If a protocol inherits from a protocol that can't be loaded, drop it
entirely. Similarly, if it has requirements that reference types in
other modules that can't be loaded, drop the protocol entirely---at
least for now, we don't want to deal with a protocol that exists but
has the wrong requirement signature. That "in other modules" isn't
perfect, but it avoids cases where two protocols depend on each other.
Unfortunately, it means the compiler may still get into exactly the
situation above if a protocol depends on another protocol in the same
module, and /that/ protocol can't be loaded for some other reason. But
it's progress.
This comes up when referencing implementation-only-imported protocols
from non-public protocols, but is also just general deserialization
recovery goodness.
rdar://problem/52141347
When the outermost property wrapper associated with a property has a
`wrapperValue`, create the projection property (with the `$` prefix)
at the same access level as the original property. This puts the
wrapped-value interface and the projection interface at the same level.
The newly-introduced @_projectionValueProperty attribute is implicitly
created to establish the link between the original property and the
projection value within module interfaces, where both properties will
be explicitly written out.
We don't need to serialize the protocol's superclass, we can compute it from the
generic signature. Previously, we would drop the superclass while
serializing because we didn't check the generic signature in
SuperclassTypeRequest, which would cause us to cache `NULL` when we
called `setSuperclass` for a protocol with a superclass constraint.
Fixes rdar://50526401
That is, if a struct's generic requirements can't be deserialized,
drop the struct. This is the same logic that's already in play for
enums and (as of the previous commit) classes, so it should be pretty
well tested by now. (Hence the sole test I'm adding here, snuck into
superclass.swift because it's a superclass /constraint/ being tested.)
I don't know of any outstanding issues caused by this, but it was
weird to have it for enums and classes but not structs, so here we
are.
...instead of crashing. Also drop the class if its generic
requirements depend on a type that can't be loaded (instead of
crashing).
rdar://problem/50125674
To distinguish between classes which have the same name (but are in different contexts).
Fixes a miscompile if classes with the same name are used from a different module.
SR-10634
rdar://problem/50538534
Serialize the relationship between a property that has an attached delegate
and its backing variable, so deserialization can reestablish that link.
Fixes rdar://problem/50447022.
Dependency tracking for cached compiled modules (compiled from
swiftinterfaces) can lead to a high percentage of the module being
SDK-relative paths when -track-system-dependencies is on. Cut down on
this by storing directory names in a separate record that gets
referenced from each file dependency. (Since a lot of per-file
dependencies are header files in a common directory, this is a win.)
We can do something more clever in the future, but this is a
reasonable start for, say, the overlays.
rdar://problem/50449802
Fix a trio of issues involving mangling for opaque result types:
* Symbolic references to opaque type descriptors are not substitutions
* Mangle protocol extension contexts correctly
* Mangle generic arguments for opaque result types of generic functions
The (de-)serialization of generic parameter lists for opaque type
declarations is important for the last bullet, to ensure that the
mangling of generic arguments of opaque result types works across
module boundaries.
Fixes the rest of rdar://problem/50038754.
When printing a swiftinterface, represent opaque result types using an attribute that refers to
the mangled name of the defining decl for the opaque type. To turn this back into a reference
to the right decl's implicit OpaqueTypeDecl, use type reconstruction. Since type reconstruction
doesn't normally concern itself with non-type decls, set up a lookup table in SourceFiles and
ModuleFiles to let us handle the mapping from mangled name to opaque type decl in type
reconstruction.
(Since we're invoking type reconstruction during type checking, when the module hasn't yet been
fully validated, we need to plumb a LazyResolver into the ASTBuilder in an unsightly way. Maybe
there's a better way to do this... Longer term, at least, this surface design gives space for
doing things more the right way--a more request-ified decl validator ought to be able to naturally
lazily service this request without the LazyResolver reference, and if type reconstruction in
the future learns how to reconstruct non-type decls, then the lookup tables can go away.)
Escapingness is a property of the type of a value, not a property of a function
parameter. Having it as a separate parameter flag just meant one more piece of
state that could get out of sync and cause weird problems.
Instead, always look at the noescape bit in a function type as the canonical
source of truth.
This does mean that '@escaping' is now printed in a few diagnostics where it was
not printed before; we can investigate these as separate issues, but it is
correct to print it there because the function types in question are, in fact,
escaping.
Fixes <https://bugs.swift.org/browse/SR-10256>, <rdar://problem/49522774>.
When a Swift module built with debug info imports a library without
debug info from a textual interface, the textual interface is
necessary to reconstruct types defined in the library's interface. By
recording the Swift interface files in DWARF dsymutil can collect them
and LLDB can find them.
rdar://problem/49751363
* Moves the IsStatic flag from VarDecl to AbstractStorageDecl.
* Adds a StaticSubscriptKind to SubscriptDecl.
* Updates serialization for these changes.
* Updates SubscriptDecl constructor call sites for these changes.
This is an attribute that gets put on an import in library FooKit to
keep it from being a requirement to import FooKit. It's not checked at
all, meaning that in this form it is up to the author of FooKit to
make sure nothing in its API or ABI depends on the implementation-only
dependency. There's also no debugging support here (debugging FooKit
/should/ import the implementation-only dependency if it's present).
The goal is to get to a point where it /can/ be checked, i.e. FooKit
developers are prevented from writing code that would rely on FooKit's
implementation-only dependency being present when compiling clients of
FooKit. But right now it's not.
rdar://problem/48985979
Introduce stored property default argument kind
Fix indent
Assign nil to optionals with no initializers
Don't emit generator for stored property default arg
Fix problem with rebase
Indentation
Serialize stored property default arg text
Fix some tests
Add missing constructor in test
Print stored property's initializer expression
cleanups
preserve switch
complete_constructor
formatting
fix conflict
The ownership kind is Any for trivial types, or Owned otherwise, but
whether a type is trivial or not will soon depend on the resilience
expansion.
This means that a SILModule now uniques two SILUndefs per type instead
of one, and serialization uses two distinct sentinel IDs for this
purpose as well.
For now, the resilience expansion is not actually used here, so this
change is NFC, other than changing the module format.
Add a bit to the module to determine whether the dependency’s stored bit pattern is a hash or an mtime.
Prebuilt modules store a hash of their dependencies because we can’t be sure their dependencies will have the same modtime as when they were built.
This is like '@inlinable', except that the symbol does not have a public
entry point in the generated binary at all; it is deserialized and a copy
is always emitted into the client binary, with shared linkage.
Just like '@inlinable', if you apply this to an internal declaration it
becomes '@usableFromInline' automatically.
This uses the same mechanism as default arguments ever since Swift 4, so
it should work reasonably well, but there are rough edges with diagnostics
and such. Don't use this if you are not the standard library.
Fixes <rdar://problem/33767512>, <https://bugs.swift.org/browse/SR-5646>.
It does not take ownership of its non-trivial arguments, is a trivial
function type and therefore must not be destroyed. The compiler must
make sure to extend the lifetime of non-trivial arguments beyond the
last use of the closure.
%objc = copy_value %0 : $AnObject
%closure = partial_apply [stack] [callee_guaranteed] %16(%obj) : $@convention(thin) (@guaranteed AnObject) -> ()
%closure2 = mark_dependence %closure : $@noescape @callee_guaranteed () -> () on %obj : $AnObject
%user = function_ref @useClosure : $@convention(thin) (@noescape @callee_guaranteed () -> ()) -> ()
apply %user(%closure2) : $@convention(thin) (@noescape @callee_guaranteed () -> ()) -> ()
dealloc_stack %closure : $() ->()
destroy_value %obj : $AnObject // noescape closure does not take ownership
SR-904
rdar://35590578
<rdar://problem/46548531> Extend @available to support PackageDescription
This introduces a new private availability kind "_PackageDescription" to
allow availability testing by an arbitary version that can be passed
using a new command-line flag "-swiftpm-manifest-version". The semantics
are exactly same as Swift version specific availability. In longer term,
it maybe possible to remove this enhancement once there is
a language-level availability support for 3rd party libraries.
Motivation:
Swift packages are configured using a Package.swift manifest file. The
manifest file uses a library called PackageDescription, which contains
various settings that can be configured for a package. The new additions
in the PackageDescription APIs are gated behind a "tools version" that
every manifest must declare. This means, packages don't automatically
get access to the new APIs. They need to update their declared tools
version in order to use the new API. This is basically similar to the
minimum deployment target version we have for our OSes.
This gating is important for allowing packages to maintain backwards
compatibility. SwiftPM currently checks for API usages at runtime in
order to implement this gating. This works reasonably well but can lead
to a poor experience with features like code-completion and module
interface generation in IDEs and editors (that use sourcekit-lsp) as
SwiftPM has no control over these features.
In a previous commit, I banned in the verifier any SILValue from producing
ValueOwnershipKind::Any in preparation for this.
This change arises out of discussions in between John, Andy, and I around
ValueOwnershipKind::Trivial. The specific realization was that this ownership
kind was an unnecessary conflation of the a type system idea (triviality) with
an ownership idea (@any, an ownership kind that is compatible with any other
ownership kind at value merge points and can only create). This caused the
ownership model to have to contort to handle the non-payloaded or trivial cases
of non-trivial enums. This is unnecessary if we just eliminate the any case and
in the verifier separately verify that trivial => @any (notice that we do not
verify that @any => trivial).
NOTE: This is technically an NFC intended change since I am just replacing
Trivial with Any. That is why if you look at the tests you will see that I
actually did not need to update anything except removing some @trivial ownership
since @any ownership is represented without writing @any in the parsed sil.
rdar://46294760
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
Now that we don't store requirements in the GenericParamList, there's
no reason to use trailing records to list out the
GenericTypeParamDecls.
No functionality change.
