SILWitnessTable::Entry already contains a superset of what was supported
by SILDefaultWitnessTable::Entry, the latter of which only had “no entry”
and “method” states. Make SILDefaultWitnessTable::Entry an alias for
SILWitnessTable::Entry, and unify all of the parsing/printing/
(de)serialization logic.
SIL will not generate calls to protocol requirements that override
other protocol requirements, so all of the witness table entries for
the overriding arguments are dynamically dead. Remove them from the
witness tables entirely.
Implements rdar://problem/43870489, reducing the size of the standard
library binary by 196k.
ClassDecl::getSuperclass() produces a complete interface type describing the
superclass of a class, including any generic arguments (for a generic type).
Most callers only need the referenced ClassDecl, which is (now) cheaper
to compute: switch those callers over to ClassDecl::getSuperclassDecl().
Fixes an existing test for SR-5993.
The other side of #17404. Since we don't want to generate up front key path metadata for properties/subscripts with no withheld implementation details, the client should generate a key path component that can be used to represent a key path component based on its public interface.
* SILModule::isVisibleExternally utility for VarDecls.
* Fix the SIL parser so it doesn't drop global variable decls.
This information was getting lost in SIL printing/parsing.
Some passes rely on it. Regardless of whether passes should rely on it,
it is totally unacceptable for the SIL passes to have subtle differences
in behavior depending on the frontend mode. So, if we don't want passes
to rely on global variable decls, that needs to be enforced by the API
independent of how the frontend is invoked or how SIL is serialized.
* Use custom DemangleOptions to lookup global variable identifiers.
Client code can make a best effort at emitting a key path referencing a property with its publicly exposed API, which in the common case will match what the defining module would produce as the canonical key path component representation of the declaration. We can reduce the code size impact of these descriptors by not emitting them when there's no hidden or possibly-resiliently-changed-in-the-past information about a storage declaration, having the property descriptor symbol reference a sentinel value telling client key paths to use their definition of the key path component.
This will allow key paths to resiliently reference public properties from other binaries by referencing a descriptor vended by the originating binary. NFC yet, this just provides printing/parsing/verification of the new component.
@_silgen_name and @_cdecl functions are assumed to be referenced from
C code. Public and internal functions marked as such must not be deleted
by the optimizer, and their C symbols must be public or hidden respectively.
rdar://33924873, SR-6209
Transparent functions are emitted into the client in most cases, so there is no need to keep them alive in the defining module unless they are used there.
The only exception are transparent global initializers, because bodies of global initializer functions are never SIL serialized and are always IRGened into the defining module, so that clients can invoke them
This change results in small code size reductions of the binaries being produced after recent changes related to the early SIL serialization and the removal of -sil-serialize-all mode.
Fixes rdar://problem/35022861
These show up specifically when someone forms a keypath to an ObjC
property in a category. They're no-ops from the perspective of
DFE but the code has to intentionally skip the case if it wants to
avoid the subsequent llvm_unreachable.
rdar://34913689
Recent changes that eliminated the -sil-serialize-all mode and adding this check to IRGen allow us to get rid of ExternalFunctionDefinitionsElimination and ExternalDefsToDecls passes, which are not needed anymore.
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.
"Accessibility" has a different meaning for app developers, so we've
already deliberately excised it from our diagnostics in favor of terms
like "access control" and "access level". Do the same in the compiler
now that we aren't constantly pulling things into the release branch.
Rename AccessibilityAttr to AccessControlAttr and
SetterAccessibilityAttr to SetterAccessAttr, then track down the last
few uses of "accessibility" that don't have to do with
NSAccessibility. (I left the SourceKit XPC API alone because that's
supposed to be more stable.)
"Accessibility" has a different meaning for app developers, so we've
already deliberately excised it from our diagnostics in favor of terms
like "access control" and "access level". Do the same in the compiler
now that we aren't constantly pulling things into the release branch.
This commit changes the 'Accessibility' enum to be named 'AccessLevel'.
Static initializers are now represented by a list of literal and aggregate instructions in a SILGlobalVariable.
For details see SIL.rst.
This representation is cleaner than what we did so far (point to the initializer function and do some pattern matching).
One implication of that change is that now (a subset of) instructions not necessarily have a parent function.
Regarding the generated code it's a NFC.
Also the swift module format didn't change because so far we don't serializer global variables.
At some point, pass definitions were heavily macro-ized. Pass
descriptive names were added in two places. This is not only redundant
but a source of confusion. You could waste a lot of time grepping for
the wrong string. I removed all the getName() overrides which, at
around 90 passes, was a fairly significant amount of code bloat.
Any pass that we want to be able to invoke by name from a tool
(sil-opt) or pipeline plan *should* have unique type name, enum value,
commend-line string, and name string. I removed a comment about the
various inliner passes that contradicted that.
Side note: We should be consistent with the policy that a pass is
identified by its type. We have a couple passes, LICM and CSE, which
currently violate that convention.
Also, add a third [serializable] state for functions whose bodies we
*can* serialize, but only do so if they're referenced from another
serialized function.
This will be used for bodies synthesized for imported definitions,
such as init(rawValue:), etc, and various thunks, but for now this
change is NFC.
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
A witness table is dead if it is not used outside the module (private/internal) and it’s not used by any instruction or other witness table in the module.
Also the meta-type of the conforming type must not escape, because it’s possible to test any opaque type if it conforms to a protocol.
rdar://problem/23026019
For this we need to store the linkage of the “original” method implementation in the vtable.
Otherwise DeadFunctionElimination thinks that the method implementation is not public but private (which is the linkage of the thunk).
The big part of this change is to extend SILVTable to store the linkage (+ serialization, printing, etc.).
fixes rdar://problem/29841635
When I created the utility function, I preserved the old behavior. There is no
reason to run until a fix point since we will not get more dead functions after
we run the pass (i.e. it is an idempotent transformation).
rdar://29650781
