mirror of
https://gitlab.winehq.org/wine/vkd3d.git
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Direct3D to Vulkan translation library
069b8aac64
Here, we implement single inheritance by inserting a field at the beginning of the derived struct with name "$super". For the following struct declarations struct a { float4 aa; float4 bb; }; struct b : a { float4 cc; }; struct c : b { float4 bb; }; this commit generates the following: struct a { float4 aa; float4 bb; }; struct b { struct a $super; float4 cc; }; struct c { struct b $super; float4 bb; }; |
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gitlab | ||
include | ||
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programs | ||
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.editorconfig | ||
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.mailmap | ||
ANNOUNCE | ||
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autogen.sh | ||
ChangeLog.md | ||
configure.ac | ||
COPYING | ||
Doxyfile.in | ||
INSTALL | ||
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Makefile.am | ||
README |
============================= The vkd3d 3D Graphics Library ============================= Vkd3d is a 3D graphics library built on top of Vulkan. It has an API very similar, but not identical, to Direct3D 12. ============== Building vkd3d ============== Vkd3d depends on SPIRV-Headers and Vulkan-Headers (>= 1.3.228). Vkd3d generates some of its headers from IDL files. If you are using the release tarballs, then these headers are pre-generated and are included. If you are building from git, then they will be generated at build-time using widl. By default, vkd3d will use the widl found in `PATH'. If widl is not available or is not recent (>= 3.21), then you can build Wine with `make tools/widl/widl' to avoid building all of Wine. You can then point vkd3d's configure at that widl binary with `WIDL="/path/to/widl"'. For release builds, you may want to disable debug log messages defining preprocessor macros VKD3D_NO_TRACE_MESSAGES and VKD3D_NO_DEBUG_MESSAGES. See the `Preprocessor definitions' section below for more details. ================ Developing vkd3d ================ Development of vkd3d happens on the Wine GitLab instance (https://gitlab.winehq.org/wine/vkd3d/). Contributors are encouraged to submit their patches using the merge request tool. Each merge request is automatically tested with the GitLab CI system. See gitlab/README in the Git tree for more details. =========== Using vkd3d =========== Vkd3d can be used by projects that target Direct3D 12 as a drop-in replacement at build-time with some modest source modifications. If vkd3d is available when building Wine, then Wine will use it to support Direct3D 12 applications. ===================== Environment variables ===================== Most of the environment variables used by vkd3d are for debugging purposes. The environment variables are not considered a stable interface and might be changed or removed in future versions of vkd3d. Some of debug variables are lists of elements. Elements must be separated by commas or semicolons. * NO_COLOR - this is an alias of NO_COLOUR. * NO_COLOUR - when set, vkd3d-compiler and vkd3d-dxbc will default to monochrome output, even when the output supports colour. * VKD3D_CONFIG - a list of options that change the behavior of libvkd3d. * virtual_heaps - Create descriptors for each D3D12 root signature descriptor range instead of entire descriptor heaps. Useful when push constant or bound descriptor limits are exceeded. * vk_debug - enables Vulkan debug extensions. * VKD3D_DEBUG - controls the debug level for log messages produced by libvkd3d. Accepts the following values: none, err, fixme, warn, trace. * VKD3D_VULKAN_DEVICE - a zero-based device index. Use to force the selected Vulkan device. * VKD3D_DISABLE_EXTENSIONS - a list of Vulkan extensions that libvkd3d should not use even if available. * VKD3D_SHADER_CONFIG - a list of options that change the behavior of libvkd3d-shader. * force_validation - Enable (additional) validation of libvkd3d-shader's internal representation of shaders. * VKD3D_SHADER_DEBUG - controls the debug level for log messages produced by libvkd3d-shader. See VKD3D_DEBUG for accepted values. * VKD3D_SHADER_DUMP_PATH - path where shader bytecode is dumped. * VKD3D_TEST_DEBUG - enables additional debug messages in tests. Set to 0, 1 or 2. * VKD3D_TEST_DETAILED - enables printing detailed output when running the test suite, reporting specific shader_test lines that trigger XFAIL and SKIP even on tests that overall PASS. Set to 0, or 1. * VKD3D_TEST_FILTER - a filter string. Only the tests whose names matches the filter string will be run, e.g. VKD3D_TEST_FILTER=clear_render_target. Useful for debugging or developing new tests. * VKD3D_TEST_PLATFORM - can be set to "wine", "windows" or "other". The test platform controls the behavior of todo(), todo_if(), bug_if() and broken() conditions in tests. * VKD3D_TEST_SKIP_DXC - when set, tests requiring the dxcompiler library will be skipped. * VKD3D_TEST_BUG - set to 0 to disable bug_if() conditions in tests. If the configuration defines 'DXCOMPILER_LIBS=-L/path/to/dxcompiler', Shader Runner attempts to load libdxcompiler.so or dxcompiler.dll to compile test shaders in Shader Model 6. LD_LIBRARY_PATH (linux), WINEPATH (wine) or PATH (native windows) should include the location of dxcompiler if SM 6 shader tests are desired. If dxcompiler is not found, Shader Runner will compile the test shaders only in earlier shader models. The DXC source does not contain code for adding DXBC checksums, so the official release should be installed from: https://github.com/microsoft/DirectXShaderCompiler/releases ======================== Preprocessor definitions ======================== A number of preprocessor definitions can be used at compilation time to control the behaviour of the generated binary. You can pass something like `CPPFLAGS="-DVKD3D_VAR1 -DVKD3D_VAR2"' to the configure script. The preprocessor variables are not considered a stable interface and might be changed or removed in future versions of vkd3d. * VKD3D_NO_TRACE_MESSAGES - do not emit trace messages in the debug log; this can be useful in release builds to reduce the size of the binary and make it slightly faster. * VKD3D_NO_DEBUG_MESSAGES - do not emit warn and fixme messages in the debug log; this will further optimise the binary, but may omit messages that could help debug problems with vkd3d. * VKD3D_NO_ERROR_MESSAGES - do not emit error messages; this will optimise the binary even more, but may omit very important messages, so it is not recommended in most circumstances. * VKD3D_ABORT_ON_ERR - abort the process as soon as an error message is emitted; this can be useful for developers to make error conditions as conspicuous as possible. * VKD3D_SHADER_UNSUPPORTED_DXIL - enable DXIL (DirectX Intermediate Language) support in vkd3d-shader, which is disabled by default because it is not considered ready for release yet. Please note that this feature is not currently supported, and it might change in a non-compatible way before it is released. * VKD3D_SHADER_UNSUPPORTED_GLSL - enable GLSL (GL Shading Language) support in vkd3d-shader, which is disabled by default because it is not considered ready for release yet. Please note that this feature is not currently supported, and it might change in a non-compatible way before it is released. * VKD3D_SHADER_UNSUPPORTED_MSL - enable MSL (Metal Shading Language) support in vkd3d-shader, which is disabled by default because it is not considered ready for release yet. Please note that this feature is not currently supported, and it might change in a non-compatible way before it is released. ============================ Testing with the Agility SDK ============================ Traditionally Microsoft have released the Direct3D 12 development files, including the debug layer runtime, as part of the larger Windows SDK. In 2021 the DirectX 12 Agility SDK was introduced, which may be updated independently of the Windows SDK. If you plan to run the vkd3d crosstests with Microsoft's debug layer you might want to get it from the Agility SDK, both because it's probably going to be more up-to-date and because the Agility SDK is a couple dozens of megabytes versus the gigabytes of the Windows SDK. In order to build the vkd3d crosstests with Agility SDK support, follow these steps: * The Agility SDK is distributed at [1]: select your preferred version (likely the most recent one) and note the number in column D3D12SDKVersion, which you're going to need later. [1] https://devblogs.microsoft.com/directx/directx12agility/ * You also need to enable the "Graphics Tools" optional feature in Windows. Open the "Settings" applications, then look for "Apps", "Optional features", "View features" and install "Graphics Tools". * Configure vkd3d with something like: 'CROSSCC64="x86_64-w64-mingw32-gcc -DVKD3D_AGILITY_SDK_VERSION=<version>"', as well as the equivalent CROSSCC32 variable for the 32-bit crosstests. You'll have to replace '<version>' with the D3D12SDKVersion number you noted above. Then build the crosstests with 'make crosstest' as usual. * Download the Agility SDK NuGet package, which is essentially a ZIP file with a .nupkg extension. Extract d3d12core.dll and d3d12sdklayers.dll for your architecture, and put them in the directory containing the crosstest executables. * Now you can run the crosstests, possibly with arguments '--validate' and '--gbv' to enable the debug layers. They will use the runtime from the Agility SDK. * It's also possible to use '-DVKD3D_AGILITY_SDK_PATH=/path/to/sdk/' to specify the directory to load the Agility SDK DLLs from at runtime. If relative, the path is intended to be relative to the executable path. If unspecified the path defaults to './'.