Some notes:
1. If the result is non-Sendable and we didn't infer something that is
transferring, we still emit the current sema error that says that one cannot
assign a non-Sendable value to an async let.
2. When region isolation is enabled, but transferring args and results are
disabled, we leave the async let semantics alone. This means that the async let
closure is still @Sendable and one cannot pass in non-Sendable values to it.
When a closure throws a generic error type, we were retrieving the
substituted error type (involving archetypes) when we needed to be
working with the interface type.
Fixes rdar://124484012.
* Add a new flag -experimental-package-cmo that requires -experimental-allow-non-resilient-access.
* Support serializing package decls for CMO in package if enabled.
* Only applies to default mode CMO.
* Unlike the existing CMO, package CMO can be built with -enable-library-evolution as package
modules are required to be built together in the same project.
* Create hasPublicOrPackageVisibility to opt in for package decls; needed for CMO, SILVerifier,
and other call sites that verify or determine codegen.
Resolves rdar://121976014
Renamed "getUsesMoveableValueDebugInfo" to "usesMoveableValueDebugInfo".
Clarifies the predicate from "does the receiver have the
usesMoveableValueDebugInfo field set?" to "does the receiver use moveable
value debug info?".
We preserve the current semantics that we have today by requiring that either all SILResultInfo are transferring or none are transferring. This also let me swap to @sil_transferring representation.
I did both of these things to fix SIL issues around transferring.
It also ensures that we now properly emit
SILBoxTypes have their own generic signature and substitution
map. This means that every time we query isEscapable or mayEscape, we
need to extract the type of the box's field and perform type
substitution so that the AST query only sees types from the function's
generic environment.
Fixes rdar://124179106 (Assertion failed in SIL:
(!type->hasTypeParameter() && "caller forgot to mapTypeIntoContext!"))
We've been building up this exponential explosion of task-creation
builtins because it's not currently possible to overload builtins.
As long as all of the operands are scalar, though, it's pretty easy
to peephole optional injections in IRGen, which means we can at
least just use a single builtin in SIL and then break it apart in
IRGen to decide which options to set.
I also eliminated the metadata argument, which can easily be recreated
from the substitutions. I also added proper verification for the builtin,
which required (1) getting `@Sendable` right more consistently and (2)
updating a bunch of tests checking for things that are not actually
valid, like passing a function that returns an Int directly.
In embedded swift all de-serialized get public linkage because all the code is generated in the top-level module.
This change moves the point where we make de-serialized functions public to the end of the pipeline.
This allows dead function elimination to remove unused de-serialized functions.
For some stdlib functions (actually one: the Double initializer for a builtin integer) is essential, because codegen for embedded produces an unresolved symbol.
rdar://123772098
The goal is to have a lightweight way to pass an unapplied
diagnostic to general routines. Constructing a Diagnostic
is quite expensive as something we're potentially doing in
hot paths, as opposed to just when we're actually emitting
the diagnostic. This design allows the expense to be delayed
until we need it.
I've also optimized the Diagnostic constructor to avoid
copying arguments unnecessarily; this is a relatively small
expense, since arguments are POD, but there's really no good
reason not to do it.
