Groovy开发套件-处理集合

处理集合

Groovy为各种集合类型提供本地支持,包括列表, Map或Collection。其中大多数基于Java集合类型,并以Groovy开发工具包中的其他方法修饰。

2.1 List

2.1.1 List语法

您可以如下创建列表。请注意,[]是空列表表达式。

def list = [5, 6, 7, 8]
assert list.get(2) == 7
assert list[2] == 7
assert list instanceof java.util.List

def emptyList = []
assert emptyList.size() == 0
emptyList.add(5)
assert emptyList.size() == 1

每个列表表达式都会创建java.util.List的实现。

当然,列表可以用作构建另一个列表的源:

def list1 = ['a', 'b', 'c']
//construct a new list, seeded with the same items as in list1
def list2 = new ArrayList(list1)

assert list2 == list1 // == checks that each corresponding element is the same

// clone() can also be called
def list3 = list1.clone()
assert list3 == list1

列表是对象的有序集合:

def list = [5, 6, 7, 8]
assert list.size() == 4
assert list.getClass() == ArrayList     // the specific kind of list being used

assert list[2] == 7                     // indexing starts at 0
assert list.getAt(2) == 7               // equivalent method to subscript operator []
assert list.get(2) == 7                 // alternative method

list[2] = 9
assert list == [5, 6, 9, 8,]           // trailing comma OK

list.putAt(2, 10)                       // equivalent method to [] when value being changed
assert list == [5, 6, 10, 8]
assert list.set(2, 11) == 10            // alternative method that returns old value
assert list == [5, 6, 11, 8]

assert ['a', 1, 'a', 'a', 2.5, 2.5f, 2.5d, 'hello', 7g, null, 9 as byte]
//objects can be of different types; duplicates allowed

assert [1, 2, 3, 4, 5][-1] == 5             // use negative indices to count from the end
assert [1, 2, 3, 4, 5][-2] == 4
assert [1, 2, 3, 4, 5].getAt(-2) == 4       // getAt() available with negative index...
try {
    [1, 2, 3, 4, 5].get(-2)                 // but negative index not allowed with get()
    assert false
} catch (e) {
    assert e instanceof IndexOutOfBoundsException
}

2.1.2 以布尔表达式形式列出

assert ![]             // an empty list evaluates as false

//all other lists, irrespective of contents, evaluate as true
assert [1] && ['a'] && [0] && [0.0] && [false] && [null]

2.1.3 迭代列表

通常通过调用each和eachWithIndex方法对列表的元素进行迭代,该方法在列表的每个项目上执行代码:

[1, 2, 3].each {
    println "Item: $it" // `it` is an implicit parameter corresponding to the current element
}
['a', 'b', 'c'].eachWithIndex { it, i -> // `it` is the current element, while `i` is the index
    println "$i: $it"
}

除了迭代之外,通过将其每个元素转换为其他元素来创建新列表通常也很有用。由于以下collect方法,该操作(通常称为映射)在Groovy中完成:

assert [1, 2, 3].collect { it * 2 } == [2, 4, 6]

// shortcut syntax instead of collect
assert [1, 2, 3]*.multiply(2) == [1, 2, 3].collect { it.multiply(2) }

def list = [0]
// it is possible to give `collect` the list which collects the elements
assert [1, 2, 3].collect(list) { it * 2 } == [0, 2, 4, 6]
assert list == [0, 2, 4, 6]

2.1.4 操作清单

筛选和搜索
在Groovy开发套件包含增强的标准集合与务实的方法,其中一些在这里说明集合了很多方法:

assert [1, 2, 3].find { it > 1 } == 2           // find 1st element matching criteria
assert [1, 2, 3].findAll { it > 1 } == [2, 3]   // find all elements matching critieria

assert ['a', 'b', 'c', 'd', 'e'].findIndexOf {      // find index of 1st element matching criteria
    it in ['c', 'e', 'g']
} == 2

assert ['a', 'b', 'c', 'd', 'c'].indexOf('c') == 2  // index returned
assert ['a', 'b', 'c', 'd', 'c'].indexOf('z') == -1 // index -1 means value not in list

assert ['a', 'b', 'c', 'd', 'c'].lastIndexOf('c') == 4

assert [1, 2, 3].every { it < 5 }               // returns true if all elements match the predicate
assert ![1, 2, 3].every { it < 3 }

assert [1, 2, 3].any { it > 2 }                 // returns true if any element matches the predicate
assert ![1, 2, 3].any { it > 3 }

assert [1, 2, 3, 4, 5, 6].sum() == 21                // sum anything with a plus() method

assert ['a', 'b', 'c', 'd', 'e'].sum {
    it == 'a' ? 1 : it == 'b' ? 2 : it == 'c' ? 3 : it == 'd' ? 4 : it == 'e' ? 5 : 0
    // custom value to use in sum
} == 15

assert ['a', 'b', 'c', 'd', 'e'].sum { ((char) it) - ((char) 'a') } == 10
assert ['a', 'b', 'c', 'd', 'e'].sum() == 'abcde'
assert [['a', 'b'], ['c', 'd']].sum() == ['a', 'b', 'c', 'd']

// an initial value can be provided
assert [].sum(1000) == 1000
assert [1, 2, 3].sum(1000) == 1006

assert [1, 2, 3].join('-') == '1-2-3'           // String joining

assert [1, 2, 3].inject('counting: ') {
    str, item -> str + item                     // reduce operation
} == 'counting: 123'

assert [1, 2, 3].inject(0) { count, item ->
    count + item
} == 6

以下是惯用的Groovy代码,用于查找集合中的最大值和最小值:

def list = [9, 4, 2, 10, 5]
assert list.max() == 10
assert list.min() == 2

// we can also compare single characters, as anything comparable
assert ['x', 'y', 'a', 'z'].min() == 'a'

// we can use a closure to specify the sorting behaviour
def list2 = ['abc', 'z', 'xyzuvw', 'Hello', '321']
assert list2.max { it.size() } == 'xyzuvw'
assert list2.min { it.size() } == 'z'

除闭包外,您还可以使用aComparator定义比较条件:

Comparator mc = { a, b -> a == b ? 0 : (a < b ? -1 : 1) }

def list = [7, 4, 9, -6, -1, 11, 2, 3, -9, 5, -13]
assert list.max(mc) == 11
assert list.min(mc) == -13

Comparator mc2 = { a, b -> a == b ? 0 : (Math.abs(a) < Math.abs(b)) ? -1 : 1 }


assert list.max(mc2) == -13
assert list.min(mc2) == -1

assert list.max { a, b -> a.equals(b) ? 0 : Math.abs(a) < Math.abs(b) ? -1 : 1 } == -13
assert list.min { a, b -> a.equals(b) ? 0 : Math.abs(a) < Math.abs(b) ? -1 : 1 } == -1

添加或删除元素
我们可以[]用来分配一个新的空列表并向<<其添加项目:

def list = []
assert list.empty

list << 5
assert list.size() == 1

list << 7 << 'i' << 11
assert list == [5, 7, 'i', 11]

list << ['m', 'o']
assert list == [5, 7, 'i', 11, ['m', 'o']]

//first item in chain of << is target list
assert ([1, 2] << 3 << [4, 5] << 6) == [1, 2, 3, [4, 5], 6]

//using leftShift is equivalent to using <<
assert ([1, 2, 3] << 4) == ([1, 2, 3].leftShift(4))

我们可以通过多种方式添加到列表中:

assert [1, 2] + 3 + [4, 5] + 6 == [1, 2, 3, 4, 5, 6]
// equivalent to calling the `plus` method
assert [1, 2].plus(3).plus([4, 5]).plus(6) == [1, 2, 3, 4, 5, 6]

def a = [1, 2, 3]
a += 4      // creates a new list and assigns it to `a`
a += [5, 6]
assert a == [1, 2, 3, 4, 5, 6]

assert [1, *[222, 333], 456] == [1, 222, 333, 456]
assert [*[1, 2, 3]] == [1, 2, 3]
assert [1, [2, 3, [4, 5], 6], 7, [8, 9]].flatten() == [1, 2, 3, 4, 5, 6, 7, 8, 9]

def list = [1, 2]
list.add(3)
list.addAll([5, 4])
assert list == [1, 2, 3, 5, 4]

list = [1, 2]
list.add(1, 3) // add 3 just before index 1
assert list == [1, 3, 2]

list.addAll(2, [5, 4]) //add [5,4] just before index 2
assert list == [1, 3, 5, 4, 2]

list = ['a', 'b', 'z', 'e', 'u', 'v', 'g']
list[8] = 'x' // the [] operator is growing the list as needed
// nulls inserted if required
assert list == ['a', 'b', 'z', 'e', 'u', 'v', 'g', null, 'x']

但是,重要的是列表上的运算符+不要变异。与<<相比,它将创建一个新列表,这通常不是您想要的,并且可能导致性能问题。

在Groovy开发套件还包含让您轻松通过值删除列表中的元素的方法:

assert ['a','b','c','b','b'] - 'c' == ['a','b','b','b']
assert ['a','b','c','b','b'] - 'b' == ['a','c']
assert ['a','b','c','b','b'] - ['b','c'] == ['a']

def list = [1,2,3,4,3,2,1]
list -= 3           // creates a new list by removing `3` from the original one
assert list == [1,2,4,2,1]
assert ( list -= [2,4] ) == [1,1]

也可以通过将元素的索引传递给remove方法来删除元素,在这种情况下,列表会发生突变:

def list = ['a','b','c','d','e','f','b','b','a']
assert list.remove(2) == 'c'        // remove the third element, and return it
assert list == ['a','b','d','e','f','b','b','a']

如果您只想删除列表中具有相同值的第一个元素,而不是删除所有元素,则可以调用remove传递值的方法:

def list= ['a','b','c','b','b']
assert list.remove('c')             // remove 'c', and return true because element removed
assert list.remove('b')             // remove first 'b', and return true because element removed

assert ! list.remove('z')           // return false because no elements removed
assert list == ['a','b','b']

如您所见,有两种remove可用的方法。一个使用整数并通过其索引删除元素,另一个将删除与传递的值匹配的第一个元素。那么,当我们有一个整数列表时该怎么办?在这种情况下,您可能希望使用removeAt通过索引删除元素,并removeElement删除与值匹配的第一个元素。

def list = [1,2,3,4,5,6,2,2,1]

assert list.remove(2) == 3          // this removes the element at index 2, and returns it
assert list == [1,2,4,5,6,2,2,1]

assert list.removeElement(2)        // remove first 2 and return true
assert list == [1,4,5,6,2,2,1]

assert ! list.removeElement(8)      // return false because 8 is not in the list
assert list == [1,4,5,6,2,2,1]

assert list.removeAt(1) == 4        // remove element at index 1, and return it
assert list == [1,5,6,2,2,1]

当然,removeAt并且removeElement可以使用任何类型的列表。

此外,可以通过调用以下clear方法来删除列表中的所有元素:

def list= ['a',2,'c',4]
list.clear()
assert list == []

设定操作

assert 'a' in ['a','b','c']             // returns true if an element belongs to the list
assert ['a','b','c'].contains('a')      // equivalent to the `contains` method in Java
assert [1,3,4].containsAll([1,4])       // `containsAll` will check that all elements are found

assert [1,2,3,3,3,3,4,5].count(3) == 4  // count the number of elements which have some value
assert [1,2,3,3,3,3,4,5].count {
    it%2==0                             // count the number of elements which match the predicate
} == 2

assert [1,2,4,6,8,10,12].intersect([1,3,6,9,12]) == [1,6,12]

assert [1,2,3].disjoint( [4,6,9] )
assert ![1,2,3].disjoint( [2,4,6] )

排序
使用集合通常意味着排序。Groovy提供了各种选项来对列表进行排序,从使用闭包到比较器,如以下示例所示:

assert [6, 3, 9, 2, 7, 1, 5].sort() == [1, 2, 3, 5, 6, 7, 9]

def list = ['abc', 'z', 'xyzuvw', 'Hello', '321']
assert list.sort {
    it.size()
} == ['z', 'abc', '321', 'Hello', 'xyzuvw']

def list2 = [7, 4, -6, -1, 11, 2, 3, -9, 5, -13]
assert list2.sort { a, b -> a == b ? 0 : Math.abs(a) < Math.abs(b) ? -1 : 1 } ==
        [-1, 2, 3, 4, 5, -6, 7, -9, 11, -13]

Comparator mc = { a, b -> a == b ? 0 : Math.abs(a) < Math.abs(b) ? -1 : 1 }

// JDK 8+ only
// list2.sort(mc)
// assert list2 == [-1, 2, 3, 4, 5, -6, 7, -9, 11, -13]

def list3 = [6, -3, 9, 2, -7, 1, 5]

Collections.sort(list3)
assert list3 == [-7, -3, 1, 2, 5, 6, 9]

Collections.sort(list3, mc)
assert list3 == [1, 2, -3, 5, 6, -7, 9]

复制元素

在Groovy开发套件还利用运算符重载提供允许列表中元素的复制方法的:

assert [1, 2, 3] * 3 == [1, 2, 3, 1, 2, 3, 1, 2, 3]
assert [1, 2, 3].multiply(2) == [1, 2, 3, 1, 2, 3]
assert Collections.nCopies(3, 'b') == ['b', 'b', 'b']

// nCopies from the JDK has different semantics than multiply for lists
assert Collections.nCopies(2, [1, 2]) == [[1, 2], [1, 2]] //not [1,2,1,2]

2.2 Map

2.2.1 Map语法

在Groovy中,可以使用Map语法创建Map(也称为关联数组)[:]:

def map = [name: 'Gromit', likes: 'cheese', id: 1234]
assert map.get('name') == 'Gromit'
assert map.get('id') == 1234
assert map['name'] == 'Gromit'
assert map['id'] == 1234
assert map instanceof java.util.Map

def emptyMap = [:]
assert emptyMap.size() == 0
emptyMap.put("foo", 5)
assert emptyMap.size() == 1
assert emptyMap.get("foo") == 5

映射键默认为字符串:[a:1]等效于['a':1]。如果您定义一个名为的变量a,并且希望将其值作为a映射中的键,则可能会造成混淆。如果是这种情况,则必须通过添加括号对键进行转义,如以下示例所示:

def a = 'Bob'
def ages = [a: 43]
assert ages['Bob'] == null // `Bob` is not found
assert ages['a'] == 43     // because `a` is a literal!

ages = [(a): 43]            // now we escape `a` by using parenthesis
assert ages['Bob'] == 43   // and the value is found!

2.2.2 Map属性

Map也像bean一样,因此Map只要键是有效的Groovy标识符的字符串,就可以使用属性表示法来获取/设置其中的项目:

def map = [name: 'Gromit', likes: 'cheese', id: 1234]
assert map.name == 'Gromit'     // can be used instead of map.get('name')
assert map.id == 1234

def emptyMap = [:]
assert emptyMap.size() == 0
emptyMap.foo = 5
assert emptyMap.size() == 1
assert emptyMap.foo == 5

注意:根据设计,map.foo它将始终在Map中寻找foo。这意味着在一个不包含class键的Map foo上,foo.class将返回null。如果您真的想了解该类,则必须使用getClass():

def map = [name: 'Gromit', likes: 'cheese', id: 1234]
assert map.class == null
assert map.get('class') == null
assert map.getClass() == LinkedHashMap // this is probably what you want

2.2.3 在Map上迭代

Map上的惯用迭代使用each和eachWithIndex方法。值得注意的是,使用Map语法创建的Map是有序的,也就是说,如果您对Map条目进行迭代,则可以确保返回的条目将与添加到Map中的顺序相同。

def map = [
        Bob  : 42,
        Alice: 54,
        Max  : 33
]

// `entry` is a map entry
map.each { entry ->
    println "Name: $entry.key Age: $entry.value"
}

// `entry` is a map entry, `i` the index in the map
map.eachWithIndex { entry, i ->
    println "$i - Name: $entry.key Age: $entry.value"
}

// Alternatively you can use key and value directly
map.each { key, value ->
    println "Name: $key Age: $value"
}

// Key, value and i as the index in the map
map.eachWithIndex { key, value, i ->
    println "$i - Name: $key Age: $value"
}

2.2.4 操纵Map

添加或删除元素
将一个元素增加到一个Map可以使用put来完成,或使用putAll方法:

def defaults = [1: 'a', 2: 'b', 3: 'c', 4: 'd']
def overrides = [2: 'z', 5: 'x', 13: 'x']

def result = new LinkedHashMap(defaults)
result.put(15, 't')
result[17] = 'u'
result.putAll(overrides)
assert result == [1: 'a', 2: 'z', 3: 'c', 4: 'd', 5: 'x', 13: 'x', 15: 't', 17: 'u']

可以通过调用clear方法来删除Map的所有元素:

def m = [1:'a', 2:'b']
assert m.get(1) == 'a'
m.clear()
assert m == [:]

使用Map语法生成的Map使用对象equals和hashcode方法。这意味着您永远不要使用hashcode随时间变化的对象,否则您将无法找回关联的值。

还值得注意的是,永远不要将GString用作Map的键​​,因为GString 的hashcode与String等效项的hashcode不同:

def key = 'some key'
def map = [:]
def gstringKey = "${key.toUpperCase()}"
map.put(gstringKey,'value')
assert map.get('SOME KEY') == null

筛选和搜索

def people = [
    1: [name:'Bob', age: 32, gender: 'M'],
    2: [name:'Johnny', age: 36, gender: 'M'],
    3: [name:'Claire', age: 21, gender: 'F'],
    4: [name:'Amy', age: 54, gender:'F']
]

def bob = people.find { it.value.name == 'Bob' } // find a single entry
def females = people.findAll { it.value.gender == 'F' }

// both return entries, but you can use collect to retrieve the ages for example
def ageOfBob = bob.value.age
def agesOfFemales = females.collect {
    it.value.age
}

assert ageOfBob == 32
assert agesOfFemales == [21,54]

// but you could also use a key/pair value as the parameters of the closures
def agesOfMales = people.findAll { id, person ->
    person.gender == 'M'
}.collect { id, person ->
    person.age
}
assert agesOfMales == [32, 36]

// `every` returns true if all entries match the predicate
assert people.every { id, person ->
    person.age > 18
}

// `any` returns true if any entry matches the predicate

assert people.any { id, person ->
    person.age == 54
}

分组

我们可以使用一些条件将列表分组到Map中:

assert ['a', 7, 'b', [2, 3]].groupBy {
    it.class
} == [(String)   : ['a', 'b'],
      (Integer)  : [7],
      (ArrayList): [[2, 3]]
]

assert [
        [name: 'Clark', city: 'London'], [name: 'Sharma', city: 'London'],
        [name: 'Maradona', city: 'LA'], [name: 'Zhang', city: 'HK'],
        [name: 'Ali', city: 'HK'], [name: 'Liu', city: 'HK'],
].groupBy { it.city } == [
        London: [[name: 'Clark', city: 'London'],
                 [name: 'Sharma', city: 'London']],
        LA    : [[name: 'Maradona', city: 'LA']],
        HK    : [[name: 'Zhang', city: 'HK'],
                 [name: 'Ali', city: 'HK'],
                 [name: 'Liu', city: 'HK']],
]

2.3 Range

用..符号定义的范围包括所有范围(即列表包含from和to值)。
用..<符号定义的范围是半开的,它们包括第一个值,但不包括最后一个值。

// an inclusive range
def range = 5..8
assert range.size() == 4
assert range.get(2) == 7
assert range[2] == 7
assert range instanceof java.util.List
assert range.contains(5)
assert range.contains(8)

// lets use a half-open range
range = 5..<8
assert range.size() == 3
assert range.get(2) == 7
assert range[2] == 7
assert range instanceof java.util.List
assert range.contains(5)
assert !range.contains(8)

//get the end points of the range without using indexes
range = 1..10
assert range.from == 1
assert range.to == 10

请注意,有效地实现了int范围,从而创建了一个包含from和to值的轻量级Java对象。

范围可用于实现java.lang.Comparable的任何Java对象进行比较,并具有方法next()并previous()返回范围中的下一个/上一个项目。例如,您可以创建一系列String元素:

// an inclusive range
def range = 'a'..'d'
assert range.size() == 4
assert range.get(2) == 'c'
assert range[2] == 'c'
assert range instanceof java.util.List
assert range.contains('a')
assert range.contains('d')
assert !range.contains('e')

您可以使用经典for循环在范围上进行迭代:

for (i in 1..10) {
    println "Hello ${i}"
}

但您也可以通过使用each方法迭代范围来以更Groovy惯用的风格实现相同的效果:

(1..10).each { i ->
    println "Hello ${i}"
}

范围也可以在switch语句中使用:

switch (years) {
    case 1..10: interestRate = 0.076; break;
    case 11..25: interestRate = 0.052; break;
    default: interestRate = 0.037;
}

2.4 集合的语法增强

2.4.3 “ *”算子

“星点”运算符是一种快捷方式运算符,它允许您在集合的所有元素上调用方法或属性:

assert [1, 3, 5] == ['a', 'few', 'words']*.size()

class Person {
    String name
    int age
}
def persons = [new Person(name:'Hugo', age:17), new Person(name:'Sandra',age:19)]
assert [17, 19] == persons*.age

2.4.4 下标切片运算符
您可以使用下标表达式索引到列表,数组,Map中。有趣的是,在这种情况下,字符串被视为特殊的集合:

def text = 'nice cheese gromit!'
def x = text[2]

assert x == 'c'
assert x.class == String

def sub = text[5..10]
assert sub == 'cheese'

def list = [10, 11, 12, 13]
def answer = list[2,3]
assert answer == [12,13]

请注意,您可以使用Range来提取集合的一部分:

list = 100..200
sub = list[1, 3, 20..25, 33]
assert sub == [101, 103, 120, 121, 122, 123, 124, 125, 133]

下标运算符可用于更新现有集合(对于不可变的集合类型):

list = ['a','x','x','d']
list[1..2] = ['b','c']
assert list == ['a','b','c','d']

值得注意的是,允许使用负索引从集合的末尾更轻松地提取:

text = "nice cheese gromit!"
x = text[-1]
assert x == "!"

您可以使用负索引从列表,数组,字符串等的末尾开始计数。

def name = text[-7..-2]
assert name == "gromit"

最终,如果您使用向后范围(起始索引大于终止索引),则答案将相反。

text = "nice cheese gromit!"
name = text[3..1]
assert name == "eci"

2.5 增强的Clollection方法

除了列表,Map或Range,Groovy还提供了许多其他过滤,收集,分组,计数等方法,这些方法可以直接在集合上或更容易迭代的方式上使用。

我们邀请您阅读Groovy开发套件 API文档,尤其是:

  • 添加的方法Iterable可以在这里找到

  • 添加的方法Iterator可以在这里找到

  • 添加的方法Collection可以在这里找到

  • 添加的方法List可以在这里找到

  • 添加的方法Map可以在这里找到

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