def __loading_failure(self, has_proxy):
mainloop = common.create_main_loop()
app = common.create_pitivi_mock(lastProjectFolder="/tmp",
edgeSnapDeadband=32)
app.project_manager = ProjectManager(app)
editorperspective = EditorPerspective(app)
editorperspective.setup_ui()
editorperspective.viewer = mock.MagicMock()
editorperspective.medialibrary._import_warning_infobar = mock.MagicMock(
)
editorperspective.clipconfig.effect_expander._infobar = mock.MagicMock(
)
def __pm_missing_uri_cb(project_manager, project, error, asset):
nonlocal mainloop
nonlocal editorperspective
nonlocal self
nonlocal app
nonlocal has_proxy
with mock.patch.object(MissingAssetDialog,
"__new__") as constructor:
failed_cb = mock.MagicMock()
app.project_manager.connect("new-project-failed", failed_cb)
dialog = constructor.return_value
dialog.get_new_uri.return_value = None
# Call the actual callback
app.proxy_manager.checkProxyLoadingSucceeded = \
mock.MagicMock(return_value=has_proxy)
editorperspective._projectManagerMissingUriCb(
project_manager, project, error, asset)
self.assertTrue(constructor.called)
self.assertTrue(dialog.get_new_uri.called)
self.assertEqual(failed_cb.called, not has_proxy)
app.project_manager.connect(
"missing-uri", editorperspective._projectManagerMissingUriCb)
mainloop.quit()
disconnectAllByFunc(app.project_manager,
editorperspective._projectManagerMissingUriCb)
app.project_manager.connect("missing-uri", __pm_missing_uri_cb)
with common.cloned_sample():
asset_uri = common.get_sample_uri("missing.png")
with common.created_project_file(asset_uri) as uri:
app.project_manager.load_project(uri)
mainloop.run()
def __loading_failure(self, has_proxy):
mainloop = common.create_main_loop()
app = common.create_pitivi_mock(lastProjectFolder="/tmp",
edgeSnapDeadband=32)
app.project_manager = ProjectManager(app)
editorperspective = EditorPerspective(app)
editorperspective.setup_ui()
editorperspective.viewer = mock.MagicMock()
editorperspective.medialibrary._import_warning_infobar = mock.MagicMock()
editorperspective.clipconfig.effect_expander._infobar = mock.MagicMock()
def __pm_missing_uri_cb(project_manager, project, error, asset):
nonlocal mainloop
nonlocal editorperspective
nonlocal self
nonlocal app
nonlocal has_proxy
with mock.patch.object(MissingAssetDialog, "__new__") as constructor:
failed_cb = mock.MagicMock()
app.project_manager.connect("new-project-failed", failed_cb)
dialog = constructor.return_value
dialog.get_new_uri.return_value = None
# Call the actual callback
app.proxy_manager.checkProxyLoadingSucceeded = \
mock.MagicMock(return_value=has_proxy)
editorperspective._projectManagerMissingUriCb(
project_manager, project, error, asset)
self.assertTrue(constructor.called)
self.assertTrue(dialog.get_new_uri.called)
self.assertEqual(failed_cb.called, not has_proxy)
app.project_manager.connect("missing-uri",
editorperspective._projectManagerMissingUriCb)
mainloop.quit()
disconnectAllByFunc(app.project_manager,
editorperspective._projectManagerMissingUriCb)
app.project_manager.connect("missing-uri", __pm_missing_uri_cb)
with common.cloned_sample():
asset_uri = common.get_sample_uri("missing.png")
with common.created_project_file(asset_uri) as uri:
app.project_manager.load_project(uri)
mainloop.run()
def test_switch_context_tab(self):
"""Checks tab switches."""
app = common.create_pitivi_mock()
editorperspective = EditorPerspective(app)
editorperspective.setup_ui()
for expected_tab, b_element in [(2, GES.TitleClip()),
(0, GES.SourceClip()),
(1, GES.TransitionClip())]:
editorperspective.switchContextTab(b_element)
self.assertEqual(editorperspective.context_tabs.get_current_page(),
expected_tab, b_element)
# Make sure the tab does not change when using an invalid argument.
editorperspective.switchContextTab("invalid")
self.assertEqual(editorperspective.context_tabs.get_current_page(),
expected_tab)
def test_switch_context_tab(self):
"""Checks tab switches."""
app = common.create_pitivi_mock()
editorperspective = EditorPerspective(app)
editorperspective.setup_ui()
for expected_tab, b_element in [
(2, GES.TitleClip()),
(0, GES.SourceClip()),
(1, GES.TransitionClip())]:
editorperspective.switchContextTab(b_element)
self.assertEqual(editorperspective.context_tabs.get_current_page(),
expected_tab,
b_element)
# Make sure the tab does not change when using an invalid argument.
editorperspective.switchContextTab("invalid")
self.assertEqual(editorperspective.context_tabs.get_current_page(),
expected_tab)
class MainWindow(Gtk.ApplicationWindow, Loggable):
"""Pitivi's main window.
It manages the UI and handles the switch between different perspectives,
such as the default GreeterPerspective, and the EditorPerspective.
Attributes:
app (Pitivi): The app.
"""
def __init__(self, app):
gtksettings = Gtk.Settings.get_default()
gtksettings.set_property("gtk-application-prefer-dark-theme", True)
theme = gtksettings.get_property("gtk-theme-name")
os.environ["GTK_THEME"] = theme + ":dark"
# Pulseaudio "role"
# (http://0pointer.de/blog/projects/tagging-audio.htm)
os.environ["PULSE_PROP_media.role"] = "production"
os.environ["PULSE_PROP_application.icon_name"] = "pitivi"
Gtk.IconTheme.get_default().append_search_path(get_pixmap_dir())
Gtk.ApplicationWindow.__init__(self)
Loggable.__init__(self)
self.log("Creating main window")
self.app = app
self.greeter = GreeterPerspective(app)
self.editor = EditorPerspective(app)
self.__perspective = None
self.help_action = None
self.about_action = None
self.main_menu_action = None
app.project_manager.connect("new-project-loading",
self.__new_project_loading_cb)
app.project_manager.connect("new-project-failed",
self.__new_project_failed_cb)
app.project_manager.connect("project-closed", self.__project_closed_cb)
def setup_ui(self):
"""Sets up the various perspectives's UI."""
self.log("Setting up the perspectives.")
self.set_icon_name("pitivi")
self.__check_screen_constraints()
self.__set_keyboard_shortcuts()
self.greeter.setup_ui()
self.editor.setup_ui()
width = self.app.settings.mainWindowWidth
height = self.app.settings.mainWindowHeight
if height == -1 and width == -1:
self.maximize()
else:
self.set_default_size(width, height)
self.move(self.app.settings.mainWindowX,
self.app.settings.mainWindowY)
self.connect("configure-event", self.__configure_cb)
self.connect("delete-event", self.__delete_cb)
def __check_screen_constraints(self):
"""Measures the approximate minimum size required by the main window.
Shrinks some widgets to fit better on smaller screen resolutions.
"""
# This code works, but keep in mind get_preferred_size's output
# is only an approximation. As of 2015, GTK still does not have
# a way, even with client-side decorations, to tell us the exact
# minimum required dimensions of a window.
min_size, _ = self.get_preferred_size()
screen_width = self.get_screen().get_width()
screen_height = self.get_screen().get_height()
self.debug("Minimum UI size is %sx%s", min_size.width, min_size.height)
self.debug("Screen size is %sx%s", screen_width, screen_height)
if min_size.width >= 0.9 * screen_width:
self.medialibrary.activateCompactMode()
self.viewer.activateCompactMode()
min_size, _ = self.get_preferred_size()
self.info("Minimum UI size has been reduced to %sx%s",
min_size.width, min_size.height)
def __set_keyboard_shortcuts(self):
self.app.shortcuts.register_group("win", _("Project"), position=20)
self.help_action = Gio.SimpleAction.new("help", None)
self.help_action.connect("activate", self.__user_manual_cb)
self.add_action(self.help_action)
self.app.shortcuts.add("win.help", ["F1"], _("Help"), group="app")
self.about_action = Gio.SimpleAction.new("about", None)
self.about_action.connect("activate", self.__about_cb)
self.add_action(self.about_action)
self.app.shortcuts.add("win.about", ["<Primary><Shift>a"],
_("About"),
group="app")
self.main_menu_action = Gio.SimpleAction.new("menu-button", None)
self.main_menu_action.connect("activate", self.__menu_cb)
self.add_action(self.main_menu_action)
self.app.shortcuts.add("win.menu-button", ["F10"],
_("Show the menu button content"),
group="app")
@staticmethod
def __user_manual_cb(unused_action, unused_param):
show_user_manual()
def __about_cb(self, unused_action, unused_param):
about_dialog = AboutDialog(self.app)
about_dialog.show()
def __menu_cb(self, unused_action, unused_param):
self.__perspective.menu_button.set_active(
not self.__perspective.menu_button.get_active())
def __configure_cb(self, unused_widget, unused_event):
"""Saves the main window position and size."""
# Takes window manager decorations into account.
position = self.get_position()
self.app.settings.mainWindowX = position.root_x
self.app.settings.mainWindowY = position.root_y
# Does not include the size of the window manager decorations.
size = self.get_size()
self.app.settings.mainWindowWidth = size.width
self.app.settings.mainWindowHeight = size.height
def __delete_cb(self, unused_widget, unused_data=None):
self.app.settings.mainWindowHPanePosition = self.editor.secondhpaned.get_position(
)
self.app.settings.mainWindowMainHPanePosition = self.editor.mainhpaned.get_position(
)
self.app.settings.mainWindowVPanePosition = self.editor.toplevel_widget.get_position(
)
if not self.app.shutdown():
return True
return False
def __new_project_loading_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.editor)
def __new_project_failed_cb(self, unused_project_manager, uri, reason):
project_filename = unquote(uri.split("/")[-1])
dialog = Gtk.MessageDialog(transient_for=self,
modal=True,
message_type=Gtk.MessageType.ERROR,
buttons=Gtk.ButtonsType.OK,
text=_('Unable to load project "%s"') %
project_filename)
dialog.set_property("secondary-use-markup", True)
dialog.set_property("secondary-text", unquote(str(reason)))
dialog.set_transient_for(self)
dialog.run()
dialog.destroy()
self.show_perspective(self.greeter)
def __project_closed_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.greeter)
def show_perspective(self, perspective):
"""Displays the specified perspective."""
if self.__perspective is perspective:
return
if self.__perspective:
# Remove the current perspective before adding the
# specified perspective because we can only add one
# toplevel widget to the main window at a time.
self.remove(self.__perspective.toplevel_widget)
self.log("Displaying perspective: %s", type(perspective).__name__)
self.__perspective = perspective
self.set_titlebar(perspective.headerbar)
self.add(perspective.toplevel_widget)
perspective.refresh()
class MainWindow(Gtk.ApplicationWindow, Loggable):
"""Pitivi's main window.
It manages the UI and handles the switch between different perspectives,
such as the default GreeterPerspective, and the EditorPerspective.
Attributes:
app (Pitivi): The app.
"""
def __init__(self, app):
# Pulseaudio "role"
# (http://0pointer.de/blog/projects/tagging-audio.htm)
os.environ["PULSE_PROP_media.role"] = "production"
os.environ["PULSE_PROP_application.icon_name"] = "pitivi"
Gtk.IconTheme.get_default().append_search_path(get_pixmap_dir())
Gtk.ApplicationWindow.__init__(self)
Loggable.__init__(self)
self.log("Creating main window")
self.app = app
self.greeter = GreeterPerspective(app)
self.editor = EditorPerspective(app)
self.__placed = False
self.__perspective = None
self.__wanted_perspective = None
self.app.settings.connect("useDarkThemeChanged",
self.__use_dark_theme_changed_cb)
self.update_use_dark_theme()
app.project_manager.connect("new-project-loading",
self.__new_project_loading_cb)
app.project_manager.connect("new-project-failed",
self.__new_project_failed_cb)
app.project_manager.connect("project-closed", self.__project_closed_cb)
def update_use_dark_theme(self):
gtksettings = Gtk.Settings.get_default()
use_dark_theme = self.app.settings.useDarkTheme
gtksettings.set_property("gtk-application-prefer-dark-theme",
use_dark_theme)
def __use_dark_theme_changed_cb(self, unused_settings):
self.update_use_dark_theme()
def setup_ui(self):
"""Sets up the various perspectives's UI."""
self.log("Setting up the perspectives.")
self.set_icon_name("pitivi")
self._create_actions()
self.greeter.setup_ui()
self.editor.setup_ui()
width = self.app.settings.mainWindowWidth
height = self.app.settings.mainWindowHeight
if height == -1 and width == -1:
self.__placed = True
self.maximize()
else:
# Wait until placing the window, to avoid the window manager
# ignoring the call. See the documentation for Gtk.Window.move.
# If you change this, pay attention opening `pitivi` works
# a bit different than opening `pitivi file.xges`. For example
# connecting to the "realize" signal instead of idle_add-ing
# fails to restore the position when directly loading a project.
GLib.idle_add(self.__initial_placement_cb,
self.app.settings.mainWindowX,
self.app.settings.mainWindowY, width, height)
self.check_screen_constraints()
self.connect("configure-event", self.__configure_cb)
self.connect("delete-event", self.__delete_cb)
def __initial_placement_cb(self, x, y, width, height):
self.__placed = True
self.resize(width, height)
self.move(x, y)
if self.__wanted_perspective:
self.show_perspective(self.__wanted_perspective)
self.__wanted_perspective = None
def check_screen_constraints(self):
"""Shrinks some widgets to fit better on smaller screen resolutions."""
if self._small_screen():
self.greeter.activate_compact_mode()
self.editor.activate_compact_mode()
min_size, _ = self.get_preferred_size()
self.info("Minimum UI size has been reduced to %sx%s",
min_size.width, min_size.height)
def _small_screen(self):
# This code works, but keep in mind get_preferred_size's output
# is only an approximation. As of 2015, GTK still does not have
# a way, even with client-side decorations, to tell us the exact
# minimum required dimensions of a window.
min_size, _ = self.get_preferred_size()
screen_width = self.get_screen().get_width()
screen_height = self.get_screen().get_height()
self.debug("Minimum UI size is %sx%s", min_size.width, min_size.height)
self.debug("Screen size is %sx%s", screen_width, screen_height)
return min_size.width >= 0.9 * screen_width
def _create_actions(self):
self.app.shortcuts.register_group("win", _("Project"), position=20)
# pylint: disable=attribute-defined-outside-init
self.help_action = Gio.SimpleAction.new("help", None)
self.help_action.connect("activate", self.__user_manual_cb)
self.add_action(self.help_action)
self.app.shortcuts.add("win.help", ["F1"],
self.help_action,
_("Help"),
group="app")
self.about_action = Gio.SimpleAction.new("about", None)
self.about_action.connect("activate", self.__about_cb)
self.add_action(self.about_action)
self.app.shortcuts.add("win.about", ["<Primary><Shift>a"],
self.about_action,
_("About"),
group="app")
self.main_menu_action = Gio.SimpleAction.new("menu-button", None)
self.main_menu_action.connect("activate", self.__menu_cb)
self.add_action(self.main_menu_action)
self.app.shortcuts.add("win.menu-button", ["F10"],
self.main_menu_action,
_("Show the menu button content"),
group="app")
self.preferences_action = Gio.SimpleAction.new("preferences", None)
self.preferences_action.connect("activate", self.__preferences_cb)
self.add_action(self.preferences_action)
self.app.shortcuts.add("win.preferences", ["<Primary>comma"],
self.preferences_action,
_("Preferences"),
group="app")
@staticmethod
def __user_manual_cb(unused_action, unused_param):
show_user_manual()
def __about_cb(self, unused_action, unused_param):
about_dialog = AboutDialog(self.app)
about_dialog.show()
def __menu_cb(self, unused_action, unused_param):
active = not self.__perspective.menu_button.get_active()
self.__perspective.menu_button.set_active(active)
def __preferences_cb(self, unused_action, unused_param):
PreferencesDialog(self.app).run()
def __configure_cb(self, unused_widget, unused_event):
"""Saves the main window position and size."""
position = self.get_position()
self.app.settings.mainWindowX = position.root_x
self.app.settings.mainWindowY = position.root_y
size = self.get_size()
self.app.settings.mainWindowWidth = size.width
self.app.settings.mainWindowHeight = size.height
def __delete_cb(self, unused_widget, unused_event):
self.app.settings.mainWindowHPanePosition = self.editor.secondhpaned.get_position(
)
self.app.settings.mainWindowMainHPanePosition = self.editor.mainhpaned.get_position(
)
self.app.settings.mainWindowVPanePosition = self.editor.toplevel_widget.get_position(
)
if not self.app.shutdown():
return True
return False
def __new_project_loading_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.editor)
def __new_project_failed_cb(self, unused_project_manager, uri, reason):
project_filename = unquote(uri.split("/")[-1])
dialog = Gtk.MessageDialog(transient_for=self,
modal=True,
message_type=Gtk.MessageType.ERROR,
buttons=Gtk.ButtonsType.OK,
text=_('Unable to load project "%s"') %
project_filename)
dialog.set_property("secondary-use-markup", True)
dialog.set_property("secondary-text", unquote(str(reason)))
dialog.set_transient_for(self)
dialog.run()
dialog.destroy()
self.show_perspective(self.greeter)
def __project_closed_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.greeter)
def show_perspective(self, perspective):
"""Displays the specified perspective."""
if not self.__placed:
self.log(
"Postponing the perspective setting until the window is placed"
)
self.__wanted_perspective = perspective
return
if self.__perspective is perspective:
return
if self.__perspective:
# Remove the current perspective before adding the
# specified perspective because we can only add one
# toplevel widget to the main window at a time.
self.remove(self.__perspective.toplevel_widget)
self.log("Displaying perspective: %s", type(perspective).__name__)
self.__perspective = perspective
self.set_titlebar(perspective.headerbar)
# The window must be shown only after setting the headerbar with
# set_titlebar. Otherwise we get a warning things can go wrong.
self.show()
self.add(perspective.toplevel_widget)
perspective.refresh()
class MainWindow(Gtk.ApplicationWindow, Loggable):
"""Pitivi's main window.
It manages the UI and handles the switch between different perspectives,
such as the default GreeterPerspective, and the EditorPerspective.
Attributes:
app (Pitivi): The app.
"""
def __init__(self, app):
gtksettings = Gtk.Settings.get_default()
gtksettings.set_property("gtk-application-prefer-dark-theme", True)
theme = gtksettings.get_property("gtk-theme-name")
os.environ["GTK_THEME"] = theme + ":dark"
# Pulseaudio "role"
# (http://0pointer.de/blog/projects/tagging-audio.htm)
os.environ["PULSE_PROP_media.role"] = "production"
os.environ["PULSE_PROP_application.icon_name"] = "pitivi"
Gtk.IconTheme.get_default().append_search_path(get_pixmap_dir())
Gtk.ApplicationWindow.__init__(self)
Loggable.__init__(self)
self.log("Creating main window")
self.app = app
self.greeter = GreeterPerspective(app)
self.editor = EditorPerspective(app)
self.__perspective = None
self.help_action = None
self.about_action = None
self.main_menu_action = None
app.project_manager.connect("new-project-loading",
self.__new_project_loading_cb)
app.project_manager.connect("new-project-failed",
self.__new_project_failed_cb)
app.project_manager.connect("project-closed", self.__project_closed_cb)
def setup_ui(self):
"""Sets up the various perspectives's UI."""
self.log("Setting up the perspectives.")
self.set_icon_name("pitivi")
self.__check_screen_constraints()
self.__set_keyboard_shortcuts()
self.greeter.setup_ui()
self.editor.setup_ui()
width = self.app.settings.mainWindowWidth
height = self.app.settings.mainWindowHeight
if height == -1 and width == -1:
self.maximize()
else:
self.set_default_size(width, height)
self.move(self.app.settings.mainWindowX, self.app.settings.mainWindowY)
self.connect("configure-event", self.__configure_cb)
self.connect("delete-event", self.__delete_cb)
def __check_screen_constraints(self):
"""Measures the approximate minimum size required by the main window.
Shrinks some widgets to fit better on smaller screen resolutions.
"""
# This code works, but keep in mind get_preferred_size's output
# is only an approximation. As of 2015, GTK still does not have
# a way, even with client-side decorations, to tell us the exact
# minimum required dimensions of a window.
min_size, _ = self.get_preferred_size()
screen_width = self.get_screen().get_width()
screen_height = self.get_screen().get_height()
self.debug("Minimum UI size is %sx%s", min_size.width, min_size.height)
self.debug("Screen size is %sx%s", screen_width, screen_height)
if min_size.width >= 0.9 * screen_width:
self.medialibrary.activateCompactMode()
self.viewer.activateCompactMode()
min_size, _ = self.get_preferred_size()
self.info("Minimum UI size has been reduced to %sx%s",
min_size.width, min_size.height)
def __set_keyboard_shortcuts(self):
self.app.shortcuts.register_group("win", _("Project"), position=20)
self.help_action = Gio.SimpleAction.new("help", None)
self.help_action.connect("activate", self.__user_manual_cb)
self.add_action(self.help_action)
self.app.shortcuts.add("win.help", ["F1"], _("Help"), group="app")
self.about_action = Gio.SimpleAction.new("about", None)
self.about_action.connect("activate", self.__about_cb)
self.add_action(self.about_action)
self.app.shortcuts.add("win.about", ["<Primary><Shift>a"],
_("About"), group="app")
self.main_menu_action = Gio.SimpleAction.new("menu-button", None)
self.main_menu_action.connect("activate", self.__menu_cb)
self.add_action(self.main_menu_action)
self.app.shortcuts.add("win.menu-button", ["F10"],
_("Show the menu button content"), group="app")
self.preferences_action = Gio.SimpleAction.new("preferences", None)
self.preferences_action.connect("activate", self.__preferences_cb)
self.add_action(self.preferences_action)
self.app.shortcuts.add("win.preferences", ["<Primary>comma"],
_("Preferences"), group="app")
@staticmethod
def __user_manual_cb(unused_action, unused_param):
show_user_manual()
def __about_cb(self, unused_action, unused_param):
about_dialog = AboutDialog(self.app)
about_dialog.show()
def __menu_cb(self, unused_action, unused_param):
active = not self.__perspective.menu_button.get_active()
self.__perspective.menu_button.set_active(active)
def __preferences_cb(self, unused_action, unused_param):
PreferencesDialog(self.app).run()
def __configure_cb(self, unused_widget, unused_event):
"""Saves the main window position and size."""
# Takes window manager decorations into account.
position = self.get_position()
self.app.settings.mainWindowX = position.root_x
self.app.settings.mainWindowY = position.root_y
# Does not include the size of the window manager decorations.
size = self.get_size()
self.app.settings.mainWindowWidth = size.width
self.app.settings.mainWindowHeight = size.height
def __delete_cb(self, unused_widget, unused_data=None):
self.app.settings.mainWindowHPanePosition = self.editor.secondhpaned.get_position()
self.app.settings.mainWindowMainHPanePosition = self.editor.mainhpaned.get_position()
self.app.settings.mainWindowVPanePosition = self.editor.toplevel_widget.get_position()
if not self.app.shutdown():
return True
return False
def __new_project_loading_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.editor)
def __new_project_failed_cb(self, unused_project_manager, uri, reason):
project_filename = unquote(uri.split("/")[-1])
dialog = Gtk.MessageDialog(transient_for=self,
modal=True,
message_type=Gtk.MessageType.ERROR,
buttons=Gtk.ButtonsType.OK,
text=_('Unable to load project "%s"') % project_filename)
dialog.set_property("secondary-use-markup", True)
dialog.set_property("secondary-text", unquote(str(reason)))
dialog.set_transient_for(self)
dialog.run()
dialog.destroy()
self.show_perspective(self.greeter)
def __project_closed_cb(self, unused_project_manager, unused_project):
self.show_perspective(self.greeter)
def show_perspective(self, perspective):
"""Displays the specified perspective."""
if self.__perspective is perspective:
return
if self.__perspective:
# Remove the current perspective before adding the
# specified perspective because we can only add one
# toplevel widget to the main window at a time.
self.remove(self.__perspective.toplevel_widget)
self.log("Displaying perspective: %s", type(perspective).__name__)
self.__perspective = perspective
self.set_titlebar(perspective.headerbar)
self.add(perspective.toplevel_widget)
perspective.refresh()