[NI] Preserve constraint position for OnlyInputType during incorporation

Variable with complex dependency on other variable loses its
original constraint position when variable it depends on is fixed.
To prevent that, original input position is saved in incorporation
position.
This commit is contained in:
Pavel Kirpichenkov
2019-12-11 16:35:08 +03:00
parent 2fc79856a2
commit 86dc0925b1
9 changed files with 184 additions and 33 deletions
@@ -5,9 +5,7 @@
package org.jetbrains.kotlin.resolve.calls.inference.components package org.jetbrains.kotlin.resolve.calls.inference.components
import org.jetbrains.kotlin.resolve.calls.inference.model.Constraint import org.jetbrains.kotlin.resolve.calls.inference.model.*
import org.jetbrains.kotlin.resolve.calls.inference.model.ConstraintKind
import org.jetbrains.kotlin.resolve.calls.inference.model.VariableWithConstraints
import org.jetbrains.kotlin.types.* import org.jetbrains.kotlin.types.*
import org.jetbrains.kotlin.types.model.* import org.jetbrains.kotlin.types.model.*
import org.jetbrains.kotlin.utils.SmartSet import org.jetbrains.kotlin.utils.SmartSet
@@ -174,7 +172,10 @@ class ConstraintIncorporator(
val kind = if (isSubtype) ConstraintKind.LOWER else ConstraintKind.UPPER val kind = if (isSubtype) ConstraintKind.LOWER else ConstraintKind.UPPER
addNewIncorporatedConstraint(targetVariable, newConstraint, ConstraintContext(kind, derivedFrom)) val inputTypePosition = if (baseConstraint.position.from is OnlyInputTypeConstraintPosition)
baseConstraint.position else null
addNewIncorporatedConstraint(targetVariable, newConstraint, ConstraintContext(kind, derivedFrom, inputTypePosition))
} }
fun Context.containsConstrainingTypeWithoutProjection( fun Context.containsConstrainingTypeWithoutProjection(
@@ -48,21 +48,19 @@ class ConstraintInjector(
fun addInitialSubtypeConstraint(c: Context, lowerType: KotlinTypeMarker, upperType: KotlinTypeMarker, position: ConstraintPosition) { fun addInitialSubtypeConstraint(c: Context, lowerType: KotlinTypeMarker, upperType: KotlinTypeMarker, position: ConstraintPosition) {
val initialConstraint = InitialConstraint(lowerType, upperType, UPPER, position) val initialConstraint = InitialConstraint(lowerType, upperType, UPPER, position)
val incorporationPosition = IncorporationConstraintPosition(position, initialConstraint)
c.addInitialConstraint(initialConstraint) c.addInitialConstraint(initialConstraint)
updateAllowedTypeDepth(c, lowerType) updateAllowedTypeDepth(c, lowerType)
updateAllowedTypeDepth(c, upperType) updateAllowedTypeDepth(c, upperType)
addSubTypeConstraintAndIncorporateIt(c, lowerType, upperType, incorporationPosition) addSubTypeConstraintAndIncorporateIt(c, lowerType, upperType, IncorporationConstraintPosition(position, initialConstraint))
} }
fun addInitialEqualityConstraint(c: Context, a: KotlinTypeMarker, b: KotlinTypeMarker, position: ConstraintPosition) { fun addInitialEqualityConstraint(c: Context, a: KotlinTypeMarker, b: KotlinTypeMarker, position: ConstraintPosition) {
val initialConstraint = InitialConstraint(a, b, ConstraintKind.EQUALITY, position) val initialConstraint = InitialConstraint(a, b, ConstraintKind.EQUALITY, position)
val incorporationPosition = IncorporationConstraintPosition(position, initialConstraint)
c.addInitialConstraint(initialConstraint) c.addInitialConstraint(initialConstraint)
updateAllowedTypeDepth(c, a) updateAllowedTypeDepth(c, a)
updateAllowedTypeDepth(c, b) updateAllowedTypeDepth(c, b)
addSubTypeConstraintAndIncorporateIt(c, a, b, incorporationPosition) addSubTypeConstraintAndIncorporateIt(c, a, b, IncorporationConstraintPosition(position, initialConstraint))
addSubTypeConstraintAndIncorporateIt(c, b, a, incorporationPosition) addSubTypeConstraintAndIncorporateIt(c, b, a, IncorporationConstraintPosition(position, initialConstraint))
} }
private fun addSubTypeConstraintAndIncorporateIt( private fun addSubTypeConstraintAndIncorporateIt(
@@ -72,7 +70,7 @@ class ConstraintInjector(
incorporatePosition: IncorporationConstraintPosition incorporatePosition: IncorporationConstraintPosition
) { ) {
val possibleNewConstraints = Stack<Pair<TypeVariableMarker, Constraint>>() val possibleNewConstraints = Stack<Pair<TypeVariableMarker, Constraint>>()
val typeCheckerContext = TypeCheckerContext(c, incorporatePosition, lowerType, upperType, possibleNewConstraints) val typeCheckerContext = TypeCheckerContext(c, incorporatePosition, lowerType, upperType, possibleNewConstraints, mutableSetOf())
typeCheckerContext.runIsSubtypeOf(lowerType, upperType) typeCheckerContext.runIsSubtypeOf(lowerType, upperType)
while (possibleNewConstraints.isNotEmpty()) { while (possibleNewConstraints.isNotEmpty()) {
@@ -87,6 +85,8 @@ class ConstraintInjector(
constraintIncorporator.incorporate(typeCheckerContext, typeVariable, it) constraintIncorporator.incorporate(typeCheckerContext, typeVariable, it)
} }
} }
incorporatePosition.inputTypePositions = typeCheckerContext.preservedInputTypePositions
} }
private fun updateAllowedTypeDepth(c: Context, initialType: KotlinTypeMarker) = with(c) { private fun updateAllowedTypeDepth(c: Context, initialType: KotlinTypeMarker) = with(c) {
@@ -122,7 +122,8 @@ class ConstraintInjector(
val position: IncorporationConstraintPosition, val position: IncorporationConstraintPosition,
val baseLowerType: KotlinTypeMarker, val baseLowerType: KotlinTypeMarker,
val baseUpperType: KotlinTypeMarker, val baseUpperType: KotlinTypeMarker,
val possibleNewConstraints: MutableList<Pair<TypeVariableMarker, Constraint>> val possibleNewConstraints: MutableList<Pair<TypeVariableMarker, Constraint>>,
val preservedInputTypePositions: MutableSet<ConstraintPosition>
) : AbstractTypeCheckerContextForConstraintSystem(), ConstraintIncorporator.Context, TypeSystemInferenceExtensionContext by c { ) : AbstractTypeCheckerContextForConstraintSystem(), ConstraintIncorporator.Context, TypeSystemInferenceExtensionContext by c {
val baseContext: AbstractTypeCheckerContext = newBaseTypeCheckerContext(isErrorTypeEqualsToAnything, isStubTypeEqualsToAnything) val baseContext: AbstractTypeCheckerContext = newBaseTypeCheckerContext(isErrorTypeEqualsToAnything, isStubTypeEqualsToAnything)
@@ -193,7 +194,7 @@ class ConstraintInjector(
type: KotlinTypeMarker, type: KotlinTypeMarker,
constraintContext: ConstraintContext constraintContext: ConstraintContext
) { ) {
val (kind, derivedFrom) = constraintContext val (kind, derivedFrom, inputTypePosition) = constraintContext
var targetType = type var targetType = type
if (targetType.isUninferredParameter()) { if (targetType.isUninferredParameter()) {
@@ -231,6 +232,7 @@ class ConstraintInjector(
} }
possibleNewConstraints.add(typeVariable to Constraint(kind, targetType, position, derivedFrom = derivedFrom)) possibleNewConstraints.add(typeVariable to Constraint(kind, targetType, position, derivedFrom = derivedFrom))
inputTypePosition?.let { preservedInputTypePositions.add(it) }
} }
override val allTypeVariablesWithConstraints: Collection<VariableWithConstraints> override val allTypeVariablesWithConstraints: Collection<VariableWithConstraints>
@@ -259,4 +261,8 @@ class ConstraintInjector(
} }
} }
data class ConstraintContext(val kind: ConstraintKind, val derivedFrom: Set<TypeVariableMarker>) data class ConstraintContext(
val kind: ConstraintKind,
val derivedFrom: Set<TypeVariableMarker>,
val inputTypePosition: ConstraintPosition? = null
)
@@ -29,11 +29,11 @@ import org.jetbrains.kotlin.types.model.TypeVariableMarker
sealed class ConstraintPosition sealed class ConstraintPosition
class ExplicitTypeParameterConstraintPosition(val typeArgument: SimpleTypeArgument) : ConstraintPosition() { class ExplicitTypeParameterConstraintPosition(val typeArgument: SimpleTypeArgument) : ConstraintPosition(), OnlyInputTypeConstraintPosition {
override fun toString() = "TypeParameter $typeArgument" override fun toString() = "TypeParameter $typeArgument"
} }
class ExpectedTypeConstraintPosition(val topLevelCall: KotlinCall) : ConstraintPosition() { class ExpectedTypeConstraintPosition(val topLevelCall: KotlinCall) : ConstraintPosition(), OnlyInputTypeConstraintPosition {
override fun toString() = "ExpectedType for call $topLevelCall" override fun toString() = "ExpectedType for call $topLevelCall"
} }
@@ -45,11 +45,13 @@ class DeclaredUpperBoundConstraintPositionImpl(val typeParameterDescriptor: Type
class FirDeclaredUpperBoundConstraintPosition : DeclaredUpperBoundConstraintPosition() class FirDeclaredUpperBoundConstraintPosition : DeclaredUpperBoundConstraintPosition()
class ArgumentConstraintPosition(val argument: KotlinCallArgument) : ConstraintPosition() { interface OnlyInputTypeConstraintPosition
class ArgumentConstraintPosition(val argument: KotlinCallArgument) : ConstraintPosition(), OnlyInputTypeConstraintPosition {
override fun toString() = "Argument $argument" override fun toString() = "Argument $argument"
} }
class ReceiverConstraintPosition(val argument: KotlinCallArgument) : ConstraintPosition() { class ReceiverConstraintPosition(val argument: KotlinCallArgument) : ConstraintPosition(), OnlyInputTypeConstraintPosition {
override fun toString() = "Receiver $argument" override fun toString() = "Receiver $argument"
} }
@@ -77,8 +79,14 @@ class DelegatedPropertyConstraintPosition(val topLevelCall: KotlinCall) : Constr
override fun toString() = "Constraint from call $topLevelCall for delegated property" override fun toString() = "Constraint from call $topLevelCall for delegated property"
} }
class IncorporationConstraintPosition(val from: ConstraintPosition, val initialConstraint: InitialConstraint) : ConstraintPosition() { class IncorporationConstraintPosition(
override fun toString() = "Incorporate $initialConstraint from position $from" val from: ConstraintPosition,
val initialConstraint: InitialConstraint
) : ConstraintPosition() {
lateinit var inputTypePositions: Set<ConstraintPosition>
override fun toString() =
"Incorporate $initialConstraint from position $from"
} }
class CoroutinePosition() : ConstraintPosition() { class CoroutinePosition() : ConstraintPosition() {
@@ -12,9 +12,7 @@ import org.jetbrains.kotlin.types.KotlinType
import org.jetbrains.kotlin.types.model.KotlinTypeMarker import org.jetbrains.kotlin.types.model.KotlinTypeMarker
import org.jetbrains.kotlin.types.model.TypeConstructorMarker import org.jetbrains.kotlin.types.model.TypeConstructorMarker
import org.jetbrains.kotlin.types.model.TypeVariableMarker import org.jetbrains.kotlin.types.model.TypeVariableMarker
import org.jetbrains.kotlin.types.TypeConstructor
import org.jetbrains.kotlin.types.UnwrappedType import org.jetbrains.kotlin.types.UnwrappedType
import org.jetbrains.kotlin.types.checker.NewCapturedType
import org.jetbrains.kotlin.types.typeUtil.unCapture import org.jetbrains.kotlin.types.typeUtil.unCapture
import kotlin.collections.ArrayList import kotlin.collections.ArrayList
import kotlin.collections.LinkedHashMap import kotlin.collections.LinkedHashMap
@@ -34,14 +32,16 @@ class MutableVariableWithConstraints(
// see @OnlyInputTypes annotation // see @OnlyInputTypes annotation
val projectedInputCallTypes: Collection<UnwrappedType> val projectedInputCallTypes: Collection<UnwrappedType>
get() = get() = mutableConstraints
mutableConstraints.filter { .filter { it.position.isInputTypePosition }
val position = it.position.from .map { (it.type as KotlinType).unCapture().unwrap() }
position is ArgumentConstraintPosition || position is ReceiverConstraintPosition ||
position is ExpectedTypeConstraintPosition || position is ExplicitTypeParameterConstraintPosition private val ConstraintPosition?.isInputTypePosition: Boolean
}.map { get() = when (this) {
(it.type as KotlinType).unCapture().unwrap() is OnlyInputTypeConstraintPosition -> true
} !is IncorporationConstraintPosition -> false
else -> from.isInputTypePosition || inputTypePositions.any { it.isInputTypePosition }
}
private val mutableConstraints = ArrayList(constraints) private val mutableConstraints = ArrayList(constraints)
@@ -298,10 +298,10 @@ class NewConstraintSystemImpl(
variableWithConstraints: MutableVariableWithConstraints?, variableWithConstraints: MutableVariableWithConstraints?,
resultType: KotlinTypeMarker resultType: KotlinTypeMarker
) { ) {
if (resultType !is KotlinType) return if (resultType !is KotlinType || variableWithConstraints == null) return
if (variableWithConstraints == null || variableWithConstraints.typeVariable.safeAs<NewTypeVariable>()?.hasOnlyInputTypesAnnotation() != true ) return if (variableWithConstraints.typeVariable.safeAs<NewTypeVariable>()?.hasOnlyInputTypesAnnotation() != true) return
val projectedInputCallTypes = variableWithConstraints.projectedInputCallTypes
val resultTypeIsInputType = projectedInputCallTypes.any { inputType -> val resultTypeIsInputType = variableWithConstraints.projectedInputCallTypes.any { inputType ->
NewKotlinTypeChecker.Default.equalTypes(resultType, inputType) || NewKotlinTypeChecker.Default.equalTypes(resultType, inputType) ||
inputType.constructor is IntersectionTypeConstructor inputType.constructor is IntersectionTypeConstructor
&& inputType.constructor.supertypes.any { NewKotlinTypeChecker.Default.equalTypes(resultType, it) } && inputType.constructor.supertypes.any { NewKotlinTypeChecker.Default.equalTypes(resultType, it) }
@@ -0,0 +1,54 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -UNUSED_VARIABLE
// !WITH_NEW_INFERENCE
@file:Suppress("INVISIBLE_MEMBER", "INVISIBLE_REFERENCE")
import kotlin.internal.OnlyInputTypes
interface Bound
class First : Bound
class Second : Bound
class Inv<I >(val v: I)
class InvB<I : Bound>(val v: I)
class In<in C>(v: C)
class InB<in C : Bound>(v: C)
class Out<out O>(val v: O)
class OutB<out O : Bound>(val v: O)
fun <@OnlyInputTypes M> strictId(arg: M): M = arg
fun <@OnlyInputTypes S> strictSelect(arg1: S, arg2: S): S = arg1
fun testOK(first: First, bound: Bound, second: Second) {
strictId(Inv(15))
strictId(Inv("foo"))
strictId(Inv(first))
strictId(InvB(first))
strictId(In(first))
strictId(InB(first))
strictId(Out(first))
strictId(OutB(first))
strictId(Inv(Inv(Inv(first))))
strictSelect(Inv(first), Inv(first))
strictSelect(InvB(first), InvB(first))
strictSelect(Out(first), Out(bound))
strictSelect(OutB(first), OutB(bound))
strictSelect(In(first), In(bound))
strictSelect(InB(first), InB(bound))
<!OI;TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(InB(first), InB(second)) // different behaviour in contravariant position
val out: Out<Bound> = strictSelect(Out(first), Out(second))
val outb: OutB<Bound> = strictSelect(OutB(first), OutB(second))
strictSelect<Out<Bound>>(Out(first), Out(second))
strictSelect<OutB<Bound>>(OutB(first), OutB(second))
}
fun testFail(first: First, bound: Bound, second: Second) {
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(InvB(first), InvB(bound))
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(Inv(first), Inv(bound))
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(Out(first), Out(second))
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(In(first), In(second))
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(Out(Inv(first)), Out(Inv(second)))
<!TYPE_INFERENCE_ONLY_INPUT_TYPES!>strictSelect<!>(In(Inv(first)), In(Inv(second)))
}
@@ -0,0 +1,72 @@
package
public fun </*0*/ @kotlin.internal.OnlyInputTypes M> strictId(/*0*/ arg: M): M
public fun </*0*/ @kotlin.internal.OnlyInputTypes S> strictSelect(/*0*/ arg1: S, /*1*/ arg2: S): S
public fun testFail(/*0*/ first: First, /*1*/ bound: Bound, /*2*/ second: Second): kotlin.Unit
public fun testOK(/*0*/ first: First, /*1*/ bound: Bound, /*2*/ second: Second): kotlin.Unit
public interface Bound {
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class First : Bound {
public constructor First()
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class In</*0*/ in C> {
public constructor In</*0*/ in C>(/*0*/ v: C)
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class InB</*0*/ in C : Bound> {
public constructor InB</*0*/ in C : Bound>(/*0*/ v: C)
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class Inv</*0*/ I> {
public constructor Inv</*0*/ I>(/*0*/ v: I)
public final val v: I
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class InvB</*0*/ I : Bound> {
public constructor InvB</*0*/ I : Bound>(/*0*/ v: I)
public final val v: I
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class Out</*0*/ out O> {
public constructor Out</*0*/ out O>(/*0*/ v: O)
public final val v: O
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class OutB</*0*/ out O : Bound> {
public constructor OutB</*0*/ out O : Bound>(/*0*/ v: O)
public final val v: O
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
public final class Second : Bound {
public constructor Second()
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -2843,6 +2843,11 @@ public class DiagnosticsTestWithStdLibGenerated extends AbstractDiagnosticsTestW
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCaptured.kt"); runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCaptured.kt");
} }
@TestMetadata("onlyInputTypesCommonConstraintSystem.kt")
public void testOnlyInputTypesCommonConstraintSystem() throws Exception {
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCommonConstraintSystem.kt");
}
@TestMetadata("onlyInputTypesWithVarargs.kt") @TestMetadata("onlyInputTypesWithVarargs.kt")
public void testOnlyInputTypesWithVarargs() throws Exception { public void testOnlyInputTypesWithVarargs() throws Exception {
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesWithVarargs.kt"); runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesWithVarargs.kt");
@@ -2843,6 +2843,11 @@ public class DiagnosticsTestWithStdLibUsingJavacGenerated extends AbstractDiagno
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCaptured.kt"); runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCaptured.kt");
} }
@TestMetadata("onlyInputTypesCommonConstraintSystem.kt")
public void testOnlyInputTypesCommonConstraintSystem() throws Exception {
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesCommonConstraintSystem.kt");
}
@TestMetadata("onlyInputTypesWithVarargs.kt") @TestMetadata("onlyInputTypesWithVarargs.kt")
public void testOnlyInputTypesWithVarargs() throws Exception { public void testOnlyInputTypesWithVarargs() throws Exception {
runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesWithVarargs.kt"); runTest("compiler/testData/diagnostics/testsWithStdLib/inference/annotationsForResolve/onlyInputTypesWithVarargs.kt");