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As i understand it, in Scala, a function may be called either

  • by-value or
  • by-name

For example, given the following declarations, do we know how the function will be called?

Declaration:

def  f (x:Int, y:Int) = x;

Call

f (1,2)
f (23+55,5)
f (12+3, 44*11)

What are the rules please?

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5 Answers 5

up vote 134 down vote accepted

The example you have given only uses call-by-value, so I will give a new, simpler, example that shows the difference.

First, let's assume we have a function with a side-effect. This function prints something out and then returns an Int.

def something() = {
  println("calling something")
  1 // return value
}

Now we are going to define two function that accept Int arguments that are exactly the same except that one takes the argument in a call-by-value style (x: Int) and the other in a call-by-name style (x: => Int).

def callByValue(x: Int) = {
  println("x1=" + x)
  println("x2=" + x)
}

def callByName(x: => Int) = {
  println("x1=" + x)
  println("x2=" + x)
}

Now what happens when we call them with our side-effecting function?

scala> callByValue(something())
calling something
x1=1
x2=1

scala> callByName(something())
calling something
x1=1
calling something
x2=1

So you can see that in the call-by-value version, the side-effect of the passed-in function call (something()) only happened once. However, in the call-by-name version, the side-effect happened twice.

This is because call-by-value functions compute the passed-in expression's value before calling the function, thus the same value is accessed every time. However, call-by-name functions recompute the passed-in expression's value every time it is accessed.

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71  
I've always thought this terminology is needlessly confusing. A function can have multiple parameters which vary in their call-by-name vs call-by-value status. So it's not that a function is call-by-name or call-by-value, it's that each of its parameters may be pass-by-name or pass-by-value. Furthermore, "call-by-name" has nothing to do with names. => Int is a different type from Int; it's "function of no arguments that will generate an Int" vs just Int. Once you've got first-class functions you don't need to invent call-by-name terminology to describe this. –  Ben Nov 12 '12 at 1:55
1  
@Ben, that helps answer a couple questions, thanks. I wish more write-ups explained the semantics of pass-by-name this clearly. –  Christopher Poile Mar 18 '13 at 15:27
2  
@SelimOber If the text f(2) is compiled as an expression of type Int, the generated code calls f with argument 2 and the result is the value of the expression. If that same text is compiled as an expression of type => Int then the generated code uses a reference to some sort of "code block" as the value of the expression. Either way, a value of that type can be passed to a function expecting a parameter of that type. I'm pretty sure you can do this with variable assignment, with no parameter passing in sight. So what do names or calling have anything to do with it? –  Ben Apr 24 '13 at 23:49
1  
@TimGoodman You're right, it's a bit more complicated than I made out. => Int is a convenience, and it isn't implemented exactly as a function object is (presumably why you can't have variables of type => Int, though there's no fundamental reason why this couldn't work). () => Int is explicitly a function of no arguments that will return an Int, which needs to be called explicitly and can be passed as a function. => Int is sort of a "proxy Int", and the only thing you can do with it is call it (implicitly) to get the Int. –  Ben Sep 25 '13 at 0:47
1  
@TimGoodman I could try and justify what I wrote a year ago by rambling about the difference between "has no arguments" and "has zero arguments" or something. But my major point was simply that the difference between the entities called x in f(x: Int) = x and f(x: => Int) = x is much more readily understood by talking about x and the way it is passed than by trying to talk about f and the way it is called (let alone about names). (And it does seem a fairly type-like property, though not entirely depending on how you look at it *shrugs*) –  Ben Sep 25 '13 at 0:53

Here is an example from Martin Odersky:

def test (x:Int, y:Int)= x*x

We want to examine the evaluation strategy and determine which one is faster (less steps) in these conditions:

test (2,3)

call by value: test(2,3) -> 2*2 -> 4
call by name: test(2,3) -> 2*2 -> 4
Here the result is reached with the same number of steps.

test (3+4,8)

call by value: test (7,8) -> 7*7 -> 49
call by name: (3+4) (3+4) -> 7(3+4)-> 7*7 ->49
Here call by value is faster.

test (7,2*4)

call by value: test(7,14) -> 7*7 -> 49
call by name: 7 * 7 -> 49
Here call by name is faster

test (3+4, 2*4) 

call by value: test(7,2*4) -> test(7, 8) -> 7*7 -> 49
call by name: (3+4)(3+4) -> 7(3+4) -> 7*7 -> 49
The result is reached within the same steps.

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1  
In the third example for CBV, I think you meant test(7,8) instead of test(7,14) –  talonx Sep 22 '14 at 17:05

In the case of your example all the parameters will be evaluated before it's called in the function , as you're only defining them by value. If you want to define your parameters by name you should pass a code block:

def f(x: => Int, y:Int) = x

This way the parameter x will not be evaluated until it's called in the function.

This little post here explains this nicely too.

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**I will try to explain by a simple use case rather than by just providing an example **

Imagine you want to build a "nagger app" that will Nag you every time since time last you got nagged.

**Examine the following implementations: **

object main  {

    def main(args: Array[String]) {

        def onTime(time: Long) {
            while(time != time) println("Time to Nag!")
            println("no nags for you!")
        }

        def onRealtime(time: => Long) {
            while(time != time) println("Realtime Nagging executed!")
        }

        onTime(System.nanoTime())
        onRealtime(System.nanoTime())
    }
}

**In the above implementation the nagger will work only when passing by name the reason is that, when passing by value it will re-used and therefore the value will not be re-evaluated while when passing by name the value will be re-evaluated every time the variables is accessed **

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To iteratate @Ben's point in the above comments, I think it's best to think of "call-by-name" as just syntactic sugar. The parser just wraps the expressions in anonymous functions, so that they can be called at a later point, when they are used.

In effect, instead of defining

def callByName(x: => Int) = {
  println("x1=" + x)
  println("x2=" + x)
}

and running:

scala> callByName(something())
calling something
x1=1
calling something
x2=1

You could also write:

def callAlsoByValue(x: () => Int) = {
  println("x1=" + x())
  println("x2=" + x())
}

And run it as follows for the same effect:

callByValue2(() => {something()})

calling something
x1=1
calling something
x2=1
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