There are now separate functions for function addition and deletion instead of InvalidationKind::Function.
Also, there is a new function for witness/vtable invalidations.
rdar://problem/29311657
Previously it was part of swiftBasic.
The demangler library does not depend on llvm (except some header-only utilities like StringRef). Putting it into its own library makes sure that no llvm stuff will be linked into clients which use the demangler library.
This change also contains other refactoring, like moving demangler code into different files. This makes it easier to remove the old demangler from the runtime library when we switch to the new symbol mangling.
Also in this commit: remove some unused API functions from the demangler Context.
fixes rdar://problem/30503344
Partial specialization is disabled by default. Use -sil-partial-specialization to enable it.
Use -sil-partial-specialization-with-generic-substitutions to enable the partial specialization even in cases of substitutions containing generic replacement types.
It looks like the devirtualizer used to have problems computing
method types in the presence of generic substitutions, covariant
returns and other things, so it would bail if a perticular set
of pre-conditions was not met on the types of original method call
and the devirtualized method call.
I don't think any of this is necessary anymore. If this patch
introduces any regressions, we need to fix the root cause instead
of re-introducing this logic.
It is important to de-serialize the devirtualized function (and its callees), especially because we must make sure that all transparent functions are de-serialized.
SILCombine did not do that. But as we have the same optimization in the Devirtualizer, it's not needed to duplicate the code in SILCombine.
The only reason we had this peephole in SILCombine is that the Devirtualizer pass could not handle partial applies.
So with this change the Devirtualizer can now also handle partial applies.
Fixes rdar://problem/30544344 (again, after my first attempt failed)
This predicate can be used to check if a given call can be devirtualized. One of the clients of this new API will be the inliner, which may want to check if a given method call becomes devirtualizable after inlining.
This reverts commit 1b3d29a163, reversing
changes made to b32424953e.
We're seeing a handful of issues from turning on inlining of generics,
so I'm reverting to unblock the bots.
It is now possible to check for any apply if it can be devirtualized without actually performing the deirtualization. This could be used e.g. by inlining heuristics.
There is already precedence for doing this via DominanceInfo. The reason I am
doing this is that I need the ownership verifier to be able to be run in Raw SIL
before no return folding has run. This means I need to be able to ignore
unreachable code resulting from SILGen not inserting unreachables after no
return functions.
The reason why SILGen does this is to preserve the source information of the
unreachable code so that we can emit nice errors about unreachable code.
rdar://29791263
SubstitutionList is going to be a more compact representation of
a SubstitutionMap, suitable for inline allocation inside another
object.
For now, it's just a typedef for ArrayRef<Substitution>.
Print the SIL function body on an assert. Recovering the SIL code is the
critical path for pretty much any SIL development. The only alternative is
rebuilding the library with string matching or building a debug compiler and
hoping lldb works. The standard library takes a very long time to build with a
debug compiler.
Separate formal lowered types from SIL types.
The SIL type of an argument will depend on the SIL module's conventions.
The module conventions are determined by the SIL stage and LangOpts.
Almost NFC, but specialized manglings are broken incidentally as a result of
fixes to the way passes handle book-keeping of aruments. The mangler is fixed in
the subsequent commit.
Otherwise, NFC is intended, but quite possible do to rewriting the logic in many
places.
Names matter. When using an unsigned int to index arguments, always make it
clear what the index refers to. It is a particularly confusing in this code because:
- mangling should not care about argument indices at all, only the function type should matter.
- argument indices for a given function type may be different depending on the SIL stage.
- these indices are actually a contract between the client code and the mangler.
- the specialized function's argument indices are different than the original indices!
This issue was hiding bugs in the mangler. The bug fixes will be in a separate PR.
Not sure why but this was another "toxic utility method".
Most of the usages fell into one of three categories:
- The base value was always non-null, so we could just call
getCanonicalType() instead, making intent more explicit
- The result was being compared for equality, so we could
skip canonicalization and call isEqual() instead, removing
some boilerplate
- Utterly insane code that made no sense
There were only a couple of legitimate uses, and even there
open-coding the conditional null check made the code clearer.
Also while I'm at it, make the SIL open archetypes tracker
more typesafe by passing around ArchetypeType * instead of
Type and CanType.
Hoist alloc_stack instructions of 'generic' or resilient type to the entry
block. At the same time also perform a very simple stack coloring analysis.
This does not use a true liveness-analysis yet but rather employs some simple
conservative checks to see whether the live ranges of two alloc_stacks might
interfere.
AllocStackHoisting is an IRGen SIL pass. This allows for using IRGen's type
lowering information. Furthermore, hoisting and merging the alloc_stack
instructions this late does not interfere with SIL optimizations because the
resulting SIL never gets serialized.
This pipeline is run as part of IRGen and has access to the IRGenModule.
Passes that run as part of this pipeline can query for the IRGenModule.
We will use it for the AllocStackHoisting pass. It wants to know if a type is of
non-fixed size.
To break the cyclic dependency between IRGen -> SILOptimizer -> IRGen that would
arise from the SILPassManager having to know about the createIRGENPASS()
function IRGen passes instead of exposing this function dynamically have to add
themselves to the pass manager.
We preserve the current behavior of assuming Any ownership always and use
default arguments to hide this change most of the time. There are asserts now in
the SILBasicBlock::{create,replace,insert}{PHI,Function}Argument to ensure that
the people can only create SILFunctionArguments in entry blocks and
SILPHIArguments in non-entry blocks. This will ensure that the code in tree
maintains the API distinction even if we are not using the full distinction in
between the two.
Once the verifier is finished being upstreamed, I am going to audit the
createPHIArgument cases for the proper ownership. This is b/c I will be able to
use the verifier to properly debug the code. At that point, I will also start
serializing/printing/parsing the ownershipkind of SILPHIArguments, but lets take
things one step at a time and move incrementally.
In the process, I also discovered a CSE bug. I am not sure how it ever worked.
Basically we replace an argument with a new argument type but return the uses of
the old argument to refer to the old argument instead of a new argument.
rdar://29671437
For a long time, we have:
1. Created methods on SILArgument that only work on either function arguments or
block arguments.
2. Created code paths in the compiler that only allow for "function"
SILArguments or "block" SILArguments.
This commit refactors SILArgument into two subclasses, SILPHIArgument and
SILFunctionArgument, separates the function and block APIs onto the subclasses
(leaving the common APIs on SILArgument). It also goes through and changes all
places in the compiler that conditionalize on one of the forms of SILArgument to
just use the relevant subclass. This is made easier by the relevant APIs not
being on SILArgument anymore. If you take a quick look through you will see that
the API now expresses a lot more of its intention.
The reason why I am performing this refactoring now is that SILFunctionArguments
have a ValueOwnershipKind defined by the given function's signature. On the
other hand, SILBlockArguments have a stored ValueOwnershipKind. Rather than
store ValueOwnershipKind in both instances and in the function case have a dead
variable, I decided to just bite the bullet and fix this.
rdar://29671437
This pass works by blowing up if it finds an apply that calls a function
specified via the cl command line option 'bug-reducer-tester-target-func'. This
makes it easy to test sil-bug-reducer.
We also either remove or make private the addPass* functions on SILPassManager,
so the only way to execute passes via SILPassManager is by creating a
SILPassPipelinePlan. This beyond adding uniformity ensures that we always
resetAndRemoveTransformations properly after a pipeline is run.
This commit adds the functionality, but does not change SILPassManager to use
it. The reason why I am doing this is so I can implement sil-opt pass bisecting
functionality in python using a tool that dumps the current pass pipelines
out. This will ensure that even in the face of changes to the pass pipelines,
everything should just work.
