Fixe a couple of bugs in libSyntax parsing found by enabling `-verify-syntax-tree` for `%target-build-swift`:
- Fix parsing of the `actor` contextual keyword in actor decls
- Don't build a libSyntax tree when parsing the availability macro
- The availability macro is not part of the source code and doesn't form a valid Swift file, thus creation of a libSyntax tree is completely pointless and will fail
- Add support for parsing `@_originallyDefinedIn` attributes.
- Add support for parsing `#sourceLocation` in member decl lists
- Add support for effectful properties (throwing/async getters/setters)
- Add support for optional types as the base of a key path (e.g. `\TestOptional2?.something`)
- Allow platform restrictions without a version (e.g. `_iOS13Aligned`)
The end location of an attribute used to point to the next token after the attribute's content, which is the closing parenthesis in valid Swift code. But when the parenthesis is missing, it points to the next token, which is most likely no longer part of the attribute.
Fix by parsting the closing parenthesis (conditionally) first and using the location of last token parsed for the attribute (`PreviuosLoc`) as the attribute range's end location.
Resolves rdar://64304839
Propagate parsed type attributes to the TypeAttributes structure, so they
persist in the AST and can be processed by the type checker. Move the
"unknown attribute" diagnostic for custom attributes on types into
the type checker.
Extend the parsing of custom attributes to apply to types. Improve the
lookahead for the arguments so we don't arbitrarily consume the parameter
list of a function type as an attribute argument, or consume a tuple type
as the attribute argument.
Doesn't actually change behavior, because after parsing the custom
attribute on a type, we reject it as an unknown attribute.
Assuming that we don't typecheck a deserialized module, we don't
actually need the ExplicitCompletionHandlerIndex. We used this flag to
determine whether we could trust the number stored in the handler index
or just take the last parameter of the function we're attached to.
Since we only typecheck it before serialization, we can safely check
that the completion handler location is valid before choosing whether we
should trust it or not.
This patch replaces the @hasAsyncAlternative attribute with
@completionHandlerAsync. The @completionHandlerAsync attribute takes the
function decl name of the async function and optionally the index of the
completion hander parameter in the function that it's attached to.
If the completion handler index is not provided, it's assumed to be the
last parameter in the parameter list.
We resolve the async function while typechecking the attribute. Before
resolving, we verify that the function the attribute is attached to
isn't async, that it has enough parameters to at least have the
indicated completion handler referenced by the index, that the
completion handler is an escaping non-auto-closure function that returns
Void.
The async function declaration resolution isn't perfect yet, but I want
to get this patch up and we can refine it later. It pulls all of the
delcs with the specified declname in the same context as the
function that the attribute is attached to. Going through that list, it
keeps any that are async functions. If there are none, we emit an error
saying that there are no viable functions, if there are multiple we emit
an error saying that the decl name is ambiguous, and if there is one
function, we keep that as the resolve async function declaration.
This does not take into account the data types of the completion handler
or the async function. There are some complexities to making this
mapping. Here are the pieces:
- If the completion handler takes a single data type, the async
function should return that type. (easy case)
- If the completion handler takes a `Result<T, Error>`, the async
function is a throwing function that returns a T. (Medium difficulty)
- If the completion handler looks like `(T?, Error?) -> Void`, we have
an ambiguous situation between the following async functions:
- func foo() async throws -> T
- func foo() async throws -> T?
That is, we cannot tell whether the `T?` in the completion handler is
optional because it will be nil on an error, or if it is intended to
be optional.
This can be done later if it becomes a problem.
For backtracking scopes that are never cancelled, we can completely disable the SyntaxParsingContext, avoiding the creation of deferred nodes which will never get recorded.
This patch removes the feature flag for @hasAsyncAlternative since it's
already protected by the experimental concurrency flag and will go in
with the concurrency features.
This fixes one of Doug's comments on
https://github.com/apple/swift/pull/36027.
This attribute marks a function has having an async alternative,
optionally providing the name of that function as a string. Intended to
be used to allow warnings when using a function with an async
alternative in an asynchronous context, to make the async refactorings
more accurate, and for documentation.
This patch softly updates the spelling of actors from `actor class` to
`actor`. We still accept using `actor` as a modifying attribute of
class, but emit a warning and fix-it to make the change.
One of the challenges that makes this messier is that the modifier list
can be in any order. e.g, `public actor class Foo {}` is the same as
`actor public class Foo {}`.
Classes have been updated to include whether they were explicitly
declared as an actor. This change updates the swiftmodule serialization
version number to 0.591. The additional bit only gets set of the class
declaration was declared as an actor, not if the actor was applied as an
attribute. This allows us to correctly emit `actor class` vs `actor`
emitting the code back out.
Compiler:
- Add `Forward` and `Reverse` to `DifferentiabilityKind`.
- Expand `DifferentiabilityMask` in `ExtInfo` to 3 bits so that it now holds all 4 cases of `DifferentiabilityKind`.
- Parse `@differentiable(reverse)` and `@differentiable(_forward)` declaration attributes and type attributes.
- Emit a warning for `@differentiable` without `reverse`.
- Emit an error for `@differentiable(_forward)`.
- Rename `@differentiable(linear)` to `@differentiable(_linear)`.
- Make `@differentiable(reverse)` type lowering go through today's `@differentiable` code path. We will specialize it to reverse-mode in a follow-up patch.
ABI:
- Add `Forward` and `Reverse` to `FunctionMetadataDifferentiabilityKind`.
- Extend `TargetFunctionTypeFlags` by 1 bit to store the highest bit of differentiability kind (linear). Note that there is a 2-bit gap in `DifferentiabilityMask` which is reserved for `AsyncMask` and `ConcurrentMask`; `AsyncMask` is ABI-stable so we cannot change that.
_Differentiation module:
- Replace all occurrences of `@differentiable` with `@differentiable(reverse)`.
- Delete `_transpose(of:)`.
Resolves rdar://69980056.
For example, given:
class C: P {
func foo() {}
}
For the outer context (i.e. source file), the interface hash shoule be
'class C : P { }' for the member list, it's '{ func foo ( ) { } }'.
This must be the same regardless delayed parsing is enabled.
* Initial draft of async sequences
* Adjust AsyncSequence associated type requirements
* Add a draft implementation of AsyncSequence and associated functionality
* Correct merge damage and rename from GeneratorProtocol to AsyncIteratorProtocol
* Add AsyncSequence types to the cmake lists
* Add cancellation support
* [DRAFT] Implementation of protocol conformance rethrowing
* Account for ASTVerifier passes to ensure throwing and by conformance rethrowing verifies appropriately
* Remove commented out code
* OtherConstructorDeclRefExpr can also be a source of a rethrowing kind function
* Re-order the checkApply logic to account for existing throwing calculations better
* Extract rethrowing calculation into smaller functions
* Allow for closures and protocol conformances to contribute to throwing
* Add unit tests for conformance based rethrowing
* Restrict rethrowing requirements to only protocols marked with @rethrows
* Correct logic for gating of `@rethrows` and adjust the determinates to be based upon throws and not rethrows spelling
* Attempt to unify the async sequence features together
* Reorder try await to latest syntax
* revert back to the inout diagnosis
* House mutations in local scope
* Revert "House mutations in local scope"
This reverts commit d91f1b25b59fff8e4be107c808895ff3f293b394.
* Adjust for inout diagnostics and fall back to original mutation strategy
* Convert async flag to source locations and add initial try support to for await in syntax
* Fix case typo of MinMax.swift
* Adjust rethrowing tests to account for changes associated with @rethrows
* Allow parsing and diagnostics associated with try applied to for await in syntax
* Correct the code-completion for @rethrows
* Additional corrections for the code-completion for @rethrows this time for the last in the list
* Handle throwing cases of iteration of async sequences
* restore building XCTest
* First wave of feedback fixes
* Rework constraints checking for async sequence for-try-await-in checking
* Allow testing of for-await-in parsing and silgen testing and add unit tests for both
* Remove async sequence operators for now
* Back out cancellation of AsyncIteratorProtocols
* Restructure protocol conformance throws checking and cache results
* remove some stray whitespaces
* Correct some merge damage
* Ensure the throwing determinate for applying for-await-in always has a valid value and adjust the for-await-in silgen test to reflect the cancel changes
* Squelch the python linter for line length
Protocol requirements don't support default arguments. Although this is
a "semantic" diagnostics, we currently do this for 'func' and 'init' in
Parser. So for fixing a crash, let's to it for 'subscript' in Parser
too.
rdar://problem/73159041
Availability macros passed via the frontend flag -define-availability
should be accepted by @_originallyDefinedIn where they behave as they do
in @available.
rdar://72354787
Our name lookup rules for the resolution of custom attributes don't
allow for them to find MainActor within the _Concurrency library.
Therefore, hardcode @MainActor to map to _Concurrency.MainActor.
While here, make sure we drop concurrency-specific attributes that
show up in Clang attributes when we aren't in concurrency mode.
Also, store the end location of the where clause explicitly, so that
we can recover it even if there are no requirements.
This fixes one of the failing tests when parser lookup is disabled in
swift-ide-test by ensuring that the source range of the function
extends to the end of the 'where' clause, even though the 'where'
clause has a code completion token in it.
We have two ways of knowing if we're inside of an inactive #if clause.
Refactor the only two places that called getScopeInfo().isInactiveConfigBlock()
to check InInactiveClauseEnvironment instead.
This removes the last remaining usage of Scope that's not related to
parse-time name lookup.
This frontend flag can be used as an alternative to
-experimental-skip-non-inlinable-function-bodies that doesn’t skip
functions defining nested types. We want to keep these types as they are
used by LLDB. Other functions ares safe to skip parsing and
type-checking.
rdar://71130519
