) MenuCreator::createFromFile(fb->getMenuFilename(), *m_rootmenu, m_rootmenu->reloadHelper()); if (m_rootmenu->numberOfItems() == 0) { _FB_USES_NLS; m_rootmenu->setLabel(_FB_XTEXT(Menu, DefaultRootMenu, "Fluxbox default menu", "Title of fallback root menu")); FbTk::RefCount > restart_fb(FbTk::CommandParser::instance().parse("restart")); FbTk::RefCount > exit_fb(FbTk::CommandParser::instance().parse("exit")); FbTk::RefCount > execute_xterm(FbTk::CommandParser::instance().parse("exec xterm")); m_rootmenu->setInternalMenu(); m_rootmenu->insertCommand("xterm", execute_xterm); m_rootmenu->insertCommand(_FB_XTEXT(Menu, Restart, "Restart", "Restart command"), restart_fb); m_rootmenu->insertCommand(_FB_XTEXT(Menu, Exit, "Exit", "Exit command"), exit_fb); } } const std::string BScreen::windowMenuFilename() const { std::string name = *resource.windowmenufile; if (name.empty()) { name = Fluxbox::instance()->getDefaultDataFilename("windowmenu"); } return name; } void BScreen::rereadWindowMenu() { m_windowmenu->removeAll(); if (!windowMenuFilename().empty()) MenuCreator::createFromFile(windowMenuFilename(), *m_windowmenu, m_windowmenu->reloadHelper()); } void BScreen::addConfigMenu(const FbTk::FbString &label, FbTk::Menu &menu) { FbTk::Menu* cm = m_configmenu.get(); if (cm) { int pos = cm->findSubmenuIndex(&menu); if (pos == -1) { // not found? add cm->insertSubmenu(label, &menu, pos); } } } void BScreen::removeConfigMenu(FbTk::Menu &menu) { FbTk::Menu* cm = m_configmenu.get(); if (cm) { int pos = cm->findSubmenuIndex(&menu); if (pos > -1) { cm->remove(pos); } } } void BScreen::addManagedResource(FbTk::Resource_base *resource) { m_managed_resources.push_back(resource); } int BScreen::getGap(int head, const char type) { return type == 'w' ? getXGap(head) : getYGap(head); } int BScreen::calRelativeSize(int head, int i, char type) { // return floor(i * getGap(head, type) / 100 + 0.5); return FbTk::RelCalcHelper::calPercentageValueOf(i, getGap(head, type)); } int BScreen::calRelativeWidth(int head, int i) { return calRelativeSize(head, i, 'w'); } int BScreen::calRelativeHeight(int head, int i) { return calRelativeSize(head, i, 'h'); } int BScreen::calRelativePosition(int head, int i, char type) { int max = type == 'w' ? maxLeft(head) : maxTop(head); // return floor((i - min) / getGap(head, type) * 100 + 0.5); return FbTk::RelCalcHelper::calPercentageOf((i - max), getGap(head, type)); } // returns a pixel, which is relative to the width of the screen // screen starts from 0, 1000 px width, if i is 10 then it should return 100 int BScreen::calRelativePositionWidth(int head, int i) { return calRelativePosition(head, i, 'w'); } // returns a pixel, which is relative to the height of th escreen // screen starts from 0, 1000 px height, if i is 10 then it should return 100 int BScreen::calRelativePositionHeight(int head, int i) { return calRelativePosition(head, i, 'h'); } int BScreen::calRelativeDimension(int head, int i, char type) { // return floor(i / getGap(head, type) * 100 + 0.5); return FbTk::RelCalcHelper::calPercentageOf(i, getGap(head, type)); } int BScreen::calRelativeDimensionWidth(int head, int i) { return calRelativeDimension(head, i, 'w'); } int BScreen::calRelativeDimensionHeight(int head, int i) { return calRelativeDimension(head, i, 'h'); } float BScreen::getXGap(int head) { return maxRight(head) - maxLeft(head); } float BScreen::getYGap(int head) { return maxBottom(head) - maxTop(head); } void BScreen::setupConfigmenu(FbTk::Menu &menu) { struct ConfigMenu::SetupHelper sh(*this, m_resource_manager, resource); menu.removeAll(); ConfigMenu::setup(menu, sh); menu.updateMenu(); } void BScreen::shutdown() { rootWindow().setEventMask(NoEventMask); FbTk::App::instance()->sync(false); m_state.shutdown = true; m_focus_control->shutdown(); for_each(m_workspaces_list.begin(), m_workspaces_list.end(), mem_fn(&Workspace::shutdown)); } void BScreen::showPosition(int x, int y) { if (!doShowWindowPos()) return; char buf[256]; snprintf(buf, sizeof(buf), "X:%5d x Y:%5d", x, y); FbTk::BiDiString label(buf); m_pos_window->showText(label); } void BScreen::hidePosition() { m_pos_window->hide(); } void BScreen::showGeometry(unsigned int gx, unsigned int gy) { if (!doShowWindowPos()) return; char buf[256]; _FB_USES_NLS; snprintf(buf, sizeof(buf), _FB_XTEXT(Screen, GeometryFormat, "W: %4d x H: %4d", "Format for width and height window, %4d for width, and %4d for height").c_str(), gx, gy); FbTk::BiDiString label(buf); m_geom_window->showText(label); } void BScreen::showTooltip(const FbTk::BiDiString &text) { if (*resource.tooltip_delay >= 0) m_tooltip_window->showText(text); } void BScreen::hideTooltip() { if (*resource.tooltip_delay >= 0) m_tooltip_window->hide(); } void BScreen::hideGeometry() { m_geom_window->hide(); } void BScreen::setLayer(FbTk::LayerItem &item, int layernum) { m_layermanager.moveToLayer(item, layernum); } /** Goes to the workspace "right" of the current */ void BScreen::nextWorkspace(int delta) { focusControl().stopCyclingFocus(); if (delta) changeWorkspaceID( (currentWorkspaceID() + delta) % numberOfWorkspaces()); else if (m_former_workspace) changeWorkspaceID(m_former_workspace->workspaceID()); } /** Goes to the workspace "left" of the current */ void BScreen::prevWorkspace(int delta) { focusControl().stopCyclingFocus(); if (delta) changeWorkspaceID( (static_cast(numberOfWorkspaces()) + currentWorkspaceID() - (delta % numberOfWorkspaces())) % numberOfWorkspaces()); else if (m_former_workspace) changeWorkspaceID(m_former_workspace->workspaceID()); } /** Goes to the workspace "right" of the current */ void BScreen::rightWorkspace(int delta) { focusControl().stopCyclingFocus(); if (currentWorkspaceID()+delta < numberOfWorkspaces()) changeWorkspaceID(currentWorkspaceID()+delta); } /** Goes to the workspace "left" of the current */ void BScreen::leftWorkspace(int delta) { focusControl().stopCyclingFocus(); if (currentWorkspaceID() >= static_cast(delta)) changeWorkspaceID(currentWorkspaceID()-delta); } void BScreen::renderGeomWindow() { char buf[256]; _FB_USES_NLS; const std::string msg = _FB_XTEXT(Screen, GeometrySpacing, "W: %04d x H: %04d", "Representative maximum sized text for width and height dialog"); const int n = snprintf(buf, sizeof(buf), msg.c_str(), 0, 0); FbTk::BiDiString label(std::string(buf, n)); m_geom_window->resizeForText(label); m_geom_window->reconfigTheme(); } void BScreen::renderPosWindow() { m_pos_window->resizeForText(FbTk::BiDiString("0:00000 x 0:00000")); m_pos_window->reconfigTheme(); } void BScreen::updateSize() { // update xinerama layout initXinerama(); // check if window geometry has changed if (rootWindow().updateGeometry()) { // reset background m_root_theme->reset(); // send resize notify m_resize_sig.emit(*this); m_workspace_area_sig.emit(*this); // move windows out of inactive heads clearHeads(); } } /** * Find the winclient to this window's left * So, we check the leftgroup hint, and see if we know any windows */ WinClient *BScreen::findGroupLeft(WinClient &winclient) { Window w = winclient.getGroupLeftWindow(); if (w == None) return 0; WinClient *have_client = Fluxbox::instance()->searchWindow(w); if (!have_client) { // not found, add it to expecting m_expecting_groups[w] = &winclient; } else if (&have_client->screen() != &winclient.screen()) // something is not consistent return 0; return have_client; } WinClient *BScreen::findGroupRight(WinClient &winclient) { Groupables::iterator it = m_expecting_groups.find(winclient.window()); if (it == m_expecting_groups.end()) return 0; // yay, this'll do. WinClient *other = it->second; m_expecting_groups.erase(it); // don't expect it anymore // forget about it if it isn't the left-most client in the group Window leftwin = other->getGroupLeftWindow(); if (leftwin != None && leftwin != winclient.window()) return 0; return other; } void BScreen::clearXinerama() { fbdbg<<"BScreen::initXinerama(): dont have Xinerama"<display(); int number = 0; XineramaScreenInfo *si = XineramaQueryScreens(display, &number); if (!si && number == 0) { clearXinerama(); return; } m_xinerama.avail = true; fbdbg<<"BScreen::initXinerama(): have Xinerama"<(win.width() / 2); int cy = win.y() + static_cast(win.height() / 2); head = getHead(cx, cy); if ( head == 0 ) { // if the center of the window is not on any head then select // the head which center is nearest to the window center long dist = -1; int i; for (i = 0; i < numHeads(); ++i) { const XineramaHeadInfo& hi = m_xinerama.heads[i]; long d = calcSquareDistance(cx, cy, hi.x() + (hi.width() / 2), hi.y() + (hi.height() / 2)); if (dist == -1 || d < dist) { // found a closer head head = i + 1; dist = d; } } } } #endif return head; } int BScreen::getCurrHead() const { if (!hasXinerama()) return 0; int root_x = 0, root_y = 0; #ifdef XINERAMA union { int i; unsigned int ui; Window w; } ignore; XQueryPointer(FbTk::App::instance()->display(), rootWindow().window(), &ignore.w, &ignore.w, &root_x, &root_y, &ignore.i, &ignore.i, &ignore.ui); #endif // XINERAMA return getHead(root_x, root_y); } int BScreen::getHeadX(int head) const { #ifdef XINERAMA if (head == 0 || head > numHeads()) return 0; return m_xinerama.heads[head-1].x(); #else return 0; #endif // XINERAMA } int BScreen::getHeadY(int head) const { #ifdef XINERAMA if (head == 0 || head > numHeads()) return 0; return m_xinerama.heads[head-1].y(); #else return 0; #endif // XINERAMA } int BScreen::getHeadWidth(int head) const { #ifdef XINERAMA if (head == 0 || head > numHeads()) return width(); return m_xinerama.heads[head-1].width(); #else return width(); #endif // XINERAMA } int BScreen::getHeadHeight(int head) const { #ifdef XINERAMA if (head == 0 || head > numHeads()) return height(); return m_xinerama.heads[head-1].height(); #else return height(); #endif // XINERAMA } pair BScreen::clampToHead(int head, int x, int y, int w, int h) const { // if there are multiple heads, head=0 is not valid // a better way would be to search the closest head if (head == 0 && numHeads() != 0) head = 1; int hx = getHeadX(head); int hy = getHeadY(head); int hw = getHeadWidth(head); int hh = getHeadHeight(head); x = FbTk::Util::clamp(x, hx, hx + hw - w); y = FbTk::Util::clamp(y, hy, hy + hh - h); return make_pair(x,y); }