Rather than eagerly doing a bunch of name lookups to establish the known
protocol kind, lazily match the ProtocolDecl to the list of known
protocols as-needed. This eliminates a bunch of up-front unqualified
name lookups when spinning up a type checker.
Sometimes constraint solver fails without producing any diagnostics,
it could happen during different phases e.g. pre-check, constraint
generation, or even while attempting to apply solution. Such behavior
leads to crashes down the line in AST Verifier or SILGen which are
hard to diagnose.
Let's guard against that by tracking if solver produced any diagnostics
upon its failure and if no errors were or are scheduled to be produced,
let's produce a fallback fatal error pointing at affected expression.
Resolves: rdar://problem/38885760
We've been running doxygen with the autobrief option for a couple of
years now. This makes the \brief markers into our comments
redundant. Since they are a visual distraction and we don't want to
encourage more \brief markers in new code either, this patch removes
them all.
Patch produced by
for i in $(git grep -l '\\brief'); do perl -pi -e 's/\\brief //g' $i & done
It is possible for the SIL optimizers, IRGen, etc. to request information
from the AST that only the type checker can provide, but the type checker
is typically torn down after the “type checking” phase. This can lead to
various crashes late in the compilation cycle.
Keep the type checker instance around as long as the ASTContext is alive
or until someone asks for it to be destroyed.
Fixes SR-285 / rdar://problem/23677338.
This allows an elegant design in which we can still allocate RawSyntax
nodes using a bump allocator but are able to automatically free that
buffer once the last RawSyntax node within that buffer is freed.
This also resolves a memory leak of RawSyntax nodes that was caused by
ParserUnit not freeing its underlying ASTContext.
Wire up the request-evaluator with an instance in ASTContext, and
introduce two request kinds: one to retrieve the superclass of a class
declaration, and one to compute the type of an entry in the
inheritance clause.
Teach ClassDecl::getSuperclass() to go through the request-evaluator,
centralizing the logic to compute and extract the superclass
type.
Fixes the crasher from rdar://problem/26498438.
Introduced during the bring-up of the generics system in July, 2012,
Substitution (and SubstitutionList) has been completely superseded by
SubstitutionMap. R.I.P.
This removes the default implementation of hash(into:), and replaces it with automatic synthesis built into the compiler. Hashable can now be implemented by defining either hashValue or hash(into:) -- the compiler supplies the missing half automatically, in all cases.
To determine which hash(into:) implementation to generate, the synthesizer resolves hashValue -- if it finds a synthesized definition for it, then the generated hash(into:) body implements hashing from scratch, feeding components into the hasher. Otherwise, the body implements hash(into:) in terms of hashValue.
Before conditional conformances, the archetypes in conformance
extensions (i.e. extension Foo: SomeProtocol) were equivalent to those
in the type decl, with the same protocol bounds and so on. The code for
printing "synthesized" members relied on this fact. This commit teaches
that code to deal with archetypes in the conditional conformance
extension when required.
Fixes rdar://problem/36553066 and SR-6930.
Also remove the decl from the known decls and remove a
bunch of code referencing that decl as well as a bunch of other
random things including deserialization support.
This includes removing some specialized diagnostics code that
matched the identifier ImplicitlyUnwrappedOptional, and tweaking
diagnostics for various modes and various issues.
Fixes most of rdar://problem/37121121, among other things.
Introduced SyntaxArena for managing memory and cache.
SyntaxArena holds BumpPtrAllocator as a allocation storage.
RawSyntax is now able to be constructed with normal heap allocation, or
by SyntaxArena. RawSyntax has ManualMemory flag which indicates it's managed by
SyntaxArena. If the flag is true, its Retain()/Release() is no-op thus it's
never destructed by IntrusiveRefCntPtr.
This speedups the memory allocation for RawSyntax.
Also, in Syntax parsing, "token" RawSyntax is reused if:
a) It's not string literal with >16 length; and
b) It doesn't contain random text trivia (e.g. comment).
This reduces the overall allocation cost.
Sometimes we end up mapping a conformance into and then out of a
particular context, which led to "stacked" specialized conformances
that were basically a no-op. Look through these to collapse them
eagerly.
Collapses 15786 conformances in the standard library.
Swift's ASTContext contained all of the logic to find the complete list
of properties for an Objective-C class, which is used by the Clang importer
to influence the mapping of Objective-C names into Swift. Swift's
ASTContext also included a *cache* for this information, indexed by
the Clang `ObjCInterfaceDecl *`. However, this cache was getting
populated/queried from the Clang importer's name importer, such that
the keys would be Clang declarations used to build modules and then
deallocated. If that memory eventually gets reused for a different
`ObjCInterfaceDecl *`, we would get incorrect/stale all-properties
information.
Almost Surely fixes rdar://problem/35347167, which is a
nondeterministic failure where UIView's `addGestureRecognizer(_:)` gets
occasionally imported as `add(_:)`.
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.
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!
For enums, we now only call _mixInt on the computed hash value if
it has associated values; for enums without associated values, we
use the ordinal alone, as before.
