Enhance the utility with the ability to end lifetimes of lexical values
at indicated instructions, overriding the usual behavior of maintaining
such lifetimes' previous endpoints (modulo non-deinit-barrier
instructions).
Parameterized `extendUnconsumedLiveness` on the ends of interest and the
action to take when visiting the extended boundary and named the
resulting function `visitExtendedUnconsumedBoundary`.
The reason why we are doing this is that otherwise, we have that the alloc_stack
formed for the result is disconnected and despite the fact that we merge it into
the actor region of the class method, we do not have that the alloc_stack
specifically is marked when we attempt to squelch Please.
This patch fixes that problem by detecting when an alloc_stack is being used as
a temporary for an out parameter and makes the alloc_stack initially isolated as
appropriate. It only does this in the specific cases where we can pattern match
it which in my limited testing has handled everything.
When merging SILIsolationInfo for regions, we want to drop
nonisolated(unsafe). This is important since nonisolated(unsafe) should only
apply to the specific "value" that it belongs to, not the entire region.
This creates a problem since in a few places in the code base we initialize a
value (producing a disconnected value) and then initialize it by merging in an
actor isolation. This no longer work since we will then always have
nonisolated(unsafe) stripped, so no values would ever be considered to be
nonisolated(unsafe). After analyzing the use case, I realized that these were
just initialization patterns and in this commit, I added a specific
initialization operation called SILIsolationInfo::initializeTrackableValue and
eliminated those calls to SILIsolationInfo::mergeIsolationRegionInfo.
Since SILIsolationInfo no longer has any merge operation on it, I then
eliminated that code in this commit. This completes the behavior split that I
put into the type system in the last commit. Specifically, I defined a
composition type called SILDynamicMergedIsolationInfo. It represents a
SILIsolationInfo that has been merged... that is why I called it the
DynamicMergedIsolationInfo. It could probably use a better name = (.
This fixes one of the last weird test case that I wrote where we were not letting through valid
nonisolated(unsafe) code.
At the same time, I discovered an additional issue (which can be seen in the
TODOs in this commit), where we are being too conservative around a non-Sendable
class var field. I am going to fix that in the next commit.
rdar://128299305
DISCUSSION: The analysis itself is unable to emit errors. So we achieve the same
functionality by in such cases emitting a partition op that signals to our user
that when they process that partition op they should emit an "unknown pattern"
error at the partition op's instructions.
I have wanted this for a long time, but I never got around to it.
Specifically, I introduced a new composition type called
SILDynamicMergedIsolationInfo that just contains a
SILIsolationInfo. Importantly, whenever one merges a SILIsolationInfo with
another SILIsolationInfo, one gets back a SILDynamicMergedIsolationInfo.
The reason why I am doing this is that we drop nonisolated(unsafe) when merging
so I want to ensure that parts of the code that use merging (where the dropping
occurs) and normal SILIsolationInfo where we do not want to merge is
distinguished.
I made sure we match what we get without region isolation by turning off region
isolation in one of the test runs on the test for this.
There is one problem where for non-final classes with nonisolated(unsafe) var
fields, we currently do not properly squelch since I need to do more
infrastructure work. I am going to do that in the next commit.
rdar://128299305
The design change here is that instead of just initializing the regionInfo with
disconnected, we set it as .none and if we see .none, just return a newly
construct disconnected isolation region info when getIsolationRegionInfo() is
called.
This enables us to provide a setIsolationRegionInfo() helper for
RegionAnalysisValueMap::getTrackableValue that does not perform a merge. This is
important since for nonisolated(unsafe), we want to not have nonisolated(unsafe)
propagate through merging. So if we use merging to initialize the internal
regionInfo state of a SILIsolationInfo, we will never have a SILIsolationInfo
with that bit set since it will be lost in the merge. So we need some sort of
other assignment operator. Noting that we should only compute a value's
SILIsolationInfo once in RegionAnalysisValueMap before we cache it in the map,
it made sense to just represent it as an optional that way we can guarantee that
the regionInfo is only ever set exactly once by that routine.
[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
We still only parse transferring... but this sets us up for adding the new
'sending' syntax by first validating that this internal change does not mess up
the current transferring impl since we want both to keep working for now.
rdar://128216574
This ensures that we can properly compute isolation for generic types that
conform to AnyActor.
I found this by playing with test cases from the previous commit. We would not
find an actor type for the actor instance isolation and would fall back along an
incorrect path.
rdar://128021548
As part of this I went through how we handled inference and rather than using a
grab-bag getActorIsolation that was confusing to use, I created split APIs for
specific use cases (actor instance, global actor, just an apply expr crossing)
that makes it clearer inside the SILIsolationInfo::get* APIs what we are
actually trying to model. I found a few issues as a result and fixed most of
them if they were small. I also fixed one bigger one around computed property
initializers in the next commit. There is a larger change I didn't fix around allowing function
ref/partial_apply with isolated self parameters have a delayed flow sensitive
actor isolation... this will be fixed in a subsequent commit.
This also fixes a bunch of cases where we were printing actor-isolated instead
of 'self' isolated.
rdar://127295657
The new `swift-driver` seems to enqueue a `wrapmodule` job which uses
the given `module-name` to form the output file name when not doing
optmizations (seems to happen only for `-Onone` in my testing). Since the
CMake functions macros are using the module name also as the explicit output
name, this clashes and ends up in an unhelpful error message from the driver.
```
SwiftDriverExecution/MultiJobExecutor.swift:207: Fatal error: multiple
producers for output ... SwiftCompilerSources/Basic.o: Wrapping Swift
module Basic & Compiling Basic SourceLoc.swift
```
This was reported in https://forums.swift.org/t/debug-swift-build-fails/71380
The changes use a different output object name (by using `.object.o`
suffix) which does not clash with what the `swift-driver` does
automatically. The code around the output objects and the static
libraries have to change slightly to handle this case.
Additionally, the resulting library when in `Debug` is now declaring its
dependency on `swiftSwiftOnoneSupport`, to avoid linking errors when the
libraries are used in the final binaries.
Debug mode seems to enable PURE_BRIDGING_MODE, which seems to skip
transitively including some C headers that files like
`Utilities/Test.swift` depend on. To avoid errors building, add the
missing include in a new `#else` branch.
I think CI will not test the `Debug` mode, so the only thing that it can prove is
that these changes do not break the `Release` mode.
Changes in this CR add part of the, Swift based, Autodiff specific
closure specialization optimization pass. The pass does not modify any
code nor does it even exist in any of the optimization pipelines. The
rationale for pushing this partially complete optimization pass upstream
is to keep up with the breaking changes in the underlying Swift based
compiler infrastructure.
The reason why I am doing this is that I am going to be adding support for
preconcurrency imports to TransferNonSendable. That implies that we can have
preconcurrency import suppression in the SIL pipeline and thus that emitting the
diagnostic in Sema is too early.
To do this, I introduced a new module pass called
DiagnoseUnnecessaryPreconcurrencyImports that runs after the SILFunction pass
TransferNonSendable. The reason why I use a module pass is to ensure that
TransferNonSendable has run on all functions before we attempt to emit these
diagnostics. Then in that pass, we iterate over all of the modules functions and
construct a uniqued array of SourceFiles for these functions. Then we iterate
over the uniqued SourceFiles and use the already constructed Sema machinery to
emit the diagnostic using the source files.
rdar://126928265
Specifically, the partition unit tests pass in bogus instructions/operands so we
cannot call /any/ methods on them. So I created stubed out helpers on the
evaluator that in the case of mocking just return a default initialized
SILIsolationInfo().
I have been using these in TransferNonSendable and they are useful in terms of
reducing the amount of code that one has to type to use this API. I am going to
need to use it in SILIsolationInfo, so it makes sense to move it into
SILOptimizer/Utils.
NFCI.
