- TypeAliasDecl::getAliasType() is gone. Now, getDeclaredInterfaceType()
always returns the NameAliasType.
- NameAliasTypes now always desugar to the underlying type as an
interface type.
- The NameAliasType of a generic type alias no longer desugars to an
UnboundGenericType; call TypeAliasDecl::getUnboundGenericType() if you
want that.
- The "lazy mapTypeOutOfContext()" hack for deserialized TypeAliasDecls
is gone.
- The process of constructing a synthesized TypeAliasDecl is much simpler
now; instead of calling computeType(), setInterfaceType() and then
setting the recursive properties in the right order, just call
setUnderlyingType(), passing it either an interface type or a
contextual type.
In particular, many places weren't setting the recursive properties,
such as the ClangImporter and deserialization. This meant that queries
such as hasArchetype() or hasTypeParameter() would return incorrect
results on NameAliasTypes, which caused various subtle problems.
- Finally, add some more tests for generic typealiases, most of which
fail because they're still pretty broken.
This completely removes Parse’s ability to make any judgement calls
about compilation conditions, instead the parser-relevant parts of
‘evaluateConditionalCompilationExpr’ have been moved into
‘classifyConditionalCompilationExpr’ where they exist to make sure only
decls that we want to parse actually parse later.
The condition-evaluation parts have been moved into NameBinding in the
form of a Walker that evaluates and collapses IfConfigs. This walker
is meant as an homage to PlaygroundLogger. It should probably be
factored out into a common walker at some point in the future.
Instead of the simple "expected identifier in declaration", the error will now read "keyword '%' cannot be used as an identifier here", and will be accompanied by a note suggesting escaping the keyword with backticks, as well as a fixit.
https://bugs.swift.org/browse/SR-3167
* Removed `parseConstructorArguments()`, unified with
`parseSingleParameterClause()`.
* Use `parseSingleParameterClause()` from `parseFunctionSignature()`, so
that we can share the recovery code.
* Removed `isFirstParameterClause` parameter from `mapParsedParameters`,
because it's predictable from `paramContext`.
We cannot properly determine the context type of any parameter
(including 'self') until after we have determined the generic
environment for the enclosing function.
Previously, getInterfaceType() would return getType() if no
interface type was set. Instead, always set an interface type
explicitly.
Eventually we want to remove getType() altogether, and this
brings us one step closer to this goal.
Note that ParamDecls are excempt from this treatment, because
they don't have a proper interface type yet. Cleaning this up
requires more effort.
Previously, '@' token was unconditionally considered as isStartOfDecl()
Since canParseTypeTupleBody() fails at isStartOfDecl(),
generics arguments containing attributes, e.g.
Array<(@convention(block) () -> Int) -> Void>
failed to be parsed.
These APIs return SourceLocs, and eventually the Parser should consume
tokens, which now include source trivia such as whitespace and comments,
and package them into a purely syntactic tree. Just a tiny step. NFC.
Store leading a trailing "trivia" around a token, such as whitespace,
comments, doc comments, and escaping backticks. These are syntactically
important for preserving formatting when printing ASTs but don't
semantically affect the program.
Tokens take all trailing trivia up to, but not including, the next
newline. This is important to maintain checks that statements without
semicolon separators start on a new line, among other things.
Trivia are now data attached to the ends of tokens, not tokens
themselves.
Create a new Syntax sublibrary for upcoming immutable, persistent,
thread-safe ASTs, which will contain only the syntactic information
about source structure, as well as for generating new source code, and
structural editing. Proactively move swift::Token into there.
Since this patch is getting a bit large, a token fuzzer which checks
for round-trip equivlence with the workflow:
fuzzer => token stream => file1
=> Lexer => token stream => file 2 => diff(file1, file2)
Will arrive in a subsequent commit.
This patch does not change the grammar.
Now 'P1 & P2.Type' is parsed as (composition P1, (metatype P2))
instead of (metatype (composition P1, P2)).
For now, parsing inheritance clause accepts any TypeRepr, that is not allowed
in current Swift grammer. Diagnostic logic will be added in later commits.
Also, in Swift3, (composition P1, (metatype P2)) should be fixed to
(metatype (composition P1, P2)) for source compatibility.
And make it be able to composite any TypeReprs.
Although Swift doesn't support composition of arbitrary types, AST
should be able to hold any TypeReprs, to represent syntax as accurate as
possible.
wasn't being detected while parsing operator decls, and so declarations of
invalid operators would be accepted without error and then later couldn't
be used.
Now errors correctly and new tests added.
UnconditionalAvailabilityKind => PlatformAgnosticAvailabilityKind
::UnavailableInCurrentSwift => ::SwiftVersionSpecific
Plus a couple related method renamings. Prep work for SR-2709.
[SourceKit] Indentation: when the indented line starts with open brace and the
line before starts with a leading declaration keywords, we never add
indentation level on the brace. rdar://28049927
`InParam` was not used at all.
`StopAtTypeAttributes`
As far as I understand, this option *was* merely for improving diagnostic QoI
for declarations like:
func foo(@typeattr Arg) {}
to fix-it to:
func foo(_: @typeattr Arg) {}
But, this causes the very loudy diagnostics for misplaced type attributes.
For example, on:
func foo(@convention(block) x: () -> CInt) {}
test.swift:1:10: error: expected parameter name followed by ':'
test.swift:1:10: error: expected ',' separator
test.swift:1:10: error: expected ')' in parameter
test.swift:1:9: note: to match this opening '('
test.swift:1:10: error: consecutive statements on a line must be separated by ';'
test.swift:1:11: error: attribute can only be applied to types, not declarations
test.swift:1:21: error: expected declaration
test.swift:1:44: error: statement cannot begin with a closure expression
test.swift:1:44: note: explicitly discard the result of the closure by assigning to '_'
test.swift:1:44: error: braced block of statements is an unused closure
test.swift:1:6: error: expected '{' in body of function declaration
test.swift:1:44: error: expression resolves to an unused function
Now, we emit more accurate diagnostic:
test.swift:1:11: error: attribute can only be applied to types, not declarations
func foo(@convention(block) x: () -> CInt) {}
^
Note that This causes small regression in diagnostics for bare type parameter
like `func foo(@convention(c) () -> CInt) {}`:
Before:
test.swift:1:10: error: unnamed parameters must be written with the empty name '_'
func foo(@convention(block) () -> CInt) {}
^
_:
Now:
test.swift:1:11: error: attribute can only be applied to types, not declarations
func foo(@convention(block) () -> CInt) {}
^
test.swift:1:29: error: unnamed parameters must be written with the empty name '_'
func foo(@convention(block) () -> CInt) {}
^
_:
By consuming parens.
As for type attributes, handle `@unknownAttribute(Arg) -> Ret` case.
Improves diagnostic QoI. For example, on:
func foo(x: @unknown(x) Int) {}
Before:
test.swift:1:14: error: unknown attribute 'unknown'
test.swift:1:25: error: expected ',' separator
test.swift:1:25: error: unnamed parameters must be written with the empty name '_'
test.swift:1:22: error: use of undeclared type 'x'
Now, we just emit the first one:
test.swift:1:14: error: unknown attribute 'unknown'
func foo(x: @unknown(x) Int) {}
^
`@foo=bar` style attributes are no longer supported anyway.
So as ',' separated attribute list.
In `canParseTypeTupleBody()`, `canParseType()` can more accurately consume
type attributes.
In `isStartOfGetSetAccessor`, we can trivially inline the functionality.
Use tok::NUM_TOKENS instead. tok::unknown can easily appear in source code.
For instance `skipUntil(tok::eof)` did not work as expected, because that was
`skipUntil(tok::eof, tok::unknown)` hence does stop at error tokens such as
`0xG` (invalid hex number literal).
Revert 2abc92bbb5, since that was
accidental side-effect of 45118037cc.
Forward references are not allowed actually.
The scope map relies fairly deeply on having reasonable source ranges
for AST nodes. Fix the construction and query of source ranges in a
few places throughout the parser and AST to provide stronger
invariants.
We were optimizing away unused pattern binding initializer contexts in
both the parser and in semantic analysis, which led to a
somewhat-unpredictable set of DeclContexts in the AST. Normalize
everything by always creating these contexts.
