/* -*- mode: js2; js2-basic-offset: 4; indent-tabs-mode: nil -*- */ const Clutter = imports.gi.Clutter; const Shell = imports.gi.Shell; const Signals = imports.signals; const Mainloop = imports.mainloop; const Tweener = imports.tweener.tweener; const Panel = imports.ui.panel; const Overlay = imports.ui.overlay; const RunDialog = imports.ui.runDialog; const WindowManager = imports.ui.windowManager; const DEFAULT_BACKGROUND_COLOR = new Clutter.Color(); DEFAULT_BACKGROUND_COLOR.from_pixel(0x2266bbff); let panel = null; let overlay = null; let overlayActive = false; let runDialog = null; let wm = null; // The "FrameTicker" object is an object used to feed new frames to Tweener // so it can update values and redraw. The default frame ticker for // Tweener just uses a simple timeout at a fixed frame rate and has no idea // of "catching up" by dropping frames. // // We substitute it with custom frame ticker here that connects Tweener to // a Clutter.TimeLine. Now, Clutter.Timeline itself isn't a whole lot more // sophisticated than a simple timeout at a fixed frame rate, but at least // it knows how to drop frames. (See HippoAnimationManager for a more // sophisticated view of continous time updates; even better is to pay // attention to the vertical vblank and sync to that when possible.) // function ClutterFrameTicker() { this._init(); } ClutterFrameTicker.prototype = { TARGET_FRAME_RATE : 60, _init : function() { // We don't have a finite duration; tweener will tell us to stop // when we need to stop, so use 1000 seconds as "infinity" this._timeline = new Clutter.Timeline({ fps: this.TARGET_FRAME_RATE, duration: 1000*1000 }); this._frame = 0; let me = this; this._timeline.connect('new-frame', function(timeline, frame) { me._onNewFrame(frame); }); }, _onNewFrame : function(frame) { // Unfortunately the interface to to send a new frame to tweener // is a simple "next frame" and there is no provision for signaling // that frames have been skipped or just telling it the new time. // But what it actually does internally is just: // // _currentTime += 1000/_ticker.FRAME_RATE; // // So by dynamically adjusting the value of FRAME_RATE we can trick // it into dealing with dropped frames. // If there is a lot of setup to start the animation, then // first frame number we get from clutter might be a long ways // into the animation (or the animation might even be done). // That looks bad, so we always start one frame into the // animation then only do frame dropping from there. let delta; if (this._frame == 0) delta = 1; else delta = frame - this._frame; if (delta == 0) // protect against divide-by-0 if we get a frame twice this.FRAME_RATE = this.TARGET_FRAME_RATE; else this.FRAME_RATE = this.TARGET_FRAME_RATE / delta; this._frame = frame; this.emit('prepare-frame'); }, start : function() { this._timeline.start(); }, stop : function() { this._timeline.stop(); this._frame = 0; } }; Signals.addSignalMethods(ClutterFrameTicker.prototype); function start() { let global = Shell.Global.get(); global.grab_dbus_service(); global.start_task_panel(); Tweener.setFrameTicker(new ClutterFrameTicker()); // The background color really only matters if there is no desktop // window (say, nautilus) running. We set it mostly so things look good // when we are running inside Xephyr. global.stage.color = DEFAULT_BACKGROUND_COLOR; // Mutter currently hardcodes putting "Yessir. The compositor is running"" // in the overlay. Clear that out. let children = global.overlay_group.get_children(); for (let i = 0; i < children.length; i++) children[i].destroy(); // metacity-clutter currently uses the same prefs as plain metacity, // which probably means we'll be starting out with multiple workspaces; // remove any unused ones let windows = global.get_windows(); let maxWorkspace = 0; for (let i = 0; i < windows.length; i++) { let win = windows[i]; if (!win.get_meta_window().is_on_all_workspaces() && win.get_workspace() > maxWorkspace) { maxWorkspace = win.get_workspace(); } } let screen = global.screen; if (screen.n_workspaces > maxWorkspace) { for (let w = screen.n_workspaces - 1; w > maxWorkspace; w--) { let workspace = screen.get_workspace_by_index(w); screen.remove_workspace(workspace, 0); } } global.connect('panel-run-dialog', function(panel) { // Make sure not more than one run dialog is shown. if (!runDialog) { runDialog = new RunDialog.RunDialog(); let end_handler = function() { runDialog.destroy(); runDialog = null; }; runDialog.connect('run', end_handler); runDialog.connect('cancel', end_handler); if (!runDialog.show()) end_handler(); } }); panel = new Panel.Panel(); global.set_stage_input_area(0, 0, global.screen_width, Panel.PANEL_HEIGHT); overlay = new Overlay.Overlay(); wm = new WindowManager.WindowManager(); let display = global.screen.get_display(); display.connect('overlay-key', function(display) { if (overlay.visible) { hide_overlay(); } else { show_overlay(); } }); } // Used to go into a mode where all keyboard and mouse input goes to // the stage. Returns true if we successfully grabbed the keyboard and // went modal, false otherwise function startModal() { let global = Shell.Global.get(); if (!global.grab_keyboard()) return false; global.set_stage_input_area(0, 0, global.screen_width, global.screen_height); return true; } function endModal() { let global = Shell.Global.get(); global.ungrab_keyboard(); global.set_stage_input_area(0, 0, global.screen_width, Panel.PANEL_HEIGHT); } function show_overlay() { if (startModal()) { overlayActive = true; overlay.show(); } } function hide_overlay() { overlay.hide(); overlayActive = false; endModal(); }