Most of this involved sprinkling ValueOwnershipKind::Owned in many places. In
some of these places, I am sure I was too cavalier and I expect some of them to
be trivial. The verifier will help me to track those down.
On the other hand, I do expect there to be some places where we are willing to
accept guaranteed+trivial or owned+trivial. In those cases, I am going to
provide an aggregate ValueOwnershipKind that will then tell SILArgument that it
should disambiguate using the type. This will eliminate the ackwardness from
such code.
I am going to use a verifier to fix such cases.
This commit also begins the serialization of ValueOwnershipKind of arguments,
but does not implement parsing of value ownership kinds. That and undef are the
last places that we still use ValueOwnershipKind::Any.
rdar://29791263
This is dead code and can be re-added if it is needed. Right now though there
really isnt a ValueOwnershipKind that corresponds to deallocating and I do not
want to add a new ValueOwnershipKind for dead code.
Instead of creating an archetype builder with a module---which was
only used for protocol conformance lookups of concrete types
anyway---create it with a LookupConformanceFn. This is NFC for now,
but moves us closer to making archetype builders more canonicalizable
and reusable.
When serializing a SIL function declaration only (no body), suppress
the generic environment as well. This was the case previously, but I
regressed it when moving the serialization of the generic environment
to ID-based serialization in 69cc9f4b54.
Fixes rdar://problem/29905180.
The typedef `swift::Module` was a temporary solution that allowed
`swift::Module` to be renamed to `swift::ModuleDecl` without requiring
every single callsite to be modified.
Modify all the callsites, and get rid of the typedef.
For this we need to store the linkage of the “original” method implementation in the vtable.
Otherwise DeadFunctionElimination thinks that the method implementation is not public but private (which is the linkage of the thunk).
The big part of this change is to extend SILVTable to store the linkage (+ serialization, printing, etc.).
fixes rdar://problem/29841635
Teach the serialized form of ArchetypeType about its owning generic
environment, so we can wire up the generic environment of (primary)
archetypes eagerly (at the point of deserialization) rather than when
we form the generic environment. This ensures that there is no point
at which we have a (non-opened-existential) archetype without a
generic environment.
... except that the type reconstruction code creates such archetypes.
Teach the serialization of SIL generic environments, which used to be
a trailing record following the SIL function definition, to use the
same uniqued "generic environment IDs" that are used for the AST
generic environments. Many of them overlap anyway, and SIL functions
tend to have AST generic environments anyway.
This approach guarantees that the AST + SIL deserialization provide
the same uniqueness of generic environments present prior to
serialization.
* Pack the bits for IfConfigDecls into Decl
* Don't open symbols into a module when evaluating canImport statements
The module loaders now have API to check whether a given module can be
imported without importing the referenced module. This provides a
significant speed boost to condition resolution and no longer
introduces symbols from the referenced module into the current context
without the user explicitly requesting it.
The definition of ‘canImport’ does not necessarily mean that a full
import without error is possible, merely that the path to the import is
visible to the compiler and the module is loadable in some form or
another.
Note that this means this check is insufficient to guarantee that you
are on one platform or another. For those kinds of checks, use
‘os(OSNAME)’.
Like c70a5a5d67, but for deserialization. This was causing assertion
failures during the merge-module step of building a module that had a
private/fileprivate protocol with an associated type because the
associated type wouldn't have a valid private discriminator (because
the original source file didn't consider it to be private).
https://bugs.swift.org/browse/SR-2576
The handling of SIL box types in both deserialization and in the SIL
parser assumed that the number of substitutions in the box type would
be equivalent to the number of generic parameters. This assumption is
incorrect when the generic signature adds requirements to an
associated type.
Fixes rdar://problem/29740594.
Deserializing a generic environment can involve the type checker
(because it can cause the Clang importer to deserialize more), so we
cannot safely be completely lazy about a deserialized generic
environment if, e.g., SILGen or the AST verifier refers to
it. Therefore, implement a basic "pending actions" infrastructure so
that we will force the complete deserialization of any
lazily-deserialized generic environments when the outermost
deserialization of that ModuleFile occurs. This gives us the internal
laziness we need to wire up generic environments without being truly
lazy across compilation phases.
Fixes rdar://problem/29741827.
Fixes SR-2757.
Variables in capture lists are treated as 'let' constants, which can
result in misleading, incorrect diagnostics. Mark them as such in order
to produce better diagnostics, by adding an extra parameter to the
VarDecl initializer.
Alternatively, these variables could be marked as implicit, but that
results in other diagnostic problems: capture list variables that are
never used produce warnings, but these warnings aren't normally emitted for
implicit variables. Other assertions in the compiler also misfire when
these variables are treated as implicit.
Another alternative would be to walk up the AST and determine whether
the `VarDecl`, but there doesn't appear to be a way to do so.
This "fixes" two issues:
- The name of a non-public typealias would leak into the public
interface if the extension had any public members.
- A common pattern of defining a platform-specific typealias for an
imported class and then extending that type would lead to
circularity when trying to deserialize the typealias. We /shouldn't/
be loading the extension at that point, but fixing that would be
much harder.
The "right" answer is to (a) check that the typealias is public if the
extension has any public members, and (b) somehow ensure there is no
circularity issue (either by not importing the extension as a result
of importing the typealias, or by the extension being able to set its
sugared base type later).
rdar://problem/29694978
- The DeclContext versions of these methods have equivalents
on the DeclContext class; use them instead.
- The GenericEnvironment versions of these methods are now
static methods on the GenericEnvironment class. Note that
these are not made redundant by the instance methods on
GenericEnvironment, since the static methods can also be
called with a null GenericEnvironment, in which case they
just assert that the type is fully concrete.
- Remove some unnecessary #includes of ArchetypeBuilder.h
and GenericEnvironment.h. Now changes to these files
result in a lot less recompilation.
[semantic-sil] Add ValueOwnershipKind field to SILPHIArgument and split Argument creation methods into one for SILPHIArgument and another for SILFunctionArgument.
We preserve the current behavior of assuming Any ownership always and use
default arguments to hide this change most of the time. There are asserts now in
the SILBasicBlock::{create,replace,insert}{PHI,Function}Argument to ensure that
the people can only create SILFunctionArguments in entry blocks and
SILPHIArguments in non-entry blocks. This will ensure that the code in tree
maintains the API distinction even if we are not using the full distinction in
between the two.
Once the verifier is finished being upstreamed, I am going to audit the
createPHIArgument cases for the proper ownership. This is b/c I will be able to
use the verifier to properly debug the code. At that point, I will also start
serializing/printing/parsing the ownershipkind of SILPHIArguments, but lets take
things one step at a time and move incrementally.
In the process, I also discovered a CSE bug. I am not sure how it ever worked.
Basically we replace an argument with a new argument type but return the uses of
the old argument to refer to the old argument instead of a new argument.
rdar://29671437
For a long time, we have:
1. Created methods on SILArgument that only work on either function arguments or
block arguments.
2. Created code paths in the compiler that only allow for "function"
SILArguments or "block" SILArguments.
This commit refactors SILArgument into two subclasses, SILPHIArgument and
SILFunctionArgument, separates the function and block APIs onto the subclasses
(leaving the common APIs on SILArgument). It also goes through and changes all
places in the compiler that conditionalize on one of the forms of SILArgument to
just use the relevant subclass. This is made easier by the relevant APIs not
being on SILArgument anymore. If you take a quick look through you will see that
the API now expresses a lot more of its intention.
The reason why I am performing this refactoring now is that SILFunctionArguments
have a ValueOwnershipKind defined by the given function's signature. On the
other hand, SILBlockArguments have a stored ValueOwnershipKind. Rather than
store ValueOwnershipKind in both instances and in the function case have a dead
variable, I decided to just bite the bullet and fix this.
rdar://29671437
When deserializing a SIL generic environment, don't form generic type
parameter declarations that would have empty names; they print poorly
(as <anonymous>), breaking SIL parsing of the result.
Changes:
* Terminate all namespaces with the correct closing comment.
* Make sure argument names in comments match the corresponding parameter name.
* Remove redundant get() calls on smart pointers.
* Prefer using "override" or "final" instead of "virtual". Remove "virtual" where appropriate.
Serialization of the requirement-to-synthetic-environment map was
walking in DenseMap order. However, the keys to this map are
known---they're always the generic parameters of the requirement. So,
walk those generic parameters to make it deterministic, and don't
bother serializing them because they're known to the deserializer
already.
Fixes rdar://problem/29689811.
Serialize generic environments via a generic environment ID with a
separte offset table, so we have identity for the generic environments
and will share generic environments on deserialization.
- TypeAliasDecl::getAliasType() is gone. Now, getDeclaredInterfaceType()
always returns the NameAliasType.
- NameAliasTypes now always desugar to the underlying type as an
interface type.
- The NameAliasType of a generic type alias no longer desugars to an
UnboundGenericType; call TypeAliasDecl::getUnboundGenericType() if you
want that.
- The "lazy mapTypeOutOfContext()" hack for deserialized TypeAliasDecls
is gone.
- The process of constructing a synthesized TypeAliasDecl is much simpler
now; instead of calling computeType(), setInterfaceType() and then
setting the recursive properties in the right order, just call
setUnderlyingType(), passing it either an interface type or a
contextual type.
In particular, many places weren't setting the recursive properties,
such as the ClangImporter and deserialization. This meant that queries
such as hasArchetype() or hasTypeParameter() would return incorrect
results on NameAliasTypes, which caused various subtle problems.
- Finally, add some more tests for generic typealiases, most of which
fail because they're still pretty broken.
The substitution only replaces archetypes with abstract generic parameters, so no conformance lookup is necessary, and we can provide a "lookup" callback now that just vends abstract conformances.
(Ideally, we'd be able to do this for mapTypeIntoContext too, but we run into problems with generic signatures with same-type constraints on associated types with protocol requirements. Mapping `t_0_0.AssocType` into such a context will require conformance lookup for the concrete type replacement, since same-type Requirements don't preserve the conformances that satisfy the protocol requirements for the same-type relationship.)
This was in the first high level ARC instruction proposal, but I have not needed
it until now. The use case for this is to ahandle strong_retain_unowned (which
takes in an unowned value, asserts it is still alive, performs a strong_retain,
and returns the @owned value). This @owned value needs a destroy_value.
rdar://29671437
This simplifies the SILType substitution APIs and brings them in line with Doug and Slava's refactorings to improve AST-level type substitution. NFC intended.
