The ObjCMethodLookupTable for protocols was not being serialized and rebuilt on load, so NominalTypeDecl::lookupDirect() on selectors was not working correctly for deserialized types. Correct this oversight.
When a synchronous, actor-isolated declaration witnesses an
asynchronous, not-similarly-isolated requirement, emit an actor hop
within the witness thunk to ensure that we properly enter the context
of the actor.
Fixes#58517 / rdar://92881539.
These instructions have the following attributes:
1. copyably_to_moveonlywrapper takes in a 'T' and maps it to a '@moveOnly
T'. This is semantically used when initializing a new moveOnly binding from a
copyable value. It semantically destroys its input @owned value and returns a
brand new independent @owned @moveOnly value. It also is used to convert a
trivial copyable value with type 'Trivial' into an owned non-trivial value of
type '@moveOnly Trivial'. If one thinks of '@moveOnly' as a monad, this is how
one injects a copyable value into the move only space.
2. moveonlywrapper_to_copyable takes in a '@moveOnly T' and produces a new 'T'
value. This is a 'forwarding' instruction where at parse time, we only allow for
one to choose it to be [owned] or [guaranteed].
* moveonlywrapper_to_copyable [owned] is used to signal the end of lifetime of
the '@moveOnly' wrapper. SILGen inserts these when ever a move only value has
its ownership passed to a situation where a copyable value is needed. Since it
is consuming, we know that the no implicit copy checker will ensure that if we
need a copy for it, the program will emit a diagnostic.
* moveonlywrapper_to_copyable [guaranteed] is used to pass a @moveOnly T value
as a copyable guaranteed parameter with type 'T' to a function. In the case of
using no-implicit-copy checking this is always fine since no-implicit-copy is a
local pattern. This would be an error when performing no escape
checking. Importantly, this instruction also is where in the case of an
@moveOnly trivial type, we convert from the non-trivial representation to the
trivial representation.
Some important notes:
1. In a forthcoming commit, I am going to rebase the no implicit copy checker on
top of these instructions. By using '@moveOnly' in the type system, we can
ensure that later in the SIL pipeline, we can have optimizations easily ignore
the code.
2. Be aware of is that due to SILGen only emitting '@moveOnly T' along immediate
accesses to the variable and always converts to a copyable representation when
calling other code, we can simply eliminate from the IR all moveonly-ness from
the IR using a lowering pass (that I am going to upstream). In the evil scheme
we are accomplishing here, we perform lowering of trivial values right after
ownership lowering and before diagnostics to simplify the pipeline.
On another note, I also fixed a few things in SILParsing around getASTType() vs
getRawASTType().
Only production compilers should apply the per-SDK restriction on
loading swiftmodules. Use the "is the compiler tagged" information over
a release build to align with the other main swiftmodule loading
restriction accepting only swiftmodules built by the same tag.
Also use an env var SWIFT_DEBUG_FORCE_SWIFTMODULE_PER_SDK to enable
testing this feature in any compilers.
Change the way swiftmodules built against a different SDK than their
clients are rejected. This makes them silently ignored when the module
can be rebuilt from their swiftinterface, instead of reporting a hard
error.
rdar://93257769
Swiftc port of https://github.com/apple/llvm-project/pull/4207.
This introduces a new flag, `-file-prefix-map` which can be used
instead of the existing `-debug-prefix-map` and `-coverage-prefix-map`
flags, and also remaps paths in index information currently.
When two different serialization formats share a version number but are
different enough, it can defeat the check to restrict loading
swiftmodules built by the same compiler. Add a backup check in case the
REVISION block is unseen, for swiftmodules only not swiftdoc or
sourceinfo.
rdar://93188070
llvm/llvm-project d0262c2394f46bb7da2a75529413d625c70908e5 added a new
default bool param to the two constructors in `SmallVectorMemoryBuffer`.
Since `options.OutputPath` is a `const char *` and that can be promoted
to a `bool`, the constructor being called was changed to the first
constructor (with a default buffer name) - promotion is preferred over
conversion.
Convert the various output paths to a `StringRef` - all their uses
converted to `StringRef` anyway. Also specify the default parameter in
order to maintain the old behaviour, which didn't require a null
terminator.
This class is a perennial source of bugs when we add new type nodes because there is no signal when you forget to update it since it's just comparing record IDs in the switch. Break this class down and add new macros that enforce structural checks and require exhaustiveness at compile time.
This TYPE_LAYOUT(...) macro replaces the usual \c BCRecordLayout coding structure by enforcing structural checks for the definition of deserialization members. If you forget to define a TYPE_LAYOUT(...) for a TYPE(...) there will be a gnarly SFINAE error pointing at it in DeclTypeRecordNodes.def.
This macro pairs with \c DESERIALIZE_TYPE(...) in Deserialization.cpp such that if you forget \c DESERIALIZE_TYPE(...) you will come up with a linker error.
Clean up a thinko in the original deserialization code by making
the TypeDeserializer aware of parameterized existential types. The
deserialization code paths are already in place, we're just not
calling them!
rdar://93062561
We didn't serialize the ownership kind, which resulted in a miscompile causing an over-release.
The unchecked_ref_cast is the only instruction for which we change the ownership in the optimizer, so that it doesn't match the operand's ownership. Therefore this fix is sufficient for now - we don't need to serialize the ownership of other instructions.
But this is really a design flaw of the `OwnershipForwardingMixin`. It should not allow to set the ownership to arbitrary values.
rdar://92696202
When restricting loading swiftmodules to the SDK used to build them,
an exception should be made for modules built against an SDK that is a subset
of the SDK used when loading the module. In such a case, the swiftmodule
file is more reliable.
rdar://92827584
The `VersionTuple` API was changed llvm/llvm-project
219672b8dd06c4765185fa3161c98437d49b4a1b to return `VersionTuple`
from `get*Version` rather than pass in major, minor, and subminor output
parameters. Update uses to the new API.
Note that `getMacOSXVersion` is slightly different in that it returns a
boolean while taking a `VersionTuple` output parameter to match its
previous behaviour. There doesn't seem to be any use that actually
checks this value though, so we should either update the API to return
an `Optional` and actually check it *or* remove the "failure" case and
return a `VersionTuple` like all the others.
- Add a `[reflection]` bit to `alloc_box` instructions, to indicate that a box
should be allocated with reflection metadata attached.
- Add a `@captures_generics` attribute to SILLayouts, to indicate a type layout
that captures the generic arguments it's substituted with, meaning it can
recreate the generic environment without additional ABI-level arguments, like
a generic partial application can.
