For unknown reasons, this flag may persist after the application has been closed.
Removing this flag when restoring the UI state ensures that a frameless window will not be shown on startup.
Toggling borderless fullscreen on the separate render window made it fullscreen on the monitor which the main yuzu window resided in.
This change allows the render window to go fullscreen on the monitor it resides in, independent of the main window location.
I have `134850146304` bytes of ram and Yuzu was saying that I had `125.59 GB`
of ram. But `125.59` is actually the amount of gi**bi**bytes I have. In
gi**ga**bytes I would have `134.9`.
Additionally, I changed the `1024 / 1024 / 1024` here into the `_GiB`
user-literals that I added a while ago(#6519).
https://www.wolframalpha.com/input/?i=134850146304+bytes
Refactor menu states and shortcuts in GMainWindow.
- Removed "Start", since it was always disabled unless it was "Continue"
which has now been moved to "Pause".
- Allow hotkeys to be used while in fullscreen.
- Removed the load amiibo hotkey.
This reflects the current behavior: Light = System default. If your
system is set to dark theme, then Light = Dark, which is a bit confusing
for the end user.
In this PR, I propose to change "Light" with "Default". This way, the
user has "Default" and "Default Colorful", which will apply the system
theme. Now that the Flatpak respects the system theme, I think this
makes much more sense.
I also simplified the theme update. Before the code was branching
between the default theme and the others, but I think we can have
something simpler by forcing the default theme if no theme is defined in
the settings, or if the selected theme doesn't exist. And if there's an
error, tell the theme name in the error message.
Confirm means that the text has already been checked by the application to be correct, but is asking the user for confirmation.
The confirmation text itself seems to be corrupted though, this needs to be investigated.
Fixes the software keyboard in Famicom Detective Club: The Missing Heir
Loop on stop_token and remove final_entry in Entry.
Move Backend thread out of Impl Constructor to its own function.
Add Start function for backend thread.
Use stop token in PopWait and check if entry filename is nullptr before logging.
Some titles, such as homebrew, do not have any version string. Because
yuzu hard codes the title bar string assuming a version string is
preset, booting homebrew causes yuzu to add an extra separator with no
content between.
This uses a lambda expression to prevent that from happening.
To keep the TAS inputs synced to the game speed even through lag spikes and loading zones, deeper access is required.
First, the `TAS::UpdateThread` has to be executed exactly once per frame. This is done by connecting it to the service method the game calls to pass parameters to the GPU: `Service::VI::QueueBuffer`.
Second, the loading time of new subareas and/or kingdoms (SMO) can vary. To counteract that, the `CPU_BOOST_MODE` can be detected: In the `APM`-interface, the call to enabling/disabling the boost mode can be caught and forwarded to the TASing system, which can pause the script execution if neccessary and enabled in the settings.
During script playback/recording, the user has to see what happens currently. For that, a new label has been added to the bottom-left corner, always displaying the current state of the TASing system.
First of all, TASing requires a script to play back. The user can select the parent directory at `System -> Filesystem`, next to an option to pause TAS during loads: This requires a "hacky" setup deeper in the code and will be added in the last commit.
Also, Hotkeys are being introduced: CTRL+F5 for playback start/stop, CTRL+F6 for re-reading the script and CTRL+F7 for recording a new script.
The base playback system supports up to 8 controllers (specified by `PLAYER_NUMBER` in `tas_input.h`), which all change their inputs simulataneously when `TAS::UpdateThread` is called.
The recording system uses the controller debugger to read the state of the first controller and forwards that data to the TASing system for recording. Currently, this process sadly is not frame-perfect and pixel-accurate.
Co-authored-by: Naii-the-Baf <sfabian200@gmail.com>
Co-authored-by: Narr-the-Reg <juangerman-13@hotmail.com>
Some titles set an exit lock through HLE, which prompts an exit confirmation when stopping emulation if the system is locked.
This change allows bypassing this confirmation if the setting to confirm exits has been disabled by the user.
The log filter was being ignored on initialization due to the logging instance being initialized before the config instance, so the log filter was set to its default value.
This fixes that oversight, along with using descriptive exceptions instead of abort() calls.
This simplifies the logging system.
This also fixes some lost messages on startup.
The simplification is simple. I removed unused functions and moved most things in the .h to the .cpp. I replaced the unnecessary linked list with its contents laid out as three member variables. Anything that went through the linked list now directly accesses the backends. Generic functions are replaced with those for each specific use case and there aren't many. This change increases coupling but we gain back more KISS and encapsulation.
With those changes it was easy to make it thread-safe. I just removed the mutex and turned a boolean atomic. I was planning to use this thread-safety in my next PR about stacktraces. It was actually async-signal-safety at first but I ended up using a different approach. Anyway getting rid of the linked list is important for that because have the list of backends constantly changing complicates things.