jvmMain.kotlin.Annotations.kt Maven / Gradle / Ivy
/*
* Copyright 2010-2019 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
package kotlin
import kotlin.annotation.AnnotationRetention.BINARY
import kotlin.annotation.AnnotationRetention.SOURCE
import kotlin.annotation.AnnotationTarget.*
/**
* Marks the annotated declaration as deprecated.
*
* A deprecated API element is not recommended to use, typically because it's being phased out or a better alternative exists.
*
* To help removing deprecated API gradually, the property [level] could be used.
* Usually a gradual phase-out goes through the "warning", then "error", then "hidden" or "removed" stages:
* - First and by default, [DeprecationLevel.WARNING] is used to notify API consumers, but not to break their compilation or runtime usages.
* - Then, some time later the deprecation level is raised to [DeprecationLevel.ERROR], so that no new Kotlin code can be compiled
* using the deprecated API.
* - Finally, the API is either removed entirely, or hidden ([DeprecationLevel.HIDDEN]) from code,
* so its usages look like unresolved references, while the API remains in the compiled code
* preserving binary compatibility with previously compiled code.
*
* @property message The message explaining the deprecation and recommending an alternative API to use.
* @property replaceWith If present, specifies a code fragment which should be used as a replacement for
* the deprecated API usage.
* @property level Specifies how the deprecated element usages are reported in code.
* See the [DeprecationLevel] enum for the possible values.
*/
@Target(CLASS, FUNCTION, PROPERTY, ANNOTATION_CLASS, CONSTRUCTOR, PROPERTY_SETTER, PROPERTY_GETTER, TYPEALIAS)
@MustBeDocumented
public annotation class Deprecated(
val message: String,
val replaceWith: ReplaceWith = ReplaceWith(""),
val level: DeprecationLevel = DeprecationLevel.WARNING
)
/**
* Marks the annotated declaration as deprecated. In contrast to [Deprecated], severity of the reported diagnostic is not a constant value,
* but differs depending on the API version of the usage (the value of the `-api-version` argument when compiling the module where
* the usage is located). If the API version is greater or equal than [hiddenSince], the declaration will not be accessible from the code
* (as if it was deprecated with level [DeprecationLevel.HIDDEN]), otherwise if the API version is greater or equal than [errorSince],
* the usage will be marked as an error (as with [DeprecationLevel.ERROR]), otherwise if the API version is greater or equal
* than [warningSince], the usage will be marked as a warning (as with [DeprecationLevel.WARNING]), otherwise the annotation is ignored.
*
* @property warningSince the version, since which this deprecation should be reported as a warning.
* @property errorSince the version, since which this deprecation should be reported as a error.
* @property hiddenSince the version, since which the annotated declaration should not be available in code.
*/
@Target(CLASS, FUNCTION, PROPERTY, ANNOTATION_CLASS, CONSTRUCTOR, PROPERTY_SETTER, PROPERTY_GETTER, TYPEALIAS)
@MustBeDocumented
@SinceKotlin("1.4")
public annotation class DeprecatedSinceKotlin(
val warningSince: String = "",
val errorSince: String = "",
val hiddenSince: String = ""
)
/**
* Specifies a code fragment that can be used to replace a deprecated function, property or class. Tools such
* as IDEs can automatically apply the replacements specified through this annotation.
*
* @property expression the replacement expression. The replacement expression is interpreted in the context
* of the symbol being used, and can reference members of enclosing classes etc.
* For function calls, the replacement expression may contain argument names of the deprecated function,
* which will be substituted with actual parameters used in the call being updated. The imports used in the file
* containing the deprecated function or property are NOT accessible; if the replacement expression refers
* on any of those imports, they need to be specified explicitly in the [imports] parameter.
* @property imports the qualified names that need to be imported in order for the references in the
* replacement expression to be resolved correctly.
*/
@Target()
@Retention(BINARY)
@MustBeDocumented
public annotation class ReplaceWith(val expression: String, vararg val imports: String)
/**
* Possible levels of a deprecation. The level specifies how the deprecated element usages are reported in code.
*
* @see Deprecated
*/
public enum class DeprecationLevel {
/** Usage of the deprecated element will be reported as a warning. */
WARNING,
/** Usage of the deprecated element will be reported as an error. */
ERROR,
/** Deprecated element will not be accessible from code. */
HIDDEN
}
/**
* Signifies that the annotated functional type represents an extension function.
*/
@Target(TYPE)
@MustBeDocumented
public annotation class ExtensionFunctionType
/**
* Signifies that the annotated functional type has the prefix of size `count` for context receivers.
* Thus, `@ContextFunctionTypeParams(2) @ExtensionFunctionType Function4` is a normalized representation of
* `context(String, Int) Double.(Byte) -> Unit`.
*
* Just the same as @ExtensionFunctionType, this annotation is not assumed to be used in source code, preferring the explicit function type
* syntax, like in the example above.
*
* There's no need in any additional opt-in limitations because this annotation might only be referenced by users
* who turned on an experimental `-Xcontext-receivers` compiler flag, for which there are no backward/forward compatibilities guarantees.
*/
@Target(TYPE)
@MustBeDocumented
@SinceKotlin("1.7")
public annotation class ContextFunctionTypeParams(val count: Int)
/**
* Annotates type arguments of functional type and holds corresponding parameter name specified by the user in type declaration (if any).
*/
@Target(TYPE)
@MustBeDocumented
@SinceKotlin("1.1")
public annotation class ParameterName(val name: String)
/**
* Suppresses the given compilation warnings in the annotated element.
* @property names names of the compiler diagnostics to suppress.
*/
@Target(CLASS, ANNOTATION_CLASS, TYPE_PARAMETER, PROPERTY, FIELD, LOCAL_VARIABLE, VALUE_PARAMETER,
CONSTRUCTOR, FUNCTION, PROPERTY_GETTER, PROPERTY_SETTER, TYPE, EXPRESSION, FILE, TYPEALIAS)
@Retention(SOURCE)
public annotation class Suppress(vararg val names: String)
/**
* Suppresses errors about variance conflict
*/
@Target(TYPE)
@Retention(SOURCE)
@MustBeDocumented
public annotation class UnsafeVariance
/**
* Specifies the first version of Kotlin where a declaration has appeared.
* Using the declaration and specifying an older API version (via the `-api-version` command line option) will result in an error.
*
* @property version the version in the following formats: `.` or `..`, where major, minor and patch
* are non-negative integer numbers without leading zeros.
*/
@Target(CLASS, PROPERTY, FIELD, CONSTRUCTOR, FUNCTION, PROPERTY_GETTER, PROPERTY_SETTER, TYPEALIAS)
@Retention(AnnotationRetention.BINARY)
@MustBeDocumented
public annotation class SinceKotlin(val version: String)
/**
* When applied to annotation class X specifies that X defines a DSL language
*
* The general rule:
* - an implicit receiver may *belong to a DSL @X* if marked with a corresponding DSL marker annotation
* - two implicit receivers of the same DSL are not accessible in the same scope
* - the closest one wins
* - other available receivers are resolved as usual, but if the resulting resolved call binds to such a receiver, it's a compilation error
*
* Marking rules: an implicit receiver is considered marked with @Ann if
* - its type is marked, or
* - its type's classifier is marked
* - or any of its superclasses/superinterfaces
*/
@Target(ANNOTATION_CLASS)
@Retention(BINARY)
@MustBeDocumented
@SinceKotlin("1.1")
public annotation class DslMarker
/**
* When applied to a class or a member with internal visibility allows to use it from public inline functions and
* makes it effectively public.
*
* Public inline functions cannot use non-public API, since if they are inlined, those non-public API references
* would violate access restrictions at a call site (https://kotlinlang.org/docs/reference/inline-functions.html#public-inline-restrictions).
*
* To overcome this restriction an `internal` declaration can be annotated with the `@PublishedApi` annotation:
* - this allows to call that declaration from public inline functions;
* - the declaration becomes effectively public, and this should be considered with respect to binary compatibility maintaining.
*/
@Target(AnnotationTarget.CLASS, AnnotationTarget.CONSTRUCTOR, AnnotationTarget.FUNCTION, AnnotationTarget.PROPERTY)
@Retention(AnnotationRetention.BINARY)
@MustBeDocumented
@SinceKotlin("1.1")
public annotation class PublishedApi
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