This is mostly intended to be used for testing at this point; in the
long run, we want to be using availability information to decide
whether to weak-link something or not. You'll notice a bunch of FIXMEs
in the test case that we may not need now, but will probably need to
handle in the future.
Groundwork for doing backward-deployment execution tests.
We can't make the same assumptions about .sib files.
Ideally, we should serialize the module's stage and set WasDeserializedCanonical
based on that state. However, we probably still want the IsSIB flag for
assertions.
We can encounter these when the compiler modifies an inlinable
function to break apart a struct and the struct uses a private
type for one of its fields. It's questionable whether we /should/
handle this, but meanwhile this /is/ a non-intrusive fix that
preserves the performance of non-resilient libraries.
(That is, it appears this worked in Swift 4.0, though perhaps
not all of the same optimizations kicked in.)
https://bugs.swift.org/browse/SR-6874
@noescape function types will eventually be trivial. A
convert_escape_to_noescape instruction does not take ownership of its
operand. It is a projection to the trivial value carried by the closure
-- both context and implementation function viewed as a trivial value.
A safe SIL program must ensure that the object that the project value is based
on is live beyond the last use of the trivial value. This will be
achieve by means of making the lifetimes dependent.
For example:
%e = partial_apply [callee_guaranteed] %f(%z) : $@convention(thin) (Builtin.Int64) -> ()
%n = convert_escape_to_noescape %e : $@callee_guaranteed () -> () to $@noescape @callee_guaranteed () -> ()
%n2 = mark_dependence %n : $@noescape @callee_guaranteed () -> () on %e : $@callee_guaranteed () -> ()
%f2 = function_ref @use : $@convention(thin) (@noescape @callee_guaranteed () -> ()) -> ()
apply %f2(%n2) : $@convention(thin) (@noescape @callee_guaranteed () -> ()) -> ()
release_value %e : $@callee_guaranteed () -> ()
Note: This is not yet actually used.
Part of:
SR-5441
rdar://36116691
Also remove the decl from the known decls and remove a
bunch of code referencing that decl as well as a bunch of other
random things including deserialization support.
This includes removing some specialized diagnostics code that
matched the identifier ImplicitlyUnwrappedOptional, and tweaking
diagnostics for various modes and various issues.
Fixes most of rdar://problem/37121121, among other things.
...rather than the ad hoc CustomTypeNameManglingAttr I was using
before. As John pointed out, the AST should be semantic wherever
possible.
We may someday want to get out of this being an attribute altogether,
or duplicating information that's available in the original Clang
node, by actually storing a reference to that node somewhere. This is
tricky and mixed up with deciding what hasClangNode() or
getClangDecl() would mean, though, so for now the attribute just
carries the information we need.
When importing a C enum with the ns_error_domain attribute, we
synthesize a struct containing an NSError object to represent errors
in that domain. That synthesized struct should have a mangled name
that ties it to the original C enum, if we want it to be stable, and
now it does.
Before: $SSC7MyErrorV (a normal struct, which is a lie)
After: $SSC11MyErrorCode13ns_error_enumLLV
kind=Global
kind=Structure
kind=Module, text="__C_Synthesized"
kind=PrivateDeclName
kind=Identifier, text="ns_error_enum"
kind=Identifier, text="MyErrorCode"
Using the "private discriminator" feature allows us to pack in extra
information about the declaration without changing the mangling
grammar, and without stepping on anything the importer is using.
More rdar://problem/24688918
This is going to be used for "always emit into client" functions,
such as default argument generators and stored property
initializers.
- In dead function elimination, these functions behave identically to
public functions, serving as "anchors" for the mark-and-sweep
analysis.
- There is no external variant of this linkage, because external
declarations can use HiddenExternal linkage -- the definition should
always be emitted by another translation unit in the same Swift
module.
- When deserialized, they receive shared linkage, because we want the
linker to coalesce multiple copies of the same deserialized
definition if it was deserialized from multiple translation units
in the same Swift module.
- When IRGen emits a definition with this linkage, it receives the
same LLVM-level linkage as a hidden definition, ensuring it does not
have a public entry point.
This has three principal advantages:
- It gives some additional type-safety when working
with known accessors.
- It makes it significantly easier to test whether a declaration
is an accessor and encourages the use of a common idiom.
- It saves a small amount of memory in both FuncDecl and its
serialized form.
When loading the named members for a given name, we want to load all
of the members with that base name... not only the ones that match the
full name, because the lookup table is indexed by base name and
filtering too early drops candidates.
Fixes rdar://problem/36085994.
The deserialization of the type witnesses for a normal protocol conformance
is crucial to the usability of said conformance. Deserializing the
value witnesses first can fail if they somehow rely on the type
witnesses (e.g., through a recursive conformance).
As a stop-gap, deserialize and record type witnesses *first*, then
deserialize value witnesses afterward. A longer-term solution would
make deserialization of the normal protocol conformance far more
lazy.
Fixes SR-6522 / rdar://problem/35830641, a merge-modules crasher in a
nontrivial project.
We could handle a typealias itself disappearing, but not if the
typealias was okay but the underlying type wasn't. This came up in
real Swift 3/4 mix-and-match code.
rdar://problem/34940079
For now these are underscored attributes, i.e. compiler internal attributes:
@_optimize(speed)
@_optimize(size)
@_optimize(none)
Those attributes override the command-line specified optimization mode for a specific function.
The @_optimize(none) attribute is equivalent to the already existing @_semantics("optimize.sil.never") attribute
Rather than inlining generic signatures in a half dozen places throughout
the serialization format, serialize (uniqued) generic signatures with their
own GenericSignatureID. Update various layouts (generic function types,
SIL function types, generic environments, extension cross-references) to
use GenericSignatureID.
Shaves ~187k off the size of Swift.swiftmodule.
Attach this attribute to VarDecls declared as IUO, and to function decls
that have a result type that is an IUO.
NFC at the moment. Eventually we'll use these to determine where to
implicitly unwrap optional values.
Otherwise, a protocol conformance where the witness was a dynamic
property in another module would trigger an assertion while building
the materializeForSet witness, or miscompile and fail at runtime
if asserts are off.
