[FIR] Don't set lambda parameter type to Nothing by default
... when the expected type is not a function type. Instead set it to a new type variable. This fixes a bunch of false negative CANNOT_INFER_PARAMETER_TYPE. #KT-59882 Fixed
This commit is contained in:
committed by
Space Team
parent
9857bdc891
commit
c3c2f6f90a
+2
-2
@@ -38,12 +38,12 @@ FILE: kotlinSam.kt
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}
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))
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R|/foo1|(SAM(R|<local>/f|))
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R|/foo2<Inapplicable(INAPPLICABLE): /foo2>#|(<L> = foo2@fun <anonymous>(x: R|kotlin/Nothing|): R|kotlin/Boolean| <inline=Unknown> {
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R|/foo2<Inapplicable(INAPPLICABLE): /foo2>#|(<L> = foo2@fun <anonymous>(x: <ERROR TYPE REF: Cannot infer type for parameter x>): <ERROR TYPE REF: Cannot infer type variable TypeVariable(_L)> <inline=Unknown> {
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^ CMP(>, R|<local>/x|.<Unresolved name: compareTo>#(Int(1)))
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}
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)
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R|/foo2<Inapplicable(INAPPLICABLE): /foo2>#|(R|<local>/f|)
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R|/foo3<Inapplicable(INAPPLICABLE): /foo3>#|(<L> = foo3@fun <anonymous>(x: R|kotlin/Nothing|): R|kotlin/Boolean| <inline=Unknown> {
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R|/foo3<Inapplicable(INAPPLICABLE): /foo3>#|(<L> = foo3@fun <anonymous>(x: <ERROR TYPE REF: Cannot infer type for parameter x>): <ERROR TYPE REF: Cannot infer type variable TypeVariable(_L)> <inline=Unknown> {
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^ CMP(>, R|<local>/x|.<Unresolved name: compareTo>#(Int(1)))
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}
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)
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@@ -29,10 +29,10 @@ fun main() {
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foo1 { x -> x > 1 }
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foo1(f)
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foo2 <!ARGUMENT_TYPE_MISMATCH!>{ x -> x <!UNRESOLVED_REFERENCE!>><!> 1 }<!>
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foo2 <!ARGUMENT_TYPE_MISMATCH!>{ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> x <!UNRESOLVED_REFERENCE!>><!> 1 }<!>
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foo2(<!ARGUMENT_TYPE_MISMATCH!>f<!>)
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foo3 <!ARGUMENT_TYPE_MISMATCH!>{ x -> x <!UNRESOLVED_REFERENCE!>><!> 1 }<!>
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foo3 <!ARGUMENT_TYPE_MISMATCH!>{ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> x <!UNRESOLVED_REFERENCE!>><!> 1 }<!>
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foo3(<!ARGUMENT_TYPE_MISMATCH!>f<!>)
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foo4 { x -> x > 1 }
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Vendored
+1
-1
@@ -2,7 +2,7 @@ FILE: main.kt
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public final fun foo(m: R|MyRunnable|): R|kotlin/Unit| {
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}
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public final fun main(): R|kotlin/Unit| {
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Q|JavaUsage|.R|/JavaUsage.foo*s<Inapplicable(INAPPLICABLE): /JavaUsage.foo>#|(<L> = foo@fun <anonymous>(x: R|kotlin/Nothing|): R|kotlin/Boolean| <inline=Unknown> {
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Q|JavaUsage|.R|/JavaUsage.foo*s<Inapplicable(INAPPLICABLE): /JavaUsage.foo>#|(<L> = foo@fun <anonymous>(x: <ERROR TYPE REF: Cannot infer type for parameter x>): <ERROR TYPE REF: Cannot infer type variable TypeVariable(_L)> <inline=Unknown> {
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^ CMP(>, R|<local>/x|.<Unresolved name: compareTo>#(Int(1)))
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}
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)
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+1
-1
@@ -19,7 +19,7 @@ fun foo(m: MyRunnable) {}
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fun main() {
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JavaUsage.foo <!ARGUMENT_TYPE_MISMATCH!>{
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x -> x <!UNRESOLVED_REFERENCE!>><!> 1
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<!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> x <!UNRESOLVED_REFERENCE!>><!> 1
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}<!>
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JavaUsage.foo(<!ARGUMENT_TYPE_MISMATCH!>{ <!UNRESOLVED_REFERENCE!>it<!> > 1 }<!>)
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+1
-2
@@ -108,8 +108,7 @@ object ConeConstraintSystemUtilContext : ConstraintSystemUtilContext {
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index: Int
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): TypeVariableMarker {
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return ConeTypeVariableForLambdaParameterType(
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PostponedArgumentInputTypesResolver.TYPE_VARIABLE_NAME_PREFIX_FOR_LAMBDA_PARAMETER_TYPE + index,
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index
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PostponedArgumentInputTypesResolver.TYPE_VARIABLE_NAME_PREFIX_FOR_LAMBDA_PARAMETER_TYPE + index
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)
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}
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+11
-9
@@ -23,6 +23,7 @@ import org.jetbrains.kotlin.resolve.calls.inference.ConstraintSystemBuilder
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import org.jetbrains.kotlin.resolve.calls.inference.addSubtypeConstraintIfCompatible
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import org.jetbrains.kotlin.resolve.calls.inference.model.ConstraintKind
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import org.jetbrains.kotlin.types.model.typeConstructor
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import org.jetbrains.kotlin.utils.addToStdlib.runIf
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fun Candidate.preprocessLambdaArgument(
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csBuilder: ConstraintSystemBuilder,
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@@ -120,17 +121,18 @@ private fun extractLambdaInfo(
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argument.returnType
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?: typeVariable.defaultType
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val defaultType = when (candidate?.symbol?.origin) {
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FirDeclarationOrigin.DynamicScope -> ConeDynamicType.create(session)
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else -> session.builtinTypes.nothingType.type
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val defaultType = runIf(candidate?.symbol?.origin == FirDeclarationOrigin.DynamicScope) { ConeDynamicType.create(session) }
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val parameters = argument.valueParameters.mapIndexed { i, it ->
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it.returnTypeRef.coneTypeSafe<ConeKotlinType>()
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?: defaultType
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?: ConeTypeVariableForLambdaParameterType("_P$i").apply { csBuilder.registerVariable(this) }.defaultType
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}
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val parameters = argument.valueParameters.map {
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it.returnTypeRef.coneTypeSafe<ConeKotlinType>() ?: defaultType
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}
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val contextReceivers = argument.contextReceivers.map {
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it.typeRef.coneTypeSafe<ConeKotlinType>() ?: defaultType
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val contextReceivers = argument.contextReceivers.mapIndexed { i, it ->
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it.typeRef.coneTypeSafe<ConeKotlinType>()
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?: defaultType
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?: ConeTypeVariableForLambdaParameterType("_C$i").apply { csBuilder.registerVariable(this) }.defaultType
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}
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val newTypeVariableUsed = returnType == typeVariable.defaultType
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+1
-1
@@ -11,7 +11,7 @@ import org.jetbrains.kotlin.fir.types.ConeTypeVariable
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import org.jetbrains.kotlin.name.SpecialNames
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class ConeTypeVariableForPostponedAtom(name: String) : ConeTypeVariable(name)
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class ConeTypeVariableForLambdaParameterType(name: String, val index: Int) : ConeTypeVariable(name)
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class ConeTypeVariableForLambdaParameterType(name: String) : ConeTypeVariable(name)
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class ConeTypeVariableForLambdaReturnType(val argument: FirAnonymousFunction, name: String) : ConeTypeVariable(name)
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class ConeTypeParameterBasedTypeVariable(
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Vendored
-6
@@ -1,6 +0,0 @@
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package f
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fun <R> h(i: Int, a: Any, r: R, f: (Boolean) -> Int) = 1
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fun <R> h(a: Any, i: Int, r: R, f: (Boolean) -> Int) = 1
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fun test() = <!OVERLOAD_RESOLUTION_AMBIGUITY!>h<!>(1, 1, 1, { b -> 42 })
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Vendored
+1
@@ -1,3 +1,4 @@
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// FIR_IDENTICAL
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package f
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fun <R> h(i: Int, a: Any, r: R, f: (Boolean) -> Int) = 1
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Vendored
-9
@@ -1,9 +0,0 @@
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// !DIAGNOSTICS: -CONFLICTING_JVM_DECLARATIONS
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package f
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fun <R> h(f: (Boolean) -> R) = 1
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fun <R> h(f: (String) -> R) = 2
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fun test() = <!OVERLOAD_RESOLUTION_AMBIGUITY!>h<!>{ i -> getAnswer() }
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fun getAnswer() = 42
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+1
@@ -1,3 +1,4 @@
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// FIR_IDENTICAL
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// !DIAGNOSTICS: -CONFLICTING_JVM_DECLARATIONS
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package f
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Vendored
+5
-5
@@ -184,7 +184,7 @@ fun main() {
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function1<kotlin.Number, java.io.Serializable>")!>select(A3(), { <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>it<!> }, { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>a<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>)<!>
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// Should be error as `A3::foo1` is `KFunction2`, but the remaining arguments are `KFuncion1` or `Function1`
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>a<!> }, { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, { <!CANNOT_INFER_PARAMETER_TYPE!>a<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter a")!>a<!> }, { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter it")!>it<!> })<!>
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// It's OK because `A3::foo2` is from companion of `A3`
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function1<kotlin.Int, kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction1<kotlin.Int, kotlin.Unit>")!>A3::foo2<!>, { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Int")!>a<!> }, { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Int")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function1<kotlin.Int, kotlin.Comparable<*> & java.io.Serializable>")!>select(A4(), { x: Number -> "" })<!>
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@@ -192,10 +192,10 @@ fun main() {
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function3<kotlin.Int, kotlin.String, kotlin.Float, kotlin.Float>")!>select(A2(), id { a, b, c -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Int")!>a<!>; <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.String")!>b<!>; <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Float")!>c<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function1<kotlin.Number, java.io.Serializable>")!>select(id(A3()), { <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>it<!> }, { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>a<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction<kotlin.Any>")!>select(A3(), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>))<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, id { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>a<!> }, { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>a<!> }, id { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>a<!> }, { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), { a -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>a<!> }, id { it -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Nothing")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, id { <!CANNOT_INFER_PARAMETER_TYPE!>a<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter a")!>a<!> }, { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter it")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(A3(), <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>, { <!CANNOT_INFER_PARAMETER_TYPE!>a<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter a")!>a<!> }, id { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter it")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), { <!CANNOT_INFER_PARAMETER_TYPE!>a<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter a")!>a<!> }, { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter it")!>it<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), { <!CANNOT_INFER_PARAMETER_TYPE!>a<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter a")!>a<!> }, id { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_EXPRESSION_TYPE("ERROR CLASS: Cannot infer type for parameter it")!>it<!> })<!>
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// If lambdas' parameters are specified explicitly, we don't report an error, because there is proper CST – Function<Unit>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), { a: Number -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>a<!> })<!>
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<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Function<kotlin.Any>")!>select(id(A3()), id(<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.reflect.KFunction2<A3, kotlin.Int, kotlin.Unit>")!>A3::foo1<!>), id { a: Number -> <!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Number")!>a<!> })<!>
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+5
-5
@@ -5,14 +5,14 @@ fun <T> select(vararg x: T) = x[0]
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fun <K> id(x: K) = x
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fun main() {
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val x1 = select<Any?>(id { x, y -> }, { x: Int, y -> })
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val x1 = select<Any?>(id { x, <!CANNOT_INFER_PARAMETER_TYPE!>y<!> -> }, { x: Int, <!CANNOT_INFER_PARAMETER_TYPE!>y<!> -> })
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val x2 = <!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>select<!>(<!CANNOT_INFER_PARAMETER_TYPE{LT}!><!CANNOT_INFER_PARAMETER_TYPE{PSI}!><!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>id<!> { x, <!CANNOT_INFER_PARAMETER_TYPE!>y<!> -> }<!>, { x: Int, <!CANNOT_INFER_PARAMETER_TYPE!>y<!> -> }<!>)
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val x3 = <!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>select<!>(<!CANNOT_INFER_PARAMETER_TYPE{LT}!><!CANNOT_INFER_PARAMETER_TYPE{PSI}!><!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>id<!>(fun (x, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {})<!>, fun (x: Int, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {}<!>)
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val x4 = select<Any?>((fun (x, y) {}), fun (x: Int, y) {})
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val x5 = select<Any?>(id(fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {}), fun (x: Int, y) {})
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val x6 = id<Any?>(fun (x) {})
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val x4 = select<Any?>((fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {}), fun (x: Int, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {})
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val x5 = select<Any?>(id(fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {}), fun (x: Int, <!CANNOT_INFER_PARAMETER_TYPE!>y<!>) {})
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val x6 = id<Any?>(fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>) {})
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select<Any?>(fun (x) {}, fun (x) {})
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select<Any?>(fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>) {}, fun (<!CANNOT_INFER_PARAMETER_TYPE!>x<!>) {})
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}
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Vendored
+7
-7
@@ -4,17 +4,17 @@ fun callAny(arg: Any?) {}
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fun <T> callParam(arg: T) {}
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fun testAny() {
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callAny { error -> error }
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callAny l@{ error -> error }
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callAny({error -> error})
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callAny(({error -> error}))
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callAny(l@{error -> error})
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callAny((l@{error -> error}))
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callAny { <!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error }
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callAny l@{ <!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error }
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callAny({<!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error})
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callAny(({<!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error}))
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callAny(l@{<!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error})
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callAny((l@{<!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> error}))
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}
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fun testAnyCall() {
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callAny {
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error -> <!UNRESOLVED_REFERENCE!>error<!>()
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<!CANNOT_INFER_PARAMETER_TYPE!>error<!> -> <!UNRESOLVED_REFERENCE!>error<!>()
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}
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}
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@@ -1,17 +0,0 @@
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// !DIAGNOSTICS: -UNUSED_PARAMETER
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fun call(vararg x: Any?) {}
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fun <R> Any.call(vararg args: Any?): R = TODO()
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fun println(message: Any?) {}
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fun foo(action: (Int) -> Unit) {
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action(10)
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}
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fun test1() {
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call({ x -> println(x::class) }) // x inside the lambda is inferred to `Nothing`, the lambda is `(Nothing) -> Unit`.
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}
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fun test2() {
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::foo.<!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>call<!>({ x -> println(x::class) })
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}
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@@ -1,4 +1,5 @@
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// !DIAGNOSTICS: -UNUSED_PARAMETER
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// !DIAGNOSTICS: -UNUSED_PARAMETER, -DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE
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// FIR_IDENTICAL
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fun call(vararg x: Any?) {}
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fun <R> Any.call(vararg args: Any?): R = TODO()
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@@ -9,9 +10,9 @@ fun foo(action: (Int) -> Unit) {
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}
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fun test1() {
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call({ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> println(<!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>x<!>::class) }) // x inside the lambda is inferred to `Nothing`, the lambda is `(Nothing) -> Unit`.
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call({ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> println(x::class) }) // x inside the lambda is inferred to `Nothing`, the lambda is `(Nothing) -> Unit`.
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}
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fun test2() {
|
||||
::foo.<!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>call<!>({ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> println(<!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>x<!>::class) })
|
||||
::foo.<!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>call<!>({ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> println(x::class) })
|
||||
}
|
||||
|
||||
Vendored
+1
-1
@@ -7,7 +7,7 @@ fun <T, R> bar(f: (T) -> R) = f
|
||||
|
||||
fun test() {
|
||||
foo <!ARGUMENT_TYPE_MISMATCH!>{ <!UNRESOLVED_REFERENCE!>it<!> }<!>
|
||||
foo <!ARGUMENT_TYPE_MISMATCH!>{ x -> x}<!>
|
||||
foo <!ARGUMENT_TYPE_MISMATCH!>{ <!CANNOT_INFER_PARAMETER_TYPE!>x<!> -> x}<!>
|
||||
foo <!ARGUMENT_TYPE_MISMATCH!>{ x: Int -> x}<!>
|
||||
|
||||
<!NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER, NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>bar<!> <!CANNOT_INFER_PARAMETER_TYPE!>{ it + 1 }<!>
|
||||
|
||||
-11
@@ -1,11 +0,0 @@
|
||||
// !DIAGNOSTICS: -UNUSED_PARAMETER -UNUSED_ANONYMOUS_PARAMETER
|
||||
|
||||
fun baz(f: (Int) -> String) {}
|
||||
|
||||
object Foo {
|
||||
fun baz(vararg anys: Any?) {}
|
||||
|
||||
fun testResolvedToMember() {
|
||||
baz({ x -> "" }) // should be an error
|
||||
}
|
||||
}
|
||||
+1
@@ -1,3 +1,4 @@
|
||||
// FIR_IDENTICAL
|
||||
// !DIAGNOSTICS: -UNUSED_PARAMETER -UNUSED_ANONYMOUS_PARAMETER
|
||||
|
||||
fun baz(f: (Int) -> String) {}
|
||||
|
||||
@@ -112,6 +112,6 @@ fun testTwoLambdas() {
|
||||
fun f1(): (() -> Unit) -> (() -> Unit) -> Unit {
|
||||
return <!RETURN_TYPE_MISMATCH!>{ l1 ->
|
||||
l1()
|
||||
<!TOO_MANY_ARGUMENTS!>{ l2 -> <!UNRESOLVED_REFERENCE!>l2<!>() }<!>
|
||||
<!TOO_MANY_ARGUMENTS!>{ <!CANNOT_INFER_PARAMETER_TYPE!>l2<!> -> <!UNRESOLVED_REFERENCE!>l2<!>() }<!>
|
||||
}<!>
|
||||
}
|
||||
|
||||
-9
@@ -1,9 +0,0 @@
|
||||
// !DIAGNOSTICS: -UNUSED_PARAMETER
|
||||
|
||||
object X1
|
||||
object X2
|
||||
|
||||
fun <T1> foo(x: T1, f: (T1) -> T1) = X1
|
||||
fun <T2> foo(xf: () -> T2, f: (T2) -> T2) = X2
|
||||
|
||||
val test: X2 = <!OVERLOAD_RESOLUTION_AMBIGUITY!>foo<!>({ 0 }, { it -> it + 1 })
|
||||
+3
-2
@@ -1,4 +1,5 @@
|
||||
// !DIAGNOSTICS: -UNUSED_PARAMETER
|
||||
// !DIAGNOSTICS: -UNUSED_PARAMETER, -DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE, -DEBUG_INFO_MISSING_UNRESOLVED
|
||||
// FIR_IDENTICAL
|
||||
|
||||
object X1
|
||||
object X2
|
||||
@@ -6,4 +7,4 @@ object X2
|
||||
fun <T1> foo(x: T1, f: (T1) -> T1) = X1
|
||||
fun <T2> foo(xf: () -> T2, f: (T2) -> T2) = X2
|
||||
|
||||
val test: X2 = <!OVERLOAD_RESOLUTION_AMBIGUITY!>foo<!>({ 0 }, { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> <!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>it<!> <!DEBUG_INFO_MISSING_UNRESOLVED!>+<!> 1 })
|
||||
val test: X2 = <!OVERLOAD_RESOLUTION_AMBIGUITY!>foo<!>({ 0 }, { <!CANNOT_INFER_PARAMETER_TYPE!>it<!> -> it + 1 })
|
||||
|
||||
Reference in New Issue
Block a user