Return type | Name and parameters |
---|---|
boolean
|
any(Closure predicate)
Iterates over the contents of an iterator, and checks whether a predicate is valid for at least one element. |
boolean
|
asBoolean()
Coerce an iterator instance to a boolean value. |
Object
|
average()
Averages the items from an Iterator. |
Object
|
average(Closure closure)
Averages the result of applying a closure to each item returned from an iterator. |
BufferedIterator
|
buffered()
Returns a BufferedIterator that allows examining the next element without
consuming it.
|
List
|
chop(int chopSizes)
Chops the iterator items into pieces, returning lists with sizes corresponding to the supplied chop sizes. |
List
|
collect(Closure transform)
Iterates through this Iterator transforming each item into a new value using the transform closure, returning a list of transformed values.
|
Collection
|
collect(Collection collector, Closure transform)
Iterates through this Iterator transforming each item into a new value using the transform closure
and adding it to the supplied collector .
|
Map
|
collectEntries()
A variant of collectEntries for Iterators using the identity closure as the transform. |
Map
|
collectEntries(Closure transform)
A variant of collectEntries for Iterators. |
Map
|
collectEntries(Map collector)
A variant of collectEntries for Iterators using the identity closure as the transform and a supplied map as the destination of transformed entries. |
Map
|
collectEntries(Map collector, Closure transform)
A variant of collectEntries for Iterators using a supplied map as the destination of transformed entries. |
List
|
collectMany(Closure projection)
Projects each item from a source iterator to a collection and concatenates (flattens) the resulting collections into a single list. |
Number
|
count(Closure closure)
Counts the number of occurrences which satisfy the given closure from the items within this Iterator. |
Number
|
count(Object value)
Counts the number of occurrences of the given value from the items within this Iterator. |
Map
|
countBy(Closure closure)
Sorts all iterator items into groups determined by the supplied mapping closure and counts the group size. |
Iterator
|
drop(int num)
Drops the given number of elements from the head of this iterator if they are available. |
Iterator
|
dropRight(int num)
Drops the given number of elements from the tail of this Iterator. |
Iterator
|
dropWhile(Closure condition)
Creates an Iterator that returns a suffix of the elements from an original Iterator. |
Iterator
|
each(Closure closure)
Iterates through an Iterator, passing each item to the given closure. |
Iterator
|
eachWithIndex(Closure closure)
Iterates through an iterator type, passing each item and the item's index (a counter starting at zero) to the given closure. |
boolean
|
every(Closure predicate)
Used to determine if the given predicate closure is valid (i.e. returns true for all items in this iterator).
|
int
|
findIndexOf(Closure condition)
Iterates over the elements of an Iterator and returns the index of the first item that satisfies the condition specified by the closure. |
int
|
findIndexOf(int startIndex, Closure condition)
Iterates over the elements of an Iterator, starting from a specified startIndex, and returns the index of the first item that satisfies the condition specified by the closure. |
List
|
findIndexValues(Closure condition)
Iterates over the elements of an Iterator and returns the index values of the items that match the condition specified in the closure. |
List
|
findIndexValues(Number startIndex, Closure condition)
Iterates over the elements of an Iterator, starting from a specified startIndex, and returns the index values of the items that match the condition specified in the closure. |
int
|
findLastIndexOf(Closure condition)
Iterates over the elements of an Iterator and returns the index of the last item that matches the condition specified in the closure. |
int
|
findLastIndexOf(int startIndex, Closure condition)
Iterates over the elements of an Iterator, starting from a specified startIndex, and returns the index of the last item that matches the condition specified in the closure. |
Object
|
findResult(Closure condition)
Iterates through the Iterator calling the given closure condition for each item but stopping once the first non-null result is found and returning that result. |
Object
|
findResult(Object defaultResult, Closure condition)
Iterates through the Iterator calling the given closure condition for each item but stopping once the first non-null result is found and returning that result. |
Collection
|
findResults(Closure filteringTransform)
Iterates through the Iterator transforming items using the supplied closure and collecting any non-null results. |
Object
|
getAt(int idx)
Support the subscript operator for an Iterator. |
Iterator
|
indexed()
Zips an iterator with indices in (index, value) order. |
Iterator
|
indexed(int offset)
Zips an iterator with indices in (index, value) order. |
Iterator
|
init()
Returns an Iterator containing all of the items from this iterator except the last one. |
Object
|
inject(Object initialValue, Closure closure)
Iterates through the given Iterator, passing in the initial value to the closure along with the first item. |
Iterator
|
iterator()
An identity function for iterators, supporting 'duck-typing' when trying to get an iterator for each object within a collection, some of which may already be iterators. |
String
|
join(String separator)
Concatenates the toString() representation of each
item from the iterator, with the given String as a separator between
each item.
|
Object
|
max()
Adds max() method to Iterator objects. |
Object
|
max(Closure closure)
Selects the maximum value found from the Iterator using the closure to determine the correct ordering. |
Object
|
max(Comparator comparator)
Selects the maximum value found from the Iterator using the given comparator. |
Object
|
min()
Adds min() method to Iterator objects. |
Object
|
min(Closure closure)
Selects the minimum value found from the Iterator using the closure to determine the correct ordering. |
Object
|
min(Comparator comparator)
Selects the minimum value found from the Iterator using the given comparator. |
Iterator
|
reverse()
Reverses the iterator. |
int
|
size()
Provide the standard Groovy size() method for Iterator .
|
Iterator
|
sort()
Sorts the given iterator items into a sorted iterator. |
Iterator
|
sort(Closure closure)
Sorts the given iterator items into a sorted iterator using the Closure to determine the correct ordering. |
Iterator
|
sort(Comparator comparator)
Sorts the given iterator items into a sorted iterator using the comparator. |
Stream
|
stream()
Returns a sequential Stream with the specified element(s) as its source. |
Object
|
sum()
Sums the items from an Iterator. |
Object
|
sum(Closure closure)
Sums the result of applying a closure to each item returned from an iterator. |
Object
|
sum(Object initialValue)
Sums the items from an Iterator, adding the result to some initial value. |
Object
|
sum(Object initialValue, Closure closure)
Sums the result of applying a closure to each item of an Iterator to some initial value. |
Iterator
|
tail()
Returns the original iterator after throwing away the first element. |
Iterator
|
take(int num)
Returns an iterator of up to the first num elements from this iterator.
|
Iterator
|
takeWhile(Closure condition)
Returns the longest prefix of elements in this iterator where each element passed to the given condition closure evaluates to true. |
List
|
toList()
Convert an iterator to a List. |
Set
|
toSet()
Convert an iterator to a Set. |
Iterator
|
toSorted()
Sorts the Iterator. |
Iterator
|
toSorted(Closure closure)
Sorts the given iterator items into a sorted iterator using the Closure to determine the correct ordering. |
Iterator
|
toSorted(Comparator comparator)
Sorts the given iterator items using the comparator. |
Iterator
|
toUnique()
Returns an iterator equivalent to this iterator with all duplicated items removed by using the natural ordering of the items. |
Iterator
|
toUnique(Closure condition)
Returns an iterator equivalent to this iterator but with all duplicated items removed where duplicate (equal) items are deduced by calling the supplied Closure condition. |
Iterator
|
toUnique(Comparator comparator)
Returns an iterator equivalent to this iterator with all duplicated items removed by using the supplied comparator. |
Iterator
|
unique()
Returns an iterator equivalent to this iterator with all duplicated items removed by using Groovy's default number-aware comparator. |
Iterator
|
unique(Closure condition)
Returns an iterator equivalent to this iterator but with all duplicated items removed by using a Closure to determine duplicate (equal) items. |
Iterator
|
unique(Comparator comparator)
Returns an iterator equivalent to this iterator with all duplicated items removed by using the supplied comparator. |
Iterator
|
withIndex()
Zips an iterator with indices in (value, index) order. |
Iterator
|
withIndex(int offset)
Zips an iterator with indices in (value, index) order. |
Iterates over the contents of an iterator, and checks whether a predicate is valid for at least one element.
assert [1, 2, 3].iterator().any { it == 2 }
assert ![1, 2, 3].iterator().any { it >
3 }
predicate
- the closure predicate used for matchingCoerce an iterator instance to a boolean value. An iterator is coerced to false if there are no more elements to iterate over, and to true otherwise.
Averages the items from an Iterator. This is equivalent to invoking the "plus" method on all items in the array and then dividing by the total count using the "div" method for the resulting sum. The iterator will become exhausted of elements after determining the average value.
Averages the result of applying a closure to each item returned from an iterator.
iter.average(closure)
is equivalent to:
iter.collect(closure).average()
.
The iterator will become exhausted of elements after determining the average value.
closure
- a single parameter closure that returns a (typically) numeric value.Returns a BufferedIterator
that allows examining the next element without
consuming it.
assert [1, 2, 3, 4].iterator().buffered().with { [head(), toList()] } == [1, [1, 2, 3, 4]]
Chops the iterator items into pieces, returning lists with sizes corresponding to the supplied chop sizes. If the iterator is exhausted early, truncated (possibly empty) pieces are returned. Using a chop size of -1 will cause that piece to contain all remaining items from the iterator.
chopSizes
- the sizes for the returned piecesIterates through this Iterator transforming each item into a new value using the
transform
closure, returning a list of transformed values.
transform
- the closure used to transform each itemIterates through this Iterator transforming each item into a new value using the transform
closure
and adding it to the supplied collector
.
collector
- the Collection to which the transformed values are addedtransform
- the closure used to transform each itemA variant of collectEntries for Iterators using the identity closure as the transform.
A variant of collectEntries for Iterators.
transform
- the closure used for transforming, which has an item from self as the parameter and
should return a Map.Entry, a Map or a two-element list containing the resulting key and valueA variant of collectEntries for Iterators using the identity closure as the transform and a supplied map as the destination of transformed entries.
collector
- the Map into which the transformed entries are putA variant of collectEntries for Iterators using a supplied map as the destination of transformed entries.
collector
- the Map into which the transformed entries are puttransform
- the closure used for transforming, which has an item from self as the parameter and
should return a Map.Entry, a Map or a two-element list containing the resulting key and valueProjects each item from a source iterator to a collection and concatenates (flattens) the resulting collections into a single list.
def numsIter = [1, 2, 3, 4, 5, 6].iterator() def squaresAndCubesOfEvens = numsIter.collectMany{ it % 2 ? [] : [it**2, it**3] } assert squaresAndCubesOfEvens == [4, 8, 16, 64, 36, 216]
projection
- a projecting Closure returning a collection of itemsCounts the number of occurrences which satisfy the given closure from the items within this Iterator. The iterator will become exhausted of elements after determining the count value.
Example usage:
assert [2,4,2,1,3,5,2,4,3].toSet().iterator().count{ it % 2 == 0 } == 2
closure
- a closure conditionCounts the number of occurrences of the given value from the
items within this Iterator.
Comparison is done using Groovy's == operator (using
compareTo(value) == 0
or equals(value)
).
The iterator will become exhausted of elements after determining the count value.
value
- the value being searched forSorts all iterator items into groups determined by the supplied mapping closure and counts the group size. The closure should return the key that each item should be grouped by. The returned Map will have an entry for each distinct key returned from the closure, with each value being the frequency of items occurring for that group.
Example usage:
assert [1,2,2,2,3].toSet().iterator().countBy{ it % 2 } == [1:2, 0:1]
closure
- a closure mapping items to the frequency keysDrops the given number of elements from the head of this iterator if they are available.
The original iterator is stepped along by num
elements.
def iteratorCompare( Iterator a, List b ) { a.collect { it } == b } def iter = [ 1, 2, 3, 4, 5 ].listIterator() assert iteratorCompare( iter.drop( 0 ), [ 1, 2, 3, 4, 5 ] ) iter = [ 1, 2, 3, 4, 5 ].listIterator() assert iteratorCompare( iter.drop( 2 ), [ 3, 4, 5 ] ) iter = [ 1, 2, 3, 4, 5 ].listIterator() assert iteratorCompare( iter.drop( 5 ), [] )
num
- the number of elements to drop from this iteratornum
elements if they exist.Drops the given number of elements from the tail of this Iterator.
def getObliterator() { "obliter8".iterator() } assert obliterator.dropRight(-1).toList() == ['o', 'b', 'l', 'i', 't', 'e', 'r', '8'] assert obliterator.dropRight(0).toList() == ['o', 'b', 'l', 'i', 't', 'e', 'r', '8'] assert obliterator.dropRight(1).toList() == ['o', 'b', 'l', 'i', 't', 'e', 'r'] assert obliterator.dropRight(4).toList() == ['o', 'b', 'l', 'i'] assert obliterator.dropRight(7).toList() == ['o'] assert obliterator.dropRight(8).toList() == [] assert obliterator.dropRight(9).toList() == []
num
- the number of elements to dropnum
elements,
or an empty Iterator if it has less then num
elements.Creates an Iterator that returns a suffix of the elements from an original Iterator. As many elements as possible are dropped from the front of the original Iterator such that calling the given closure condition evaluates to true when passed each of the dropped elements.
def a = 0 def iter = [ hasNext:{ a<
10 }, next:{ a++ } ] as Iterator assert [].iterator().dropWhile{ it<
3 }.toList() == [] assert [1, 2, 3, 4, 5].iterator().dropWhile{ it<
3 }.toList() == [ 3, 4, 5 ] assert iter.dropWhile{ it<
5 }.toList() == [ 5, 6, 7, 8, 9 ]
condition
- the closure that must evaluate to true to continue dropping elementsIterates through an Iterator, passing each item to the given closure.
closure
- the closure applied on each element foundIterates through an iterator type, passing each item and the item's index (a counter starting at zero) to the given closure.
closure
- a Closure to operate on each itemUsed to determine if the given predicate closure is valid (i.e. returns
true
for all items in this iterator).
A simple example for a list:
def list = [3,4,5]
def greaterThanTwo = list.iterator().every { it >
2 }
predicate
- the closure predicate used for matchingIterates over the elements of an Iterator and returns the index of the first item that satisfies the condition specified by the closure.
condition
- the matching conditionIterates over the elements of an Iterator, starting from a specified startIndex, and returns the index of the first item that satisfies the condition specified by the closure.
startIndex
- start matching from this indexcondition
- the matching conditionIterates over the elements of an Iterator and returns the index values of the items that match the condition specified in the closure.
condition
- the matching conditionIterates over the elements of an Iterator, starting from a specified startIndex, and returns the index values of the items that match the condition specified in the closure.
startIndex
- start matching from this indexcondition
- the matching conditionIterates over the elements of an Iterator and returns the index of the last item that matches the condition specified in the closure.
condition
- the matching conditionIterates over the elements of an Iterator, starting from a specified startIndex, and returns the index of the last item that matches the condition specified in the closure.
startIndex
- start matching from this indexcondition
- the matching conditionIterates through the Iterator calling the given closure condition for each item but stopping once the first non-null result is found and returning that result. If all results are null, null is returned.
condition
- a closure that returns a non-null value to indicate that processing should stop and the value should be returnedIterates through the Iterator calling the given closure condition for each item but stopping once the first non-null result is found and returning that result. If all are null, the defaultResult is returned.
Examples:
def iter = [1,2,3].iterator() assert "Found 2" == iter.findResult("default") { it>
1 ? "Found $it" : null } assert "default" == iter.findResult("default") { it>
3 ? "Found $it" : null }
defaultResult
- an Object that should be returned if all closure results are nullcondition
- a closure that returns a non-null value to indicate that processing should stop and the value should be returnedIterates through the Iterator transforming items using the supplied closure and collecting any non-null results.
filteringTransform
- a Closure that should return either a non-null transformed value or null for items which should be discardedSupport the subscript operator for an Iterator. The iterator will be partially exhausted up until the idx entry after returning if a +ve or 0 idx is used, or fully exhausted if a -ve idx is used or no corresponding entry was found. Typical usage:
def iter = [2, "a", 5.3].iterator() assert iter[1] == "a"A more elaborate example:
def items = [2, "a", 5.3] def iter = items.iterator() assert iter[-1] == 5.3 // iter exhausted, so reset iter = items.iterator() assert iter[1] == "a" // iter partially exhausted so now idx starts after "a" assert iter[0] == 5.3
idx
- an index value (-self.size() <= idx < self.size())Zips an iterator with indices in (index, value) order.
Example usage:assert [[0, "a"], [1, "b"]] == ["a", "b"].iterator().indexed().collect{ tuple->
[tuple.first, tuple.second] } assert ["0: a", "1: b"] == ["a", "b"].iterator().indexed().collect { idx, str->
"$idx: $str" }.toList()
Zips an iterator with indices in (index, value) order.
Example usage:
assert [[5, "a"], [6, "b"]] == ["a", "b"].iterator().indexed(5).toList()
assert ["a: 1", "b: 2"] == ["a", "b"].iterator().indexed(1).collect { idx, str ->
"$str: $idx" }.toList()
offset
- an index to start fromReturns an Iterator containing all of the items from this iterator except the last one.
def iter = [3, 4, 2].listIterator() def result = iter.init() assert result.toList() == [3, 4]
Iterates through the given Iterator, passing in the initial value to the closure along with the first item. The result is passed back (injected) into the closure along with the second item. The new result is injected back into the closure along with the third item and so on until the Iterator has been expired of values. Also known as foldLeft in functional parlance.
initialValue
- some initial valueclosure
- a closureAn identity function for iterators, supporting 'duck-typing' when trying to get an iterator for each object within a collection, some of which may already be iterators.
Concatenates the toString()
representation of each
item from the iterator, with the given String as a separator between
each item. The iterator will become exhausted of elements after
determining the resulting conjoined value.
separator
- a String separatorAdds max() method to Iterator objects. The iterator will become exhausted of elements after determining the maximum value.
Selects the maximum value found from the Iterator using the closure to determine the correct ordering. The iterator will become exhausted of elements after this operation.
If the closure has two parameters it is used like a traditional Comparator. I.e. it should compare its two parameters for order, returning a negative integer, zero, or a positive integer when the first parameter is less than, equal to, or greater than the second respectively. Otherwise, the Closure is assumed to take a single parameter and return a Comparable (typically an Integer) which is then used for further comparison.
closure
- a Closure used to determine the correct orderingSelects the maximum value found from the Iterator using the given comparator.
comparator
- a ComparatorAdds min() method to Iterator objects. The iterator will become exhausted of elements after determining the minimum value.
Selects the minimum value found from the Iterator using the closure to determine the correct ordering. The iterator will become exhausted of elements after this operation.
If the closure has two parameters it is used like a traditional Comparator. I.e. it should compare its two parameters for order, returning a negative integer, zero, or a positive integer when the first parameter is less than, equal to, or greater than the second respectively. Otherwise, the Closure is assumed to take a single parameter and return a Comparable (typically an Integer) which is then used for further comparison.
closure
- a Closure used to determine the correct orderingSelects the minimum value found from the Iterator using the given comparator.
comparator
- a ComparatorReverses the iterator. The original iterator will become exhausted of elements after determining the reversed values. A new iterator for iterating through the reversed values is returned.
Provide the standard Groovy size()
method for Iterator
.
The iterator will become exhausted of elements after determining the size value.
Sorts the given iterator items into a sorted iterator. The items are assumed to be comparable. The original iterator will become exhausted of elements after completing this method call. A new iterator is produced that traverses the items in sorted order.
Sorts the given iterator items into a sorted iterator using the Closure to determine the correct ordering. The original iterator will be fully processed after the method call.
If the closure has two parameters it is used like a traditional Comparator. I.e. it should compare its two parameters for order, returning a negative integer, zero, or a positive integer when the first parameter is less than, equal to, or greater than the second respectively. Otherwise, the Closure is assumed to take a single parameter and return a Comparable (typically an Integer) which is then used for further comparison.
closure
- a Closure used to determine the correct orderingSorts the given iterator items into a sorted iterator using the comparator. The original iterator will become exhausted of elements after completing this method call. A new iterator is produced that traverses the items in sorted order.
comparator
- a Comparator used for comparing itemsReturns a sequential Stream with the specified element(s) as its source.
[].iterator().stream().toList().isEmpty() ['one', 'two'].iterator().stream().toList() == ['one', 'two']
Sums the items from an Iterator. This is equivalent to invoking the "plus" method on all items from the Iterator. The iterator will become exhausted of elements after determining the sum value.
Sums the result of applying a closure to each item returned from an iterator.
iter.sum(closure)
is equivalent to:
iter.collect(closure).sum()
. The iterator will become
exhausted of elements after determining the sum value.
closure
- a single parameter closure that returns a (typically) numeric value.Sums the items from an Iterator, adding the result to some initial value. This is equivalent to invoking the "plus" method on all items from the Iterator. The iterator will become exhausted of elements after determining the sum value.
initialValue
- the items in the collection will be summed to this initial valueSums the result of applying a closure to each item of an Iterator to some initial value.
iter.sum(initVal, closure)
is equivalent to:
iter.collect(closure).sum(initVal)
. The iterator will become
exhausted of elements after determining the sum value.
closure
- a single parameter closure that returns a (typically) numeric value.initialValue
- the closure results will be summed to this initial valueReturns the original iterator after throwing away the first element.
Returns an iterator of up to the first num
elements from this iterator.
The original iterator is stepped along by num
elements.
def a = 0 def iter = [ hasNext:{ true }, next:{ a++ } ] as Iterator def iteratorCompare( Iterator a, List b ) { a.collect { it } == b } assert iteratorCompare( iter.take( 0 ), [] ) assert iteratorCompare( iter.take( 2 ), [ 0, 1 ] ) assert iteratorCompare( iter.take( 5 ), [ 2, 3, 4, 5, 6 ] )
num
- the number of elements to take from this iteratornum
elements of this iterator.Returns the longest prefix of elements in this iterator where each element passed to the given condition closure evaluates to true.
def a = 0 def iter = [ hasNext:{ true }, next:{ a++ } ] as Iterator assert [].iterator().takeWhile{ it<
3 }.toList() == [] assert [1, 2, 3, 4, 5].iterator().takeWhile{ it<
3 }.toList() == [ 1, 2 ] assert iter.takeWhile{ it<
5 }.toList() == [ 0, 1, 2, 3, 4 ]
condition
- the closure that must evaluate to true to
continue taking elementsConvert an iterator to a List. The iterator will become exhausted of elements after making this conversion.
Convert an iterator to a Set. The iterator will become exhausted of elements after making this conversion.
Sorts the Iterator. Assumes that the Iterator elements are
comparable and uses a NumberAwareComparator to determine the resulting order.
NumberAwareComparator
has special treatment for numbers but otherwise uses the
natural ordering of the Iterator elements.
A new iterator is produced that traverses the items in sorted order.
Sorts the given iterator items into a sorted iterator using the Closure to determine the correct ordering. The original iterator will be fully processed after the method call.
If the closure has two parameters it is used like a traditional Comparator. I.e. it should compare its two parameters for order, returning a negative integer, zero, or a positive integer when the first parameter is less than, equal to, or greater than the second respectively. Otherwise, the Closure is assumed to take a single parameter and return a Comparable (typically an Integer) which is then used for further comparison.
closure
- a Closure used to determine the correct orderingSorts the given iterator items using the comparator. The original iterator will become exhausted of elements after completing this method call. A new iterator is produced that traverses the items in sorted order.
comparator
- a Comparator used for comparing itemsReturns an iterator equivalent to this iterator with all duplicated items removed by using the natural ordering of the items.
Returns an iterator equivalent to this iterator but with all duplicated items removed where duplicate (equal) items are deduced by calling the supplied Closure condition.
If the supplied Closure takes a single parameter, the argument passed will be each element, and the closure should return a value used for comparison (either using Comparable#compareTo(java.lang.Object) or Object#equals(java.lang.Object)). If the closure takes two parameters, two items from the Iterator will be passed as arguments, and the closure should return an int value (with 0 indicating the items are not unique).
def items = "Hello".toList() + [null, null] + "there".toList() def toLower = { it == null ? null : it.toLowerCase() } def noDups = items.iterator().toUnique(toLower).toList() assert noDups == ['H', 'e', 'l', 'o', null, 't', 'r']
assert [1,4] == [1,3,4,5].toUnique { it % 2 }
assert [2,3,4] == [2,3,3,4].toUnique { a, b->
a<=>
b }
condition
- a Closure used to determine unique itemsReturns an iterator equivalent to this iterator with all duplicated items removed by using the supplied comparator.
comparator
- a Comparator used to determine unique (equal) items
If null
, the Comparable natural ordering of the elements will be used.Returns an iterator equivalent to this iterator with all duplicated items removed by using Groovy's default number-aware comparator. The original iterator will become exhausted of elements after determining the unique values. A new iterator for the unique values will be returned.
Returns an iterator equivalent to this iterator but with all duplicated items removed by using a Closure to determine duplicate (equal) items. The original iterator will be fully processed after the call.
If the closure takes a single parameter, the argument passed will be each element, and the closure should return a value used for comparison (either using Comparable#compareTo(java.lang.Object) or Object#equals(java.lang.Object)). If the closure takes two parameters, two items from the Iterator will be passed as arguments, and the closure should return an int value (with 0 indicating the items are not unique).
condition
- a Closure used to determine unique itemsReturns an iterator equivalent to this iterator with all duplicated items removed by using the supplied comparator. The original iterator will be exhausted upon returning.
comparator
- a ComparatorZips an iterator with indices in (value, index) order.
Example usage:
assert [["a", 0], ["b", 1]] == ["a", "b"].iterator().withIndex().toList()
assert ["0: a", "1: b"] == ["a", "b"].iterator().withIndex().collect { str, idx ->
"$idx: $str" }.toList()
Zips an iterator with indices in (value, index) order.
Example usage:
assert [["a", 5], ["b", 6]] == ["a", "b"].iterator().withIndex(5).toList()
assert ["1: a", "2: b"] == ["a", "b"].iterator().withIndex(1).collect { str, idx ->
"$idx: $str" }.toList()
offset
- an index to start from