In case of partial specialization, the replacement type of a substitution can be generic.
I couldn't find a small unit test for this bug fix. But it is tested by compiling the stdlib with the change in Collection.swift.
rdar://problem/36033852
We can just !SILFunction::hasQualifiedOwnership(). Plus as Andy pointed out,
even ignoring the functional aspects, having APIs with names this close can
create confusion.
We don't have a way to represent a cast in SIL where the destination
type introduces new archetypes that depend on the input value, sort
of like opening an existential.
Previously we would only rule out the case where the class itself
was generic, but a class can also be nested inside another generic
context.
Fixes <rdar://problem/35478838>.
We would leak AnyHashable or other bridged address-only value types when turning a take-always cast into a bridging call, since the bridging method takes the value as guaranteed and we didn't arrange to destroy the value after the bridging happened. The code had unnecessarily different paths for indirect and direct arguments, and furthermore, has an untestable path for when the self argument of the bridging method is taken at +1 (when it's currently only ever +0). Join up the direct and indirect logic, and move the handling of differences down to where we introduce retain/releases so that we generate in-memory operations when appropriate. Fixes SR-6465 | rdar://problem/35678523.
Adds a combined API to output both debug message and optimization remarks.
The previously added test partial_specialization_debug.sil ensures that it's an
NFC for debug output.
Currently, the ownership verifier assumes that all cond_br with critical edges
do not have non-trivial arguments. This utility method fixes any such issues and
should be run /after/ any passes that mess with the CFG in ownership SIL if this
could come up.
Chopping this off of a larger commit.
rdar://31521023
For now these are underscored attributes, i.e. compiler internal attributes:
@_optimize(speed)
@_optimize(size)
@_optimize(none)
Those attributes override the command-line specified optimization mode for a specific function.
The @_optimize(none) attribute is equivalent to the already existing @_semantics("optimize.sil.never") attribute
This commit is mostly refactoring.
*) Introduce a new OptimizationMode enum and use that in SILOptions and IRGenOptions
*) Allow the optimization mode also be specified for specific SILFunctions. This is not used in this commit yet and thus still a NFC.
Also, fixes a minor bug: we didn’t run mandatory IRGen passes for functions with @_semantics("optimize.sil.never")
This helper utility given a set of uses/defs determines the set of blocks that
together with the user blocks jointly post-dominate the def blocks. In a sense
this is completing the providing set of user blocks to a joint-post dominating
set. This completion is not unique.
I am adding this method because often times when working with Ownership SIL, one
needs to hoist/sink operations and then compensate to ensure that ownership
properties are still preserved.
I think with a little bit of work I can get the ownership model eliminator to
use this routine (since the condition for ownership to be correct on an @owned
value is an empty joint-post dominating completion. I wrote it b/c I need it in
pred-memopts and I expect it to be a general useful routine for Ownership SIL.
rdar://31521023
Support for @noescape SILFunctionTypes.
These are the underlying SIL changes necessary to implement the new
closure capture ABI.
Note: This includes a change to function name mangling that
primarily affects reabstraction thunks.
The new ABI will allow stack allocation of non-escaping closures as a
simple optimization.
The new ABI, and the stack allocation optimization, also require
closure context to be @guaranteed. That will be implemented as the
next step.
Many SIL passes pattern match partial_apply sequences. These all
needed to be fixed to handle the convert_function that SILGen now
emits. The conversion is now needed whenever a function declaration,
which has an escaping type, is passed into a @NoEscape argument.
In addition to supporting new SIL patterns, some optimizations like
inlining and SIL combine are now stronger which could perturb some
benchmark results.
These underlying SIL changes should be merged now to avoid conflicting
with other work. Minor benchmark discrepancies can be investigated as part of
the stack-allocation work.
* Add a noescape attribute to SILFunctionType.
And set this attribute correctly when lowering formal function types to SILFunctionTypes based on @escaping.
This will allow stack allocation of closures, and unblock a related ABI change.
* Flip the polarity on @noescape on SILFunctionType and clarify that
we don't default it.
* Emit withoutActuallyEscaping using a convert_function instruction.
It might be better to use a specialized instruction here, but I'll leave that up to Andy.
Andy: And I'll leave that to Arnold who is implementing SIL support for guaranteed ownership of thick function types.
* Fix SILGen and SIL Parsing.
* Fix the LoadableByAddress pass.
* Fix ClosureSpecializer.
* Fix performance inliner constant propagation.
* Fix the PartialApplyCombiner.
* Adjust SILFunctionType for thunks.
* Add mangling for @noescape/@escaping.
* Fix test cases for @noescape attribute, mangling, convert_function, etc.
* Fix exclusivity test cases.
* Fix AccessEnforcement.
* Fix SILCombine of convert_function -> apply.
* Fix ObjC bridging thunks.
* Various MandatoryInlining fixes.
* Fix SILCombine optimizeApplyOfConvertFunction.
* Fix more test cases after merging (again).
* Fix ClosureSpecializer. Hande convert_function cloning.
Be conservative when combining convert_function. Most of our code doesn't know
how to deal with function type mismatches yet.
* Fix MandatoryInlining.
Be conservative with function conversion. The inliner does not yet know how to
cast arguments or convert between throwing forms.
* Fix PartialApplyCombiner.
Except GenericEnvironment.h, because you can't meaningfully use a
GenericEnvironment without its signature. Lots less depends on
GenericSignature.h now. NFC
Now that the GenericSignatureBuilder is no longer sensitive to the input
module, stop uniquing the canonical GSBs based on that module. The main
win here is when deserializing a generic environment: we would end up
creating a canonical GSB in the module we deserialized and another
canonical GSB in the module in which it is used.
Implement a module-agnostic conformance lookup operation within the GSB
itself, so it does not need to be supplied by the code constructing the
generic signature builder. This makes the generic signature builder
(closer to) being module-agnostic.
This replaces the '[volatile]' flag. Now, class_method and
super_method are only used for vtable dispatch.
The witness_method instruction is still overloaded for use
with both ObjC protocol requirements and Swift protocol
requirements; the next step is to make it only mean the
latter, also using objc_method for ObjC protocol calls.
Pre-specializations need some special handling when it comes to the Serialized attribute. Their bodies should not be SIL serialized. Instead, only their declarations should be serialized.
And since their bodies are not serialized and cannot be imported by the client code, it is OK if pre-specializations reference non-fragile functions inside their bodies. Due to the same reason, it is fine if pre-specializations are referenced from fragile functions, even though these pre-specializations are not fragile in a usual sense.
Once we compute a generic signature from a generic signature builder,
all queries involving that generic signature will go through a separate
(canonicalized) builder, and the original builder can no longer be used.
The canonicalization process then creates a new, effectively identical
generic signature builder. How silly.
Once we’ve computed the signature of a generic signature builder, “register”
it with the ASTContext, allowing us to move the existing generic signature
builder into place as the canonical generic signature builder. The builder
requires minimal patching but is otherwise fully usable.
Thanks to Slava Pestov for the idea!
Funnel all places where we create a generic signature builder to compute
the generic signature through a single entry point in the GSB
(`computeGenericSignature()`), and make `finalize` and `getGenericSignature`
private so no new uses crop up.
Tighten up the signature of `computeGenericSignature()` so it only works on
GSB rvalues, and ensure that all clients consider the GSB dead after that
point by clearing out the internal representation of the GSB.
