New construction of a parser instance will reset the marked parser
position in PersistentParserState. We should recover the marked parser
position during on-demand parsing in case the marked position will be
later used to create another parser instance to continue parsing
linearly.
in attribute message
Strings of diagnostics message processed in EncodedDiagnosticMessage
aren't necessarily from parsed Swift source code. That means, they might
not have quotes around it. Furthermore, memory around them might not be
managed. The logic in 'Lexer::getEncodedStringSegment()' used to cause
access violation.
For now, disable multiline string literal and extended escaping in string
literal for attribute message position. Considering the message might be
from Clang, we cannot simply enable this.
rdar://problem/44228891
* [AST] Remove stored TypeLoc from TypedPattern
TypedPattern was only using this TypeLoc as a means to a TypeRepr, which
caused it to store the pattern type twice (through the superclass and through
the TypeLoc itself.)
This also fixes a bug where deserializing a TypedPattern doesn't store
the type correctly and generally cleans up TypedPattern initialization.
Resolves rdar://44144435
* Address review comments
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.
This patch adds warnings when a version number is used
on the non-specific '*' platform. In addition, it fixes
some misleading warning messages on 'swift' platform.
Resolves: SR-8598.
Now that, parsing accessor body is done by 'parseAbstractFunctionBody()'
which automatically handles delayed parsing by `delayFunctionBodyParsing()`.
So we no longer use delayed parsing facilities specific for accessor body.
* Use 'parseAbstractFunctionBody()' for accessors as well. This
simplifies the implementation, and makes 'parseAbstractFunctionBody()'
the single point of parsing body of every 'AbstructFunctionDecl' types.
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.
Parsed declarations would create an untyped 'self' parameter;
synthesized, imported and deserialized declarations would get a
typed one.
In reality the type, if any, depends completely on the properties
of the function in question, so we can just lazily create the
'self' parameter when needed.
If the function already has a type, we give it a type right there;
otherwise, we check if a 'self' was already created when we
compute a function's type and set the type of 'self' then.
The presence of a deinitializer will eventually indicate whether a
class's deinitializer is non-trivial for non-resilient modules.
Also improve recovery for normal source files for various bad ways
of declaring a deinitializer.
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
There are two general constructor forms here:
- One took the number of parameter lists, to be filled in later.
Now, this takes a boolean indicating if there is an implicit
'self'.
- The other one took the actual parameter lists and filled them
in right away. This now takes a separate 'self' ParamDecl and
ParameterList.
Instead of storing the number of parameter lists, an
AbstractFunctionDecl now only needs to store if there is a 'self'
or not.
I've updated most places that construct AbstractFunctionDecls to
properly use these new forms. In the ClangImporter, there is
more code that remains to be untangled, so we continue to build
multiple ParameterLists and unpack them into a ParamDecl and
ParameterList at the last minute.
As part of this, lift the now-unnecessary restriction against
combining a non-mutable addressor with a setter. I've also
tweaked some of the diagnostics.
This is in preparation for generalized accessors.
