Creating collections from scratchTopViewsIteratorsContents

Iterators

An iterator is not a collection, but rather a way to access the elements of a collection one by one. The two basic operations on an iterator it are next and hasNext. A call to it.next() will return the next element of the iterator and advance the state of the iterator. Calling next again on the same iterator will then yield the element one beyond the one returned previously. If there are no more elements to return, a call to next will throw a NoSuchElementException. You can find out whether there are more elements to return using Iterator's hasNext method.

The most straightforward way to "step through" all the elements returned by an iterator it uses a while-loop:

while (it.hasNext) 
  println(it.next())

Iterators in Scala also provide analogues of most of the methods that you find in the Traversable, Iterable and Seq classes. For instance, they provide a foreach method which executes a given procedure on each element returned by an iterator. Using foreach, the loop above could be abbreviated to:

it foreach println

As always, for-expressions can be used as an alternate syntax for expressions involving foreach, map, withFilter, and flatMap, so yet another way to print all elements returned by an iterator would be:

for (elem <- it) println(elem)

There's an important difference between the foreach method on iterators and the same method on traversable collections: When called to an iterator, foreach will leave the iterator at its end when it is done. So calling next again on the same iterator will fail with a NoSuchElementException. By contrast, when called on on a collection, foreach leaves the number of elements in the collection unchanged (unless the passed function adds to removes elements, but this is discouraged, because it may lead to surprising results).

The other operations that Iterator has in common with Traversable have the same property. For instance, iterators provide a map method, which returns a new iterator:

scala> val it = Iterator("a""number""of""words")
it: Iterator[java.lang.String] = non-empty iterator
scala> it.map(_.length)
res1: Iterator[Int] = non-empty iterator
scala> res1 foreach println
1
6
2
5
scala> it.next()
java.util.NoSuchElementException: next on empty iterator

As you can see, after the call to it.map, the it iterator has advanced to its end.

Another example is the dropWhile method, which can be used to find the first elements of an iterator that has a certain property. For instance, to find the first word in the iterator above that has at least two characters you could write:

scala> val it = Iterator("a""number""of""words")
it: Iterator[java.lang.String] = non-empty iterator
scala> it dropWhile (_.length < 2)
res4: Iterator[java.lang.String] = non-empty iterator
scala> it.next()
res5: java.lang.String = number

Note again that it has changed by the call to dropWhile: it now points to the second word "number" in the list. In fact, it and the result res4 returned by dropWhile will return exactly the same sequence of elements.

There is only one standard operation which allows to re-use the same iterator: The call

val (it1, it2) = it.duplicate

gives you two iterators which each return exactly the same elements as the iterator it. The two iterators work independently; advancing one does not affect the other. By contrast the original iterator it is advanced to its end by duplicate and is thus rendered unusable.

In summary, iterators behave like collections if one never accesses an iterator again after invoking a method on it. The Scala collection libraries make this explicit with an abstraction TraversableOnce, which is a common superclass of Traversable and Iterator. As the name implies, TraversableOnce objects can be traversed using foreach but the state of that object after the traversal is not specified. If the TraversableOnce object is in fact an Iterator, it will be at its end after the traversal, but if it is a Traversable, it will still exist as before. A common use case of TraversableOnce is as an argument type for methods that can take either an iterator or a traversable as argument. An example is the appending method ++ in class Traversable. It takes a TraversableOnce parameter, so you can append elements coming from either an iterator or a traversable collection.

All operations on iterators are summarized in the next table.

Operations in class Iterator  
 

What it is

What it does

Abstract Methods:

it.next() Returns next element on iterator and advances past it.
it.hasNext Returns true if it can return another element.

Variations:

it.buffered A buffered iterator returning all elements of it.

it grouped size

An iterator that yields the elements elements returned by it in fixed-sized sequence "chunks".
xs sliding size An iterator that yields the elements elements returned by it in sequences representing a sliding fixed-sized window.

Duplication:

it.duplicate A pair of iterators that each independently return all elements of it.

Additions:

it ++ jt An iterator returning all elements returned by iterator it, followed by all elements returned by iterator jt.
it padTo (len, x) The iterator that first returns all elements of it and then follows that by copies of x until length len elements are returned overall.

Maps:

it map f The iterator obtained from applying the function f to every element returned from it.
it flatMap f The iterator obtained from applying the iterator-valued function f to every element in it and appending the results.
it collect f The iterator obtained from applying the partial function f to every element in it for which it is defined and collecting the results.

Conversions:

it.toArray Collects the elements returned by it in an array.
it.toList Collects the elements returned by it in a list.
it.toIterable Collects the elements returned by it in an iterable.
it.toSeq Collects the elements returned by it in a sequence.
it.toIndexedSeq Collects the elements returned by it in an indexed sequence.
it.toStream Collects the elements returned by it in a stream.
it.toSet Collects the elements returned by it in a set.
it.toMap Collects the key/value pairs returned by it in a map.
map.

Copying:

it copyToBuffer buf Copies all elements returned by it to buffer buf.
it copyToArray(arr, s, n) Copies at most n elements returned by it to array arr starting at index s. The last two arguments are optional.

Size info:

it.isEmpty Test whether the iterator is empty (opposite of hasNext).
it.nonEmpty Test whether the collection contains elements (alias of hasNext).
it.size The number of elements returned by it. Note: it will be at its end after this operation!
it.length Same as it.size.
it.hasDefiniteSize Returns true if it is known to return finitely many elements (by default the same as isEmpty).

Element retrieval Index Search:

it find p An option containing the first element returned by it that satisfies p, or None is no element qualifies. Note: The iterator advances to after the element, or, if none is found, to the end.
it indexOf x The index of the first element returned by it that equals x. Note: The iterator advances past the position of this element.
it indexWhere p The index of the first element returned by it that satisfies p. Note: The iterator advances past the position of this element.

Subiterators:

it take n An iterator returning of the first n elements of it. Note: it will advance to the position after the n'th element, or to its end, if it contains less than n elements.
it drop n The iterator that starts with the (n+1)'th element of it. Note: it will advance to the same position.
it slice (m,n) The iterator that returns a slice of the elements returned from it, starting with the m'th element and ending before the n'th element.
it takeWhile p An iterator returning elements from it as long as condition p is true.
it dropWhile p An iterator skipping elements from it as long as condition p is true, and returning the remainder.
it filter p An iterator returning all elements from it that satisfy the condition p.
it withFilter p Same as it filter p. Needed so that iterators can be used in for-expressions.
it filterNot p An iterator returning all elements from it that do not satisfy the condition p.

Subdivisions:

it partition p Splits it into a pair of two iterators; one returning all elements from it that satisfy the predicate p, the other returning all elements from it that do not.

Element Conditions:

it forall p A boolean indicating whether the predicate p holds for all elements returned by it.
it exists p A boolean indicating whether the predicate p holds for some element in it.
it count p The number of elements in it that satisfy the predicate p.

Folds:

(z /: it)(op) Apply binary operation op between successive elements returned by it, going left to right and starting with z.
(it :\ z)(op) Apply binary operation op between successive elements returned by it, going right to left and starting with z.
it.foldLeft(z)(op) Same as (z /: it)(op).
it.foldRight(z)(op) Same as (it :\ z)(op).
it reduceLeft op Apply binary operation op between successive elements returned by non-empty iterator it, going left to right.
it reduceRight op Apply binary operation op between successive elements returned by non-empty iterator it, going right to left.

Specific Folds:

it.sum The sum of the numeric element values returned by iterator it.
it.product The product of the numeric element values returned by iterator it.
it.min The minimum of the ordered element values returned by iterator it.
it.max The maximum of the ordered element values returned by iterator it.

Zippers:

it zip jt An iterator of pairs of corresponding elements returned from iterators it and jt.
it zipAll (jt, x, y) An iterator of pairs of corresponding elements returned from iterators it and jt, where the shorter iterator is extended to match the longer one by appending elements x or y.
it.zipWithIndex An iterator of pairs of elements returned from it with their indices.

Update:

it patch (i, jt, r) The iterator resulting from it by replacing r elements starting with i by the patch iterator jt.

Comparison:

it sameElements jt A test whether iterators it and jt return the same elements in the same order. Note: At least one of it and jt will be at its end after this operation.

Strings:

it addString (b, start, sep, end) Adds a string to StringBuilder b which shows all elements returned by it between separators sep enclosed in strings start and end. start,sep, end are all optional.
it mkString (start, sep, end) Converts the collection to a string which shows all elements returned by it between separators sep enclosed in strings start and end. start,sep, end are all optional.

Next:


Creating collections from scratchTopViewsIteratorsContents