原文链接:https://my.oschina.net/leejun2005/blog/405305
Scala 作为一门函数式编程语言,对习惯了指令式编程语言的同学来说,会不大习惯,这里除了思维方式之外,还有语法层面的,比如 underscore(下划线)就会出现在多种场合,令初学者相当疑惑,今天就来总结下 Scala 中下划线的用法。
1、存在性类型:Existential types
def foo(l: List[Option[_]]) = ...
2、高阶类型参数:Higher kinded type parameters
case class A[K[_],T](a: K[T])
3、临时变量:Ignored variables
val _ = 5
4、临时参数:Ignored parameters
List(1, 2, 3) foreach { _ => println("Hi") }
5、通配模式:Wildcard patterns
Some(5) match { case Some(_) => println("Yes") }
match {
case List(1,_,_) => " a list with three element and the first element is 1"
case List(_*) => " a list with zero or more elements "
case Map[_,_] => " matches a map with any key type and any value type "
case _ =>
}
val (a, _) = (1, 2)
for (_ <- 1 to 10)
6、通配导入:Wildcard imports
import java.util._
7、隐藏导入:Hiding imports
// Imports all the members of the object Fun but renames Foo to Bar
import com.test.Fun.{ Foo => Bar , _ }
// Imports all the members except Foo. To exclude a member rename it to _
import com.test.Fun.{ Foo => _ , _ }
8、连接字母和标点符号:Joining letters to punctuation
def bang_!(x: Int) = 5
9、占位符语法:Placeholder syntax
List(1, 2, 3) map (_ + 2)
_ + _
( (_: Int) + (_: Int) )(2,3)
val nums = List(1,2,3,4,5,6,7,8,9,10)
nums map (_ + 2)
nums sortWith(_>_)
nums filter (_ % 2 == 0)
nums reduceLeft(_+_)
nums reduce (_ + _)
nums reduceLeft(_ max _)
nums.exists(_ > 5)
nums.takeWhile(_ < 8)
10、偏应用函数:Partially applied functions
def fun = {
// Some code
}
val funLike = fun _
List(1, 2, 3) foreach println _
1 to 5 map (10 * _)
//List("foo", "bar", "baz").map(_.toUpperCase())
List("foo", "bar", "baz").map(n => n.toUpperCase())
11、初始化默认值:default value
var i: Int = _
12、作为参数名:
//访问map
var m3 = Map((1,100), (2,200))
for(e<-m3) println(e._1 + ": " + e._2)
m3 filter (e=>e._1>1)
m3 filterKeys (_>1)
m3.map(e=>(e._1*10, e._2))
m3 map (e=>e._2)
//访问元组:tuple getters
(1,2)._2
13、参数序列:parameters Sequence
_*作为一个整体,告诉编译器你希望将某个参数当作参数序列处理。例如val s = sum(1 to 5:_*)就是将1 to 5当作参数序列处理。
//Range转换为List
List(1 to 5:_*)
//Range转换为Vector
Vector(1 to 5: _*)
//可变参数中
def capitalizeAll(args: String*) = {
args.map { arg =>
arg.capitalize
}
}
val arr = Array("what's", "up", "doc?")
capitalizeAll(arr: _*)
这里需要注意的是,以下两种写法实现的是完全不一样的功能:
foo _ // Eta expansion of method into method value
foo(_) // Partial function application
Example showing why foo(_) and foo _ are different:
trait PlaceholderExample {
def process[A](f: A => Unit)
val set: Set[_ => Unit]
set.foreach(process _) // Error
set.foreach(process(_)) // No Error
}
In the first case, process _ represents a method; Scala takes the polymorphic method and attempts to make it monomorphic by filling in the type parameter, but realizes that there is no type that can be filled in for A that will give the type (_ => Unit) => ? (Existential _ is not a type).
In the second case, process(_) is a lambda; when writing a lambda with no explicit argument type, Scala infers the type from the argument that foreach expects, and _ => Unit is a type (whereas just plain _ isn't), so it can be substituted and inferred.
This may well be the trickiest gotcha in Scala I have ever encountered.
Refer:
[1] What are all the uses of an underscore in Scala?
http://stackoverflow.com/questions/8000903/what-are-all-the-uses-of-an-underscore-in-scala
[2] Scala punctuation (AKA symbols and operators)
[3] Scala中的下划线到底有多少种应用场景?
http://www.zhihu.com/question/21622725
[4] Strange type mismatch when using member access instead of extractor
[5] Scala简明教程
http://colobu.com/2015/01/14/Scala-Quick-Start-for-Java-Programmers/
[6] Scala入门到精通——第二十三节 高级类型 (二)
