Package specification should be at the top of the source file:
package my.demo import java.util.* // ...
It is not required to match directories and packages: source files can be placed arbitrarily in the file system.
See Packages.
Function having two Int
parameters with Int
return type:
//sampleStart fun sum(a: Int, b: Int): Int { return a + b } //sampleEnd fun main() { print("sum of 3 and 5 is ") println(sum(3, 5)) }
Function with an expression body and inferred return type:
//sampleStart fun sum(a: Int, b: Int) = a + b //sampleEnd fun main() { println("sum of 19 and 23 is ${sum(19, 23)}") }
Function returning no meaningful value:
//sampleStart fun printSum(a: Int, b: Int): Unit { println("sum of $a and $b is ${a + b}") } //sampleEnd fun main() { printSum(-1, 8) }
Unit
return type can be omitted:
//sampleStart fun printSum(a: Int, b: Int) { println("sum of $a and $b is ${a + b}") } //sampleEnd fun main() { printSum(-1, 8) }
See Functions.
Read-only local variables are defined using the keyword val
. They can be assigned a value only once.
fun main() { //sampleStart val a: Int = 1 // immediate assignment val b = 2 // `Int` type is inferred val c: Int // Type required when no initializer is provided c = 3 // deferred assignment //sampleEnd println("a = $a, b = $b, c = $c") }
Variables that can be reassigned use the var
keyword:
fun main() { //sampleStart var x = 5 // `Int` type is inferred x += 1 //sampleEnd println("x = $x") }
Top-level variables:
//sampleStart val PI = 3.14 var x = 0 fun incrementX() { x += 1 } //sampleEnd fun main() { println("x = $x; PI = $PI") incrementX() println("incrementX()") println("x = $x; PI = $PI") }
See also Properties And Fields.
Just like Java and JavaScript, Kotlin supports end-of-line and block comments.
// This is an end-of-line comment /* This is a block comment on multiple lines. */
Unlike Java, block comments in Kotlin can be nested.
See Documenting Kotlin Code for information on the documentation comment syntax.
fun main() { //sampleStart var a = 1 // simple name in template: val s1 = "a is $a" a = 2 // arbitrary expression in template: val s2 = "${s1.replace("is", "was")}, but now is $a" //sampleEnd println(s2) }
See String templates.
//sampleStart fun maxOf(a: Int, b: Int): Int { if (a > b) { return a } else { return b } } //sampleEnd fun main() { println("max of 0 and 42 is ${maxOf(0, 42)}") }
Using if as an expression:
//sampleStart fun maxOf(a: Int, b: Int) = if (a > b) a else b //sampleEnd fun main() { println("max of 0 and 42 is ${maxOf(0, 42)}") }
See if-expressions.
A reference must be explicitly marked as nullable when null value is possible.
Return null if str
does not hold an integer:
fun parseInt(str: String): Int? { // ... }
Use a function returning nullable value:
fun parseInt(str: String): Int? { return str.toIntOrNull() } //sampleStart fun printProduct(arg1: String, arg2: String) { val x = parseInt(arg1) val y = parseInt(arg2) // Using `x * y` yields error because they may hold nulls. if (x != null && y != null) { // x and y are automatically cast to non-nullable after null check println(x * y) } else { println("either '$arg1' or '$arg2' is not a number") } } //sampleEnd fun main() { printProduct("6", "7") printProduct("a", "7") printProduct("a", "b") }
or
fun parseInt(str: String): Int? { return str.toIntOrNull() } fun printProduct(arg1: String, arg2: String) { val x = parseInt(arg1) val y = parseInt(arg2) //sampleStart // ... if (x == null) { println("Wrong number format in arg1: '$arg1'") return } if (y == null) { println("Wrong number format in arg2: '$arg2'") return } // x and y are automatically cast to non-nullable after null check println(x * y) //sampleEnd } fun main() { printProduct("6", "7") printProduct("a", "7") printProduct("99", "b") }
See Null-safety.
The is operator checks if an expression is an instance of a type. If an immutable local variable or property is checked for a specific type, there's no need to cast it explicitly:
//sampleStart fun getStringLength(obj: Any): Int? { if (obj is String) { // `obj` is automatically cast to `String` in this branch return obj.length } // `obj` is still of type `Any` outside of the type-checked branch return null } //sampleEnd fun main() { fun printLength(obj: Any) { println("'$obj' string length is ${getStringLength(obj) ?: "... err, not a string"} ") } printLength("Incomprehensibilities") printLength(1000) printLength(listOf(Any())) }
or
//sampleStart fun getStringLength(obj: Any): Int? { if (obj !is String) return null // `obj` is automatically cast to `String` in this branch return obj.length } //sampleEnd fun main() { fun printLength(obj: Any) { println("'$obj' string length is ${getStringLength(obj) ?: "... err, not a string"} ") } printLength("Incomprehensibilities") printLength(1000) printLength(listOf(Any())) }
or even
//sampleStart fun getStringLength(obj: Any): Int? { // `obj` is automatically cast to `String` on the right-hand side of `&&` if (obj is String && obj.length > 0) { return obj.length } return null } //sampleEnd fun main() { fun printLength(obj: Any) { println("'$obj' string length is ${getStringLength(obj) ?: "... err, is empty or not a string at all"} ") } printLength("Incomprehensibilities") printLength("") printLength(1000) }
See Classes and Type casts.
for
loopfun main() { //sampleStart val items = listOf("apple", "banana", "kiwifruit") for (item in items) { println(item) } //sampleEnd }
or
fun main() { //sampleStart val items = listOf("apple", "banana", "kiwifruit") for (index in items.indices) { println("item at $index is ${items[index]}") } //sampleEnd }
See for loop.
while
loopfun main() { //sampleStart val items = listOf("apple", "banana", "kiwifruit") var index = 0 while (index < items.size) { println("item at $index is ${items[index]}") index++ } //sampleEnd }
See while loop.
when
expression//sampleStart fun describe(obj: Any): String = when (obj) { 1 -> "One" "Hello" -> "Greeting" is Long -> "Long" !is String -> "Not a string" else -> "Unknown" } //sampleEnd fun main() { println(describe(1)) println(describe("Hello")) println(describe(1000L)) println(describe(2)) println(describe("other")) }
See when expression.
Check if a number is within a range using in operator:
fun main() { //sampleStart val x = 10 val y = 9 if (x in 1..y+1) { println("fits in range") } //sampleEnd }
Check if a number is out of range:
fun main() { //sampleStart val list = listOf("a", "b", "c") if (-1 !in 0..list.lastIndex) { println("-1 is out of range") } if (list.size !in list.indices) { println("list size is out of valid list indices range, too") } //sampleEnd }
Iterating over a range:
fun main() { //sampleStart for (x in 1..5) { print(x) } //sampleEnd }
or over a progression:
fun main() { //sampleStart for (x in 1..10 step 2) { print(x) } println() for (x in 9 downTo 0 step 3) { print(x) } //sampleEnd }
See Ranges.
Iterating over a collection:
fun main() { val items = listOf("apple", "banana", "kiwifruit") //sampleStart for (item in items) { println(item) } //sampleEnd }
Checking if a collection contains an object using in operator:
fun main() { val items = setOf("apple", "banana", "kiwifruit") //sampleStart when { "orange" in items -> println("juicy") "apple" in items -> println("apple is fine too") } //sampleEnd }
Using lambda expressions to filter and map collections:
fun main() { //sampleStart val fruits = listOf("banana", "avocado", "apple", "kiwifruit") fruits .filter { it.startsWith("a") } .sortedBy { it } .map { it.toUpperCase() } .forEach { println(it) } //sampleEnd }
See Higher-order functions and Lambdas.
fun main() { //sampleStart val rectangle = Rectangle(5.0, 2.0) //no 'new' keyword required val triangle = Triangle(3.0, 4.0, 5.0) //sampleEnd println("Area of rectangle is ${rectangle.calculateArea()}, its perimeter is ${rectangle.perimeter}") println("Area of triangle is ${triangle.calculateArea()}, its perimeter is ${triangle.perimeter}") } abstract class Shape(val sides: List<Double>) { val perimeter: Double get() = sides.sum() abstract fun calculateArea(): Double } interface RectangleProperties { val isSquare: Boolean } class Rectangle( var height: Double, var length: Double ) : Shape(listOf(height, length, height, length)), RectangleProperties { override val isSquare: Boolean get() = length == height override fun calculateArea(): Double = height * length } class Triangle( var sideA: Double, var sideB: Double, var sideC: Double ) : Shape(listOf(sideA, sideB, sideC)) { override fun calculateArea(): Double { val s = perimeter / 2 return Math.sqrt(s * (s - sideA) * (s - sideB) * (s - sideC)) } }
See classes and objects and instances.
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Licensed under the Apache License, Version 2.0.
https://kotlinlang.org/docs/reference/basic-syntax.html