# -*- coding: utf-8 -*- # Copyright © 2008 Chris Jones # Copyright © 2009-2011 Francesco Fumanti # Copyright © 2012 Gerd Kohlberger # Copyright © 2010-2017 marmuta # # This file is part of Onboard. # # Onboard is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # Onboard is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from __future__ import division, print_function, unicode_literals import time from Onboard.Version import require_gi_versions require_gi_versions() from gi.repository import GObject, GLib, GdkX11, Gdk, Gtk from Onboard.definitions import DockingMonitor from Onboard.utils import Rect, Version from Onboard.Timer import CallOnce, Timer from Onboard.WindowUtils import Orientation, WindowRectPersist, \ WindowRectTracker, set_unity_property, \ gtk_has_resize_grip_support, \ get_monitor_dimensions, \ physical_to_monitor_pixel_size import Onboard.osk as osk ### Logging ### import logging _logger = logging.getLogger("KbdWindow") ############### ### Config Singleton ### from Onboard.Config import Config config = Config() ######################## class KbdWindowBase: """ Very messy class holds the keyboard widget. The mess is the docked window support which is disable because of numerous metacity bugs. """ def __init__(self, keyboard_widget, icp): _logger.debug("Entered in __init__") self._osk_util = osk.Util() self._osk_struts = osk.Struts() self.application = None self.keyboard_widget = keyboard_widget self.icp = icp self.supports_alpha = False self._visible = False self._sticky = False self._iconified = False self._maximized = False self._screen_resizing = False self._docking_enabled = False self._docking_edge = None self._docking_rect = Rect() self._docking_monitor = None self._shrink_work_area = False self._dock_expand = False self._current_struts = None self._current_docking_monitor = None self._monitor_workarea = {} if gtk_has_resize_grip_support(): self._default_resize_grip = self.get_has_resize_grip() else: self._default_resize_grip = False self._type_hint = None self._known_window_rects = [] self._written_window_rects = {} self._written_dock_sizes = {} self._auto_position_started = False self._desktop_switch_count = 0 self._moved_desktop_switch_count = 0 self.set_accept_focus(False) self.set_app_paintable(True) self.set_keep_above(True) #Gtk.Settings.get_default().set_property("gtk-touchscreen-mode", True) Gtk.Window.set_default_icon_name("onboard") self.set_title(_("Onboard")) self.connect("window-state-event", self._cb_window_state_event) self.connect("visibility-notify-event", self._cb_visibility_notify) self.connect('screen-changed', self._cb_screen_changed) self.connect('composited-changed', self._cb_composited_changed) self.connect("realize", self._cb_realize_event) self.connect("unrealize", self._cb_unrealize_event) self.connect("configure-event", self._on_configure_event) self.detect_window_manager() self.check_alpha_support() self.update_unrealize_options() self.add(self.keyboard_widget) _logger.debug("Leaving __init__") def cleanup(self): pass def _cb_screen_changed(self, widget, old_screen=None): self.detect_window_manager() self.check_alpha_support() self.queue_draw() def _cb_composited_changed(self, widget): self.detect_window_manager() self.check_alpha_support() self.queue_draw() def emit_quit_onboard(self): self.emit("quit-onboard") def detect_window_manager(self): """ Detect the WM and select WM specific behavior. Doctests: >>> osk_util = osk.Util() >>> len(osk_util.get_current_wm_name().lower()) > 0 True """ wm = config.quirks_name if not wm: # Returns None on X error BadWindow (LP: 1016980) # Keep the same quirks as before in that case. wm = self._osk_util.get_current_wm_name() if wm: config.quirks = None for cls in [WMQuirksCompiz, WMQuirksMetacity, WMQuirksMutter]: if wm.lower() in cls.wms: config.quirks = cls() break if not config.quirks: config.quirks = WMQuirksDefault() _logger.debug("window manager: {}".format(wm)) _logger.debug("quirks selected: {}" \ .format(str(config.quirks.__class__))) return True def check_alpha_support(self): screen = self.get_screen() visual = screen.get_rgba_visual() self.supports_alpha = \ visual and \ (screen.is_composited() or \ config.launched_by == config.LAUNCHER_UNITY_GREETER) self.keyboard_widget.supports_alpha = self.supports_alpha _logger.debug("screen changed, supports_alpha={}" \ .format(self.supports_alpha)) # Unity may start onboard early, where there is no compositing # enabled yet. If we set the visual later the window never becomes # transparent -> do it as soon as there is an rgba visual. if visual: self.set_visual(visual) self.keyboard_widget.set_visual(visual) # Somehow Gtk 3.4 still needs these now deprecated calls, # even though IconPalette and LabelPopups don't. # Otherwise there will be a white background. gtk_version = Version(Gtk.MAJOR_VERSION, Gtk.MINOR_VERSION) if gtk_version < Version(3, 18): # Xenial doesn't need them self.override_background_color( Gtk.StateFlags.NORMAL, Gdk.RGBA(0, 0, 0, 0)) self.keyboard_widget.override_background_color( Gtk.StateFlags.NORMAL, Gdk.RGBA(0, 0, 0, 0)) else: _logger.info(_("no window transparency available;" " screen doesn't support alpha channels")) return False def _show_first_time(self): self.update_window_options() self.update_window_scaling_factor(True) self.pre_render_keys(*self.get_size()) self.show() def move_resize(self, x, y, w, h): if not self.keyboard_widget.is_drag_initiated(): self.pre_render_keys(w, h) super(KbdWindowBase, self).move_resize(x, y, w, h) def pre_render_keys(self, w, h): self.keyboard_widget.pre_render_keys(self, w, h) def get_min_window_size(self): min_mm = (50, 20) # just large enough to grab with a 3 finger gesture return physical_to_monitor_pixel_size(self, min_mm, (150, 100)) def _cb_realize_event(self, user_data): """ Gdk window created """ # Disable maximize function (LP #859288) # unity: no effect, but double click on top bar unhides anyway # unity-2d: works and avoids the bug self.get_window().set_functions(Gdk.WMFunction.RESIZE | \ Gdk.WMFunction.MOVE | \ Gdk.WMFunction.MINIMIZE | \ Gdk.WMFunction.CLOSE) set_unity_property(self) if not config.xid_mode: # not when embedding ord = config.is_override_redirect() if ord: self.set_override_redirect(True) self.update_taskbar_hint() self.restore_window_rect(startup = True) # set min window size for unity MT grab handles geom = Gdk.Geometry() geom.min_width, geom.min_height = self.get_min_window_size() if _logger.isEnabledFor(logging.DEBUG): screen = self.get_screen() _logger.debug("_cb_realize_event, screen size {}x{}" .format(screen.width(), screen.height())) size, size_mm = get_monitor_dimensions(self) _logger.debug("_cb_realize_event, " "monitor dimensions: {} pixel, {} mm" .format(repr(size), repr(size_mm))) _logger.debug("_cb_realize_event, get_min_window_size(): {} {}" .format(geom.min_width, geom.min_height)) self.set_geometry_hints(self, geom, Gdk.WindowHints.MIN_SIZE) def _cb_unrealize_event(self, user_data): """ Gdk window destroyed """ self.update_unrealize_options() def update_unrealize_options(self): if not config.xid_mode: # not when embedding self.set_decorated(config.window.window_decoration) type_hint = config.quirks.get_window_type_hint(self) self.set_type_hint(type_hint) self._type_hint = type_hint def update_window_options(self, startup = False): if not config.xid_mode: # not when embedding recreate = False # Window decoration toggled? decorated = config.window.window_decoration if decorated != self.get_decorated(): recreate = True # Override redirect toggled? ord = config.is_override_redirect() if ord != self.get_override_redirect(): recreate = True # Window type hint changed? type_hint = config.quirks.get_window_type_hint(self) if type_hint != self._type_hint: recreate = True # (re-)create the gdk window? if recreate: self._recreate_window() # Show the resize gripper? if gtk_has_resize_grip_support(): if config.has_window_decoration(): self.set_has_resize_grip(self._default_resize_grip) else: self.set_has_resize_grip(False) self.update_sticky_state() def _recreate_window(self): _logger.info("recreating window - window options changed") visible = None if self.get_realized(): # not starting up? visible = self.is_visible() self.hide() self.unrealize() self.realize() if not visible is None: Gtk.Window.set_visible(self, visible) def update_sticky_state(self): if not config.xid_mode: # Always on visible workspace? sticky = config.get_sticky_state() if self._sticky != sticky: self._sticky = sticky if sticky: self.stick() else: self.unstick() if self.icp: self.icp.update_sticky_state() def update_taskbar_hint(self): config.quirks.update_taskbar_hint(self) def _on_configure_event(self, widget, event): self.update_window_rect() self.update_window_scaling_factor() if _logger.isEnabledFor(logging.DEBUG): _logger.debug( "configure-event: event {}, allocated {}, " "window {}, scaling factor {}" .format(Rect(event.x, event.y, event.width, event.height), (self.get_allocated_width(), self.get_allocated_height()), self.get_rect(), config.window_scaling_factor)) def update_window_scaling_factor(self, startup = False): """ check for changes to the window-scaling-factor """ scale = self.get_scale_factor() _logger.debug("update_window_scaling_factor: scale {}" .format(scale)) if not scale is None and \ config.window_scaling_factor != scale: config.window_scaling_factor = scale _logger.info("new window-scaling-factor '{}'".format(scale)) keyboard = self.keyboard_widget.keyboard # In override redirect mode the window gets stuck with # the old scale -> recreate it if config.is_override_redirect() and \ not startup and \ not config.xid_mode: self._recreate_window() # Release pressed keys in case the switch was initiated # by Onboard, e.g. with the Return key in the terminal. keyboard.release_pressed_keys() # invalidate all images and key surfaces self.keyboard_widget.invalidate_images() keyboard.invalidate_ui() keyboard.commit_ui_updates() def is_visible(self): if not self.get_mapped(): return False return self._visible def set_visible(self, visible): # Lazily show the window for smooth startup, # in particular with force-to-top mode enabled. if not self.get_realized(): self._show_first_time() # Make sure the move button stays visible # Do this on hiding the window, because the window position # is unreliable when unhiding. if not visible and \ self.can_move_into_view(): self.move_home_rect_into_view() config.quirks.set_visible(self, visible) self.on_visibility_changed(visible) def on_visibility_changed(self, visible): if not visible: keyboard = self.keyboard_widget.keyboard keyboard.stop_raise_attempts() visible_before = self._visible self._visible = visible if not self._screen_resizing: if visible: self.set_icp_visible(False) self.update_sticky_state() else: # show the icon palette if config.is_icon_palette_in_use(): self.set_icp_visible(True) # update indicator menu for unity and unity2d # not necessary but doesn't hurt in gnome-shell, gnome classic if self.application: status_icon = self.application.status_icon if status_icon: status_icon.update_menu_items() service = self.application.service_keyboard if service: service.PropertiesChanged(service.IFACE, {'Visible': visible}, ['Visible']) def set_opacity(self, opacity): self.keyboard_widget.set_opacity(opacity) def get_opacity(self): return self.keyboard_widget.get_opacity() def is_maximized(self): return self._maximized def is_iconified(self): # Force-to-top windows are ignored by the window manager # and cannot be in iconified state. if config.is_force_to_top(): return False return self._iconified def set_icp_visible(self, visible): """ Show/hide the icon palette """ if self.icp: if visible: self.icp.show() else: self.icp.hide() def _cb_visibility_notify(self, widget, event): pass def _cb_window_state_event(self, widget, event): """ This is the callback that gets executed when the user hides the onscreen keyboard by using the minimize button in the decoration of the window. Fails to be called when iconifying in gnome-shell (Oneiric). Fails to be called when iconifying in unity (Precise). Still keep it around for sticky changes. """ _logger.debug("window-state-event: {}, {}" .format(event.changed_mask, event.new_window_state)) if event.changed_mask & Gdk.WindowState.MAXIMIZED: self._maximized = bool(event.new_window_state & Gdk.WindowState.MAXIMIZED) if event.changed_mask & Gdk.WindowState.ICONIFIED: self._iconified = bool(event.new_window_state & Gdk.WindowState.ICONIFIED) self._on_iconification_state_changed(self._iconified) if event.changed_mask & Gdk.WindowState.STICKY: self._sticky = bool(event.new_window_state & Gdk.WindowState.STICKY) def _on_iconification_state_changed(self, iconified): visible = not iconified was_visible = self.is_visible() self.on_visibility_changed(visible) # Cancel visibility transitions still in progress self.keyboard_widget.transition_visible_to(visible, 0.0) if was_visible != visible: if visible: # Hiding may have left the window opacity at 0. # Ramp up the opacity when it was unminimized by # clicking the (unity) launcher. self.keyboard_widget.update_transparency() # - Unminimizing from unity-2d launcher is a user # triggered unhide -> lock auto-show visible. # - Minimizing while locked visible -> unlock keyboard = self.keyboard_widget.keyboard keyboard.update_auto_show_on_visibility_change(visible) return def on_transition_done(self, visible_before, visible_now): pass def do_set_gravity(self, edgeGravity): ''' This will place the window on the edge corresponding to the edge gravity ''' _logger.debug("Entered in do_set_gravity") self.edgeGravity = edgeGravity width, height = self.get_size() geom = self.get_screen().get_monitor_geometry(0) eg = self.edgeGravity x = 0 y = 0 if eg == Gdk.Gravity.SOUTH: y = geom.height - height y += 29 #to account for panel. self.move(x, y) GLib.idle_add(self.do_set_strut) def do_set_strut(self): _logger.debug("Entered in do_set_strut") propvals = [0,0,0,0,0,0,0,0,0,0,0,0] """propvals = [0,#left 0, #right 0, #top 300,#bottom 0,#left_start_y 0,#left_end_y 0,#right_start_y 0,#right_end_y 0,#top_start_x 0,#top_end_x 0,#bottom_start_x 3000]#bottom_end_x""" screen = self.get_screen() biggestHeight = 0 for n in range(screen.get_n_monitors()): tempHeight = screen.get_monitor_geometry(n).height if biggestHeight < tempHeight: biggestHeight = tempHeight eg = self.edgeGravity x, y = self.window.get_origin() width,height = self.get_size() if eg == Gdk.Gravity.NORTH: propvals[2] = height + y propvals[9] = width elif eg == Gdk.Gravity.SOUTH and y != 0: propvals[3] = biggestHeight - y propvals[11] = width - 1 # tell window manager to not overlap buttons with maximized window self.window.property_change("_NET_WM_STRUT_PARTIAL", "CARDINAL", 32, Gdk.PropMode.REPLACE, propvals) self.queue_resize_no_redraw() def can_move_into_view(self): return not config.xid_mode and \ not config.has_window_decoration() and \ not config.is_docking_enabled() def get_orientation_config_object(self): return None class KbdWindow(KbdWindowBase, WindowRectPersist, Gtk.Window): # Minimum window size (for resizing in system mode, see handle_motion()) MINIMUM_SIZE = 20 home_rect = None def __init__(self, keyboard_widget, icp): self._last_ignore_configure_time = None self._last_configures = [] self._was_visible = False self._user_positioning_begin_rect = Rect() Gtk.Window.__init__(self, urgency_hint = False, width_request=self.MINIMUM_SIZE, height_request=self.MINIMUM_SIZE) KbdWindowBase.__init__(self, keyboard_widget, icp) WindowRectPersist.__init__(self) GObject.signal_new("quit-onboard", KbdWindow, GObject.SignalFlags.RUN_LAST, GObject.TYPE_BOOLEAN, ()) self._auto_position_poll_timer = Timer() self.restore_window_rect(startup = True) self.connect("map", self._on_map_event) self.connect("unmap", self._on_unmap_event) self.connect("delete-event", self._on_delete_event) # Connect_after seems broken in Quantal, the callback is never called. #self.connect_after("configure-event", self._on_configure_event_after) self._osk_util.connect_root_property_notify(["_NET_WORKAREA", "_NET_CURRENT_DESKTOP"], self._on_root_property_notify) once = CallOnce(100).enqueue # call at most once per 100ms rect_changed = lambda x: once(self._on_config_rect_changed) config.window.position_notify_add(rect_changed) config.window.size_notify_add(rect_changed) dock_size_changed = lambda x: once(self._on_config_dock_size_changed) config.window.dock_size_notify_add(dock_size_changed) def cleanup(self): WindowRectPersist.cleanup(self) KbdWindowBase.cleanup(self) if self.icp: self.icp.cleanup() self.icp.destroy() self.icp = None def _on_root_property_notify(self, property): """ Fixme: Exceptions get lost in here.""" if property == "_NET_WORKAREA": if config.is_docking_enabled() and \ not config.xid_mode: monitor = self.get_docking_monitor() new_area = self.get_monitor_workarea(monitor) area = self._monitor_workarea.get(monitor) if area: # Only check for x changes, y is too dangerous for now, # too easy to get the timing wrong and end up with double docks. if area.x != new_area.x or \ area.w != new_area.w: area.x = new_area.x area.w = new_area.w _logger.info("workarea changed to {}, " "using {} for docking." \ .format(str(new_area), str(area))) self.update_docking() elif property == "_NET_CURRENT_DESKTOP": # OpenBox: Make sure to move the keyboard to the new desktop # on the next occasion. # Unity: Never reached (Raring), _NET_CURRENT_DESKTOP isn't # set when switching desktops there. However we do get a # configure event, so the transitioning code moves the # window and it is brought to the current desktop anyway. self._desktop_switch_count += 1 def _on_map_event(self, user_data): pass def _on_unmap_event(self, user_data): # Turn off struts in case this unmap is in response to # changes in window options, force-to-top in particular. if config.is_docking_enabled(): self.clear_struts() # untity starts onboard before the desktops # workarea has settled, reset it here on hiding, # as we know our struts are gone from this point. self.reset_monitor_workarea() def on_visibility_changed(self, visible): if not self._visible and visible and \ not config.is_docking_enabled() and \ not config.xid_mode: rect = self.get_current_rect() if not rect is None: # shouldn't happen, fix this self.move_resize(*rect) # sync position self.keyboard_widget.sync_transition_position(rect) KbdWindowBase.on_visibility_changed(self, visible) def _on_config_rect_changed(self): """ Gsettings position or size changed """ if not config.xid_mode and \ not config.is_docking_enabled(): orientation = self.get_screen_orientation() rect = self.read_window_rect(orientation) # Only apply the new rect if it isn't the one we just wrote to # gsettings. Someone has to have manually changed the values # in gsettings to allow moving the window. rects = list(self._written_window_rects.values()) if not any(rect == r for r in rects): self.restore_window_rect() def _on_config_dock_size_changed(self): """ Gsettings size changed """ if not config.xid_mode and \ config.is_docking_enabled(): size = self.get_dock_size() # Only apply the new rect if it isn't the one we just wrote to # gsettings. Someone has to have manually changed the values # in gsettings to allow moving the window. sizes = list(self._written_dock_sizes.values()) if not any(size == sz for sz in sizes): self.restore_window_rect() def on_user_positioning_begin(self): keyboard = self.keyboard_widget.keyboard self.stop_save_position_timer() self.stop_auto_positioning() keyboard.stop_raise_attempts() keyboard.auto_show_lock("user-positioning") self._user_positioning_begin_rect = self.get_rect() def on_user_positioning_done(self): self.update_window_rect() # self.detect_docking() if config.is_docking_enabled(): self.write_docking_size(self.get_screen_orientation(), self.get_size()) self.update_docking() else: # Attempt to filter out accidental resize frame clicks to prevent # losing the home position without clear user intention. proximity = 30 rh = self.get_home_rect() began_near_home = \ self._user_positioning_begin_rect.inflate(proximity) \ .intersection(rh) == rh moved = self.keyboard_widget.was_moving() update_home_position = began_near_home or moved self.update_home_rect(update_home_position) # Thaw auto show only after a short delay to stop the window # from hiding due to spurios focus events after a system resize. keyboard = self.keyboard_widget.keyboard keyboard.auto_show_lock("user-positioning", 1.0) def detect_docking(self): if self.keyboard_widget.was_moving(): config.window.docking_enabled = False def _on_configure_event(self, widget, event): KbdWindowBase._on_configure_event(self, widget, event) if not config.is_docking_enabled(): # Connect_after seems broken in Quantal, but we still need to # get in after the default configure handler is done. Try to run # _on_configure_event_after in an idle handler instead. GLib.idle_add(self._on_configure_event_after, widget, event.copy()) def _on_configure_event_after(self, widget, event): """ Run this after KeyboardWidget's configure handler. After resizing Keyboard.update_layout() has to be called before limit_position() or the window jumps when it was close to the opposite screen edge of the resize handle. """ # Configure event due to user positioning? result = self._filter_configure_event(self._window_rect) if result == 0: self.update_home_rect() # While moving with the title bar... if config.has_window_decoration(): # stop auto-show from hiding the keyboard keyboard = self.keyboard_widget.keyboard keyboard.auto_show_lock("configure-event", 1.0) # cut off any leftover auto-show repositioning self.stop_auto_positioning() # keep the window active (LP: #1461823) self.keyboard_widget.touch_inactivity_timer() def _filter_configure_event(self, rect): """ Returns 0 for detected user positioning/sizing. Multiple defenses against false positives, i.e. window movement by autoshow, screen rotation, whathaveyou. """ # There is no user positioning in xembed mode. if config.xid_mode: return -1 # There is no system provided way to move/resize in # force-to-top mode. Solely rely on on_user_positioning_done(). if config.is_force_to_top(): return -2 # There is no user positioning for invisible windows. if not self.is_visible(): return -3 # There is no user positioning for iconified windows. if self.is_iconified(): return -4 # There is no user positioning for maximized windows. if self.is_maximized(): return -5 # Remember past n configure events. now = time.time() max_events = 4 self._last_configures = self._last_configures[-(max_events - 1):] # Same rect as before? if len(self._last_configures) and \ self._last_configures[-1][0] == rect: return 1 self._last_configures.append([rect, now]) # Only just started? if len(self._last_configures) < max_events: return 2 # Did we just move the window by auto-show? if not self._last_ignore_configure_time is None and \ time.time() - self._last_ignore_configure_time < 0.5: return 3 # Is the new window rect one of our known ones? if self.is_known_rect(self._window_rect): return 4 # Dragging the decorated frame doesn't produce continous # configure-events anymore as in Oneriric (Precise). # Disable all affected checks based on this. # The home rect will probably get lost occasionally. if not config.has_window_decoration(): # Less than n configure events in the last x seconds? first = self._last_configures[0] intervall = now - first[1] if intervall > 1.0: return 5 # Is there a jump > threshold in past positions? r0 = self._last_configures[-1][0] r1 = self._last_configures[-2][0] dx = r1.x - r0.x dy = r1.y - r0.y d2 = dx * dx + dy * dy if d2 > 50**2: self._last_configures = [] # restart return 6 return 0 def ignore_configure_events(self): self._last_ignore_configure_time = time.time() def remember_rect(self, rect): """ Remember the last 3 rectangles of auto-show repositioning. Time and order of configure events is somewhat unpredictable, so don't rely only on a single remembered rect. """ self._known_window_rects = self._known_window_rects[-3:] self._known_window_rects.append(rect) # Remembering the rects doesn't help if respositioning outside # of the work area in compiz with force-to-top mode disabled. # WM corrects window positions to fit into the viewable area. # -> add timing based block self.ignore_configure_events() def get_known_rects(self): """ Return all rects that may have resulted from internal window moves, not from user controlled drag operations. """ rects = list(self._known_window_rects) co = config.window.landscape rects.append(Rect(co.x, co.y, co.width, co.height)) co = config.window.portrait rects.append(Rect(co.x, co.y, co.width, co.height)) rects.append(self.home_rect) return rects def is_known_rect(self, rect): """ The home rect should be updated in response to user positiong/resizing. However we are unable to detect the end of window movement/resizing when window decoration is enabled. Instead we check if the current window rect is different from the ones auto-show knows and assume the user has changed it in this case. """ return any(rect == r for r in self.get_known_rects()) def move_home_rect_into_view(self): """ Make sure the home rect is valid, move it if necessary. This function may be called even if the window is invisible. """ rect = self._window_rect.copy() x, y = rect.x, rect.y _x, _y = self.keyboard_widget.limit_position(x, y) if _x != x or _y != y: self.update_home_rect() def update_home_rect(self, update_home_position=True): if config.is_docking_enabled(): return # update home rect rect = self._window_rect.copy() if not update_home_position: rh = self.home_rect rect.x = rh.x rect.y = rh.y # Make sure the move button stays visible if self.can_move_into_view(): rect.x, rect.y = self.keyboard_widget.limit_position(rect.x, rect.y) self.home_rect = rect.copy() self.start_save_position_timer() # Make transitions aware of the new position, # undoubtedly reached by user positioning. # Else, window snaps back to the last transition position. self.keyboard_widget.sync_transition_position(rect) def get_home_rect(self): """ Get the un-repositioned rect, the one auto-show falls back to when there is nowhere else to move. """ if config.is_docking_enabled(): rect = self.get_dock_rect() else: rect = self.home_rect return rect def get_visible_rect(self): """ Returns the rect of the visible window rect with auto-show repositioning taken into account. """ home_rect = self.get_home_rect() # aware of docking rect = home_rect if config.is_auto_show_enabled(): r = self.get_repositioned_window_rect(home_rect) if not r is None: rect = r return rect def auto_position(self): self._auto_position_started = True # Leave the first commit to AutoShow._begin_transition() self.update_position(False) # With docking enabled, when focusing the search entry of a # maximized firefox window, it changes position when the work # area shrinks and ends up below Onboard. # -> periodically update the window position for a little while, # this way slow systems can catch up too eventually (Nexus 7). self._poll_auto_position_start_time = time.time() start_delay = 0.1 self._auto_position_poll_timer.start(start_delay, self._on_auto_position_poll, start_delay) def _on_auto_position_poll(self, delay): self.update_position() # start another timer for progressively longer intervals delay = min(delay * 2.0, 1.0) if time.time() + delay < self._poll_auto_position_start_time + 3.0: self._auto_position_poll_timer.start(delay, self._on_auto_position_poll, delay) return True else: return False def stop_auto_positioning(self): self._auto_position_poll_timer.stop() def update_position(self, commit=True): home_rect = self.get_home_rect() rect = self.get_repositioned_window_rect(home_rect) if rect is None: # move back home rect = home_rect if self.get_position() != rect.get_position(): self.keyboard_widget.transition_position_to(rect.x, rect.y) if commit: self.keyboard_widget.commit_transition() def get_repositioned_window_rect(self, home_rect): if config.can_auto_show_reposition(): clearance = config.auto_show.widget_clearance test_clearance = clearance move_clearance = clearance limit_rects = None # None: all monitors # No test clearance when docking. Make it harder to jump # out of the dock, for example for the bottom search box # in maximized firefox. if config.is_docking_enabled(): test_clearance = (clearance[0], 0, clearance[2], 0) # limit the horizontal freedom to the docking monitor area, geom = self.get_docking_monitor_rects() limit_rects = [area] horizontal, vertical = self.get_repositioning_constraints() keyboard = self.keyboard_widget.keyboard rect = keyboard.get_auto_show_repositioned_window_rect( \ self.keyboard_widget, home_rect, limit_rects, test_clearance, move_clearance, horizontal, vertical) else: rect = None return rect def reposition(self, x, y): """ Move the window from a transition, not meant for user positioning. """ # remember rects to distinguish from user move/resize w, h = self.get_size() self.remember_rect(Rect(x, y, w, h)) # In Trusty, Compiz, floating window with force-to-top enabled, # this window's configure-event lies about the window position # after un-hiding by auto-show, which leads to jumping when # moving or resizing afterwards. # # Test case: # 1) Start onboard with auto-show enabled # 2) Focus text entry to show the keyboard # 3) Move the keyboard # 4) Unfocus all text entries to hide the keyboard # 5) Focus text entry to show the keyboard # 6) Move the keyboard # -> keyboard jumps to the previous position # # Workaround: force position change to get new, hopefully # correct configure-events if self._auto_position_started: self._auto_position_started = False if config.quirks.must_fix_configure_event(): self.move(x-1, y) self.move(x, y) def get_repositioning_constraints(self): """ Return allowed respositioning directions for auto-show. """ if config.is_docking_enabled() and \ self.get_dock_expand(): return False, True else: return True, True def get_hidden_rect(self): """ Returns the rect of the hidden window with auto-show repositioning taken into account. """ if config.is_docking_enabled(): return self.get_docking_hideout_rect() return self.get_visible_rect() def get_current_rect(self): """ Returns the window rect with auto-show repositioning taken into account. """ if self.is_visible(): rect = self.get_visible_rect() else: rect = self.get_hidden_rect() return rect def on_restore_window_rect(self, rect): """ Overload for WindowRectPersist. """ if not config.is_docking_enabled(): self.home_rect = rect.copy() # check for alternative auto-show position r = self.get_current_rect() if r != rect: # remember our rects to distinguish from user move/resize self.remember_rect(r) rect = r self.keyboard_widget.sync_transition_position(rect) return rect def on_save_window_rect(self, rect): """ Overload for WindowRectPersist. """ # Ignore (self._window_rect), it may just be a temporary one # set by auto-show. Save the user selected home_rect instead. return self.home_rect def read_window_rect(self, orientation): """ Read orientation dependent rect. Overload for WindowRectPersist. """ if orientation == Orientation.LANDSCAPE: co = config.window.landscape else: co = config.window.portrait # limit size due to LP #1633284, gsettings values might be negative min_width, min_height = self.get_min_window_size() rect = Rect(co.x, co.y, max(co.width, min_width), max(co.height, min_height)) return rect def write_window_rect(self, orientation, rect): """ Write orientation dependent rect. Overload for WindowRectPersist. """ # There are separate rects for normal and rotated screen (tablets). if orientation == Orientation.LANDSCAPE: co = config.window.landscape else: co = config.window.portrait # remember that we wrote this rect to gsettings self._written_window_rects[orientation] = rect.copy() # write to gsettings and trigger notifications co.delay() co.x, co.y, co.width, co.height = rect co.apply() def write_docking_size(self, orientation, size): co = self.get_orientation_config_object() expand = self.get_dock_expand() # remember that we wrote this rect to gsettings self._written_dock_sizes[orientation] = tuple(size) # write to gsettings and trigger notifications co.delay() if not expand: co.dock_width = size[0] co.dock_height = size[1] co.apply() def get_orientation_config_object(self): orientation = self.get_screen_orientation() if orientation == Orientation.LANDSCAPE: co = config.window.landscape else: co = config.window.portrait return co def on_transition_done(self, visible_before, visible_now): if visible_now: self.assure_on_current_desktop() self.update_docking() def on_screen_size_changed(self, screen): """ Screen rotation, etc. """ if _logger.isEnabledFor(logging.DEBUG): _logger.debug("on_screen_size_changed", screen.width(), screen.height()) if config.is_docking_enabled(): # Can't correctly position the window while struts are active # -> turn them off for a moment self.clear_struts() # Attempt to hide the keyboard now. This won't work that well # as the system doesn't refresh the screen anymore until # after the rotation. self._was_visible = self.is_visible() self._screen_resizing = True keyboard_widget = self.keyboard_widget if keyboard_widget: keyboard_widget.transition_visible_to(False, 0.0) keyboard_widget.commit_transition() WindowRectPersist.on_screen_size_changed(self, screen) def on_screen_size_changed_delayed(self, screen): if config.is_docking_enabled(): self._screen_resizing = False self.reset_monitor_workarea() # The keyboard size may have changed, draw with the new size now, # while it's still in the hideout, so we don't have to watch. self.restore_window_rect() self.keyboard_widget.process_updates() keyboard_widget = self.keyboard_widget if keyboard_widget and self._was_visible: keyboard_widget.transition_visible_to(True, 0.0, 0.4) keyboard_widget.commit_transition() else: self.restore_window_rect() def limit_size(self, rect): """ Limits the given window rect to fit on screen. """ if self.keyboard_widget: return self.keyboard_widget.limit_size(rect) return rect def _on_delete_event(self, event, data=None): if config.lockdown.disable_quit: if self.keyboard_widget: return True else: self.emit_quit_onboard() def on_docking_notify(self): self.update_docking() self.keyboard_widget.update_window_handles() def update_docking(self, force_update = False): enable = config.is_docking_enabled() if enable: rect = self.get_dock_rect() else: rect = Rect() shrink = config.window.docking_shrink_workarea expand = self.get_dock_expand() edge = config.window.docking_edge monitor = self.get_docking_monitor(True) if self._docking_enabled != enable or \ (self._docking_enabled and \ (self._docking_rect != rect or \ self._shrink_work_area != shrink or \ self._dock_expand != expand or \ bool(self._current_struts) != shrink or self._docking_monitor != monitor) ): self._current_docking_monitor = monitor self._realize_docking(enable) self._shrink_work_area = shrink self._dock_expand = expand self._docking_edge = edge self._docking_monitor = monitor self._docking_enabled = enable self._docking_rect = rect def _realize_docking(self, enable): if enable: self._set_docking_struts(config.window.docking_shrink_workarea, config.window.docking_edge, self.get_dock_expand()) self.restore_window_rect() # knows about docking else: self.restore_window_rect() self.clear_struts() def update_docking_monitor(self): mon_before = self._current_docking_monitor mon_now = self.get_docking_monitor(True) self._current_docking_monitor = mon_now return mon_before != mon_now def clear_struts(self): self._set_docking_struts(False) def _set_docking_struts(self, enable, edge = None, expand = True): if not self.get_realized(): # no window, no xid return win = self.get_window() try: xid = win.get_xid() # requires GdkX11 import except AttributeError: # docking unavailable on Wayland return if not enable: self._apply_struts(xid, None) return area, geom = self.get_docking_monitor_rects() root = self.get_rootwin_rect() rect = self.get_dock_rect() top_start_x = top_end_x = 0 bottom_start_x = bottom_end_x = 0 if edge: # Bottom top = 0 bottom = geom.h - area.bottom() + rect.h #bottom = root.h - area.bottom() + rect.h bottom_start_x = rect.left() bottom_end_x = rect.right() - 1 else: # Top top = area.top() + rect.h bottom = 0 top_start_x = rect.left() top_end_x = rect.right() - 1 struts = [0, 0, top, bottom, 0, 0, 0, 0, top_start_x, top_end_x, bottom_start_x, bottom_end_x] scale = config.window_scaling_factor if scale != 1.0: struts = [val * scale for val in struts] self._apply_struts(xid, struts) def _apply_struts(self, xid, struts = None): if self._current_struts != struts: if struts is None: self._osk_struts.clear(xid) else: self._osk_struts.set(xid, struts) self._current_struts = struts def get_dock_size(self): co = self.get_orientation_config_object() return co.dock_width, co.dock_height def get_dock_expand(self): co = self.get_orientation_config_object() return co.dock_expand def get_dock_rect(self): area, geom = self.get_docking_monitor_rects() edge = config.window.docking_edge width, height = self.get_dock_size() rect = Rect(area.x, 0, area.w, height) if edge: # Bottom rect.y = area.y + area.h - height else: # Top rect.y = area.y expand = self.get_dock_expand() if expand: rect.w = area.w rect.x = area.x else: rect.w = min(width, area.w) rect.x = rect.x + (area.w - rect.w) // 2 return rect def get_docking_hideout_rect(self, reference_rect = None): """ Where the keyboard goes to hide when it slides off-screen. """ area, geom = self.get_docking_monitor_rects() rect = self.get_dock_rect() hideout = rect mcx, mcy = geom.get_center() if reference_rect: cx, cy = reference_rect.get_center() else: cx, cy = rect.get_center() clearance = 10 if cy > mcy: hideout.y = geom.bottom() + clearance # below Bottom else: hideout.y = geom.top() - rect.h - clearance # above Top return hideout def get_docking_monitor_rects(self): screen = self.get_screen() monitor = self.get_docking_monitor() area = self._monitor_workarea.get(monitor) if area is None: area = self.update_monitor_workarea(monitor) geom = screen.get_monitor_geometry(monitor) geom = Rect(geom.x, geom.y, geom.width, geom.height) return area, geom def get_docking_monitor(self, force_update=False): if self._current_docking_monitor is None or force_update: screen = self.get_screen() docking_monitor = config.window.docking_monitor monitor = int(docking_monitor) if monitor < 100: if monitor < 0 or \ monitor >= screen.get_n_monitors(): docking_monitor = DockingMonitor.PRIMARY if docking_monitor == DockingMonitor.ACTIVE: monitor = self._get_monitor_at_active_window(screen) elif docking_monitor == DockingMonitor.PRIMARY: monitor = screen.get_primary_monitor() else: monitor = self._current_docking_monitor return monitor @staticmethod def _get_monitor_at_active_window(screen): window = screen.get_active_window() if window: # Sometimes causes X error "BadDrawable" in Vivid for Francesco Gdk.error_trap_push() monitor = screen.get_monitor_at_window(window) if Gdk.error_trap_pop(): monitor = screen.get_primary_monitor() else: monitor = screen.get_primary_monitor() return monitor def reset_monitor_workarea(self): self._monitor_workarea = {} def update_monitor_workarea(self, monitor): """ Save the workarea, so we don't have to check all the time if our strut is already installed. """ area = self.get_monitor_workarea(monitor) self._monitor_workarea[monitor] = area return area def get_monitor_workarea(self, monitor_index): display = Gdk.Display.get_default() monitor = display.get_monitor(monitor_index) area = monitor.get_workarea() area = Rect(area.x, area.y, area.width, area.height) return area @staticmethod def get_rootwin_rect(): rootwin = Gdk.get_default_root_window() return Rect.from_position_size(rootwin.get_position(), (rootwin.get_width(), rootwin.get_height())) def assure_on_current_desktop(self): """ Make sure the window is visible in the current desktop in OpenBox and perhaps other WMs, except Compiz/Unity. Dbus Show() then makes Onboard appear after switching desktop (LP: 1092166, Raring). """ if self._moved_desktop_switch_count != self._desktop_switch_count: win = self.get_window() if win: win.move_to_current_desktop() self._moved_desktop_switch_count = self._desktop_switch_count def raise_to_top(self): win = self.get_window() if win and self.is_visible(): win.raise_() class KbdPlugWindow(KbdWindowBase, WindowRectTracker, Gtk.Plug): def __init__(self, keyboard_widget, icp = None): Gtk.Plug.__init__(self) WindowRectTracker.__init__(self) KbdWindowBase.__init__(self, keyboard_widget, icp) def _on_configure_event(self, widget, event): KbdWindowBase._on_configure_event(self, widget, event) def toggle_visible(self): pass class WMQuirksDefault: """ Miscellaneous window managers, no special quirks """ wms = () @staticmethod def set_visible(window, visible): if window.is_iconified(): if visible and \ not config.xid_mode: window.deiconify() window.present() else: Gtk.Window.set_visible(window, visible) @staticmethod def update_taskbar_hint(window): window.set_skip_taskbar_hint(True) @staticmethod def get_window_type_hint(window): if config.is_docking_enabled(): return Gdk.WindowTypeHint.DOCK else: return Gdk.WindowTypeHint.NORMAL @staticmethod def can_set_override_redirect(window): # struts fail for override redirect windows in metacity and mutter return not config.is_docking_enabled() @staticmethod def must_fix_configure_event(): """ does configure-event need fixing? """ return False class WMQuirksCompiz(WMQuirksDefault): """ Unity with Compiz """ wms = ("compiz") @staticmethod def get_window_type_hint(window): if config.is_docking_enabled(): # repel unity MT touch handles with DOCK, but we have OR enabled now return Gdk.WindowTypeHint.NORMAL else: if config.is_force_to_top(): # NORMAL keeps Onboard on top of fullscreen firefox (LP: 1035578) return Gdk.WindowTypeHint.NORMAL else: if config.window.window_decoration: # Keep showing the minimize button return Gdk.WindowTypeHint.NORMAL else: # don't get resized by compiz's grid plugin (LP: 893644) return Gdk.WindowTypeHint.UTILITY @staticmethod def can_set_override_redirect(window): # Can't type into unity dash with keys below dash without # override redirect. -> turn it on even when docking. Apparently # Compiz can handle struts with OR windows. return True @staticmethod def must_fix_configure_event(): return config.is_force_to_top() and \ not config.xid_mode # in Trusty class WMQuirksMutter(WMQuirksDefault): """ Gnome-shell """ wms = ("mutter", "GNOME Shell".lower()) @staticmethod def set_visible(window, visible): if window.is_iconified() and visible: # When minimized, Mutter doesn't react when asked to # remove WM_STATE_HIDDEN. Once the window was minimized # by title bar button it cannot be unhidden by auto-show. # The only workaround I found is re-mapping it (Precise). window.unmap() window.map() WMQuirksDefault.set_visible(window, visible) class WMQuirksMetacity(WMQuirksDefault): """ Unity-2d, Gnome Classic """ wms = ("metacity") @staticmethod def set_visible(window, visible): # Metacity is good at iconifying. Take advantage of that # and get onboard minimized to the task list when possible. if not config.xid_mode and \ not config.is_force_to_top() and \ not config.has_unhide_option(): if visible: window.deiconify() window.present() else: window.iconify() else: WMQuirksDefault.set_visible(window, visible) @staticmethod def update_taskbar_hint(window): window.set_skip_taskbar_hint(config.xid_mode or \ config.is_force_to_top() or \ config.has_unhide_option())