Move the parameter extraction earlier on in onCreate. Mostly this moves
setting sIsGameCubeGame to before setContentView, which means
EmulationFragment will always see it in a consistent state. Previously,
there was a race, which mean the controller overlay would randomly be
Wii controls for a GameCube game (since the default is false).
Use the correct support version of things, ActivityOptionsCompat and
transitions
Rename static var mIsGameCubeGame to sIsGameCubeGame. s is static, m is
member.
Make the MenuFragment added and removed by fragment transactions only,
instead of being initially present in the XML. This fixes a glitch where
it doesn't animate correctly the first time it's used.
The Activity is responsible for just its views and menus and such. It
signals the Fragment via setGamePath, StartEmulation and StopEmulation.
The Fragment manages the actual emulation lifecycle. It is solely
responsible for calling the NativeLibrary lifecycle methods.
With this lifecycle simplification, the NativeLibrary no longer needs to
kill the Activity. It happens normally now.
This simplifies a lot of things, live handling rotation.
Without this View, the emulation SurfaceView acts like it has the
highest Z-value, blocking any other View. This includes the menu
fragments and the screenshot ImageView.
This makes it clear that the Activity is being cleared and removes null as
a valid param. This improves readability (and logging slightly).
Fix spacing between [Tag] and message. This matches the rest of the log
messages.
In the support lib, the code comes from the SDK, not the device like the
framework version. This means we're shipping a more recent and less buggy
version.
It's also a good idea to keep the entire project on one version. We have a bit
of a mix now. I think some of the Fragment animation issues were because of
this mixing.
For the leanback activities, AppCompatActivity requires AppCompat themes, which
they don't ship for Theme.Leanback. So use FragmentActivity instead (that's the
parent of AppCompatActivity, but still in the support library). For passed
around Activities, use FragmentActivity to work with both.
Bump the support lib version to 26. This allows for using property
animators (R.animator) in FragmentTransaction.setCustomAnimations.
Add the google maven repo, as from support lib 26 onwards, they're only
publishing it in there.
Bump the gradle version while we're at it, keep Android Studio quiet.
Other than what action they send back to
EmulationActivity.handleMenuAction(), they are the same.
Change the menu-handling logic in EmulationActivity to keep track of a
boolean for whether the submenu is visible, rather than keeping the
fragment tag. There's only one fragment visible, so this makes more
sense.
Prefixing everything with a constant packagename is not needed for
internal keys, and just adds complexity.
Rename ARGUMENT_ prefix to ARG_ to match (most) of the rest of the
codebase.
Restrict visiblity of above as much as possible.
FRAGMENT_ID wasn't actually the fragment's ID (that's misleading, and
sounds like the tag). It's actually the layout resource ID. There's no point in making that a static constant.
If a SettingsFile had at least one section, it was assumed all sections
were correctly filled out. This caused crashes when opening the settings
menus if that was not the case - for example the GFX.ini settings empty
sections are removed by the main dolphin app, putting the .ini file in a
state that would crash the settings window if at least one setting was
changed in it from the default, some sections were left as default.
This adds a subclass of HashMap<String, SettingSection> that constructs a
new SettingSection instead of returning 'null' if the key isn't found,
so the mSettings.get(FILE).get(SECTION).get(SETTING) pattern can be
safely used.
It would fail on lines line "Value =" - IE a value set to emptystring.
This would cause the app to crash when trying to open the corresponding
settings window.
Since these button names are printed on all real controllers,
we should show them in the same way as they are printed on
the controllers, regardless of the user's language. It seems
like this was intended all along (except for "Start"), but the
_ markers in TASInputDlg.cpp (accidentally?) led to the button
names in the controller configs also becoming translatable.
I'm making exceptions for "L" and "R" because translators
may want to mark them in some way (for instance "L-Digital")
to clarify the difference from "L-Analog" and "R-Analog".
I'm also making an exception for START/PAUSE because it's
referred to as スタート in Japanese games.
I'm changing "Home" and "Start" to uppercase for consistency
with how Nintendo refers to those buttons, and because someone
who isn't familiar with the Latin script might not know the
connection between the lowercase and uppercase letters (most
users likely do know the connection, but we shouldn't assume it),
and because leaving "Start" as "Start" makes it "collide" with
unrelated strings, such as the string for the button that starts
a netplay session.
To rename "Start" and "Home" without breaking INI
compatibility, I added a ui_name variable like in f5c82ad.
