# Differences between these three ways of defining a function in Scala

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>
``````
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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

`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.

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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? en.wikipedia.org/wiki/Arity "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"
println(a.x)

// Prints: "1"
println(a.x)

// Prints: "y is set to something" and "1"
println(a.y)

// Prints: "y is set to something" and "1"
println(a.y)
``````
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@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