* renderer_gl: Make rasterizer normal class member
* It doesn't need to be heap allocated anymore
* gl_rasterizer: Remove default_texture
* It's unused
* gl_rasterizer: General cleanup
* gl_rasterizer: Lower case lambdas
* Match style with review comments from vulkan backend
* rasterizer_cache: Prevent memory leak
* Since the switch from shared_ptr these surfaces were no longer being destroyed properly. Use our garbage collector for that purpose to destroy it safely for both backends
* rasterizer_cache: Make temp copy of old surface
* The custom surface would override the memory region of the old region resulting in garbage data, this ensures the custom surface is constructed correctly
* citra_qt: Manually create dialog tabs
* Allows for custom constructors which is very useful. While at it, global state is now eliminated from configuration
* citra_qt: Eliminate global system usage
* core: Remove global system usage in memory and HIO
* citra_qt: Use qOverload
* tests: Run clang format
* gl_texture_runtime: Fix surface scaling
* Initial plugin loader support
* More plugin loader progress
* Organize code and more plugin features
* Fix clang-format
* Fix compilation and add android gui
* Fix clang-format
* Fix macos build
* Fix copy-paste bug and clang-format
* More merge fixes
* Make suggestions
* Move global variable to static member
* Fix typo
* Apply suggestions
* Proper initialization order
* Allocate plugin memory from SYSTEM instead of APPLICATION
* Do not mark free pages as RWX
* Fix plugins in old 3DS mode.
* Implement KernelSetState and notif 0x203
* Apply changes
* Remove unused variable
* Fix dynarmic commit
* Sublicense files with MIT License
* Remove non-ascii characters from license
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.
* core/memory: Amend unusual return value of operator=
operator= usually returns a reference to this. Given there's no comment
explaining why void was used, this can be assumed to be an oversight.
* core/memory: Make use of std::move in Entry::operator=
Same behavior, minus the need for an atomic reference count increment
and decrement (since MemoryRef contains a std::shared_ptr).
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
There is no external use of PhysicalToVirtualAddress any more, so it there is no need to have a generic function that handles all physical regions. Also, the previous APT change makes it possible that linear heap has some regions mapped to old and new VAddr regions at the same time, so we need to check both region and mark cached for the mapped one. RasterizerMarkRegionCached would skip the unmapped one in its loop
* Kernel: reimplement memory management on physical FCRAM
* Kernel/Process: Unmap does not care the source memory permission
What game usually does is after mapping the memory, they reprotect the source memory as no permission to avoid modification there
* Kernel/SharedMemory: zero initialize new-allocated memory
* Process/Thread: zero new TLS entry
* Kernel: fix a bug where code segments memory usage are accumulated twice
It is added to both misc and heap (done inside HeapAlloc), which results a doubled number reported by svcGetProcessInfo. While we are on it, we just merge the three number misc, heap and linear heap usage together, as there is no where they are distinguished.
Question: is TLS page also added to this number?
* Kernel/SharedMemory: add more object info on mapping error
* Process: lower log level; SharedMemory: store phys offset
* VMManager: add helper function to retrieve backing block list for a range
