Codegen is the same, but `begin_dealloc_ref` consumes the operand and produces a new SSA value.
This cleanly splits the liferange to the region before and within the destructor of a class.
Although by analogy with def instructions as barrier instructions one
could understand how a block where the def appears as a phi could be
regarded as a barrier block, the analogy is nonobvious.
Reachability knows the difference between an initial block and a barrier
block. Although most current clients don't care about this distinction,
one does. Here, Reachability calls back with visitInitialBlock for the
former and visitBarrierBlock for the latter.
Most clients are updated to have the same implementation in both
visitBarrierBlock and visitInitialBlock. The findBarriersBackward
client is updated to retain the distinction and pass it on to its
clients. Its one client, CanonicalizeOSSALifetime is updated to have a
simpler handling for barrier edges and to ignore the initial blocks.
We already use a complexity limit for other functions in AliasAnalysis.
This is a workaround for quadratic complexity in ARCSequenceOpts.
Fixes a compile time problem
rdar://114352817
When serializing modules with `-experimental-skip-all-function-bodies`, this
analysis was eagerly populating a cache that would go unused since there is no
optimization to do. With `-experimental-lazy-typecheck`, this work would also
trigger unnecessary typechecking requests. NFC.
When serializing modules with `-experimental-skip-all-function-bodies`, this
analysis was eagerly populating a cache that would go unused since there is no
optimization to do. With `-experimental-lazy-typecheck`, this work would also
trigger unnecessary typechecking requests. NFC.
I was originally hoping to reuse mark_must_check for multiple types of checkers.
In practice, this is not what happened... so giving it a name specifically to do
with non copyable types makes more sense and makes the code clearer.
Just a pure rename.
Introduce the notion of "semantic result parameter". Handle differentiation of inouts via semantic result parameter abstraction. Do not consider non-wrt semantic result parameters as semantic results
Fixes#67174
`ReadOnly`/`ArgMemOnly` were mostly moved over, but a few were missed.
Update them all. Also default to `unknown` for no memory effects rather
than none (ie. we should be conservative).
llvm::SmallSetVector changed semantics
(https://reviews.llvm.org/D152497) resulting in build failures in Swift.
The old semantics allowed usage of types that did not have an
`operator==` because `SmallDenseSet` uses `DenseSetInfo<T>::isEqual` to
determine equality. The new implementation switched to using
`std::find`, which internally uses `operator==`. This type is used
pretty frequently with `swift::Type`, which intentionally deletes
`operator==` as it is not the canonical type and therefore cannot be
compared in normal circumstances.
This patch adds a new type-alias to the Swift namespace that provides
the old semantic behavior for `SmallSetVector`. I've also gone through
and replaced usages of `llvm::SmallSetVector` with the
`Swift::SmallSetVector` in places where we're storing a type that
doesn't implement or explicitly deletes `operator==`. The changes to
`llvm::SmallSetVector` should improve compile-time performance, so I
left the `llvm::SmallSetVector` where possible.
Sometimes when building the SwiftCompilerSources with a host compiler, linking fails with unresolved symbols for DenseMap and unique_ptr destroys.
This looks like a problem with C++ interop: the compiler thinks that destructors for some Analysis classes are materialized in the SwiftCompilerSources, but they are not.
Explicitly defining those destructors fixes the problem.
So far we unconditionally treated `store [assign]` to have side effects because it destructs the old value.
But we can do better by checking if the address in question actually can escape to a destructor.
This is code that I am fairly familiar with but it still took a day of
investigation to figure out how it is supposed to be used now in the
presence of bridging.
This primarily involved ruling out the possibity that the mid-level
Swift APIs could at some point call into the lower-level C++ APIs.
The biggest problem was that AliasAnalysis::getMemoryBehaviorOfInst()
was declared as a public interface, and it's name indicates that it
computes the memory behavior. But it is just a wrapper around a Swift
API and never actually calls into any of the C++ logic that is
responsible for computing memory behavior!
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.
This is phase-1 of switching from llvm::Optional to std::optional in the
next rebranch. llvm::Optional was removed from upstream LLVM, so we need
to migrate off rather soon. On Darwin, std::optional, and llvm::Optional
have the same layout, so we don't need to be as concerned about ABI
beyond the name mangling. `llvm::Optional` is only returned from one
function in
```
getStandardTypeSubst(StringRef TypeName,
bool allowConcurrencyManglings);
```
It's the return value, so it should not impact the mangling of the
function, and the layout is the same as `std::optional`, so it should be
mostly okay. This function doesn't appear to have users, and the ABI was
already broken 2 years ago for concurrency and no one seemed to notice
so this should be "okay".
I'm doing the migration incrementally so that folks working on main can
cherry-pick back to the release/5.9 branch. Once 5.9 is done and locked
away, then we can go through and finish the replacement. Since `None`
and `Optional` show up in contexts where they are not `llvm::None` and
`llvm::Optional`, I'm preparing the work now by going through and
removing the namespace unwrapping and making the `llvm` namespace
explicit. This should make it fairly mechanical to go through and
replace llvm::Optional with std::optional, and llvm::None with
std::nullopt. It's also a change that can be brought onto the
release/5.9 with minimal impact. This should be an NFC change.
* Check if the address in question is even visible from outside the function
* Return the memory effects of the called function
Also, add a new API `Instruction.memoryEffects`, which is internally used by `mayReadFromMemory` et al.
It is legal for a `move_value` to appear as a transitive user of a
`partial_apply`. Look through those like the other ownership
instructions.
rdar://107963619
`isSuccessorBlock` and `isPredecessorBlock` are dangerous because they can easily lead to quadratic behavior.
Fortunately they are not used anywhere (except in one place for verification, which I rewrote).
Provide ASTWalker with a customization point to specify whether to
check macro arguments (which are type checked but never emitted), the
macro expansion (which is the result of applying the macro and is
actually emitted into the source), or both. Provide answers for the
~115 different ASTWalker visitors throughout the code base.
Fixes rdar://104042945, which concerns checking of effects in
macro arguments---which we shouldn't do.
The `isEscaping` function is called a lot from ARCSequenceOpt and ReleaseHoisting.
To avoid quadratic complexity for large functions, limit the amount of work what the EscapeUtils are allowed to to.
This keeps the complexity linear.
The arbitrary limit is good enough for almost all functions.
It lets the EscapeUtils do several hundred up/down walks which is much more than needed in most cases.
Fixes a compiler hang
https://github.com/apple/swift/issues/63846
rdar://105795976
Although nonescaping closures are representationally trivial pointers to their
on-stack context, it is useful to model them as borrowing their captures, which
allows for checking correct use of move-only values across the closure, and
lets us model the lifetime dependence between a closure and its captures without
an ad-hoc web of `mark_dependence` instructions.
During ownership elimination, We eliminate copy/destroy_value instructions and
end the partial_apply's lifetime with an explicit dealloc_stack as before,
for compatibility with existing IRGen and non-OSSA aware passes.
