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This is currently only useful for `struct` types.
I implemented a special-case exception so that the auto-generated `struct` types used for `cbuffer` members don't show their internal name.
I did *not* implement any logic to avoid returning the name `vector` for a vector type, etc., since they are all `DeclRefType`s and it seemed easiest to just let the user access information they can't really use.
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* Fix up test runner output for compute.
We want compute-based tests to produce a `.actual` file when compilation fails, so we can easily diagnose the issue. I thought I'd added this capability previous, but it seemst to not be present any more.
* Compute result types for constructor decls
Fixes #246
When the parser sees an `init()` declaration, it can't easily know what type is is supposed to return, so it leaves the type as NULL. This was causing some downstream crashes.
Rather than special-case every site that cares about the result type of a callable, we will instead ensure that we install an actual result type on an initializer/constructor as part of its semantic checking.
This code needs to handle both the case where the initializer is declared inside a type, as well as the case where it is declared inside an `extension`.
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vertex/fragment shader pair, but instead of comparing the resulting framebuffer, it expects the test shader to write results into a UAV, and compares the pixel shader UAV output to the reference output.
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inputs for running test shaders with arbitrary parameter definitions.
This commit contains the parser of the resource input definition.
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* Fix up emission of shader parameter semantics when using IR
- Make sure to propagate entry point parameter layouts down to IR parameters when doing the initial cloning to form target-specific IR
- When layout information is present on an IR node, prefer to use that over the original high-level declaration for outputting semantics in final HLSL
- Fix up test runner to generate `.actual` files when running compute tests, in cases where the `render-test` application errors out (e.g., because of a Slang compilation error)
- Add a first test of generics functionality, to show that they generate valid code through the IR
- Right now this test is *not* using any "interesting" operations on the type parameter, so this is not a test that can confirm that interface constraints work
* fixup: skip compute tests when running on Linux
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testing framework.
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This is functionality required to support a Falcor bug fix.
Most of the code to compute the right semantic name/index for a parameter was already present.
This change adds:
- Storage for semantic name/index on every `VarLayout`
- Note: this is wasteful and should be optimized later
- A public API to query the semantic name/index
- The contract is that this API returns `NULL` if the parameter had no semantic
- A bit of work in `parameter-binding.cpp` to attach semantics to varying input/output when traversing varying parameters.
- Note: this is intentionally set up so that it associates semantics even with non-leaf parameters, so that an API user can query the semantic of a `struct` parameter and know that its members will be assigned sequential semantic indices from its starting value.
- Support for dumping this information in reflection tests
One notable thing that I did *not* change here is that the reflection test fixture doesn't report information on the output of an entry point, even though it really should. That should be fixed in a separate change, though, because it would affect many of the expected outputs.
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There are two big changes here:
- Add logic during the initial IR cloning pass for an entry point + target that tries to pick the best possible version of any target-overloaded function. This allows us to pick the intrinsic version of `saturate()` when compiling for HLSL output, but then pick the non-intrinsic version (that is implemented in terms of `clamp()`) when targetting GLSL.
- Add an initial specialization pass that tries to deal with generics. This required some fixing work to IR generation, so that we correctly generate explicit operations to specialize a generic for specific types (this is currently implemented as a `specialize` instruction that takes the generic to specialize plus a declaration-reference that represents the specialized form). With that work in place, we can scan for `specialize` instructions inside of non-generic functions, and use them to trigger generation of specialized code. We rely on the name-mangling scheme to help us find pre-existing specializations when possible.
There are also a bunch of cleanups encountered along the way:
- Don't use the explicit `layout(offset=...)` for uniforms, because it isn't supported by all current drivers. For now we will just assume that our layout rules compute the same values that the driver would for un-marked-up code. We can come back later and try to implement a workaround in the cases where this doesn't apply (e.g., by re-running the layout logic as part of emission, and dropping layout modifiers from variables that don't need explicit layout).
- Fix some issues in IR dump printing so that we print function declarations more nicely.
- Testing: print out failing pixel when image-diff fails
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The big addition here is that the Slang "bytecode" is no longer treated as just a "code generation target" (`CodeGenTarget`) akin to DX bytecode (DXBC) or SPIR-V, but instead is a `ContainerFormat` that can be used to emit all the results of a compile request (well, currently just the IR-as-BC, but the intention is there).
Getting to this goal involved some prior checkins that eliminated bogus "targets" that weren't really akin to SPIR-V or DXBC: `-target slang-ir-asm` and `-target reflection-json`. Those targets were really in place to support testing, and so they've been made more explicit testing/debug options.
This change eliminates `-target slang-ir` and instead tries to allow the user to specify `-o foo.slang-module` as an output file name, that indicates the intention to output a "container" file that will wrap up all the generated code.
I've also gone ahead and generalized the existing `-target` option so that we are actually building up a *list* of code generation targets. This is largely just a cleanup, since it forces code to be more aware of when it is doing something target-specific vs. target independent. For example, reflection layout information lives on a requested target, and not on the compile request as a whole, and similarly output code is per-target, per-entry-point.
As a cleanup, I eliminated support for per-translation-unit output. This was vestigial code from back when I used to try and do HLSL generation for a whole translation unit instead of per-entry-point (which turned out to be a lot of complexity for little gain), and it was only being used in the `hello` example and the `render-test` test fixture - in both cases fixing it up was easy enough. I've stubbed out the old `spGetTranslationUnitSource` API, but haven't removed it yet.
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Move reflection JSON generation into separate test fixture
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When outputting GLSL from a Slang or HLSL entry point, we need to translate any parameters or results of an entry-point function into global declarations of `in` or `out` parameters, as needed by GLSL.
This change adds these transformations at the IR level, so that they don't need to complicate the emit logic.
More detailed changes:
- Make `render0` test use IR. It passes out of the box.
- Fix test runner to not always dump diffs on failures
I accidentally initialized an option to `true` instead of `false` when working on debugging the Travis CI failures.
- Special-case output for component-wise multiplication to handle GLSL `matrixCompMul()`
- Handle GLSL vs. HLSL output for calls to `mul()`
- Output proper `layout(std140)` on GLSL constant buffer declarations
- Require appropriate GLSL extension when emitting explicit `layout(offset = ...)` on constant buffer members
- TODO: Need to avoid requiring this extension in cases where the offsets are what would be computed anyway.
Realistically, should probably be emitting code with explicit padding, etc. to guarantee layouts.
- Add an IR-based pass to translate entry point functions by eliminating their input/output parameters and replacing them with global variables.
- Demangle names when calling target intrinsics
The lowering to the IR will turn a call like `sin(foo)` into a call to a function declaration with a mangled name like `_S3sin...`. This works fine when the user is calling their own functions, since the name mangling will apply to both the definition and use sites, but for builtin functions it obviously isn't what we want.
This change makes it so that we demangle the name of an instrinsic function just enough so that we can extract the original simple name, and make a call using that.
These changes do nor provide 100% of what we need when translating to GLSL, so the `cross-compile-entry-point` test *still* hasn't been flipped over to use the IR (even though that is the test case I've been using to develop these changes).
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* Attempt to fix subprocess handling for Linux
Our CI builds are sometimes hanging on Travis, and I suspect it might be something to do with how we are waiting for subprocesses to complete. I'm trying to following the manpage for the `wait()` and `waitpid()` calls a bit better here.
* fixup: try to use poll() instead of select()
* fixup: missing header
* fixup
* fixup
* fixup: try to emit test output when tests fail on Travis
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* IR: overhaul IR design/implementation
Closes #192
Closes #188
This is a major overhaul of how the IR is implemented, with the primary goal of just using the AST-level type representation as the IR's type representation, rather than inventing an entire shadow set of types (as captured in issue #192).
One consequence of this choice is that types in the IR are no longer explicit "instructions" and are not represented as ordinary operands (so a bunch of `+ 1` cases end up going away when enumerating ordinary operands).
Along the way I also got rid of the embedded IDs in the IR (issue #188) because this wasn't too hard to deal with at the same time.
Another related change was to split the `IRValue` and `IRInst` cases, so that there are values that are not also instructions. Non-instruction values are now used to represent literals, references to declarations, and would eventually be used for an `undef` value if we need one. IR functions, global variables, and basic blocks are all values (because they can appear as operands), but not instructions.
The main benefit of this approach is that the top-level structure of a bytecode (BC) module is much simpler to understand and walk, and BC-level types are represented much more directly (such that we could conceivably use them for reflection soon).
* fixup: 64-bit build fix
* fixup: try to silence clang's pedantic dependent-type errors
* fixup: bug in VM loading of constants
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* Get tests running/passing under Linux
- Fix up `dlopen` abstraction
- Fix up some test cases to request hlsl (rather than default to dxbc) so they can run on non-Windows targets
- Fix up test runner ignore tests that can't run on current platform (and not count those as failure)
- Fix file handle leeak in process spawner absttraction
- Get additional test-related applications building
- More tweaks to Travis script; in theory deployment is set up now (yeah, right)
* fixup
* fixup: Travis environment variable syntax
* fixup: Buffer->begin
* fixup: actually run full tests on one config
* fixup: add build status badge for Travis
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* First attempt at a Linux build
- Fix up places where C++ idioms were written assuming lenient behavior of Microsoft's compiler
- Add a few more alternatives for platform-specific behavior where Windows was the only platform accounted for.
- Add a basic Makefile that can at least invoke our build, even if it isn't going good dependency tracking, etc.
- Build `libslang.so` and `slangc` that depends on it, using a relative `RPATH` to make the binary portable (I hope)
- Add an initial `.travis.yml` to see if we can trigger their build process.
* Fixup: const bug in `List::Sort`
I'm not clear why this gets picked up by the gcc *and* clang that Travis uses, but not the (newer) gcc I'm using on Ubuntu here, but I'm hoping it is just some missing `const` qualifiers.
* Fixup: reorder specialization of "class info"
Clang complains about things being specialized after being instantiated (implicilty), and I hope it is just the fact that I generate the class info for the roots of the hierarchy after the other cases. We'll see.
* Fixup: add `platform.cpp` to unified/lumped build
* Fixup: Windows uses `FreeLibrary`
and not `UnloadLibrary`
* Fixup: fix Windows project file to include new source file
This obviously points to the fact that we are going to need to be generating these files sooner or later.
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