Do subtyping with stub types properly

1) Return stub type if we are calculating super type between two same stub types
2) Return nullable Any if those stub types are different
This commit is contained in:
Victor Petukhov
2021-04-27 14:05:35 +03:00
parent 5d0461c722
commit ac7b459f2a
49 changed files with 1536 additions and 75 deletions
@@ -39,7 +39,7 @@ fun <R> select(vararg x: R) = x[0]
fun poll0(): Flow<String> {
return flow {
val inv = select(<!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>bar<!><!>, <!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>foo<!><!>)
<!UNRESOLVED_REFERENCE_WRONG_RECEIVER!>inv<!>()
inv()
}
}
@@ -144,7 +144,7 @@ fun poll17(flag: Boolean): Flow<String> {
fun poll2(flag: Boolean): Flow<String> {
return flow {
val inv = when (flag) { true -> <!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>bar<!><!> else -> <!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>foo<!><!> }
<!UNRESOLVED_REFERENCE_WRONG_RECEIVER!>inv<!>()
inv()
}
}
@@ -193,7 +193,7 @@ fun poll26(flag: Boolean): Flow<String> {
fun poll3(flag: Boolean): Flow<String> {
return flow {
val inv = when (flag) { true -> <!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>bar<!><!> false -> <!TYPE_INFERENCE_POSTPONED_VARIABLE_IN_RECEIVER_TYPE!>::<!DEBUG_INFO_MISSING_UNRESOLVED!>foo<!><!> }
<!UNRESOLVED_REFERENCE_WRONG_RECEIVER!>inv<!>()
inv()
}
}
@@ -0,0 +1,44 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -UNCHECKED_CAST -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
fun getOut(): Inv<out R>
fun getIn(): Inv<in R>
}
class Inv<T>
fun <K> captureOut(x: Inv<out K>): K = null as K
fun <K> captureIn(x: Inv<out K>): K = null as K
fun <K> capture(x: Inv<K>): K = null as K
fun main() {
build {
emit("")
getInv()
captureOut(getInv())
captureIn(getInv())
// K is fixed into CapturedType(out NotFixed: TypeVariable(R))
capture(getOut())
""
}
build {
emit("")
// K is fixed into CapturedType(in NotFixed: TypeVariable(R))
capture(getIn())
""
}
}
@@ -0,0 +1,44 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -UNCHECKED_CAST -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
fun getOut(): Inv<out R>
fun getIn(): Inv<in R>
}
class Inv<T>
fun <K> captureOut(x: Inv<out K>): K = null as K
fun <K> captureIn(x: Inv<out K>): K = null as K
fun <K> capture(x: Inv<K>): K = null as K
fun main() {
build {
emit("")
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>")!>getInv()<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>captureOut(<!DEBUG_INFO_EXPRESSION_TYPE("Inv<kotlin.String>")!>getInv()<!>)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>captureIn(<!DEBUG_INFO_EXPRESSION_TYPE("Inv<kotlin.String>")!>getInv()<!>)<!>
// K is fixed into CapturedType(out NotFixed: TypeVariable(R))
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>capture(<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.String>")!>getOut()<!>)<!>
""
}
build {
emit("")
// K is fixed into CapturedType(in NotFixed: TypeVariable(R))
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>capture(<!DEBUG_INFO_EXPRESSION_TYPE("Inv<in kotlin.Any?>")!>getIn()<!>)<!>
""
}
}
@@ -0,0 +1,26 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
public fun </*0*/ K> capture(/*0*/ x: Inv<K>): K
public fun </*0*/ K> captureIn(/*0*/ x: Inv<out K>): K
public fun </*0*/ K> captureOut(/*0*/ x: Inv<out K>): K
public fun main(): kotlin.Unit
public final class Inv</*0*/ T> {
public constructor Inv</*0*/ T>()
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 interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getIn(): Inv<in R>
public abstract fun getInv(): Inv<R>
public abstract fun getOut(): Inv<out R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,56 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U) = x
fun <E> select(vararg x: E) = x[0]
fun test() {
val ret = build {
emit("1")
Test.foo(get())
Test.foo(getInv())
id(get())
select(get(), get())
select(Test.foo(get()), Test.foo(get()))
select(Test.foo(get()), get())
select(getInv(), getInv())
select(Test.foo(getInv()), Test.foo(getInv()))
select(Test.foo(getInv()), getInv())
select(getInv(), Test.foo(getInv()))
select(id(get()), id(get()))
build2 {
emit(1)
select(this@build.get(), get())
select(Test.foo(this@build.get()), Test.foo(get()))
select(this@build.getInv(), getInv())
select(Test.foo(this@build.getInv()), Test.foo(getInv()))
select(Test.foo(this@build.getInv()), getInv())
select(id(this@build.get()), id(get()))
""
}
""
}
}
@@ -0,0 +1,56 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U) = x
fun <E> select(vararg x: E) = x[0]
fun test() {
val ret = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R)..TypeVariable(R)?)")!>Test.foo(get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<TypeVariable(R)>..Inv<TypeVariable(R)>?)")!>Test.foo(getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>id(get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>select(get(), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R)..TypeVariable(R)?)")!>select(Test.foo(get()), Test.foo(get()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R)..TypeVariable(R)?)")!>select(Test.foo(get()), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>")!>select(getInv(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<TypeVariable(R)>..Inv<TypeVariable(R)>?)")!>select(Test.foo(getInv()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<TypeVariable(R)>..Inv<TypeVariable(R)>?)")!>select(Test.foo(getInv()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<TypeVariable(R)>..Inv<TypeVariable(R)>?)")!>select(getInv(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)")!>select(id(get()), id(get()))<!>
build2 {
emit(1)
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(this@build.get(), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(Test.foo(this@build.get()), Test.foo(get()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>")!>select(this@build.getInv(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<out kotlin.Any?>..Inv<out kotlin.Any?>?)")!>select(Test.foo(this@build.getInv()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(Inv<out kotlin.Any?>..Inv<out kotlin.Any?>?)")!>select(Test.foo(this@build.getInv()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(id(this@build.get()), id(get()))<!>
""
}
""
}
}
@@ -0,0 +1,33 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
public fun </*0*/ U> id(/*0*/ x: U): U
public fun </*0*/ E> select(/*0*/ vararg x: E /*kotlin.Array<out E>*/): E
public fun test(): kotlin.Unit
public final class Inv</*0*/ K> {
public constructor Inv</*0*/ K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T!
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getInv(): Inv<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,83 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class In<in K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getIn(): In<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: In<E>): E? = x
fun <E> select2(x: E, y: In<E?>): E = x
fun <E> select3(x: E?, y: In<E?>): E = x!!
fun <E> select4(x: E?, y: In<E>): E = x!!
fun test() {
val ret = build {
emit("1")
select1(get(), getIn())
select1(get(), Test.foo(getIn()))
select1(Test.foo(get()), Test.foo(getIn()))
select1(Test.foo(get()), getIn())
select4(get(), getIn())
select4(get(), Test.foo(getIn()))
select4(Test.foo(get()), Test.foo(getIn()))
select4(Test.foo(get()), getIn())
select4(id(Test.foo(get())), getIn())
build2 {
emit(1)
select1(this@build.get(), getIn())
select1(get(), Test.foo(this@build.getIn()))
select1(Test.foo(this@build.get()), Test.foo(getIn()))
select1(Test.foo(get()), this@build.getIn())
select2(this@build.get(), getIn())
select2(get(), Test.foo(this@build.getIn()))
select2(Test.foo(this@build.get()), Test.foo(getIn()))
select2(Test.foo(get()), this@build.getIn())
select3(this@build.get(), getIn())
select3(get(), Test.foo(this@build.getIn()))
select3(Test.foo(this@build.get()), Test.foo(getIn()))
select3(Test.foo(get()), this@build.getIn())
select4(this@build.get(), getIn())
select4(get(), Test.foo(this@build.getIn()))
select4(Test.foo(this@build.get()), Test.foo(getIn()))
select4(Test.foo(get()), this@build.getIn())
select4(id(Test.foo(this@build.get())), getIn())
""
}
""
}
val ret2 = build {
emit(if (true) "" else null)
select2(get(), getIn())
select2(get(), Test.foo(getIn()))
select2(Test.foo(get()), Test.foo(getIn()))
select2(Test.foo(get()), getIn())
select3(get(), getIn())
select3(get(), Test.foo(getIn()))
select3(Test.foo(get()), Test.foo(getIn()))
select3(Test.foo(get()), getIn())
""
}
}
@@ -0,0 +1,83 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class In<in K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getIn(): In<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: In<E>): E? = x
fun <E> select2(x: E, y: In<E?>): E = x
fun <E> select3(x: E?, y: In<E?>): E = x!!
fun <E> select4(x: E?, y: In<E>): E = x!!
fun test() {
val ret = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(id(Test.foo(get())), getIn())<!>
build2 {
emit(1)
select1(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getIn()<!>)
select1(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getIn())<!>)
select1(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)!")!>Test.foo(getIn())<!>)
select1(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)!")!>this@build.getIn()<!>)
select2(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getIn()<!>)
select2(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getIn())<!>)
select2(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)!")!>Test.foo(getIn())<!>)
select2(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)!")!>this@build.getIn()<!>)
select3(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getIn()<!>)
select3(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getIn())<!>)
select3(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>Test.foo(getIn())<!>)
select3(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>this@build.getIn()<!>)
select4(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getIn()<!>)
select4(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getIn())<!>)
select4(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>Test.foo(getIn())<!>)
select4(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>this@build.getIn()<!>)
select4(id(Test.foo(this@build.get())), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getIn()<!>)
""
}
""
}
val ret2 = build {
emit(if (true) "" else null)
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R1)..TypeVariable(R1)?)")!>select2(Test.foo(get()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R1)..TypeVariable(R1)?)")!>select2(Test.foo(get()), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), getIn())<!>
""
}
}
@@ -0,0 +1,36 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R1> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R1>.() -> kotlin.Unit): R1
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R2> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R2>.() -> kotlin.Unit): R2
public fun </*0*/ U> id(/*0*/ x: U): U?
public fun </*0*/ E> select1(/*0*/ x: E, /*1*/ y: In<E>): E?
public fun </*0*/ E> select2(/*0*/ x: E, /*1*/ y: In<E?>): E
public fun </*0*/ E> select3(/*0*/ x: E?, /*1*/ y: In<E?>): E
public fun </*0*/ E> select4(/*0*/ x: E?, /*1*/ y: In<E>): E
public fun test(): kotlin.Unit
public final class In</*0*/ in K> {
public constructor In</*0*/ in K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T!
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getIn(): In<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,79 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class Out<out K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getOut(): Out<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: Out<E>): E? = x
fun <E> select2(x: E, y: Out<E?>): E = x
fun <E> select3(x: E?, y: Out<E?>): E = x!!
fun <E> select4(x: E?, y: Out<E>): E = x!!
fun test() {
val ret = build {
emit("1")
select1(get(), getOut())
select1(get(), Test.foo(getOut()))
select1(Test.foo(get()), Test.foo(getOut()))
select1(Test.foo(get()), getOut())
select2(get(), getOut())
select2(get(), Test.foo(getOut()))
select2(Test.foo(get()), Test.foo(getOut()))
select2(Test.foo(get()), getOut())
select3(get(), getOut())
select3(get(), Test.foo(getOut()))
select3(Test.foo(get()), Test.foo(getOut()))
select3(Test.foo(get()), getOut())
select4(get(), getOut())
select4(get(), Test.foo(getOut()))
select4(Test.foo(get()), Test.foo(getOut()))
select4(Test.foo(get()), getOut())
select4(id(Test.foo(get())), getOut())
build2 {
emit(1)
select1(this@build.get(), getOut())
select1(get(), Test.foo(this@build.getOut()))
select1(Test.foo(this@build.get()), Test.foo(getOut()))
select1(Test.foo(get()), this@build.getOut())
select2(this@build.get(), getOut())
select2(get(), Test.foo(this@build.getOut()))
select2(Test.foo(this@build.get()), Test.foo(getOut()))
select2(Test.foo(get()), this@build.getOut())
select3(this@build.get(), getOut())
select3(get(), Test.foo(this@build.getOut()))
select3(Test.foo(this@build.get()), Test.foo(getOut()))
select3(Test.foo(get()), this@build.getOut())
select4(this@build.get(), getOut())
select4(get(), Test.foo(this@build.getOut()))
select4(Test.foo(this@build.get()), Test.foo(getOut()))
select4(Test.foo(get()), this@build.getOut())
select4(id(Test.foo(this@build.get())), getOut())
""
}
""
}
}
@@ -0,0 +1,79 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class Out<out K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getOut(): Out<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: Out<E>): E? = x
fun <E> select2(x: E, y: Out<E?>): E = x
fun <E> select3(x: E?, y: Out<E?>): E = x!!
fun <E> select4(x: E?, y: Out<E>): E = x!!
fun test() {
val ret = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R1)..TypeVariable(R1)?)")!>select2(Test.foo(get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("(TypeVariable(R1)..TypeVariable(R1)?)")!>select2(Test.foo(get()), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(id(Test.foo(get())), getOut())<!>
build2 {
emit(1)
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select1(this@build.get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select1(get(), Test.foo(this@build.getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select1(Test.foo(this@build.get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select1(Test.foo(get()), this@build.getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select2(this@build.get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select2(get(), Test.foo(this@build.getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select2(Test.foo(this@build.get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select2(Test.foo(get()), this@build.getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select3(this@build.get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select3(get(), Test.foo(this@build.getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select3(Test.foo(this@build.get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select3(Test.foo(get()), this@build.getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select4(this@build.get(), getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select4(get(), Test.foo(this@build.getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select4(Test.foo(this@build.get()), Test.foo(getOut()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select4(Test.foo(get()), this@build.getOut())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select4(id(Test.foo(this@build.get())), getOut())<!>
""
}
""
}
}
@@ -0,0 +1,36 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R1> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R1>.() -> kotlin.Unit): R1
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R2> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R2>.() -> kotlin.Unit): R2
public fun </*0*/ U> id(/*0*/ x: U): U?
public fun </*0*/ E> select1(/*0*/ x: E, /*1*/ y: Out<E>): E?
public fun </*0*/ E> select2(/*0*/ x: E, /*1*/ y: Out<E?>): E
public fun </*0*/ E> select3(/*0*/ x: E?, /*1*/ y: Out<E?>): E
public fun </*0*/ E> select4(/*0*/ x: E?, /*1*/ y: Out<E>): E
public fun test(): kotlin.Unit
public final class Out</*0*/ out K> {
public constructor Out</*0*/ out K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T!
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getOut(): Out<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,89 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: Inv<E>): E? = x
fun <E> select2(x: E, y: Inv<E?>): E = x
fun <E> select3(x: E?, y: Inv<E?>): E = x!!
fun <E> select4(x: E?, y: Inv<E>): E = x!!
fun test() {
val ret1 = build {
emit("1")
select1(get(), getInv())
select1(get(), Test.foo(getInv()))
select1(Test.foo(get()), Test.foo(getInv()))
select1(Test.foo(get()), getInv())
select4(get(), getInv())
select4(get(), Test.foo(getInv()))
select4(Test.foo(get()), Test.foo(getInv()))
select4(Test.foo(get()), getInv())
select4(id(Test.foo(get())), getInv())
build2 {
emit(1)
select1(this@build.get(), getInv())
select1(get(), Test.foo(this@build.getInv()))
select1(Test.foo(this@build.get()), Test.foo(getInv()))
select1(Test.foo(get()), this@build.getInv())
select4(this@build.get(), getInv())
select4(get(), Test.foo(this@build.getInv()))
select4(Test.foo(this@build.get()), Test.foo(getInv()))
select4(Test.foo(get()), this@build.getInv())
select4(id(Test.foo(this@build.get())), getInv())
""
}
""
}
val ret2 = build {
emit(if (true) "1" else null)
select2(get(), getInv())
select2(get(), Test.foo(getInv()))
select2(Test.foo(get()), Test.foo(getInv()))
select2(Test.foo(get()), getInv())
select3(get(), getInv())
select3(get(), Test.foo(getInv()))
select3(Test.foo(get()), Test.foo(getInv()))
select3(Test.foo(get()), getInv())
build2 {
emit(1)
select2(this@build.get(), getInv())
select2(get(), Test.foo(this@build.getInv()))
select2(Test.foo(this@build.get()), Test.foo(getInv()))
select2(Test.foo(get()), this@build.getInv())
select3(this@build.get(), getInv())
select3(get(), Test.foo(this@build.getInv()))
select3(Test.foo(this@build.get()), Test.foo(getInv()))
select3(Test.foo(get()), this@build.getInv())
""
}
""
}
}
@@ -0,0 +1,89 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U): U? = x
fun <E> select1(x: E, y: Inv<E>): E? = x
fun <E> select2(x: E, y: Inv<E?>): E = x
fun <E> select3(x: E?, y: Inv<E?>): E = x!!
fun <E> select4(x: E?, y: Inv<E>): E = x!!
fun test() {
val ret1 = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(get(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)?")!>select1(Test.foo(get()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(get(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(Test.foo(get()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select4(id(Test.foo(get())), getInv())<!>
build2 {
emit(1)
select1(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getInv()<!>)
select1(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getInv())<!>)
select1(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)!")!>Test.foo(getInv())<!>)
select1(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)!")!>this@build.getInv()<!>)
select4(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getInv()<!>)
select4(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getInv())<!>)
select4(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>Test.foo(getInv())<!>)
select4(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>this@build.getInv()<!>)
select4(id(Test.foo(this@build.get())), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getInv()<!>)
""
}
""
}
val ret2 = build {
emit(if (true) "1" else null)
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(get(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(Test.foo(get()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select2(Test.foo(get()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(get(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>select3(Test.foo(get()), getInv())<!>
build2 {
emit(1)
select2(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getInv()<!>)
select2(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getInv())<!>)
select2(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)!")!>Test.foo(getInv())<!>)
select2(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)!")!>this@build.getInv()<!>)
select3(this@build.get(), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>getInv()<!>)
select3(get(), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>Test.foo(this@build.getInv())<!>)
select3(Test.foo(this@build.get()), <!TYPE_MISMATCH("TypeVariable(R2); TypeVariable(R1)")!>Test.foo(getInv())<!>)
select3(Test.foo(get()), <!TYPE_MISMATCH("TypeVariable(R1); TypeVariable(R2)")!>this@build.getInv()<!>)
""
}
""
}
}
@@ -0,0 +1,36 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R1> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R1>.() -> kotlin.Unit): R1
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R2> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R2>.() -> kotlin.Unit): R2
public fun </*0*/ U> id(/*0*/ x: U): U?
public fun </*0*/ E> select1(/*0*/ x: E, /*1*/ y: Inv<E>): E?
public fun </*0*/ E> select2(/*0*/ x: E, /*1*/ y: Inv<E?>): E
public fun </*0*/ E> select3(/*0*/ x: E?, /*1*/ y: Inv<E?>): E
public fun </*0*/ E> select4(/*0*/ x: E?, /*1*/ y: Inv<E>): E
public fun test(): kotlin.Unit
public final class Inv</*0*/ K> {
public constructor Inv</*0*/ K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T!
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getInv(): Inv<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,81 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
import org.jetbrains.annotations.*
class Test {
@Nullable
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U): U? = x
fun <E> select(vararg x: E): E? = x[0]
fun test() {
val ret = build {
emit("1")
Test.foo(get())
Test.foo(getInv())
id(get())
select(get(), get())
select(Test.foo(get()), Test.foo(get()))
select(Test.foo(get()), get())
select(getInv(), getInv())
select(Test.foo(getInv()), Test.foo(getInv()))
select(Test.foo(getInv()), getInv())
select(getInv(), Test.foo(getInv()))
select(id(get()), id(get()))
build2 {
emit(1)
select(this@build.get(), get())
select(Test.foo(this@build.get()), Test.foo(get()))
select(this@build.getInv(), getInv())
select(Test.foo(this@build.getInv()), Test.foo(getInv()))
select(Test.foo(this@build.getInv()), getInv())
select(id(this@build.get()), id(get()))
""
}
""
}
val ret2 = build {
emit("1")
select(get(), null)
select(Test.foo(null), Test.foo(get()))
select(Test.foo(get()), null)
select(null, getInv())
select(Test.foo(getInv()), Test.foo(null))
select(Test.foo(null), getInv())
select(getInv(), Test.foo(null))
select(id(null), id(get()))
build2 {
emit(1)
select(this@build.get(), get(), null)
select(Test.foo(this@build.get()), Test.foo(get()), null)
select(this@build.getInv(), getInv(), null)
select(Test.foo(this@build.getInv()), Test.foo(getInv()), null)
select(Test.foo(this@build.getInv()), getInv(), null)
select(id(this@build.get()), id(get()), null)
""
}
""
}
}
@@ -0,0 +1,81 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
import org.jetbrains.annotations.*
class Test {
@Nullable
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R> build2(@BuilderInference block: TestInterface<R>.() -> Unit): R = TODO()
class Inv<K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getInv(): Inv<R>
}
fun <U> id(x: U): U? = x
fun <E> select(vararg x: E): E? = x[0]
fun test() {
val ret = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>Test.foo(get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>Test.foo(getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>id(get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(get(), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(Test.foo(get()), Test.foo(get()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(Test.foo(get()), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(getInv(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(Test.foo(getInv()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(Test.foo(getInv()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(getInv(), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(id(get()), id(get()))<!>
build2 {
emit(1)
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(this@build.get(), get())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(Test.foo(this@build.get()), Test.foo(get()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(this@build.getInv(), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(Test.foo(this@build.getInv()), Test.foo(getInv()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(Test.foo(this@build.getInv()), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(id(this@build.get()), id(get()))<!>
""
}
""
}
val ret2 = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(get(), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(Test.<!IMPLICIT_NOTHING_TYPE_ARGUMENT_IN_RETURN_POSITION!>foo<!>(null), Test.foo(get()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(Test.foo(get()), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(null, getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(Test.foo(getInv()), Test.<!IMPLICIT_NOTHING_TYPE_ARGUMENT_IN_RETURN_POSITION!>foo<!>(null))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(Test.<!IMPLICIT_NOTHING_TYPE_ARGUMENT_IN_RETURN_POSITION!>foo<!>(null), getInv())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<TypeVariable(R)>?")!>select(getInv(), Test.<!IMPLICIT_NOTHING_TYPE_ARGUMENT_IN_RETURN_POSITION!>foo<!>(null))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R)?")!>select(<!IMPLICIT_NOTHING_TYPE_ARGUMENT_IN_RETURN_POSITION!>id<!>(null), id(get()))<!>
build2 {
emit(1)
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(this@build.get(), get(), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(Test.foo(this@build.get()), Test.foo(get()), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(this@build.getInv(), getInv(), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(Test.foo(this@build.getInv()), Test.foo(getInv()), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("Inv<out kotlin.Any?>?")!>select(Test.foo(this@build.getInv()), getInv(), null)<!>
<!DEBUG_INFO_EXPRESSION_TYPE("kotlin.Any?")!>select(id(this@build.get()), id(get()), null)<!>
""
}
""
}
}
@@ -0,0 +1,33 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R>.() -> kotlin.Unit): R
public fun </*0*/ U> id(/*0*/ x: U): U?
public fun </*0*/ E> select(/*0*/ vararg x: E /*kotlin.Array<out E>*/): E?
public fun test(): kotlin.Unit
public final class Inv</*0*/ K> {
public constructor Inv</*0*/ K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
@org.jetbrains.annotations.Nullable public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T?
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getInv(): Inv<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -0,0 +1,48 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -UNCHECKED_CAST -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class In<in K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getIn(): In<R>
}
fun <U> id(x: U) = x
fun <E> intersect(vararg x: In<E>): E = null as E
fun test() {
val ret = build {
emit("1")
intersect(getIn(), getIn())
intersect(getIn(), Test.foo(getIn()))
intersect(Test.foo(getIn()), Test.foo(getIn()))
intersect(Test.foo(getIn()), getIn())
build2 {
emit(1)
intersect(this@build.getIn(), getIn())
intersect(getIn(), Test.foo(this@build.getIn()))
intersect(Test.foo(this@build.getIn()), Test.foo(getIn()))
intersect(Test.foo(getIn()), this@build.getIn())
""
}
""
}
}
@@ -0,0 +1,48 @@
// !DIAGNOSTICS: -UNUSED_PARAMETER -UNCHECKED_CAST -DEPRECATION -EXPERIMENTAL_IS_NOT_ENABLED -UNUSED_VARIABLE
// WITH_RUNTIME
// FILE: Test.java
class Test {
static <T> T foo(T x) { return x; }
}
// FILE: main.kt
import kotlin.experimental.ExperimentalTypeInference
@UseExperimental(ExperimentalTypeInference::class)
fun <R1> build(@BuilderInference block: TestInterface<R1>.() -> Unit): R1 = TODO()
@UseExperimental(ExperimentalTypeInference::class)
fun <R2> build2(@BuilderInference block: TestInterface<R2>.() -> Unit): R2 = TODO()
class In<in K>
interface TestInterface<R> {
fun emit(r: R)
fun get(): R
fun getIn(): In<R>
}
fun <U> id(x: U) = x
fun <E> intersect(vararg x: In<E>): E = null as E
fun test() {
val ret = build {
emit("1")
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>intersect(getIn(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>intersect(getIn(), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>intersect(Test.foo(getIn()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("TypeVariable(R1)")!>intersect(Test.foo(getIn()), getIn())<!>
build2 {
emit(1)
<!DEBUG_INFO_EXPRESSION_TYPE("{TypeVariable(R1) & TypeVariable(R2)}")!>intersect(this@build.getIn(), getIn())<!>
<!DEBUG_INFO_EXPRESSION_TYPE("{TypeVariable(R1) & TypeVariable(R2)}")!>intersect(getIn(), Test.foo(this@build.getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("{TypeVariable(R1) & TypeVariable(R2)}")!>intersect(Test.foo(this@build.getIn()), Test.foo(getIn()))<!>
<!DEBUG_INFO_EXPRESSION_TYPE("{TypeVariable(R1) & TypeVariable(R2)}")!>intersect(Test.foo(getIn()), this@build.getIn())<!>
""
}
""
}
}
@@ -0,0 +1,33 @@
package
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R1> build(/*0*/ @kotlin.BuilderInference block: TestInterface<R1>.() -> kotlin.Unit): R1
@kotlin.UseExperimental(markerClass = {kotlin.experimental.ExperimentalTypeInference::class}) public fun </*0*/ R2> build2(/*0*/ @kotlin.BuilderInference block: TestInterface<R2>.() -> kotlin.Unit): R2
public fun </*0*/ U> id(/*0*/ x: U): U
public fun </*0*/ E> intersect(/*0*/ vararg x: In<E> /*kotlin.Array<out In<E>>*/): E
public fun test(): kotlin.Unit
public final class In</*0*/ in K> {
public constructor In</*0*/ in K>()
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/*package*/ open class Test {
public/*package*/ constructor Test()
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
// Static members
public/*package*/ open fun </*0*/ T : kotlin.Any!> foo(/*0*/ x: T!): T!
}
public interface TestInterface</*0*/ R> {
public abstract fun emit(/*0*/ r: R): kotlin.Unit
public open override /*1*/ /*fake_override*/ fun equals(/*0*/ other: kotlin.Any?): kotlin.Boolean
public abstract fun get(): R
public abstract fun getIn(): In<R>
public open override /*1*/ /*fake_override*/ fun hashCode(): kotlin.Int
public open override /*1*/ /*fake_override*/ fun toString(): kotlin.String
}
@@ -16,10 +16,13 @@ interface TestInterface<R> {
fun getInv(): Inv<R>
}
fun <U> id(x: U) = x
fun test() {
val ret = build {
emit(1)
emit("1")
get()
getInv()
""
}
}