The client can handle media changes natively so disabling can take place internally. This code uses the same external calls to load data, but will call either BeginLoad or BeginChangeMedia based on whether any media is already loaded.
Due to the client's handling of media changes (it simply disables hardcore if an unknown media is detected) the existing functionality for "disabling" the achievements is no longer necessary and can be deleted.
Two portions of this need updating.
Anything related to points and unlock counts and scoring uses game_summary now instead of the TallyScore method. Unfortunately this comes with the drawback that I cannot easily at this time access the number of points/unlocks from the other hardcore mode, so things like the second progress bar have been deleted.
Rich presence, which no longer needs to be stored, but can be calculated at request. As the AchievementHeader can now update just the Rich Presence, DoFrame can now simply call a header update with .rp=true and the current Rich Presence will be calculated immediately.
As the two items above are the last remaining things to use a number of the components in AchievementManager, this also deletes: Request V1 (V2 is renamed accordingly), ResponseType, PointSpread, TallyScore, UnlockStatus, and the RP generation and ping methods.
UpdateData in AchievementsWindow now only updates the components being requested, massively improving the window's performance. The parameter is UpdatedItems in AchievementManager, which tracks which portions of the system have been updated for every update callback.
Similarly to the Progress widget (though without the separate object for each box, because each Leaderboard unit is just three text fields stacked vertically), AchievementLeaderboardWidget.UpdateData will now accept three options: destroy all and rebuild, update all, or update a set of rows.
As part of this, AchievementManager::GetLeaderboardsInfo has been refactored to GetLeaderboardInfo to return a single leaderboard for the ID passed in.
AchievementProgressWidget maintains in memory a map of AchievementBox pointers so that UpdateData can operate on them individually. UpdateData is overhauled for three options: UpdateData(true) will destroy the entire list and re-create it from scratch as before, to be used if the game or player changes/closes/logs out. UpdateData(false) will loop through the map and call UpdateData on every achievement box, to be used for certain settings changes such as enabling badges or disabling hardcore mode. UpdateData(set<IDs>) will call UpdateData on only the IDs in the set, to be used when achievements are unlocked.
AchievementBox is an extension of QGroupBox that contains the data for a single achievement, initialized with the achievement data and able to reference AchievementManager to update itself.
While state loading is not allowed in the hardcore mode that most players will use, it is allowed in softcore mode; more importantly, if something fails to unlock or unlocks when it shouldn't in either mode the player can create a save that retains the current achievement state.
This is not a 1 to 1 relationship with how the events look primarily because currently achievement
progress messages are in OnScreenDisplay, which currently vanishes messages automatically.
As this covers the last remaining runtime-based event from the old event handler, that handler has been deleted and the new event handler has been renamed to take its place.
Up to four leaderboards are displayed in a window in the bottom right of the screen (vertically above challenge icons, if there are any). As per RetroAchievements standards, the markers only display the current leaderboard values with no further context necessary.
The active leaderboard data (leaderboards currently being attempted, which get displayed on screen) is now tracked. When a leaderboard is started its value is added to a vector (sorted by start frame). There are a separate set of client events specifically to handle leaderboard trackers, that are used to populate and manage this vector. The top portion of this vector (by RetroAchievement standards, the first four items) is exposed to be displayed on screen.
Also deletes the old runtime-based Achievement Triggered event from the old handler, and the methods used by it to publish to the server and reactivate/deactivate achievements in the runtime.
This change was primarily made to refactor the badge fetching to use the client instead of the runtime, but in the process I also refactored the code to cut down on complexity and duplication. Now the FetchBadge method is passed a function that generates the badge name; this is used to ensure that once the badge is loaded that it is still the desired badge to avoid race conditions.
HashGame has become LoadGame, similar structure with the file loaders but using the client instead. LoadGameCallback has been created to handle the results. The old LoadGameSync has been deleted as have
several hash and load methods that it called.
Deletes AchievementManager::Login, renames LoginAsync to Login, and replaces the one synchronous call in the AchievementSettingsWidget with the async call. There is a minor usability regression in that the UI currently does not notify the user when a login has failed; this will be addressed in a later change (possibly in a different PR).
On Windows 11, when playing windowed in a separate window/widget from the main emulator window, we don't want the window to have rounded corners, as it prevents the corner pixels from being visible
Also make the `Decrypt` method private.
As far as I can tell, the only motivation for exposing the `SetBytes`
and `Reset` methods is to allow `CBoot::SetupWiiMemory` to use the same
`SettingsHandler` instance to read settings data and then write it back.
It seems cleaner to just use two separate instances, and require a given
`SettingsHandler` instance to be used for either writing data to a
buffer or reading data from a buffer, but not both.
A natural next step is to split the `SettingsHandler` class into two
classes, one for writing data and one for reading data. I've deferred
that change for a future PR.
This is a JitArm64 version of 219610d8a0.
Due to limitations on how far you can jump with a single AArch64 branch
instruction, going above the former limit of 128 MiB of code (counting
nearcode and farcode combined) requires a bit of restructuring. With the
restructuring in place, the limit now is 256 MiB. See the new large
comment in Jit.h for a description of the new memory layout.
LillyJadeKatrin