[NI] Remove lambda coersion to Unit in case of error return type(s)

Coersion to Unit from error type leads to misleading type mismatches:
"expected <expected lambda return type> found Unit", despite no user-provided Unit / empty lambda.
These diagnostics were collected, but not reported before, and that had been disguising the issue for a while.

KT-34729 Fixed
This commit is contained in:
Pavel Kirpichenkov
2020-01-20 19:25:35 +03:00
parent 3a98c84105
commit c5893913f3
39 changed files with 263 additions and 46 deletions
@@ -10371,6 +10371,11 @@ public class FirOldFrontendDiagnosticsTestGenerated extends AbstractFirOldFronte
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coercionWithoutExpectedType.kt");
}
@TestMetadata("coersionWithAnonymousFunctionsAndUnresolved.kt")
public void testCoersionWithAnonymousFunctionsAndUnresolved() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coersionWithAnonymousFunctionsAndUnresolved.kt");
}
@TestMetadata("indirectCoercionWithExpectedType.kt")
public void testIndirectCoercionWithExpectedType() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/indirectCoercionWithExpectedType.kt");
@@ -23,10 +23,7 @@ import org.jetbrains.kotlin.psi.psiUtil.getBinaryWithTypeParent
import org.jetbrains.kotlin.psi.psiUtil.lastBlockStatementOrThis
import org.jetbrains.kotlin.resolve.*
import org.jetbrains.kotlin.resolve.calls.ArgumentTypeResolver
import org.jetbrains.kotlin.resolve.calls.SPECIAL_FUNCTION_NAMES
import org.jetbrains.kotlin.resolve.calls.components.InferenceSession
import org.jetbrains.kotlin.resolve.calls.components.KotlinResolutionCallbacks
import org.jetbrains.kotlin.resolve.calls.components.PostponedArgumentsAnalyzer
import org.jetbrains.kotlin.resolve.calls.components.*
import org.jetbrains.kotlin.resolve.calls.context.BasicCallResolutionContext
import org.jetbrains.kotlin.resolve.calls.context.ContextDependency
import org.jetbrains.kotlin.resolve.calls.inference.CoroutineInferenceSession
@@ -95,7 +92,7 @@ class KotlinResolutionCallbacksImpl(
expectedReturnType: UnwrappedType?,
annotations: Annotations,
stubsForPostponedVariables: Map<NewTypeVariable, StubType>
): Pair<List<KotlinCallArgument>, InferenceSession?> {
): ReturnArgumentsAnalysisResult {
val psiCallArgument = lambdaArgument.psiCallArgument as PSIFunctionKotlinCallArgument
val outerCallContext = psiCallArgument.outerCallContext
@@ -191,7 +188,9 @@ class KotlinResolutionCallbacksImpl(
trace.record(BindingContext.NEW_INFERENCE_LAMBDA_INFO, psiCallArgument.ktFunction, LambdaInfo.STUB_EMPTY)
var hasReturnWithoutExpression = false
var returnArgumentFound = false
val returnArguments = lambdaInfo.returnStatements.mapNotNullTo(ArrayList()) { (expression, contextInfo) ->
returnArgumentFound = true
val returnedExpression = expression.returnedExpression
if (returnedExpression != null) {
createCallArgument(
@@ -210,6 +209,7 @@ class KotlinResolutionCallbacksImpl(
if (expectedReturnType?.isUnit() == true || hasReturnWithoutExpression) return@let null // coercion to Unit
// todo lastExpression can be if without else
returnArgumentFound = true
val lastExpressionType = trace.getType(lastExpression)
val contextInfo = lambdaInfo.lastExpressionInfo
val lastExpressionTypeInfo = KotlinTypeInfo(lastExpressionType, contextInfo.dataFlowInfoAfter ?: functionTypeInfo.dataFlowInfo)
@@ -218,7 +218,7 @@ class KotlinResolutionCallbacksImpl(
returnArguments.addIfNotNull(lastExpressionArgument)
return Pair(returnArguments, coroutineSession)
return ReturnArgumentsAnalysisResult(ReturnArgumentsInfo(returnArguments, returnArgumentFound), coroutineSession)
}
private fun getLastDeparentesizedExpression(psiCallArgument: PSIKotlinCallArgument): KtExpression? {
@@ -153,7 +153,7 @@ class ResolvedAtomCompleter(
private val ResolvedLambdaAtom.isCoercedToUnit: Boolean
get() {
val returnTypes =
resultArguments.map {
resultArgumentsInfo.nonErrorArguments.map {
val type = it.safeAs<SimpleKotlinCallArgument>()?.receiver?.receiverValue?.type ?: return@map null
val unwrappedType = when (type) {
is WrappedType -> type.unwrap()
@@ -161,7 +161,7 @@ class ResolvedAtomCompleter(
}
resultSubstitutor.safeSubstitute(unwrappedType)
}
if (returnTypes.isEmpty()) return true
if (returnTypes.isEmpty() && !resultArgumentsInfo.returnArgumentsExist) return true
val substitutedTypes = returnTypes.filterNotNull()
// we have some unsubstituted types
if (substitutedTypes.isEmpty()) return false
@@ -184,7 +184,7 @@ class ResolvedAtomCompleter(
)
updateTraceForLambda(lambda, topLevelTrace, approximatedReturnType)
for (lambdaResult in lambda.resultArguments) {
for (lambdaResult in lambda.resultArgumentsInfo.nonErrorArguments) {
val resultValueArgument = lambdaResult as? PSIKotlinCallArgument ?: continue
val newContext =
topLevelCallContext.replaceDataFlowInfo(resultValueArgument.dataFlowInfoAfterThisArgument)
@@ -12,7 +12,6 @@ import org.jetbrains.kotlin.descriptors.CallableDescriptor
import org.jetbrains.kotlin.descriptors.DeclarationDescriptor
import org.jetbrains.kotlin.descriptors.ValueParameterDescriptor
import org.jetbrains.kotlin.descriptors.annotations.Annotations
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.resolve.calls.inference.components.ConstraintInjector
import org.jetbrains.kotlin.resolve.calls.inference.model.NewTypeVariable
import org.jetbrains.kotlin.resolve.calls.model.*
@@ -42,6 +41,16 @@ interface KotlinResolutionStatelessCallbacks {
): SimpleConstraintSystem
}
data class ReturnArgumentsInfo(
val nonErrorArguments: List<KotlinCallArgument>,
val returnArgumentsExist: Boolean
)
data class ReturnArgumentsAnalysisResult(
val returnArgumentsInfo: ReturnArgumentsInfo,
val inferenceSession: InferenceSession?
)
// This components hold state (trace). Work with this carefully.
interface KotlinResolutionCallbacks {
fun analyzeAndGetLambdaReturnArguments(
@@ -52,7 +61,7 @@ interface KotlinResolutionCallbacks {
expectedReturnType: UnwrappedType?, // null means, that return type is not proper i.e. it depends on some type variables
annotations: Annotations,
stubsForPostponedVariables: Map<NewTypeVariable, StubType>
): Pair<List<KotlinCallArgument>, InferenceSession?>
): ReturnArgumentsAnalysisResult
fun bindStubResolvedCallForCandidate(candidate: ResolvedCallAtom)
@@ -118,7 +118,7 @@ class PostponedArgumentsAnalyzer(
else FilteredAnnotations(annotations, true) { it != KotlinBuiltIns.FQ_NAMES.extensionFunctionType }
}
val (returnArguments, inferenceSession) = resolutionCallbacks.analyzeAndGetLambdaReturnArguments(
val (returnArgumentsInfo, inferenceSession) = resolutionCallbacks.analyzeAndGetLambdaReturnArguments(
lambda.atom,
lambda.isSuspend,
receiver,
@@ -128,21 +128,21 @@ class PostponedArgumentsAnalyzer(
stubsForPostponedVariables.cast()
)
returnArguments.forEach { c.addSubsystemFromArgument(it) }
returnArgumentsInfo.nonErrorArguments.forEach { c.addSubsystemFromArgument(it) }
val subResolvedKtPrimitives = returnArguments.map {
val subResolvedKtPrimitives = returnArgumentsInfo.nonErrorArguments.map {
resolveKtPrimitive(
c.getBuilder(), it, lambda.returnType.let(::substitute), diagnosticHolder, isReceiver = false
)
}
if (returnArguments.isEmpty()) {
if (!returnArgumentsInfo.returnArgumentsExist) {
val unitType = lambda.returnType.builtIns.unitType
val lambdaReturnType = lambda.returnType.let(::substitute)
c.getBuilder().addSubtypeConstraint(unitType, lambdaReturnType, LambdaArgumentConstraintPosition(lambda))
}
lambda.setAnalyzedResults(returnArguments, subResolvedKtPrimitives)
lambda.setAnalyzedResults(returnArgumentsInfo, subResolvedKtPrimitives)
if (inferenceSession != null) {
val storageSnapshot = c.getBuilder().currentStorage()
@@ -8,6 +8,7 @@ package org.jetbrains.kotlin.resolve.calls.model
import org.jetbrains.kotlin.descriptors.CallableDescriptor
import org.jetbrains.kotlin.descriptors.ValueParameterDescriptor
import org.jetbrains.kotlin.resolve.calls.components.CallableReferenceCandidate
import org.jetbrains.kotlin.resolve.calls.components.ReturnArgumentsInfo
import org.jetbrains.kotlin.resolve.calls.components.TypeArgumentsToParametersMapper
import org.jetbrains.kotlin.resolve.calls.components.extractInputOutputTypesFromCallableReferenceExpectedType
import org.jetbrains.kotlin.resolve.calls.inference.components.FreshVariableNewTypeSubstitutor
@@ -115,14 +116,14 @@ class ResolvedLambdaAtom(
val typeVariableForLambdaReturnType: TypeVariableForLambdaReturnType?,
override val expectedType: UnwrappedType?
) : PostponedResolvedAtom() {
lateinit var resultArguments: List<KotlinCallArgument>
lateinit var resultArgumentsInfo: ReturnArgumentsInfo
private set
fun setAnalyzedResults(
resultArguments: List<KotlinCallArgument>,
resultArguments: ReturnArgumentsInfo,
subResolvedAtoms: List<ResolvedAtom>
) {
this.resultArguments = resultArguments
this.resultArgumentsInfo = resultArguments
setAnalyzedResults(subResolvedAtoms)
}
+1 -1
View File
@@ -10,7 +10,7 @@ fun text() {
bar1 {1}
bar1 {it + 1}
bar2 {<!TYPE_MISMATCH!><!>}
bar2 <!NI;TYPE_MISMATCH!>{<!TYPE_MISMATCH!><!>}<!>
bar2 {1}
bar2 {<!UNRESOLVED_REFERENCE!>it<!>}
bar2 <!NI;TYPE_MISMATCH!>{<!CANNOT_INFER_PARAMETER_TYPE, EXPECTED_PARAMETERS_NUMBER_MISMATCH!>it<!> -> <!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>it<!>}<!>
@@ -1,4 +1,5 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER
// !WITH_NEW_INFERENCE
interface JPAEntityClass<D> {
fun <T> T.findByName(s: String): D {null!!}
@@ -1,4 +1,5 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER
// !WITH_NEW_INFERENCE
interface JPAEntityClass<D> {
fun <T> T.findByName(s: String): D {null!!}
@@ -9,7 +10,7 @@ class Foo {
}
fun main() {
with("", {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>("", {
Foo.<!UNRESOLVED_REFERENCE!>findByName<!>("")
})
with(Foo) {
@@ -6,12 +6,12 @@ class A<T> {
class Out<out E>
fun test(x: A<out CharSequence>, y: Out<CharSequence>) {
with(x) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>(x) {
// TODO: this diagnostic could be replaced with TYPE_MISMATCH_DUE_TO_TYPE_PROJECTION
"".<!NI;DEBUG_INFO_UNRESOLVED_WITH_TARGET, UNRESOLVED_REFERENCE_WRONG_RECEIVER!>foo<!>()
<!OI;TYPE_MISMATCH_DUE_TO_TYPE_PROJECTIONS!>y<!>.<!NI;DEBUG_INFO_UNRESOLVED_WITH_TARGET, NI;UNRESOLVED_REFERENCE_WRONG_RECEIVER!>bar<!>()
with(y) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>(y) {
<!NI;DEBUG_INFO_UNRESOLVED_WITH_TARGET, NI;UNRESOLVED_REFERENCE_WRONG_RECEIVER, OI;TYPE_MISMATCH_DUE_TO_TYPE_PROJECTIONS!>bar<!>()
}
}
@@ -0,0 +1,74 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER
// !WITH_NEW_INFERENCE
fun takeFnToAny(fn: () -> Any) {}
fun takeFnToUnit(fn: () -> Unit) {}
fun <P> takeFnToParameter(fn: () -> P) {}
fun testAny() {
takeFnToAny { }
takeFnToAny { Unit }
takeFnToAny { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny(fun() = Unit)
takeFnToAny(fun() {})
takeFnToAny(fun() { return })
takeFnToAny(fun() { return Unit })
takeFnToAny(fun(): Unit {})
takeFnToAny(fun(): Unit { return })
takeFnToAny(fun(): Unit { return Unit })
takeFnToAny(fun() { if (true) return })
takeFnToAny(fun() { if (true) return Unit })
takeFnToAny(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToAny(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
fun testUnit() {
takeFnToUnit { }
takeFnToUnit { Unit }
takeFnToUnit { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit(fun() = Unit)
takeFnToUnit(fun() {})
takeFnToUnit(fun() { return })
takeFnToUnit(fun() { return Unit })
takeFnToUnit(fun(): Unit {})
takeFnToUnit(fun(): Unit { return })
takeFnToUnit(fun(): Unit { return Unit })
takeFnToUnit(fun() { if (true) return })
takeFnToUnit(fun() { if (true) return Unit })
takeFnToUnit(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToUnit(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
fun testParameter() {
takeFnToParameter { }
takeFnToParameter { Unit }
takeFnToParameter { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToParameter { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToParameter {
if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>()
}
takeFnToParameter(fun() = Unit)
takeFnToParameter(fun() {})
takeFnToParameter(fun() { return })
takeFnToParameter(fun() { return Unit })
takeFnToParameter(fun(): Unit {})
takeFnToParameter(fun(): Unit { return })
takeFnToParameter(fun(): Unit { return Unit })
takeFnToParameter(fun() { if (true) return })
takeFnToParameter(fun() { if (true) return Unit })
takeFnToParameter(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToParameter(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
@@ -0,0 +1,74 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER
// !WITH_NEW_INFERENCE
fun takeFnToAny(fn: () -> Any) {}
fun takeFnToUnit(fn: () -> Unit) {}
fun <P> takeFnToParameter(fn: () -> P) {}
fun testAny() {
takeFnToAny { }
takeFnToAny { Unit }
takeFnToAny { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToAny(fun() = Unit)
takeFnToAny(fun() {})
takeFnToAny(fun() { return })
takeFnToAny(fun() { return Unit })
takeFnToAny(fun(): Unit {})
takeFnToAny(fun(): Unit { return })
takeFnToAny(fun(): Unit { return Unit })
takeFnToAny(fun() { if (true) return })
takeFnToAny(fun() { if (true) return Unit })
takeFnToAny(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToAny(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToAny(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
fun testUnit() {
takeFnToUnit { }
takeFnToUnit { Unit }
takeFnToUnit { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToUnit(fun() = Unit)
takeFnToUnit(fun() {})
takeFnToUnit(fun() { return })
takeFnToUnit(fun() { return Unit })
takeFnToUnit(fun(): Unit {})
takeFnToUnit(fun(): Unit { return })
takeFnToUnit(fun(): Unit { return Unit })
takeFnToUnit(fun() { if (true) return })
takeFnToUnit(fun() { if (true) return Unit })
takeFnToUnit(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToUnit(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToUnit(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
fun testParameter() {
takeFnToParameter { }
takeFnToParameter { Unit }
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>takeFnToParameter<!> { <!UNRESOLVED_REFERENCE!>unresolved<!>() }
takeFnToParameter { if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() }
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER, OI;TYPE_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>takeFnToParameter<!> {
if (true) <!UNRESOLVED_REFERENCE!>unresolved<!>() else <!UNRESOLVED_REFERENCE!>unresolved<!>()
}
takeFnToParameter(fun() = Unit)
takeFnToParameter(fun() {})
takeFnToParameter(fun() { return })
takeFnToParameter(fun() { return Unit })
takeFnToParameter(fun(): Unit {})
takeFnToParameter(fun(): Unit { return })
takeFnToParameter(fun(): Unit { return Unit })
takeFnToParameter(fun() { if (true) return })
takeFnToParameter(fun() { if (true) return Unit })
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>takeFnToParameter<!>(fun() = <!UNRESOLVED_REFERENCE!>unresolved<!>())
takeFnToParameter(fun() { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun(): Unit { <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun() { return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
takeFnToParameter(fun() { if (true ) return <!UNRESOLVED_REFERENCE!>unresolved<!>() })
}
@@ -0,0 +1,8 @@
package
public fun takeFnToAny(/*0*/ fn: () -> kotlin.Any): kotlin.Unit
public fun </*0*/ P> takeFnToParameter(/*0*/ fn: () -> P): kotlin.Unit
public fun takeFnToUnit(/*0*/ fn: () -> kotlin.Unit): kotlin.Unit
public fun testAny(): kotlin.Unit
public fun testParameter(): kotlin.Unit
public fun testUnit(): kotlin.Unit
+1 -1
View File
@@ -2,7 +2,7 @@
// !DIAGNOSTICS: -UNUSED_VARIABLE
// Related issue: KT-28654
fun <K> select(): K = <!NI;TYPE_MISMATCH, OI;TYPE_INFERENCE_EXPECTED_TYPE_MISMATCH!>run { <!OI;TYPE_MISMATCH!><!>}<!>
fun <K> select(): K = <!NI;TYPE_MISMATCH, OI;TYPE_INFERENCE_EXPECTED_TYPE_MISMATCH!>run <!NI;TYPE_MISMATCH!>{ <!OI;TYPE_MISMATCH!><!>}<!><!>
fun test() {
val x: Int = select()
@@ -13,7 +13,7 @@ fun insideJob1() = doTheJob1()
suspend fun insideJob2() = doTheJob2()
suspend fun insideJob3() = doTheJob3()
fun doTheJob0() = simpleAsync0 { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob0<!>()<!> }
fun doTheJob1() = simpleAsync1 { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob1<!>()<!> }
suspend fun doTheJob2() = simpleAsync2 { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob2<!>()<!> }
suspend fun doTheJob3() = simpleAsync3 { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob3<!>()<!> }
fun doTheJob0() = <!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>simpleAsync0<!> { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob0<!>()<!> }
fun doTheJob1() = <!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>simpleAsync1<!> { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob1<!>()<!> }
suspend fun doTheJob2() = <!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>simpleAsync2<!> { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob2<!>()<!> }
suspend fun doTheJob3() = <!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>simpleAsync3<!> { <!TYPECHECKER_HAS_RUN_INTO_RECURSIVE_PROBLEM!><!DEBUG_INFO_MISSING_UNRESOLVED!>insideJob3<!>()<!> }
@@ -1,4 +1,6 @@
//KT-2741 Compiler can't infer a type of a function literal parameter when its body contains errors
// !WITH_NEW_INFERENCE
package a
fun <T, R: Comparable<R>> Iterable<T>._sortBy(f: (T) -> R): List<T> = throw Exception()
@@ -1,4 +1,6 @@
//KT-2741 Compiler can't infer a type of a function literal parameter when its body contains errors
// !WITH_NEW_INFERENCE
package a
fun <T, R: Comparable<R>> Iterable<T>._sortBy(<!UNUSED_PARAMETER!>f<!>: (T) -> R): List<T> = throw Exception()
@@ -7,5 +9,5 @@ fun <T> _arrayList(vararg <!UNUSED_PARAMETER!>values<!>: T) : List<T> = throw Ex
class _Pair<A>(val a: A)
fun test() {
_arrayList(_Pair(1))._sortBy { <!UNUSED_ANONYMOUS_PARAMETER!>it<!> -> <!UNRESOLVED_REFERENCE!>xxx<!> }
_arrayList(_Pair(1)).<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>_sortBy<!> { <!UNUSED_ANONYMOUS_PARAMETER!>it<!> -> <!UNRESOLVED_REFERENCE!>xxx<!> }
}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {}
@@ -8,7 +10,7 @@ public inline fun <T: Closeable, R> T.use1(block: (T)-> R) : R {
}
fun main() {
C().use1 {
C().<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>use1<!> {
<!UNUSED_ANONYMOUS_PARAMETER!>w<!> -> // ERROR here
<!UNRESOLVED_REFERENCE!>x<!>
}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -11,7 +13,7 @@ public inline fun <T: Closeable, R> T.use(block: (t: T)-> R) : R {
}
fun test() {
C().use {
C().<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>use<!> {
it.close()
<!UNRESOLVED_REFERENCE!>x<!>
}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -11,7 +13,7 @@ public inline fun <T: Closeable, R> use(t: T, block: T.(T)-> R) : R {
}
fun test() {
use(C()) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>use<!>(C()) {
this.close()
it.close()
<!UNRESOLVED_REFERENCE!>xx<!>
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {
@@ -11,7 +13,7 @@ public inline fun <T: Closeable, R> T.use(block: T.()-> R) : R {
}
fun test() {
C().use {
C().<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>use<!> {
this.close()
<!UNRESOLVED_REFERENCE!>x<!>
}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {}
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
package a
interface Closeable {}
@@ -8,7 +10,7 @@ fun <T: Closeable, R> T.foo(block: (T)-> R) = block
fun <T: Closeable, R> T.foo(block: (T, T)-> R) = block
fun main() {
C().foo { // no ambiguity here
C().<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>foo<!> { // no ambiguity here
<!UNUSED_ANONYMOUS_PARAMETER!>www<!> ->
<!UNRESOLVED_REFERENCE!>xs<!>
}
+1 -1
View File
@@ -79,7 +79,7 @@ fun test2() { // to extension lambda 1
// val i27: E1 = id { i, s: String -> i + s.length } // overload oi- ni-
val w28 = W2 <!TYPE_MISMATCH!>{ <!EXPECTED_PARAMETERS_NUMBER_MISMATCH!><!EXPECTED_PARAMETER_TYPE_MISMATCH!>i: Int<!>, <!CANNOT_INFER_PARAMETER_TYPE!>s<!><!> -> i <!OVERLOAD_RESOLUTION_AMBIGUITY!>+<!> <!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>s<!>.<!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>length<!> }<!> // oi- ni-
val i28: E1 = <!TYPE_MISMATCH!>id <!TYPE_MISMATCH!>{ <!EXPECTED_PARAMETERS_NUMBER_MISMATCH!><!EXPECTED_PARAMETER_TYPE_MISMATCH!>i: Int<!>, <!CANNOT_INFER_PARAMETER_TYPE!>s<!><!> -> i <!OVERLOAD_RESOLUTION_AMBIGUITY!>+<!> <!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>s<!>.<!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>length<!> }<!><!> // oi- ni-
val i28: E1 = id <!TYPE_MISMATCH!>{ <!EXPECTED_PARAMETERS_NUMBER_MISMATCH!><!EXPECTED_PARAMETER_TYPE_MISMATCH!>i: Int<!>, <!CANNOT_INFER_PARAMETER_TYPE!>s<!><!> -> i <!OVERLOAD_RESOLUTION_AMBIGUITY!>+<!> <!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>s<!>.<!DEBUG_INFO_ELEMENT_WITH_ERROR_TYPE!>length<!> }<!> // oi- ni-
val w29 = W2 <!TYPE_MISMATCH!>{ <!EXPECTED_PARAMETERS_NUMBER_MISMATCH!><!EXPECTED_PARAMETER_TYPE_MISMATCH!>i: Int<!>, s: String<!> -> i + s.length }<!> // oi- ni-
val i29: E1 = id { i: Int, s: String -> i + s.length } // oi+ ni+
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
class B
class A {
@@ -1,3 +1,5 @@
// !WITH_NEW_INFERENCE
class B
class A {
@@ -11,7 +13,7 @@ fun test(a: A, b: B) {
b.<!FUNCTION_EXPECTED!>(a)<!>()
with(b) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>(b) {
val <!UNUSED_VARIABLE!>y<!>: Int = a()
<!FUNCTION_EXPECTED!>(a)<!>()
}
@@ -104,9 +104,9 @@ fun testTwoLambdas() {
<!OI;TYPE_MISMATCH!>twoLambdaArgs({})
{}
<!MANY_LAMBDA_EXPRESSION_ARGUMENTS, UNEXPECTED_TRAILING_LAMBDA_ON_A_NEW_LINE!>{}<!><!>
} else {
} else <!NI;TYPE_MISMATCH!>{
{}
}<!>
}<!><!>
}
}
@@ -1,5 +1,6 @@
// !CHECK_TYPE
// !DIAGNOSTICS: -UNUSED_EXPRESSION -UNUSED_PARAMETER -UNUSED_VARIABLE
// !WITH_NEW_INFERENCE
// FILE: 2.kt
package b
@@ -1,5 +1,6 @@
// !CHECK_TYPE
// !DIAGNOSTICS: -UNUSED_EXPRESSION -UNUSED_PARAMETER -UNUSED_VARIABLE
// !WITH_NEW_INFERENCE
// FILE: 2.kt
package b
@@ -41,7 +42,7 @@ fun test(a: A) {
a.<!OVERLOAD_RESOLUTION_AMBIGUITY!>forEach<!>("")
with(a) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>(a) {
forEach() checkType { _<String>() }
forEach(1) checkType { _<Int>() }
@@ -1,5 +1,7 @@
// !CHECK_TYPE
// !DIAGNOSTICS: -UNUSED_EXPRESSION -UNUSED_PARAMETER -UNUSED_VARIABLE
// !WITH_NEW_INFERENCE
class A {
fun forEach() = this
fun forEach(i: Int) = this
@@ -1,5 +1,7 @@
// !CHECK_TYPE
// !DIAGNOSTICS: -UNUSED_EXPRESSION -UNUSED_PARAMETER -UNUSED_VARIABLE
// !WITH_NEW_INFERENCE
class A {
fun forEach() = this
fun forEach(i: Int) = this
@@ -35,7 +37,7 @@ fun test2(a: A) {
a.forEach() checkType { _<String>() }
a.<!OVERLOAD_RESOLUTION_AMBIGUITY!>forEach<!>(1)
with(a) {
<!NI;NEW_INFERENCE_NO_INFORMATION_FOR_PARAMETER!>with<!>(a) {
forEach() checkType { _<String>() }
<!OVERLOAD_RESOLUTION_AMBIGUITY!>forEach<!>(1)
}
@@ -10378,6 +10378,11 @@ public class DiagnosticsTestGenerated extends AbstractDiagnosticsTest {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coercionWithoutExpectedType.kt");
}
@TestMetadata("coersionWithAnonymousFunctionsAndUnresolved.kt")
public void testCoersionWithAnonymousFunctionsAndUnresolved() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coersionWithAnonymousFunctionsAndUnresolved.kt");
}
@TestMetadata("indirectCoercionWithExpectedType.kt")
public void testIndirectCoercionWithExpectedType() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/indirectCoercionWithExpectedType.kt");
@@ -10373,6 +10373,11 @@ public class DiagnosticsUsingJavacTestGenerated extends AbstractDiagnosticsUsing
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coercionWithoutExpectedType.kt");
}
@TestMetadata("coersionWithAnonymousFunctionsAndUnresolved.kt")
public void testCoersionWithAnonymousFunctionsAndUnresolved() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/coersionWithAnonymousFunctionsAndUnresolved.kt");
}
@TestMetadata("indirectCoercionWithExpectedType.kt")
public void testIndirectCoercionWithExpectedType() throws Exception {
runTest("compiler/testData/diagnostics/tests/inference/coercionToUnit/indirectCoercionWithExpectedType.kt");
@@ -14715,11 +14715,6 @@ public class LightAnalysisModeTestGenerated extends AbstractLightAnalysisModeTes
@TestDataPath("$PROJECT_ROOT")
@RunWith(JUnit3RunnerWithInners.class)
public static class NotNullAssertions extends AbstractLightAnalysisModeTest {
@TestMetadata("paramAssertionMessage.kt")
public void ignoreParamAssertionMessage() throws Exception {
runTest("compiler/testData/codegen/box/javaInterop/notNullAssertions/paramAssertionMessage.kt");
}
private void runTest(String testDataFilePath) throws Exception {
KotlinTestUtils.runTest(this::doTest, TargetBackend.JVM, testDataFilePath);
}
@@ -14808,6 +14803,11 @@ public class LightAnalysisModeTestGenerated extends AbstractLightAnalysisModeTes
runTest("compiler/testData/codegen/box/javaInterop/notNullAssertions/nullableTypeParameter.kt");
}
@TestMetadata("paramAssertionMessage.kt")
public void testParamAssertionMessage() throws Exception {
runTest("compiler/testData/codegen/box/javaInterop/notNullAssertions/paramAssertionMessage.kt");
}
@TestMetadata("staticCallErrorMessage.kt")
public void testStaticCallErrorMessage() throws Exception {
runTest("compiler/testData/codegen/box/javaInterop/notNullAssertions/staticCallErrorMessage.kt");
@@ -73,7 +73,7 @@ fun ResolvedCall<*>.hasLastFunctionalParameterWithResult(context: BindingContext
if (this is NewResolvedCallImpl<*>) {
// TODO: looks like hack
resolvedCallAtom.subResolvedAtoms?.firstOrNull { it is ResolvedLambdaAtom }.safeAs<ResolvedLambdaAtom>()?.let { lambdaAtom ->
return lambdaAtom.resultArguments.filterIsInstance<ReceiverKotlinCallArgument>().all {
return lambdaAtom.resultArgumentsInfo.nonErrorArguments.filterIsInstance<ReceiverKotlinCallArgument>().all {
val type = it.receiverValue?.type ?: return@all false
predicate(type)
}