Here is a quote from programming scala chapter 1:

Closures are such a powerful abstraction that object systems and fundamental control structures are often implemented using them

Apparently the statement is not specifically about Scala but Closures in general but I can not make much sense from it. Perhaps it is some pearl of wisdom only meant for those mighty compiler writers!

So who uses Closures to implement fundamental control structures and why?

Edit: I remember reading something about custom control structures in groovy "using the closure as the last parameter of method call" syntax and making the structure available to your code using meta-classes or use keyword with Categories. Could it be something related?

Edit: I found the following reference of the groovy custom control structures syntax here (slide 38):

Custom control structures

Thanks to closures

  • When closures are last, they can be put “out” of the parentheses
    surrounding parameters
  • unless(account.balance > 100.euros, { account.debit 100.euros })
  • unless(account.balance > 100.euros) { account.debit 100.euros }
  • Signature def unless(boolean b, Closure c)

Apparently what groovy is offering is a syntactic sugar for making the Closure based custom control structures appear like first-class control structures offered by the language itself.

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    Take a look at languages like IO where they make heavy use of closures. – jsuereth Mar 16 '11 at 12:07
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    Also, collection methods in ruby, like 'each' make use of closures. – jsuereth Mar 16 '11 at 12:09
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    @jsuereth Answers usually go in the "answers" section. :-) – Daniel C. Sobral Mar 16 '11 at 12:59
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    Partial answer - in Smalltalk, the if-else control structure is implemented as a method on the Boolean type and takes two closures as its parameters. You could theoretically do the same thing in Scala, but the if-else structure is already built in. – user382157 Mar 16 '11 at 20:33

I commented on the case of control structures. Let me comment on closures as objects. Consider what happens when you call a method on an object; it has access not only to the argument list, but also the fields of the object. That is, the method/function closes over the fields. This isn't that different from a "bare" function (i.e., not an object method) that closes over variables in scope. However, the object syntax provides a nice abstraction and modularity mechanism.

For example, I could write

case class Welcome(message: String) {
  def greet(name: String) = println(message + ", " + name)
val w = Welcome("Hello")


val message = "Hello"
val greet = (name: String) => println(message + ", " + name)

Actually, in this example, I could remove the "case" keyword from Welcome, so that message doesn't become a field, but the value is still in scope:

class Welcome2(message: String) {    // removed "case"
  def greet(name: String) = println(message + ", " + name)
val w = new Welcome2("Hello")        // added "new"

It still works! Now greet closes over the value of the input parameter, not a field.

var welcome = "Hello"
val w2 = new Welcome2(welcome)
w2.greet("Dean")     // => "Hello, Dean"
welcome = "Guten tag"
w2.greet("Dean")     // => "Hello, Dean"  (even though "welcome" changed)

But if the class refers to a variable in the outer scope directly,

class Welcome3 {                  // removed "message"
  def greet(name: String) = println(welcome + ", " + name) // reference "welcome"
val w3 = new Welcome3
w3.greet("Dean")                  // => "Guten tag, Dean"
welcome = "Buon giorno"
w3.greet("Dean")                  // => "Buon giorno, Dean"

Make sense?

  • The analogy of closures closing over scope variables to methods closing over their object's fields is illuminating. – Adrian Mar 16 '11 at 18:05
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    @Adrian Fritsch: a closure is just an object with only one method. A method is just a closure over an object. The two are basically duals: an object is data with attached functions, a closure is a function with attached data. – Jörg W Mittag Mar 16 '11 at 18:13

There are three fundamental control structures:


a = 1
b = 2
c = a + b


if (a != b) {
  c = a + b
} else {
  c = a - b


for (a <- array) {

So, I guess they mean that internally many languages use closures for control structures (you can look the last two structures).

As an example:

if (a < b) {
  for (i = a; a < b; a++) {
    c = i * i
} else {
  c = a - b

So for is a closure inside the if closure, and else is a closure too. That's how I understand it. They create a closure for the first if if the condition is true, create the closure inside the braces, call it. Then create a closure for the for loop and call it while the condition is true.

And I guess there is no list of languages which use closures internally.


Just as an example, this is how you can implement your own for loop in Scala (o is cyrillic, so it will compile):

def fоr(start: Unit, condition: => Boolean, increment: => Unit)(body: => Unit): Unit = {
  if (condition) {
    fоr(0, condition, increment)(body)

var i = 0

fоr (i = 0, i < 1000, i += 1) {
  print(i + " ")

So actually this is how it can be implemented in other languages on the inner level.

  • Thanks stam, but your example appears to be about variable scopes in general. Whereas the page I referenced defines closures as: "Closures are functions that reference variables from the scope enclosing the function definition." – Tahir Akhtar Mar 16 '11 at 12:11
  • Well, if you write c = a + i in the for loop and enclose the condition in another for loop where a gets declared, it will reference a from the enclosing scope, while a itself will be accessed only in the enclosing for closure. It's all about variable scopes, but the point is that “many” languages create closures for loops and conditional structures, not just plainly repeating or skipping lines of code and looking if the variable is inside or outside the scope. – Stanislav Yaglo Mar 16 '11 at 12:15
  • Actually, the definition of fundamental control structures may very. Forth has three: sequences, conditional and unconditional branches. Every other control structure is implemented through them. – Daniel C. Sobral Mar 16 '11 at 13:02
  • @Daniel C. Sobral “Every other control structure is implemented through them” implies that there are three fundamental control structures. – Stanislav Yaglo Mar 16 '11 at 13:05
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    I wrote the quote, so I guess I should explain myself ;) I didn't mean that most languages actually implement control structures this way, just that many could. To use a simple example, a while loop could be implemented as a function that takes a boolean argument (in Scala, you would want to use a "by-name" parameter) and a "block" that is executed for each iteration. In Scala, the block would be a function literal (a.k.a. anonymous function) This function could reference values in the enclosing scope, thereby becoming a closure. – Dean Wampler Mar 16 '11 at 14:12

I would say that "closures are such a powerful abstraction..." because unlike standard methods, you have a reference to the calling object, regardless of the scope in which the closure has been called.

In Groovy, for example, you can add a new method, "capitalize" to String type:

String.metaClass.capitalize = {  
    delegate[0].upper() + delegate[1..-1].lower()  
"hello".capitalize() // "Hello"

Or, you can do something more complex, like create a domain specific language (DSL) using closures.

class ClosureProps {

       Map props = [:]  
       ClosureProps(Closure c) {  
           c.delegate = this // pass closure scope to "this"
           c.each{"$it"()} // iterate through closure, triggering missingMethod()
       def methodMissing(String name, args) {  
           props[name] = args.collect{it} // collect extracted closure properties
       def propertyMissing(String name) {  


class Team {

        // the closure
        static schema = {  
            table team  
            id teamID  
            roster column:playerID, cascade:[update,delete]  
def c = new ClosureProps(Team.schema)  
println c.props.id // prints "teamID"

a) Please try at least googling topics before asking questions.

b) Once you have done that, please ask specific questions.

c) Lexical closures are functions that have access to a lexical environment not available where they are invoked. As such, their parameters can be used to select messages, and pass parameters with those messages. For general control structures, they are not sufficient, unless they can affect the call stack, in the manner of continuations.

  • Care to read the question again and explain how your rant is relevant? As far as I can see the question is very specific. I do know what Closures are, having used them in JavaScript and Groovy. If you are sure about your last statement then do you think the statement " ... fundamental control structures are often implemented using them" is incorrect? – Tahir Akhtar Mar 16 '11 at 13:04
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    Actually this site has no problem with duplicating content that already exists elsewhere in the web. – erikbwork Mar 16 '11 at 13:38
  • @Tahir: It's relevant because it a) answers your question b) suggests other high quality ways of getting information on this topic, no doubt more full (although perhaps less pithy) than you would get here. – Marcin Mar 17 '11 at 22:35

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