Opaque return types are special type declarations that have it
own nested generic signature. Thus, given this:
```
protocol P<A> { associatedtype A: ~Copyable }
func f<T: ~Copyable>() -> some P<T> {}
```
The generic signature for f is <T where T Escapable>, and
for the opaque return type, its nested signature ends up as
```
<X where X: P, X.A == T>
```
With SE-503, we will now also expand a default for the suppressed
primary associated type, so the signature after expansion becomes
```
<X where X: P, X.A == T, X.A: Copyable>
```
It would be smarter to effectively have this rule
```
X.A == T, T: ~Copyable
----------------------
X.A: ~Copyable
```
where we infer the inverse on X.A to cancel-out the
expanded default X.A: Copyable. We already do this for
two in-scope type parameters, and it would be better if
we did it if one side was out-of-scope, but that would
be source-breaking to do in general.
In the case of opaque return types, the fact that
it has a nested generic signature seems more an
artifact of the implementation. There also is little
risk of source break, as the only kinds of same-type
requirements that can appear are from parameterized
protocol type.
The experimental suppressed associated types prior to
SE-503 wouldn't be broken by this change, as they do
not infer defaults that need suppression, and we only
filter-out requirements from defaults expansion, rather
than explicitly-written ones.
rdar://175500824
There's a need for more control over how default requirements
for conformance to Copyable/Escapable are expanded, and
subsequently how inverses are applied or inferred to cancel-out
those defaults.
The pattern of `/*applyInverses*/BOOL` is insufficient, so this
is a refactoring to grow that into a proper type that carries
an option that can be used in some future scenario about inferring
inverses for opaque return types.
Prevents situations when actor isolation ends up not being set
un-intentionally i.e. when cloning, specializating, or creating
thunks.
The thunks get `unspecified` isolation at the moment.
SIL functions should always have actor isolation set, otherwise
it could lead to wrong deductions in optimization passes like
`SendNonSendable` or `OptimizeHopToExecutor`.
This is a first step to move isolation assignment into
`SILFunction::create`.
There are passes that rely on the isolation being present after
specialization and other optmizations i.e. `SendNonSendable` which
means the clones need to always preserve the isolation of the
original function.
If the thunk calls to a no-return function, it is ended with an `unreachable`. This may introduce incomplete lifetimes.
Fixes a compiler crash
rdar://169555460
This new OSSA invariant simplifies many optimizations because they don't have to take care of the corner case of incomplete lifetimes in dead-end blocks.
The implementation basically consists of these changes:
* add the lifetime completion utility
* add a flag in SILFunction which tells optimization that they need to run the lifetime completion utility
* let all optimizations complete lifetimes if necessary
* enable the ownership verifier to check complete lifetimes
These two new invariants eliminate corner cases which caused bugs if optimization didn't handle them.
Also, it will significantly simplify lifetime completion.
The implementation basically consists of these changes:
* add a flag in SILFunction which tells optimization if they need to take care of infinite loops
* add a utility to break infinite loops
* let all optimizations remove unreachable blocks and break infinite loops if necessary
* add verification to check the new SIL invariants
The new `breakIfniniteLoops` utility breaks infinite loops in the control flow by inserting an "artificial" loop exit to a new dead-end block with an `unreachable`.
It inserts a `cond_br` with a `builtin "infinite_loop_true_condition"`:
```
bb0:
br bb1
bb1:
br bb1 // back-end branch
```
->
```
bb0:
br bb1
bb1:
%1 = builtin "infinite_loop_true_condition"() // always true, but the compiler doesn't know
cond_br %1, bb2, bb3
bb2: // new back-end block
br bb1
bb3: // new dead-end block
unreachable
```
It needs to be the address type of the opened type and not the object type.
Unfortunately I don't have a test case for this fix.
Fixes a compiler crash
rdar://162149588
The intent for `@inline(always)` is to act as an optimization control.
The user can rely on inlining to happen or the compiler will emit an error
message.
Because function values can be dynamic (closures, protocol/class lookup)
this guarantee can only be upheld for direct function references.
In cases where the optimizer can resolve dynamic function values the
attribute shall be respected.
rdar://148608854
While the intent behind this functor was noble, it has grown in complexity
considerably over the years, and it seems to be nothing but a source of
crashes in practice. I don't want to deal with it anymore, so I've decided
to just subsume all usages with LookUpConformanceInModule instead.
Some requirement machine work
Rename requirement to Value
Rename more things to Value
Fix integer checking for requirement
some docs and parser changes
Minor fixes
It's not safe to insert a compensating release_value at the call site.
This release_value calls the deinit which might have been already de-virtualized in the callee.
Create two versions of the following functions:
isConsumedParameter
isGuaranteedParameter
SILParameterInfo::isConsumed
SILParameterInfo::isGuaranteed
SILArgumentConvention::isOwnedConvention
SILArgumentConvention::isGuaranteedConvention
These changes will be needed when we add a new convention for
non-trivial C++ types as the functions will return different answers
depending on whether they are called for the caller or the callee. This
commit doesn't change any functionality.
Although I don't plan to bring over new assertions wholesale
into the current qualification branch, it's entirely possible
that various minor changes in main will use the new assertions;
having this basic support in the release branch will simplify that.
(This is why I'm adding the includes as a separate pass from
rewriting the individual assertions)
[serialized_for_package] if Package CMO is enabled. The latter kind
allows a function to be serialized even if it contains loadable types,
if Package CMO is enabled. Renamed IsSerialized_t as SerializedKind_t.
The tri-state serialization kind requires validating inlinability
depending on the serialization kinds of callee vs caller; e.g. if the
callee is [serialized_for_package], the caller must be _not_ [serialized].
Renamed `hasValidLinkageForFragileInline` as `canBeInlinedIntoCaller`
that takes in its caller's SerializedKind as an argument. Another argument
`assumeFragileCaller` is also added to ensure that the calle sites of
this function know the caller is serialized unless it's called for SIL
inlining optimization passes.
The [serialized_for_package] attribute is allowed for SIL function, global var,
v-table, and witness-table.
Resolves rdar://128406520
Bail on non-consuming existential values which are move-only.
Existential specialization requires creating a copy in such cases and
that's illegal for move-only values.
LLVM is presumably moving towards `std::string_view` -
`StringRef::startswith` is deprecated on tip. `SmallString::startswith`
was just renamed there (maybe with some small deprecation inbetween, but
if so, we've missed it).
The `SmallString::startswith` references were moved to
`.str().starts_with()`, rather than adding the `starts_with` on
`stable/20230725` as we only had a few of them. Open to switching that
over if anyone feels strongly though.
Ad-hoc requirements are now obsolete by making `remoteCall`,
`record{Argument, ReturnType}`, `decodeNextArgument` protocols
requirements and injecting witness tables for `SerializationRequirement`
conformances during IRGen.
There are a bunch of static `collectExistentialConformances` copied
around Sema and SILGen that are almost the same, save for whether they
want to permit missing conformances and/or check conditional
conformances.
This commit requestifies and combines all but one of these functions
into a `ModuleDecl::collectExistentialConformances`. The motivation for
this clean-up is another place that will need this procedure.
KeyPath's getter/setter/hash/equals functions have their own calling
convention, which receives generic arguments and embedded indices from a
given KeyPath argument buffer.
The convention was previously implemented by:
1. Accepting an argument buffer as an UnsafeRawPointer and casting it to
indices tuple pointer in SIL.
2. Bind generic arguments info from the given argument buffer while emitting
prologue in IRGen by creating a new forwarding thunk.
This 2-phase lowering approach was not ideal, as it blocked KeyPath
projection optimization [^1], and also required having a target arch
specific signature lowering logic in SIL-level [^2].
This patch centralizes the KeyPath accessor calling convention logic to
IRGen, by introducing `@convention(keypath_accessor_XXX)` convention in
SIL and lowering it in IRGen. This change unblocks the KeyPath projection
optimization while capturing subscript indices, and also makes it easier
to support WebAssembly target.
[^1]: https://github.com/apple/swift/pull/28799
[^2]: https://forums.swift.org/t/wasm-support/16087/21
Reformatting everything now that we have `llvm` namespaces. I've
separated this from the main commit to help manage merge-conflicts and
for making it a bit easier to read the mega-patch.
Kavon Farvardin
Pavel Yaskevich
Pavel Yaskevich
Erik Eckstein
Slava Pestov
Arnold Schwaighofer
Meghana Gupta
Ludwig Hollmann
Meghana Gupta
Kuba Mracek
Alejandro Alonso
Tim Kientzle
Akira Hatanaka
nate-chandler
Ellie Shin
Nate Chandler
Ben Barham
Doug Gregor
Yuta Saito
Evan Wilde