* common: Move settings to common from core.
- Removes a dependency on core and input_common from common.
* code: Wrap settings values
* Port from yuzu to allow per game settings
* citra_qt: Initial per-game settings dialog
* citra_qt: Use new API for read/save of config values
* citra_qt: Per game audio settings
* citra_qt: Per game graphics settings
* citra_qt: Per game system settings
* citra_qt: Per game general settings
* citra_qt: Document and run clang format
* citra_qt: Make icon smaller and centered
* citra_qt: Remove version number
* Not sure how to extract that, can always add it back later
* citra_qt: Wrap UISettings
* citra_qt: Fix unthottled fps setting
* citra_qt: Remove margin in emulation tab
* citra_qt: Implement some suggestions
* Bring back speed switch hotkey
* Allow configuration when game is running
* Rename/adjust UI stuff
* citra_qt: Fix build with separate windows
* citra_qt: Address feedback
* citra_qt: Log per-game settings before launching games
* citra_qt: Add shader cache options
* Also fix android build
* citra_qt: Add DLC menu option
* citra_qt: Run clang-format
* citra_qt: Adjust for time offset
* citra_qt: Implement suggestions
* Run clang-format
Co-authored-by: bunnei <bunneidev@gmail.com>
Games will sometimes use these when representing open right bounds
and so disallowing it caused regressions, with a notable example
being when MemoryFill is called to the end of vram, causing an
"invalid end address" error.
This had been noted on a comment in GetPhysicalRef prior to the
regression.
Many of these functions are capable of being used within const contexts,
so we can apply the const qualifier in some cases and add const based
overloads for others, which makes the interface a little bit more
flexible and const-correct.
This makes cpu_core and memory being completely independent components inside the system, having a simpler and more understandable initialization process
The thread which casues page table changes in memory will be responsible to notify the cpu_core too
The comment already invalidates itself: neither MMIO nor rasterizer cache belongsHLE kernel state. This mutex has a too large scope if MMIO or cache is included, which is prone to dead lock when multiple thread acquires these resource at the same time. If necessary, each MMIO component or rasterizer should have their own lock.
std::make_unique for arrays is equivalent to doing:
std::unique_ptr<T>(new typename std::remove_extent<T>::type[size]())
(note the ending () after the array size specifier). This means that the
default value within memory for the constructed types will be whatever
the default constructor for that type does. Given the built-in
type for std::uint8_t doesn't have a constructor, this is equivalent to
forcing zero-initialization, so the memory will already be zeroed out on
construction. Because of that, there's no need to zero it out again.