# How do I break out of a loop in Scala?

How do I break out a loop?

``````var largest=0
for(i<-999 to 1 by -1) {
for (j<-i to 1 by -1) {
val product=i*j
if (largest>product)
// I want to break out here
else
if(product.toString.equals(product.toString.reverse))
largest=largest max product
}
}
``````

How do I turn nested for loops into tail recursion?

From Scala Talk at FOSDEM 2009 http://www.slideshare.net/Odersky/fosdem-2009-1013261 on the 22nd page:

Break and continue Scala does not have them. Why? They are a bit imperative; better use many smaller functions Issue how to interact with closures. They are not needed!

What is the explanation?

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Your comparision needs a second equals-sign: if(product.toString == product.toString.reverse) or maybe an equals-Method-call. –  user unknown Apr 30 '10 at 10:04
yeah, i missed that one when i was typing it in –  TiansHUo May 4 '10 at 4:13

You have three (or so) options to break out of loops.

Suppose you want to sum numbers until the total is greater than 1000. You try

``````var sum = 0
for (i <- 0 to 1000) sum += i
``````

except you want to stop when (sum > 1000).

What to do? There are several options.

(1a) Use some construct that includes a conditional that you test.

``````var sum = 0
(0 to 1000).toStream.takeWhile(_ => sum < 1000).foreach(i => sum+=i)
``````

(1b) Use tail recursion instead of a for loop, taking advantage of how easy it is to write a new method in Scala:

``````var sum = 0
def addTo(i: Int, max: Int) {
sum += i; if (sum < max) addTo(i+1,max)
}
``````

(2) Throw an exception.

``````object AllDone extends Exception { }
var sum = 0
try {
for (i <- 0 to 1000) { sum += i; if (sum>=1000) throw AllDone }
} catch {
case AllDone =>
}
``````

(2a) In Scala 2.8+ this is already pre-packaged in `scala.util.control.Breaks` using syntax that looks a lot like your familiar old break from C/Java:

``````import scala.util.control.Breaks._
var sum = 0
breakable { for (i <- 0 to 1000) {
sum += i
if (sum >= 1000) break
} }
``````

(3) Put the code into a method and use return.

``````var sum = 0
def findSum { for (i <- 0 to 1000) { sum += i; if (sum>=1000) return } }
findSum
``````

This is intentionally made not-too-easy for at least three reasons I can think of. First, in large code blocks, it's easy to overlook "continue" and "break" statements, or to think you're breaking out of more or less than you really are, or to need to break two loops which you can't do easily anyway--so the standard usage, while handy, has its problems, and thus you should try to structure your code a different way. Second, Scala has all sorts of nestings that you probably don't even notice, so if you could break out of things, you'd probably be surprised by where the code flow ended up (especially with closures). Third, most of Scala's "loops" aren't actually normal loops--they're method calls that have their own loop, or they are recursion which may or may not actually be a loop--and although they act looplike, it's hard to come up with a consistent way to know what "break" and the like should do. So, to be consistent, the wiser thing to do is not to have a "break" at all.

-
Re exceptions, although strictly true that you can throw an exception, this is arguably an abuse of the exception mechanism (see Effective Java). Exceptions are really to indicate situations that are truly unexpected and/or require a drastic escape from the code, i.e. errors of some kind. Quite apart from that, they certainly used to be pretty slow (not sure about the current situation) because there's little reason for JVMs to optimize them. –  Jonathan May 30 '11 at 0:24
@Jonathan - Exceptions are only slow if you need to compute a stack trace--notice how I created a static exception to throw instead of generating one on the fly! And they're a perfectly valid control construct; they're used in multiple places throughout the Scala library, since they're really the only way you can return through multiple methods (which if you have a pile of closures is something you sometimes need to do). –  Rex Kerr May 30 '11 at 1:22
@Rex Kerr, you are pointing out weaknesses of the break construct (I don't agree with them), but then you suggest using exceptions for normal workflow! Exiting a loop is not an exceptional case, it is part of the algorithm, it is not the case of writing to non-existing file (for example). So in short suggested "cure" is worse than the "illness" itself. And when I consider throwing a real exception in `breakable` section... and all those hoops just to avoid evil `break`, hmm ;-) You have to admit, life is ironic. –  greenoldman Jan 23 '12 at 17:40
@macias - Sorry, my mistake. The JVM is using Throwables for control flow. Better? Just because they're typically used to support exception handling does not mean they can only be used for exception handling. Returning to a defined location from within a closure is just like throwing an exception in terms of control flow. No surprise, then, that this is the mechanism that is used. –  Rex Kerr Jan 23 '12 at 21:40
@RexKerr Well, for what it's worth you convinced me. Normally I'd be one to rail against Exceptions for normal program flow, but the two main reasons don't apply here. Those are: (1) they're slow [not when used in this way], and (2) they suggest exceptional behavior to someone reading your code [not if your library lets you call them `break`] If it look's like a `break` and it performs like a `break`, as far as I'm concerned it's a `break`. –  Tim Goodman Jan 24 '14 at 19:32

An approach that generates the values over a range as we iterate, up to a breaking condition, instead of generating first a whole range and then iterating over it, using `Iterator`, (inspired in @RexKerr use of `Stream`)

``````var sum = 0
for ( i <- Iterator.from(1).takeWhile( _ => sum < 1000) ) sum += i
``````
-

An alternative implementation, that doesn't require throwing exceptions, for use in sequence comprehensions:

``````object BreakableGenerators {
import scala.language.implicitConversions

type Generator[+A] = Iterator[A]
type BreakableGenerator[+A] = BreakableIterator[A]

// Generates a new breakable generator from any traversable object.
def breakable[A](t1: TraversableOnce[A]): Generator[BreakableGenerator[A]] =
List(new BreakableIterator(t1.toIterator)).iterator

// Mediates boolean expression with 'break' and 'continue' invocations
case class BreakableGuardCondition(cond: Boolean) {
// Break the looping over one or more breakable generators, if 'cond'
// evaluates to true.
def break(b: BreakableGenerator[_], bRest: BreakableGenerator[_]*): Boolean = {
if (cond) {
b.break
for (x <- bRest) { x.break }
}
!cond
}

// Continue to next iteration of enclosing generator if 'cond'
// evaluates to true.
def continue: Boolean = !cond
}

// implicit conversion of boolean values to breakable guard condition mediary
implicit def toBreakableGuardCondition(cond: Boolean) =
BreakableGuardCondition(cond)

// An iterator that can be halted via its 'break' method.  Not invoked directly
class BreakableIterator[+A](itr: Iterator[A]) extends Iterator[A] {
private var broken = false
private[BreakableGenerators] def break { broken = true }

def hasNext = !broken && itr.hasNext
def next = itr.next
}
}

object Main {
import BreakableGenerators._

def main(args: Array[String]) {

val r = for (
// generate a breakable sequence from some sequential input
loop <- breakable(1 to 1000);
// iterate over the breakable sequence
j <- loop;
// print out at each iteration
_ = { println(s"iteration j= \$j") };
// continue to next iteration when 'j' is even
if { j % 2 == 0 } continue;
// break out of the loop when 'j' exceeds 5
if { j > 5 } break(loop)
) yield {
j
}
println(s"result= \${r.toList}")
}
}
``````
-

It is never a good idea to break out of a for loop. If you are using a for loop it means that you know how many times you want to iterate. Use a while loop with 2 conditions.

for example

``````var done = false
while (i <= length && !done) {
if (i > 1000) {
done = true;
}
``````
-

Ironically the Scala break in `scala.util.control.Breaks` is an exception:

``````def break(): Nothing = { throw breakException }
``````

The best advice is: DO NOT use break, continue and goto! IMO they are the same, bad practice and an evil source of all kind of problems (and hot discussions) and finally "considered be harmful". Code block structured, also in this example breaks are superfluous. Our Edsger W. Dijkstra† wrote:

The quality of programmers is a decreasing function of the density of go to statements in the programs they produce.

-

Just use a while loop:

``````var (i, sum) = (0, 0)
while (sum < 1000) {
sum += i
i += 1
}
``````
-
``````// import following package
import scala.util.control._

// create a Breaks object as follows
val loop = new Breaks;

// Keep the loop inside breakable as follows
loop.breakable{
// Loop will go here
for(...){
....
// Break will go here
loop.break;
}
}
``````

use Break module http://www.tutorialspoint.com/scala/scala_break_statement.htm

-

Here is a tail recursive version. Compared to the for-comprehensions it is a bit cryptic, admittedly, but I'd say its functional :)

``````def run(start:Int) = {
@tailrec
def tr(i:Int, largest:Int):Int = tr1(i, i, largest) match {
case x if i > 1 => tr(i-1, x)
case _ => largest
}

@tailrec
def tr1(i:Int,j:Int, largest:Int):Int = i*j match {
case x if x < largest || j < 2 => largest
case x if x.toString.equals(x.toString.reverse) => tr1(i, j-1, x)
case _ => tr1(i, j-1, largest)
}

tr(start, 0)
}
``````

As you can see, the tr function is the counterpart of the outer for-comprehensions, and tr1 of the inner one. You're welcome if you know a way to optimize my version.

-

This has changed in Scala 2.8 which has a mechanism for using breaks. You can now do the following:

``````import scala.util.control.Breaks._
var largest = 0
// pass a function to the breakable method
breakable {
for (i<-999 to 1  by -1; j <- i to 1 by -1) {
val product = i * j
if (largest > product) {
break  // BREAK!!
}
else if (product.toString.equals(product.toString.reverse)) {
largest = largest max product
}
}
}
``````
-
Does this use exceptions under the hood? –  Mike May 31 '11 at 18:23
This is using Scala as a procedural language ignoring the functional programming advantages (i.e. tail recursion). Not pretty. –  Galder Zamarreño Aug 3 '11 at 17:13
Mike: Yes, Scala is throwing an exception to break out of the loop. Galder: This answers the posted question "How do I break out of a loop in Scala?". Whether it's 'pretty' or not isn't relevant. –  hohonuuli Oct 7 '11 at 0:18
@hohonuuli, so it is in try-catch block it won't break, right? –  greenoldman Jan 19 '12 at 20:13
@macias, that's right. If you surround the 'break' statement with a try/catch it won't break out of the loop. (I did test that). For the curious, the source code for Breaks is at scala-lang.org/api/current/index.html#scala.util.control.Breaks –  hohonuuli Jan 20 '12 at 17:12

Since there is no `break` in Scala yet, you could try to solve this problem with using a `return`-statement. Therefore you need to put your inner loop into a function, otherwise the return would skip the whole loop.

Scala 2.8 however includes a way to break

http://www.scala-lang.org/api/rc/scala/util/control/Breaks.html

-
sorry, but I only wanted to break out the inner loop. You aren't implying that I should put it in a function? –  TiansHUo Apr 30 '10 at 6:37
Sorry, should have clarified that. Sure using a return means that you need to encapsulate the loop in a function. I've edited my answer. –  Ham Apr 30 '10 at 6:39
That's not nice at all. It seems that Scala doesn't like nested loops. –  TiansHUo Apr 30 '10 at 6:46
There doesn't seem to be a different way. You might want to take a look at this: scala-lang.org/node/257 –  Ham Apr 30 '10 at 6:56
@TiansHUo: Why do you say that Scala doesn't like nested loops? You have the same issues if you are trying to break out of a single loop. –  Rex Kerr Apr 30 '10 at 7:37

Close to your solution would be this:

``````var largest = 0
for (i <- 999 to 1 by -1;
j <- i to 1 by -1;
product = i * j;
if (largest <= product && product.toString.reverse.equals (product.toString.reverse.reverse)))
largest = product

println (largest)
``````

The j-iteration is made without a new scope, and the product-generation as well as the condition are done in the for-statement (not a good expression - I don't find a better one). The condition is reversed which is pretty fast for that problem size - maybe you gain something with a break for larger loops.

String.reverse implicitly converts to RichString, which is why I do 2 extra reverses. :) A more mathematical approach might be more elegant.

-

`````` var sum = 0