For `async` function types, an actor constraint can be enforced by the callee by hopping executors,
unlike with `sync` functions, so doesn't need to influence the outward type of the function.
rdar://76248452
Import APIs with the `swift_async_error` attribute in `zero_argument` or `nonzero_argument`
modes by checking the corresponding boolean argument to indicate the error status, instead of
treating it as part of the result tuple. rdar://70594666
Plumb generic signatures through the codegen for invoking foreign APIs as async, so that we
correctly handle APIs declared on ObjC lightweight generic classes. rdar://74361267
Add the following new mangling rules.
```
global ::= from-type to-type 'TJO' AUTODIFF-FUNCTION-KIND // autodiff self-reordering reabstraction thunk
global ::= from-type 'TJS' AUTODIFF-FUNCTION-KIND INDEX-SUBSET 'p' INDEX-SUBSET 'r' INDEX-SUBSET 'P' // autodiff linear map subset parameters thunk
global ::= global to-type 'TJS' AUTODIFF-FUNCTION-KIND INDEX-SUBSET 'p' INDEX-SUBSET 'r' INDEX-SUBSET 'P' // autodiff derivative function subset parameters thunk
```
Example:
```console
$s13TangentVector16_Differentiation14DifferentiablePQzAaDQy_SdAFIegnnnr_TJSdSSSpSrSUSP ---> autodiff subset parameters thunk for differential from @escaping @callee_guaranteed (@in_guaranteed A._Differentiation.Differentiable.TangentVector, @in_guaranteed B._Differentiation.Differentiable.TangentVector, @in_guaranteed Swift.Double) -> (@out B._Differentiation.Differentiable.TangentVector) with respect to parameters {0, 1, 2} and results {0} to parameters {0, 2}
$sS2f8mangling3FooV13TangentVectorVIegydd_SfAESfIegydd_TJOp ---> autodiff self-reordering reabstraction thunk for pullback from @escaping @callee_guaranteed (@unowned Swift.Float) -> (@unowned Swift.Float, @unowned mangling.Foo.TangentVector) to @escaping @callee_guaranteed (@unowned Swift.Float) -> (@unowned mangling.Foo.TangentVector, @unowned Swift.Float)
```
Resolves rdar://72666310 / SR-13508.
Also fix a bug in `AutoDiffFunction` mangling where the original may be a global that contains more than 1 node (rdar://74151229 / SR-14106).
The generic signature isn't used for a whole lot, so this all mostly
worked before; the test case I have hits the code path for mangling
a retroactive conformance.
Fixes <https://bugs.swift.org/browse/SR-14016> / <rdar://problem/72865083>.
- `Mangle::ASTMangler::mangleAutoDiffDerivativeFunction()` and `Mangle::ASTMangler::mangleAutoDiffLinearMap()` accept original function declarations and return a mangled name for a derivative function or linear map. This is called during SILGen and TBDGen.
- `Mangle::DifferentiationMangler` handles differentiation function mangling in the differentiation transform. This part is necessary because we need to perform demangling on the original function and remangle it as part of a differentiation function mangling tree in order to get the correct substitutions in the mangled derivative generic signature.
A mangled differentiation function name includes:
- The original function.
- The differentiation function kind.
- The parameter indices for differentiation.
- The result indices for differentiation.
- The derivative generic signature.
We don't introduce a new mangling here.
To distinguish the names of the original asyncHandler function and it's generated "body-function", we just mangle the body-function with an async attribute, i.e. as if it was declared as async.
This change is mostly to pass information to the ASTMangler to mangle a not async function as "async".
To manage code size in user binaries, we want to be able to implement common completion handler signatures in
the Swift runtime once. Using a different mangling for these lets us add new ones without clobbering symbols in
existing binaries.
Immediately before invoking the ObjC API, get the current continuation, capture it into a block to
pass as the completion handler, and then await the continuation, whose resume/error successors
serve as the semantic return/throw result of the call. This should complete the caller-side part
of SILGen; the completion handler block implementation is however still only a stub.
TBD was missing several opaque type descriptor symbols. The root causes
are: (1) the AST API called by TBD doesn't return opaque type decl if
the decl is from a serialized AST; and (2) the access level of opaque
type decl isn't serialized so TBD considers them as internal.
This change fixes both.
rdar://61833970
Make sure we mangle opaque types using the same settings as the
debugger mangling (with OptimizeProtocolNames = false) to ensure
that we can reconstruct those names again.
Generate SIL differentiability witnesses from `@differentiable` and
`@derivative` declaration attributes.
Add SILGen utilities for:
- Emiting differentiability witnesses.
- Creating derivative function thunks, which are used as entries in
differentiability witnesses.
When users register a custom derivative function, it is necessary to create a
thunk with the expected derivative type computed from the original function's
type. This is important for consistent typing and consistent differentiability
witness entry mangling.
See `SILGenModule::getOrCreateCustomDerivativeThunk` documentation for details.
Resolves TF-1138.
We want to be able to use mangled names to refer to protocol conformances in addition to type
metadata. Provide an ASTMangler method that can render an arbitrary abstract or concrete
`ProtocolConformanceRef`, factoring it out of the code used to emit conditional conformance arguments
in `appendProtocolConformance`.
In order for the runtime demangler to be able to find ObjC classes and protocols, it needs to
have the runtime name of the declaration be in the mangled name. Only do this for runtime manglings,
to minimize the potential ABI impact for symbol names that already have the source-level names of
ObjC entities baked in. Fixes SR-12169 | rdar://59306590.
SIL differentiability witnesses are a new top-level SIL construct mapping
"original" SIL functions to derivative SIL functions.
SIL differentiability witnesses have the following components:
- "Original" `SILFunction`.
- SIL linkage.
- Differentiability parameter indices (`IndexSubset`).
- Differentiability result indices (`IndexSubset`).
- Derivative `GenericSignature` representing differentiability generic
requirements (optional).
- JVP derivative `SILFunction` (optional).
- VJP derivative `SILFunction` (optional).
- "Is serialized?" bit.
This patch adds the `SILDifferentiabilityWitness` data structure, with
documentation, parsing, and printing.
Resolves TF-911.
Todos:
- TF-1136: upstream `SILDifferentiabilityWitness` serialization.
- TF-1137: upstream `SILDifferentiabilityWitness` verification.
- TF-1138: upstream `SILDifferentiabilityWitness` SILGen from
`@differentiable` and `@derivative` attributes.
- TF-20: robust mangling for `SILDifferentiabilityWitness` names.
When an original module name is specified via @_originalDefinedIn attribute, we need to
use the original module name for all related runtime symbol names instead of the current
module names.
rdar://55268186
It was hard-coding IsStatic to false rather than passing it through from the
VarDecl, giving the same USR for the two getters in the below:
class FixtureClass95 {
private static var someVar: String!
private var someVar: String!
}
Resolves rdar://problem/44531531
Structurally prevent a number of common anti-patterns involving generic
signatures by separating the interface into GenericSignature and the
implementation into GenericSignatureBase. In particular, this allows
the comparison operators to be deleted which forces callers to
canonicalize the signature or ask to compare pointers explicitly.
Teach SILGen to emit a separate SIL function to capture the
initialization of the backing storage type for a wrapped property
based on the wrapped value. This eliminates manual code expansion at
every use site.
This was partially implemented but the check looked at the lowered
types and not the AST types, and DynamicSelfType is erased at the
top level of a lowered type.
Also use the new mangling for reabstraction thunks with self, to
ensure we don't emit the same symbol with two different lowered
types.
Fixes <https://bugs.swift.org/browse/SR-10309>, <rdar://problem/49703441>.
When emitting metadata for a Swift-defined @objc protocol that has
provided a specific Objective-C name (e.g., via @objc(renamed)),
mangle such protocols using their Objective-C names so they can be
found at runtime.
Only do this for metadata, because doing it anywhere else would cause
an ABI break. Fixes rdar://problem/47877748.
Add an IRGen flag to disable this verification, since it doesn't work from within
lldb itself for some reason, and I don't want to investigate it right now.
We've been running doxygen with the autobrief option for a couple of
years now. This makes the \brief markers into our comments
redundant. Since they are a visual distraction and we don't want to
encourage more \brief markers in new code either, this patch removes
them all.
Patch produced by
for i in $(git grep -l '\\brief'); do perl -pi -e 's/\\brief //g' $i & done
