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Reflection is a set of language and library features that allows for introspecting the structure of your own program at runtime. Kotlin makes functions and properties first-class citizens in the language, and introspecting them (i.e. learning a name or a type of a property or function at runtime) is closely intertwined with simply using a functional or reactive style.

On the Java platform, the runtime component required for using the reflection features is distributed as a separate JAR file (kotlin-reflect.jar). This is done to reduce the required size of the runtime library for applications that do not use reflection features. If you do use reflection, please make sure that the .jar file is added to the classpath of your project.

Class References

The most basic reflection feature is getting the runtime reference to a Kotlin class. To obtain the reference to a statically known Kotlin class, you can use the class literal syntax:

val c = MyClass::class

The reference is a value of type KClass.

Note that a Kotlin class reference is not the same as a Java class reference. To obtain a Java class reference, use the .java property on a KClass instance.

Bound Class References (since 1.1)

You can get the reference to a class of a specific object with the same ::class syntax by using the object as a receiver:

val widget: Widget = ...
assert(widget is GoodWidget) { "Bad widget: ${widget::class.qualifiedName}" }

You obtain the reference to an exact class of an object, for instance GoodWidget or BadWidget, despite the type of the receiver expression (Widget).

Function References

When we have a named function declared like this:

fun isOdd(x: Int) = x % 2 != 0

We can easily call it directly (isOdd(5)), but we can also pass it as a value, e.g. to another function. To do this, we use the :: operator:

val numbers = listOf(1, 2, 3)
println(numbers.filter(::isOdd)) // prints [1, 3]

Here ::isOdd is a value of function type (Int) -> Boolean.

:: can be used with overloaded functions when the expected type is known from the context. For example:

fun isOdd(x: Int) = x % 2 != 0
fun isOdd(s: String) = s == "brillig" || s == "slithy" || s == "tove"

val numbers = listOf(1, 2, 3)
println(numbers.filter(::isOdd)) // refers to isOdd(x: Int)

Alternatively, you can provide the necessary context by storing the method reference in a variable with an explicitly specified type:

val predicate: (String) -> Boolean = ::isOdd   // refers to isOdd(x: String)

If we need to use a member of a class, or an extension function, it needs to be qualified. e.g. String::toCharArray gives us an extension function for type String: String.() -> CharArray.

Example: Function Composition

Consider the following function:

fun <A, B, C> compose(f: (B) -> C, g: (A) -> B): (A) -> C {
    return { x -> f(g(x)) }

It returns a composition of two functions passed to it: compose(f, g) = f(g(*)). Now, you can apply it to callable references:

fun length(s: String) = s.length

val oddLength = compose(::isOdd, ::length)
val strings = listOf("a", "ab", "abc")

println(strings.filter(oddLength)) // Prints "[a, abc]"

Property References

To access properties as first-class objects in Kotlin, we can also use the :: operator:

var x = 1

fun main(args: Array<String>) {
    println(::x.get()) // prints "1"
    println(x)         // prints "2"

The expression ::x evaluates to a property object of type KProperty<Int>, which allows us to read its value using get() or retrieve the property name using the name property. For more information, please refer to the docs on the KProperty class.

For a mutable property, e.g. var y = 1, ::y returns a value of type KMutableProperty<Int>, which has a set() method.

A property reference can be used where a function with no parameters is expected:

val strs = listOf("a", "bc", "def")
println(strs.map(String::length)) // prints [1, 2, 3]

To access a property that is a member of a class, we qualify it:

class A(val p: Int)

fun main(args: Array<String>) {
    val prop = A::p
    println(prop.get(A(1))) // prints "1"

For an extension property:

val String.lastChar: Char
    get() = this[length - 1]

fun main(args: Array<String>) {
    println(String::lastChar.get("abc")) // prints "c"

Interoperability With Java Reflection

On the Java platform, standard library contains extensions for reflection classes that provide a mapping to and from Java reflection objects (see package kotlin.reflect.jvm). For example, to find a backing field or a Java method that serves as a getter for a Kotlin property, you can say something like this:

import kotlin.reflect.jvm.*
class A(val p: Int)
fun main(args: Array<String>) {
    println(A::p.javaGetter) // prints "public final int A.getP()"
    println(A::p.javaField)  // prints "private final int A.p"

To get the Kotlin class corresponding to a Java class, use the .kotlin extension property:

fun getKClass(o: Any): KClass<Any> = o.javaClass.kotlin

Constructor References

Constructors can be referenced just like methods and properties. They can be used wherever an object of function type is expected that takes the same parameters as the constructor and returns an object of the appropriate type. Constructors are referenced by using the :: operator and adding the class name. Consider the following function that expects a function parameter with no parameters and return type Foo:

class Foo

fun function(factory: () -> Foo) {
    val x: Foo = factory()

Using ::Foo, the zero-argument constructor of the class Foo, we can simply call it like this:


Bound Function and Property References (since 1.1)

You can refer to an instance method of a particular object.

val numberRegex = "\\d+".toRegex()
println(numberRegex.matches("29")) // prints "true"
val isNumber = numberRegex::matches
println(isNumber("29")) // prints "true"

Instead of calling the method matches directly we are storing a reference to it. Such reference is bound to its receiver. It can be called directly (like in the example above) or used whenever an expression of function type is expected:

val strings = listOf("abc", "124", "a70")
println(strings.filter(numberRegex::matches)) // prints "[124]"

Compare the types of bound and the corresponding unbound references. Bound callable reference has its receiver "attached" to it, so the type of the receiver is no longer a parameter:

val isNumber: (CharSequence) -> Boolean = numberRegex::matches

val matches: (Regex, CharSequence) -> Boolean = Regex::matches

Property reference can be bound as well:

val prop = "abc"::length
println(prop.get())   // prints "3"