This type is intended to be used to wrap compiler synthesized nodes
(i.e. variables) to make it easier for diagnostic to diagnose precise
failure locations.
Consider the situation like:
```
protocol P {}
extension Array: P where Element: P {}
func test<T: P>() -> T {
$_a = ...
$_b = ...
return [$_a, $_b]
}
```
This is a common pattern with result builders.
In this case if one of the elements don't conform to `P` the best
user experience would be to attach diagnostic to the element otherwise
the developers would have to figure out where in result expression
the error occured before attempting to fix it.
Type annotations for instruction operands are omitted, e.g.
```
%3 = struct $S(%1, %2)
```
Operand types are redundant anyway and were only used for sanity checking in the SIL parser.
But: operand types _are_ printed if the definition of the operand value was not printed yet.
This happens:
* if the block with the definition appears after the block where the operand's instruction is located
* if a block or instruction is printed in isolation, e.g. in a debugger
The old behavior can be restored with `-Xllvm -sil-print-types`.
This option is added to many existing test files which check for operand types in their check-lines.
This change ensures that when loading some module dependency 'Bar' which has a package-only dependency on 'Foo', only the following clients attempt to resolve/load 'Foo':
- Source compilation with package-name equal to that of 'Bar'.
- Textual interface compilation of a *'package'* interface with package-name equal to that of 'Bar'.
Ensuring that the following kinds of clients do not attempt to resolve/load 'Foo':
- Source compilation with package-name different to that of 'Bar'
- Textual interface compilation of a public or private interface, regardless of package name.
This fixes the behavior where previously compilation of a Swift textual interface dependency 'X' from its public or private interface, with an interface-specified package-name, from a client without a matching package-name, resulted in a lookup of package-only dependencies of modules loaded into 'X'. This behavior is invalid if we are not building from the package textual interface, becuase the module dependency graph is defined by the package name of the source client, not individual module dependency package name. i.e. In-package module dependencies are resolved/loaded only if the parent source compile matches the package name.
Resolves rdar://139979180
Rather than exposing an `addFile` member on
ModuleDecl, have the `create` members take a
lambda that populates the files for the module.
Once module construction has finished, the files
are immutable.
Code review identified some incorrect UNIMPLEMENTED_CLONEs in DeclAttribute (thank you
Hamish and Rintaro). Fix those, and make sure this can't happen again by checking the type
signatures of clone() in every DeclAttribute subclass.
This PR adds a variadic macro that builds a SwiftAttr string containing
the names of the template type parameters that need to be escapable for
the type to be considered escapable. It also adds logic to interpret
this annotation.
rdar://139065437
Introduce a number of fixes to allow us to fully use declarations that
are produced by applying a peer macro to an imported declarations.
These changes include:
* Ensuring that we have the right set of imports in the source file
containing the macro expansion, because it depends only on the module
it comes from
* Ensuring that name lookup looks in that file even when the
DeclContext hierarchy doesn't contain the source file (because it's
based on the Clang module structure)
Expand testing to be sure that we're getting the right calls,
diagnostics, and generated IR symbols.
