* rasterizer_cache: Sentence surfaces
* gl_texture_runtime: Remove runtime side allocation cache
* rasterizer_cache: Adjust surface scale during reinterpreration
* Fixes pixelated outlines. Also allows to remove the d24s8 specific hack and is more generic in general
* rasterizer_cache: Remove Expand flag
* Begone!
* rasterizer_cache: Cache framebuffers with surface id
* rasterizer_cache: Sentence texture cubes
* renderer_opengl: Move texture mailbox to separate file
* Makes renderer_opengl cleaner overall and allows to report removal threshold from runtime instead of hardcoding. Vulkan requires this
* rasterizer_cache: Dont flush cache on layout change
* rasterizer_cache: Overhaul framebuffer management
* video_core: Remove duplicate
* rasterizer_cache: Sentence custom surfaces
* Vulkan cannot destroy images immediately so this ensures we use our garbage collector for that purpose
* citra_qt: Check if renderer is null
* core: Fix dynarmic use-after-free error
* bootmanager: Add current context check in DoneCurrent
* Loading a save state would destroy the frame dumper class, which contains a shared context. That context would call DoneCurrent without checking if it was actually bound or not, resulting in crashes when calling opengl functions
* externals: Correct glad readme
* common: Log renderer debug setting
* citra: Make lambda lower case
* Consistency with review comments on the PR
* video_core: Kill more global state
* GetResolutionScaleFactor would be called somewhere in the renderer constructor chain but it relies on the yet unitialized g_renderer, resulting in crashes when the resolution scale is set to auto. Rather than adding a workaround, let's kill this global state to fix this for good
* externals: Update dynarmic
* settings: Introduce GraphicsAPI enum
* For now it's OpenGL only but will be expanded upon later
* citra_qt: Introduce backend agnostic context management
* Mostly a direct port from yuzu
* core: Simplify context acquire
* settings: Add option to create debug contexts
* renderer_opengl: Abstract initialization to Driver
* This commit also updates glad and adds some useful extensions which we will use in part 2
* Rasterizer construction is moved to the specific renderer instead of RendererBase.
Software rendering has been disable to achieve this but will be brought back in the next commit.
* video_core: Remove Init/Shutdown methods from renderer
* The constructor and destructor can do the same job
* In addition move opengl function loading to Qt since SDL already does this. Also remove ErrorVideoCore which is never reached
* citra_qt: Decouple software renderer from opengl part 1
* citra: Decouple software renderer from opengl part 2
* android: Decouple software renderer from opengl part 3
* swrasterizer: Decouple software renderer from opengl part 4
* This commit simply enforces the renderer naming conventions in the software renderer
* video_core: Move RendererBase to VideoCore
* video_core: De-globalize screenshot state
* video_core: Pass system to the renderers
* video_core: Commonize shader uniform data
* video_core: Abstract backend agnostic rasterizer operations
* bootmanager: Remove references to OpenGL for macOS
OpenGL macOS headers definitions clash heavily with each other
* citra_qt: Proper title for api settings
* video_core: Reduce boost usage
* bootmanager: Fix hide mouse option
Remove event handlers from RenderWidget for events that are
already handled by the parent GRenderWindow.
Also enable mouse tracking on the RenderWidget.
* android: Remove software from graphics api list
* code: Address review comments
* citra: Port per-game settings read
* Having to update the default value for all backends is a pain so lets centralize it
* android: Rename to OpenGLES
---------
Co-authored-by: MerryMage <MerryMage@users.noreply.github.com>
Co-authored-by: Vitor Kiguchi <vitor-kiguchi@hotmail.com>
…class
Makes the global a member of the RendererBase class. We also change this
to be a reference. Passing any form of null pointer to these functions
is incorrect entirely, especially given the code itself assumes that the
pointer would always be in a valid state.
This also makes it easier to follow the lifecycle of instances being
used, as we explicitly interact the renderer with the rasterizer, rather
than it just operating on a global pointer.
This removes explicit checks sprinkled all over the codebase to instead
just have the SW rasterizer expose an implementation with no-ops for
most operations.