The support is gated by a frontend option,
-enable-operator-designated-protocols.
This means that in an operator declaration we can declare a protocol
which has one or more requirements specifying this operator. The
operators from that designated protocol will be the first ones we try
when type checking an expression. If we successfully typecheck using
the operators specified in that protocol, we do not attempt any other
overloads of the same operator.
This makes it possible to dramatically speed up successful
typechecking.
* [InterfaceGen] Remove #ifs from default args
This patch removes all #if configs form the bodies of default arguments,
which can contain multiline closures, while preserving the bodies of the
clauses that are active.
This code is generalized and should "just work" for inlinable function
bodies, which will come in a later patch.
* Address review comments
* Fix and test CharSourceRange.overlaps
* Fix CharSourceRange::print to respect half-open ranges
Most of this patch is just removing special cases for materializeForSet
or other fairly mechanical replacements. Unfortunately, the rest is
still a fairly big change, and not one that can be easily split apart
because of the quite reasonable reliance on metaprogramming throughout
the compiler. And, of course, there are a bunch of test updates that
have to be sync'ed with the actual change to code-generation.
This is SR-7134.
We need @_transparent to control mandatory inlining; @_fixed_layout to
control, well, layout; and @_effects to help optimization. We still
don't need the ImplicitlyUnwrappedOptional attribute, and we don't
need access control attributes (because we handle that uniformly).
This also fixes up the printing of the '_effects' attribute to include
its underscore, so that it matches the source spelling.
We were redundantly printing constraints that were implied by the base
type (the type being extended). Rather than special-casing constraints
on a protocol's 'Self' type, omit any requirements that are already
satisfied by the extended type instead.
https://bugs.swift.org/browse/SR-7413
We wanted to omit the 'Self: TheProtocolBeingExtension' part of the
generic signature, but the logic that was there accidentally omitted
/all/ constraints on Self.
- getAsDeclOrDeclExtensionContext -> getAsDecl
This is basically the same as a dyn_cast, so it should use a 'getAs'
name like TypeBase does.
- getAsNominalTypeOrNominalTypeExtensionContext -> getSelfNominalTypeDecl
- getAsClassOrClassExtensionContext -> getSelfClassDecl
- getAsEnumOrEnumExtensionContext -> getSelfEnumDecl
- getAsStructOrStructExtensionContext -> getSelfStructDecl
- getAsProtocolOrProtocolExtensionContext -> getSelfProtocolDecl
- getAsTypeOrTypeExtensionContext -> getSelfTypeDecl (private)
These do /not/ return some form of 'this'; instead, they get the
extended types when 'this' is an extension. They started off life with
'is' names, which makes sense, but changed to this at some point. The
names I went with match up with getSelfInterfaceType and
getSelfTypeInContext, even though strictly speaking they're closer to
what getDeclaredInterfaceType does. But it didn't seem right to claim
that an extension "declares" the ClassDecl here.
- getAsProtocolExtensionContext -> getExtendedProtocolDecl
Like the above, this didn't return the ExtensionDecl; it returned its
extended type.
This entire commit is a mechanical change: find-and-replace, followed
by manual reformatted but no code changes.
These are synthesized to satisfy associated type requirements, but
they're not needed in source, and they look like self-referential
definitions (`typealias X = X`).
This allows us to dump it in the generated interface, though it's
still not syntax-highlighted. This is necessary for textual module
interfaces, but it's also just a longstanding request for Xcode's
"Generated Interface" / "Jump to Definition" feature.
rdar://problem/18675831
Introduce ExtensionDecl::getExtendedNominal() to provide the nominal
type declaration that the extension declaration extends. Move most
of the existing callers of the callers to getExtendedType() over to
getExtendedNominal(), because they don’t need the full type information.
ExtensionDecl::getExtendedNominal() is itself not very interesting yet,
because it depends on getExtendedType().
For now, the accessors have been underscored as `_read` and `_modify`.
I'll prepare an evolution proposal for this feature which should allow
us to remove the underscores or, y'know, rename them to `purple` and
`lettuce`.
`_read` accessors do not make any effort yet to avoid copying the
value being yielded. I'll work on it in follow-up patches.
Opaque accesses to properties and subscripts defined with `_modify`
accessors will use an inefficient `materializeForSet` pattern that
materializes the value to a temporary instead of accessing it in-place.
That will be fixed by migrating to `modify` over `materializeForSet`,
which is next up after the `read` optimizations.
SIL ownership verification doesn't pass yet for the test cases here
because of a general fault in SILGen where borrows can outlive their
borrowed value due to being cleaned up on the general cleanup stack
when the borrowed value is cleaned up on the formal-access stack.
Michael, Andy, and I discussed various ways to fix this, but it seems
clear to me that it's not in any way specific to coroutine accesses.
rdar://35399664
Now, an AbstractFunctionDecl always stores a single parameter list.
Furthermore, ConstructorDecl and DestructorDecl always store a
ParamDecl for 'self'.
FuncDecl only has a 'self' if it is a member of a nominal type or
extension, so we tail-allocate the storage for it.
The storage kind has been replaced with three separate "impl kinds",
one for each of the basic access kinds (read, write, and read/write).
This makes it far easier to mix-and-match implementations of different
accessors, as well as subtleties like implementing both a setter
and an independent read/write operation.
AccessStrategy has become a bit more explicit about how exactly the
access should be implemented. For example, the accessor-based kinds
now carry the exact accessor intended to be used. Also, I've shifted
responsibilities slightly between AccessStrategy and AccessSemantics
so that AccessSemantics::Ordinary can be used except in the sorts of
semantic-bypasses that accessor synthesis wants. This requires
knowing the correct DC of the access when computing the access strategy;
the upshot is that SILGenFunction now needs a DC.
Accessor synthesis has been reworked so that only the declarations are
built immediately; body synthesis can be safely delayed out of the main
decl-checking path. This caused a large number of ramifications,
especially for lazy properties, and greatly inflated the size of this
patch. That is... really regrettable. The impetus for changing this
was necessity: I needed to rework accessor synthesis to end its reliance
on distinctions like Stored vs. StoredWithTrivialAccessors, and those
fixes were exposing serious re-entrancy problems, and fixing that... well.
Breaking the fixes apart at this point would be a serious endeavor.
The “isObjC” bit, once computed, provides the authoritative answer. The presence of
ObjCAttr is mostly incidental, although an implicitly-created one is sometimes
needed to store additional information (“inferred with Swift 3 rules” and a
specific Objective-C name).
Introduce some metaprogramming of accessors and generally prepare
for storing less-structured accessor lists.
NFC except for a change to the serialization format.
Not NFC because it changes the printing behavior for function type
parameters. They are no longer reported as types (paren, tuple, or raw),
but as Params.
Introduced during the bring-up of the generics system in July, 2012,
Substitution (and SubstitutionList) has been completely superseded by
SubstitutionMap. R.I.P.
SIL printing and parsing was based on printing substitution lists.
Change that to instead print/parse based on the replacement types
in substitution maps, which fits more closely with the rest of the
system.
This commit is papering over an issue where the substitution maps
generated for the “apply” of a partial specialization use an
ever-so-slightly different generic signature than partial
specialization itself. The TODO in the SIL printer for covers that
case.
This is our first statement attribute, made more complicated by the
fact that a 'case'/'default' isn't really a normal statement. I've
chosen /not/ to implement a general statement attribute logic like we
have for types and decls at this time, but I did get the compiler
parsing arbitrary attributes before 'case' and 'default'. As a bonus,
we now treat all cases within functions as being switch-like rather
than enum-like, which is better for recovery when not in a switch.
Introduce a new Type node, BoundNameAliasType, which describes a
reference to a typealias that requires substitutions to produce the
underlying type. This new type node is used both for references to
generic typealiases and for references to (non-generic) typealiases
that occur within generic contexts, e.g., Array<Int>.Element.
At present, the new type node is mainly useful in preserving type
sugar for diagnostics purposes, as well as being reflected in other
tools (indexing, code completion, etc.). The intent is to completely
replace NameAliasType in the future.
