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Groovy JDK |
Method Summary | |
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boolean
|
addAll(Object[] items)
Modifies the collection by adding all of the elements in the specified array to the collection. |
boolean
|
asBoolean()
Coerce a collection instance to a boolean value. |
Collection
|
asImmutable()
A convenience method for creating an immutable Collection. |
List
|
asList()
Converts this Collection to a List. |
Collection
|
asSynchronized()
A convenience method for creating a synchronized Collection. |
Object
|
asType(Class clazz)
Converts the given collection to another type. |
List
|
collect(Closure transform)
Iterates through this collection transforming each entry into a new value using the transform closure
returning a list of transformed values.
|
List
|
collect()
Iterates through this collection transforming each entry into a new value using Closure.IDENTITY as a transformer, basically returning a list of items copied from the original collection. |
Collection
|
collect(Collection collector, Closure transform)
Iterates through this collection transforming each value into a new value using the transform closure
and adding it to the supplied collector .
|
List
|
collectAll(Closure transform)
Deprecated alias for collectNested |
Collection
|
collectAll(Collection collector, Closure transform)
Deprecated alias for collectNested |
Map
|
collectEntries(Closure transform)
Iterates through this Collection transforming each item using the transform closure
and returning a map of the resulting transformed entries.
|
Map
|
collectEntries()
A variant of collectEntries for Collections using the identity closure as the transform. |
Map
|
collectEntries(Map collector, Closure transform)
Iterates through this Collection transforming each item using the closure as a transformer into a map entry, returning the supplied map with all of the transformed entries added to it. |
Map
|
collectEntries(Map collector)
A variant of collectEntries for Collections using the identity closure as the transform and a supplied map as the destination of transformed entries. |
List
|
collectMany(Closure projection)
Projects each item from a source collection to a collection and concatenates (flattens) the resulting collections into a single list. |
Collection
|
collectMany(Collection collector, Closure projection)
Projects each item from a source collection to a result collection and concatenates (flattens) the resulting collections adding them into the collector .
|
List
|
collectNested(Closure transform)
Recursively iterates through this collection transforming each non-Collection value into a new value using the closure as a transformer. |
Collection
|
collectNested(Collection collector, Closure transform)
Recursively iterates through this collection transforming each non-Collection value into a new value using the transform closure.
|
List
|
combinations()
Adds GroovyCollections#combinations(Collection) as a method on collections. |
boolean
|
containsAll(Object[] items)
Returns true if this collection contains all of the elements in the specified array. |
Number
|
count(Object value)
Counts the number of occurrences of the given value inside this collection. |
Number
|
count(Closure closure)
Counts the number of occurrences which satisfy the given closure from inside this collection. |
Map
|
countBy(Closure closure)
Sorts all collection members into groups determined by the supplied mapping closure and counts the group size. |
boolean
|
disjoint(Collection right)
Returns true if the intersection of two collections is empty.
|
Iterator
|
eachPermutation(Closure closure)
Iterates over all permutations of a collection, running a closure for each iteration. |
Object
|
find(Closure closure)
Finds the first value matching the closure condition. |
Object
|
find()
Finds the first item matching the IDENTITY Closure (i.e. matching Groovy truth). |
Collection
|
findAll(Closure closure)
Finds all values matching the closure condition. |
Collection
|
findAll()
Finds the items matching the IDENTITY Closure (i.e. matching Groovy truth). |
Object
|
findResult(Object defaultResult, Closure closure)
Iterates through the collection calling the given closure 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. |
Object
|
findResult(Closure closure)
Iterates through the collection calling the given closure 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. |
Collection
|
findResults(Closure filteringTransform)
Iterates through the collection transforming items using the supplied closure and collecting any non-null results. |
Collection
|
flatten()
Flatten a collection. |
Collection
|
flatten(Closure flattenUsing)
Flatten a collection. |
List
|
getAt(String property)
Support the subscript operator for Collection. |
Collection
|
grep(Object filter)
Iterates over the collection of items and returns each item that matches the given filter - calling the Object#isCase
method used by switch statements.
|
Collection
|
grep()
Iterates over the collection returning each element that matches using the IDENTITY Closure as a filter - effectively returning all elements which satisfy Groovy truth. |
Map
|
groupBy(Closure closure)
Sorts all collection members into groups determined by the supplied mapping closure. |
Map
|
groupBy(Object closures)
Sorts all collection members into (sub)groups determined by the supplied mapping closures. |
Map
|
groupBy(List closures)
Sorts all collection members into (sub)groups determined by the supplied mapping closures. |
Object
|
inject(Closure closure)
Performs the same function as the version of inject that takes an initial value, but uses the head of the Collection as the initial value, and iterates over the tail. |
Object
|
inject(Object initialValue, Closure closure)
Iterates through the given Collection, passing in the initial value to the 2-arg closure along with the first item. |
Collection
|
intersect(Collection right)
Create a Collection composed of the intersection of both collections. |
boolean
|
isCase(Object switchValue)
'Case' implementation for collections which tests if the 'switch' operand is contained in any of the 'case' values. |
String
|
join(String separator)
Concatenates the toString() representation of each
item in this collection, with the given String as a separator between
each item.
|
Collection
|
leftShift(Object value)
Overloads the left shift operator to provide an easy way to append objects to a Collection. |
Object
|
max()
Adds max() method to Collection objects. |
Object
|
max(Closure closure)
Selects an item in the collection having the maximum value as determined by the supplied closure. |
Object
|
max(Comparator comparator)
Selects the maximum value found in the collection using the given comparator. |
Object
|
min()
Adds min() method to Collection objects. |
Object
|
min(Comparator comparator)
Selects the minimum value found in the collection using the given comparator. |
Object
|
min(Closure closure)
Selects an item in the collection having the minimum value as determined by the supplied closure. |
List
|
multiply(Number factor)
Create a List composed of the elements of this list, repeated a certain number of times. |
Collection
|
plus(Collection right)
Create a Collection as a union of two collections. |
Collection
|
plus(Iterable right)
Create a Collection as a union of a Collection and an Iterable. |
Collection
|
plus(Object right)
Create a collection as a union of a Collection and an Object. |
boolean
|
removeAll(Object[] items)
Modifies this collection by removing its elements that are contained within the specified object array. |
boolean
|
removeAll(Closure condition)
Modifies this collection by removing the elements that are matched according to the specified closure condition. |
boolean
|
retainAll(Object[] items)
Modifies this collection so that it retains only its elements that are contained in the specified array. |
boolean
|
retainAll(Closure condition)
Modifies this collection so that it retains only its elements that are matched according to the specified closure condition. |
List
|
sort()
Sorts the Collection. |
List
|
sort(boolean mutate)
Sorts the Collection. |
List
|
sort(Comparator comparator)
Sorts the Collection using the given Comparator. |
List
|
sort(boolean mutate, Comparator comparator)
Sorts the Collection using the given Comparator. |
List
|
sort(Closure closure)
Sorts this Collection using the given Closure to determine the correct ordering. |
List
|
sort(boolean mutate, Closure closure)
Sorts this Collection using the given Closure to determine the correct ordering. |
Collection
|
split(Closure closure)
Splits all items into two collections based on the closure condition. |
Object
|
sum()
Sums the items in a collection. |
Object
|
sum(Object initialValue)
Sums the items in a collection, adding the result to some initial value. |
Object
|
sum(Closure closure)
Sums the result of apply a closure to each item of a collection. |
Object
|
sum(Object initialValue, Closure closure)
Sums the result of applying a closure to each item of a collection to some initial value. |
List
|
toList()
Convert a Collection to a List. |
String
|
toListString()
Returns the string representation of the given list. |
String
|
toListString(int maxSize)
Returns the string representation of the given list. |
Set
|
toSet()
Convert a Collection to a Set. |
Collection
|
unique()
Modifies this collection to remove all duplicated items, using the default comparator. |
Collection
|
unique(boolean mutate)
Remove all duplicates from a given Collection using the default comparator. |
Collection
|
unique(Closure closure)
A convenience method for making a collection unique using a Closure to determine duplicate (equal) items. |
Collection
|
unique(boolean mutate, Closure closure)
A convenience method for making a collection unique using a Closure to determine duplicate (equal) items. |
Collection
|
unique(Comparator comparator)
Remove all duplicates from a given Collection. |
Collection
|
unique(boolean mutate, Comparator comparator)
Remove all duplicates from a given Collection. |
Method Detail |
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public boolean addAll(Object[] items)
plus
or the '+' operator if wanting to produce a new collection
containing additional items but while leaving the original collection unchanged.items
- array containing elements to be added to this collection.public boolean asBoolean()
assert [1,2].asBoolean() == true
assert [].asBoolean() == false
public Collection asImmutable()
def mutable = [1,2,3] def immutable = mutable.asImmutable() mutable << 4 try { immutable << 4 assert false } catch (UnsupportedOperationException) { assert true }
public List asList()
Example usage:
assert new HashSet().asList() instanceof List
public Collection asSynchronized()
public Object asType(Class clazz)
clazz
- the desired class.public List collect(Closure transform)
transform
closure
returning a list of transformed values.
assert [2,4,6] == [1,2,3].collect { it * 2 }
transform
- the closure used to transform each item of the collection.public List collect()
assert [1,2,3] == [1,2,3].collect()
public Collection collect(Collection collector, Closure transform)
transform
closure
and adding it to the supplied collector
.
assert [1,2,3] as HashSet == [2,4,5,6].collect(new HashSet()) { (int)(it / 2) }
collector
- the Collection to which the transformed values are added.transform
- the closure used to transform each item of the collection.public List collectAll(Closure transform)
public Collection collectAll(Collection collector, Closure transform)
public Map collectEntries(Closure transform)
transform
closure
and returning a map of the resulting transformed entries.
def letters = "abc" // collect letters with index using list style assert (0..2).collectEntries { index -> [index, letters[index]] } == [0:'a', 1:'b', 2:'c'] // collect letters with index using map style assert (0..2).collectEntries { index -> [(index): letters[index]] } == [0:'a', 1:'b', 2:'c']
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 value.public Map collectEntries()
[key, value]
tuples or a Map.Entry
.
def nums = [1, 10, 100, 1000] def tuples = nums.collect{ [it, it.toString().size()] } assert tuples == [[1, 1], [10, 2], [100, 3], [1000, 4]] def map = tuples.collectEntries() assert map == [1:1, 10:2, 100:3, 1000:4]
public Map collectEntries(Map collector, Closure transform)
def letters = "abc" // collect letters with index assert (0..2).collectEntries( [:] ) { index -> [index, letters[index]] } == [0:'a', 1:'b', 2:'c'] assert (0..2).collectEntries( [4:'d'] ) { index -> [(index+1): letters[index]] } == [1:'a', 2:'b', 3:'c', 4:'d']
collector
- the Map into which the transformed entries are put.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 value.public Map collectEntries(Map collector)
collector
- the Map into which the transformed entries are put.public List collectMany(Closure projection)
def nums = 1..10 def squaresAndCubesOfEvens = nums.collectMany{ it % 2 ? [] : [it**2, it**3] } assert squaresAndCubesOfEvens == [4, 8, 16, 64, 36, 216, 64, 512, 100, 1000] def animals = ['CAT', 'DOG', 'ELEPHANT'] as Set def smallAnimals = animals.collectMany{ it.size() > 3 ? [] : [it.toLowerCase()] } assert smallAnimals == ['cat', 'dog'] def orig = nums as Set def origPlusIncrements = orig.collectMany{ [it, it+1] } assert origPlusIncrements.size() == orig.size() * 2 assert origPlusIncrements.unique().size() == orig.size() + 1
projection
- a projecting Closure returning a collection of items.public Collection collectMany(Collection collector, Closure projection)
collector
.
def animals = ['CAT', 'DOG', 'ELEPHANT'] as Set def smallAnimals = animals.collectMany(['ant', 'bee']){ it.size() > 3 ? [] : [it.toLowerCase()] } assert smallAnimals == ['ant', 'bee', 'cat', 'dog'] def nums = 1..5 def origPlusIncrements = nums.collectMany([] as Set){ [it, it+1] } assert origPlusIncrements.size() == nums.size() + 1
collector
- an initial collection to add the projected items to.projection
- a projecting Closure returning a collection of items.public List collectNested(Closure transform)
assert [2,[4,6],[8],[]] == [1,[2,3],[4],[]].collectNested { it * 2 }
transform
- the closure used to transform each item of the collection.public Collection collectNested(Collection collector, Closure transform)
transform
closure. Returns a potentially nested
collection of transformed values.
def x = [1,[2,3],[4],[]].collectNested(new Vector()) { it * 2 } assert x == [2,[4,6],[8],[]] assert x instanceof Vector
collector
- an initial Collection to which the transformed values are added.transform
- the closure used to transform each element of the collection.public List combinations()
Example usage:
assert [['a', 'b'],[1, 2, 3]].combinations() == [['a', 1], ['b', 1], ['a', 2], ['b', 2], ['a', 3], ['b', 3]]
public boolean containsAll(Object[] items)
items
- array to be checked for containment in this collection.public Number count(Object value)
compareTo(value) == 0
or equals(value)
).
Example usage:
assert [2,4,2,1,3,5,2,4,3].count(4) == 2
value
- the value being searched for.public Number count(Closure closure)
Example usage:
assert [2,4,2,1,3,5,2,4,3].count{ it % 2 == 0 } == 5
closure
- a closure condition.public Map countBy(Closure closure)
Example usage:
assert [0:2, 1:3] == [1,2,3,4,5].countBy { it % 2 }
closure
- a closure mapping items to the frequency keys.public boolean disjoint(Collection right)
true
if the intersection of two collections is empty.
assert [1,2,3].disjoint([3,4,5]) == false
assert [1,2].disjoint([3,4]) == true
right
- a Collection.true
if the intersection of two collections
is empty, false
otherwise.public Iterator eachPermutation(Closure closure)
Example usage:
def permutations = [] [1, 2, 3].eachPermutation{ permutations << it } assert permutations == [[1, 2, 3], [1, 3, 2], [2, 1, 3], [2, 3, 1], [3, 1, 2], [3, 2, 1]]
closure
- the closure to call for each permutation.public Object find(Closure closure)
def list = [1,2,3] assert 2 == list.find { it > 1 }
closure
- a closure condition.public Object find()
Example:
def items = [null, 0, 0.0, false, '', [], 42, 43] assert items.find() == 42
public Collection findAll(Closure closure)
assert [2,4] == [1,2,3,4].findAll { it % 2 == 0 }
closure
- a closure condition.public Collection findAll()
Example:
def items = [1, 2, 0, false, true, '', 'foo', [], [4, 5], null] assert items.findAll() == [1, 2, true, 'foo', [4, 5]]
public Object findResult(Object defaultResult, Closure closure)
Examples:
def list = [1,2,3] assert "Found 2" == list.findResult("default") { it > 1 ? "Found $it" : null } assert "default" == list.findResult("default") { it > 3 ? "Found $it" : null }
defaultResult
- an Object that should be returned if all closure results are null.closure
- a closure that returns a non-null value when processing should stop and a value should be returned.public Object findResult(Closure closure)
Example:
def list = [1,2,3] assert "Found 2" == list.findResult { it > 1 ? "Found $it" : null }
closure
- a closure that returns a non-null value when processing should stop and a value should be returned.public Collection findResults(Closure filteringTransform)
Example:
def list = [1,2,3] def result = list.findResults { it > 1 ? "Found $it" : null } assert result == ["Found 2", "Found 3"]
filteringTransform
- a Closure that should return either a non-null transformed value or null for items which should be discarded.public Collection flatten()
assert [1,2,3,4,5] == [1,[2,3],[[4]],[],5].flatten()
public Collection flatten(Closure flattenUsing)
flattenUsing
- a closure to determine how to flatten non-Array, non-Collection elements.public List getAt(String property)
assert [String, Long, Integer] == ["a",5L,2]["class"]
property
- a String.public Collection grep(Object filter)
Object#isCase
method used by switch statements. This method can be used with different
kinds of filters like regular expressions, classes, ranges etc.
Example:
def list = ['a', 'b', 'aa', 'bc', 3, 4.5] assert list.grep( ~/a+/ ) == ['a', 'aa'] assert list.grep( ~/../ ) == ['aa', 'bc'] assert list.grep( Number ) == [ 3, 4.5 ] assert list.grep{ it.toString().size() == 1 } == [ 'a', 'b', 3 ]
filter
- the filter to perform on each element of the collection (using the Object#isCase method).public Collection grep()
Example:
def items = [1, 2, 0, false, true, '', 'foo', [], [4, 5], null] assert items.grep() == [1, 2, true, 'foo', [4, 5]]
public Map groupBy(Closure closure)
Example usage:
assert [0:[2,4,6], 1:[1,3,5]] == [1,2,3,4,5,6].groupBy { it % 2 }
closure
- a closure mapping entries on keys.public Map groupBy(Object closures)
Example usage:
def result = [1,2,3,4,5,6].groupBy({ it % 2 }, { it < 4 }) assert result == [1:[(true):[1, 3], (false):[5]], 0:[(true):[2], (false):[4, 6]]]Another example:
def sql = groovy.sql.Sql.newInstance(/* ... */) def data = sql.rows("SELECT * FROM a_table").groupBy({ it.column1 }, { it.column2 }, { it.column3 }) if (data.val1.val2.val3) { // there exists a record where: // a_table.column1 == val1 // a_table.column2 == val2, and // a_table.column3 == val3 } else { // there is no such record }If an empty array of closures is supplied the IDENTITY Closure will be used.
closures
- an array of closures, each mapping entries on keys.public Map groupBy(List closures)
Example usage:
def result = [1,2,3,4,5,6].groupBy([{ it % 2 }, { it < 4 }]) assert result == [1:[(true):[1, 3], (false):[5]], 0:[(true):[2], (false):[4, 6]]]Another example:
def sql = groovy.sql.Sql.newInstance(/* ... */) def data = sql.rows("SELECT * FROM a_table").groupBy([{ it.column1 }, { it.column2 }, { it.column3 }]) if (data.val1.val2.val3) { // there exists a record where: // a_table.column1 == val1 // a_table.column2 == val2, and // a_table.column3 == val3 } else { // there is no such record }If an empty list of closures is supplied the IDENTITY Closure will be used.
closures
- a list of closures, each mapping entries on keys.public Object inject(Closure closure)
assert 1 * 2 * 3 * 4 == [ 1, 2, 3, 4 ].inject { acc, val -> acc * val } assert ['b'] == [['a','b'], ['b','c'], ['d','b']].inject { acc, val -> acc.intersect( val ) } LinkedHashSet set = [ 't', 'i', 'm' ] assert 'tim' == set.inject { a, b -> a + b }
closure
- a closure.public Object inject(Object initialValue, Closure closure)
assert 1*1*2*3*4 == [1,2,3,4].inject(1) { acc, val -> acc * val } assert 0+1+2+3+4 == [1,2,3,4].inject(0) { acc, val -> acc + val } assert 'The quick brown fox' == ['quick', 'brown', 'fox'].inject('The') { acc, val -> acc + ' ' + val } assert 'bat' == ['rat', 'bat', 'cat'].inject('zzz') { min, next -> next < min ? next : min } def max = { a, b -> [a, b].max() } def animals = ['bat', 'rat', 'cat'] assert 'rat' == animals.inject('aaa', max)Visual representation of the last example above:
initVal animals[0] v v max('aaa', 'bat') => 'bat' animals[1] v v max('bat', 'rat') => 'rat' animals[2] v v max('rat', 'cat') => 'rat'
initialValue
- some initial value.closure
- a closure.public Collection intersect(Collection right)
assert [4,5] == [1,2,3,4,5].intersect([4,5,6,7,8])
right
- a Collection.public boolean isCase(Object switchValue)
switch( 3 ) { case [1,3,5]: assert true break default: assert false }
switchValue
- the switch value.public String join(String separator)
toString()
representation of each
item in this collection, with the given String as a separator between
each item.
assert "1, 2, 3" == [1,2,3].join(", ")
separator
- a String separator.public Collection leftShift(Object value)
def list = [1,2] list << 3 assert list == [1,2,3]
value
- an Object to be added to the collection..public Object max()
assert 5 == [2,3,1,5,4].max()
public Object max(Closure closure)
assert "hello" == ["hello","hi","hey"].max { it.length() }
assert "hello" == ["hello","hi","hey"].max { a, b -> a.length() <=> b.length() }
def pets = ['dog', 'elephant', 'anaconda'] def longestName = pets.max{ it.size() } // one of 'elephant' or 'anaconda' assert longestName.size() == 8
closure
- a 1 or 2 arg Closure used to determine the correct ordering.public Object max(Comparator comparator)
assert "hello" == ["hello","hi","hey"].max( { a, b -> a.length() <=> b.length() } as Comparator )
comparator
- a Comparator.public Object min()
assert 2 == [4,2,5].min()
public Object min(Comparator comparator)
assert "hi" == ["hello","hi","hey"].min( { a, b -> a.length() <=> b.length() } as Comparator )
comparator
- a Comparator.public Object min(Closure closure)
assert "hi" == ["hello","hi","hey"].min { it.length() }
def lastDigit = { a, b -> a % 10 <=> b % 10 } assert [19, 55, 91].min(lastDigit) == 91
def pets = ['dog', 'cat', 'anaconda'] def shortestName = pets.min{ it.size() } // one of 'dog' or 'cat' assert shortestName.size() == 3
closure
- a 1 or 2 arg Closure used to determine the correct ordering.public List multiply(Number factor)
assert [1,2,3,1,2,3] == [1,2,3] * 2
factor
- the number of times to append.public Collection plus(Collection right)
assert [1,2,3,4] == [1,2] + [3,4]
right
- the right Collection.public Collection plus(Iterable right)
right
- the right Iterable.public Collection plus(Object right)
assert [1,2,3] == [1,2] + 3
right
- an object to add/append.public boolean removeAll(Object[] items)
findAll
and grep
when wanting to produce a new list
containing items which don't match some criteria while leaving the original collection unchanged.items
- array containing elements to be removed from this collection.public boolean removeAll(Closure condition)
findAll
and grep
when wanting to produce a new list
containing items which don't match some criteria while leaving the original collection unchanged.condition
- a closure condition.public boolean retainAll(Object[] items)
grep
and findAll
when wanting to produce a new list
containing items which match some specified items but leaving the original collection unchanged.items
- array containing elements to be retained from this collection.public boolean retainAll(Closure condition)
findAll
and grep
when wanting to produce a new list
containing items which match some criteria but leaving the original collection unchanged.condition
- a closure condition.public List sort()
assert [1,2,3] == [3,1,2].sort()
public List sort(boolean mutate)
assert [1,2,3] == [3,1,2].sort()
def orig = [1, 3, 2] def sorted = orig.sort(false) assert orig == [1, 3, 2] assert sorted == [1, 2, 3]
mutate
- false will always cause a new list to be created, true will mutate lists in place.public List sort(Comparator comparator)
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort( { a, b -> a.length() <=> b.length() } as Comparator )
assert ["hello","Hey","hi"] == ["hello","hi","Hey"].sort(String.CASE_INSENSITIVE_ORDER)
comparator
- a Comparator used for the comparison.public List sort(boolean mutate, Comparator comparator)
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort( { a, b -> a.length() <=> b.length() } as Comparator )
def orig = ["hello","hi","Hey"] def sorted = orig.sort(false, String.CASE_INSENSITIVE_ORDER) assert orig == ["hello","hi","Hey"] assert sorted == ["hello","Hey","hi"]
mutate
- false will always cause a new list to be created, true will mutate lists in place.comparator
- a Comparator used for the comparison.public List sort(Closure closure)
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort { it.length() }
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort { a, b -> a.length() <=> b.length() }
closure
- a 1 or 2 arg Closure used to determine the correct ordering.public List sort(boolean mutate, Closure closure)
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort { it.length() }
assert ["hi","hey","hello"] == ["hello","hi","hey"].sort { a, b -> a.length() <=> b.length() }
def orig = ["hello","hi","Hey"] def sorted = orig.sort(false) { it.toUpperCase() } assert orig == ["hello","hi","Hey"] assert sorted == ["hello","Hey","hi"]
mutate
- false will always cause a new list to be created, true will mutate lists in place.closure
- a 1 or 2 arg Closure used to determine the correct ordering.public Collection split(Closure closure)
Example usage:
assert [[2,4],[1,3]] == [1,2,3,4].split { it % 2 == 0 }
closure
- a closure condition.public Object sum()
assert 1+2+3+4 == [1,2,3,4].sum()
public Object sum(Object initialValue)
assert 5+1+2+3+4 == [1,2,3,4].sum(5)
initialValue
- the items in the collection will be summed to this initial value.public Object sum(Closure closure)
coll.sum(closure)
is equivalent to:
coll.collect(closure).sum()
.
assert 4+6+10+12 == [2,3,5,6].sum() { it * 2 }
closure
- a single parameter closure that returns a numeric value..public Object sum(Object initialValue, Closure closure)
coll.sum(initVal, closure)
is equivalent to:
coll.collect(closure).sum(initVal)
.
assert 50+4+6+10+12 == [2,3,5,6].sum(50) { it * 2 }
closure
- a single parameter closure that returns a numeric value..initialValue
- the closure results will be summed to this initial value.public List toList()
Example usage:
def x = [1,2,3] as HashSet assert x.class == HashSet assert x.toList() instanceof List
public String toListString()
[1, 2, a]
.public String toListString(int maxSize)
[1, 2, a]
.maxSize
- stop after approximately this many characters and append '...'.public Set toSet()
Example usage:
def result = [1, 2, 2, 2, 3].toSet() assert result instanceof Set assert result == [1, 2, 3] as Set
public Collection unique()
assert [1,3] == [1,3,3].unique()
public Collection unique(boolean mutate)
assert [1,3] == [1,3,3].unique()
def orig = [1, 3, 2, 3] def uniq = orig.unique(false) assert orig == [1, 3, 2, 3] assert uniq == [1, 3, 2]
mutate
- false will cause a new list containing unique items from the collection to be created, true will mutate collections in place.public Collection unique(Closure closure)
assert [1,4] == [1,3,4,5].unique { it % 2 }
assert [2,3,4] == [2,3,3,4].unique { a, b -> a <=> b }
closure
- a 1 or 2 arg Closure used to determine unique items.public Collection unique(boolean mutate, Closure closure)
def orig = [1, 3, 4, 5] def uniq = orig.unique(false) { it % 2 } assert orig == [1, 3, 4, 5] assert uniq == [1, 4]
def orig = [2, 3, 3, 4] def uniq = orig.unique(false) { a, b -> a <=> b } assert orig == [2, 3, 3, 4] assert uniq == [2, 3, 4]
mutate
- false will always cause a new list to be created, true will mutate lists in place.closure
- a 1 or 2 arg Closure used to determine unique items.public Collection unique(Comparator comparator)
class Person { def fname, lname String toString() { return fname + " " + lname } } class PersonComparator implements Comparator { int compare(Object o1, Object o2) { Person p1 = (Person) o1 Person p2 = (Person) o2 if (p1.lname != p2.lname) return p1.lname.compareTo(p2.lname) else return p1.fname.compareTo(p2.fname) } boolean equals(Object obj) { return this.equals(obj) } } Person a = new Person(fname:"John", lname:"Taylor") Person b = new Person(fname:"Clark", lname:"Taylor") Person c = new Person(fname:"Tom", lname:"Cruz") Person d = new Person(fname:"Clark", lname:"Taylor") def list = [a, b, c, d] List list2 = list.unique(new PersonComparator()) assert( list2 == list && list == [a, b, c] )
comparator
- a Comparator.public Collection unique(boolean mutate, Comparator comparator)
class Person { def fname, lname String toString() { return fname + " " + lname } } class PersonComparator implements Comparator { int compare(Object o1, Object o2) { Person p1 = (Person) o1 Person p2 = (Person) o2 if (p1.lname != p2.lname) return p1.lname.compareTo(p2.lname) else return p1.fname.compareTo(p2.fname) } boolean equals(Object obj) { return this.equals(obj) } } Person a = new Person(fname:"John", lname:"Taylor") Person b = new Person(fname:"Clark", lname:"Taylor") Person c = new Person(fname:"Tom", lname:"Cruz") Person d = new Person(fname:"Clark", lname:"Taylor") def list = [a, b, c, d] List list2 = list.unique(false, new PersonComparator()) assert( list2 != list && list2 == [a, b, c] )
mutate
- false will always cause a new collection to be created, true will mutate collections in place.comparator
- a Comparator.
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Groovy JDK |