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In Scala if you do

scala> var st = "test"
st: java.lang.String = test

You get a java String.

But if you do this, you will get a Scala

scala> var st:String = "test2"
st: String = test2

Question: In Java string permutation method you see only String type, but in Scala you see example of List("a", "b", "c"). What is the difference?

For example in Java you can do this for string permutation:

private static void permutation(String prefix, String str) {
    int n = str.length();
    //one-char string has only one permutation
    if (n == 1)
      System.out.println(prefix + str);
    else {
      //recursive case
      for (int i = 0; i < n; i++) {
        char ch = str.charAt(i);
        String rest = str.substring(0, i) + str.substring(i + 1);

        permutation(prefix + ch, rest);

However, in Scala it's more about List:

def permutations[A](xs: List[A]) : List[List[A]] = xs match { 
  case Nil => List(Nil)
  case x::xs => permutations(xs).flatMap(inserts(x, _))
def inserts[A](x: A, ys: List[A]) : List[List[A]] = ys match {
  case Nil => List(List(x))
  case y::ys => (x::y::ys) :: inserts(x, ys).map(y::_)
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"you will get a Scala"? –  ziggystar Jan 13 at 21:47
I believe he means a string by way of Scala's StringOps or WrappedString. –  pr1001 Jan 13 at 22:06

1 Answer 1

up vote 7 down vote accepted

There is no Scala string

When you look into Predef.scala you will find the following definition:

 type String        = java.lang.String

This means that String is just a type synonym for java.lang.String. There is no difference.

Implicit conversions

In Scala there is the so called "pimp my library" pattern (the name seems to have changed in the meantime, but this is the original name). This pattern lets you add additional behavior to an existing type (without changing the type). It is implemented using implicit conversions. This means during compile time, when necessary the compiler will inject a function that changes the pre existing type to a new type. This new type can then provide the new behavior, usually some convenience methods. When using so called value classes, this conversion comes with zero runtime costs.

Pimp my string: StringOps

Predef.scala provides such an implicit conversion for strings:

@inline implicit def augmentString(x: String): StringOps = new StringOps(x)

This function converts an object of type String (i.e. a Java string) to an object of type StringOps. StringOps provides several convenience functions especially for Strings (e.g. stripMargin) and some functions that make a String behave like a sequence of Chars (e.g. map).

Whenever you access one of these functions on a Java string, the compiler will insert a function call for augmentString to convert your plain Java string to a Scala StringOps.

Why is a string a sequence of Chars?

Scala has a very powerful API, called a monadic API. This API let you filter, transform and combine many different types with a common structure. So you can use the same API to access e.g. objects of type List as well as objects of type Future. It is very convenient to give this API also to strings.

With JSR 335, there will also be a monadic API in Java. But it will take some time, until plain Java stings will also get a monadic API out of the box.

Performance considerations: The way back is expensive

While converting a string to a sequence of characters has no runtime costs, the opposite way can be more expensive. When you have a sequence of chars and want it to convert to a string, there is usually no implicit conversion for this. You have to do it explicit, using mkString.



There are some special optimizations for StringOps, i.e. for Strings considered as sequences of characters. They are indeed automatically converted back to a string. The methods in StringOps are directly returning a string as their result when possible, e.g.

def map[B](f: (A) ⇒ B): String[B] 
def filter(p: (Char) ⇒ Boolean): String 

For these functions it is usually as cheap to create a string directly as it would be to create an intermediate sequence as their result.

Scala will automatically convert between sequences of characters and strings when there are no additional costs. When it is costly, you will have to make an explicit conversion. In all usual use cases you don't have to worry about this, because Scala will automatically do the right thing. In all other cases it might be useful to know, what happens behind the scenes.

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