In preparation for only recording the defs once, replace the
GraphNodeWorklist of defs with a SetVector. Preserve the current
visitation order by creating a worklist of indices to be visited.
When rewriting uses, determine how that rewriting should proceed based
on the kind of def whose use is being visited. Direct uses of reborrows
and borrowed-froms never need to be rewritten because every such use is
a use of a guaranteed value and can never require a copy.
Add a type which distinguishes among the types of defs that are pushed
onto the "def-use worklist". Note that it's not possible to rely on the
kind of value because the root may itself be a copy_value. For now, the
distinction is discarded as soon as the def is visited.
In terms of the test suite the only difference is that we allow for non-Sendable
types to be returned from nonisolated functions. This is safe due to the rules
of rbi. We do still error when we return non-Sendable functions across isolation
boundaries though.
The reason that I am doing this now is that I am implementing a prototype that
allows for nonisolated functions to inherit isolation from their caller. This
would have required me to implement support both in Sema for results and
arguments in SIL. Rather than implement results in Sema, I just finished the
work of transitioning the result checking out of Sema and into SIL. The actual
prototype will land in a subsequent change.
rdar://127477211
I am doing this since I discovered that we are not printing certain errors as
early as we used to (due to the refactoring I did here), which makes it harder
to see the errors that we are emitting while processing individual instructions
and before we run the actual dataflow.
A nice side-effect of this is that it will make it easy to dump the error in the
debugger rather than having to wait until the point in the code where the normal
logging takes place.
A begin_apply token may be used by operands that do not end the coroutine:
mark_dependence.
We need an API that gives us only the coroutine-ending uses. This blocks
~Escapable accessors.
end_borrow is considered coroutine-ending even though it does not actually
terminate the coroutine.
We cannot simply ask isLifetimeEnding, because end_apply and abort_apply do not
end any lifetime.
The conformances no longer match the replacement types after the
transformation here, so we must look them up again. This is now
flagged by SubstitutionMap::verify().
Make sure that an enum is only initialized once before it is taken. This implies that the initialization must dominate the take.
Fixes a verifier crash: rdar://139381701
In case the control flow ends in a dead-end block there can be begin-borrow instructions which have no corresponding end-borrow uses.
After duplicating such a block, the re-borrow flags cannot be recomputed correctly for inserted phi arguments.
Therefore just disable duplicating such blocks, e.g. in jump-threading.
This API computes the re-borrow flags for guaranteed phis based on the presence of forwarding instructions in the incoming values.
This is not correct in all cases, because optimizations can optimize away forwarding instructions.
Fixes a verifier crash: rdar://139280579
I am adding this instruction to express artificially that two non-Sendable
values should be part of the same region. It is meant to be used in cases where
due to unsafe code using Sendable, we stop propagating a non-Sendable dependency
that needs to be made in the same region of a use of said Sendable value. I
included an example in ./docs/SIL.rst of where this comes up with @out results
of continuations.
This makes it so that one does not need to deal with the differences in text in
between the task isolated case and the actor isolated case. This is done by
swallowing the entire part of this message in one method rather than having the
caller do the work.
* fix a false error if a derived class has different generic parameters than its base class
* fix a similar problem if a non-generic class derives from a generic class
* fix a compiler crash for calling a class method on a class metatype
rdar://137692055
When its operand has coroutine kind `yield_once_2`, a `begin_apply`
instruction produces an additional value representing the storage
allocated by the callee. This storage must be deallocated by a
`dealloc_stack` on every path out of the function. Like any other stack
allocation, it must obey stack discipline.
Pre-specialization of `Array._endMutation` (for AnyObject) prevents inlining this function and that results in sub-optimal code.
This function is basically a no-op. So it should be inlined.
Unfortunately we cannot remove the specialize-attributes anymore because the pre-specialized function(s) are now part of the stdlib's ABI.
Therefore make an exception for `Array._endMutation` in the generic specializer.
