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* Remove old code paths from render-test
Historically, the `render-test` tool was using three different code paths:
* One based on `gfx` and manual (non-reflection-based) parameter setting, used for OpenGL, D3D11, D3D12, and Vulkan
* One for CPU that used reflection-based parameter setting but shared no code with the first
* One for CUDA that used reflection-based parameter setting and shared some, but not all, code with the CPU path
Recently we've updated `render-test` to include a fourth option:
* Using `gfx` and the "shader object" system it exposes for a unified reflection-based parameter-setting system taht works across OpenGL, D3D11, D3D12, Vulkan, CUDA, and CPU
This change removes the first three options and leaves only the single unified path. A sa result, a bunch of code in `render-test` is no longer needed, and the codebase no longer relies on things like the `IDescriptorSet`-related APIs in `gfx`.
Several existing tests had to be disabled to make this change possible. Those tests will need to be audited and either re-enabled once we fix issues in the shader object system, or permanently removed if they don't test stuff we intend to support in the long run (e.g., global-scope type parameters, which aren't a clear necessity).
* fixup: CUDA detection logic
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The `TEST_INPUT` facility allows textual Slang test cases to provide two kinds of information to the `render-test` tool:
1. Information on what shader inputs exist
2. Information on what values/objects to bind into those shader inputs
Under the first category of information, there exists supporting for attaching a `dxbinding(...)` annotation to a `TEST_INPUT` which seemingly indicates what HLSL `register` the input uses. There is a similar `glbinding(...)` annotation, used for OpenGL and Vulkan.
It turns out that these annotations were, in practice, completely ignored and had no bearing on how `render-test` allocates or bindings graphics API objects. There was some amount of code attempting to validate that explicit registers/bindings were being set appropriately, but the actual values were being ignored.
The visible consequence of the `dxbinding` and `glbinding` annotations being ignored is issue #1036: the order of `TEST_INPUT` lines was *de facto* determining the registers/bindings that were being used by `render-test`.
This change simply removes the placebo features and strips things down to what is implemented in practice: the `TEST_INPUT` lines do not need target-API-specific binding/register numbers, because their order in the file implicitly defines them.
I added logic to the parsing of `TEST_INPUT` lines to make sure I got an error message on any leftover annotations, and went ahead and systematicaly deleted all of the placebo annotations from our test cases.
If we decide to make `TEST_INPUT` lines *not* depend on order of declaration in the future, we can build it up as a new and better considered feature.
The main alternative I considered was to keep the annotations in place, and change `render-test` and the `gfx` abstraction layer to properly respect them, but that path actually creates much more opportunity for breakage (since every single test case would suddenly be specifying its root signature / pipeline layout via a different path using data that has never been tested). The approach in this change has the benefit of giving me high confidence that all the test cases continue to work just as they had before.
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The basic change is simple: remove support for all code generation paths other than the IR.
There is a lot of vestigial code left, but the main logic in `ast-legalize.*` is gone.
Doing this breaks a *lot* of tests, for various reasons:
- We can no longer guarantee exactly matching DXBC or SPIR-V output after things pass through out IR
- Many builtins don't have matching versions defined for GLSL output via IR (even when they had versions defined via the earlier approach that worked with the AST)
- A lot of code creates intermediate values of opaque types in the IR, which turn into opaque-type temporaries that aren't allowed (this breaks many GLSL tests, but also some HLSL)
I implemented some small fixes for issues that I could get working in the time I had, but most of the above are larger than made sense to fix in this commit.
For now I'm disabling the tests that cause problems, but we will need to make a concerted effort to get things working on this new substrate if we are going to make good on our goals.
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* Remove support for the -no-checking flag
Fixes #381
Fixes #383
Work on #382
- No longer expose flag through API (`SLANG_COMPILE_FLAG_NO_CHECKING`) and command-line (`-no-checking`) options
- Remove all logic in `check.cpp` that was withholding diagnostics (including errors) when the no-checking mode was enabled
- Remove `HiddenImplicitCastExpr`, which was only created to support no-checking mode (it represented an implicit cast that our checking through was needed, but couldn't emit because it might be wrong)
- Remove logic for storing function bodies as raw token lists when checking is turned off. I'm leaving in the `UnparsedStmt` AST node in case we ever need/want to lazily parse and check function bodies down the line.
- Remove a few of the code-generation paths we had to contend with, but keep the comment about them in place.
- Remove GLSL-based tests that can't meaningfully work with the new approach.
- Fix other tests that used a GLSL baseline so that their GLSL compiles with `-pass-through glslang` instead of invoking `slang` with the `-no-checking` flag.
- Remove tests that were explicitly added to test the "rewriter + IR" path, since that is no longer supported.
There is more cleanup that can be done here, now that we know that AST-based rewrite and IR will never co-exist, but it is probably easier to deal with that as part of removing the AST-based rewrite path.
We've lost some test coverage here, but actually not too much if we consider that we are dropping GLSL input anyway.
* Fixup: test runner was mis-counting ignored tests
* Fixup: turn on dumping on test failure under Travis
* Fixup: enable extensions in Linux build of glslang
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* Fix up parameter block emit for mixed rewriter+IR
The basic problem here arose when a parameter block was declared in code that will be lowered via IR, but is referenced from user code that will use the AST-based lowering pass. The type legalization would split up the parameter block, and the AST would refer to the new variables, but it would fail to recognize when those variables represent constant buffers, and thus should get implicit-dereference behavior.
The fix here was just to propagate type information through when creating new AST (pseudo-)expressions to represent IR declarations that were split.
A more complete fix down the road should try to make sure that both the expression emit logic and the declaration-emit logic agree on whether a particular declaration of a parameter block or constant buffer needs to support the "implicit dereference" case or not. I'm leaving that to future work.
With this change, two test cases that had been disabled now pass.
* Fixup: don't do implicit deref for `ParameterBlock` values
Right now the rules for `ParameterBlock` and all other uniform praameter groups needs to be different, but the `isImplicitBaseExpr` logic wasn't taking that into account.
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* Work on getting rewriter + IR playing nice together.
There are a few different changes here, with the goal of improving the interaction between the "rewriter" code generation approach and the new IR and type legalization code.
The main changes are:
- Add a new pass that occurs before the AST legalization pass, which walks the (used) AST declarations and tries to discover (1) which declarations need to be specialized/lowered via the IR, and (2) which declarations need to be included in the resulting AST module.
- AST-based legalization now uses the generated list when in "rewriter" mode, so that we should be working around issues that users were seeing with types not getting emitted.
- TODO: we still need an equivalent fixup in the case of non-"rewriter" emit, so this may still be a problem for `.slang` files.
- IR type legalization now precedes AST legalization, so that we can record information on how any IR global values got legalized (e.g., if they got split). Then AST legalization includes logic to reconstruct suitable tuple expressions to reference a split global.
- When emitting using IR + AST, we walk all of the declarations that we decided belonged to the IR, but which were subsequently referenced in the AST, to make sure they get output (this would include `struct` types that are declared in a file compiled via IR, but never used in IR-based code).
The rewriter+IR use case still doesn't *quite* work, but the logic for walking the AST in a pre-pass ends up being needed/useful to fix some pure rewriter bugs, so I'm getting this checked in sooner rather than later.
* Fixup: walk arguments to generic declaration reference
The gotcha here is that the code for walking the AST would walk a line of code like:
SomeType a;
and know to traverse the declaration of `SomeType`, but if it saw a line of code like:
ParameterBlock<SomeType> b;
it would traverse the declaration of `ParameterBlock`, but fail to visit that of `SomeType`.
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* Cleanups to `ParameterBlock<T>` behavior.
These add some more realistic tests using the `ParameterBlock<T>` support, and show that it can work with the "rewriter" mode.
Unfortunately, this code does *not* currently work with the rewriter + the IR at once. That will need to be fixed in a follow-on change, because I now see that the root problem is pretty ugly.
* cleanup
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