Because of the @opened attr, they need to be parenthesized in some positions, particularly in opened existential metatypes like (@opened P).Type. This should fix the parse_stdlib validation tests.
Swift SVN r27424
Consistently open all references into existentials into
opened-existential archetypes within the constraint solver. Then,
during constraint application, use OpenExistentialExprs to record in
the AST where an existential is opened into an archetype, then use
that archetype throughout the subexpression. This simplifies the
overall representation, since we don't end up with a mix of operations
on existentials and operations on archetypes; it's all archetypes,
which tend to have better support down the line in SILGen already.
Start simplifying the code in SILGen by taking away the existential
paths that are no longer needed. I suspect there are more
simplifications to be had here.
The rules for placing OpenExistentialExprs are still a bit ad hoc;
this will get cleaned up later so that we can centralize that
information. Indeed, the one regression in the compiler-crasher suite
is because we're not closing out an open existential along an error
path.
Swift SVN r27230
Make this diagnostic a little nicer in other ways, too:
- Highlight the whole attribute (including the at-sign).
- Don't hardcode the string "objc".
Swift SVN r25999
Most tests were using %swift or similar substitutions, which did not
include the target triple and SDK. The driver was defaulting to the
host OS. Thus, we could not run the tests when the standard library was
not built for OS X.
Swift SVN r24504
Have the ArgumentInitVisitor directly bind argument variables to BB arguments, instead of trying to reuse the InitializationForPattern logic used for general variable bindings. That was a nice idea, but it leads to some ugly edge cases because of the many little ways arguments are different from local variable bindings. By getting rid of the abstraction layers, it's easy for argument binding to bind +0 guaranteed or +1 arguments in place when appropriate, avoiding an r/r pair for "let" bindings. It will also let us eliminate some ugly code from variable binding initialization. Should be NFC aside from some harmless reordering of prolog/epilog variable setup.
Swift SVN r24412
Previously the "as" keyword could either represent coercion or or forced
downcasting. This change separates the two notions. "as" now only means
type conversion, while the new "as!" operator is used to perform forced
downcasting. If a program uses "as" where "as!" is called for, we emit a
diagnostic and fixit.
Internally, this change removes the UnresolvedCheckedCastExpr class, in
favor of directly instantiating CoerceExpr when parsing the "as"
operator, and ForcedCheckedCastExpr when parsing the "as!" operator.
Swift SVN r24253
as +0 when the client requests it. This avoids emitting some pointless
retain/releases.
This finishes up:
<rdar://problem/17207456> Unable to access dynamicType of an object in a class initializer that isn't done
Swift SVN r22736
Use init_enum_data_addr and inject_enum_addr to construct optional values instead of the injection intrinsics, further simplifying -Onone IR. This not only avoids a call but also allows the frontend to emit optional payloads in-place in more cases, eliminating a lot of stack traffic.
Swift SVN r22549
Now the SILLinkage for functions and global variables is according to the swift visibility (private, internal or public).
In addition, the fact whether a function or global variable is considered as fragile, is kept in a separate flag at SIL level.
Previously the linkage was used for this (e.g. no inlining of less visible functions to more visible functions). But it had no effect,
because everything was public anyway.
For now this isFragile-flag is set for public transparent functions and for everything if a module is compiled with -sil-serialize-all,
i.e. for the stdlib.
For details see <rdar://problem/18201785> Set SILLinkage correctly and better handling of fragile functions.
The benefits of this change are:
*) Enable to eliminate unused private and internal functions
*) It should be possible now to use private in the stdlib
*) The symbol linkage is as one would expect (previously almost all symbols were public).
More details:
Specializations from fragile functions (e.g. from the stdlib) now get linkonce_odr,default
linkage instead of linkonce_odr,hidden, i.e. they have public visibility.
The reason is: if such a function is called from another fragile function (in the same module),
then it has to be visible from a third module, in case the fragile caller is inlined but not
the specialized function.
I had to update lots of test files, because many CHECK-LABEL lines include the linkage, which has changed.
The -sil-serialize-all option is now handled at SILGen and not at the Serializer.
This means that test files in sil format which are compiled with -sil-serialize-all
must have the [fragile] attribute set for all functions and globals.
The -disable-access-control option doesn't help anymore if the accessed module is not compiled
with -sil-serialize-all, because the linker will complain about unresolved symbols.
A final note: I tried to consider all the implications of this change, but it's not a low-risk change.
If you have any comments, please let me know.
Swift SVN r22215
- Split getSelfTypeForDynamicLookup into two pieces, and generalize it
to work on non-loadable protocols.
- Change dynamic_method_branch to take its argument as a protocol of any
protocol type, instead of as something of UnownObject type.
- Teach emitForcedDynamicMemberRef to only do its peephole optimization for
@objc cases, since it is special behavior of objc_msgSend.
- enhance emitDynamicPartialApply & emitDynamicMemberRefExpr to emit the
proper project_existential instruction (not a _ref) when dealing with a
non-classbound protocol.
Change the verifier to allow DynamicMethodBranchInst to work on non-@objc
protocol members.
This eliminates a bunch of pointless unchecked_ref_cast's in the generated
SIL for existing code, but this got squashed at IRGen time anyway, so no
real change for anything that sema permits.
Swift SVN r21519
This only tackles the protocol case (<rdar://problem/17510790>); it
does not yet generalize to an arbitrary "class" requirement on either
existentials or generics.
Swift SVN r19896
There's a bit of a reshuffle of the ExplicitCastExpr subclasses:
- The existing ConditionalCheckedCastExpr expression node now represents
"as?".
- A new ForcedCheckedCastExpr node represents "as" when it is a
downcast.
- CoerceExpr represents "as" when it is a coercion.
- A new UnresolvedCheckedCastExpr node describes "as" before it has
been type-checked down to ForcedCheckedCastExpr or CoerceExpr. This
wasn't a strictly necessary change, but it helps us detangle what's
going on.
There are a few new diagnostics to help users avoid getting bitten by
as/as? mistakes:
- Custom errors when a forced downcast (as) is used as the operand
of postfix '!' or '?', with Fix-Its to remove the '!' or make the
downcast conditional (with as?), respectively.
- A warning when a forced downcast is injected into an optional,
with a suggestion to use a conditional downcast.
- A new error when the postfix '!' is used for a contextual
downcast, with a Fix-It to replace it with "as T" with the
contextual type T.
Lots of test updates, none of which felt like regressions. The new
tests are in test/expr/cast/optionals.swift.
Addresses <rdar://problem/17000058>
Swift SVN r18556
The dynamic_method instruction handles method lookup on an existential
of type DynamicLookup based on the selector of an [objc] method of a
class or protocol. It is only introduced in the narrow case where we
are forcing a use of the method with '!', e.g.,
class X {
func [objc] f() { println("Dynamic lookup") }
}
var x : DynamicLookup = X()
x.f!()
Swift SVN r8037
