| Age | Commit message (Collapse) | Author |
|
Recent work that added support for translating DXR-style ray tracing shaders to work with OptiX seems to have accidentally applied its transformations even when compute shaders are translated for CUDA. As a result, compute entry points with `uniform` parameters at entry-point scope would be miscompiled to use OptiX calls that are not available for non-OptiX compiles.
This change fixes the relevant pass so that it correctly opts-out on compute entry points, and also unifies some pieces of code that were being shared between a few different IR passes but that had gotten copy-pasted for the OptiX case.
The fix has been confirmed by running relevant CUDA tests locally, but CUDA is still disabled in the default CI builds, so this change is not yet actively being tested to avoid further regression.
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* First integration of slang-pack.
* Use .os
* Add optional dependency support.
* Update github actions/scripts to update deps. aarch64 needs special handling.
* Upgrade to latest slang-pack for ignore-deps support.
* Fix linux build issues.
* Copying slang-llvm from dependencies.
* Add support for LLVM for host callable.
Added CodeGenTransitionMap.
* Remove hack to enable host callable for LLVM.
* Small improvements around transitions/downstream compiler.
* Fix typo in method name.
* Fix comment.
* Update visual studio project.
* Updage slang-llvm to include initialization fix.
* Fix handling extraction of clang version number.
* Fix some formatting problems.
* hack - to see if there is a version problem on CI.
* Remove progress on github action linux.
* Allow version lines to have text before 'prefix'.
* Update slang-binaries to include centos-7 premake binaries.
* Upgrade slang-binaries.
* Upgrade slang-binaries.
* Update slang binaries to have certificates.
* Fix handling of dependency path.
* Update README to include LLVM
Update building to include --deps and --arch
* Include slang-llvm in packages.
* Update building docs.
|
|
|
|
* `reinterpret` and 16-bit value packing.
* Update `half-texture` cross-compile test reference result.
* Revert inadvertent reformatting of slang-ir-inst-defs.h
Co-authored-by: Yong He <yhe@nvidia.com>
|
|
* Further implementation of SPIRV direct emit.
This change implements:
- Struct, Vector, Matrix and Unsized Array types.
- Basic arithmetic opcodes, vector construct, swizzle etc.
- getElementPtr, getElement, fieldAddress, extractField.
- SPIRV target intrinsics with SPIRV asm code in stdlib.
- RWStructuredBuffer and StructuredBuffer.
- Pointer storage class propagation.
- Control flow.
* Fix.
|
|
points (#1917)
* optix SBT record data can now be accessed using uniform parameters on ray tracing entry points
* Update slang-emit.cpp
|
|
* Work to mitigate SPIR-V bloat
SPIR-V is not an especially compact format, but some patterns in how Slang generates code and then runs it through `spirv-opt` lead to many redundant field-by-field copy operations being emitted. This change attempts to address some of the resulting bloat from the Slang side of things.
Note: experimentation shows that the bloat is less pronounced when running either *no* SPIR-V optimizations or *full* SPIR-V optimizations, so it is also likely that the bloat should be addressed by changing which `spirv-opt` passes the Slang compiler runs in default (`-O1`) builds. Such changes should come as a distinct pull request.
This change primarily does two things:
First, the code generation strategy for passing arguments to `out` and `inout` parameters has been changed. In the past, the compiler would *always* copy the argument value into a temporary, then pass the address of the temporary, and then write back the value after the call. The new code generation strategy attempts to identify when an argument value already has a simple address in memory and passes that address directly when possible. This eliminates many copy operations that occur before/after calls to functions with `out`/`inout` parameters.
Second, we introduce an IR optimization pass that detects call sites where the entire contents of a buffer (usually a constant buffer) is being passed to a callee function, such that many bytes are loaded and then passed even if only very few are used in the callee. The pass moves the load operations from the caller to a specialized version of the the callee where possible (e.g., when the constant buffer in question is a global shader parameter). Doing this eliminates another major category of copies.
Notes:
* The IR lowering logic is complicated by the fact that several kinds of l-values (values that are usable as the desitnation of assignment, or for `out`/`inout` arguments) are not actually addressable. An easy example is a non-contiguous swizzle like `v.xwz` on a `float4`, where the value occupies 12 bytes, but not 12 consecutive bytes with a single address. There are many more corner cases like that and the IR lowering pass carries a lot of complexity to deal with them. A more systematic overhaul is due some time soon.
* The IR representation of `out` and `inout` parameters deserves some careful scrutiny when making these kinds of changes. The official semantics of `inout` in HLSL has been "copy in copy out" (and `out` is just "copy out") which is observably different from any solution that passes in the address of an l-value directly. By making this change we are saying that Slang's semantics are not precisely those of legacy HLSL, and that our semantics for `inout` parameters are closer to those of `inout` in Swift or of a mutable borrow in Rust. In the Swift case the implementation can freely pass the underlying storage of an l-value or the address of a temporary, and valid programs may not observe the different. It is thus illegal to observe the value in a storage local while a mutation to that location is "in flight." All of this is way more detailed and technical than 99% of Slang users will ever care about, but importantly it gives us semantic cover to eliminate these copies in the IR, and also to emit output C++ code that implements `out` and `inout` as by-reference parameter passing.
* There was an exsting generic pass for specializing functions based on call sites that uses a "template method" style of pattern to customize its behavior. That pass needed to be generalized to handle this use case because it had previously operated on the assumption that the "desire" to specialize a callee function must be driven by the parameter declarations of that function, and not on the argument values passed in. The code has been slightly refactored to allow the policy for specialization to consider both parameters and arguments.
* Unsurprisingly, a bunch of the GLSL (and thus SPIR-V) generated has changed with this work, so several baseline `.slang.glsl` files needed to be updated.
* This change is incomplete in that it does not address broader cases of buffer loads, including both partial loads from constant buffers (just loading one field, but a field that uses a "large" structure type), and loads from multi-element buffers (a lot from a structured buffer where the element type is "large"). The main question in each of those cases is how to define how "large" a structure needs to be before we decide to try and sink loads into callee functions like this. In the worst case, sinking loads in this way may actually create *more* memory traffic (because the same values get loaded in multiple callee functions).
* fixup: run premake
* fixup: typo
|
|
* Update VS projects to 2019.
* Empty commit to trigger build
|
|
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* WIP Fxc as downstream compiler.
* First pass FXC downstream compiler working.
* GCC compile fix.
* Fix FXC parsing issue.
* Special case filesystem access.
* Use StringUtil getSlice.
* Fix isses with not emitting source for FXC.
* WIP on DXC.
* Small fixes for DXBC handling.
* Removed DXC from ParseDiagnosticUtil (can use generic)
Try to improve output for notes from DXC.
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* WIP Fxc as downstream compiler.
* First pass FXC downstream compiler working.
* GCC compile fix.
* Fix FXC parsing issue.
* Special case filesystem access.
* Use StringUtil getSlice.
* Fix isses with not emitting source for FXC.
* Small fixes for DXBC handling.
|
|
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Split out compiler-core initially with just slang-source-loc.cpp
* More lexer, name, token to compiler-core.
* Split Lexer and Core diagnostics.
* Move slang-file-system to core.
* Add slang-file-system to core.
* More DownstreamCompiler into compiler-core
* Fix typo.
* Add compiler-core to bootstrap proj.
* Small fixes to premake
* For linux try with compiler-core
* Remove compiler-core from examples.
* Added NameConventionUtil to compiler-core
* Add global function to CharUtil to *hopefully* avoid linking issue.
* Hack to make linkage of CharUtil work on linux.
|
|
|
|
* Enable building glslang from source
Somehow the slang-glslang binaries we are currently using aren't the most up-to-date ones, so I am enabling building glslang from source so that we can produce new binaries.
* fixup: run generators
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* MarkDown -> Markdown
slang-doc-mark-down -> slang-doc-markdown-writer
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Split out AST 'printing'.
* Replace listener with List<Section>
* Section -> Part.
* Kind -> Type Flags -> Kind for ASTPrinter::Part
* Improve comments around ASTPrinter.
* toString -> toText on Val derived types. toText appends to a StringBuilder.
* Added toSlice free function.
Added operator<< for Val derived types.
Use << where appropriate in doing toText.
* More work at mark down output.
* Fill in sourceloc for enum case.
Add more sophisticated location determination for EnumCase.
Refactored documentation output into DocMarkdownWriter.
* Improvements for sig output.
* Split up slang-doc into extractor and writer.
* WIP generic support for doc support.
* Some refactoring to make DocExtractor have potential to be used without Decls.
* Made doc extraction work without Decls.
* Output generic parameters.
* Add generic parameter extraction.
* Added writing variables.
* Add an interface test.
* Fix toArray.
* Support for extensions, and inheritance.
* Disable the doc test.
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Split out AST 'printing'.
* Replace listener with List<Section>
* Section -> Part.
* Kind -> Type Flags -> Kind for ASTPrinter::Part
* Improve comments around ASTPrinter.
* toString -> toText on Val derived types. toText appends to a StringBuilder.
* Added toSlice free function.
Added operator<< for Val derived types.
Use << where appropriate in doing toText.
* More work at mark down output.
* Fill in sourceloc for enum case.
Add more sophisticated location determination for EnumCase.
Refactored documentation output into DocMarkdownWriter.
* Improvements for sig output.
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* WIP extracting source documentation.
* WIP doc extraction.
* More stuff around doc markup extraction.
* More WIP around doc extraction.
* Fix some indexing issues.
* Initial doc extraction working.
* Renaming of types in markup extraction process.
* Extracting markup content.
Removing indenting.
Other fixes and improvements around document tools.
* WIP support for documentation system.
* Remove some commented out sections.
* Remove some comments that no longer apply.
* Improvements around SourceFile - such that more granularity around line ops.
Made some functionality explicitly work without source.
Improved Doc types nameing.
|
|
* Support `bit_cast` between complex types.
* Fix vs project file
* Fix clang build error
* fix
* fix
* Fix
* FIx
* Fix
* Fix
* Fix
* Fix
* Fix linux compile error
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* WIP diagnostics for line number output.
* Small param naming change
* Use x macro for pass through compile human name lookup/getting.
* WIP on parsing downstream compiler output.
* Split out parsing into ParseDiagnosticUtil.
Added test result of single line.
* Dump out the std output on fail to parse diagnostics.
* Change test type for syntax-error-intrinsic.slang be TEST not TEST_DIAGNOSTIC
* Use Index for StringUtil.
* WIP: First pass support for parsing Slang diagnostics.
* WIP Testing comparing with ParseDiagnosticUtil with previous ad-hoc mechanism.
* Use the new parsing mechanism for diagnostic comparisons.
* Fix layout on GLSL, doesn't have CR so runs into main.
* Split out switch on outputting intrinsic 'specials'.
Output code around intrinsic as emit - so that we get the appropriate indenting (and potentially other benefits).
* Improvements to diagnostics parsing.
Better error handling, and fallback handling.
Added ability to parse downstream compilers without a prefix.
Added ability to parse Slang with a prefix.
* DownstreamDiagnostic::Type -> Severity and related fixes.
* Small fixes around moving from DownstreamDiagnostic::Type -> Severity
* Fix handling of 'special intrinsic' expansion
* Split out the handling of intrinsic expansion into it's own type and files.
* Fixes to reading expected output - for SimpleLine test.
* Test using += to check #line output.
* A test around += and return.
* Small comment fixes.
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
|
|
This change also switches the build back to using prebuilt glslang binaries instead of always building from source.
|
|
* Update glslang to 11.1.0
This change pulls new versions of glslang, spirv-headers, and spirv-tools as submodules, and makes the necessary changes to other files in the repository to get it all building (at least on Windows).
This change also enables building of glslang from source by default, so that we can easily generate new binaries for inclusion in the `slang-binaries` repository.
* fixup: missing file
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Testing out use of lz4.
* Added ICompressionSystem, and LZ4 implementation.
* Add support for deflate compression.
Simplify compression interface - to make more easily work across apis.
* WIP on CompressedFileSystem.
* ImplicitDirectoryCollector
* SubStringIndexMap - > StringSliceIndexMap.
* WIP save stdlib in different containers.
* Support for different archive types for stdlib.
* Fix project.
* CompressedFileSystem -> ArchiveFileSystem.
Added CompressionSystemType::None
* Added ArchiveFileSystem
* Fix problem RiffFileSystem load withoug compression system.
* Test archive types.
Improve diagnostic message.
* Fix typo in testing file system archives.
* Split out archive detection.
* Fix gcc warning issue.
* Fix warning.
* RiffArchiveFileSystem -> RiffFileSystem
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
|
|
* Add first steps toward a "capability" system
We already have cases in the stdlib where we mark declarations as being specific to certain targets, e.g.:
```
// My ordinary function to add two numbers.
// Works everywhere.
//
void myFunc(int a, int b) { return a + b; }
// On the "coolgpu" target, we can use a secret intrinsic
// that adds numbers even faster!
//
__specialized_for_target(coolgpu)
void myFunc(int a, int b) { return __secretIntrinsic(a, b); }
```
The existing logic for dealing with these modifiers (`__specialized_for_target` and `__target_intrinsic`) was almost entirely string-based. We would turn the chosen compilation target into a string, and then use that to try and search for the "best" definition of a function at a few steps:
* During IR linking, we always pick one definition of an `[import]`ed function, and that definition will be the one with the "best" target-specialization modifier (if any)
* During final code generation, we always look up the "best" target-intrinsic modifier, and use it as the template for the code we output.
This change preserves the basic flow there, but replaces the ad hoc string-based logic with something a bit more principled, in terms of a new `CapabilitySet` type.
A `CapabilitySet` represents a set of zero or more atomic features (here represented as `CapabilityAtom`s). What a `CapabilitySet` means depends on how and where it is used:
* A compilation target implies a `CapabilitySet` where the contents of the set are the features the target *supports*.
* A `CapabilitySet` attached to a declaration (or a modifier on that declaration) describes a set of feature that declaration *requires*.
The current implementation of `CapabilitySet` is wasteful and inefficient, but that is something we can iterate on over time.
In practice, most of the current code only ever uses capability sets that are either empty (because they represent a function with no specific requirements) or singleton (because they represent asingle atomic capability like "is a GLSL target," "is an HLSL target," etc.).
The main goal here was to put in the skeleton of a new system, including some of the features it might need down the line, and then to leave changes that eventually use the greater flexibility for later. Eventually, the capability system should encompass:
* Differences between shader model versions, GLSL versions, SPIR-V versions, etc. (currently tracked with other modifiers)
* Optional extensions, and functions that are made available only with certain extensions (currently tracked with other modifiers)
* Front-end checking that the call graph of a program doesn't violate any capability-requirements (e.g., having a GLSL+HLSL portable function call a GLSL-only subroutine)
* Hypothetically we can also try to fold stage-specific (vertex-only, fragment-only, etc.) functions into this system, but doing so would require more linker cleverness if we allow overloading on stages (since we might have to clone a caller if it calls through to a callee with multiple stage-specific versions)
One important complication that the system has to deal with just because of the "do what I mean" nature of the current compiler is that somethings a current Slang user might compile for target X and specify version N, but then use a function that actually requires version N+1 of that target. Currently the Slang compiler silently "upgrades" the version(s) used by user code in these cases, because it is often what users want in cross-compilation scenarios.
Dealing with the "silent upgrade" situation requires us to be a little careful and sometimes pick a "best" capability set that doesn't appear to be supported on our target. Refining that system and potentially getting rid of the "do what I mean" behavior over time could be a goal for future changes.
* fixup: handle case where value is incompatible during linking
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Move reflection to reflection-api.
* Slight reorg to pull out potentially Slang internal functions from the reflection API impls.
* Remove visual studio projects
* Fix for slang-binaries copy.
* Add the visual studio projects in build/visual-studio
* Remove miniz project.
* Differentiate the linePath from the filePath.
* Improve comment in premake5.lua + to kick of CI.
* Kick CI.
* Use COM compile request for calls to functions inside api-less-slang.
Add static-slang project.
* Fix const typo issue.
* Don't include 'core' link in 'api-less-slang'
* Removed static-slang lib causes problems on linux with linking.
Embed Slang stdlib
Added StaticBlob
Added dumpSourceBytes
Use ConstArrayView for the archive.
At startup allow loading of zip with stdlib.
Made -save-stdlib -load-stdlib take a name
Added '-save-stdlib-bin-source' to save out serialized stdlib as source.
* Ability enable/disable stdlib embedding.
* Fix problem with moduleDecl not having module pointer set when serialized in.
* Set of debugdir for slang-test and examples.
* Add slang-stdlib-api.cpp
* Update slang filters for VS.
* Try to use pic, and -mcmodel=medium
* Some more efforts ot make premake work.
* WIP premake5.lua from previously working version.
* Remove api-less-slang project.
* Disable dllexport on gcc/clang.
* Embed via slangc-bootstrap.
* Fix slang-profile. Always compiles without stdlib.
* Use pic "On"
* Remove slangc-bootstrap and embed-stdlib-generator if embedding not required. Make bootstrap run the generators.
* Improve comments in premake5.lua.
Kick off another CI build.
* Remove generation of stdlib source from std-lib-serialize.slang
|
|
* #include an absolute path didn't work - because paths were taken to always be relative.
* Move reflection to reflection-api.
* Slight reorg to pull out potentially Slang internal functions from the reflection API impls.
* Remove visual studio projects
* Fix for slang-binaries copy.
* Add the visual studio projects in build/visual-studio
* Remove miniz project.
* Differentiate the linePath from the filePath.
* Improve comment in premake5.lua + to kick of CI.
* Kick CI.
|