Always infer `nonisolated(nonsending)` from context directly on
a closure unless the closure is marked as `@concurrent`, otherwise
the closure is not going to get correct isolation and going to hop
to the wrong executor in its preamble.
Resolves: rdar://149107104
Downgrade to a warning until the next language mode. This is
necessary since we previously missed coercing macro arguments to
parameter types, resulting in cases where closure arguments weren't
being treated as `async` when they should have been.
rdar://149328745
Previously we would avoid rewriting the arguments in CSApply, but
that can result in incorrect behavior in MiscDiagnostics passes, e.g
incorrectly treating all closure arguments as escaping. Make sure
we rewrite the arguments as we would in regular type-checking.
rdar://148665502
The code that determines whether a reference to a static method (that
is not a call) assumed that metatypes were always Sendable. This is no
longer the case, so update this code to go through the normal Sendable
checking on the metatype.
Previously we would avoid rewriting the arguments in CSApply, but
that can result in incorrect behavior in MiscDiagnostics passes, e.g
incorrectly treating all closure arguments as escaping. Make sure
we rewrite the arguments as we would in regular type-checking.
rdar://148665502
- Track environments for `PackExpansionExpr` directly
instead of using a locator.
- Split up the querying and creation of the environment
such that the mismatch logic can be done directly in
CSSimplify instead of duplicating it.
- Just store the environment directly instead of
the shape and UUID.
It should be possible to pass values with `any Sendable` as arguments
to `inout` parameters that expect `Any`. This is pretty much the same
as an l-value conversion.
Resolves: https://github.com/swiftlang/swift/issues/79361
Resolves: rdar://144794132
When calling a distributed function for an actor that might not be local,
the call can throw due to the distributed actor system producing an
error. The function might, independently, also throw. When the
function uses typed throws, we incorrectly treated the call is if it
would always throw the error type specified by the function. This
leads to incorrectly accepting invalid code, and compiler crashes in
SILGen.
The change here is to always mark calls to distributed functions
outside the actor as "implicitly throwing", which makes sure that we
treat the call sites as throwing 'any Error'. The actual handling of
the typed throw (from the local function) and the untyped throw (from
the distributed actor system) occurs in thunk generation in SILGen,
and was already handled correctly.
Fixes rdar://144093249, and undoes the ban introduced by rdar://136467528
Introduce an `unsafe` expression akin to `try` and `await` that notes
that there are unsafe constructs in the expression to the right-hand
side. Extend the effects checker to also check for unsafety along with
throwing and async operations. This will result in diagnostics like
the following:
10 | func sum() -> Int {
11 | withUnsafeBufferPointer { buffer in
12 | let value = buffer[0]
| | `- note: reference to unsafe subscript 'subscript(_:)'
| |- warning: expression uses unsafe constructs but is not marked with 'unsafe'
| `- note: reference to parameter 'buffer' involves unsafe type 'UnsafeBufferPointer<Int>'
13 | tryWithP(X())
14 | return fastAdd(buffer.baseAddress, buffer.count)
These will come with a Fix-It that inserts `unsafe` into the proper
place. There's also a warning that appears when `unsafe` doesn't cover
any unsafe code, making it easier to clean up extraneous `unsafe`.
This approach requires that `@unsafe` be present on any declaration
that involves unsafe constructs within its signature. Outside of the
signature, the `unsafe` expression is used to identify unsafe code.
`any Sendable` -> `Any` in generic argument positions should be
supported for l-value and inout types as well otherwise it won't
be possible to call setters and mutating methods.
If type equality check fails we need to check whether the types
are the same with deep equality restriction since `any Sendable`
to `Any` conversion is now supported in generic argument positions
of @preconcurrency declarations. i.e. referencing a member on
`[any Sendable]` if member declared in an extension that expects
`Element` to be equal to `Any`.
Instead of using `one-way` constraints, just like in closure contexts
for-in statements should type-check their `where` clauses separately.
This also unifies and simplifies for-in preamble handling in the
solver.
