# How to compute the product of the Unicode codes of all letters in a string with a for-loop?

I came up with this solution but it uses a var:

var prod = 1
for (i <- "Hello"){ prod *= i.toInt }; println(prod)


What would be your approach to this problem if you had to use a for-loop?

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I think it's worth noting that for in Scala is not necessarily a "loop": it's actually more general than that. –  Dan Burton Mar 1 '12 at 16:46
Just FYI, this is Exercise 6 on p.26 of "Scala for the Impatient". –  Rob S. Apr 28 at 21:15

You don't use for comprehensions for that. Yes, for loops -- which are imperative constructs -- can be used, but you will be using vars in that case.

Explanation: a for comprehension is something that transforms an M[A] into an M[B]. For a String, M will be a Seq (or, perhaps, an IndexedSeq), and a Seq isn't an Int, nor is an Int parameterized.

For this kind of task you should use foldLeft or foldRight instead. These constructs can transform an M[A] into something else altogether. See also the essence of the iterator pattern, which provides a more general solution (and, whenever you read "general", think "more setup required").

Of course, the easy way is "Hello".product.toInt.

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I know, but imagine you had to use a for-loop... Is the solution in my question above as good as it gets? –  user1243091 Mar 1 '12 at 16:18
@user1243091 Yes. –  Daniel C. Sobral Mar 1 '12 at 16:20
@Daniel "Hello".product.toInt overflows. –  Jean-Philippe Pellet Mar 2 '12 at 11:04
@Jean-PhilippePellet All real world uses of multiplying char values I know of depend on overflow wrap-around. –  Daniel C. Sobral Mar 2 '12 at 16:47

Use BigInt because Int will overflow.

"Hello" map (i => BigInt(i)) product


object Product {
def unapply[T: Numeric](xs: Seq[T]) = Some(xs.product)
}

val Product(prod) = for(i <- "Hello") yield BigInt(i)

// prod: scala.math.BigInt = 9415087488

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Nice use of unapply, this is one of the really cool things about Scala. –  Dan Burton Mar 1 '12 at 16:48
Well really it's a very stupid way to do something very simple; but it does show off a good range of Scala's features: first-class objects, extractors, context bounds, Options, pattern matching, for-comprehenions, and case classes... phew! –  Luigi Plinge Mar 2 '12 at 3:56

"Hello".foldLeft(1L)(_ * _)


Alternatively:

(1L /: "Hello")(_ * _)

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All nice but it should be done with a for-loop. –  user1243091 Mar 1 '12 at 16:06
@user1243091 - why? –  Dan Burton Mar 1 '12 at 16:47

There's actually method product:

scala> "Hello".map(_.toInt).product
res0: Int = 825152896


If you really want the for keyword in your solution, you could do this:

scala> (for(c <- "Hello") yield c.toInt).product
res1: Int = 825152896


That technically has a for loop, but it's really just syntactic sugar for the previous thing that uses map.

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In this case I actually would consider it 'syntactical salt' –  Jens Schauder Mar 1 '12 at 16:25
@Jens Ha, yeah, I actually thought the same thing. This is definitely below the threshold of where the for-comprehension makes things more readable. But it does have a for-loop, as requested (and without sacrificing immutability.) :-) –  dhg Mar 1 '12 at 16:39
@dhg This solution overflows too. –  Jean-Philippe Pellet Mar 2 '12 at 11:05
"Hello".map( _.toInt).reduce(_ * _)


or

"Hello".foldLeft(1)(_ * _)


Inspired by Jean-Philippe Pellet solution which causes a

type mismatch;
found   : Int
required: Char


At least in my Eclipse IDE

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Very well, but it should be done with a for-loop. –  user1243091 Mar 1 '12 at 16:05

If you really have to use a for loop and want the for loop to actually do the work, I think your solution is fine.

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"Hello".map(BigInt(_)).product

9415087488