This provides a stream utility for writing to a underlying string buffer multiple string pieces and retrieve them later as StringRef when the underlying buffer is stable.
This is necessary when we want to differentiate between type reference
on extension declaration's start, e.g "extension A {}", and other
references of "A". NFC on existing functionality.
* [RangeInfo] Perform complete walk on the last node in a given range to avoid missing information due to early abort.
* [RangeInfo] For declared decls in a given range, report whether they are referenced outside of the range.
* [RangeInfo] Report the contained (topmost) ASTNodes inside a selected range.
Like cursor-info, range info (""source.request.cursorinfo"") answers some
questions clients have for a code snippet under selection, for instance, the type of a selected
expression. This commit implements this new quest kind and provides two
simple information about the selected code: (1) the kind of the
snippet, currently limited to single-statement and expression; and (2)
the type of the selected expression. Gradually, we will enrich the
response to provide more insight into the selected code snippet.
There was a ton of complicated logic here to work around
two problems:
- Same-type constraints were not represented properly in
RequirementReprs, requiring us to store them in strong form
and parse them out when printing type interfaces.
- The TypeBase::getAllGenericArgs() method did not do the
right thing for members of protocols and protocol extensions,
and so instead of simple calls to Type::subst(), we had
an elaborate 'ArchetypeTransformer' abstraction repeated
in two places.
Rewrite this code to use GenericSignatures and
GenericFunctionType instead of old-school GenericParamLists
and PolymorphicFunctionType.
This changes the code completion and AST printer output
slightly. A few of the changes are actually fixes for cases
where the old code didn't handle substitutions properly.
A few others are subjective, for example a generic parameter
list of the form <T : Proto> now prints as <T where T : Proto>.
We can add heuristics to make the output whatever we want
here; the important thing is that now we're using modern
abstractions.
We have a radar (rdar://27615558) complaining the exiting recursive calls in type transform
of code completion hangs. This patch refactor the existing code to avoid using
recursion. From existing tests' perspective, this is NFC. I am not able to contrive the
test case that leads to the hang, neither is given by the radar.
Typically, users jump to type-specific interface from a member of that type, for
instance, a.getSomething(). To generate the interface, we need to report the USR
of the container type of "getSomething()", which is the USR for the type of a,
when cursor info is requested for this function call.
For now, just tack the testing onto the existing walker that checks the
types. It doesn't seem to work at all for local declarations yet, but
at least we get some top-level stuff.
This utility helps us reconstruct type from a mangled name. SourceKit needs this functionality to deliver
richer doc-info/cursor-info.
Thanks for Sean's help!
When users try to print the interface of a specific type (most often through cursor
infor query of SourceKit), we should simplify the original decls by replacing
archetypes with instantiated types, hiding extension details, and omitting
unfulfilled extension requirements. So the users can get the straight-to-the-point
"type interface". This commit builds the testing infrastructure for this feature,
and implements the first trick that wraps extension contents into the interface body.
This commit also moves some generic testing support from SourceKit to Swift.
Swift SVN r32630
Modules occupy a weird space in the AST now: they can be treated like
types (Swift.Int), which is captured by ModuleType. They can be
treated like values for disambiguation (Swift.print), which is
captured by ModuleExpr. And we jump through hoops in various places to
store "either a module or a decl".
Start cleaning this up by transforming Module into ModuleDecl, a
TypeDecl that's implicitly created to describe a module. Subsequent
changes will start folding away the special cases (ModuleExpr ->
DeclRefExpr, name lookup results stop having a separate Module case,
etc.).
Note that the Module -> ModuleDecl typedef is there to limit the
changes needed. Much of this patch is actually dealing with the fact
that Module used to have Ctx and Name public members that now need to
be accessed via getASTContext() and getName(), respectively.
Swift SVN r28284
This translates clang arguments to swift ones, uses the bridging header
functionality to parse the provided file, and re-uses part of the module interface
printing implementation to print an interface for the header.
Part of rdar://19939192
Swift SVN r28062
This tool takes the input of two versions of the same sdk and outputs
their diff to facilicate the auto-migration of sdk clients.
In this initial commit, we take the path of one sdk and generate
a tree describing its API content. Next, we will diff trees generated
from different versions of the sdk.
In addition, this commit also refactored out part of swift-sdk-analyzer
to the common utils shared with swift-sdk-digester.
Swift SVN r26656
This commit adds infrastructure for conversion and testing it.
The conversion is still incomplete, pending discussion about which tags should
we use in the XML documents. I copied the RelaxNG schema from Clang, and will
edit it accordingly.
Swift SVN r16451
