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Given three ways of expressing the same function f(a) := a + 1:

val f1 = (a:Int) => a + 1
def f2 = (a:Int) => a + 1
def f3:(Int => Int) = a => a + 1

How do these definitions differ? The REPL does not indicate any obvious differences:

scala> f1
res38: (Int) => Int = <function1>
scala> f2
res39: (Int) => Int = <function1>
scala> f3
res40: (Int) => Int = <function1>
share|improve this question
You should note that in the 2nd block above, evaluating f1 in the REPL shows the value statically bound to f1 while evaluating f2 and f3 show the result of invoking those methods. In particular, a new Function1[Int, Int] instance is produced every time either f2 or f3 is invoked, while f1 is the same Function1[Int, Int] forever. – Randall Schulz Sep 5 '10 at 19:12
@RandallSchulz given that the val version does not require a new function instance, why would one ever use def in this case? – virtualeyes Jun 1 '12 at 14:04
@virtualeyes The only situation that I can recall where one sees defs yielding FunctionN[...] values is in the combinator parser library. It's not very common to write methods that yield functions and virtually never would one use a def to yield many copies of a semantically / functionally unchanging function. – Randall Schulz Jun 5 '12 at 0:18
up vote 107 down vote accepted

f1 is a function that takes an integer and returns an integer.

f2 is a method with zero arity that returns a function that takes an integer and returns an integer. (When you type f2 at REPL later, it becomes a call to the method f2.)

f3 is same as f2. You're just not employing type inference there.

share|improve this answer
Why f1 is a function and f2 is a method? – Freewind May 7 '13 at 3:13
@Freewind, a function is an object with a method named apply. A method, well, is a method. – missingfaktor May 7 '13 at 18:10
Awesome answer. Question: you say f2 has zero arity, but isn't it unary? "A nullary function takes no arguments. A unary function takes one argument." Just curious! – Matthew Cornell Jan 7 '15 at 0:38
@MatthewCornell, f2 itself accepts no arguments. The function object that it returns does. – missingfaktor Jan 8 '15 at 7:45

Inside a class, val is evaluated on initialization while def is evaluated only when, and every time, the function is called. In the code below you will see that x is evaluated the first time the object is used, but not again when the x member is accessed. In contrast, y is not evaluated when the object is instantiated, but is evaluated every time the member is accessed.

  class A(a: Int) {
    val x = { println("x is set to something"); a }
    def y = { println("y is set to something"); a }

  // Prints: x is set to something
  val a = new A(1)

  // Prints: "1"

  // Prints: "1"                               

  // Prints: "y is set to something" and "1"                                  

  // Prints: "y is set to something" and "1"                                                                                   
share|improve this answer
@JacobusR is this true only inside a class? – Andrew Cassidy Aug 26 '14 at 16:58
for example: scala> var b = 5 b: Int = 5 scala> val a: (Int => Int) = x => x + b a: Int => Int = <function1> scala> a(5) res48: Int = 10 scala> b = 6 b: Int = 6 scala> a(5) res49: Int = 11 I was expecting a(5) to return 10 and the value of b to have been inlined – Andrew Cassidy Aug 26 '14 at 16:59
@AndrewCassidy the function a is immutable and evaluated at initialisation, but b remains a mutable value. So the reference to b is set during initialisation, but the value stored by b remains mutable. For fun you could now create a new val b = 123. After this your a(5) will always give 11, since the b is now a completely new value. – JacobusR Aug 28 '14 at 5:57
@JacobusR thanks... this makes sense. This coincides with the definition of "lexical scope" since the function a carries a reference to original "var b". I guess what made me confused is that say: var b = 5; val c = b; b = 6; acts differently. I guess I shouldn't expect a function definition which carries around references to the original "lexical" scope to behave the same way as an Int. – Andrew Cassidy Aug 28 '14 at 13:49

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