* Simplifies libusb context usage and allows us to set options for
all contexts easily. Notably, this lets us enable usbdk support
in libusb, which is now opt-in in the latest version.
* Moves the libusb config descriptor wrapper class to LibusbUtils too
since that could easily be reused.
* Moves device listing to LibusbUtils too and add a lock around it
as some libusb backends are not thread safe.
* Consequences: only a single context and a single event handling
thread is used now, which is more efficient.
This allows the same code to be used to read into a std::string, which
allows for eliminating the vector->string transfer when reading the
manifest file.
A ContiguousContainer is a concept that includes std::array,
std::string, and std::vector.
Makes it way harder to introduce resource leaks, and plugs the existing
resource leaks in the constructor and Install() where the file wouldn't
be closed in some error cases.
Now that we assume C++17, the in-file definition of the std::array can
be removed. This is all that's necessary, as constexpr used on a static
member variable implies inline (and so, automatically has C++17's static
inline behavior).
Removes redundant initializers from the constructor and provides
initializers for all members that don't already have one for consistency
(and deterministic initial state).
Given the volume verifier has quite a few non-trivial object within it,
it's best to default the destructor within the cpp file to prevent
inlining complex destruction logic elsewhere, while also making it nicer
if a forward-declared type is ever used in a member variable.
std::call_once is guaranteed to execute the given callable object
exactly once. This guarantee holds even if the function is called
concurrently from several threads.
Given that, we can replace the mutex and boolean flag with
std::call_once and a std::once_flag to perform the same behavior.
Previously, every entry pair within the map would be copied. The reason
for this is subtle.
A std::map's internal entry type is defined as:
std::pair<const Key, Value>
but the loop was declaring it as:
std::pair<Key, Value>
These two types aren't synonymous with one another and so the compiler
is required to always perform a copy.
Using structured bindings avoids this (as would plain auto or correcting
the explicit type), while also allowing the use of more appropriate
names compared to first and second.
std::function is allowed to heap allocate in order to hold any necessary
bound data in order to execute properly (e.g. lambdas with captures), so
this avoids unnecessary reallocating.
The previous implementation of cheat search would reconvert the input
string for every single memory value. Now we do it once and construct
a comparison lambda which we pass to the search code.
In addition, I also added input validation. So, for example, if you've
selected Decimal input and you try to compare against "FF",
it won't search and will instead let the user know they've entered an
invalid value. Similar logic for if you enter "1.2" in a search for
bytes. Before, it would just use 0 if it failed to convert the value.
- Files for the current game are now guaranteed to be loaded, space and validity permitting.
- Avoid showing PanicAlerts for every problem encountered, most of them aren't really important enough and will probably just annoy the user.
- And for the only error the user will definitely care about, when the save of the game they're trying to play fails to load, show an imgui message instead.
To avoid having to claim/release interfaces all the time, and having to
trigger interface changes from several places, all interfaces are now
claimed ahead of time.
This commit also makes us avoid changing the active interface when it's
not necessary.
Changing the active interface has side effects such as resetting the
active alternate setting -- which is extremely undesirable because it
would require the emulated software to change the alternate setting
again, which isn't supposed to be necessary at all.
This fixes Your Shape, which submits isochronous transfers on an
endpoint that only exists in alt setting 6 right after submitting
control transfers (which would have reset to alt setting 0 prior to
this fix).
Changed itemSelectionChanged and itemClicked signal to itemPressed in CodeWidget.
Holding mouse down and moving will only travel up/down the stack one time.
This fixes the common occurrence of unintentionally traveling deeper down the stack or higher up the callstack than intended.
This allows us to update the rich presence description if a channel
is launched from the Wii Menu. It also handles other PPC title
launches, e.g. Smash Bros. Masterpieces.
Host.h: Added Host_TitleChanged().
DolphinNoGUI/MainNoGUI.cpp: Implemented Host_TitleChanged().
DolphinQt/Host.cpp: Implemented Host_TitleChanged().
Android/jni/MainAndroid.cpp: Stubbed Host_TitleChanged().
DSPTool/StubHost.cpp: Stubbed Host_TitleChanged().
UnitTests/StubHost.cpp: Stubbed Host_TitleChanged().
While current usages of ParseLine aren't problematic, this is still a
public function that can be used for other purposes. Essentially makes
the function handle potential external inputs a little nicer.
We can just utilize map's insert_or_assign() function and check the
return value to determine whether or not we need to insert the key into
the keys_order vector.
Even though libusb is supposed to be thread-safe, in practice
it's not (at least on Windows); getting a list of devices from two
different threads can result in libusb crashes. This is easily
fixed by waiting for the scan thread to complete scanning instead
of running the scan on the CPU thread.
This also fixes an issue that I had overlooked in the initial
implementation: IOS interfaces such as OH0 are sometimes opened
every frame, in which case we were doing a full device scan every
single frame on the CPU thread!
Fixes an embarrassing bug that made the implementation utterly useless.
This fixes Your Shape hanging on shutdown. The game was waiting for an
interrupt transfer to be cancelled, and Dolphin wasn't cancelling
transfers on the correct endpoint.
The total buffer size for isochronous transfers should be a u32,
not a u16. It is easy to hit the bug with devices such as cameras,
which require larger buffers.
This fixes Your Shape.
This also fixes the length type for bulk and interrupt transfers,
which should be u32 as that's what IOS supports. I'm not sure why
I made them u16... probably because OH0 uses u16 for most lengths...
In terms of order of operations, the move would occur first before the
construction of the relevant reader would occur. However, given the
local variable 'path' was declared const, this bug actually wouldn't
occur, as std::move on a const variable does nothing (in a non-mutable
context), resulting in a copy instead, masking this issue.
Given this is a bug waiting to happen, we correct the code.
This adds the center to the calibration menu when it is nonzero.
It also refactors CENTER_COLOR to be a function, similar to other colors
after an earlier commit.
This is useful in far out-of-calibration controllers, such as the
Switch Pro controller. This also adds support for configuring the center
in the Mapping widget.
* Use font based sizing for row height. Fits more rows on screen.
* Adds whitespace for better formatting and minimum column width.
Helps prevent frequent resizing while scrolling.
The main EmuThread (in Core) is responsible for both initialising the
audio stream and shutting it down properly.
When the core is shutting down (when state is State::PowerDown), it is
possible that the CPU or CPU-GPU thread and the UI thread will both
try to stop the audio stream at the same time, which is an issue
because some audio backends such as cubeb are not thread-safe.
This commit prevents the race from ever happening in the first place
by removing the call to AudioCommon::SetSoundStreamRunning from
CPU::RunAdjacentSystems, which is actually completely unnecessary when
shutting down because Core::EmuThread is going to stop the stream and
perform more cleanup anyway.
Should fix https://bugs.dolphin-emu.org/issues/11722
WindowModal allows alt+tabing to the render window, but prohibits interaction
with parent windows (controller settings window and the main dolphin window).
The system menu is passing the SHA1 hash of the save data to ES
to sign, not the save data itself.
Fixes save import in the System Menu for saves that were exported
by Dolphin.
All supported platforms now have easy access to a compiler with C++17
support.
C++17 potentially allows for some nice cleanups and removes the need
for standard library backports (optional/variant).
See discussion at https://dolp.in/pr6264#discussion_r158134178
Different address spaces can be chosen in the memory view panel.
* Effective (or virtual): Probably the view people mostly want. Address
translation goes through MMU.
* Auxiliary: ARAM address space. Does not display anything in Wii mode.
* Physical: Physical address space. Only supports mem1 and mem2 (wii
mode) so far.
MemoryWatcher only works on Linux and affects emulation determinism due
to scheduling additional events, which causes NetPlay to desync.
Considering that this interface is a rather specialized use case, the
communication with it is kinda crappy *and* it's affecting emulation, I
think it's best to just axe it and come up with a better implementation
of the functionality.
* The high half of the register is immediately masked so the value in it is irrelevant.
* MOVSD produces an unnecessary dependency on the high half of regOp.
* MOVAPS is implemented as a register rename on modern microarchitectures.
* The high half of regOp is immediately overwritten so the value in it is irrelevant.
* MOVSD produces an unnecessary dependency on the high half of regOp.
* MOVAPS is implemented as a register rename on modern microarchitectures.
There is no reason to use MOVAPD over MOVAPS, for two reasons:
* There has never been a microarchitecture with separate single and double domains.
* MOVAPD is one byte longer than MOVAPS