| Commit message (Collapse) | Author | Age |
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(#8603)
This change achieves link-time type resolution with a different
mechanism.
For `extern struct Foo : IFoo = FooImpl;`,
instead of synthesizing a wrapper type `Foo` that has a `FooImpl inner`
field and dispatches all interface method calls to `inner.method()`,
this PR completely removes this synthesis step, and instead just lower
such `extern`/`export` types as `IRSymbolAlias` instructions that is
just a reference to the type being wrapped.
Then we extend the linker logic to clone the referenced symbol instead
of the SymbolAlias insts itself during linking.
By doing so, we greatly simply the logic need to support link-time
types, and achieves higher robustness by not having to deal with many
AST synthesis scenarios.
Closes #8554.
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
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Note that while this change touched a large numer of files, there are no
changes to functionality being made here. The only things being done are
renaming various symbols and, in a few cases, updating or adding
comments for consistency with the new names.
The core of the naming changes are:
* Most things named to refer to `OutType` (e.g., `IROutType`,
`IRBuilder::getOutType()`, etc.) have been consistently renamed to refer
to `OutParamType`, to emphasize that the relevant AST/IR node types are
only intended for use to represent `out` parameters.
* The same change as described above for `OutType` is also made for
`RefType`, which becomes `RefParamType` in most cases. One mess that
this exposes is the way that the `ExplicitRef<T>` type in the core
module currently lowers to `IRRefParamType`. This change sticks to the
rule of not making functional changes, so that mess is left as-is for
now.
* Names referring to `InOutType` have been changed to instead refer to
`BorrowInOutType`. The intention with this naming change is to emphasize
that the Slang rules for `inout` are semantically those of a borrow (or
at least our interpretation of what a borrow means).
* Names referring to `ConstRefType` have been changed to instead refer
to `BorrowInType`. This change starts work on clarifying that the
existing `__constref` modifier was never intended to be a read-only
analogue of `__ref`, and instead is the input-only analogue of `inout`.
* The `ParameterDirection` enum type has been changed to
`ParamPassingMode`, to reflect the fact that the concept of "direction"
fails to capture what is actually being encoded, particularly once we
have modes beyond simple `in`/`out`/`inout`.
While this change does not alter behavior in any case (the user-exposed
Slang language is unchanged), it is intended to set up subsequence
changes that will work to make the handling of these types in the
compiler more nuanced and correct. Breaking this part of the change out
separately is primarily motivated by a desire to minimize the effort for
reviewers.
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
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debugging (#8192)
fixes: #8188
Changes:
* Fix Indentation
* Add a visualizer for `NodeBase` based on changes to `slang-fiddle`
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
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from API (#8119)
Closes #8110.
Closes #8011.
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* Emit special diagnostic for invalid pointer taking operations
* Update source/slang/slang-diagnostic-defs.h
Co-authored-by: ArielG-NV <159081215+ArielG-NV@users.noreply.github.com>
* Add OperatorAddressOf KnownBuiltin modifier
* update error message for non-l-value assignment
* update the diagnostics in the tests
* Use enum based KnownBuiltinDeclName
* format code (#7772)
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
---------
Co-authored-by: ArielG-NV <159081215+ArielG-NV@users.noreply.github.com>
Co-authored-by: slangbot <ellieh+slangbot@nvidia.com>
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
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* Initial plan
* Implement enum-based KnownBuiltin system to replace string comparisons
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Add test for enum-based KnownBuiltin system and verify functionality
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Implement enum-based KnownBuiltin system with direct integer values
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Fix IntVal access and update tests for new enum-based KnownBuiltin system
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Replace hardcoded KnownBuiltin integers with preprocessor enum syntax
- Updated all KnownBuiltin attributes to use $( (int)KnownBuiltinDeclName::EnumValue) syntax
- Added space between parentheses to avoid preprocessor bug: $( (int) instead of $((int)
- Updated both core.meta.slang and hlsl.meta.slang files
- Eliminates preprocessor-time integer conversion, baking enum values directly into meta files
- Maintains same functionality while using type-safe enum references
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Fix IDifferentiablePtr KnownBuiltin mapping regression
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Remove unused IDifferentiablePtrType enum case from KnownBuiltinDeclName
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Clean up temporary AST dump files from testing
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
* Replace hardcoded integer with descriptive constant in KnownBuiltin test
Replace the hardcoded [KnownBuiltin(0)] with a descriptive named constant
GEOMETRY_STREAM_APPEND_BUILTIN to improve code readability and maintainability.
The test now clearly indicates which builtin enum value is being tested.
🤖 Generated with [Claude Code](https://claude.ai/code)
Co-authored-by: Gangzheng Tong <gtong-nv@users.noreply.github.com>
---------
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: csyonghe <2652293+csyonghe@users.noreply.github.com>
Co-authored-by: github-actions[bot] <41898282+github-actions[bot]@users.noreply.github.com>
Co-authored-by: Gangzheng Tong <gtong-nv@users.noreply.github.com>
Co-authored-by: Gangzheng Tong <tonggangzheng@gmail.com>
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* Add fkYAML submodule
* Generate slang-ir-inst-defs.h from slang-ir-inst-defs.yaml
* generate ir-inst-defs.h
* neaten things
* neaten inst def parser
* add rapidyaml submodule
* remove fkyaml
* remove fkyaml submodule
* remove use of ir-inst-defs.h
* format and warnings
* fix wasm build
* tidy
* remove rapidyaml
* Extend fiddle to allow custom splices in more places
* Use lua to describe ir insts
* fix
* neaten
* neaten
* neaten
* spelling
* neaten
* comment comment out assert
* merge
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* Parse optional witness syntax
* Allow failing optional constraint
* Make `is` work with optional constraint
* Allow using optional constraint in checked if statements
* Fix tests
* Make it work with structs
* Fix MSVC build error
* Disallow using `as` with optional constraints
* Update test to match split is/as errors
* Add tests
* Fix uninitialized variables in tests
* Add tests of incorrect uses & fix related bugs
* Mention optional constraints in docs
* format code
* Fix type unification with NoneWitness
* Fix formatting
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
Co-authored-by: Nathan V. Morrical <natemorrical@gmail.com>
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Note that this change does not actually *enable* on-demand deserialization of ASTs, because doing so is incompatible with the current compiler architecture where we have both an `ASTBuilder` and a `SharedASTBuilder`, and there are important invariants about how all AST nodes related to the core module must be created before those of any module using the core module.
Instead, this change simply adds the *infrastructure* for on-demand deserialization, and ensures that those code paths get used at runtime, but actually "demands" all of the nodes in a given serialized AST immediately as part of the deserialization process.
Important notes about the implementation approach:
* PR #7242 ensured that all of the code accessing the direct member declarations of a `ContainerDecl` went through a small(-ish) set of accessor methods. This change takes advantage of that work by further abstracting the storage of the direct member declarations out in a type, `ContainerDeclDirectMemberDecls`, which makes it easy to add custom serialization logic for just that type.
* The `ContainerDeclDirectMemberDecls` type also stores two pointers (one a `RefPtr` and the other a plain pointer) that are only used in the case where the members of a given `ContainerDecl` are being accessed through on-demand deserialization. This can be queried using the `isUsingOnDemandDeserialization()` method but any code accessing a `ContainerDecl` through the intended public API should never need to care about that detail.
* Many of the accessor methods that were added in PR #7242 now branch on whether `isUsingOnDemandDeserialization()` is set. The normal code path is unchanged, and the implementation logic for the on-demand-deserialization case is largely held in `slang-serialize-ast.cpp`, to keep it close to the definitions of the serialized data structures themselves.
* A few types in the `slang-ast-*.h` headers have had `FIDDLE()` annotations added to them, so that they can be used to synthesize some of the serialization logic that was previously hand-written.
* The `_registerBuiltinDeclsRec()` function (which is used to scan the built-in module ASTs for the various "magic" declarations that the `SharedASTBuilder` needs to know about) was factored a bit to support the way that registration needs to behave differently in the case of loading a serialized module (if we kept using the existing recursive search, then it would force every declaration in the core module to be loaded right away). The new `_collectBuiltinDeclsThatNeedRegistrationRec()` function mirrors the overall traversal pattern to produce a flat list that gets included in the serialized AST module. Note in particular that we no longer call `registerBuiltinDecls()` from within `_readBuiltinModule()`.
* The interface of the `Module` type was slightly expanded so that there is a more complete API for accessing the declarations exported from the module. Previously they could only be queried by their mangled name, but the new API also allows the entire list to be iterated over. The `ensureLookupAcceleratorBuilt()` method factors out the logic for building those data structures for a module. Note that in the case where on-demand deserialization is being used for a module, the `findExportedDeclByMandledName()` query will use serialized data directly, rather than build the lookup accelerators as C++ data structures (this is required if we are to avoid immediately deserializing all of the (exported) declarations in the core module as soon as it is loaded).
* A few methods related to loading serialized modules (e.g., `loadSerializedModule()`) have been updated so that along with a pointer to the serialized `ModuleChunk` (which, for those who aren't aware, is a pointer directly into the serialized bytes of the module file), they receive an `ISlangBlob` that refers to the entire blob holding the serialized data (which the `ModuleChunk` is part of). Passing this pointer down allows code running under these methods to retain a reference-counted pointer to the blob to stop the memory of the serialized module from being released until deserialization has been completed.
* The data types defined in `slang-fossil.h` have been overhauled significantly:
* The most important change that is relevant to this work is the introduction of the `Fossilized<T>` template, which is used to statically map a "live" C++ type `T` to its binary fossilized representation. The `slang-fossil.h` file provides infrastructure allowing `Fossilized<T>` to be specialized for user-defined types, and also provides the necessary mappings for the core types like strings, arrays, and dictionaries.
* A key point is that in C++ code, one can take a value of some type `Foo`, serialize it using a `Fossil::SerialWriter`, get a pointer to that serialized data, and then directly cast it to a `Fossilized<Foo>*` and navigate the serialized data directly (without deserializing it back into a `Foo`). For that process to work, any specialization of `Fossilized<T>` must be sure to match the layout that will be produced by the `serialize()` implementation for `T`, when writing to a `Fossil::SerialWriter`.
* Another key change in the public interface of `slang-fossil.h` is that dynamically-typed traversal of the data used to be handled just with `FossilizedValRef`, but now uses a few different types. The `Fossil::ValRef<T>` and `Fossil::AnyValRef` types are used to capture the use cases that want reference-like behavior (basically a `Fossil::ValRef<T>` can be thought of as sort of like a `T&`), while `Fossil::ValPtr<T>` and `Fossil::AnyValPtr` are used for cases that want pointer like behavior (akin to `T*`).
* Then there are related changes in `slang-serialize-fossil.*`:
* The implementation of `Fossil::SerialReader` has been changed to use `Fossil::AnyValPtr` in most places where it formerly used `FossilizedValRef`. Using pointers (that can be null) instead of a weird kind of pseudo-reference (that could still be null) to traverse things was making the code harder to follow than it ought to be, in terms of understanding the levels of indirection in various places.
* Some of the state that was previously in `Fossil::SerialReader` has been split into `Fossil::ReadContext`. This type allows multiple `Fossil::SerialReader`s to be created to read from the same serialized blob(s), while maintaining a persistent mapping from fossilized data pointers to live object pointers. The `ReadContext` also maintains the work list of deferred deserialization actions waiting to be performed, and only flushes that list when the last currently-open `SerialReader` is about to go out of scope.
* In order to support the split of `Fossil::SerialReader` described above (and also to clean up something that didn't quite feel right in the original serialization design) the base serialization framework in `slang-serialize.h` has been tweaked so that a `Serializer` now wraps *two* pointers instead of just one. The first pointer continues to be an implementation of `ISerializerImpl`, which handles the actual reading/writing of data, while the other pointer is an explicit "context" pointer for operations that need additional user-defined context.
* Similar to the changes made to the accessors for direct member declarations in a `ContainerDecl`, the `Module::findExportedDeclByMangledName()` method was updated to conditionally execute a different code path in the case of a module that has been loaded from serialized data.
* Some improvements have been made to the fiddle tool:
* Most importantly, the error-handling logic around Lua script execution has been cleaned up to better match correct Lua idiom. Native functions exposed to the Lua scripts have been changed to just use `lua_call` instead of `lua_pcall`, so rather than attempt to intercept Lua errors they will just automatically propagate them.
* All Lua-related errors are caught at the top level, and reported in a way that uses the source location of the fiddle template that was being evaluated when the error was raised. In most cases, a Lua error should be accompanied by a stack trace of the Lua evluation state. The file paths and line numbers given should be accurate, but aren't directly double-clickable in the Visual Studio output panel, because they use a different format (a good future change might be to process the Lua stack trace and rewrite it into a format that is better for our needs).
* Fixed a subtle bug where having "raw" content (parts of the template that should neither be evaluated nor emitted into the output) that consisted of only whitespace could result in a template being translated to invalid Lua code.
* The bulk of the change is, unsurprisingly, in `slang-serialize-ast.cpp`.
* This file has been refactored enough to look like a complete rewrite. A lot of work has been put into comments that describe the overall approach being taken, so hopefully it can be understood even by somebody who wasn't familiar with the previous code. Some of these are just plain cleanups, rather than being directly related to on-demand serialization.
* Where possible, the code for reading and writing types that needed custom serialization has been moved so that the read/write functions are next to one another, making it easier to visually confirm that the serialized representations match on the read and write sides.
* Where possible, the serialization logic for all types (not just the AST nodes, as was the case before) is being generated via fiddle.
* Rather than just defining `serialize()` overloads for each of the relevant types, the code now defines `Fossilized<...>` specializations for these types as well, to enable statically-typed in-memory traversal of the serialized data. Note, however, that for the most part the `Fossilized<...>` representation types are *not* being used by the code (really only the `ASTModuleInfo` and `ContainerDeclDirectMemberDeclsInfo` types are traversed directly). This can be considered more as work to prove out the design of the `Fossil<...>` template approach, and it may or may not end up being relevant in the future.
* The trivial bit of work to enable on-demand deserialization is in `ASTSerialReadContext::handleContainerDeclDirectMemberDecls()` where, rather than recursively reading the contained declarations, the method effectively just grabs the current cursor of the `Fossil::SerialReader` (which is pointed into the fossilized data) and stashes it into the `ContainerDeclDirectMemberDecls`, along with a `RefPtr` to the `ASTSerialReadContext` itself. Those stashed pointers are what enables the accessors on `ContaienrDeclDirectMemberDecls` to look up information on-demand.
* The more interesting bits of the approach mostly come at the end of the file, where the accessor operations for on-demand deserialization are implemented. Once all the relevant work has been done to write the data structures, and produce `Fossilized<...>` types with the right layout, the work itself may seem almost trivial: a little bit of array iteration, and a little bit of binary-search lookup.
* As a reminder, all of this infrastructure for on-demand deserialization is now in place and able to be invoked by the rest of the compiler, but declarations are currently all being loaded eagerly. The `SLANG_DISABLE_ON_DEMAND_AST_DESERIALIZATION` macro is being used to enable a small bit of extra logic in `ASTSerialReadContext::_cleanUpASTNode` so that the "cleanup" on a just-deserialized `ContainerDecl` includes eagerly querying its list of direct member declarations, which will cause them to be recursively deserialized.
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Most of what this change does is straightforward: take all the places in the code that used to operate directly on `ContainerDecl::members` and related fields, and instead have them call into a smaller set of accessor methods defined on `ContainerDecl`.
The primary motivation for making this change is that in order to implement on-demand loading of members from serialized AST modules, we need a way to identify and intercept the "demand" for those members.
On-demand loading benefits from having all accesses to the members of a `ContainerDecl` be as narrow as possible.
If a part of the code only need a member at a specific index, it should say so.
If it only needs access to members with a specific name, or a given subclass of `Decl`, then it should say so.
A secondary motivation for this change is that there have recently been several changes that added complexity and special cases by introducing code that operated on (and *mutated*) the member list of a container decl in ways that the existing code had never done before.
Any code that mutates the member list of a `ContainerDecl` needs to be sure to not disrupt the invariants that the lookup acceleration structures currently rely on.
One of the recent changes added a declaration-to-index map to the set of acceleration structures (with different validation/invalidation behavior than the others...) while other recent changes would remove or insert declarations in ways that could change the indices of other declarations in the same container.
It is not clear if any of these pieces of code were aware of the others, and the invariants that might be expected or broken along the way.
This change bottlenecks the vast majority of accesses to the members of a `ContainerDecl` through the following operations:
* Getting a `List` of all of the direct member declarations of a container
* Get the number of direct member declarations, and accessing them by index.
* Looking up the list of direct member declarations with a given name.
* Adding a new direct member declaration to the end of the list.
Some other operations are layered on top of those (e.g., getting a list of all the direct member declarations of a given C++ class).
These layered operations are still centralized on the `ContainerDecl`, with the intention that we *can* change them to be non-layered implementations if we ever need to for performance (e.g., by building a lookup structure for finding member declarations by their type).
The exceptional cases of access/mutation on the direct members of a `ContainerDecl` have also been encapsulated, but rather than expose what would risk appearing like general-purpose accessors (e.g., `removeDecl(d)`, `setDecl(index)`, etc.), these operations have been explicitly named after the specific use case that they serve in the codebase today, to discourage others from using them for more kinds of operations we'd rather not support.
These operations have also been given parameter signatures that match their use cases, to make it so that even somebody determined to abuse them would have to invent suitable arguments out of thin air.
In the case of the declaration-to-index mapping, this change eliminates that acceleration structure, in favor or slightly more complicated (and possibly inefficient, yes) code at the use site.
Over time, it would be good to closely scrutinize each of the use cases that requires more complicated interaction with the members of a `ContainerDecl`, to see whether any of them can be reframed in terms of the more basic operations, or if there is some clean abstraction we can introduce to make operations that mutate the member list feel like... hacky.
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The `SLANG_UNREFLECTED` macro has been completely meaningless since we switched away from the old AST serialization/reflection approach, so the lingering uses of it in the code as pointless at best and misleading/confusing at worst.
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This change takes the new approach to serialization that was used for the AST and generalizes it in a few ways:
* The new approach is no longer tangled up with the RIFF format.
The serialization system supports multiple different implementations of the underlying format.
The existing RIFF format is now supported as one back-end, but support for others will follow in subsequent changes.
* The new approach is no longer deeply specialized to AST serialization.
The old code had things like serialization for `List`s and `Dictionary`s, but it was embedded inside the `AST{Encoding|Decoding}Context`, and thus couldn't be leveraged for other serialization tasks.
This change factors out a completely AST-independent `Serializer` implementation, with an `ASTSerializer` layered on top of it to provide the additional context needed.
* There is less duplication of code between reading and writing of serialized data.
The old code had both the `ASTEncodingContext` and `ASTDecodingContext`, with serialization logic for most types being implemented in both, but with the constraint that those implementations needed to be kept in sync to avoid serialization-related runtime failures.
A key property of the revamped approach is that a single `serialize()` method for a type implements both the reading and writing directions of serialization.
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* A new approach to AST serialization
This change completely overhauls the way that AST nodes are being serialized, and the offline source-code generation steps that enable that serialization.
In practice, this ends up being a complete overhaul of the way that *modules* are being serialized (not just the AST part), although things like the serialization format for the Slang IR and for source locations are not affected.
The rest of this commit message is broken down in to sections, in an attempt to help guide anybody looking at the code in how to make sense of all the changes.
The Old C++ Extractor
---------------------
AST serialization used to be driven by information scraped using the `slang-cpp-extractor` tool, which did an ad hoc parse of the C++ declarations of the AST node types and then generated a set of "X macros" that could be for macro-based code generation within the rest of the compiler.
While the existing approach was functional, it wasn't easy to understand or maintain, and it has been getting in the way of forward progress on other features we'd like to work on in the language and compiler.
This change removes the `slang-cpp-extractor` tool entirely.
Marking Up the AST Declarations
-------------------------------
The most notable change that contributors to the compiler may notice is the large number of invocations of a macro `FIDDLE()` on the declarations of the AST node types.
The basic idea is that only declarations (namespaces, types, fields) that are preceded by `FIDDLE()` are visible to the code generator tool.
So if somebody is working with the AST and wondering why a new node type isn't working, or why a field they added isn't being serialized correctly, it is probably because they need to add `FIDDLE()` in front of it.
Generating the Boilerplate Code
-------------------------------
The file `slang-ast-boilerplate.cpp` provides a good example of how the information extracted from the marked-up AST declarations gets used.
In that file, the `FIDDLE TEMPLATE` construct is used to generate type information for each of the AST node types.
Similar logic is used in `slang-ast-forward-declarations.h` to generate the declaration of the `ASTNodeType` enumeration, and forward-declare all the AST node classes.
For many parts of the code, simply including that file replaces the need for the old `slang-generated-*.h` files.
Replacing Visitors and Related Logic
------------------------------------
The old visitor types for the AST used the macros that were generated by `slang-cpp-extractor`, so something new was needed to replace them.
The same goes for the `SLANG_AST_NODE_VIRTUAL_CALL` macros.
The core of the solution implemented here is in `slang-ast-dispatch.h`.
Given a "dispatchable" AST node type (say, `Expr`), a call like:
```
ASTNodeDispatcher<Expr,R>(expr, [&](auto e) { return doSomething(e); })
```
is an expression of type `R`, which does the equivalent of something like:
```
switch(expr->getTag())
{
case ASTNodeType::VarExpr: return doSomething(static_cast<VarExpr*>(expr));
// ...
}
```
The `SLANG_AST_NODE_VIRTUAL_CALL` macro is now implemented in terms of `ASTNodeDispatcher`.
The implementation of the visitor types is more involved.
The code in this change retains some of the macro names from the original version, just to try and make the parallels more clear.
The visitor types are all implemented on top of the `ASTNodeDispatcher` approach, and use `FIDDLE TEMPLATE` to generate all the boilerplate `visit*()` method declarations.
Refactoring of `Linkage` Module Loading
---------------------------------------
Needing to revisit all the places where modules get deserialized made it clear that there is a lot of complexity and apparent duplication in the core routines on the `Linkage` that get used for loading modules.
This change tries to clean up some of that logic, but it is worth noting that there are two legacy features that get in the way of making things as clean as they should be:
* The `LoadedModuleDictionary` type that gets passed around a lot exists entirely to handle the corner case where somebody uses the Slang API to perform a compilation with multiple `TranslationUnitRequest`s in the same `FrontEndCompileRequest`, and one of the translation units `import`s the module defined by another of the translation units.
* There are a lot of special-case behaviors and routines entirely there to support the `ModuleLibrary` feature, although that feature should be considered deprecated (or at least subject to getting entirely re-designed down the line).
The basic idea of the cleanup is that all of the (non-deprecated) ways load a module from a serialized binary, or compile one from source should now bottleneck through `loadModuleImpl`, which then bifurcates into `loadSourceModuleImpl` for the compilation case and `loadBinaryModuleImpl` for the deserialization case.
High-Level Serialization Approach
---------------------------------
The old serialization logic used the [RIFF](https://en.wikipedia.org/wiki/Resource_Interchange_File_Format) format to encode the high-level structure of things, and this change retains that usage (and actually doubles down on the RIFF usage).
The old serialization system relied on the idea that for any given type `Foo` that wants to support serialization, there should be something like a `SerialFooData` type in C++, that can represent the state of a `Foo`, and then the actual serialization applied to that `SerialFooData`. This means that in most cases there are four pieces of code written:
* During serialization:
* Copying the data of a `Foo` in memory over to a `SerialFooData` in memory
* Writing the state of a `SerialFooData` into the serialized data stream
* During deserialization:
* Reading the state of a `SerialFooData` from a serialized data stream
* Copying the data of the `SerialFooData` in memory over to a `Foo`
The new logic gets rid of the intermediate `SerialFooData`.
In the serialization direction, we take a `Foo` and write it to the `RIFFContainer` directly, or using some other utilities layered on top of it.
In the deserialization direction, we have additional flexibility. Given a `RIFFContainer::Chunk*` that represents a serialized `Foo`, we often navigate through the in-memory representation of the RIFF data to get to the parts of the serialized value that we actually want/need, without needing to deserialize the entire `Foo`.
To support this kind of operation, this change introduces a few helper types like `ContainerChunkRef` an `ModuleChunkRef`, that are little more than typed wrappers around a `RIFFContainer::Chunk*`.
The Module "Container" Part
---------------------------
A serialized `Module` is encoded as a RIFF chunk, using logic in `slang-serialize-container.cpp` - both before and after this change.
This change reorganizes a lot of the code in that file, to account for the way that eliminating the intermediate `SerialContainerData` type streamlines the overall task of writing out the parts of the module.
In the deserialization logic... there isn't really much to do in `slang-serialize-container.cpp`. Most of the logic in `slang.cpp` and `slang-module-library.cpp` that pertains to deserializing modules uses the `ModuleChunkRef`-based approach, and simply extracts the pieces of the serialized module that it needs.
The Actual Serialization of the AST
-----------------------------------
The actual AST serialization logic is in `slang-serialize-ast.cpp`.
The basic approach in both the writing and reading directions is:
* Use the `FIDDLE TEMPLATE` system to generate a set of functions, one for each AST node type, that recursively invoke the read/write logic on each field of that node (after recursively invoking the case for its direct superclass)
* Use the `ASTNodeDispatcher` system to dispatch out to those functions whene reading or writing anything derived from `NodeBase`
* For now, handle all types *not* derived from `NodeBase` by hand.
There's a lot of room for improvement around that last item: it should be just as easy to generate the serialization and deserialization logic for other types that don't inherit from `NodeBase`, but the current change tries to err on the side of making the logic as explicit and simplistic as possible, rather than trying to get too clever too soon.
The actual serialization *format* used for the AST is almost comically simplistic: the code uses hierarchical RIFF chunks to emulate a JSON-like structure. This is a very wasteful representation (e.g., a `bool` or a null pointer each take up *8 bytes*), but the goal for now is to start with the simplest thing that could possibly work, and only add more cleverness once we are sure it won't get in the way of important future improvements (like lazy/on-demand deserialization or IR and AST, to improve compiler startup times).
The files `slang-serialize.{h,cpp}` have been co-opted to define a new pair of types `Encoder` and `Decoder` that are used for a more-or-less stream-oriented way or reading or writing RIFF chunks for the JSON-like structure.
Almost everything related to the actual AST serialization could do with a cleanup pass, and some time spent on picking good/better names for everything.
Smaller Stuff
-------------
* Cleaned up a lot of code that was using bare `ASTNodeType` or the extractor's `ReflectClassInfo` type to consistently use `SyntaxClass`.
* Fixed an apparent bug in how the destination-driven code genarator was handling `TryExpr`s
* Fixed an apparent bug in how the GLSL legalization pass was handling translation of certain `SV_*` semantics.
* format code
* fixup: template errors caught by non-VS compilers
* format code
* fixup: more template errors
* fixup: more stuff VS didn't catch
* fixup: it's amazing VS doesn't catch these...
* fixup: yet more template stuff VS ignores
* fixup: more VS template nonsense
* fixup: unreachable return macro usage
* fixup: more unreacable returns
* fixup: unused parameter
* fixup: strict aliasing
* fixup: allow missing entry point list chunk
* fixup: wasm build script
* fixup: AST changes since this PR was created
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
Co-authored-by: Yong He <yonghe@outlook.com>
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* Simplify implicit cast ctors for vector & matrix.
* Fix formatting.
* Fix tests.
* Fix Falcor test.
* Mark __builtin_cast as internal.
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* Fix modifier parsing.
* Fix.
* Fix.
* Fix.
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* Use two-stage parsing to disambiguate generic app and comparison.
* Typo fix.
* Update doc.
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* Support cooperative vector without Vulkan-header update
Adding a Slang support for cooperative vector.
But this commit doesn't have Vulkan-header update.
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Co-authored-by: Yong He <yonghe@outlook.com>
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* Fix cyclic lookups with UnscopedEnums
* Add test with multiple unscoped enums with explicit types
---------
Co-authored-by: Yong He <yonghe@outlook.com>
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(#5964)
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* Embed core module in wasm build.
* format code
* add uintptr_t case.
---------
Co-authored-by: slangbot <186143334+slangbot@users.noreply.github.com>
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* format
* Minor test fixes
* enable checking cpp format in ci
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* Clang-format excludes
* Add .clang-format
* Don't clang-format in external
* Missing includes and forward declarations
* Replace wonky include-once macro name
* neaten include naming
* Add clang-format to formatting script
* Add xargs and diff to required binaries
* add clang-format to ci formatting check
* Add max version check to formatting script
* temporarily disable checking formatting for cpp files
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* initial diff-ref-type interface
* Initial support for `IDifferentiablePtrType`
* Fix unused vars
* More tests + fix switch case fallthrough.
* Update slang-ir-autodiff.cpp
* Update diff-ptr-type-loop.slang
* Add optimization to allow more complex pair types
* Update slang-ir-autodiff-primal-hoist.cpp
* Update diff-ptr-type-loop.slang
* Update slang-ir-autodiff-primal-hoist.cpp
* More fixes to address reviews
* Update slang-check-expr.cpp
* Optimizations + rename `differentiableRefInterfaceType` -> `differentiablePtrInterfaceType`
* Move pair logic to ir-builder, unify the type dictionaries.
---------
Co-authored-by: Yong He <yonghe@outlook.com>
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* Support `where` clause.
* Fix.
* Fix parser.
* Enhance test to cover traditional __generic syntax.
* Update user-guide.
* Support `where` clause on associatedtype.
* Fix.
* Put in more comments.
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* Tuple swizzling and element access.
* Update proposal status.
* Cleanup.
* Fix merrge error.
* Address review.
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* Move the file public header files to `include` dir
Close the issue (#4635).
Move the following headers files to a `include` dir
located at root dir of slang repo:
slang-com-helper.h -> include/slang-com-helper.h
slang-com-ptr.h -> include/slang-com-ptr.h
slang-gfx.h -> include/slang-gfx.h
slang.h -> include/slang.h
Change cmake/SlangTarget.cmake to add include path to
every target, and change the source file to use
"#include <slang.h>" to include the public headers.
The source code update is by the script like follow:
```
fileNames_slang=$(grep -r "\".*slang\.h\"" source/ -l)
for fileName in "${fileNames_slang[@]}"
do
echo "$fileName"
sed -i "s/\".*slang\.h\"/\"slang\.h\"/" $fileName
done
```
* Fix the test issues
* Fix cpu test issues by adding include seach path
* Update cmake to not add include path for every target
Also change "#include <slang.h>" to "include "slang.h" " to
make the coding style consistent with other slang code.
* Change public include to private include for unit-test and slang-glslang
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* capability upgrade warning/error
adjusted implementation + tests to support a warning/error if capabilities are implicitly upgraded and test accordingly.
* add glsl profile caps
* add GLSL and HLSL capabilities to the associated capability
* syntax error in capdef
* only error if user explicitly enables capabilities
1. changed testing infrastructure to not set a `profile` explicitly,
2. Added tests to be sure this works as intended with user API and with slangc command line
* Change capability atom definitions and how Slang manages them to fix errors
1. most `glsl_spirv` version atoms have been removed from `.capdef`, instead we will translate `spirv` version atoms into `glsl_spirv` since there is no point in writing the same code twice in `.capdef` files to define `spirv` versions.
2. add spirv version, and hlsl sm version (and equivlent) capability dependencies
3. removed some stage requirments which were set on objects, keep the wrapper capabilities. I am keeping the wrapper capabilities since I am unaware on if there are stage limitations (spec says code in practice does not work).
* check internal version instead of version profile (_spirv_1_5 vs. spirv_1_5)
* remove unused OpCapability. adjust SPIRV version'ing again for glsl_spirv
* apply workaround for glslang bug with rayquery usage
* ensure capabilities targetted by a profile and added together by a user are valid
* remove additions to `spirv_1_*` wrapper
* spirv_* -> glsl_spirv fix
* fix bug where incompatable profiles would cause invalid target caps
* try to avoid joining invalid capabilities
* fix the warning/error & printing
* run through tests to fix capability system and test mistakes
many mistakes were mesh shaders doing `-profile glsl_450+spirv_1_4`. This is not allowed for a few reasons
1. the test tooling does not handle arguments the same as `slangc`
2. glsl_450 core profile does not support mesh shaders, nor does spirv_1_4. sm_6_5 does work in this senario
* set some sm_4_1 intrinsics to sm_4_0
* replace `GLSL_` defs with `glsl_`
* swap the unsupported render-test syntax for working syntax
* set d3d11/d3d12 profile defaults
this is required since sm version changes compiled code & behavior
* adjusted nvapi capabilities with atomics + d3d11 set to use sm_5_0 as per default
* cleanup
* address review
* incorrect styling
* change `bitscanForward` to work as intended on 32 bit targets
---------
Co-authored-by: Yong He <yonghe@outlook.com>
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* Default (zero'd) values with `-zero-initialize` flag
Adds `-zero-initialize` flag to set values to a __default() expression if they are missing a initExpr.
* address review and ensure __default calls ctor + zero's fields.
1. We must keep zero-initialize in SemanticsDeclHeaderVisitor. This is done because else a ctor will be initialized before we can set struct fields to `__default`.
2. IRDefaultCtorDecoration was added to track default ctor's with parent struct.
3. ParentAggTypeModifier was added to track ChildOfStruct->IRType for sharing data such as with functions. This is required to ensure we associate a lowered function with a lowered struct type
* Removed decoration to track defaultCtor in favor of field.
This was done since decorations are checked for IR objects, storing auxillary info does not work here as a result if usable object.
* address some review comments
Since `IDefaultInitializable` is taking a considerabley larger amount of time than anticipated I am pushing some of the other fixes requested. I did not remove the "IRStruct storing a default Ctor" hack yet.
mostly renamed/adjusted tests to work as intended
added test to ensure we don't synthisize a junk `= 0` when not in `zero initialize` mode
removed member in favor of sharedContext+dictionary.
* a working but incorrect impl
* default init without any IR hacks (fully working aside from generic/containored-types)
* Finish zero init code
1. IDefaultInitializer interface was added. If conforming, your type may be zero-initialized. To Conform a `__init()` is required
2. `[OnlyAutoInitIfForced]` was added. This attribute states that a default initializer should only be implicitly called if forced by the compiler (`zero-initialize` for example). This allows types which implicitly/explicitly conform to IDefaultInitialize to have optional auto-init behavior (which is Slang's default for user structs) to be disabled.
* note about `[OnlyAutoInitIfForced]`. This is required for std-lib to not automatically resolve init-expressions for std-lib, but it has the added benifit of allowing user made structs/classes to control the default behavior of initializing
* fix ErrType assumption
* testing why dx12 fails local but passes CI
* push vector changes to generic test
* push syntax adjustment, still figuring out what is wrong with cuda.
* remove debug changes & adjust style
* fix field-init expressions with structs initializers
don't init a static in a ctor. This would be illegal code and wrong code (init list in lower-to-ir)
* minor adjustments temporarily while the rest of the issue is discussed
* fix
* implement IDefaultInitializable
* remove a unneeded whitespace change
* fix type checking error
should be checking if a valid type is `Type`, not `BasicExpressionType`
* needs to be DeclRefType, not Type
* fix langguage server error
* change findinheritance for correctness + cleanup
* remove return false
verified the issue was `findInheritance`
* push attempt at language server fix
* still trying to fix inheritance
* added extension support, remove redundant code
Did not address all review comments yet, want to see if CI also passes my changes
* undo a change which caused CI to fail
* change logic + DefaultConstructExpr
setup code to use defaultConstructExpr when possible to construct a default without overhead of invoke/related
also changed code so parent's defaultInitializable propegates to derived member
* 1. fix error in `isSubtype` 2. add flag to isSubtype
`subtypeInheritanceIsNotFullyResolved` was added since we may not be done the lookup stage but still require `isSubtype` checking to verify usage of inheritance while working with inheritance. In This case we will just skip `ensureLookup` and "caching" (since we don't have a cache invalidation system, nor need)
* fix bug in logic + add test to better catch the bug
* address comment + isSubTypeOption + wrapper type test,
* fix wrong code adjustment
I checked on the CI and realized I caused a failure, mistake was made not negating some code
* syntax, class naming capital
* remove stdlib default initialize changes, replace with `__default()` for init
* remove redundant code + fix defaultConstruct emitting
previously defaultConstruct emitting was crashing due to having generics unresolved. By not resolving the default construct immediately, everything works.
* remove a coment
* add test to ensure static variables dont `init` inside a struct's `__init`
* fix Ptr members breaking struct use
* address review and add -zero-initialize test
`-zero-initialize` test was added to be sure debug pointers are not broken with default init values
---------
Co-authored-by: Yong He <yonghe@outlook.com>
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* Handle type check cache update on extensions more gracefully.
* Correctness fix.
* Cache implcit cast overload resolution results.
* Fix.
* More optimizations.
* Cache implicit default ctor resolution.
* Disable redundancy removal.
* Fix.
* Fix test.
* Fix.
* Correctness fix.
* Fix.
* Fix,
* Fix test.
* Small tweak.
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* Init expressions for struct members
Following commit handles init expressions of struct's.
The general implementation follows C++ init expression rules for classes & inherited classes.
The logic was implemented after type resolution (`SemanticsDeclAttributesVisitor`):
1. Create a default constructor if missing.
2. Check all member variables (`this` and `super`) for if a member has an init expression, continue to *3* if found.
3. For each constructor, insert a member variable's init expression at the beginning of a constructor. This is to follow how C++ does construction of objects.
Some important notes about implementation:
* We must handle the scenario that there is inheritance. To handle the inheritance information processing `findLevelsOfInheritance` was created.
* If a user manually sets overload rank's of constructor expression's we have no way to assume new default constructor overload ranks.
* address feedback
- moved all scope bound variables into if statment initializers
- added indent
- changed logic for overloadRank to be centered around positive numbers rather than negative
* Inheritance fixes universally & for struct field init
1. reimplemented struct field logic
2. implemented inheritance through calling a "super->init()" inisde a constructor for each "this".
3. implemented support for multi level inheritance (4+) and accessing members without a crash.
* add a way to ignore Forward declared constructors.
* a test and fix for a falcor failiure
the following case was not handled: creating an default Ctor due to a non L-Value struct field. Having an empty Ctor causes a warning.
* remove texture/sampler from test since it will break glsl
* get inheritance info using existing lookup logic
modified Facet lookups to store relative depth rather than arbitrary ::Self or' ::Direct for inheritance (which was 'wong' since depth 2 is not Direct, but was considered a Direct inheritance)
* cleanup unused
* cleanup unused functions and whitespace
* fix compile warning
* clean up, reorder, addressed language server fail
changed logic to safeguard bad code --> no longer breaks language server if code is incomplete.
remove the "semi-ordering" logic because caused a crash (and this code does nothing functionally, just thought it would be nice to add if '0 cost').
Remove rank setting for constructors, in place use an addition to the overload system: "this" expressions have calling priority over "super" expressions.
* undo all inheritance depth checks & code added to the inheritance checking algorithm
Reorder default ctor creation and auto-generation of constructor body.
* Handle same struct types during overload resolution
Changed overload resolution logic to properly handle same struct types; added test to check for multi-param same type function overload.
* remove unused ast object
Used unused object in an incorrect way. This caused the compiler to not flag a warning.
* extension support for default constructors
specialization is not supported with default constructors yet.
* fix bugs
Fix bug in override/overload logic with type comparisons.
used wrong type for ctor list construction
Specialization has not been added yet
* disallow default ctor inside extension
* adjust comment, add new tests
* add explicit types to invoke, use faster default ctor lookup.
* adjust syntax & naming as recomended
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* Allow bit operators on enum types.
* Fix.
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resolves #3587 for GLSL & SPIR-V targets #3631 (#3810)
* [early push of code since memory qualifiers may be made into a seperate branch & pr and I rather make it simple to split the implementation if required]
all type & functions impl. for GLSL image type
added all memory qualifiers & tests for direct read/write [GLSL syntax] (DID NOT test or implement parameter qualifiers, that is next commit)
* this inlcudes emit-glsl & emit-spirv for qualifier decorations
* this also includes error handling
* this includes parsing
* full implementation other than Rect; all errors and basic tests are done & working
what is left:
1. need to now add Rect type support (additional TextureImpl flag)
2. tests
3. testing infrastructure to support variety of types
* testing framework now works with images of all types and imageBuffers -- next steps are actual tests
* push code for mostly working image atomics; missing int64/uint64 tests and slightly broken feature
likley due to missing code from master which I pushed for regular atomics
* fix all remaining shader image atomic issues and tests to work with float & i64/u64 fully
will now clean up code and squash the commits (since they are quite all over the place)
* refactor code to work & look correct, fix all regressions
Turned off tests for texture format R64 due to the shader use limitation of currently being only for storage buffers on most hardware (test fail cause, this is not allowed)
Changed raygen.slang & nv-ray-tracing-motion-blur.slang since both cross-compiled with glslang, which does not respect layout(rgba8) for RWBuffer's, in this scenario making the type into a SPIR-V rgba32f, which is incorrect and a known problem, this causes different code to be outputted from Slang & HLSL+GLSL->Slang paths
Clean up all code and better explain the "why" for the gimageDim definition we use various strings of Slang code, the gist is:
1. Parameters are structured as per IMAGE_PARAM keyword in spec, and we respect this in order to match specification (to allow easy code iteration)
2. sample parameters are required for functions
3. types are inconsistently named
fixed regression of breaking l-value lowering when r-value should be lowered (lower-to-ir)
fix compiler warnings
remove unneeded lambdas
`expr->type.isLeftValue = isMutableGLSLBufferBlockVarExpr(baseExpr) && (expr->type.hasReadOnlyOnTarget == false);` is an adjustment made such that a buffer block is mutable only if the block is mutable and the base expression is mutable (to handle case of readonly buffer block, immutable)
* remove rectangle parameter
* use proper const syntax and struct naming
* adjust syntax
* adjust modifier capabilitites: HLSL+GLSL --> GLSL. Notice most specifically, if the parent is a global struct we can put a memory qualifier, this does not include, struct inside a struct, with a member variable with a memory qualifier (since then you could use the struct in invalid ways). Added test for struct inside struct with member variable with memory qualifier.
adjust syntax and remove code which will rot
* adjust formatting for consistency
* addressing review feedback
addressing review feedback:
change testing code to handle int and float/half correctly in all cases
adjust testing code syntax as requested
change vkdevice code to fit a different form as requested
* adjust code as per requested for review:
1. adjusted testing code logic to handle non 0-1 values appropriately, notice int8_t will likley be the range and set order of {[0,127],[-1,-128]}, this is intentional
2. syntax adjustments for correctness
* trying to fix falcor regressions
* add back removed code for regression testing
* test removing changes which may break falcor
* Revert "test removing changes which may break falcor"
This reverts commit 240da97f06c23e98a26ac23cf1d385995c67b251.
* disable R64 support in attempt to fix falcor tests
* Revert "disable R64 support in attempt to fix falcor tests"
This reverts commit 317cb632eb2f47e980fc4aeafe418f8060f4c473.
* disable major device changes (still trying to figure out falcor fails -- locally working different than CI)
* test removing d3d changes
* remove all format changes
* add back removed code for regression testing
* try something to get code to work with falcor
* address review
* Add way to handle constref/ref/encapsulated texture objects with memory qualifiers as a parameter.
Fixed an issue (and improved codegen) for when we have a store(dst,load(src)) pattern, where dst is supposed to be equal to src for when resolving globalParam's (no need for work-arounds anymore)
* move recent-fix/change to textureType loading into a proper optimization pass which now runs after SPIR-V legalization to catch odd SPIR-V emitting after legalizing types for SPIR-V
* Revert most recent optimization pass change, add work around getting a unmangled global parameter address through a intrinsic op instead of spir-v intrinsic (works same as `__imagePointer()`)
* remove unneeded changes
* remove unneeded `__constref` in glsl.meta
* move memory qualifier checks to visitInvoke of check-expr.cpp
move GetLegalizedSPIRVGlobalParamAddr resolving to spirv-legalization pass
move error for "if using non texture type with memory qualifer in param" earlier such that we error with this first. No point in telling user "you are not putting correct memory qualifiers" when memory qualifiers should not have been used.
* add memory qualifier folding modifier 'MemoryQualifierCollectionModifier' to reduce searching and processing (later will be adapted to whole system) as suggested/asked.
The utility is a method to track memory qualifiers without doing a expensive linked-list traversal (image's have 4 modifiers normally).
* properly pass multiple qualifiers from checkModifier down to the `modifier`s list
* addressing review comments:
* change implementation to properly handle restrict modifier
* add comments about implementation for clarity
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* Support pointers in SPIRV.
* Fix test.
* Enhance test.
* Fix test.
* Cleanup.
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* Capability type checking.
* Fix.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* Diagnose for invalid decl nesting.
* Fix.
* Fix.
* Fix.
* Fix `namespace` lookup and `using` resolution.
* fix project files.
* revert project files.
* Enhance namespace syntax, docs.
* Fixes.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* Update behavior around interfaces and docs.
* Update toc
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* Support visibility control and default to `internal`.
* Fix wip.
* Fixes.
* Fix.
* Fix test.
* Add legacy language detection and compatibility for existing code.
* Add doc.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* Improve generic type argument inference.
* Fix.
* Fix.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* wip: clean up IArithmetic
* wip.
* Cleanup builtin arithmetic interfaces.
* Fix.
* Fixes.
* Fix.
* Fix.
* Fix.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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* Support `constref` parameters passing.
* Fix.
* Fix.
* Add test and diagnostic on mix use of __constref and no_diff.
* check for [constref] on differentiable member method.
---------
Co-authored-by: Yong He <yhe@nvidia.com>
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