Kotlin 1.5 的兼容性指南

Keeping the Language Modern and Comfortable Updates are among the fundamental principles in Kotlin Language Design. The former says that constructs which obstruct language evolution should be removed, and the latter says that this removal should be well-communicated beforehand to make code migration as smooth as possible.

While most of the language changes were already announced through other channels, like update changelogs or compiler warnings, this document summarizes them all, providing a complete reference for migration from Kotlin 1.4 to Kotlin 1.5.

Basic terms

In this document we introduce several kinds of compatibility:

  • source: source-incompatible change stops code that used to compile fine (without errors or warnings) from compiling anymore
  • binary: two binary artifacts are said to be binary-compatible if interchanging them doesn’t lead to loading or linkage errors
  • behavioral: a change is said to be behavioral-incompatible if the same program demonstrates different behavior before and after applying the change

Remember that those definitions are given only for pure Kotlin. Compatibility of Kotlin code from the other languages perspective (for example, from Java) is out of the scope of this document.

Language and stdlib

Forbid spread operator in signature-polymorphic calls

Issue: KT-35226

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw the use of spread operator (*) on signature-polymorphic calls

Deprecation cycle:

  • < 1.5: introduce warning for the problematic operator at call-site
  • >= 1.5: raise this warning to an error, -XXLanguage:-ProhibitSpreadOnSignaturePolymorphicCall can be used to temporarily revert to pre-1.5 behavior

Forbid non-abstract classes containing abstract members invisible from that classes (internal/package-private)

Issue: KT-27825

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw non-abstract classes containing abstract members invisible from that classes (internal/package-private)

Deprecation cycle:

  • < 1.5: introduce warning for the problematic classes
  • >= 1.5: raise this warning to an error, -XXLanguage:-ProhibitInvisibleAbstractMethodsInSuperclasses can be used to temporarily revert to pre-1.5 behavior

Forbid using array based on non-reified type parameters as reified type arguments on JVM

Issue: KT-31227

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw using array based on non-reified type parameters as reified type arguments on JVM

Deprecation cycle:

  • < 1.5: introduce warning for the problematic calls
  • >= 1.5: raise this warning to an error, -XXLanguage:-ProhibitNonReifiedArraysAsReifiedTypeArguments can be used to temporarily revert to pre-1.5 behavior

Forbid secondary enum class constructors which do not delegate to the primary constructor

Issue: KT-35870

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw secondary enum class constructors which do not delegate to the primary constructor

Deprecation cycle:

  • < 1.5: introduce warning for the problematic constructors
  • >= 1.5: raise this warning to an error, -XXLanguage:-RequiredPrimaryConstructorDelegationCallInEnums can be used to temporarily revert to pre-1.5 behavior

Forbid exposing anonymous types from private inline functions

Issue: KT-33917

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw exposing anonymous types from private inline functions

Deprecation cycle:

  • < 1.5: introduce warning for the problematic constructors
  • >= 1.5: raise this warning to an error, -XXLanguage:-ApproximateAnonymousReturnTypesInPrivateInlineFunctions can be used to temporarily revert to pre-1.5 behavior

Forbid passing non-spread arrays after arguments with SAM-conversion

Issue: KT-35224

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw passing non-spread arrays after arguments with SAM-conversion

Deprecation cycle:

  • 1.3.70: introduce warning for the problematic calls
  • >= 1.5: raise this warning to an error, -XXLanguage:-ProhibitVarargAsArrayAfterSamArgument can be used to temporarily revert to pre-1.5 behavior

Support special semantics for underscore-named catch block parameters

Issue: KT-31567

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw references to the underscore symbol (_) that is used to omit parameter name of an exception in the catch block

Deprecation cycle:

  • 1.4.20: introduce warning for the problematic references
  • >= 1.5: raise this warning to an error, -XXLanguage:-ForbidReferencingToUnderscoreNamedParameterOfCatchBlock can be used to temporarily revert to pre-1.5 behavior

Change implementation strategy of SAM conversion from anonymous class-based to invokedynamic

Issue: KT-44912

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Since Kotlin 1.5, implementation strategy of SAM (single abstract method) conversion will be changed from generating an anonymous class to using the invokedynamic JVM instruction

Deprecation cycle:

  • 1.5: change implementation strategy of SAM conversion, -Xsam-conversions=class can be used to revert implementation scheme to the one that used before

Performance issues with the JVM IR-based backend

Issue: KT-48233

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Kotlin 1.5 uses the IR-based backend for the Kotlin/JVM compiler by default. The old backend is still used by default for earlier language versions.

You might encounter some performance degradation issues using the new compiler in Kotlin 1.5. We are working on fixing such cases.

Deprecation cycle:

  • < 1.5: by default, the old JVM backend is used
  • >= 1.5: by default, the IR-based backend is used. If you need to use the old backend in Kotlin 1.5, add the following lines to the project’s configuration file to temporarily revert to pre-1.5 behavior:

In Gradle:

  1. tasks.withType<org.jetbrains.kotlin.gradle.dsl.KotlinJvmCompile> {
  2. kotlinOptions.useOldBackend = true
  3. }
  1. tasks.withType(org.jetbrains.kotlin.gradle.dsl.KotlinJvmCompile) {
  2. kotlinOptions.useOldBackend = true
  3. }

In Maven:

  1. <configuration>
  2. <args>
  3. <arg>-Xuse-old-backend</arg>
  4. </args>
  5. </configuration>

Support for this flag will be removed in one of the future releases.

New field sorting in the JVM IR-based backend

Issue: KT-46378

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Since version 1.5, Kotlin uses the IR-based backend that sorts JVM bytecode differently: it generates fields declared in the constructor before fields declared in the body, while it’s vice versa for the old backend. The new sorting may change the behavior of programs that use serialization frameworks that depend on the field order, such as Java serialization.

Deprecation cycle:

  • < 1.5: by default, the old JVM backend is used. It has fields declared in the body before fields declared in the constructor.
  • >= 1.5: by default, the new IR-based backend is used. Fields declared in the constructor are generated before fields declared in the body. As a workaround, you can temporarily switch to the old backend in Kotlin 1.5. To do that, add the following lines to the project’s configuration file:

In Gradle:

  1. tasks.withType<org.jetbrains.kotlin.gradle.dsl.KotlinJvmCompile> {
  2. kotlinOptions.useOldBackend = true
  3. }
  1. tasks.withType(org.jetbrains.kotlin.gradle.dsl.KotlinJvmCompile) {
  2. kotlinOptions.useOldBackend = true
  3. }

In Maven:

  1. <configuration>
  2. <args>
  3. <arg>-Xuse-old-backend</arg>
  4. </args>
  5. </configuration>

Support for this flag will be removed in one of the future releases.

Generate nullability assertion for delegated properties with a generic call in the delegate expression

Issue: KT-44304

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Since Kotlin 1.5, the Kotlin compiler will emit nullability assertions for delegated properties with a generic call in the delegate expression

Deprecation cycle:

  • 1.5: emit nullability assertion for delegated properties (see details in the issue), -Xuse-old-backend or -language-version 1.4 can be used to temporarily revert to pre-1.5 behavior

Turn warnings into errors for calls with type parameters annotated by @OnlyInputTypes

Issue: KT-45861

Component: Core language

Incompatible change type: source

Short summary: Kotlin 1.5 will outlaw calls like contains, indexOf, and assertEquals with senseless arguments to improve type safety

Deprecation cycle:

  • 1.4.0: introduce warning for the problematic constructors
  • >= 1.5: raise this warning to an error, -XXLanguage:-StrictOnlyInputTypesChecks can be used to temporarily revert to pre-1.5 behavior

Use the correct order of arguments execution in calls with named vararg

Issue: KT-17691

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Kotlin 1.5 will change the order of arguments execution in calls with named vararg

Deprecation cycle:

  • < 1.5: introduce warning for the problematic constructors
  • >= 1.5: raise this warning to an error, -XXLanguage:-UseCorrectExecutionOrderForVarargArguments can be used to temporarily revert to pre-1.5 behavior

Use default value of the parameter in operator functional calls

Issue: KT-42064

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Kotlin 1.5 will use default value of the parameter in operator calls

Deprecation cycle:

  • < 1.5: old behavior (see details in the issue)
  • >= 1.5: behavior changed, -XXLanguage:-JvmIrEnabledByDefault can be used to temporarily revert to pre-1.5 behavior

Produce empty reversed progressions in for loops if regular progression is also empty

Issue: KT-42533

Component: Kotlin/JVM

Incompatible change type: behavioral

Short summary: Kotlin 1.5 will produce empty reversed progressions in for loops if regular progression is also empty

Deprecation cycle:

  • < 1.5: old behavior (see details in the issue)
  • >= 1.5: behavior changed, -XXLanguage:-JvmIrEnabledByDefault can be used to temporarily revert to pre-1.5 behavior

Straighten Char-to-code and Char-to-digit conversions out

Issue: KT-23451

Component: kotlin-stdlib

Incompatible change type: source

Short summary: Since Kotlin 1.5, conversions of Char to number types will be deprecated

Deprecation cycle:

  • 1.5: deprecate Char.toInt()/toShort()/toLong()/toByte()/toDouble()/toFloat() and the reverse functions like Long.toChar(), and propose replacement

Inconsistent case-insensitive comparison of characters in kotlin.text functions

Issue: KT-45496

Component: kotlin-stdlib

Incompatible change type: behavioral

Short summary: Since Kotlin 1.5, Char.equals will be improved in case-insensitive case by first comparing whether the uppercase variants of characters are equal, then whether the lowercase variants of those uppercase variants (as opposed to the characters themselves) are equal

Deprecation cycle:

  • < 1.5: old behavior (see details in the issue)
  • 1.5: change behavior for Char.equals function

Remove default locale-sensitive case conversion API

Issue: KT-43023

Component: kotlin-stdlib

Incompatible change type: source

Short summary: Since Kotlin 1.5, default locale-sensitive case conversion functions like String.toUpperCase() will be deprecated

Deprecation cycle:

  • 1.5: deprecate case conversions functions with the default locale (see details in the issue), and propose replacement

Gradually change the return type of collection min and max functions to non-nullable

Issue: KT-38854

Component: kotlin-stdlib (JVM)

Incompatible change type: source

Short summary: return type of collection min and max functions will be changed to non-nullable in 1.6

Deprecation cycle:

  • 1.4: introduce ...OrNull functions as synonyms and deprecate the affected API (see details in the issue)
  • 1.5.0: raise the deprecation level of the affected API to error
  • >=1.6: reintroduce the affected API but with non-nullable return type

Raise the deprecation level of conversions of floating-point types to Short and Byte

Issue: KT-30360

Component: kotlin-stdlib (JVM)

Incompatible change type: source

Short summary: conversions of floating-point types to Short and Byte deprecated in Kotlin 1.4 with WARNING level will cause errors since Kotlin 1.5.0.

Deprecation cycle:

  • 1.4: deprecate Double.toShort()/toByte() and Float.toShort()/toByte() and propose replacement
  • 1.5.0: raise the deprecation level to error

Tools

Do not mix several JVM variants of kotlin-test in a single project

Issue: KT-40225

Component: Gradle

Incompatible change type: behavioral

Short summary: several mutually exclusive kotlin-test variants for different testing frameworks could have been in a project if one of them is brought by a transitive dependency. From 1.5.0, Gradle won’t allow having mutually exclusive kotlin-test variants for different testing frameworks.

Deprecation cycle:

  • < 1.5: having several mutually exclusive kotlin-test variants for different testing frameworks is allowed
  • >= 1.5: behavior changed,
    Gradle throws an exception like “Cannot select module with conflict on capability…”. Possible solutions:

    • use the same kotlin-test variant and the corresponding testing framework as the transitive dependency brings.
    • find another variant of the dependency that doesn’t bring the kotlin-test variant transitively, so you can use the testing framework you would like to use.
    • find another variant of the dependency that brings another kotlin-test variant transitively, which uses the same testing framework you would like to use.
    • exclude the testing framework that is brought transitively. The following example is for excluding JUnit 4:

      1. configurations {
      2. testImplementation.get().exclude("org.jetbrains.kotlin", "kotlin-test-junit")
      3. }

      After excluding the testing framework, test your application. If it stopped working, rollback excluding changes, use the same testing framework as the library does, and exclude your testing framework.