[LL FIR] add more lazy resolve tests on status phase

^KT-56551
This commit is contained in:
Dmitrii Gridin
2023-05-11 17:35:40 +02:00
parent 0b09be73c6
commit 25506d3be6
42 changed files with 14850 additions and 0 deletions
@@ -0,0 +1,15 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class Usag<caret>e : Foo2 {
override fun foo() {}
}
@@ -0,0 +1,421 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(COMPANION_GENERATION)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(CONTRACTS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class Usage : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] constructor(): R|Usage| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class Usage : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] constructor(): R|Usage| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class Oute<caret>rClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,996 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(COMPANION_GENERATION)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(CONTRACTS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
super<R|kotlin/Any|>()
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public final [ResolvedTo(BODY_RESOLVE)] class ClassFromInterface : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
super<R|kotlin/Any|>()
}
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
super<R|OuterClass.NestedClass|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit| {
}
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class Neste<caret>dClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,997 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(COMPANION_GENERATION)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(SUPER_TYPES)] class NestedClass : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(TYPES)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(TYPES)] class NestedClass : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(CONTRACTS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass2.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public final [ResolvedTo(BODY_RESOLVE)] class ClassFromInterface : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
super<R|kotlin/Any|>()
}
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
super<R|OuterClass.NestedClass|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit| {
}
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class Simple<caret>NestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,997 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(COMPANION_GENERATION)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(SUPER_TYPES)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(TYPES)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(TYPES)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(STATUS)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(EXPECT_ACTUAL_MATCHING)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(CONTRACTS)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(STATUS)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public final [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public final [ResolvedTo(BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass3.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public final [ResolvedTo(BODY_RESOLVE)] class ClassFromInterface : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
super<R|kotlin/Any|>()
}
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
super<R|OuterClass.NestedClass|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit| {
}
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class Another<caret>NestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,997 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class OuterClass : Foo1 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(RAW_FIR)] class NestedClass : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(COMPANION_GENERATION)] class AnotherNestedClass : NestedClass {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(SUPER_TYPES)] class NestedClass : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(SUPER_TYPES)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class OuterClass : R|Foo1| {
public? [ResolvedTo(TYPES)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(SUPER_TYPES)] class NestedClass : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public? abstract [ResolvedTo(TYPES)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<NestedClass>
}
public? open? override [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit| { LAZY_BLOCK }
}
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(CONTRACTS)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(STATUS)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
LAZY_super<R|OuterClass.NestedClass|>
}
public open override [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit| { LAZY_BLOCK }
}
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public? final? [ResolvedTo(RAW_FIR)] class ClassFromInterface : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
LAZY_super<R|kotlin/Any|>
}
}
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): Boolean
}
public abstract [ResolvedTo(STATUS)] class OuterClass : R|Foo1| {
public [ResolvedTo(STATUS)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
LAZY_super<<implicit>>
}
public? final? [ResolvedTo(RAW_FIR)] class SimpleNestedClass : R|kotlin/Any| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
LAZY_super<R|kotlin/Any|>
}
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(STATUS)] class NestedClass : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
public abstract [ResolvedTo(BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
super<R|OuterClass.NestedClass|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit| {
}
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverrideAndNestedClass4.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
public final [ResolvedTo(BODY_RESOLVE)] class ClassFromInterface : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=ClassFromInterface] constructor(): R|Foo1.ClassFromInterface| {
super<R|kotlin/Any|>()
}
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class OuterClass : R|Foo1| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=OuterClass] constructor(): R|OuterClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] class SimpleNestedClass : R|kotlin/Any| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=SimpleNestedClass] constructor(): R|OuterClass.SimpleNestedClass| {
super<R|kotlin/Any|>()
}
public final [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class NestedClass : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=NestedClass] constructor(): R|OuterClass.NestedClass| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
public abstract [ResolvedTo(BODY_RESOLVE)] class AnotherNestedClass : R|OuterClass.NestedClass| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=AnotherNestedClass] constructor(): R|OuterClass.AnotherNestedClass| {
super<R|OuterClass.NestedClass|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit| {
}
}
}
@@ -0,0 +1,11 @@
interface Fo<caret>o1 : Foo2 {
override fun foo()
}
interface Foo2 : Foo3 {
override fun foo()
}
interface Foo3 : Foo1 {
override fun foo()
}
@@ -0,0 +1,223 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(COMPANION_GENERATION)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(CONTRACTS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
@@ -0,0 +1,11 @@
interface Fo<caret>o1 : Foo2 {
fun foo()
}
interface Foo2 : Foo3 {
override fun foo()
}
interface Foo3 : Foo1 {
override fun foo()
}
@@ -0,0 +1,223 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(COMPANION_GENERATION)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(CONTRACTS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
@@ -0,0 +1,15 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class Usage : Foo2 {
override fun fo<caret>o() {}
}
@@ -0,0 +1,424 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(COMPANION_GENERATION)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(SUPER_TYPES)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(TYPES)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(TYPES)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(EXPECT_ACTUAL_MATCHING)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(CONTRACTS)] fun foo(): R|kotlin/Unit| {
}
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] fun foo(): R|kotlin/Unit| {
}
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class Usage : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] constructor(): R|Usage| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun fo<caret>o() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun b<caret>ar(s: String) {
}
}
}
@@ -0,0 +1,37 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun f<caret>oo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,11 @@
interface Foo1 : Foo2 {
override fun f<caret>oo()
}
interface Foo2 : Foo3 {
override fun foo()
}
interface Foo3 : Foo1 {
override fun foo()
}
@@ -0,0 +1,223 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(COMPANION_GENERATION)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(SUPER_TYPES)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(TYPES)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(EXPECT_ACTUAL_MATCHING)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(CONTRACTS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
@@ -0,0 +1,11 @@
interface Foo1 : Foo2 {
fun f<caret>oo()
}
interface Foo2 : Foo3 {
override fun foo()
}
interface Foo3 : Foo1 {
override fun foo()
}
@@ -0,0 +1,223 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(COMPANION_GENERATION)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(SUPER_TYPES)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(TYPES)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(CONTRACTS)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
}
@@ -0,0 +1,16 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class Usage : Foo2 {
override fun foo() {}
override val s<caret>tr = ""
}
@@ -0,0 +1,462 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(RAW_FIR)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] get(): <implicit>
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(RAW_FIR)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] get(): <implicit>
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] [ContainingClassKey=Usage] get(): <implicit>
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo1 {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(RAW_FIR)] class Usage : Foo2 {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(COMPANION_GENERATION)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(COMPANION_GENERATION)] [ContainingClassKey=Usage] get(): <implicit>
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(SUPER_TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(SUPER_TYPES)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(SUPER_TYPES)] [ContainingClassKey=Usage] get(): <implicit>
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : R|kotlin/Any| {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : R|Foo1| {
public? final? [ResolvedTo(RAW_FIR)] fun foo([ResolvedTo(RAW_FIR)] i: Int): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] fun bar([ResolvedTo(RAW_FIR)] s: String): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val isBoo: Boolean
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): Boolean
}
public? abstract [ResolvedTo(TYPES)] class Usage : R|Foo2| {
public? [ResolvedTo(TYPES)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public? open? override [ResolvedTo(TYPES)] val str: <implicit> = LAZY_EXPRESSION
public? [ResolvedTo(TYPES)] [ContainingClassKey=Usage] get(): <implicit>
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(STATUS)] val str: <implicit> = LAZY_EXPRESSION
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] get(): <implicit>
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(EXPECT_ACTUAL_MATCHING)] val str: <implicit> = LAZY_EXPRESSION
public [ResolvedTo(EXPECT_ACTUAL_MATCHING)] [ContainingClassKey=Usage] get(): <implicit>
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] val str: <implicit> = LAZY_EXPRESSION
public [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] [ContainingClassKey=Usage] get(): <implicit>
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(CONTRACTS)] val str: <implicit> = String()
public [ResolvedTo(CONTRACTS)] [ContainingClassKey=Usage] get(): <implicit>
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] val str: R|kotlin/String| = String()
public [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] [ContainingClassKey=Usage] get(): R|kotlin/String|
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] val str: R|kotlin/String| = String()
public [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] [ContainingClassKey=Usage] get(): R|kotlin/String|
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(STATUS)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(STATUS)] fun foo([ResolvedTo(STATUS)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] fun bar([ResolvedTo(STATUS)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(STATUS)] class Usage : R|Foo2| {
public [ResolvedTo(STATUS)] [ContainingClassKey=Usage] constructor(): R|Usage| {
LAZY_super<<implicit>>
}
public open override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit| { LAZY_BLOCK }
public open override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String| = String()
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] get(): R|kotlin/String|
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] hierarchyWithOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : R|kotlin/Any| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : R|Foo1| {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo([ResolvedTo(BODY_RESOLVE)] i: R|kotlin/Int|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] fun bar([ResolvedTo(BODY_RESOLVE)] s: R|kotlin/String|): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val isBoo: R|kotlin/Boolean|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/Boolean|
}
public abstract [ResolvedTo(BODY_RESOLVE)] class Usage : R|Foo2| {
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] constructor(): R|Usage| {
super<R|kotlin/Any|>()
}
public open override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit| {
}
public open override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String| = String()
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Usage] get(): R|kotlin/String|
}
@@ -0,0 +1,38 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
val s<caret>t: String = 1
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,38 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
override val isB<caret>oo = true
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,39 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
private val myPr<caret>op = 1
}
abstract class NestedClass : Foo2 {
override fun foo() {}
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
}
}
@@ -0,0 +1,40 @@
interface Foo1 {
fun foo()
fun bar()
val str: String
class ClassFromInterface
}
interface Foo2 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
interface Foo3 : Foo1 {
fun foo(i: Int)
fun bar(s: String)
val isBoo: Boolean
}
abstract class OuterClass : Foo1 {
class SimpleNestedClass {
fun foo() {
}
}
abstract class NestedClass : Foo2 {
override fun foo() {}
val st = ""
}
abstract class AnotherNestedClass : NestedClass() {
override fun bar(s: String) {
}
override val is<caret>Boo = false
}
}
@@ -0,0 +1,14 @@
interface Foo1 : Foo2 {
override fun foo()
override val st<caret>r: String
}
interface Foo2 : Foo3 {
override fun foo()
override val str: String
}
interface Foo3 : Foo1 {
override fun foo()
override val str: String
}
@@ -0,0 +1,349 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] val str: String
public? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(COMPANION_GENERATION)] val str: String
public? [ResolvedTo(COMPANION_GENERATION)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(SUPER_TYPES)] val str: String
public? [ResolvedTo(SUPER_TYPES)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(TYPES)] val str: R|kotlin/String|
public? [ResolvedTo(TYPES)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(EXPECT_ACTUAL_MATCHING)] val str: R|kotlin/String|
public [ResolvedTo(EXPECT_ACTUAL_MATCHING)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] val str: R|kotlin/String|
public [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(CONTRACTS)] val str: R|kotlin/String|
public [ResolvedTo(CONTRACTS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] val str: R|kotlin/String|
public [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/String|
}
@@ -0,0 +1,14 @@
interface Foo1 : Foo2 {
fun foo()
val s<caret>tr: String
}
interface Foo2 : Foo3 {
override fun foo()
override val str: String
}
interface Foo3 : Foo1 {
override fun foo()
override val str: String
}
@@ -0,0 +1,349 @@
RAW_FIR:
FILE: [ResolvedTo(RAW_FIR)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
IMPORTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
COMPILER_REQUIRED_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] val str: String
public? [ResolvedTo(COMPILER_REQUIRED_ANNOTATIONS)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
COMPANION_GENERATION:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(RAW_FIR)] interface Foo1 : Foo2 {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(COMPANION_GENERATION)] val str: String
public? [ResolvedTo(COMPANION_GENERATION)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo2 : Foo3 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(RAW_FIR)] interface Foo3 : Foo1 {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
SUPER_TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(SUPER_TYPES)] val str: String
public? [ResolvedTo(SUPER_TYPES)] [ContainingClassKey=Foo1] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
TYPES:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public? final? [ResolvedTo(TYPES)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public? final? [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? final? [ResolvedTo(TYPES)] val str: R|kotlin/String|
public? [ResolvedTo(TYPES)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
STATUS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(STATUS)] val str: R|kotlin/String|
public [ResolvedTo(STATUS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
EXPECT_ACTUAL_MATCHING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(EXPECT_ACTUAL_MATCHING)] val str: R|kotlin/String|
public [ResolvedTo(EXPECT_ACTUAL_MATCHING)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
ARGUMENTS_OF_ANNOTATIONS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] val str: R|kotlin/String|
public [ResolvedTo(ARGUMENTS_OF_ANNOTATIONS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
CONTRACTS:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(CONTRACTS)] val str: R|kotlin/String|
public [ResolvedTo(CONTRACTS)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
IMPLICIT_TYPES_BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(IMPLICIT_TYPES_BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
ANNOTATIONS_ARGUMENTS_MAPPING:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] val str: R|kotlin/String|
public [ResolvedTo(ANNOTATIONS_ARGUMENTS_MAPPING)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
BODY_RESOLVE:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(RAW_FIR)] annotations container
public abstract [ResolvedTo(STATUS)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(STATUS)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo2] get(): String
}
public? final? [ResolvedTo(SUPER_TYPES)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public? open? override [ResolvedTo(RAW_FIR)] fun foo(): R|kotlin/Unit|
public? open? override [ResolvedTo(RAW_FIR)] val str: String
public? [ResolvedTo(RAW_FIR)] [ContainingClassKey=Foo3] get(): String
}
FILE RAW TO BODY:
FILE: [ResolvedTo(IMPORTS)] simpleLoopInOverride2.kt
[ResolvedTo(BODY_RESOLVE)] annotations container
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo1 : <ERROR TYPE REF: Loop in supertype: /Foo1 -> /Foo2> {
public abstract [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo1] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo2 : <ERROR TYPE REF: Loop in supertype: /Foo2 -> /Foo3> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo2] get(): R|kotlin/String|
}
public abstract [ResolvedTo(BODY_RESOLVE)] interface Foo3 : <ERROR TYPE REF: Loop in supertype: /Foo3 -> /Foo1> {
public abstract override [ResolvedTo(BODY_RESOLVE)] fun foo(): R|kotlin/Unit|
public abstract override [ResolvedTo(BODY_RESOLVE)] val str: R|kotlin/String|
public [ResolvedTo(BODY_RESOLVE)] [ContainingClassKey=Foo3] get(): R|kotlin/String|
}
@@ -459,6 +459,36 @@ public class FirOutOfContentRootLazyDeclarationResolveTestGenerated extends Abst
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/functionInValueClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass4.kt")
public void testHierarchyWithOverrideAndNestedClass4() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass4.kt");
}
@Test
@TestMetadata("nestedClass.kt")
public void testNestedClass() throws Exception {
@@ -470,6 +500,18 @@ public class FirOutOfContentRootLazyDeclarationResolveTestGenerated extends Abst
public void testNestedClassWithPropertiesOverrides() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/nestedClassWithPropertiesOverrides.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/simpleLoopInOverride2.kt");
}
}
@Nested
@@ -520,6 +562,42 @@ public class FirOutOfContentRootLazyDeclarationResolveTestGenerated extends Abst
public void testFunctionWithTypeParameters() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/functionWithTypeParameters.kt");
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/simpleLoopInOverride2.kt");
}
}
@Nested
@@ -531,6 +609,36 @@ public class FirOutOfContentRootLazyDeclarationResolveTestGenerated extends Abst
KtTestUtil.assertAllTestsPresentByMetadataWithExcluded(this.getClass(), new File("analysis/low-level-api-fir/testdata/lazyResolve/properties"), Pattern.compile("^(.+)\\.kt$"), null, true);
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass4.kt")
public void testHierarchyWithOverrideAndNestedClass4() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass4.kt");
}
@Test
@TestMetadata("propertyGetterWithExplicitType.kt")
public void testPropertyGetterWithExplicitType() throws Exception {
@@ -560,6 +668,18 @@ public class FirOutOfContentRootLazyDeclarationResolveTestGenerated extends Abst
public void testPropertyWithTypeParameters() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/propertyWithTypeParameters.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/simpleLoopInOverride2.kt");
}
}
@Nested
@@ -459,6 +459,36 @@ public class FirSourceLazyDeclarationResolveTestGenerated extends AbstractFirSou
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/functionInValueClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass4.kt")
public void testHierarchyWithOverrideAndNestedClass4() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/hierarchyWithOverrideAndNestedClass4.kt");
}
@Test
@TestMetadata("nestedClass.kt")
public void testNestedClass() throws Exception {
@@ -470,6 +500,18 @@ public class FirSourceLazyDeclarationResolveTestGenerated extends AbstractFirSou
public void testNestedClassWithPropertiesOverrides() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/nestedClassWithPropertiesOverrides.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/classes/simpleLoopInOverride2.kt");
}
}
@Nested
@@ -520,6 +562,42 @@ public class FirSourceLazyDeclarationResolveTestGenerated extends AbstractFirSou
public void testFunctionWithTypeParameters() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/functionWithTypeParameters.kt");
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/functions/simpleLoopInOverride2.kt");
}
}
@Nested
@@ -531,6 +609,36 @@ public class FirSourceLazyDeclarationResolveTestGenerated extends AbstractFirSou
KtTestUtil.assertAllTestsPresentByMetadataWithExcluded(this.getClass(), new File("analysis/low-level-api-fir/testdata/lazyResolve/properties"), Pattern.compile("^(.+)\\.kt$"), null, true);
}
@Test
@TestMetadata("hierarchyWithOverride.kt")
public void testHierarchyWithOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverride.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass.kt")
public void testHierarchyWithOverrideAndNestedClass() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass2.kt")
public void testHierarchyWithOverrideAndNestedClass2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass2.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass3.kt")
public void testHierarchyWithOverrideAndNestedClass3() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass3.kt");
}
@Test
@TestMetadata("hierarchyWithOverrideAndNestedClass4.kt")
public void testHierarchyWithOverrideAndNestedClass4() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/hierarchyWithOverrideAndNestedClass4.kt");
}
@Test
@TestMetadata("propertyGetterWithExplicitType.kt")
public void testPropertyGetterWithExplicitType() throws Exception {
@@ -560,6 +668,18 @@ public class FirSourceLazyDeclarationResolveTestGenerated extends AbstractFirSou
public void testPropertyWithTypeParameters() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/propertyWithTypeParameters.kt");
}
@Test
@TestMetadata("simpleLoopInOverride.kt")
public void testSimpleLoopInOverride() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/simpleLoopInOverride.kt");
}
@Test
@TestMetadata("simpleLoopInOverride2.kt")
public void testSimpleLoopInOverride2() throws Exception {
runTest("analysis/low-level-api-fir/testdata/lazyResolve/properties/simpleLoopInOverride2.kt");
}
}
@Nested