Enable qualified declaration names in `@derivative` attribute, just like
`@transpose` attribute.
`DerivativeAttr` now stores a base type `TypeRepr *`, which is non-null for
parsed attributes that reference a qualified original declaration.
Add `TypeResolutionFlags::AllowModule` flag to enable module lookup via
`TypeChecker::lookupMember` given a `ModuleType`.
Add tests for type-qualified and module-qualified declaration names.
Resolves TF-1058.
This commit adds a new ValueDecl::isLocalCapture() predicate and
uses it in the right places. The predicate is true if the
declaration is in local context, *or* if its at the top level of
the main source file and follows a 'guard' statement.
Fixes <rdar://problem/23051362> / <https://bugs.swift.org/browse/SR-3528>.
* WIP implementation
* Cleanup implementation
* Install backedge rather than storing array reference
* Add diagnostics
* Add missing parameter to ResultFinderForTypeContext constructor
* Fix tests for correct fix-it language
* Change to solution without backedge, change lookup behavior
* Improve diagnostics for weak captures and captures under different names
* Remove ghosts of implementations past
* Address review comments
* Reorder member variable initialization
* Fix typos
* Exclude value types from explicit self requirements
* Add tests
* Add implementation for AST lookup
* Add tests
* Begin addressing review comments
* Re-enable AST scope lookup
* Add fixme
* Pull fix-its into a separate function
* Remove capturedSelfContext tracking from type property initializers
* Add const specifiers to arguments
* Address review comments
* Fix string literals
* Refactor implicit self diagnostics
* Add comment
* Remove trailing whitespace
* Add tests for capture list across multiple lines
* Add additional test
* Fix typo
* Remove use of ?: to fix linux build
* Remove second use of ?:
* Rework logic for finding nested self contexts
* Ignore -wmo when passing -dump-ast
* Cleanup on driver diagnostics
* Remove the FIXME.
* Add support for ignoring `-index-file`
* Revert unrelated formatting changes
* Revert back to only ignoring `-wmo`
Ignoring both `-wmo` and `-index-file` will be harder than just `-wmo`. This is because when calling the compiler and passing `-index-file` after `-dump-ast`, the option gets un-ignored by `Driver::buildOutputInfo`. Therefore, we will just ignore `-wmo` for now.
* Add tests, inspired by `Driver/batch_mode_with_WMO_or_index.swift`
For alias analysis query to be generally correct, we need to
effectively merge the escape state and use points for everything in a
defer web.
It was unclear from the current design whether the "escaping" property
applied to the pointer value or its content. The implementation is
inconsistent in how it was treated. It appears that some bugs have
been worked around by propagating forward through defer edges, some
have been worked around by querying the content instead of the
pointer, and others have been worked around be creating fake use
points at block arguments.
If we always simply query the content for escape state and use points,
then we never need to propagate along defer edges. The current code
that propagates escape state along defer edges in one direction is
simply incorrect from the perspective of alias analysis.
One very attractive solution is to merge nodes eagerly without
creating any defer edges, but that would be a much more radical change
even than what I've done here. It would also pose some new issues: how
to resolve the current "node types" when merging and how to deal with
missing content nodes.
This solution of applying escape state to content nodes solves all
these problems without too radical of a change at the expense of
eagerly creating content nodes. (The potential graph memory usage is
not really an issue because it's possible to drastically shrink the
size of the graph anyway in a future commit--I've been able to fit a
node within one cache line). This solution nicely preserves graph
structure which makes it easy to debug and relate to the IR.
Eagerly creating content nodes also solves the missing content node
problem. For example, when querying canEscapeTo, we need to know
whether to look at the escape state for just the pointer value itself,
or also for its content. It may be possible the its content node is
actually part of the same object at the IR level. If the content node
is missing, then we don't know if the object's interior address is not
recognizable/representable or whether we simply never saw an access to
the interior address. We can't simply look at whether the current IR
value happens to be a reference, because that doesn't tell us whether
the graph node may have been merged with a non-reference node or even
with it's own content node. To be correct in general, this query would
need to be extremely conservative. However, if content nodes are
always created for references, then we only need to query the escape
state of a pointer's content node. The content node's flag tells us if
it's an interior node, in which case it will always point to another
content node which also needs to be queried.
Categorize three kinds of pointers:
NoPointer (don't create a node)
ReferenceOnly (safe to make normal assumptions)
AnyPointer (may have addresses, rawpointers, or any mix of thoses with references)
Flag ConnectionGraph nodes as
- hasReferenceOnly
- isInterior
An interior node always has an additional content node.
All sorts of arbitrary node merging is supported. Nodes with totally
different properties can be safely merged. Interior nodes can safely
be merged with their field content (which does happen surprisingly
often).
Alias analysis will use these flags to safely make assumptions about
properties of the connection graph.
The old name lookup would frequently try to flush and rebuild the name lookup cache. Instead, never flush the cache, and use the cache misses as an opportunity to load members and bring the lookup table up to date with any added extensions.
if fast-completion is enabled. So they have higher chance to use the cached
completion instance.
If it's disabled, don't block, use an ephemeral instance so we can peform
multiple completions simultaneously.
