If a window claims to handle its own configuration change then we
won't destroy and recreate its window on a configuration change.
Normally that recreation triggers the first layout following
orientation change because mHaveFrame is false. Windows that handle
their own configuration changes never got a relayout pass following a
change in orientation.
This change passes the configuration changes that an application
handles into the AppWindowToken. If the app says it handles
orientation or screen size changes then a relayout will occur when the
configuration has changed.
Fixes bug 11647107.
Change-Id: Ie8d49fd050442ebbdcf0b805087894e3a2fc4be9
The new attribute allows an Activity such as the alarm to appear
on all users screens.
Bug: 7213805 fixed.
Change-Id: If7866b13d88c04af07debc69e0e875d0adc6050a
These have been created to reduce the size and complexity
of frameworks/base.
mms-common was created by moving all of
frameworks/base/core/java/com/google/android/mms
to:
frameworks/opt/mms
telephony-common was created by moving some of
frameworks/base/telephony
to:
frameworks/opt/telephony
Change-Id: If6cb3c6ff952767fc10210f923dc0e4b343cd4ad
Simplified input injection API down to just one call.
Removed all input state reading API. It was only used by the
window manager policy and required a permission that applications
could not obtain. READ_INPUT_STATE is now unused and deprecated.
Change-Id: I41278141586ddee9468cae0fb59ff0dced6cbc00
The status bar and navigation bar are two completely separate
elements, with their own semantics. The system bar now classifies
itself as a navigation bar, since that is really how it behaves.
This required rewriting the HDMI resizing code, so that it is
all done by PhoneWindowManager since that is what is responsible
for the size of the navigation bar (and thus now system bar). This
actually gets rid of a fair amount of code, and means we can also
do the same thing for a pure navigation bar.
Likewise the system bar now has the navigation bar ability to be
hidden when requested by system UI flags. To get the behavior
we want on Xoom, we only allow the nav bar to be hidden when it
will help provide a better aspect ratio for showing widescreen
videos.
Finally the nav/system bar now animates when hidden and shown.
Change-Id: Ie927154b68376a0b61802f99171ff56b8da92e7a
Use it for recent tasks switching.
Not perfect yet by far, but something.
Also fix issue #6186758: Twitter crashes after tapping on a tweet on JRM75D
Change-Id: I49bf6c94aafde875ac652dedaf96d6c08cc9e7d2
Bug: 4981385
Simplify the orientation changing code path in the
WindowManager. Instead of the policy calling setRotation()
when the sensor determined orientation changes, it calls
updateRotation(), which figures everything out. For the most
part, the rotation actually passed to setRotation() was
more or less ignored and just added confusion, particularly
when handling deferred orientation changes.
Ensure that 180 degree rotations are disallowed even when
the application specifies SCREEN_ORIENTATION_SENSOR_*.
These rotations are only enabled when docked upside-down for
some reason or when the application specifies
SCREEN_ORIENTATION_FULL_SENSOR.
Ensure that special modes like HDMI connected, lid switch,
dock and rotation lock all cause the sensor to be ignored
even when the application asks for sensor-based orientation
changes. The sensor is not relevant in these modes because
some external factor (or the user) is determining the
preferred rotation.
Currently, applications can still override the preferred
rotation even when there are special modes in play that
might say otherwise. We could tweak this so that some
special modes trump application choices completely
(resulting in a letter-boxed application, perhaps).
I tested this sort of tweak (not included in the patch)
and it seems to work fine, including transitions between
applications with varying orientation.
Delete dead code related to animFlags.
Handle pausing/resuming orientation changes more precisely.
Ensure that a deferred orientation change is performed when
a drag completes, even if endDragLw() is not called because the
drag was aborted before the drop happened. We pause
the orientation change in register() and resume in unregister()
because those methods appear to always be called as needed.
Change-Id: If0a31de3d057251e581fdee64819f2b19e676e9a
There was a race in the system process between applying the initial
configuration and executing code in higher-level system services
like the app widget service that relies on the config. For some
reason it starting showing up more after my code changes; it should
now be completely fixed.
Also fix the activity starting window to run in compatibility mode
if its application is going to be in compatibility mode.
And some various cleanup and small fixes.
Change-Id: I0566933bf1bbb4259c1d99a60c0a3c19af1542e5
Also know as:
Issue #3272051 Contacts edit view: Tapping the in-app back button
results in a forward transition
Yeah more complexity in deciding which animation to use.
Also reduce complexity in deciding which app's animation set to use,
to balance things out (and make it have less stupid behavior).
Change-Id: I78c6c5c5249a96206f7e03ce587c1dcb9a7dc14f
What this adds:
- A new Intent activity flag to completely replace an existing task.
- A new Intent activity flag to bring the current home task up behind
a new task being started/brought to the foreground.
- New versions of startActivity() that take an array of Intents to be
started, allowing applications to start a task in a specific state.
- A public moveTaskToFront() method on ActivityManager, with a new flag
that allows the caller to have the task moved to the front with the
current home task immediately behind it.
Change-Id: Ie8028d09acffb5349d98043c67676daba09f75c8
We now decide whether to use a bitmap background based on whether the
window's drawing is hardware accelerated. To do this, there is a new
"state_accelerated" that state list drawables can be parameterized on,
and the standard window background uses this to select a solid color
or bitmap drawable as appropriate.
Introduces a little hackery to have wm preview windows pretend like
they are hardware accelerated even if they aren't, so the preview looks
closer to the actual app.
Also Add a DialogWhenLarge variation for the light theme.
Change-Id: I215a79d5df65ba3eed52ab363cade9d8218a6588
The lights support is only needed by PowerManagerService and NotificationManagerService, so we do not need a Binder API for it.
Move backlight and notification light support to new LightsService class.
The camera flash is now handled directly by the camera HAL, so the flash Hardware service flash support is obsolete.
Change-Id: I086d681f54668e7f7de3e8b90df3de19d59833c5
Signed-off-by: Mike Lockwood <lockwood@android.com>
to prevent apps from changing the hardware behind its back.
Fixes b/2041941 Lock screen flashes the screen very bright before dimming
Change-Id: Ice757f7ae87902bdfb3634471cf44f020ebfaae4
Signed-off-by: Mike Lockwood <lockwood@android.com>
This adds a new API with the activity manager to find out about movement between
activities. For my sanity, the old IActivityWatcher is now renamed to
IActivityController, and the new activity movement interface is named
IActivityWatcher.
This changes the search manager itself to use the new API to manage its state.
Note that there are still problems when going back to the search dialog after
it was hidden -- the suggestions window no longer appears until you explicitly
dismiss and re-show it.
There are 2 types of vibrations: simple and repeated. Simple vibrations run for
a given length of time while repeated patterns run until canceled or the calling
process dies.
If a vibration is currently running and another request is issued, the newer
request always takes precedence unless the current vibration is a simple one and
the time left is longer than the new request.
If a repeating vibration is running and a new request overrides that vibration,
the current vibration is pushed onto a stack. Once the new vibration completes,
the previous vibration resumes. IBinder tokens are used to identify Vibration
requests which means that multiple calls to Vibrator.vibrate with the same
Vibrator object will override previous vibrations on that object.
This also includes some changes to the window manager permission checks. Almost all of these
are to make it most testable (through an exception on a permission failure), though there is
one permission check that needed to be added: updateOrientationFromAppTokens().