* Lift NormalProtocolConformance::hasTypeWitness() to
ProtocolConformance. This method can be used to determine whether a
potentially invalid conformance has a particular type witness.
* ProtocolConformance::getWitness() may return nullptr if the witness
does not exist.
* In TypeChecker::getWitnessType(), don't complain that a builtin
protocol is broken if it's the conformance that's broken.
* ConformanceChecker should only emit diagnostics from within calls to
checkConformance().
* TypeChecker::conformsToProtocol() now returns true if the type
has a declared conformance to the protocol, regardless of whether the
conformance is valid. Clients must check the validity of the
ProtocolConformance themselves if necessary.
<rdar://problem/19495341> Can't upcast to parent types of type constraints without forcing
Swift SVN r25326
Since a function pointer doesn't carry any context, we can only form a C function pointer from a static reference to a global function or a context-free local function or closure. (Or maybe a static function applied to its metatype, but that's not handled here yet.) As a placeholder for a to-be-bikeshedded surface syntax, let the existing @cc(cdecl) attribute appear in source text when the -enable-c-function-pointers frontend flag is passed.
Swift SVN r25308
"self." is required whenever it causes a potentially escaping closure to
capture 'self'. This happens not just in plain ClosureExprs, but in local
functions as well. In addition, even no-escape ClosureExprs can require
self to be captured in a /parent/ closure, which may be potentially-escaping.
Swift SVN r25173
If appending 'as T' to an expression in a fixit, also suggest
parentheses around the resulting expression if it would otherwise be
parsed incorrectly.
Swift SVN r25168
This post-hoc diagnostic replaces r24915, r25045, and r25054 by doing a
very basic check for representation incompatibility between two types.
More cases can be added as necessary.
rdar://problem/19600325, again.
Swift SVN r25117
John pointed out that messing with the type checker's notion of "subtype"
is a bad idea. Instead, we should just have a separate check for ABI
compatibility...and eventually (rdar://problem/19517003) just insert the
appropriate thunks rather than forcing the user to perform the conversion.
I'm leaving all the tests as they are because I'm adding a post-type-checking
diagnostic in the next commit, and that should pass all the same tests.
Part of rdar://problem/19600325
Swift SVN r25116
Penalize solutions that involve 'as' -> 'as!' changes by recording a Fix
when simplifying the corresponding checked-cast constraint.
<rdar://problem/19724719> Type checker thinks "(optionalNSString ?? nonoptionalNSString) as String" is a forced cast
Swift SVN r25061
This re-applies r24987, reverted in r24990, with a fix for a spuriously-
introduced error: don't use a favored constraint in a disjunction to avoid
applying a fix. (Why not? Because favoring bubbles up, i.e. the
/disjunction/ becomes favored even if the particular branch is eventually
rejected.) This doesn't seem to affect the outcome, though: the other
branch of the disjunction doesn't seem to be tried anyway.
Finishes rdar://problem/19600325
Swift SVN r25054
And even if we don't suggest wrapping in a closure (say, because there's
already a closure involved), emit a more relevant diagnostic anyway.
(Wordsmithing welcome.)
Wrapping a function value in a closure essentially explicitly inserts a
conversion thunk that we should eventually be able to implicitly insert;
that's rdar://problem/19517003.
Part of rdar://problem/19600325
Swift SVN r24987
Previously, trailing closures would try to match the first parameter
of (possibly optional) function type that didn't seem to have an
argument already, but in practice this broke when there were
parameters with default arguments before the function parameter.
The new rule is far simpler: a trailing closure matches the last
parameter. Fixes rdar://problem/17965209.
Swift SVN r24898
When generating constraints for an 'as' expression, consider the
possibility that the code is supposed to be 'as!' instead of 'as'. Emit
the appropriate fixit if that branch of the disjunction is chosen by the
constraint solver.
This is a more comprehensive fix for <rdar://problem/19499340> than the
one in r24815.
Swift SVN r24872
This commit moves potential unavailability diagnostics (when not treating unavailable
symbols as optional) out of CSApply.cpp and into MiscDiagnostics.cpp, alongside the
deprecation-based and explicitly unavailable checks. This move is a precursor to adding
support for separate availability information on getters and setters. No intended
functional change.
Swift SVN r24836
- Closures that are comprised of only a single return statement are now considered to be "single expression" closures. (rdar://problem/17550847)
- Unannotated single expression closures with non-void return types can now be used in void contexts. (rdar://problem/17228969)
- Situations where a multi-statement closure's type could not be inferred because of the lack of a return-type annotation are now properly diagnosed. (rdar://problem/17212107)
I also encountered a number of crashers along the way, which should now be fixed.
Swift SVN r24817
This was one of our most visible user-facing crashers, manifesting itself any time a user performed an equality comparison on an unresolved enum case.
Swift SVN r24753
Permit non-Ordinary accesses on references to functions,
with the semantics of devirtualizing the call if the
function is a class member. This is important for
constructing direct call to addressors from synthesized
materializeForSet accessors: for one, it's more
performant, and for another, addressors do not currently
appear in v-tables.
Synthesize trivial accessors for addressed class members.
We weren't doing this at all before, and I'm still not
sure we're doing it right in all cases. This is a mess.
Assorted other fixes. The new addressor kinds seem
to work now.
Swift SVN r24393
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
propagate the no-escape bit from a parameter into a closure-expr argument. When a
ClosureExpr is thus inferred to be non-escape, disable the "self." requirement.
.. with fixes. Thanks again to Dmitri for reverting + adding testcase.
Swift SVN r24115
closure-expr argument. When a "
This reverts commit r24085. It causes crashes in the validation
testsuite even with r24094. Testcase:
var x = { f: Int {} }
Swift SVN r24102
These changes make the following improvements to how we generate diagnostics for expression typecheck failure:
- Customizing a diagnostic for a specific expression kind is as easy as adding a new method to the FailureDiagnosis class,
and does not require intimate knowledge of the constraint solver’s inner workings.
- As part of this patch, I’ve introduced specialized diagnostics for call, binop, unop, subscript, assignment and inout
expressions, but we can go pretty far with this.
- This also opens up the possibility to customize diagnostics not just for the expression kind, but for the specific types
involved as well.
- For the purpose of presenting accurate type info, partially-specialized subexpressions are individually re-typechecked
free of any contextual types. This allows us to:
- Properly surface subexpression errors.
- Almost completely avoid any type variables in our diagnostics. In cases where they could not be eliminated, we now
substitute in "_".
- More accurately indicate the sources of errors.
- We do a much better job of diagnosing disjunction failures. (So no more nonsensical ‘UInt8’ error messages.)
- We now present reasonable error messages for overload resolution failures, informing the user of partially-matching
parameter lists when possible.
At the very least, these changes address the following bugs:
<rdar://problem/15863738> More information needed in type-checking error messages
<rdar://problem/16306600> QoI: passing a 'let' value as an inout results in an unfriendly diagnostic
<rdar://problem/16449805> Wrong error for struct-to-protocol downcast
<rdar://problem/16699932> improve type checker diagnostic when passing Double to function taking a Float
<rdar://problem/16707914> fatal error: Can't unwrap Optional.None…Optional.swift, line 75 running Master-Detail Swift app built from template
<rdar://problem/16785829> Inout parameter fixit
<rdar://problem/16900438> We shouldn't leak the internal type placeholder
<rdar://problem/16909379> confusing type check diagnostics
<rdar://problem/16951521> Extra arguments to functions result in an unhelpful error
<rdar://problem/16971025> Two Terrible Diagnostics
<rdar://problem/17007804> $T2 in compiler error string
<rdar://problem/17027483> Terrible diagnostic
<rdar://problem/17083239> Mysterious error using find() with Foundation types
<rdar://problem/17149771> Diagnostic for closure with no inferred return value leaks type variables
<rdar://problem/17212371> Swift poorly-worded error message when overload resolution fails on return type
<rdar://problem/17236976> QoI: Swift error for incorrectly typed parameter is confusing/misleading
<rdar://problem/17304200> Wrong error for non-self-conforming protocols
<rdar://problem/17321369> better error message for inout protocols
<rdar://problem/17539380> Swift error seems wrong
<rdar://problem/17559593> Bogus locationless "treating a forced downcast to 'NSData' as optional will never produce 'nil'" warning
<rdar://problem/17567973> 32-bit error message is really far from the mark: error: missing argument for parameter 'withFont' in call
<rdar://problem/17671058> Wrong error message: "Missing argument for parameter 'completion' in call"
<rdar://problem/17704609> Float is not convertible to UInt8
<rdar://problem/17705424> Poor error reporting for passing Doubles to NSColor: extra argument 'red' in call
<rdar://problem/17743603> Swift compiler gives misleading error message in "NSLayoutConstraint.constraintsWithVisualFormat("x", options: 123, metrics: nil, views: views)"
<rdar://problem/17784167> application of operator to generic type results in odd diagnostic
<rdar://problem/17801696> Awful diagnostic trying to construct an Int when .Int is around
<rdar://problem/17863882> cannot convert the expression's type '()' to type 'Seq'
<rdar://problem/17865869> "has different argument names" diagnostic when parameter defaulted-ness differs
<rdar://problem/17937593> Unclear error message for empty array literal without type context
<rdar://problem/17943023> QoI: compiler displays wrong error when a float is provided to a Int16 parameter in init method
<rdar://problem/17951148> Improve error messages for expressions inside if statements by pre-evaluating outside the 'if'
<rdar://problem/18057815> Unhelpful Swift error message
<rdar://problem/18077468> Incorrect argument label for insertSubview(...)
<rdar://problem/18079213> 'T1' is not identical to 'T2' lacks directionality
<rdar://problem/18086470> Confusing Swift error message: error: 'T' is not convertible to 'MirrorDisposition'
<rdar://problem/18098995> QoI: Unhelpful compiler error when leaving off an & on an inout parameter
<rdar://problem/18104379> Terrible error message
<rdar://problem/18121897> unexpected low-level error on assignment to immutable value through array writeback
<rdar://problem/18123596> unexpected error on self. capture inside class method
<rdar://problem/18152074> QoI: Improve diagnostic for type mismatch in dictionary subscripting
<rdar://problem/18242160> There could be a better error message when using [] instead of [:]
<rdar://problem/18242812> 6A1021a : Type variable leaked
<rdar://problem/18331819> Unclear error message when trying to set an element of an array constant (Swift)
<rdar://problem/18414834> Bad diagnostics example
<rdar://problem/18422468> Calculation of constant value yields unexplainable error
<rdar://problem/18427217> Misleading error message makes debugging difficult
<rdar://problem/18439742> Misleading error: "cannot invoke" mentions completely unrelated types as arguments
<rdar://problem/18535804> Wrong compiler error from swift compiler
<rdar://problem/18567914> Xcode 6.1. GM, Swift, assignment from Int64 to NSNumber. Warning shown as problem with UInt8
<rdar://problem/18784027> Negating Int? Yields Float
<rdar://problem/17691565> attempt to modify a 'let' variable with ++ results in typecheck error about @lvalue Float
<rdar://problem/17164001> "++" on let value could give a better error message
Swift SVN r23782
a capture list hung off the CaptureExpr it was associated with. This made
sense lexically (since a capture list is nested inside of the closure) but
not semantically. Semantically, the capture list initializers are evaluated
outside the closure, the variables are bound to those values, then the closure
captures the newly bound values.
To directly represent this, represent captures with a new CaptureListExpr node,
which contains the ClosureExpr inside of it. This correctly models the semantic
relationship, and makes sure that AST walkers all process the initializers of the
capture list as being *outside* of the closure.
This fixes rdar://19146761 and probably others.
Swift SVN r23756
Add the following functionality to the Swift compiler:
* covariant subtyping of Set
* upcasting, downcasting of Set
* automatic bridging between Set and NSSet, including
* NSSet params/return values in ObjC are imported as Set<NSObject>
* Set params/return values in Swift are visible to ObjC as NSSet
<rdar://problem/18853078> Implement Set<T> up and downcasting
Swift SVN r23751
Specifically, it's not when
- the conformance is being used within a function body (test included)
- the conformance is being used for or within a private type (test included)
- the conformance is being used to generate a diagnostic string
We're still a bit imprecise in some places (checking ObjC bridging), but
in general this means less of an issue for checking literals.
Swift SVN r23700
--This line, and those bel that ow, will be ignored--
M test/Parse/optional.swift
M test/ClangModules/Security_test.swift
M test/expr/expressions.swift
M include/swift/AST/DiagnosticsSema.def
M lib/Sema/CSApply.cpp
Swift SVN r23685
This adds a new parameter to TypeChecker::lookupMember to specify when
something is known-private, which can then be passed along to
DeclContext::lookupQualified. This makes many of the existing member
lookup dependencies in the reference-dependencies.swift test correctly
count as private.
Swift SVN r23631
Make it easier to get the "do I expect null ProtocolConformance* pointers" logic right. Audit existing uses of is<ArchetypeType>() for this purpose.
Swift SVN r23479
This makes sure we get the same checking for initializer delegation in
structs/enums as we do for classes, fixing rdar://problem/18458622.
Swift SVN r23128
We'd like to kill this enum off eventually, since the runtime inevitably needs to be able to handle arbitrary checked casts in opaque contexts, and SILGen and IRGen can deal with picking more optimal runtime entry points for specific casts. Only the container bridging kinds are still depended on anymore, and even those ought to eventually be handlable by the runtime in 'x as T' situations. NFC yet.
Swift SVN r23127
These are very-slightly-but-not-significantly faster; there's no need to
go through the intermediate layer of unqualified lookup.
No functionality change.
Swift SVN r22872
