This reverts commit 5ce503c886 because it
breaks the stdlib build with:
Assertion failed: (!isPolymorphic() && "no args for polymorphic substitution"), function substGenericArgs
for initializer lookup, allowing it to produce more specific diagnostics
when referring to a private initializer that the compiler can see.
In addition to improving diagnostics, this allows us to eliminate the
NoPublicInitializers failure kind.
When member lookup completely fails and when CSDiags is the one performing
the lookup, reissue another lookup that ignores access control. This allows
it to find inaccessible members and diagnose them as such, instead of pretending
we have no idea what the user wants. We now produce an error message like this:
main.swift:1:6: error: 'foo' is inaccessible due to 'private' protection level
C().foo()
^
test.swift:1:35: note: 'foo' declared here
internal class C { private func foo() {} }
^
instead of:
main.swift:1:2: error: value of type 'C' has no member 'foo'
C().foo()
^~~ ~~~
Eliminate the last client of DependentTypeOpener,
RequirementTypeOpener, which tracked the opened Self type when doing
witness/requirement matching and substituted in the known type
witnesses for that protocol. It had a bunch of dead logic hanging
around from the days where we used the constraint system to deduce
type witnesses. Now, a simple substitution suffices.
With its last client gone, remove DependentTypeOpener as well.
The ArchetypeOpener was used only to replace dependent types with
archetypes (or concrete types) within the opening context. We can do
the same simply by letting the constraint system create type variables
and then binding those type variables to the appropriate
archetypes/concrete types in that context.
Eliminate the two DependentTypeOpener entry points that were only used
by the ArchetypeOpener.
Now that generic signatures of types include generic parameters
introduced by outer generic functions, we need to know to skip
them when forming bound generic types or substitutions.
Add a function that computes the depth of the innermost generic
context that is not a generic type context.
This time, the issue is that TypeNullifier skips bodies of
multi-statement closures. However, ExprRewriter will type
happily pass them on to typeCheckClosureBody(). This could
trigger assertions. Fix this by skipping type checking of
multi-statement closures when diagnosing.
There seems to be a minor QoI regression in some test cases
that already looked pretty dodgy and/or had FIXMEs. However
I think its worth fixing a crash.
This case attempts to diagnose assignment into an invalid lvalue which only had
a computable type due to a fixit that the constraint solver was assuming. In this
situation, don't diagnose the invalid lvalue at all, diagnose the required fix.
Introduce a new constraint kind, BindParam, which relates the type of a
function parameter to the type of a reference to it from within the
function body. If the param type is an inout type, the ref type is an
lvalue type with the same underlying object type; otherwise the two
types must be the same. This prevents DeclRefExprs from being inferred
to have inout type in some cases.
<rdar://problem/15998821> Fail to infer types for closure that takes an inout argument
Swift SVN r32183
of providing contextual diagnostics (e.g. producing the warning in
Constraints/dynamic_lookup.swift). This drops a specific diagnostic about
force casting the result of as! which was added in the Swift 1.2 timeframe
to explain the change in cast semantics. Now that as! has been around for
a long time, it is more confusing than helpful.
Swift SVN r31887
- Enhance the branch new argument label overload diagnostic to just
print the argument labels that are the problem, instead of printing
the types inferred at the argument context. This can lead to confusion
particularly when an argument label is missing. For example before:
error: argument labels '(Int)' do not match any available overloads
note: overloads for 'TestOverloadSets.init' exist with these partially matching parameter lists: (a: Z0), (value: Int), (value: Double)
after:
error: argument labels '(_:)' do not match any available overloads
note: overloads for 'TestOverloadSets.init' exist with these partially matching parameter lists: (a: Z0), (value: Int), (value: Double)
Second, fix <rdar://problem/22451001> QoI: incorrect diagnostic when argument to print has the wrong type
by specifically diagnosing the problem when you pass in an argument to a nullary function. Before:
error: cannot convert value of type 'Int' to expected argument type '()'
after:
error: argument passed to call that takes no arguments
print(r22451001(5))
^
Swift SVN r31795
change its implementation to take a list of TupleTypeElt for both the
from/to tuple type, but provider a convenience wrapper that takes the
from/to tuple type as TupleType's.
Swift SVN r31733
expr diagnosis stuff, giving us much better diagnostics on the cases in
expr/closure/closures.swift. This is part #2 of resolving
<rdar://problem/22333281> QoI: improve diagnostic when contextual type of closure disagrees with arguments
Swift SVN r31717
argument list mismatches, and diagnose them with a very specific error when
they occur in member lookups. This fixes
<rdar://problem/22356434> QoI: Missing diagnostic for invalid arguments passed to enum case constructor
where before we'd produce:
ee.swift:5:16: error: type of expression is ambiguous without more context
let list: E = .C(wrongLabel: 0)
~^~~~~~~~~~~~~~~~
now we produce:
ee.swift:1:17: error: incorrect argument label in call (have 'wrongLabel:', expected 'label:')
let list: E = .C(wrongLabel: 0)
^~~~~~~~~~~
label
I think that unresolved member exprs now get good diagnostics in all cases that they have
a contextual type, but of course there are lots more cases where we're not getting a
contextual type.
Swift SVN r31402
ConstraintSystem::applySolution into its own helper function to reduce
indentation and make ConstraintSystem::applySolution much more simple
and obvious. NFC.
Swift SVN r31290
constraints of each kind, enhance FailureDiagnosis::diagnoseGeneralConversionFailure to
ignore conversion constraints that are either trivially resolvable (like Int conforming
to IntegerLiteralConvertible) or constraints that cannot be resolved because a type
variable is ambiguous.
This eliminates the last (known to me at least!) source of diagnostics that end up
complaining about obviously incorrect issues.
Swift SVN r31065
and use it in the diagnostics path (only!) to revisit active constraints that
are left in the system after a failure is found. This improves a number of
otherwise sad diagnostics in the testsuite and resolves rdar://22083115.
The one QoI regression (in throwing_functions.swift) is now tracked by 22158167.
Swift SVN r31027
There's still work left to do. In terms of next steps, there's still rdar://problem/22126141, which covers removing the 'workaround' overloads for print (that prevent bogus overload resolution failures), as well as providing a decent diagnostic when users invoke print with 'appendNewline'.
Swift SVN r30976
machinery, instead of in multiple places in CSSolver and CSDiags. This leads
to more predictable behavior (e.g. by removing the UnboundGenericParameter
failure kind) and eliminates a class of "'_' is not convertible to 'FooType'"
diagnostics.
Swift SVN r30923
- Produce more specific diagnostics relating to different kinds of invalid
- add a testcase, nfc
- Reimplement FailureDiagnosis::diagnoseGeneralMemberFailure in terms of
Not including r30787 means that we still generate bogus diagnostics like:
[1, 2, 3].doesntExist(0) // expected-error {{type 'Int2048' does not conform to protocol 'IntegerLiteralConvertible'}}
But it is an existing and separable problem from the issues addressed here.
Swift SVN r30819
r30787 causes our tests to time out; the other commits depend on r30787.
Revert "revert part of my previous patch."
Revert "Produce more specific diagnostics relating to different kinds of invalid"
Revert "add a testcase, nfc"
Revert "- Reimplement FailureDiagnosis::diagnoseGeneralMemberFailure in terms of"
Revert "Fix places in the constraint solver where it would give up once a single "
Swift SVN r30805
performMemberLookup, eliminating a ton of duplicated logic, but keeping the
same general behavior.
- Now that r30787 landed, we can have diagnoseGeneralMemberFailure inform
clients when a member lookup fails due to referencing a candidate decl of
ErrorType (i.e, it is already invalid somehow). When this happens, there is
no reason to diagnose a problem, because the original issue has been diagnosed
and anything we produce now is just garbage.
The second point cleans up a bunch of bogus diagnostics in the testsuite, which are
*actually* due to upstream error that are already diagnosed.
Swift SVN r30789
