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* First pass at having an interface to write text to that can be replaced.
Simplifed and made more rigerous the interface used to write formatted strings.
* Added AppContext to simplify setting up and parsing around of streams.
* Added more simplified way to get the std error/out from AppContext.
* Work in progress using dll for tools to speed up testing.
* First pass at ISlangWriter interface.
* Added support for writing VaArgs.
Added NullWriter.
* Use ISlangWriter for output.
* Use ISlangWriter for output - replacing OutputCallback.
Make IRDump go to ISlangWriter
* SlangWriterTargetType -> SlangWriterChannel
Improvements around AppContext
* Shared library working with slang-reflection-test.
* Dll testing working for render-test.
* Include va_list definintion from header.
* Fix errors from clang.
* Fix typo for linux.
* Added -usexes option
* Fix typo.
* Fix arguments problem on linux.
* Fix typo for linux.
* Add windows tool shared library projects.
* Fix warning from x86 win build.
Fix signed warning from slang-test/main.cpp
* First attempt at getting premake to work on travis, and run tests.
* Try moving build out into script.
* Invoke bash scripts so they don't have to be executable.
* Drive configuration/tests from env parameters set by travis
* Try using source to run travis tests.
* Remove the build.linux directory - but doing so will overwrite Makefile.
* Made -fno-delete-null-pointer-checks gcc only.
* Try to fix warning from -fno-delete-null-pointer-checks
* Turn of warnings for unknown switches.
* Try to make premake choose the correct tooling.
* Disabled missing braces warning.
* Disable -Wundefined-var-template on clang.
* -Wunused-function disabled for clang.
* Fix typo due to SlangBool.
* Remove this nullptr tests.
* "-Wno-unused-private-field" for clang.
* Added "-Wno-undefined-bool-conversion"
* Add DominatorList::end fix.
* Split scripts into travis_build.sh travis_test.sh
* Fix gcc/clang template pre-declaration issue around QualType.
* Fix premake to build such that pthread correctly links with slang-glslang
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* Add callable shader support for Vulkan ray tracing
This change extends the previous work to update Vulkan ray tracing support for the finished `GL_NV_ray_tracing` spec.
One of the features missing in the experimental extension that was added to the final spec is "callable shaders," which allow ray tracing shaders to call other shaders as general-purpose subroutines.
Most of the implementation work here mirrors what was done for the `TraceRay()` function to map it to `traceNV()`.
We map the generic `CallShader<P>` function to the non-generic `executeCallableNV`, with a payload identifier that indicates a specific global variable of type `P` (the global variable being generated from a `static` local in `CallShader`). A new modifier is added to identify the payload structure, and the parameter binding/layout logic introduces a new resource kind for callable-shader payload data (where previously the logic had assumed ray and callable payloads should use the same resource kind).
Two test shaders are included: one for the callable shader (`callable.slang`) and one for a ray generation shader that calls it (`callable-caller.slang`). Just for kicks, the payload data type is defined in a shared file so that we can be sure the two agree (trying to emulate what might be good practice, and ensure that ray tracing support works together with other Slang mechanisms).
* Typo fix: assocaited->associated
One instance was found in review, but I went ahead and fixed a bunch since I seem to make this typo a lot.
* Typo fix: defintiion->definition
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* * Remove dispose from IRInst
* Use MemoryArena instead of MemoryPool
* Make all IRInst not require Dtor - by having ref counted array store ptrs that need freeing
* Increase block size - typically compilation is 2Mb of IR space(!)
* Fix issues around StringRepresentation::equal because null has special meaning.
* Don't bother to construct as String to compare StringRepresentation, just used UnownedStringSlice.
* Added fromLiteral support to UnownedStringSlice and use instead of strlen version.
* Use more conventional way to test StringRepresentation against a String.
* Fix gcc/clang template problem with cast.
* Fix warnings.
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* Improve model-viewer support for lights
The main visible change here is that the model-viewer example supports
multiple light sources, with a basic UI for adding new light sources to
the scene, and for manipulating the ones that are there.
Along the way I also refactored the `IMaterial` decomposition to be a
bit less naive, while still only including a completely naive
Blinn-Phong implementation.
I also went ahead and spruced up the `cube.obj` file so that it has
multiple materials, although it is still a completely uninteresting
asset.
* Fixup: Windows SDK version
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This isn't being made visible just yet, but it will allow us to have a simple UI for loading models into the model-viewer example.
In order to support rendering with IMGUI I had to add the following to the `Renderer` layer:
* viewports
* scissor rects
* blend support
These are really only fully implemented for D3D11, but adding them to the other back-ends should be a reasonably small task.
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The original goal here was to bring up a second example program: `model-viewer`.
While the existing `hello-world` example is enough to get somebody up to speed with the basics of the Slang API (as a drop-in replacement for `D3DCompile` or similar), it doesn't really show any of the big-picture stuff that Slang is meant to enable.
There wasn't any use of D3D12/Vulkan descriptor tables/sets, and there wasn't any use of interfaces, generics, or `ParameterBlock`s in the shader code.
The `model-viewer` example addresses these issues. Its shader code involves generics, interfaces, and multiple `ParameterBlock`s, and the host-side code demonstrates a few key things for working with Slang:
* There is an application-level abstraction for parameter blocks, that combines the graphics-API descriptor set object with Slang type information
* There is a shader cache layer used to look up an appropriate variant of a rendering effect by using parameter block types to "plug in" global type variables
* There is a clear separation between the phases of compilation: a first phase that does semantic checking and enables reflection-based allocation of graphics API objects, followed by one or more code generation passes for specialized kernels.
This example is certainly not perfect, and it will need to be revamped more going forward. In particular:
* The output picture is ugly as sin. We need a plan for how to get this to load better content, perhaps even popping up an error message to note that the required input data isn't present in the basic repository.
* The shader code is too simplistic. There isn't any real material variety, and the `IMaterial` abstraction is completely wrong.
* The use of parameter blocks is facile because there are no resource parameters right now. Fixing that will likely expose issues around interfacing with Slang's reflection API.
* The whole example exposes the issue that Slang's current APIs aren't really designed for the benefit of two-phase compilation (since our many client application has been stuck on one-phase compilation).
* Global type parameters are actually a Bad Idea that we only did for compatibility with existing codebases. We should not be showing them off in an example of the Right Way to use Slang, but the language support for type parameters on entry points is still not complete.
Of course, the majority of the changes here are *not* inside the example applications, and instead involve a major overhaul of the `Renderer` abstraction that is used for both tests and examples. The main thrust of the change is to make the abstraction layer be closer to the D3D12/Vulkan model than to a D3D11-style model. This is important for the `model-viewer` example, since it aspires to show how Slang can be incorporated into a renderer that targets a modern API. The most important bit is actually the use of descriptor sets and "pipeline layouts" a la Vulkan, since without these Slang's `ParameterBlock` abstraction won't make a lot of sense.
Implementation of the abstraction for the various APIs has very much been on an as-needed basis. The current implementation is just enough for the two examples to work, plus enough to get all the tests to pass in both debug and release builds on Windows.
A big missing feature in the API abstraction right now is memory lifetime management. The code had been trending toward something D3D11-like where a constant buffer could be mapped per-frame with the implementation doing behind-the-scenes allocation for targets like D3D12/Vulkan. I'd like to shift more toward a model of just exposing "transient" allocations that are only valid for one frame, because these are more representation of how an efficient renderer for next-generation APIs will work. That transition isn't actually complete, though, so there are problems with the existing examples where `hello-world` is actually scribbling into memory that the GPU might still be using, while `model-viewer` is doing full-on heavy-weight allocations on a per-frame basis with no real concern for the performance implications.
All together, there are a lot of things here that need more work, but this branch has been way too long-lived already, and so I'd like to get this checked in as long as all the tests pass.
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