定義包
定義包應該在源文件的最上面,這和Java一樣。
package my.demo
import java.util.*
// ...但是Kotlin不要求文件夾和包名對應,源文件可以在文件系統中的任意的路徑下。
定義函數
定義函數使用fun關鍵字, 既是’function’的簡寫,也是’fun’ 高興,好玩的意思,一語雙關。
兩個Int參數 和Int返回值的函數
fun sum(a: Int, b: Int): Int {
return a + b
}
fun main(args: Array<String>) {
print("sum of 3 and 5 is ")
println(sum(3, 5))
}函數簡寫成表達式形式並使用推斷的返回值類型
fun sum(a: Int, b: Int) = a + b
fun main(args: Array<String>) {
println("sum of 19 and 23 is ${sum(19, 23)}")
}函數,返回無意義的返回值,對應Java裏的void。
fun printSum(a: Int, b: Int): Unit {
println("sum of $a and $b is ${a + b}")
}
fun main(args: Array<String>) {
printSum(-1, 8)
}省略了Unit 的形式
fun printSum(a: Int, b: Int) {
println("sum of $a and $b is ${a + b}")
}
fun main(args: Array<String>) {
printSum(-1, 8)
}定義局部變量
只讀局部變量,用val 來表示,相當於Java中加了final修飾的變量。
fun main(args: Array<String>) {
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
println("a = $a, b = $b, c = $c")
}普通變量,用var來表示,相當於Java中不帶final 修飾的變量。
fun main(args: Array<String>) {
var x = 5 // `Int` type is inferred
x += 1
println("x = $x")
}註釋
註釋和Java是一樣的,Kotlin支持行末雙劃線註釋和多行註釋
// This is an end-of-line comment
/* This is a block comment
on multiple lines. */Kotlin中多行註釋可以嵌套
字符串模板(string templates)
字符串模板和很多shell種的使用類似
fun main(args: Array<String>) {
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"
println(s2)
}條件語句
fun maxOf(a: Int, b: Int): Int {
if (a > b) {
return a
} else {
return b
}
}
fun main(args: Array<String>) {
println("max of 0 and 42 is ${maxOf(0, 42)}")
}if語句可以寫成表達式形式
fun maxOf(a: Int, b: Int) = if (a > b) a else b
fun main(args: Array<String>) {
println("max of 0 and 42 is ${maxOf(0, 42)}")
}可能爲空變量的使用和空指針檢查
Kotlin中,如果一個變量有可能是null 的,那麼必須被顯示的被標識出來。
返回null,如果str中沒有數字
fun parseInt(str: String): Int? {
// ...
}使用一個可能返回null的函數:
fun parseInt(str: String): Int? {
return str.toIntOrNull()
}
fun printProduct(arg1: String, arg2: String) {
val x = parseInt(arg1)
val y = parseInt(arg2)
// Using `x * y` yields error because they may hold nulls.
if (x != null && y != null) {
// x and y are automatically cast to non-nullable after null check
println(x * y)
}
else {
println("either '$arg1' or '$arg2' is not a number")
}
}
fun main(args: Array<String>) {
printProduct("6", "7")
printProduct("a", "7")
printProduct("a", "b")
}或者
// ...
if (x == null) {
println("Wrong number format in arg1: '${arg1}'")
return
}
if (y == null) {
println("Wrong number format in arg2: '${arg2}'")
return
}
// x and y are automatically cast to non-nullable after null check
println(x * y)變量在檢查完是否爲空後,會自動轉換成非空的類型。
類型檢查和自動轉型
is 操作符用來檢查一個表達式是不是一個類型的變量。如果檢查一個不可變的局部變量或者一個屬性是不是某個類型,不需要顯示的轉換類型:
fun getStringLength(obj: Any): Int? {
if (obj is String) {
// `obj` is automatically cast to `String` in this branch
return obj.length
}
// `obj` is still of type `Any` outside of the type-checked branch
return null
}
fun main(args: Array<String>) {
fun printLength(obj: Any) {
println("'$obj' string length is ${getStringLength(obj) ?: "... err, not a string"} ")
}
printLength("Incomprehensibilities")
printLength(1000)
printLength(listOf(Any()))
}或者寫成這樣
fun getStringLength(obj: Any): Int? {
if (obj !is String) return null
// `obj` is automatically cast to `String` in this branch
return obj.length
}甚至寫成這樣
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
}for循環語句
for循環 in 形式的寫法
fun main(args: Array<String>) {
val items = listOf("apple", "banana", "kiwi")
for (item in items) {
println(item)
}
}或者座標形式的寫法
fun main(args: Array<String>) {
val items = listOf("apple", "banana", "kiwi")
for (index in items.indices) {
println("item at $index is ${items[index]}")
}
}while循環語句
fun main(args: Array<String>) {
val items = listOf("apple", "banana", "kiwi")
var index = 0
while (index < items.size) {
println("item at $index is ${items[index]}")
index++
}
}when表達式
相當於升級版的switch-case,支持多種類型甚至類型判斷:
fun describe(obj: Any): String =
when (obj) {
1 -> "One"
"Hello" -> "Greeting"
is Long -> "Long"
!is String -> "Not a string"
else -> "Unknown"
}
fun main(args: Array<String>) {
println(describe(1))
println(describe("Hello"))
println(describe(1000L))
println(describe(2))
println(describe("other"))
}ranges 的使用
ranges使用in 操作符來檢查一個數字是不是在某個範圍內
fun main(args: Array<String>) {
val x = 10
val y = 9
if (x in 1..y+1) {
println("fits in range")
}
}或者檢查不在某個範圍內
fun main(args: Array<String>) {
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")
}
}可以用來遍歷某個範圍
fun main(args: Array<String>) {
for (x in 1..5) {
print(x)
}
}或者按一定步長遍歷
fun main(args: Array<String>) {
for (x in 1..10 step 2) {
print(x)
}
for (x in 9 downTo 0 step 3) {
print(x)
}
}集合類的使用
集合的遍歷
fun main(args: Array<String>) {
val items = listOf("apple", "banana", "kiwi")
for (item in items) {
println(item)
}
}檢查集合是否包含某個元素
fun main(args: Array<String>) {
val items = setOf("apple", "banana", "kiwi")
when {
"orange" in items -> println("juicy")
"pineapple" !in items -> println("no pineapple")
"apple" in items -> println("apple is fine too")
}
}使用lambda表達式來過濾和映射集合
fun main(args: Array<String>) {
val fruits = listOf("banana", "avocado", "apple", "kiwi")
fruits.filter { it.startsWith("a") }
.sortedBy { it }
.map { it.toUpperCase() }
.forEach { println(it) }
}