| Age | Commit message (Collapse) | Author |
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* CUDA support for array of resources.
* * Add support for Texture2DArray on CPU
* Expand texture-simple.slang to test Texture2DArray
* Reorganise CUDAComputeUtil to split out createTextureResource.
* Add TextureCubeArray support for CPU/CUDA targets.
* Pulled out CUDAResource
Renamed derived classes to reflect that change.
* Creation of SurfObject type.
* Functions to return read/write access for simplifying future additions.
* WIP for RWTexture access on CPU/CUDA.
* CUsurfObject cannot have mips.
* Ability to set number of mips on test data.
Preliminary support for CUsurfObj and RWTexture1D on CUDA.
CUDA docs improvements.
* Fix typo.
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* CUDA support for array of resources.
* * Add support for Texture2DArray on CPU
* Expand texture-simple.slang to test Texture2DArray
* Reorganise CUDAComputeUtil to split out createTextureResource.
* Add TextureCubeArray support for CPU/CUDA targets.
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* Added support for Targets to TypeTextUtil.
* Made Function names 'get' and 'find' instead of 'as' in TypeTextUtil.
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* Add cubemap support.
* Add CUDA fence instrinsics.
* Added Gather for CUDA.
* Use the CUDA driver API as much as possible.
* * Support 1D texture on CPU
* WIP on 1D texture on CUDA
* Added simplified texture test
* Fix test.
* Improve texture-simple tests.
* * Add CPU support for 3d textures
* Add support for mip maps to CUDA
* Disable warnings in nvrtc
* Update CUDA docs
* WIP on 3d texture support.
* Add support for 3d textures for CPU and CUDA.
* CPU and CUDA support for cube maps.
* Add CPU support for Texture1DArray.
* Support CUDA Layered/Array type in meta library.
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* Add cubemap support.
* Add CUDA fence instrinsics.
* Added Gather for CUDA.
* Use the CUDA driver API as much as possible.
* * Support 1D texture on CPU
* WIP on 1D texture on CUDA
* Added simplified texture test
* Fix test.
* Improve texture-simple tests.
* * Add CPU support for 3d textures
* Add support for mip maps to CUDA
* Disable warnings in nvrtc
* Update CUDA docs
* WIP on 3d texture support.
* Add support for 3d textures for CPU and CUDA.
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* Add cubemap support.
* Add CUDA fence instrinsics.
* Added Gather for CUDA.
* Use the CUDA driver API as much as possible.
* * Support 1D texture on CPU
* WIP on 1D texture on CUDA
* Added simplified texture test
* Fix test.
* Improve texture-simple tests.
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
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* Added 'truncate' for fixing floats, for floats near the max value (as opposed to making infinite).
Put AreNearlyEqual into Math
* Test for ::make static method.
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compile request. (#1217)
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There are two main fixes here:
The first is to remove a memory leak in the reflection test tool, in the case where Slang compilation fails. There is no real reason to be using the reflection test tool for tests that produce diagnostics (we have the slangc tool for that), but it makes sense to go ahead and fix the leak rather than work around it. This was one of those leaks that could have been avoided with smart pointers and a COM-lite API.
The second issue was that the logic for constructing an `AttributeDecl` based on a user-defined `struct` was not correctly setting the parent of the attribute decl. The code in question was a little hard to follow and had a few steps that didn't seem strictly necessary given its goals, so I went ahead and scrubbed+commented it to just do what made sense to me (and the tests still pass...).
I'm not entirely happy with the design and implementation approach for user-defined attributes, so we might want to take another stab at it sooner or later. This change is not meant to address any design issues, and is just about fixing bugs in what is already there.
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* Launch CUDA test taking into account dispatch size.
* Enable isCPUOnly hack to work on CUDA.
* Rename 'isCPUOnly' hack to 'onlyCPULikeBinding'.
* Add $T special type.
Support SampleLevel on CUDA.
* Fix typo.
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* Fix CPP construct when matrix type.
* Test intrinsics on float matrices.
* Fix typo in _areNearlyEqual test. Increased default sensitivity.
Added matrix-float test.
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* WIP: 64 literal diagnostic and truncation.
* Improve how integer truncation is handled/supported.
Added literal-int64.slang test.
Set a suffix on all literals.
Fixed problem on C++ based targets where l suffix was not the same as int() cast. So on C++ derived emitters, int() is used instead of l suffix to have same behavior across targets.
* Add literal diagnostic testing.
* Allow lexer to lex - in front of literals.
* Fix lexing and converting int literal with -.
* Too large small values of floats become inf.
Handling writing inf types out on different targets.
Add function to deterimine if a float literals kind.
* Roll back the support of lexer lexing negative literals.
* Fixed tests broken because of diagnostics numbers.
Improved _isFinite
* Fix compilation on linux.
* Fix problem with abs on linux - use Math::Abs.
* Fix typo.
* * Improve warnings for float literals zeroed
* Improved 64 bit type documentation
* Handle half
* Improved comments
* Fixed tests broken
* Use capital letters for suffixes.
* Make default behavior on outputting a int literal that is an 'int32_t' is cast (not suffix) to avoid platform inconsistencies.
Improve documentation for 64 bit types.
Make tests cover material in docs.
* Fixed tests.
* Rename FloatKind::Normal -> Finite
* Fix half zero check.
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* WIP with vector float test.
* vector-float test working.
* Fixed remaing tests broken with init changes.
* Improve 64bit-type-support.md
* Disable tests broken on CI system for Dx.
* WIP: Make type available for comparison.
* Moved type conversion into TypeTextUtil.
* Add text/type conversions from DownstreamCompiler to TypeTextUtil.
* Allow compaison taking into account type.
* Removed quantize in vector-float.slang test.
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* Split out binding writing.
* Pass in the entry type.
* Take into account output type with -output-using-type
Added GPULikeBindRoot
Added dxbc-double-problem test.
* Add the dxbc-double-problem test.
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* When using setUniform clamp the amount of data written to the buffer size.
* CUDA implement StructuredBuffer/ByteAddressBuffer as pointer/count as is on CPU.
Allow bounds check to zero index.
Update docs.
* Synthesize tests.
* Fix bug in CUDA output.
* Fixing more tests to run on CUDA.
* Added BaseType for layout of Vector and Matrix - as they are held as int32_t vector array types.
* Enable unbound array support on CUDA.
* Added unsized array support for CUDA documentation.
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(#1181)
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CPU. (#1182)
Allow bounds check to zero index.
Update docs.
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* WIP: Trying to figure out how texturing will work with CUDA.
* WIP: Fixes for CUDA layout. Initial CUDA texture test.
* WIP: Outputs something compilable by CUDA for TextureND.Sample
* 2d texture working with CUDA.
* Fix how binding for SamplerState occurs in CUDA.
* Small tidy up of comments.
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* Added hlsl-intrinsic test folder.
Enabled ceil as works across targets.
* log10 support.
* Fix float % on CPU/CUDA to match HLSL which is fmod (not fremainder).
* Added log10 tests back to scalar-float.slang
* Don't add the ( for $Sx - it's clearer what's going on without it.
* Works on CUDA/CPU. Problem with asint/asuint do not seem to be found.
* Only asuint exists for double.
* Support countbits on CUDA and C++.
* Fix typo in C++ population count.
* First pass at int vector intrinsic tests.
* Swizzle for int.
* Bit cast tests on CUDA.
* Fix warning on gcc.
* Fix bit-cast-double execution on CUDA.
* scalar-int test working on gcc release.
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* Add test result for compile-to-cuda
* Add RAII for some CUDA types to simplify usage.
* First pass handling of some instrinsics on CUDA (for example transcendentals)
* CUDA working with built in intrinsics.
* Add missing CUDA prelude intrinsics.
* CUDA matches CPU output on simple-cross-compile.slang
* First pass at hlsl-scalar-float-intrinsic.slang test.
* Fix smoothstep impl on CUDA and CPU.
* Fixed step intrinsic on CUDA/CPU.
* Added operator[] to Matrix for C++, to allow row access.
Needs a fix for CUDA.
* Fixed warning on clang build.
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* First pass at BindLocation.
* Added BindSet::init - for initializing with two input constant buffers. Needs better name, and perhaps should be another class.
* Fix handling of constant buffer stripping.
Improved initialization.
* Trying to generalize BindLocation a little more.
Split out CPULikeBindRoot.
* More work to make BindLocation et al work with non uniform bindings.
* Added parsing to a location.
* WIP: Trying to get CPU working with BindLocation.
* Describe problem of knowing the type of the reference point in the binding table.
* More ideas on getBindings fix.
* Remove BindSet as member of BindLocation.
* Added BindLocation::Invalid
* Made BindLocation able to be key in hash
* Use BindLocation for bindings on BindingSet.
* Added cuda and nvrtc categories to test infrastructure.
Disabled CUDA synthetic tests by default.
Fixed such that all tests now produce something in BindLocation style.
* Use m_userIndex instead of m_userData on Resource.
Move the binding setup out of cpu-compute-util (as no longer CPU specific)
* Removed CPUBinding - used BindLocation/BindSet instead.
Fixed some bugs around indexOf around uniform indirection.
* Renamed BindSet::Resource -> BindSet::Value.
* Document BindLocation.
* Fixes for Clang/GCC
Improve invariant requirement handling when constructing from BindPoints.
* WIP: First attempt to run CUDA kernel.
* Fix some issues around doing CUDA kernel launch.
* Fix issues around use of cudaMemCpy .
* Better cuda runtime error checking mechanism.
* Fixed bug in passing parameters to cuda kernel launch.
Simplified initialisation of context.
* WIP: Fix CUDA runtime issues.
* Add explicit CUDA synchronize so failures don't appear on implicit ones.
* Fix problem emitting non shared variable on CUDA.
* Fix some typos in CUDA layout.
Use just a pointer for now for CUDA StucturedBuffer.
* Arg order for CUDA launch was wrong.
* First compute kernel runs on CUDA.
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* First pass at BindLocation.
* Added BindSet::init - for initializing with two input constant buffers. Needs better name, and perhaps should be another class.
* Fix handling of constant buffer stripping.
Improved initialization.
* Trying to generalize BindLocation a little more.
Split out CPULikeBindRoot.
* More work to make BindLocation et al work with non uniform bindings.
* Added parsing to a location.
* WIP: Trying to get CPU working with BindLocation.
* Describe problem of knowing the type of the reference point in the binding table.
* More ideas on getBindings fix.
* Remove BindSet as member of BindLocation.
* Added BindLocation::Invalid
* Made BindLocation able to be key in hash
* Use BindLocation for bindings on BindingSet.
* Added cuda and nvrtc categories to test infrastructure.
Disabled CUDA synthetic tests by default.
Fixed such that all tests now produce something in BindLocation style.
* Use m_userIndex instead of m_userData on Resource.
Move the binding setup out of cpu-compute-util (as no longer CPU specific)
* Removed CPUBinding - used BindLocation/BindSet instead.
Fixed some bugs around indexOf around uniform indirection.
* Renamed BindSet::Resource -> BindSet::Value.
* Document BindLocation.
* Fixes for Clang/GCC
Improve invariant requirement handling when constructing from BindPoints.
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This change adds some new entry points to the reflection API to cover corner cases that a majority of applications won't care about.
These are most likely to come up for users who want to make a complete copy of the Slang reflection information into a data format of their own design.
All of the information is stuff that we already computed as part of layout, and just hadn't exposed:
* Alignment information for type layouts. This is only useful for ordinary/uniform data; in all other cases alignment is always one. Even for uniform/ordinary data, it is unlikely that any application would actually make use of it.
* Layout information for the result of an entry point function. This would be useful for applications that need to enumerate the varying outputs (user- or system-defined) of a shader. Having information available for `out` parameters but not the function result was inconsistent.
* The "element type" of a parameter block type (e.g., going from `ParameterBlock<X>` to `X`). This seems to have been an oversight since `ConstantBuffer<X>` appears to have been implemented, and the case for a type *layout* was handled.
* The "container" variable layout for a parameter block or constant buffer. It took a while for us to arrive at the current representation of layout for parameter groups, and most client code continues to use the original API that requires us to generated kludged "do what I mean" data. However, if we don't expose the more useful new representation fully, there is no way for users to take advantage of it!
The reflection test tool has been updated to print the new information where it makes sense, which provides us some level of coverage for the new code.
Unfortunately, this led to some cascading changes:
* First, a bunch of the tests had their output changed since they include new information. That's the easy bit.
* Next, the "container" and "element" var layouts don't actually have names (because there is no actual variable underlying them), which means that the code to emit variable names in the JSON dump needed to be condition.
* Making the `"name"` output conditional messed up a lot of the delicate logic that had been dealing with when to emit commas for the output JSON (JSON uses commas as separators, and doesn't allow trailing commas). I added a bit of new infrastructure to make it simple(-ish) to track when a comma actually needs to be output.
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* CUDA generated first test compiles.
* WIP on enabling CUDA in render-test.
* Detect CUDA_PATH environmental variable to build build cuda support into render-test.
Added WIP cuda-compute-util.cpp/h
Added CUDA as a renderer type.
* Fix libraries needed for cuda in premake.
* Added -enable-cuda premake option. Defaults to false.
* Creates CUDA device, loads PTX and finds entry point.
* Fix some erroneous cruft from slang-cuda-prelude.h
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* CPPCompiler -> DownstreamCompiler
* Added DownstreamCompileResult to start abstraction such that we don't need files.
* * Split out slang-blob.cpp
* Made CompileResult hold a DownstreamCompileResult - for access to binary or ISlangSharedLibrary
* Keep temporary files in scope.
* Add a hash to the hex dump stream.
* Move all file tracking into DownstreamCompiler.
* WIP support for nvrtc.
* WIP: Adding support for nvrtc compiler.
Adding enum types, wiring up the nvrtc into slang.
* Fix remaining CPPCompiler references.
* Fix order issue on target string matching.
* Use ISlangSharedLibrary for nvrtc.
* Use DownstreamCompiler for nvrtc.
* WIP first pass at compilation win nvrtc.
* Added testing if file is on file system into CommandLineDownstreamCompiler.
Added sourceContentsPath.
* Make test cuda-compile.cu work by just compiling not comparing output.
* Genearlize DownstreamCompiler usage.
* Fix warning on clang.
* Remove CompilerType from DownstreamCompiler.
* Use DownstreamCompiler interface for all compilers.
NOTE for FXC, DXC and GLSLANG this doesn't mean using 'compile' - it's still extracting functions from shared library.
* Replace DownstreamCompiler::SourceType -> SlangSourceLanguage
* Replace _canCompile with something data driven.
* Fix compiling on gcc/clang for DownstreamCompiler.
* Moved some text conversions into DownstreamCompiler.
* Fix problem on non-vc builds with not having return on locateCompilers for VS.
* Change so no warning for code not reachable on locateCompilers for vs.
* WIP: CUDA code generation - currently just using CPU layout and HLSL.
* emitXXXForEntryPoint -> emitEntryPointSource
emitSourceForEntryPoint -> emitEntryPointSourceFromIR
Fix up generating cuda to get PTX.
* WIP emitting cuda for IR.
* Small improvements to CUDA ouput.
* Disable the CUDA emit test, as output not currently compilable.
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* CPPCompiler -> DownstreamCompiler
* Added DownstreamCompileResult to start abstraction such that we don't need files.
* * Split out slang-blob.cpp
* Made CompileResult hold a DownstreamCompileResult - for access to binary or ISlangSharedLibrary
* Keep temporary files in scope.
* Add a hash to the hex dump stream.
* Move all file tracking into DownstreamCompiler.
* WIP support for nvrtc.
* WIP: Adding support for nvrtc compiler.
Adding enum types, wiring up the nvrtc into slang.
* Fix remaining CPPCompiler references.
* Fix order issue on target string matching.
* Use ISlangSharedLibrary for nvrtc.
* Use DownstreamCompiler for nvrtc.
* WIP first pass at compilation win nvrtc.
* Added testing if file is on file system into CommandLineDownstreamCompiler.
Added sourceContentsPath.
* Make test cuda-compile.cu work by just compiling not comparing output.
* Genearlize DownstreamCompiler usage.
* Fix warning on clang.
* Remove CompilerType from DownstreamCompiler.
* Use DownstreamCompiler interface for all compilers.
NOTE for FXC, DXC and GLSLANG this doesn't mean using 'compile' - it's still extracting functions from shared library.
* Replace DownstreamCompiler::SourceType -> SlangSourceLanguage
* Replace _canCompile with something data driven.
* Fix compiling on gcc/clang for DownstreamCompiler.
* Moved some text conversions into DownstreamCompiler.
* Fix problem on non-vc builds with not having return on locateCompilers for VS.
* Change so no warning for code not reachable on locateCompilers for vs.
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* CPPCompiler -> DownstreamCompiler
* Added DownstreamCompileResult to start abstraction such that we don't need files.
* * Split out slang-blob.cpp
* Made CompileResult hold a DownstreamCompileResult - for access to binary or ISlangSharedLibrary
* Keep temporary files in scope.
* Add a hash to the hex dump stream.
* Move all file tracking into DownstreamCompiler.
* WIP support for nvrtc.
* WIP: Adding support for nvrtc compiler.
Adding enum types, wiring up the nvrtc into slang.
* Fix remaining CPPCompiler references.
* Fix order issue on target string matching.
* Use ISlangSharedLibrary for nvrtc.
* Use DownstreamCompiler for nvrtc.
* WIP first pass at compilation win nvrtc.
* Added testing if file is on file system into CommandLineDownstreamCompiler.
Added sourceContentsPath.
* Make test cuda-compile.cu work by just compiling not comparing output.
* Genearlize DownstreamCompiler usage.
* Fix warning on clang.
* Remove CompilerType from DownstreamCompiler.
* Use DownstreamCompiler interface for all compilers.
NOTE for FXC, DXC and GLSLANG this doesn't mean using 'compile' - it's still extracting functions from shared library.
* Fix compiling on gcc/clang for DownstreamCompiler.
* Fix problem on non-vc builds with not having return on locateCompilers for VS.
* Change so no warning for code not reachable on locateCompilers for vs.
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* CPPCompiler -> DownstreamCompiler
* Added DownstreamCompileResult to start abstraction such that we don't need files.
* * Split out slang-blob.cpp
* Made CompileResult hold a DownstreamCompileResult - for access to binary or ISlangSharedLibrary
* Keep temporary files in scope.
* Add a hash to the hex dump stream.
* Move all file tracking into DownstreamCompiler.
* WIP support for nvrtc.
* WIP: Adding support for nvrtc compiler.
Adding enum types, wiring up the nvrtc into slang.
* Fix remaining CPPCompiler references.
* Fix order issue on target string matching.
* Use ISlangSharedLibrary for nvrtc.
* Use DownstreamCompiler for nvrtc.
* WIP first pass at compilation win nvrtc.
* Added testing if file is on file system into CommandLineDownstreamCompiler.
Added sourceContentsPath.
* Make test cuda-compile.cu work by just compiling not comparing output.
* Fix warning on clang.
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* CPPCompiler -> DownstreamCompiler
* Added DownstreamCompileResult to start abstraction such that we don't need files.
* * Split out slang-blob.cpp
* Made CompileResult hold a DownstreamCompileResult - for access to binary or ISlangSharedLibrary
* Keep temporary files in scope.
* Add a hash to the hex dump stream.
* Move all file tracking into DownstreamCompiler.
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* * Added ConstArrayView
* Made StringSlicePool have styles
* Remove point about strings not having terminating 0 (they do), and restriction around ""
* spCalcStringHash -> spComputeStringHash
* Small code improvements.
Closer to coding conventions.
* Fix small bug with Empty adding c string.
* Fix typo in assert.
* Fix ArrayView compiling issue on gcc/clang.
* Remove tabs.
* Improve comments around StringSlicePool.
Simplify getting the added slices.
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* WIP getStringHash
* Have a use.
* Add slang-string-hash.h/.cpp
* Use StringSlicePool for holding strings for StringHash.
Add outputBuffer to string-literal-hash.slang so value can be tested.
Ignore the GlobalHashedStringLiterals instruction on emit.
* Add all the hashed string literals to ProgramLayout.
* Add reflection support for hashed string literals to reflection test.
* Fix string literal hash test.
* Small fixes to pass test suite.
* Fix issue in serialization where IRUse is not correctly initialized.
* Fix problem initializing IRUse for string hash pass.
Remove hack from slang-ir-specialize - specially handling if user is not null.
* * Use shared builder when replacing getStringHash
* Comments for functions in slang-ir-string-hash
* Do not allow zero length string literals. Could be allowed, but doing so would require StringSlicePool to have a special case (or some other mechanism)
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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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* Initial work for "global generic value parameters"
The main new feature here is support for the `__generic_value_param` keyword, which introduces a *global generic value parameter*.
For example:
__generic_value_param kOffset : uint = 0;
This declaration introduces a global generic value parameter `kOffset` of type `uint` that has a nominal default value of zero.
The broad strokes of how this feature was added are as follows:
* A new `GlobalGenericValueParamDecl` AST node type is introduces in `slang-decl-defs.h`
* A new `parseGlobalGenericValueParamDecl` subroutine is added to `slang-parser.cpp`, and is added to the list of declaration cases as the callback for the `__generic_value_param` name.
* Cases for `GlobalGenericValueParamDecl` are added to the declaration checking passes in `slang-check-decl.cpp`, mirroring what is done for other variable declaration cases.
* A case for `GlobalGenericValueParamDecl` is aded to the `Module::_collectShaderParams` function, so that it is recognized as a kind of specialization parameter. This introduces a specialization parameter of flavor `SpecializationParam::Flavor::GenericValue` (which was already defined before this change, although it was unused).
* A case for `SpecializationParam::Flavor::GenericValue` is added in `Module::_validateSpecializationArgsImpl` to check that a specialization argument represents a compile-time-constant value (not a type).
* A case for `GlobalGenericValueParmDecl` is introduced in `slang-lower-to-ir.cpp` that introduces a global generic parameter in the IR
* The `IRBuilder` is extended to support creating `IRGlobalGenericParam`s for the distinct cases of type, witness-table, and value parameters. The same IR instruction type/opcode is used for all cases, and only the type of the IR instruction differs.
* The existing mechanisms for lowering specialization arguments to the IR, and doing specialization on the IR itself Just Work with global generic value parameters since they already support value parameters on explicit generic declarations.
That's the santized version of things, but there were also a bunch of cleanups and tweaks required along the way:
* The `SpecializationParam` type was extended to also track a `SourceLoc` to help in diagnostic messages, which meant some churn in the code that collects specialization parameters.
* The `_extractSpecializationArgs` function is tweaked to support any kind of "term" as a specialization argument (either a type or a value).
* To allow *parsing* specialization arguments that can't possibly be types (e.g., integer literals) we replace the existing `parseTypeString` routine with `parseTermString` and then in `parseTermFromSourceFile` call through to a general case of expression parsing (which can also parse types) rather than only parsing types directly.
* Right before doing back-end code generation, we check if the program we are going to emit has remaining (unspecialized) parameters, in which case we emit a diagnostic message for the parameters that haven't been specialized rather than go on to emit code that will fail to compile downstream.
* Within the `render-test` tool we collapse down the arrays that held both "generic" and "existential" specialization arguments, so that we just have *global* and *entry-point* specialization argument lists. This mirrors how Slang has worked internally for a while, but the difference hasn't been important to the test tool because no tests currently mix generic and existential specialization. The logic for parsing `TEST_INPUT` lines has been streamlined down to just the global and entry-point cases, but the pre-existing keywords are still allowed so that I don't have to tweak any test cases.
There are several significant caveats for this feature, which mean that it isn't really ready for users to hammer on just yet:
* There is no support for `Val`s of anything but integers, so there is no way to meaningfully have a generic value param with a type other than `int` or `uint`.
* We allow for a default-value expression on global generic parameters, but do not actually make use of that value for anything (e.g., to allow a programmer to omit specialization arguments), nor check that it meets the constraints of being compile-time constant.
* Global generic value parameters are *not* currently being treated the same as explicit generic parameters in terms of how they can be used for things like array sizes or other things that require constants. This will probably be relaxed at some point, but allowing a global generic to be used to size an array creates questions around layout.
* The IR optimization passes in Slang currently won't eliminate entire blocks of code based on constant values, so using a global generic value parameter to enable/disable features will *not* currently lead to us outputting drastically different HLSL or GLSL. That said, we expect most downstream compilers to be able to handle an `if(0)` well.
* Fix regression for tagged union types
The change that made specialization arguments be parsed as "terms" first, and then coerced to types meant that any special-case logic that is specific to the parsing of types would be bypassed and thus not apply.
Most of that special-case logic isn't wanted for specialization arguments, since it pertains to cases were we want to, e.g, declare a `struct` type while also declaring a variable of that type.
The one special case that *is* useful is the `__TaggedUnion(...)` syntax, which is the only way to introduce a tagged union type right now.
In order to get that case working again, all I had to do was register the existing logic for parsing `__TaggedUnion` as an expression keyword with the right callback, and the existing logic in expression parsing kicks in (that logic was already handling expression keywords like `this` and `true`).
I left in the existing logic for handling `__TaggedUnion` directly where types get parsed, rather than try to unify things.
A better long-term fix is to make the base case for type parsing route into `parseAtomicExpr` so that the two paths share the core logic.
That change should probably come as its own refactoring/cleanup, because it creates the potential for some subtle breakage.
* fixup: typo
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* Added the name to the EntryPointLayout so is always available
* Made spReflectionEntryPoint_getName use name
* Improved checking for entry point name in render-test
* Improved COMPILE test type to allow failure and output of failure.
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* * Added option to get random bytes from RandomGenerator
* Added ability to allocate only in current block on MemoryArena
* Allowed RiffContainer to not allocate new Data blocks, if can just extend the Data it has (because it's at the end of current block and there is space for the new data).
* Added coverage for change on Riff unit test
* Add test coverage for allocations over multiple Data blocks.
* Improve comment on riff unit tests.
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* Add basic support for entry points in `.slang-lib` files.
The basic idea here is that when writing out a `.slang-lib` file based on a compile request, we include new sections in the generated RIFF that represent the entry points that were requested. The entry-point information is serialized in an entirely ad hoc fashion (a future change might clean it up to use the `OffsetContainer` machinery), and contains the name, profile, and mangled symbol name of an entry point.
When deserializing this information, we create a list of "extra" entry points that gets attached to the front-end compile requests. These "extra" entry points get turned into `EntryPoint` objects at the same place in the code that entry points specified on the command line or via API would be checked, but the extra entry points bypass the semantic checking and just create "dummy" `EntryPoint` objects.
Aside: the ability for a compile request to end up with entry points that weren't originally specified via API or command-line is not new. We already had support for compiling a translation unit with entry points entirely specified via `[shader(...)]` attributes, and this new support tries to function similarly.
Because the "dummy" entry points don't retain AST-level information, several parts of the code have been modified to defensively check for `EntryPoint` objects without a matching AST declaration, and skip over them.
The main place where this creates a problem is paramete binding, where ignoring the dummy entry point is appropriate since we currently assume linked-in library code has been laid out manually.
One small cleanup here is that the `-r` command-line flag and the `spAddLibraryReference` API functio now bottleneck through a common routine to do their work, so that they both gain the new behavior without needing copy-paste programming.
In order to keep the existing test case for library linking with entry points working, I had to add a flag to the `render-test` tool so that it can skip specifying entry point names as part of the compile request it creates. In that case it must instead assume that the entry points will be added to the compile request via other means. This logic is a bit magical, and hints that we should be looking for other ways to expose the library linking functionality over time.
* fixup: remove alignment assertion
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* Added RiffReadHelper
* Move type to fourCC in Chunk simplifies some code.
* Make MemoryArena able to track external blocks.
Allow ownership of Data to vary.
Changed IR serialization to use moved allocations to avoid copies.
As it turns out all of the array writes could use unowned data, but doing so requires the IRData to stay in scope longer than IRSerialData, which it does at the moment - but perhaps needs better naming or a control for the feature.
* Write out slang-module container.
* WIP on -r option.
Loading modules - with -r.
* Making the serialized-module run (without using imported module).
* Split compiling module from the test.
* Separate module compilation with a function working.
* Remove serialization test as not used.
* Fix warning on gcc.
* Updated test to have types across module boundary.
* Allow entry point declaration.
A test that tries to build with just an entry point declaration and a module.
* Try to make link work with multiple modules.
* Multi module linking first pass working.
* Multi module test working with -module-name option
* Use isDefinition - for determining to add decorations to entry point lowering.
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* WIP RiffContainer.
* WIP riff container.
* Testing out RiffContainer.
* * Naming improvements
* Visitor functions
* Ability to dump riffs.
* Renamed RiffChunk to RiffHeader
* Remove m_ prefix on RiffHeader members.
* Riff stream reading writing.
Simple test of riff reading/writing.
* Fix Riff alignment issue.
Make IR serialization use the RiffContainer API.
* Improve documentation.
* Remove SubChunk fuctionality as not needed with RiffContainer.
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* OffsetContainer with unit tests.
* State serialization working with OffsetContainer.
* Fixes to make work with OffsetContainer.
* Added OffsetContainer documentation.
* Remove RelativeContainer.
* Fix problem with + on Offset32Ptr on windows x86 target.
* * Made OffsetBase a base class of OffsetContainer.
* Added MemoryOffsetBase to just handle being a chunk of memory.
* * Use operator[] to access contents of OffsetContainer
* Fix the type hash to work across different size_t sizes.
* Fixed some Offset type related comments.
* Fix bug around using asBase, because it returns a reference just using 'auto' will means it becomes a value type.
Remove assignment and copy ctor from OffsetBase.
* Evaluation order of assignment can lead to wrong behavior with Offset32Ptr/raw pointers. Document the fact, and fix in StateSerializeUtil.
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* * Added comments/documentation to better describe Relative/Safe types and usage
* Renamed allocate methods to newObject/newArray on RelativeContainer.
* Fix error introduced from automatic merge.
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* WIP on serialize/save state.
* Relative string encoding.
* Added RelativeContainer unit test.
Split out RelativeContainer into core.
* Fix bug in RelativeString encoding.
* More work around relative container.
* Fix checks.
* Use RelativeBase for safe access.
Use malloc/free/realloc instead of List.
* Add natvis support for relative types.
* Setting up of state (not includes) writing of repro state.
* Capture after spCompile.
* Writing SourceFile and file system files.
Added -dump-repo
* First pass at loading state.
* First pass at reading repro.
* Small optimization around Safe32Ptr
* Refactor how repro data is stored - to make saving off the files more simple, by having all all backed by 'files'.
Make file loading always set up PathInfo so we get uniqueIdentifier info.
* Generate unique file names.
* Added RelativeFileSystem
Added saveFile to ISlangFileSystemExt and implemented for interfaces
Added mechanism to save of files (and manifest)
* Added ability to replace files in repo with directory holding their contents.
* Add support for entry points.
* Fix problem compiling on linux.
* Added SIMPLE_EX option, where everything on command line must be specified.
* Fix typo in unit test for relative container.
* Fix another typo in unit test for RelativeContainer.
* Fix small bugs.
* Fix release unused variable issue in slang-state-serialize.cpp
* Fix checking for SIMPLE_EX in testing, else broke COMMAND_LINE_SIMPLE.
* Fix warnings on 32 bit debug build.
* Added import-subdir-search-path-repro.slang test. Although disabled for now as writes to root of slang project.
* Remove wrong version of import-subdir-search-path-repro.slang
* Added import-subdir-search-path-repro.slang
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* WIP: Unsized arrays on CPU.
* unbounded-array-of-array working on CPU.
* Remove some left over comments.
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* First pass support for performance profiling
* Test across all elements
* Fix bug - sourceContents is not used, should use rawSource.
* * Add ability to get prelude from API.
* Allow specifying source language for render-test
* Made it possible to compile a test input file as C++
* Special handling for reflection
* Added C++ impl to performance-profile.slang
* Remove some clang warnings.
* Output profile timings on appveyor and other TC.
* Remove passing around of StdWriters (can use global).
Small comment improvements.
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Work on #1059
The `%` operator in the Slang implementation had several issues, and this change tries to address some of them:
* Renamed most occurences of "mod" describing this operator to be "rem" for "remainder" to better match its semantics in HLSL
* Split the operator into distinct integer and floating-point variants (`IRem` and `FRem`) to simplify having different codegen for the two
* Added floating-point variants of `operator%` and `operator%=` to the stdlib.
* Added custom C++ codegen for `kIROp_FRem` such that it maps to the standard C/C++ `remainder()` function
* Added custom GLSL codegen so that `kIROp_FRem` maps to the GLSL `mod()` function (which isn't correct...)
* Added a test case to confirm that D3D11, D3D12, and CPU targets all agree on the definition of floating-point `%`
* Fixed `render-test-tool` to allow a negative integer in a `data=...` specification. This didn't end up being used in the final test, but still seems like a good fix.
* Added a customized baseline for the Vulkan flavor of that test to confirm that we are *not* compiling correctly to SPIR-V just yet
Addressing the correctness of the output for GLSL/SPIR-V will have to come as a later change given that the operation we want is not exposed directly by unextended GLSL.
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* WIP: Improving CPU performance/ABI
* Optionally output code on CPU for groupThreadID and groupID.
* Added ability to set compute dispatch size on command line for render-test.
Dispatch compute tests taking into account dispatch size.
Added test for semantics are working.
* Test using GroupRange.
* Fix problem with adding \n for externa diagnostic - to do it if there isn't a \n at the end. Change the ouput order (put result before) so last value is diagnostic string.
* Made GroupRange the default exposed CPU ABI entry point style.
Removed CPU_EXECUTE test style -as tested via the now cross platform render-test
* Split out execution from setup for execution to improve perf.
* For better code coverage/testing test all styles of CPU compute entry point.
* Improve documentation for ABI changes for CPU code.
Add 'expecting' to error message from review.
* Fix small typos.
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* WIP: Improving CPU performance/ABI
* Optionally output code on CPU for groupThreadID and groupID.
* Added ability to set compute dispatch size on command line for render-test.
Dispatch compute tests taking into account dispatch size.
Added test for semantics are working.
* Test using GroupRange.
* Fix problem with adding \n for externa diagnostic - to do it if there isn't a \n at the end. Change the ouput order (put result before) so last value is diagnostic string.
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* First pass of render-test refactor.
* Make window construction a function that can choose an implementation.
* Remove OpenGL as currently has windows dependency.
* Disable Vulkan as Renderer impl has dependency on windows.
* Pass Window in as parameter of 'update'.
* Add win-window.cpp as was missing.
* Fix warning on windows about signs during comparison.
* * Added mechanism to add random arrays as buffer inputs and select type
* Improved RenderGenerator to generate more types, and to be more careful around int32 ranges.
* Added support for security checks (for Visual Studio C++)
* Disable Execption handling being on by default when compiling kernels
* Added a 'Group' version of the entry point that will evaluate all threads in a group in a single call. In test code use this method if available.
* Added -compile-arg to be able to pass arguments to the compile within render-test
* Add documention for the _Group execution feature.
* Fix some typos in cpu-target.md
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* First pass of render-test refactor.
* Make window construction a function that can choose an implementation.
* Remove OpenGL as currently has windows dependency.
* Disable Vulkan as Renderer impl has dependency on windows.
* Pass Window in as parameter of 'update'.
* Add win-window.cpp as was missing.
* Fix warning on windows about signs during comparison.
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* Try to make x86 builds on x86 platforms (not the default for the os).
* Use c style include for stdint.h cos not found on x86 linux.
* Simplified x86 issue for linux.
* Fix typo.
* Remove the need for the shared-library category.
* Disable CPU tests on linux x86.
* Fix typo.
* Named test requirement methods so overloading not confusing (around flags, and SlangPassThroughType which are both 'int')
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