Reimplement Palettes for GTK3

Moving from GTK2 to GTK3 has presented various challenges regarding
palettes.

In GTK2, we were able to access some internal API of the GtkMenu class
and use it to embed a GtkMenu in a regular window. As of GTK3, that API
has become private and we can no longer access it.

We still want to use GtkMenu for the advanced functionality it provides
(multiple-level menus, keyboard navigation, etc), but we are now limited
to popping it up with its own (internal) window, rather than being able
to pack it into one of our own.

Our palettes can historically be used either as a menu, or as a general
area where widgets can be added, or both. The new restrictions upon
GtkMenu force some changes here, but we work hard to stick to the old
API as far as possible.

A Palette instance now acts as a controller of either a "window widget"
(where any type of widget can be displayed as usual) or a "menu widget"
which just pops up a GtkMenu. A Palette defaults to the window mode, but
dynamically switches to menu mode if/when the user attempts to access
the menu element.

As a result of this, palettes can now pack either a user-defined collection
of widgets, or a menu, but types can no longer be mixed. This should
only affect a handful of palettes which will need to pick a single
approach and convert to it.

Some further challenges are presented by the fact that GtkMenu performs a
grab on the whole screen, meaning that all input events are delivered to
the GtkMenu widget. Through some careful event filtering and examination
of the mouse cursor position we are still able to determine when the mouse
has entered or left the invoker or menu areas.

This work is authored by Benjamin Berg, Marco Pesenti Gritti, Simon
Schampijer and Daniel Drake.
This commit is contained in:
Daniel Drake 2011-12-15 01:53:48 +00:00 committed by Simon Schampijer
parent 8126575461
commit 48ad255a78
7 changed files with 510 additions and 418 deletions

View File

@ -53,9 +53,7 @@ libsugarext_la_SOURCES = \
sugar-grid.c \
sugar-grid.h \
sugar-key-grabber.c \
sugar-key-grabber.h \
sugar-menu.c \
sugar-menu.h
sugar-key-grabber.h
sugar_LTLIBRARIES = _sugarbaseext.la

View File

@ -1,6 +1,8 @@
# Copyright (C) 2007, Eduardo Silva <edsiper@gmail.com>
# Copyright (C) 2008, One Laptop Per Child
# Copyright (C) 2009, Tomeu Vizoso
# Copyright (C) 2011, Benjamin Berg <benjamin@sipsolutions.net>
# Copyright (C) 2011, Marco Pesenti Gritti <marco@marcopg.org>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
@ -29,8 +31,8 @@ from sugar3.graphics import palettegroup
from sugar3.graphics import animator
from sugar3.graphics import style
from sugar3.graphics.icon import Icon
from sugar3.graphics.palettewindow import PaletteWindow
from gi.repository import SugarExt
from sugar3.graphics.palettewindow import PaletteWindow, \
_PaletteWindowWidget, _PaletteMenuWidget
# DEPRECATED
# Import these for backwards compatibility
@ -39,16 +41,37 @@ from sugar3.graphics.palettewindow import MouseSpeedDetector, Invoker, \
class Palette(PaletteWindow):
"""
Floating palette implementation.
This class dynamically switches between one of two encapsulated child
widget types: a _PaletteWindowWidget or a _PaletteMenuWidget.
The window widget, created by default, acts as the container for any
type of widget the user may wish to add. It can optionally display primary
text, secondary text, and an icon at the top of the palette.
If the user attempts to access the 'menu' property, the window widget is
destroyed and the palette is dynamically switched to use a menu widget.
This is a GtkMenu that retains the same look and feel as a normal palette,
allowing submenus and so on. If primary text, secondary text and/or icons
were provided, an initial menu entry is created containing widgets to
display such information.
"""
PRIMARY = 0
SECONDARY = 1
__gsignals__ = {
'activate': (GObject.SignalFlags.RUN_FIRST, None, ([])),
}
__gtype_name__ = 'SugarPalette'
def __init__(self, label=None, accel_path=None, menu_after_content=False,
def __init__(self, label=None, accel_path=None,
text_maxlen=60, **kwargs):
# DEPRECATED: label is passed with the primary-text property,
# accel_path is set via the invoker property, and menu_after_content
# is not used
# accel_path is set via the invoker property
self._primary_text = None
self._secondary_text = None
@ -56,15 +79,12 @@ class Palette(PaletteWindow):
self._icon_visible = True
self._palette_state = self.PRIMARY
palette_box = Gtk.VBox()
primary_box = Gtk.HBox()
palette_box.pack_start(primary_box, False, True, 0)
primary_box.show()
self._primary_box = Gtk.HBox()
self._primary_box.show()
self._icon_box = Gtk.HBox()
self._icon_box.set_size_request(style.GRID_CELL_SIZE, -1)
primary_box.pack_start(self._icon_box, False, True, 0)
self._primary_box.pack_start(self._icon_box, False, True, 0)
labels_box = Gtk.VBox()
self._label_alignment = Gtk.Alignment(xalign=0, yalign=0.5, xscale=1,
@ -73,7 +93,7 @@ class Palette(PaletteWindow):
style.DEFAULT_SPACING)
self._label_alignment.add(labels_box)
self._label_alignment.show()
primary_box.pack_start(self._label_alignment, True, True, 0)
self._primary_box.pack_start(self._label_alignment, True, True, 0)
labels_box.show()
self._label = Gtk.AccelLabel(label='')
@ -94,77 +114,51 @@ class Palette(PaletteWindow):
labels_box.pack_start(self._secondary_label, True, True, 0)
self._secondary_box = Gtk.VBox()
palette_box.pack_start(self._secondary_box, True, True, 0)
self._separator = Gtk.HSeparator()
self._secondary_box.pack_start(self._separator, True, True, 0)
self._menu_content_separator = Gtk.HSeparator()
self._secondary_anim = animator.Animator(2.0, 10)
self._secondary_anim.add(_SecondaryAnimation(self))
# we init after initializing all of our containers
PaletteWindow.__init__(self, **kwargs)
primary_box.set_size_request(-1, style.GRID_CELL_SIZE
- 2 * self.get_border_width())
self._full_request = [0, 0]
self._menu_box = None
self._content = None
# we set these for backward compatibility
if label is not None:
self.props.primary_text = label
self._add_menu()
self._secondary_box.pack_start(self._menu_content_separator, True, True, 0)
self._add_content()
self.action_bar = PaletteActionBar()
self._secondary_box.pack_start(self.action_bar, True, True, 0)
self.action_bar.show()
self.add(palette_box)
palette_box.show()
# The menu is not shown here until an item is added
self.menu = _Menu(self)
self.menu.connect('item-inserted', self.__menu_item_inserted_cb)
self.connect('realize', self.__realize_cb)
self.connect('show', self.__show_cb)
self.connect('hide', self.__hide_cb)
self.connect('notify::invoker', self.__notify_invoker_cb)
self.connect('destroy', self.__destroy_cb)
self.connect('popdown', self.__popdown_cb)
# Default to a normal window palette
self._content_widget = None
self.set_content(None)
def _setup_widget(self):
PaletteWindow._setup_widget(self)
self._widget.connect('destroy', self.__destroy_cb)
def _invoker_right_click_cb(self, invoker):
self.popup(immediate=True, state=self.SECONDARY)
def do_style_set(self, previous_style):
# Prevent a warning from pygtk
if previous_style is not None:
Gtk.Window.do_style_set(self, previous_style)
self.set_border_width(self.get_style().xthickness)
def __menu_item_inserted_cb(self, menu):
self._update_separators()
def __destroy_cb(self, palette):
self._secondary_anim.stop()
self.popdown(immediate=True)
# Break the reference cycle. It looks like the gc is not able to free
# it, possibly because Gtk.Menu memory handling is very special.
self.menu.disconnect_by_func(self.__menu_item_inserted_cb)
self.menu = None
self._widget = None
def __show_cb(self, widget):
self.menu.set_active(True)
def __hide_cb(self, widget):
self.menu.set_active(False)
self.menu.cancel()
def __popdown_cb(self, widget):
self._secondary_anim.stop()
def __notify_invoker_cb(self, palette, pspec):
@ -198,28 +192,16 @@ class Palette(PaletteWindow):
def popdown(self, immediate=False):
if immediate:
self._secondary_anim.stop()
self._popdown_submenus()
# to suppress glitches while later re-opening
self.set_palette_state(self.PRIMARY)
if self._widget:
self._widget.size_request()
PaletteWindow.popdown(self, immediate)
def _popdown_submenus(self):
# TODO explicit hiding of subitems
# should be removed after fixing #1301
if self.menu is not None:
for menu_item in self.menu.get_children():
if menu_item.props.submenu is not None:
menu_item.props.submenu.popdown()
def on_enter(self, event):
PaletteWindow.on_enter(self, event)
def on_enter(self):
PaletteWindow.on_enter(self)
self._secondary_anim.start()
def _add_menu(self):
self._menu_box = Gtk.VBox()
self._secondary_box.pack_start(self._menu_box, True, True, 0)
self._menu_box.show()
def _add_content(self):
# The content is not shown until a widget is added
self._content = Gtk.VBox()
@ -315,6 +297,22 @@ class Palette(PaletteWindow):
setter=set_icon_visible)
def set_content(self, widget):
assert self._widget is None \
or isinstance(self._widget, _PaletteWindowWidget)
if self._widget is None:
self._widget = _PaletteWindowWidget()
self._setup_widget()
self._palette_box = Gtk.VBox()
self._palette_box.pack_start(self._primary_box, False, True, 0)
self._palette_box.pack_start(self._secondary_box, True, True, 0)
self._widget.add(self._palette_box)
self._palette_box.show()
height = style.GRID_CELL_SIZE - 2 * self._widget.get_border_width()
self._primary_box.set_size_request(-1, height)
if self._content.get_children():
self._content.remove(self._content.get_children()[0])
@ -324,48 +322,37 @@ class Palette(PaletteWindow):
else:
self._content.hide()
self._content_widget = widget
self._update_accept_focus()
self._update_separators()
def do_size_request(self, requisition):
PaletteWindow.do_size_request(self, requisition)
def do_get_preferred_width(self):
minimum, natural = PaletteWindow.do_get_preferred_width(self)
# Gtk.AccelLabel request doesn't include the accelerator.
label_width = self._label_alignment.size_request()[0] + \
self._label.get_accel_width() + \
2 * self.get_border_width()
requisition.width = max(requisition.width,
label_width,
self._full_request[0])
width = max(minimum, label_width, self._full_request[0])
return width, width
def _update_separators(self):
visible = self.menu.get_children() or \
self._content.get_children()
visible = self._content.get_children()
self._separator.props.visible = visible
visible = self.menu.get_children() and \
self._content.get_children()
self._menu_content_separator.props.visible = visible
def _update_accept_focus(self):
accept_focus = len(self._content.get_children())
window = self.get_window()
if window:
window.set_accept_focus(accept_focus)
def __realize_cb(self, widget):
self._update_accept_focus()
self._widget.set_accept_focus(accept_focus)
def _update_full_request(self):
if self._palette_state == self.PRIMARY:
self.menu.embed(self._menu_box)
self._secondary_box.show()
self._full_request = self.size_request()
self._full_request = self._widget.size_request()
if self._palette_state == self.PRIMARY:
self.menu.unembed()
self._secondary_box.hide()
def _set_palette_state(self, state):
@ -373,15 +360,46 @@ class Palette(PaletteWindow):
return
if state == self.PRIMARY:
self.menu.unembed()
self._secondary_box.hide()
elif state == self.SECONDARY:
self.menu.embed(self._menu_box)
self._secondary_box.show()
self.update_position()
self._palette_state = state
def get_menu(self):
assert self._content_widget is None
if self._widget is None \
or not isinstance(self._widget, _PaletteMenuWidget):
if self._widget is not None:
self._palette_box.remove(self._primary_box)
self._palette_box.remove(self._secondary_box)
self._teardown_widget()
self._widget.destroy()
self._widget = _PaletteMenuWidget()
self._label_menuitem = Gtk.MenuItem()
child = self._label_menuitem.get_child()
if child is not None:
self._label_menuitem.remove(child)
self._label_menuitem.add(self._primary_box)
# Mark the menuitem as insensitive so that it appears as an
# informational element, rather than a clickable item in the menu.
# TODO: see if we can do this better in GTK.
self._label_menuitem.set_sensitive(False)
self._label_menuitem.show()
self._widget.append(self._label_menuitem)
self._setup_widget()
return self._widget
menu = GObject.property(type=object, getter=get_menu)
class PaletteActionBar(Gtk.HButtonBox):
@ -397,44 +415,6 @@ class PaletteActionBar(Gtk.HButtonBox):
button.show()
class _Menu(SugarExt.Menu):
__gtype_name__ = 'SugarPaletteMenu'
__gsignals__ = {
'item-inserted': (GObject.SignalFlags.RUN_FIRST, None, ([])),
}
def __init__(self, palette):
SugarExt.Menu.__init__(self)
self._palette = palette
def do_insert(self, item, position):
SugarExt.Menu.do_insert(self, item, position)
self.emit('item-inserted')
self.show()
def attach(self, child, left_attach, right_attach,
top_attach, bottom_attach):
SugarExt.Menu.attach(self, child, left_attach, right_attach,
top_attach, bottom_attach)
self.emit('item-inserted')
self.show()
def do_expose_event(self, event):
# Ignore the Menu expose, just do the MenuShell expose to prevent any
# border from being drawn here. A border is drawn by the palette object
# around everything.
Gtk.MenuShell.do_expose_event(self, event)
def do_grab_notify(self, was_grabbed):
# Ignore grab_notify as the menu would close otherwise
pass
def do_deactivate(self):
self._palette.hide()
class _SecondaryAnimation(animator.Animation):
def __init__(self, palette):

View File

@ -75,6 +75,11 @@ class Group(GObject.GObject):
self._sig_ids[palette].append(sid)
def remove(self, palette):
if not palette in self._palettes:
# This happens when converting a window based palette to a menu
# based one.
return
sig_ids = self._sig_ids[palette]
for sid in sig_ids:
palette.disconnect(sid)

View File

@ -1,6 +1,8 @@
# Copyright (C) 2007, Eduardo Silva <edsiper@gmail.com>
# Copyright (C) 2008, One Laptop Per Child
# Copyright (C) 2009, Tomeu Vizoso
# Copyright (C) 2011, Benjamin Berg <benjamin@sipsolutions.net>
# Copyright (C) 2011, Marco Pesenti Gritti <marco@marcopg.org>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
@ -65,6 +67,258 @@ def _calculate_gap(a, b):
return False
class _PaletteMenuWidget(Gtk.Menu):
__gtype_name__ = "SugarPaletteMenuWidget"
__gsignals__ = {
'enter-notify': (GObject.SignalFlags.RUN_FIRST, None, ([])),
'leave-notify': (GObject.SignalFlags.RUN_FIRST, None, ([])),
}
def __init__(self):
Gtk.Menu.__init__(self)
accel_group = Gtk.AccelGroup()
self.set_data('sugar-accel-group', accel_group)
self.get_toplevel().add_accel_group(accel_group)
self._popup_position = (0, 0)
self._entered = False
self._mouse_in_palette = False
self._mouse_in_invoker = False
self._up = False
self._invoker = None
self._menus = []
def set_accept_focus(self, focus):
pass
def get_origin(self):
res_, x, y = self.get_toplevel().get_window().get_origin()
return x, y
def do_size_request(self, requisition):
Gtk.Window.do_size_request(self, requisition)
requisition.width = max(requisition.width, style.GRID_CELL_SIZE * 2)
def move(self, x, y):
self._popup_position = (x, y)
def set_transient_for(self, window):
pass
def _position(self, widget, data):
return self._popup_position[0], self._popup_position[1], False
def popup(self, invoker):
if self._up:
return
# We need to track certain mouse events in order to close the palette
# when the mouse leaves the palette and the invoker widget, but
# GtkMenu makes our lives hard here.
#
# GtkMenu takes a grab on the root window, meaning that normal
# enter/leave events are not sent to the relevant widgets.
# However, connecting enter-notify and leave-notify events in this
# GtkMenu subclass mean that we get to see the events being grabbed.
# With certain filtering in place (see _enter_notify_cb and
# _leave_notify_cb) we are able to accurately determine when the
# mouse leaves/enters the palette menu. Some spurious events are
# generated but the important thing is that the last event generated
# in response to a user action is always reliable (i.e. we will
# always get a leave event last if the user left the menu,
# even if we get some strange enter events leading up to it).
#
# This is complicated with submenus; in this case the submenu takes
# the grab, so we must also listen for events on any submenus of
# the palette and apply the same considerations.
#
# The remaining challenge is tracking when the mouse enters or leaves
# the invoker area. While the appropriate GtkMenu grab is active,
# we do get informed of such events, however these events will only
# arrive if the user has entered the menu. If the user hovers over
# the invoker and then leaves the invoker without entering the palette,
# we get no enter/leave event.
# We work around this by tracking mouse motion events. When the mouse
# moves, we compare the mouse coordinates to the region occupied by the
# invoker, and this lets us track enter/leave for the invoker widget.
self._invoker = invoker
self._find_all_menus(self)
for menu in self._menus:
if self._invoker:
menu.connect('motion-notify-event', self._motion_notify_cb)
menu.connect('enter-notify-event', self._enter_notify_cb)
menu.connect('leave-notify-event', self._leave_notify_cb)
self._entered = False
self._mouse_in_palette = False
self._mouse_in_invoker = False
Gtk.Menu.popup(self, None, None, self._position, None, 0, 0)
self._up = True
def popdown(self):
if not self._up:
return
Gtk.Menu.popdown(self)
for menu in self._menus:
menu.disconnect_by_func(self._motion_notify_cb)
menu.disconnect_by_func(self._enter_notify_cb)
menu.disconnect_by_func(self._leave_notify_cb)
self._up = False
self._menus = []
self._invoker = None
def _find_all_menus(self, menu):
"""
Recursively find all submenus of menu, adding them to self._menus.
"""
self._menus.append(menu)
for child in menu.get_children():
if not isinstance(child, Gtk.MenuItem):
continue
submenu = child.get_submenu()
if submenu and isinstance(submenu, Gtk.Menu):
self._find_all_menus(submenu)
def _enter_notify_cb(self, widget, event):
if event.mode in (Gdk.CrossingMode.GRAB, Gdk.CrossingMode.GTK_GRAB):
return False
if Gtk.get_event_widget(event) not in self._menus:
return False
self._mouse_in_palette = True
self._reevaluate_state()
return False
def _leave_notify_cb(self, widget, event):
if event.mode in (Gdk.CrossingMode.GRAB, Gdk.CrossingMode.GTK_GRAB):
return False
if Gtk.get_event_widget(event) not in self._menus:
return False
self._mouse_in_palette = False
self._reevaluate_state()
return False
def _motion_notify_cb(self, widget, event):
rect = self._invoker.get_rect()
x = event.x_root
y = event.y_root
in_invoker = x >= rect.x and x < (rect.x + rect.width) \
and y >= rect.y and y < (rect.y + rect.height)
if in_invoker != self._mouse_in_invoker:
self._mouse_in_invoker = in_invoker
self._reevaluate_state()
def _reevaluate_state(self):
if self._entered:
# If we previously advised that the mouse was inside, but now the
# mouse is outside both the invoker and the palette, notify that
# the mouse has left.
if not self._mouse_in_palette and not self._mouse_in_invoker:
self._entered = False
self.emit('leave-notify')
else:
# If we previously advised that the mouse had left, but now the
# mouse is inside either the palette or the invoker, notify that
# the mouse has entered.
if self._mouse_in_palette or self._mouse_in_invoker:
self._entered = True
self.emit('enter-notify')
class _PaletteWindowWidget(Gtk.Window):
__gtype_name__ = 'SugarPaletteWindowWidget'
__gsignals__ = {
'enter-notify': (GObject.SignalFlags.RUN_FIRST, None, ([])),
'leave-notify': (GObject.SignalFlags.RUN_FIRST, None, ([])),
}
def __init__(self):
Gtk.Window.__init__(self)
self.set_decorated(False)
self.set_resizable(False)
self.set_position(Gtk.WindowPosition.NONE)
accel_group = Gtk.AccelGroup()
self.set_data('sugar-accel-group', accel_group)
self.add_accel_group(accel_group)
self._old_alloc = None
self._should_accept_focus = True
def set_accept_focus(self, focus):
self._should_accept_focus = focus
if self.get_window() != None:
self.get_window().set_accept_focus(focus)
def get_origin(self):
res_, x, y = self.get_window().get_origin()
return x, y
def do_realize(self):
Gtk.Window.do_realize(self)
self.get_window().set_accept_focus(self._should_accept_focus)
self.set_type_hint(Gdk.WindowTypeHint.DIALOG)
def do_size_request(self, requisition):
Gtk.Window.do_size_request(self, requisition)
requisition.width = max(requisition.width, style.GRID_CELL_SIZE * 2)
def do_size_allocate(self, allocation):
Gtk.Window.do_size_allocate(self, allocation)
if self._old_alloc is None or \
self._old_alloc.x != allocation.x or \
self._old_alloc.y != allocation.y or \
self._old_alloc.width != allocation.width or \
self._old_alloc.height != allocation.height:
self.queue_draw()
# We need to store old allocation because when size_allocate
# is called widget.allocation is already updated.
# Gtk.Window resizing is different from normal containers:
# the X window is resized, widget.allocation is updated from
# the configure request handler and finally size_allocate is called.
self._old_alloc = allocation
def __enter_notify_event_cb(self, widget, event):
if event.mode == Gdk.CrossingMode.NORMAL and \
event.detail != Gdk.NotifyType.INFERIOR:
self.emit('enter-notify')
return False
def __leave_notify_event_cb(self, widget, event):
if event.mode != Gdk.CrossingMode.NORMAL:
return False
if event.detail != Gdk.NotifyType.INFERIOR:
self.emit('leave-notify')
def popup(self, invoker):
if self.get_visible():
return
self.connect('enter-notify-event', self.__enter_notify_event_cb)
self.connect('leave-notify-event', self.__leave_notify_event_cb)
self.show()
def popdown(self):
if not self.get_visible():
return
self.disconnect_by_func(self.__enter_notify_event_cb)
self.disconnect_by_func(self.__leave_notify_event_cb)
self.hide()
class MouseSpeedDetector(GObject.GObject):
__gsignals__ = {
@ -75,15 +329,15 @@ class MouseSpeedDetector(GObject.GObject):
_MOTION_SLOW = 1
_MOTION_FAST = 2
def __init__(self, parent, delay, thresh):
def __init__(self, delay, thresh):
"""Create MouseSpeedDetector object,
delay in msec
threshold in pixels (per tick of 'delay' msec)"""
GObject.GObject.__init__(self)
self.parent = None
self._threshold = thresh
self._parent = parent
self._delay = delay
self._state = None
self._timeout_hid = None
@ -101,8 +355,10 @@ class MouseSpeedDetector(GObject.GObject):
self._state = None
def _get_mouse_position(self):
display = Gdk.Display.get_default()
screen_, x, y, mask_ = display.get_pointer()
display = self.parent.get_display()
manager = display.get_device_manager()
pointer_device = manager.get_client_pointer()
screen, x, y = pointer_device.get_position()
return (x, y)
def _detect_motion(self):
@ -128,14 +384,16 @@ class MouseSpeedDetector(GObject.GObject):
return True
class PaletteWindow(Gtk.Window):
class PaletteWindow(GObject.GObject):
"""
Base class for _ToolbarPalette and Palette.
__gtype_name__ = 'SugarPaletteWindow'
Provides basic management of child widget, invoker, and animation.
"""
__gsignals__ = {
'popup': (GObject.SignalFlags.RUN_FIRST, None, ([])),
'popdown': (GObject.SignalFlags.RUN_FIRST, None, ([])),
'activate': (GObject.SignalFlags.RUN_FIRST, None, ([])),
}
def __init__(self, **kwargs):
@ -146,8 +404,8 @@ class PaletteWindow(Gtk.Window):
self._cursor_y = 0
self._alignment = None
self._up = False
self._old_alloc = None
self._palette_state = None
self._widget = None
self._popup_anim = animator.Animator(.5, 10)
self._popup_anim.add(_PopupAnimation(self))
@ -157,29 +415,35 @@ class PaletteWindow(Gtk.Window):
GObject.GObject.__init__(self, **kwargs)
self.set_decorated(False)
self.set_resizable(False)
# Just assume xthickness and ythickness are the same
self.set_border_width(self.get_style().xthickness)
accel_group = Gtk.AccelGroup()
self.set_data('sugar-accel-group', accel_group)
self.add_accel_group(accel_group)
self.set_group_id('default')
self.connect('show', self.__show_cb)
self.connect('hide', self.__hide_cb)
self.connect('realize', self.__realize_cb)
self.connect('destroy', self.__destroy_cb)
self.connect('enter-notify-event', self.__enter_notify_event_cb)
self.connect('leave-notify-event', self.__leave_notify_event_cb)
self._mouse_detector = MouseSpeedDetector(200, 5)
def _setup_widget(self):
self._widget.connect('show', self.__show_cb)
self._widget.connect('hide', self.__hide_cb)
self._widget.connect('destroy', self.__destroy_cb)
self._widget.connect('enter-notify', self.__enter_notify_cb)
self._widget.connect('leave-notify', self.__leave_notify_cb)
self._set_effective_group_id(self._group_id)
self._mouse_detector = MouseSpeedDetector(self, 200, 5)
self._mouse_detector.connect('motion-slow', self._mouse_slow_cb)
self._mouse_detector.parent = self._widget
def _teardown_widget(self):
self._widget.disconnect_by_func(self.__show_cb)
self._widget.disconnect_by_func(self.__hide_cb)
self._widget.disconnect_by_func(self.__destroy_cb)
self._widget.disconnect_by_func(self.__enter_notify_cb)
self._widget.disconnect_by_func(self.__leave_notify_cb)
self._set_effective_group_id(None)
def destroy(self):
if self._widget is not None:
self._widget.destroy()
def __destroy_cb(self, palette):
self.set_group_id(None)
self._mouse_detector.disconnect_by_func(self._mouse_slow_cb)
def set_invoker(self, invoker):
@ -203,9 +467,6 @@ class PaletteWindow(Gtk.Window):
getter=get_invoker,
setter=set_invoker)
def __realize_cb(self, widget):
self.set_type_hint(Gdk.WindowTypeHint.DIALOG)
def _mouse_slow_cb(self, widget):
self._mouse_detector.stop()
self._palette_do_popup()
@ -228,15 +489,18 @@ class PaletteWindow(Gtk.Window):
def is_up(self):
return self._up
def set_group_id(self, group_id):
def _set_effective_group_id(self, group_id):
if self._group_id:
group = palettegroup.get_group(self._group_id)
group.remove(self)
if group_id:
self._group_id = group_id
group = palettegroup.get_group(group_id)
group.add(self)
def set_group_id(self, group_id):
self._set_effective_group_id(group_id)
self._group_id = group_id
def get_group_id(self):
return self._group_id
@ -244,69 +508,21 @@ class PaletteWindow(Gtk.Window):
getter=get_group_id,
setter=set_group_id)
def do_size_request(self, requisition):
Gtk.Window.do_size_request(self, requisition)
requisition.width = max(requisition.width, style.GRID_CELL_SIZE * 2)
def do_size_allocate(self, allocation):
Gtk.Window.do_size_allocate(self, allocation)
if self._old_alloc is None or \
self._old_alloc.x != allocation.x or \
self._old_alloc.y != allocation.y or \
self._old_alloc.width != allocation.width or \
self._old_alloc.height != allocation.height:
self.queue_draw()
# We need to store old allocation because when size_allocate
# is called widget.allocation is already updated.
# Gtk.Window resizing is different from normal containers:
# the X window is resized, widget.allocation is updated from
# the configure request handler and finally size_allocate is called.
self._old_alloc = allocation
def do_expose_event(self, event):
# We want to draw a border with a beautiful gap
if self._invoker is not None and self._invoker.has_rectangle_gap():
invoker = self._invoker.get_rect()
palette = self.get_rect()
gap = _calculate_gap(palette, invoker)
else:
gap = False
allocation = self.get_allocation()
wstyle = self.get_style()
if gap:
wstyle.paint_box_gap(event.window, Gtk.StateType.PRELIGHT,
Gtk.ShadowType.IN, event.area, self, 'palette',
0, 0, allocation.width, allocation.height,
gap[0], gap[1], gap[2])
else:
wstyle.paint_box(event.window, Gtk.StateType.PRELIGHT,
Gtk.ShadowType.IN, event.area, self, 'palette',
0, 0, allocation.width, allocation.height)
# Fall trough to the container expose handler.
# (Leaving out the window expose handler which redraws everything)
Gtk.Bin.do_expose_event(self, event)
def update_position(self):
invoker = self._invoker
if invoker is None or self._alignment is None:
logging.error('Cannot update the palette position.')
return
rect = self.size_request()
rect = self._widget.size_request()
position = invoker.get_position_for_alignment(self._alignment, rect)
if position is None:
position = invoker.get_position(rect)
self.move(position.x, position.y)
self._widget.move(position.x, position.y)
def get_full_size_request(self):
return self.size_request()
return self._widget.size_request()
def popup(self, immediate=False):
if self._invoker is not None:
@ -314,7 +530,7 @@ class PaletteWindow(Gtk.Window):
self._alignment = self._invoker.get_alignment(full_size_request)
self.update_position()
self.set_transient_for(self._invoker.get_toplevel())
self._widget.set_transient_for(self._invoker.get_toplevel())
self._popdown_anim.stop()
@ -322,7 +538,7 @@ class PaletteWindow(Gtk.Window):
self._popup_anim.start()
else:
self._popup_anim.stop()
self.show()
self._widget.popup(self._invoker)
# we have to invoke update_position() twice
# since WM could ignore first move() request
self.update_position()
@ -335,8 +551,8 @@ class PaletteWindow(Gtk.Window):
self._popdown_anim.start()
else:
self._popdown_anim.stop()
self.size_request()
self.hide()
if self._widget is not None:
self._widget.popdown()
def on_invoker_enter(self):
self._popdown_anim.stop()
@ -346,10 +562,10 @@ class PaletteWindow(Gtk.Window):
self._mouse_detector.stop()
self.popdown()
def on_enter(self, event):
def on_enter(self):
self._popdown_anim.stop()
def on_leave(self, event):
def on_leave(self):
self.popdown()
def _invoker_mouse_enter_cb(self, invoker):
@ -361,15 +577,11 @@ class PaletteWindow(Gtk.Window):
def _invoker_right_click_cb(self, invoker):
self.popup(immediate=True)
def __enter_notify_event_cb(self, widget, event):
if event.detail != Gdk.NOTIFY_INFERIOR and \
event.mode == Gdk.CROSSING_NORMAL:
self.on_enter(event)
def __enter_notify_cb(self, widget):
self.on_enter()
def __leave_notify_event_cb(self, widget, event):
if event.detail != Gdk.NOTIFY_INFERIOR and \
event.mode == Gdk.CROSSING_NORMAL:
self.on_leave(event)
def __leave_notify_cb(self, widget):
self.on_leave()
def __show_cb(self, widget):
if self._invoker is not None:
@ -386,14 +598,20 @@ class PaletteWindow(Gtk.Window):
self.emit('popdown')
def get_rect(self):
win_x, win_y = self.get_window().get_origin()
win_x, win_y = self._widget.get_origin()
rectangle = self.get_allocation()
x = win_x + rectangle.x
y = win_y + rectangle.y
width, height = self.size_request()
requisition = self._widget.size_request()
return (x, y, width, height)
rect = Gdk.Rectangle()
rect.x = x
rect.y = y
rect.width = requisition.width
rect.height = requisition.height
return rect
def get_palette_state(self):
return self._palette_state
@ -453,8 +671,10 @@ class Invoker(GObject.GObject):
self.parent = None
self._screen_area = (0, 0, Gdk.Screen.width(),
Gdk.Screen.height())
self._screen_area = Gdk.Rectangle()
self._screen_area.x = self._screen_area.y = 0
self._screen_area.width = Gdk.Screen.width()
self._screen_area.height = Gdk.Screen.height()
self._position_hint = self.ANCHORED
self._cursor_x = -1
self._cursor_y = -1
@ -477,8 +697,10 @@ class Invoker(GObject.GObject):
invoker_valign = alignment[3]
if self._cursor_x == -1 or self._cursor_y == -1:
display = Gdk.Display.get_default()
screen_, x, y, mask_ = display.get_pointer()
display = self.parent.get_display()
manager = display.get_device_manager()
pointer_device = manager.get_client_pointer()
screen, x, y = pointer_device.get_position()
self._cursor_x = x
self._cursor_y = y
@ -486,11 +708,12 @@ class Invoker(GObject.GObject):
rect = self.get_rect()
else:
dist = style.PALETTE_CURSOR_DISTANCE
rect = (self._cursor_x - dist,
self._cursor_y - dist,
dist * 2, dist * 2)
rect = Gdk.Rectangle()
rect.x = self._cursor_x - dist
rect.y = self._cursor_y - dist
rect.width = rect.height = dist * 2
palette_width, palette_height = palette_dim
palette_width, palette_height = palette_dim.width, palette_dim.height
x = rect.x + rect.width * invoker_halign + \
palette_width * palette_halign
@ -498,8 +721,12 @@ class Invoker(GObject.GObject):
y = rect.y + rect.height * invoker_valign + \
palette_height * palette_valign
return (int(x), int(y),
palette_width, palette_height)
rect = Gdk.Rectangle()
rect.x = int(x)
rect.y = int(y)
rect.width = palette_width
rect.height = palette_height
return rect
def _in_screen(self, rect):
return rect.x >= self._screen_area.x and \
@ -582,12 +809,12 @@ class Invoker(GObject.GObject):
# Set palette_valign to align to screen on the top
if dtop > dbottom:
pv = -float(dtop) / palette_dim[1]
pv = -float(dtop) / palette_dim.height
# Set palette_valign to align to screen on the bottom
else:
pv = -float(palette_dim[1] - dbottom - rect.height) \
/ palette_dim[1]
pv = -float(palette_dim.height - dbottom - rect.height) \
/ palette_dim.height
elif best_alignment in self.TOP or best_alignment in self.BOTTOM:
dleft = rect.x - screen_area.x
@ -597,12 +824,12 @@ class Invoker(GObject.GObject):
# Set palette_halign to align to screen on left
if dleft > dright:
ph = -float(dleft) / palette_dim[0]
ph = -float(dleft) / palette_dim.width
# Set palette_halign to align to screen on right
else:
ph = -float(palette_dim[0] - dright - rect.width) \
/ palette_dim[0]
ph = -float(palette_dim.width - dright - rect.width) \
/ palette_dim.width
return (ph, pv, ih, iv)
@ -717,30 +944,31 @@ class WidgetInvoker(Invoker):
allocation = self._widget.get_allocation()
window = self._widget.get_window()
if window is not None:
x, y = window.get_origin()
res, x, y = window.get_origin()
else:
logging.warning(
"Trying to position palette with invoker that's not realized.")
x = 0
y = 0
if self._widget.flags() & Gtk.NO_WINDOW:
x += allocation.x
y += allocation.y
width = allocation.width
height = allocation.height
return (x, y, width, height)
rect = Gdk.Rectangle()
rect.x = x
rect.y = y
rect.width = width
rect.height = height
return rect
def has_rectangle_gap(self):
return True
def draw_rectangle(self, event, palette):
if self._widget.flags() & Gtk.NO_WINDOW:
x, y = self._widget.allocation.x, self._widget.allocation.y
else:
x = y = 0
wstyle = self._widget.get_style()
gap = _calculate_gap(self.get_rect(), palette.get_rect())
@ -763,6 +991,7 @@ class WidgetInvoker(Invoker):
self.notify_mouse_enter()
def __leave_notify_event_cb(self, widget, event):
if event.mode == Gdk.CrossingMode.NORMAL:
self.notify_mouse_leave()
def __button_release_event_cb(self, widget, event):
@ -908,14 +1137,13 @@ class CellRendererInvoker(Invoker):
allocation = self._tree_view.get_allocation()
window = self._tree_view.get_window()
if window is not None:
x, y = window.get_origin()
res, x, y = window.get_origin()
else:
logging.warning(
"Trying to position palette with invoker that's not realized.")
x = 0
y = 0
if self._tree_view.flags() & Gtk.NO_WINDOW:
x += allocation.x
y += allocation.y

View File

@ -15,11 +15,14 @@
# Free Software Foundation, Inc., 59 Temple Place - Suite 330,
# Boston, MA 02111-1307, USA.
import math
from gi.repository import Gtk
from gi.repository import GObject
from sugar3.graphics import style
from sugar3.graphics.palette import PaletteWindow, ToolInvoker
from sugar3.graphics.palettewindow import PaletteWindow, ToolInvoker, \
_PaletteWindowWidget
from sugar3.graphics.toolbutton import ToolButton
from sugar3.graphics import palettegroup
@ -74,7 +77,7 @@ class ToolbarButton(ToolButton):
def is_in_palette(self):
return self.page is not None and \
self.page_widget.get_parent() == self.props.palette
self.page_widget.get_parent() == self.props.palette._widget
def is_expanded(self):
return self.page is not None and \
@ -97,10 +100,7 @@ class ToolbarButton(ToolButton):
box = self.toolbar_box
if box.expanded_button is not None:
button_window = box.expanded_button.get_window()
if button_window is not None:
# need to redraw it to erase arrow
button_window.invalidate_rect(None, True)
box.expanded_button.queue_draw()
box.expanded_button.set_expanded(False)
box.expanded_button = self
@ -117,7 +117,7 @@ class ToolbarButton(ToolButton):
self._unparent()
if isinstance(self.props.palette, _ToolbarPalette):
self.props.palette.add(self.page_widget)
self.props.palette._widget.add(self.page_widget)
def _unparent(self):
page_parent = self.page_widget.get_parent()
@ -125,28 +125,22 @@ class ToolbarButton(ToolButton):
return
page_parent.remove(self.page_widget)
def do_expose_event(self, event):
def do_draw(self, cr):
if not self.is_expanded() or self.props.palette is not None and \
self.props.palette.is_up():
ToolButton.do_expose_event(self, event)
_paint_arrow(self, event, Gtk.ArrowType.DOWN)
Gtk.ToolButton.do_draw(self, cr)
_paint_arrow(self, cr, math.pi)
return
alloc = self.allocation
alloc = self.get_allocation()
self.get_style().paint_box(event.window,
Gtk.StateType.NORMAL, Gtk.ShadowType.IN, event.area, self,
'palette-invoker', alloc.x, 0,
alloc.width, alloc.height + style.FOCUS_LINE_WIDTH)
context = self.get_style_context()
context.add_class('toolitem')
if self.get_child().state != Gtk.StateType.PRELIGHT:
self.get_style().paint_box(event.window,
Gtk.StateType.NORMAL, Gtk.ShadowType.NONE, event.area, self, None,
alloc.x + style.FOCUS_LINE_WIDTH, style.FOCUS_LINE_WIDTH,
alloc.width - style.FOCUS_LINE_WIDTH * 2, alloc.height)
Gtk.ToolButton.do_expose_event(self, event)
_paint_arrow(self, event, Gtk.ArrowType.UP)
Gtk.render_frame_gap(context, cr, 0, 0, alloc.width, alloc.height,
Gtk.PositionType.BOTTOM, 0, alloc.width)
Gtk.ToolButton.do_draw(self, cr)
_paint_arrow(self, cr, 0)
class ToolbarBox(Gtk.VBox):
@ -214,15 +208,20 @@ class _ToolbarPalette(PaletteWindow):
def __init__(self, **kwargs):
PaletteWindow.__init__(self, **kwargs)
self.set_border_width(0)
self._has_focus = False
group = palettegroup.get_group('default')
group.connect('popdown', self.__group_popdown_cb)
self.set_group_id('toolbarbox')
self._widget = _PaletteWindowWidget()
self._widget.set_border_width(0)
self._setup_widget()
self._widget.connect('realize', self._realize_cb)
def get_expanded_button(self):
return self.invoker.get_parent()
return self.invoker.parent
expanded_button = property(get_expanded_button)
@ -234,12 +233,12 @@ class _ToolbarPalette(PaletteWindow):
PaletteWindow.on_invoker_leave(self)
self._set_focus(False)
def on_enter(self, event):
PaletteWindow.on_enter(self, event)
def on_enter(self):
PaletteWindow.on_enter(self)
self._set_focus(True)
def on_leave(self, event):
PaletteWindow.on_enter(self, event)
def on_leave(self):
PaletteWindow.on_enter(self)
self._set_focus(False)
def _set_focus(self, new_focus):
@ -249,10 +248,10 @@ class _ToolbarPalette(PaletteWindow):
if not group.is_up():
self.popdown()
def do_size_request(self, requisition):
Gtk.Window.do_size_request(self, requisition)
requisition.width = max(requisition.width,
Gdk.Screen.width())
def _realize_cb(self, widget):
screen = self._widget.get_screen()
width = screen.width()
self._widget.set_size_request(width, -1)
def popup(self, immediate=False):
button = self.expanded_button
@ -272,10 +271,10 @@ class _Box(Gtk.EventBox):
def __init__(self):
GObject.GObject.__init__(self)
self.connect('expose-event', self.do_expose_event)
self.set_app_paintable(True)
def do_expose_event(self, widget, event):
# TODO: reimplement this in the theme
expanded_button = self.get_parent().expanded_button
if expanded_button is None:
return
@ -326,12 +325,14 @@ def _get_embedded_page(page_widget):
return page_widget.get_child().get_child()
def _paint_arrow(widget, event, arrow_type):
alloc = widget.allocation
x = alloc.x + alloc.width / 2 - style.TOOLBAR_ARROW_SIZE / 2
y = alloc.y + alloc.height - int(style.TOOLBAR_ARROW_SIZE * .85)
def _paint_arrow(widget, cr, angle):
alloc = widget.get_allocation()
widget.get_style().paint_arrow(event.window,
Gtk.StateType.NORMAL, Gtk.ShadowType.NONE, event.area, widget,
None, arrow_type, True,
x, y, style.TOOLBAR_ARROW_SIZE, style.TOOLBAR_ARROW_SIZE)
arrow_size = style.TOOLBAR_ARROW_SIZE / 2
y = alloc.height - arrow_size
x = (alloc.width - arrow_size) / 2
context = widget.get_style_context()
context.add_class('toolitem')
Gtk.render_arrow(context, cr, angle, x, y, arrow_size)

View File

@ -1,63 +0,0 @@
/*
* Copyright (C) 2006-2007, Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <gtk/gtkwindow.h>
#include "sugar-menu.h"
static void sugar_menu_class_init (SugarMenuClass *menu_class);
static void sugar_menu_init (SugarMenu *menu);
G_DEFINE_TYPE(SugarMenu, sugar_menu, GTK_TYPE_MENU)
void
sugar_menu_set_active(SugarMenu *menu, gboolean active)
{
GTK_MENU_SHELL(menu)->active = active;
}
void
sugar_menu_embed(SugarMenu *menu, GtkContainer *parent)
{
menu->orig_toplevel = GTK_MENU(menu)->toplevel;
GTK_MENU(menu)->toplevel = gtk_widget_get_toplevel(GTK_WIDGET(parent));
gtk_widget_reparent(GTK_WIDGET(menu), GTK_WIDGET(parent));
}
void
sugar_menu_unembed(SugarMenu *menu)
{
if (menu->orig_toplevel) {
GTK_MENU(menu)->toplevel = menu->orig_toplevel;
gtk_widget_reparent(GTK_WIDGET(menu), GTK_WIDGET(menu->orig_toplevel));
}
}
static void
sugar_menu_class_init(SugarMenuClass *menu_class)
{
}
static void
sugar_menu_init(SugarMenu *menu)
{
menu->orig_toplevel = NULL;
}

View File

@ -1,57 +0,0 @@
/*
* Copyright (C) 2006-2007, Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#ifndef __SUGAR_MENU_H__
#define __SUGAR_MENU_H__
#include <gtk/gtk.h>
G_BEGIN_DECLS
typedef struct _SugarMenu SugarMenu;
typedef struct _SugarMenuClass SugarMenuClass;
#define SUGAR_TYPE_MENU (sugar_menu_get_type())
#define SUGAR_MENU(object) (G_TYPE_CHECK_INSTANCE_CAST((object), SUGAR_TYPE_MENU, SugarMenu))
#define SUGAR_MENU_CLASS(klass) (G_TYPE_CHACK_CLASS_CAST((klass), SUGAR_TYPE_MENU, SugarMenuClass))
#define SUGAR_IS_MENU(object) (G_TYPE_CHECK_INSTANCE_TYPE((object), SUGAR_TYPE_MENU))
#define SUGAR_IS_MENU_CLASS(klass) (G_TYPE_CHECK_CLASS_TYPE((klass), SUGAR_TYPE_MENU))
#define SUGAR_MENU_GET_CLASS(object) (G_TYPE_INSTANCE_GET_CLASS((object), SUGAR_TYPE_MENU, SugarMenuClass))
struct _SugarMenu {
GtkMenu base_instance;
GtkWidget *orig_toplevel;
int min_width;
};
struct _SugarMenuClass {
GtkMenuClass base_class;
};
GType sugar_menu_get_type (void);
void sugar_menu_set_active (SugarMenu *menu,
gboolean active);
void sugar_menu_embed (SugarMenu *menu,
GtkContainer *parent);
void sugar_menu_unembed (SugarMenu *menu);
G_END_DECLS
#endif /* __SUGAR_MENU_H__ */