We were not translating event coordinates to the toplevel
window, thus the regions we determined were not right.
We were also not respecting the maximized state, and we
were unnecessarily refusing to handle events when not decorated.
https://bugzilla.gnome.org/show_bug.cgi?id=696197
The function update_window_buttons shows or hides the title header after it
has finished updating the visibility of the various buttons. Unfortunately
this
conflicted with the hiding of the title done when going fullscreen.
This solves the problem and fixes the rendering of fullscreen applications by
using update_window_buttons to control the visibility of the box in the
fullscreen case.
A new function that sets a custom titlebar on a GtkWindow.
With client-side decorations, the custom titlebar simply
replaces the one that GtkWindow would otherwise create itself.
With traditional decorations, we tell the window manager
to just decorate the window with a border. This works ok
at least with metacity and mutter.
For csd, we were subtracting the border width one too many
times from the child height, causing clipped off content e.g.
in the 'Properties' window in testgtk.
For now, nothing changes, we're using the sum of inner and
outer border everywhere.
In the future, we will make the inner border the visible
window frame, and the outer border the shadow/resize border.
Add a style property to control the presence and order of
window buttons. We allow buttons at the left and right side,
they can be specified like this: icon,close:minimize,maximize.
Also, change the default button layout back to have just a close
button on the right, use icons in buttons, and set style classes
on the buttons, to allow better theming.
Hide the close button if the window is not deletable, hide the
maximize button if the window is not resizable, and hide all
buttons if the window is a dialog.
Update buttons when the window state changes.
Client side decorations can be enabled on non-Wayland platforms by
setting the GTK_CSD="1" environment variable.
We must ensure we have a GdkVisual that has an alpha channel since
the decorations rely on transparency. If we cannot get a visual with
an alpha channel then we do not enable client side decorations.
Otherwise we'll potentially get some background sticking through our rounded
corners in our decorations. The actual background will get drawn as part of
the decoration drawing.
This change comprises four main parts:
* the creation of the widgets that form the decorations,
* implementation of get_preferred_height/width, and the for_width/for_height
variants,
* taking the decorations into account when allocating,
* and drawing the decorations themselves.
Kristian did the bulk of the original work on this but any bugs are almost
certainly mine through the many refactorings and rebasings.
Update the documentation and users of this function to handle
the future case that that we have some internal decorations to the window and
useable allocation is thus smaller.
By having a separate out parameter there is no need to have an in/out function
and allows for greater robustness.
The current implementation simply returns the allocation provided.
The callback function gtk_window_on_theme_variant_changed is only used on the
X11 backend (where GtkSettings is used for the settings information.)
Fixes: https://bugzilla.gnome.org/show_bug.cgi?id=674207
Deprecate gdk_window_enable_synchronized_configure() and
gdk_window_configure_done() and make them no-ops. Implement the
handling of _NET_WM_SYNC_REQUEST in terms of the frame cycle -
we know that all processing will be finished in the next frame
cycle after the ConfigureNotify is received.
This adds gtk_widget_get/set_opacity, as well as a GtkWidget.opacity
property. Additionally it deprectates gtk_window_get/set_opacity and
removes the GtkWindow.opacity property (in preference for the new
identical inherited property from GtkWidget, which should be ABI/API
compat).
The implementation is using the new gdk_window_set_opacity child
window support for windowed widgets, and cairo_push/pop_group()
bracketing in gtk_widget_draw() for non-window widgets.
https://bugzilla.gnome.org/show_bug.cgi?id=687842
This replaces the previously hardcoded calls to gdk_window_set_user_data,
and also lets us track which windows are a part of a widget. Old code
should continue working as is, but new features that require the
windows may not work perfectly.
We need this for the transparent widget support to work, as we need
to specially mark the windows of child widgets.
https://bugzilla.gnome.org/show_bug.cgi?id=687842
The window size can be queried on widget->window directly, no need to
store it in widget->allocation.
This change is necessary because gtk_widget_set_allcation() is now
checking invariants that assume it's called from insize
gtk_widget_size_allocate() and that wasn;t the case here.
GtkWindow always queues a resize on style updates if there is
a grip, because it may have been the grip size style properties
that changed. However, even if it *were*, and it likely wasn't
that would not affect the windows size request, so no need
to queue a resize.
This reverts the size_allocate removal from commit
8449e05865. That code was using
_gtk_window_set_allocation() instead of gtk_widget_set_allocation(). And
that broke glade.
Showing mnemonics immediately on modifier press can be annoying and
distracting when the user is just trying to Alt+Tab into another
application/window since the mnemonic will show up and quickly vanish
again when we receive the focus out event.
https://bugzilla.gnome.org/show_bug.cgi?id=672431
Each GtkWindow with an associated GtkApplication should add this as
"app" to its action context. Each GtkApplicationWindow is its own
GActionGroup, and it should add itself to itself with the prefix "win".
There is now some duplication here because we have the new GActionMuxer
hierarchy managed by GtkWidget, but GtkApplicationWindow still carries
its own muxer. The redundancy will be removed in a future patch.
This call was forcing needless work since gtk_window_map() already
does a gdk_window_show() which initially sets GDK_WINDOW_STATE_FOCUSED
that we then handle regularly on the widget's window state event
handler.
https://bugzilla.gnome.org/show_bug.cgi?id=673237
gtk_window_get/set_attached_to() is a new API that allows for windows to
be attached to a GtkWidget.
The attachment is a logical binding between the toplevel window and the
widget that generated it; this kind of information is currently used to
propagate style information from the widget to the window, but is also
useful e.g. for accessibility.
https://bugzilla.gnome.org/show_bug.cgi?id=666103
'window-unfocused' is too long and mentions "focus" which is historically
loaded with the meaning "input focus".
'backdrop' isn't generally used in GUI speak and still conveys the state the
widgets in an unfocused or background toplevel window are in.
This also removes setting the FOCUSED state flag when
gtk_window_has_toplevel_focus() since this effect can now be done with the new
WINDOW_UNFOCUSED flag instead which actually works better regarding X grabs
and modal windows.
For maximized windows, titlebars cannot be used to reposition or
scale the window, so if an application does not use it to convey
useful information (other than the application name), the screen
space occupied by titlebars could be put to better use.
Add a new window property which requests from the window manager
to hide titlebars when windows are maximized to account for this.
https://bugzilla.gnome.org/show_bug.cgi?id=665616
Instead of painting the window background on the grip_window we now
only paint it on the GtkWindow->window, and we make the grip_window
have a transparent background.
We can't really make transparent window handle background optional
via css atm, because the handle color is actually based on the
background color, so if that is set to transparent we won't draw
anything.
gdk_cairo_region_create_from_surface doesn't work correctly on PPC.
This is most prominently seen with the GTK window resize grip, the
shape of which is mirrored every eight pixels horizontally.
At the same time, use an A1 surface for the resize grip shape to
eliminates an A8->A1 surface conversion.
We have an event, so the correct thing to do is to pass
the device into the function that we are calling. GDK
just grew a variant that takes a device, for this purpose.
https://bugzilla.gnome.org/show_bug.cgi?id=663444
This commit introduces a new setting, gtk-visible-focus, backed
by the Gtk/VisibleFocus X setting. Its three values control how
focus rectangles are displayed.
'always' is equivalent to the traditional GTK+ behaviour of always
rendering focus rectangles.
'never' does what it says, and is intended for keyboardless
situations, e.g. tablets.
'automatic' hides focus rectangles initially, until the user
interacts with the keyboard, at which point focus rectangles
become visible.
https://bugzilla.gnome.org/show_bug.cgi?id=649567
Don't rely on priv->resize_grip_visible as the code comment in the
variable declaration indicates.
This fixes warnings with GtkPlug, which can cause resize_grip_visible to
be TRUE but grid_window to be NULL - running tests/teststatusicon
reproduces this.
This broke with 7ef113ce56
With gtk-auto-mnemonics on, we hide mnemonics on focus out. We should also
check if the modifier is pressed on focus in and if so, show mnemonics again.
https://bugzilla.gnome.org/show_bug.cgi?id=618815
See the code comments for the reasoning behind this. After we don't
force a "guessed" minimum size for labels anymore, a lot of issues
started to surface that this patch attempts to fix. In particular:
1) Tooltips where wrapped as much as possible.
2) The recentchooser submenu displayed only ellipsize dots.
When called on a hidden window, gtk_window_present_with_time() would
just fall back to gtk_widget_show(), completely ignoring the passed-in
timestamp. This ended up working anyway if the timestamp came from
in-process, since gdk_window_x11_show() would initialize its user_time
from the time of the most recent event. But if the timestamp came from
another process, this would result in the window being shown with an
out-of-date timestamp.
Fix this by remembering the timestamp from
gtk_window_present_with_time(), and then setting the GdkWindow's
user_time from that when it the window is realized.
https://bugzilla.gnome.org/show_bug.cgi?id=647275
gtk_settings_get_default() was used to monitor the
"gtk-application-prefers-dark-theme" setting, rather
than the GtkSettings object associated with the window's
screen.
The metacity theme format allows to use colors from the current
GTK+ theme in window decorations. Since GTK+ now gained support
for dark theme variants, window managers using that theme format
(metacity, mutter, compiz via gtk-window-decorator) should be able
to use colors from the correct variant; so in case a variant is
requested, export it in the _GTK_THEME_VARIANT property on
toplevel windows.
https://bugzilla.gnome.org/show_bug.cgi?id=645354
