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195 Commits

Author SHA1 Message Date
Fernando Sahmkow 1f345ebe3a GPU: Implement a Fence Manager. 2020-04-22 11:36:10 -04:00
ReinUsesLisp 2905142f47 renderer_vulkan: Drop Vulkan-Hpp 2020-04-10 22:49:02 -03:00
ReinUsesLisp d7db088180 video_core/texture: Use a LUT to convert sRGB texture borders
This is a reversed look up table extracted from
https://gist.github.com/rygorous/2203834#file-gistfile1-cpp-L41-L62

that is used in
04d4e9e587/source/maxwell/tsc_generate.cpp (L38)

Games usually bind 0xFD expecting a float texture border of 1.0f.
The conversion previous to this commit was multiplying the uint8 sRGB
texture border color by 255. This is close to 1.0f but when that
difference matters, some graphical glitches appear.

This look up table is manually changed in the edges, clamping towards
0.0f and 1.0f.

While we are at it, move this logic to its own translation unit.
2020-04-07 20:38:14 -03:00
ReinUsesLisp f5cee0e885 renderer_vulkan/wrapper: Add ToString function for VkResult 2020-03-27 03:21:03 -03:00
ReinUsesLisp 92c8d783b3 renderer_vulkan/wrapper: Add Vulakn wrapper and a span helper
The intention behind a Vulkan wrapper is to drop Vulkan-Hpp.

The issues with Vulkan-Hpp are:
- Regular breaks of the API.
- Copy constructors that do the same as the aggregates (fixed recently)
- External dynamic dispatch that is hard to remove
- Alias KHR handles with non-KHR handles making it impossible to use
smart handles on Vulkan 1.0 instances with extensions that were included
on Vulkan 1.1.
- Dynamic dispatchers silently change size depending on preprocessor
definitions. Different files will have different dispatch definitions,
generating all kinds of hard to debug memory issues.

In other words, Vulkan-Hpp is not "production ready" for our needs and
this wrapper aims to replace it without losing RAII and exception
safety.
2020-03-27 03:13:18 -03:00
ReinUsesLisp 3dcaa84ba4 shader/transform_feedback: Add host API friendly TFB builder 2020-03-13 18:33:04 -03:00
ReinUsesLisp e8efd5a901 video_core: Rename "const buffer locker" to "registry" 2020-03-09 18:40:06 -03:00
ReinUsesLisp bd8b9bbcee gl_shader_cache: Rework shader cache and remove post-specializations
Instead of pre-specializing shaders and then post-specializing them,
drop the later and only "specialize" the shader while decoding it.
2020-03-09 18:40:06 -03:00
ReinUsesLisp ac204754d4 dirty_flags: Deduplicate code between OpenGL and Vulkan 2020-02-28 17:56:43 -03:00
ReinUsesLisp 1bd95a314f vk_state_tracker: Initial implementation
Add support for render targets and viewports.
2020-02-28 17:56:43 -03:00
ReinUsesLisp eed789d0d1 video_core: Reintroduce dirty flags infrastructure 2020-02-28 17:56:41 -03:00
ReinUsesLisp b92dfcd7f2 gl_state: Remove completely 2020-02-28 17:56:35 -03:00
ReinUsesLisp 96ac3d518a gl_rasterizer: Remove dirty flags 2020-02-28 16:39:27 -03:00
ReinUsesLisp bcd348f238 vk_query_cache: Implement generic query cache on Vulkan 2020-02-14 17:38:27 -03:00
ReinUsesLisp c31382ced5 query_cache: Abstract OpenGL implementation
Abstract the current OpenGL implementation into the VideoCommon
namespace and reimplement it on top of that. Doing this avoids repeating
code and logic in the Vulkan implementation.
2020-02-14 17:38:27 -03:00
ReinUsesLisp 2b58652f08 maxwell_3d: Slow implementation of passed samples (query 21)
Implements GL_SAMPLES_PASSED by waiting immediately for queries.
2020-02-14 17:27:17 -03:00
bunnei c31ec00d67
Merge pull request #3337 from ReinUsesLisp/vulkan-staged
yuzu: Implement Vulkan frontend
2020-02-03 16:56:25 -05:00
ReinUsesLisp f92cbc5501 yuzu: Implement Vulkan frontend
Adds a Qt and SDL2 frontend for Vulkan. It also finishes the missing
bits on Vulkan initialization.
2020-01-29 17:53:11 -03:00
Fernando Sahmkow c921e496eb GPU: Implement guest driver profile and deduce texture handler sizes. 2020-01-24 16:43:29 -04:00
ReinUsesLisp f5dfe68a94 vk_blit_screen: Initial implementation
This abstraction takes care of presenting accelerated and
non-accelerated or "framebuffer" images to the Vulkan swapchain.
2020-01-19 21:12:43 -03:00
ReinUsesLisp fe5356d223 vk_rasterizer: Implement Vulkan's rasterizer
This abstraction is Vulkan's equivalent to OpenGL's rasterizer. It takes
care of joining all parts of the backend and rendering accordingly on
demand.
2020-01-16 23:05:15 -03:00
ReinUsesLisp 38e789c761 renderer_vulkan: Add header as placeholder 2020-01-16 22:54:15 -03:00
ReinUsesLisp 09e17fbb0f vk_texture_cache: Implement generic texture cache on Vulkan
It currently ignores PBO linearizations since these should be dropped as
soon as possible on OpenGL.
2020-01-13 20:37:50 -03:00
ReinUsesLisp 908e085d02 vk_compute_pass: Add compute passes to emulate missing Vulkan features
This currently only supports quad arrays and u8 indices.

In the future we can remove quad arrays with a table written from the
CPU, but this was used to bootstrap the other passes helpers and it
was left in the code.

The blob code is generated from the "shaders/" directory. Read the
instructions there to know how to generate the SPIR-V.
2020-01-08 19:24:26 -03:00
ReinUsesLisp 82a64da077 vk_shader_util: Add helper to build SPIR-V shaders 2020-01-08 19:22:20 -03:00
ReinUsesLisp 2effdeb924 vk_graphics_pipeline: Initial implementation
This abstractio represents the state of the 3D engine at a given draw.
Instead of changing individual bits of the pipeline how it's done in
APIs like D3D11, OpenGL and NVN; on Vulkan we are forced to put
everything together into a single, immutable object.

It takes advantage of the few dynamic states Vulkan offers.
2020-01-06 22:02:26 -03:00
ReinUsesLisp dc96a59fa0 vk_compute_pipeline: Initial implementation
This abstraction represents a Vulkan compute pipeline.
2020-01-06 22:02:26 -03:00
ReinUsesLisp b392a5986e vk_pipeline_cache: Add file and define descriptor update template filler
This function allows us to share code between compute and graphics
pipelines compilation.
2020-01-06 22:02:26 -03:00
ReinUsesLisp 9c548146ca vk_rasterizer: Add placeholder 2020-01-06 22:02:26 -03:00
ReinUsesLisp 5aeff9aff5 vk_renderpass_cache: Initial implementation
The renderpass cache is used to avoid creating renderpasses on each
draw. The hashed structure is not currently optimized.
2020-01-06 18:28:32 -03:00
ReinUsesLisp 322d6a0311 vk_update_descriptor: Initial implementation
The update descriptor is used to store in flat memory a large chunk of
staging data used to update descriptor sets through templates. It
provides a push interface to easily insert descriptors following the
current pipeline. The order used in the descriptor update template has
to be implicitly followed. We can catch bugs here using validation
layers.
2020-01-06 18:28:32 -03:00
Fernando Sahmkow 56e450a3f7
Merge pull request #3264 from ReinUsesLisp/vk-descriptor-pool
vk_descriptor_pool: Initial implementation
2020-01-05 15:54:41 -04:00
ReinUsesLisp 0d6d8129c4 yuzu: Remove Maxwell debugger
This was carried from Citra and wasn't really used on yuzu. It also adds
some runtime overhead. This commit removes it from yuzu's codebase.
2020-01-02 23:09:44 -03:00
ReinUsesLisp 1fe7df4517 vk_descriptor_pool: Initial implementation
Create a large descriptor pool where we allocate all our descriptors
from. It has to be wide enough to support any pipeline, hence its large
numbers.

If the descritor pool is filled, we allocate more memory at that moment.
This way we can take advantage of permissive drivers like Nvidia's that
allocate more descriptors than what the spec requires.
2020-01-01 16:44:06 -03:00
Fernando Sahmkow 7bd447355f
Merge pull request #3248 from ReinUsesLisp/vk-image
vk_image: Add an image object abstraction
2019-12-30 14:25:14 -04:00
ReinUsesLisp 3813af2f3c
vk_staging_buffer_pool: Add a staging pool for temporary operations
The job of this abstraction is to provide staging buffers for temporary
operations. Think of image uploads or buffer uploads to device memory.

It automatically deletes unused buffers.
2019-12-25 18:12:17 -03:00
ReinUsesLisp c83bf7cd1e
vk_image: Add an image object abstraction
This object's job is to contain an image and manage its transitions.
Since Nvidia hardware doesn't know what a transition is but Vulkan
requires them anyway, we have to state track image subresources
individually.

To avoid the overhead of tracking each subresource in images with many
subresources (think of cubemap arrays with several mipmaps), this commit
tracks when subresources have diverged. As long as this doesn't happen
we can check the state of the first subresource (that will be shared
with all subresources) and update accordingly.

Image transitions are deferred to the scheduler command buffer.
2019-12-25 18:00:16 -03:00
ReinUsesLisp 4a3026b16b
fixed_pipeline_state: Define structure and loaders
The intention behind this hasheable structure is to describe the state
of fixed function pipeline state that gets compiled to a single graphics
pipeline state object. This is all dynamic state in OpenGL but Vulkan
wants it in an immutable state, even if hardware can edit it freely.

In this commit the structure is defined in an optimized state (it uses
booleans, has paddings and many data entries that can be packed to
single integers). This is intentional as an initial implementation that
is easier to debug, implement and review. It will be optimized in later
stages, or it might change if Vulkan gets more dynamic states.
2019-12-22 22:59:11 -03:00
ReinUsesLisp c8a48aacc0
video_core: Unify ProgramType and ShaderStage into ShaderType 2019-11-22 21:28:48 -03:00
ReinUsesLisp 80eacdf89b
texture_cache: Use a table instead of switch for texture formats
Use a large flat array to look up texture formats. This allows us to
properly implement formats with different component types. It should
also be faster.
2019-11-14 20:57:10 -03:00
Rodrigo Locatti fb9418798d
video_core: Enable sign conversion warnings
Enable sign conversion warnings but don't treat them as errors.
2019-11-11 18:00:37 -03:00
ReinUsesLisp 18c1cb68fd video_core: Treat implicit conversions as errors 2019-11-08 22:49:39 +00:00
ReinUsesLisp bd2aff3e26
rasterizer_accelerated: Add intermediary for GPU rasterizers
Add an intermediary class that implements common functions across GPU
accelerated rasterizers. This avoids code repetition on different
backends.
2019-10-27 03:40:08 -03:00
Fernando Sahmkow 1a58f45d76 VideoCore: Unify const buffer accessing along engines and provide ConstBufferLocker class to shaders. 2019-10-25 09:01:29 -04:00
Fernando Sahmkow 47e4f6a52c Shader_Ir: Refactor Decompilation process and allow multiple decompilation modes. 2019-10-04 18:52:50 -04:00
Fernando Sahmkow 8be6e1c522 shader_ir: Corrections to outward movements and misc stuffs 2019-10-04 18:52:48 -04:00
Fernando Sahmkow c17953978b shader_ir: Initial Decompile Setup 2019-10-04 18:52:47 -04:00
bunnei e424615839
Merge pull request #2783 from FernandoS27/new-buffer-cache
Implement a New LLE Buffer Cache
2019-08-29 13:07:01 -04:00
ReinUsesLisp 4e35177e23 shader_ir: Implement VOTE
Implement VOTE using Nvidia's intrinsics. Documentation about these can
be found here
https://developer.nvidia.com/reading-between-threads-shader-intrinsics

Instead of using portable ARB instructions I opted to use Nvidia
intrinsics because these are the closest we have to how Tegra X1
hardware renders.

To stub VOTE on non-Nvidia drivers (including nouveau) this commit
simulates a GPU with a warp size of one, returning what is meaningful
for the instruction being emulated:

* anyThreadNV(value) -> value
* allThreadsNV(value) -> value
* allThreadsEqualNV(value) -> true

ballotARB, also known as "uint64_t(activeThreadsNV())", emits

VOTE.ANY Rd, PT, PT;

on nouveau's compiler. This doesn't match exactly to Nvidia's code

VOTE.ALL Rd, PT, PT;

Which is emulated with activeThreadsNV() by this commit. In theory this
shouldn't really matter since .ANY, .ALL and .EQ affect the predicates
(set to PT on those cases) and not the registers.
2019-08-21 14:50:38 -03:00
Fernando Sahmkow 862bec001b Video_Core: Implement a new Buffer Cache 2019-08-21 12:14:22 -04:00