func main() { if flagWriteConfig { writeConfigFiles() os.Exit(0) } X, err := xgbutil.NewConn() if err != nil { logger.Error.Println(err) logger.Error.Fatalln("Error connecting to X, quitting...") } defer X.Conn().Close() // Do this first! Attempt to retrieve window manager ownership. // This includes waiting for any existing window manager to die. // 'own' also sets up handlers for quitting when a window manager tries // to replace *us*. if err := own(X, flagReplace); err != nil { logger.Error.Fatalf( "Could not establish window manager ownership: %s", err) } if len(flagConfigDir) > 0 { misc.ConfigPaths.Override = flagConfigDir } if len(flagDataDir) > 0 { misc.DataPaths.Override = flagDataDir } misc.ReadData() keybind.Initialize(X) mousebind.Initialize(X) focus.Initialize(X) stack.Initialize(X) cursors.Initialize(X) wm.Initialize(X, commands.Env, newHacks()) hook.Initialize(commands.Env, misc.ConfigFile("hooks.wini")) // Listen to Root. It is all-important. err = xwindow.New(X, X.RootWin()).Listen( xproto.EventMaskPropertyChange | xproto.EventMaskFocusChange | xproto.EventMaskButtonPress | xproto.EventMaskButtonRelease | xproto.EventMaskStructureNotify | xproto.EventMaskSubstructureNotify | xproto.EventMaskSubstructureRedirect) if err != nil { logger.Error.Fatalf("Could not listen to Root window events: %s", err) } // Update state when the root window changes size wm.RootGeomChangeFun().Connect(X, wm.Root.Id) // Oblige map request events xevent.MapRequestFun( func(X *xgbutil.XUtil, ev xevent.MapRequestEvent) { xclient.New(ev.Window) }).Connect(X, wm.Root.Id) // Oblige configure requests from windows we don't manage. xevent.ConfigureRequestFun( func(X *xgbutil.XUtil, ev xevent.ConfigureRequestEvent) { // Make sure we aren't managing this client. if wm.FindManagedClient(ev.Window) != nil { return } xwindow.New(X, ev.Window).Configure(int(ev.ValueMask), int(ev.X), int(ev.Y), int(ev.Width), int(ev.Height), ev.Sibling, ev.StackMode) }).Connect(X, wm.Root.Id) xevent.FocusInFun( func(X *xgbutil.XUtil, ev xevent.FocusInEvent) { if ignoreRootFocus(ev.Mode, ev.Detail) { return } if len(wm.Workspace().Clients) == 0 { return } wm.FocusFallback() }).Connect(X, wm.Root.Id) // Listen to Root client message events. This is how we handle all // of the EWMH bullshit. xevent.ClientMessageFun(handleClientMessages).Connect(X, wm.Root.Id) // Tell everyone what we support. setSupported() // Start up the IPC command listener. go ipc() // Just before starting the main event loop, check to see if there are // any clients that already exist that we should manage. manageExistingClients() // Now make sure that clients are in the appropriate visible state. for _, wrk := range wm.Heads.Workspaces.Wrks { if wrk.IsVisible() { wrk.Show() } else { wrk.Hide() } } wm.Heads.ApplyStruts(wm.Clients) wm.FocusFallback() wm.Startup = false pingBefore, pingAfter, pingQuit := xevent.MainPing(X) if len(flagCpuProfile) > 0 { f, err := os.Create(flagCpuProfile) if err != nil { logger.Error.Fatalf("%s\n", err) } pprof.StartCPUProfile(f) defer pprof.StopCPUProfile() } if flagWingoRestarted { hook.Fire(hook.Restarted, hook.Args{}) } else { hook.Fire(hook.Startup, hook.Args{}) } EVENTLOOP: for { select { case <-pingBefore: // Wait for the event to finish processing. <-pingAfter case f := <-commands.SafeExec: commands.SafeReturn <- f() case <-pingQuit: break EVENTLOOP } } if wm.Restart { // We need to tell the next invocation of Wingo that it is being // *restarted*. (So that we don't refire the startup hook.) // Thus, search os.Args for "--wingo-restarted". If it doesn't exist, // add it. found := false for _, arg := range os.Args { if strings.ToLower(strings.TrimSpace(arg)) == "--wingo-restarted" { found = true } } if !found { os.Args = append(os.Args, "--wingo-restarted") } logger.Message.Println("The user has told us to restart...\n\n\n") if err := syscall.Exec(os.Args[0], os.Args, os.Environ()); err != nil { logger.Error.Fatalf("Could not exec '%s': %s", strings.Join(os.Args, " "), err) } } }
func rootInit(X *xgbutil.XUtil) { var err error // Listen to Root. It is all-important. evMasks := xproto.EventMaskPropertyChange | xproto.EventMaskFocusChange | xproto.EventMaskButtonPress | xproto.EventMaskButtonRelease | xproto.EventMaskStructureNotify | xproto.EventMaskSubstructureNotify | xproto.EventMaskSubstructureRedirect if wm.Config.FfmHead { evMasks |= xproto.EventMaskPointerMotion } err = xwindow.New(X, X.RootWin()).Listen(evMasks) if err != nil { logger.Error.Fatalf("Could not listen to Root window events: %s", err) } // Update state when the root window changes size wm.RootGeomChangeFun().Connect(X, wm.Root.Id) // Oblige map request events xevent.MapRequestFun( func(X *xgbutil.XUtil, ev xevent.MapRequestEvent) { xclient.New(ev.Window) }).Connect(X, wm.Root.Id) // Oblige configure requests from windows we don't manage. xevent.ConfigureRequestFun( func(X *xgbutil.XUtil, ev xevent.ConfigureRequestEvent) { // Make sure we aren't managing this client. if wm.FindManagedClient(ev.Window) != nil { return } xwindow.New(X, ev.Window).Configure(int(ev.ValueMask), int(ev.X), int(ev.Y), int(ev.Width), int(ev.Height), ev.Sibling, ev.StackMode) }).Connect(X, wm.Root.Id) xevent.FocusInFun( func(X *xgbutil.XUtil, ev xevent.FocusInEvent) { if ignoreRootFocus(ev.Mode, ev.Detail) { return } if len(wm.Workspace().Clients) == 0 { return } wm.FocusFallback() }).Connect(X, wm.Root.Id) // Listen to Root client message events. This is how we handle all // of the EWMH bullshit. xevent.ClientMessageFun(handleClientMessages).Connect(X, wm.Root.Id) // Check where the pointer is on motion events. If it's crossed a monitor // boundary, switch the focus of the head. if wm.Config.FfmHead { xevent.MotionNotifyFun(handleMotionNotify).Connect(X, wm.Root.Id) } }