mucts/collections
Composer 安装命令:
composer require mucts/collections
包简介
Subtree split of the Array Collections component.
README 文档
README
Collection
Collection类提供一个便捷的操作数组的封装。
创建一个新的集合
一个集合可以使用collect()帮助函数基于一个数组被创建 或者直接通过MuCTS\Collections\Collection类实例化。
- 一个非常简单的使用
collect()帮助函数的示例:
$newCollection = collect([1, 2, 3, 4, 5]);
- 求和
sum()
<?php // 例子1 collect([1,2,3])->sum();//6 // 例子2 $list = [ ['name'=>'支付宝','money'=>'10'], ['name'=>'微信','money'=>'10.3'], ]; collect($list)->sum('money');//20.3
- 返回集合中所有的唯一数据项
unique()
$collection = collect([1, 1, 2, 2, 3, 4, 2]); $unique = $collection->unique(); $unique->values()->all();// [1, 2, 3, 4] // 返回的集合保持原来的数组键,在本例中我们使用values方法重置这些键为连续的数字索引。 // 处理嵌套数组或对象时,可以指定用于判断唯一的键 $collection = collect([ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'iPhone 5', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Apple Watch', 'brand' => 'Apple', 'type' => 'watch'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ['name' => 'Galaxy Gear', 'brand' => 'Samsung', 'type' => 'watch'], ]); $unique = $collection->unique('brand'); /* [ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ] */ // 你还可以指定自己的回调用于判断数据项唯一性: $unique = $collection->unique(function ($item) { return $item['brand'].$item['type']; }); $unique->values()->all(); /* [ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Apple Watch', 'brand' => 'Apple', 'type' => 'watch'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ['name' => 'Galaxy Gear', 'brand' => 'Samsung', 'type' => 'watch'], ] */
- 获取集合中给定键对应的所有值
pluck()
$collection = collect([ ['product_id' => 'prod-100', 'name' => 'Desk'], ['product_id' => 'prod-200', 'name' => 'Chair'], ]); $plucked = $collection->pluck('name'); $plucked->all(); // ['Desk', 'Chair'] // 第二个参数为返回数组的键 $plucked = $collection->pluck('name', 'product_id'); $plucked->all(); // ['prod-100' => 'Desk', 'prod-200' => 'Chair']
map(),reject()
使用辅助函数 collect 创建一个新的集合实例,为每一个元素运行 strtoupper 函数,然后移除所有空元素
$collection = collect(['taylor', 'abigail', null])->map(function ($name) { return strtoupper($name); })->reject(function ($name) { return empty($name); });
macro()
不仅可以创建集合,还可以动态的在集合中创建方法
<?php use MuCTS\Collections\Collection; Collection::macro('toUpper', function () { return $this->map(function ($value) { return strtoupper($value); }); }); $collection = collect(['first', 'second']); $upper = $collection->toUpper(); // ['FIRST', 'SECOND']
all()
返回集合表示的底层数组
collect(['a','b','c'])->all(); // [a,b,c]
avg()
返回所有集合项的平均值,别名average()
$average = collect([['foo' => 10], ['foo' => 10], ['foo' => 20], ['foo' => 40]])->avg('foo'); // 20
chunk()
将一个集合分割成多个小尺寸的小集合
$collection = collect([1, 2, 3, 4, 5, 6, 7]); $chunks = $collection->chunk(4); $chunks->toArray(); // [[1, 2, 3, 4], [5, 6, 7]]
collapse()
将一个多维数组集合收缩成一个一维数组
$collection = collect([[1, 2, 3], [4, 5, 6], [7, 8, 9]]); $collapsed = $collection->collapse(); $collapsed->all(); // [1, 2, 3, 4, 5, 6, 7, 8, 9]
combine()
将一个集合的键和另一个数组或集合的值连接起来 例:
$collection = collect(['name', 'age']); $combined = $collection->combine(['George', 29]); $combined->all(); // ['name' => 'George', 'age' => 29]
concat()
用于追加给定数组或集合数据到集合末尾
$collection = collect(['John Doe']); $concatenated = $collection->concat(['Jane Doe'])->concat(['name' => 'Johnny Doe']); $concatenated->all(); // ['John Doe', 'Jane Doe', 'Johnny Doe']
contains
判断集合是否包含一个给定项
$collection = collect(['name' => 'Desk', 'price' => 100]); $collection->contains('Desk'); // true $collection->contains('New York'); // false
你还可以传递一个键值对到 contains 方法,这将会判断给定键值对是否存在于集合中:
$collection = collect([ ['product' => 'Desk', 'price' => 200], ['product' => 'Chair', 'price' => 100], ]); $collection->contains('product', 'Bookcase'); // false
最后,你还可以传递一个回调到 contains 方法来执行自己的真实测试:
$collection = collect([1, 2, 3, 4, 5]); $collection->contains(function ($key, $value) { return $value > 5; }); // false
count()
返回集合中所有项的总数
diff()
将集合和另一个集合或原生PHP数组以基于值的方式作比较,这个方法会返回存在于原来集合而不存在于给定集合的值
$collection = collect([1, 2, 3, 4, 5]); $diff = $collection->diff([2, 4, 6, 8]); $diff->all(); // [1, 3, 5]
diffAssoc()
会基于键值将一个集合和另一个集合或原生 PHP 数组进行比较。该方法返回只存在于第一个集合中的键值对
$collection = collect([ 'color' => 'orange', 'type' => 'fruit', 'remain' => 6 ]); $diff = $collection->diffAssoc([ 'color' => 'yellow', 'type' => 'fruit', 'remain' => 3, 'used' => 6 ]); $diff->all(); // ['color' => 'orange', 'remain' => 6]
diffKeys()
会基于键将一个集合和另一个集合或原生 PHP 数组进行比较。该方法会返回只存在于第一个集合的键值对:
$collection = collect([ 'one' => 10, 'two' => 20, 'three' => 30, 'four' => 40, 'five' => 50, ]); $diff = $collection->diffKeys([ 'two' => 2, 'four' => 4, 'six' => 6, 'eight' => 8, ]); $diff->all(); // ['one' => 10, 'three' => 30, 'five' => 50]
each()
迭代集合中的数据项并传递每个数据项到给定回调:
$collection = $collection->each(function ($item, $key) { // });
如果你想要终止对数据项的迭代,可以从回调返回 false:
$collection = $collection->each(function ($item, $key) { if (/* some condition */) { return false; } });
eachSpread()
eachSpread 方法会迭代集合项,传递每个嵌套数据项值到给定集合:
$collection = collect([['John Doe', 35], ['Jane Doe', 33]]); $collection->eachSpread(function ($name, $age) { // });
你可以通过从回调中返回 false 来停止对集合项的迭代:
$collection->eachSpread(function ($name, $age) { if (/* some condition */) { return false; } });
every()
every 方法可以用于验证集合的所有元素能够通过给定的真理测试:
collect([1, 2, 3, 4])->every(function ($value, $key) { return $value > 2; }); // false
except()
except 方法返回集合中除了指定键的所有集合项:
$collection = collect(['product_id' => 1, 'price' => 100, 'discount' => false]); $filtered = $collection->except(['price', 'discount']); $filtered->all(); // ['product_id' => 1]
only()
与
except相对的是only方法。
$collection = collect(['product_id' => 1, 'price' => 100, 'discount' => false]); $filtered = $collection->only(['price', 'discount']); $filtered->all(); // ['price' => 100, 'discount'=>false]
filter()
filter方法通过给定回调过滤集合,只有通过给定真理测试的数据项才会保留下来:
$collection = collect([1, 2, 3, 4]); $filtered = $collection->filter(function ($value, $key) { return $value > 2; }); $filtered->all(); // [3, 4]
如果没有提供回调,那么集合中所有等价于 false 的项都会被移除:
$collection = collect([1, 2, 3, null, false, '', 0, []]); $collection->filter()->all(); // [1, 2, 3]
和
filter相对的方法是reject
first()
first方法返回通过真理测试集合的第一个元素:
collect([1, 2, 3, 4])->first(function ($value, $key) { return $value > 2; }); // 3
你还可以调用不带参数的
first方法来获取集合的第一个元素,如果集合是空的,返回null:
collect([1, 2, 3, 4])->first(); // 1
firstWhere()
firstWhere 方法会返回集合中的第一个元素,包含键值对:
$collection = collect([ ['name' => 'Regena', 'age' => 12], ['name' => 'Linda', 'age' => 14], ['name' => 'Diego', 'age' => 23], ['name' => 'Linda', 'age' => 84], ]); $collection->firstWhere('name', 'Linda'); // ['name' => 'Linda', 'age' => 14]
还可以调用带操作符的 firstWhere 方法:
$collection->firstWhere('age', '>=', 18); // ['name' => 'Diego', 'age' => 23]
flatMap()
flatMap方法会迭代集合并传递每个值到给定回调,该回调可以自由编辑数据项并将其返回,最后形成一个经过编辑的新集合。然后,这个数组在层级维度被扁平化:
$collection = collect([ ['name' => 'Sally'], ['school' => 'Arkansas'], ['age' => 28] ]); $flattened = $collection->flatMap(function ($values) { return array_map('strtoupper', $values); }); $flattened->all(); // ['name' => 'SALLY', 'school' => 'ARKANSAS', 'age' => '28'];
flatten()
flatten方法将多维度的集合变成一维的:
$collection = collect(['name' => 'taylor', 'languages' => ['php', 'javascript']]); $flattened = $collection->flatten(); $flattened->all(); // ['taylor', 'php', 'javascript'];
还可以选择性传入深度参数:
$collection = collect([ 'Apple' => [ ['name' => 'iPhone 6S', 'brand' => 'Apple'], ], 'Samsung' => [ ['name' => 'Galaxy S7', 'brand' => 'Samsung'] ], ]); $products = $collection->flatten(1); $products->values()->all(); /* [ ['name' => 'iPhone 6S', 'brand' => 'Apple'], ['name' => 'Galaxy S7', 'brand' => 'Samsung'], ] */
在本例中,调用不提供深度的 flatten 方法也会对嵌套数组进行扁平化处理,返回结果是
['iPhone 6S', 'Apple', 'Galaxy S7', 'Samsung']。提供深度允许你严格设置被扁平化的数组层级。
flip()
flip 方法将集合的键值做交换:
$collection = collect(['name' => 'taylor', 'framework' => 'laravel']); $flipped = $collection->flip(); $flipped->all(); // ['taylor' => 'name', 'laravel' => 'framework']
forget()
forget 方法通过键从集合中移除数据项:
$collection = collect(['name' => 'taylor', 'framework' => 'laravel']); $collection->forget('name'); $collection->all(); // [framework' => 'laravel']
注:不同于大多数其他的集合方法,forget 不返回新的修改过的集合;它只修改所调用的集合。
forPage()
forPage方法返回新的包含给定页数数据项的集合。该方法接收页码数作为第一个参数,每页显示数据项数作为第二个参数:
$collection = collect([1, 2, 3, 4, 5, 6, 7, 8, 9]); $chunk = $collection->forPage(2, 3); $chunk->all(); // [4, 5, 6]
get()
get方法返回给定键的数据项,如果对应键不存在,返回null:
$collection = collect(['name' => 'taylor', 'framework' => 'laravel']); $value = $collection->get('name'); // taylor
你可以选择传递默认值作为第二个参数:
$collection = collect(['name' => 'taylor', 'framework' => 'laravel']); $value = $collection->get('foo', 'default-value'); // default-value
你甚至可以传递回调作为默认值,如果给定键不存在的话回调的结果将会返回:
$collection->get('email', function () { return 'default-value'; }); // default-value
groupBy()groupBy方法通过给定键分组集合数据项:
$collection = collect([ ['account_id' => 'account-x10', 'product' => 'Chair'], ['account_id' => 'account-x10', 'product' => 'Bookcase'], ['account_id' => 'account-x11', 'product' => 'Desk'], ]); $grouped = $collection->groupBy('account_id'); $grouped->toArray(); /* [ 'account-x10' => [ ['account_id' => 'account-x10', 'product' => 'Chair'], ['account_id' => 'account-x10', 'product' => 'Bookcase'], ], 'account-x11' => [ ['account_id' => 'account-x11', 'product' => 'Desk'], ], ] */
除了传递字符串key,还可以传递一个回调,回调应该返回分组后的值:
$grouped = $collection->groupBy(function ($item, $key) { return substr($item['account_id'], -3); }); $grouped->toArray(); /* [ 'x10' => [ ['account_id' => 'account-x10', 'product' => 'Chair'], ['account_id' => 'account-x10', 'product' => 'Bookcase'], ], 'x11' => [ ['account_id' => 'account-x11', 'product' => 'Desk'], ], ] */
多个分组条件可以以一个数组的方式传递,每个数组元素都会应用到多维数组中的对应层级:
$data = new Collection([ 10 => ['user' => 1, 'skill' => 1, 'roles' => ['Role_1', 'Role_3']], 20 => ['user' => 2, 'skill' => 1, 'roles' => ['Role_1', 'Role_2']], 30 => ['user' => 3, 'skill' => 2, 'roles' => ['Role_1']], 40 => ['user' => 4, 'skill' => 2, 'roles' => ['Role_2']], ]); $result = $data->groupBy([ 'skill', function ($item) { return $item['roles']; }, ], $preserveKeys = true); /* [ 1 => [ 'Role_1' => [ 10 => ['user' => 1, 'skill' => 1, 'roles' => ['Role_1', 'Role_3']], 20 => ['user' => 2, 'skill' => 1, 'roles' => ['Role_1', 'Role_2']], ], 'Role_2' => [ 20 => ['user' => 2, 'skill' => 1, 'roles' => ['Role_1', 'Role_2']], ], 'Role_3' => [ 10 => ['user' => 1, 'skill' => 1, 'roles' => ['Role_1', 'Role_3']], ], ], 2 => [ 'Role_1' => [ 30 => ['user' => 3, 'skill' => 2, 'roles' => ['Role_1']], ], 'Role_2' => [ 40 => ['user' => 4, 'skill' => 2, 'roles' => ['Role_2']], ], ], ]; */
has()
has方法判断给定键是否在集合中存在:
$collection = collect(['account_id' => 1, 'product' => 'Desk']); $collection->has('email'); // false
implode()
implode方法连接集合中的数据项。其参数取决于集合中数据项的类型。如果集合包含数组或对象,应该传递你想要连接的属性键,以及你想要放在值之间的 “粘合”字符串:
$collection = collect([ ['account_id' => 1, 'product' => 'Desk'], ['account_id' => 2, 'product' => 'Chair'], ]); $collection->implode('product', ', '); // Desk, Chair
如果集合包含简单的字符串或数值,只需要传递“粘合”字符串作为唯一参数到该方法:
collect([1, 2, 3, 4, 5])->implode('-'); // '1-2-3-4-5'
intersect()
intersect方法返回两个集合的交集,结果集合将保留原来集合的键:
$collection = collect(['Desk', 'Sofa', 'Chair']); $intersect = $collection->intersect(['Desk', 'Chair', 'Bookcase']); $intersect->all(); // [0 => 'Desk', 2 => 'Chair']
intersectByKeys()
intersectByKeys方法会从原生集合中移除任意没有在给定数组或集合中出现的键:
$collection = collect([ 'serial' => 'UX301', 'type' => 'screen', 'year' => 2009 ]); $intersect = $collection->intersectByKeys([ 'reference' => 'UX404', 'type' => 'tab', 'year' => 2011 ]); $intersect->all(); // ['type' => 'screen', 'year' => 2009]
isEmpty()
如果集合为空的话
isEmpty方法返回true;否则返回false:
collect([])->isEmpty(); // true
isNotEmpty()
如果集合不为空的话
isNotEmpty方法返回true;否则返回false:
collect([])->isNotEmpty(); // false
keyBy()
keyBy方法将指定键的值作为集合的键,如果多个数据项拥有同一个键,只有最后一个会出现在新集合里面:
$collection = collect([ ['product_id' => 'prod-100', 'name' => 'desk'], ['product_id' => 'prod-200', 'name' => 'chair'], ]); $keyed = $collection->keyBy('product_id'); $keyed->all(); /* [ 'prod-100' => ['product_id' => 'prod-100', 'name' => 'Desk'], 'prod-200' => ['product_id' => 'prod-200', 'name' => 'Chair'], ] */
你还可以传递自己的回调到该方法,该回调将会返回经过处理的键的值作为新的集合键:
$keyed = $collection->keyBy(function ($item) { return strtoupper($item['product_id']); }); $keyed->all(); /* [ 'PROD-100' => ['product_id' => 'prod-100', 'name' => 'Desk'], 'PROD-200' => ['product_id' => 'prod-200', 'name' => 'Chair'], ] */
keys()
keys方法返回所有集合的键:
$collection = collect([ 'prod-100' => ['product_id' => 'prod-100', 'name' => 'Desk'], 'prod-200' => ['product_id' => 'prod-200', 'name' => 'Chair'], ]); $keys = $collection->keys(); $keys->all(); // ['prod-100', 'prod-200']
last()
last方法返回通过真理测试的集合的最后一个元素:
collect([1, 2, 3, 4])->last(function ($value, $key) { return $value < 3; }); // 2
还可以调用无参的 last 方法来获取集合的最后一个元素。如果集合为空。返回 null:
collect([1, 2, 3, 4])->last(); // 4
map()
map方法遍历集合并传递每个值给给定回调。该回调可以修改数据项并返回,从而生成一个新的经过修改的集合:
$collection = collect([1, 2, 3, 4, 5]); $multiplied = $collection->map(function ($item, $key) { return $item * 2; }); $multiplied->all(); // [2, 4, 6, 8, 10]
注:和大多数集合方法一样,map 返回新的集合实例;它并不修改所调用的实例。如果你想要改变原来的集合,使用 transform 方法。
mapInto()
mapInto()方法会迭代集合,通过传递值到构造器来为给定类创建新的实例:
class Currency { /** * Create a new currency instance. * * @param string $code * @return void */ function __construct(string $code) { $this->code = $code; } } $collection = collect(['USD', 'EUR', 'GBP']); $currencies = $collection->mapInto(Currency::class); $currencies->all(); // [Currency('USD'), Currency('EUR'), Currency('GBP')]
mapSpread()
mapSpread方法会迭代集合项,传递每个嵌套集合项值到给定回调。在回调中我们可以修改集合项并将其返回,从而通过修改的值组合成一个新的集合:
$collection = collect([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]); $chunks = $collection->chunk(2); $sequence = $chunks->mapSpread(function ($odd, $even) { return $odd + $even; }); $sequence->all(); // [1, 5, 9, 13, 17]
- mapToGroups()
mapToGroups方法会通过给定回调对集合项进行分组,回调会返回包含单个键值对的关联数组,从而将分组后的值组合成一个新的集合:
$collection = collect([ [ 'name' => 'John Doe', 'department' => 'Sales', ], [ 'name' => 'Jane Doe', 'department' => 'Sales', ], [ 'name' => 'Johnny Doe', 'department' => 'Marketing', ] ]); $grouped = $collection->mapToGroups(function ($item, $key) { return [$item['department'] => $item['name']]; }); $grouped->toArray(); /* [ 'Sales' => ['John Doe', 'Jane Doe'], 'Marketing' => ['Johhny Doe'], ] */ $grouped->get('Sales')->all(); // ['John Doe', 'Jane Doe']
mapWithKeys()
mapWithKeys方法对集合进行迭代并传递每个值到给定回调,该回调会返回包含键值对的关联数组:
$collection = collect([ [ 'name' => 'John', 'department' => 'Sales', 'email' => 'john@example.com' ], [ 'name' => 'Jane', 'department' => 'Marketing', 'email' => 'jane@example.com' ] ]); $keyed = $collection->mapWithKeys(function ($item) { return [$item['email'] => $item['name']]; }); $keyed->all(); /* [ 'john@example.com' => 'John', 'jane@example.com' => 'Jane', ] */
max()
max方法返回集合中给定键的最大值:
$max = collect([['foo' => 10], ['foo' => 20]])->max('foo'); // 20 $max = collect([1, 2, 3, 4, 5])->max(); // 5
median()
median方法会返回给定键的中位数:
$median = collect([['foo' => 10], ['foo' => 10], ['foo' => 20], ['foo' => 40]])->median('foo'); // 15 $median = collect([1, 1, 2, 4])->median(); // 1.5
merge()
merge方法合并给定数组到集合。该数组中的任何字符串键匹配集合中的字符串键的将会重写集合中的值:
$collection = collect(['product_id' => 1, 'name' => 'Desk']); $merged = $collection->merge(['price' => 100, 'discount' => false]); $merged->all(); // ['product_id' => 1, 'name' => 'Desk', 'price' => 100, 'discount' => false]
如果给定数组的键是数字,数组的值将会附加到集合后面:
$collection = collect(['Desk', 'Chair']); $merged = $collection->merge(['Bookcase', 'Door']); $merged->all(); // ['Desk', 'Chair', 'Bookcase', 'Door']
min()
min方法返回集合中给定键的最小值:
$min = collect([['foo' => 10], ['foo' => 20]])->min('foo'); // 10 $min = collect([1, 2, 3, 4, 5])->min(); // 1
mode()
mode方法会返回给定键的众数:
$mode = collect([['foo' => 10], ['foo' => 10], ['foo' => 20], ['foo' => 40]])->mode('foo'); // [10] $mode = collect([1, 1, 2, 4])->mode(); // [1]
nth()
nth方法组合集合中第n-th个元素创建一个新的集合:
$collection = collect(['a', 'b', 'c', 'd', 'e', 'f']); $collection->nth(4); // ['a', 'e']
还可以传递一个 offset(偏移位置)作为第二个参数:
$collection->nth(4, 1); // ['b', 'f']
pad()
pad方法将给定值填充数组直到达到指定的最大长度。该方法和 PHP 函数array_pad类似。
如果你想要把数据填充到左侧,需要指定一个负值长度,如果指定长度绝对值小于等于数组长度那么将不会做任何填充:
$collection = collect(['A', 'B', 'C']); $filtered = $collection->pad(5, 0); $filtered->all(); // ['A', 'B', 'C', 0, 0] $filtered = $collection->pad(-5, 0); $filtered->all(); // [0, 0, 'A', 'B', 'C']
partition()
partition方法可以和 PHP 函数list一起使用,从而将通过真理测试和没通过的分割开来:
$collection = collect([1, 2, 3, 4, 5, 6]); list($underThree, $aboveThree) = $collection->partition(function ($i) { return $i < 3; });
pipe()
pipe方法传递集合到给定回调并返回结果:
$collection = collect([1, 2, 3]); $piped = $collection->pipe(function ($collection) { return $collection->sum(); }); // 6
pluck()
pluck方法为给定键获取所有集合值:
$collection = collect([ ['product_id' => 'prod-100', 'name' => 'Desk'], ['product_id' => 'prod-200', 'name' => 'Chair'], ]); $plucked = $collection->pluck('name'); $plucked->all(); // ['Desk', 'Chair']
还可以指定你想要结果集合如何设置键:
$plucked = $collection->pluck('name', 'product_id'); $plucked->all(); // ['prod-100' => 'Desk', 'prod-200' => 'Chair']
如果存在重复键,最后一个匹配的元素将会插入集合:
$collection = collect([ ['brand' => 'Tesla', 'color' => 'red'], ['brand' => 'Pagani', 'color' => 'white'], ['brand' => 'Tesla', 'color' => 'black'], ['brand' => 'Pagani', 'color' => 'orange'], ]); $plucked = $collection->pluck('color', 'brand'); $plucked->all(); // ['Tesla' => 'black', 'Pagani' => 'orange']
pop()
pop方法移除并返回集合中最后面的数据项:
$collection = collect([1, 2, 3, 4, 5]); $collection->pop(); // 5 $collection->all(); // [1, 2, 3, 4]
prepend()
prepend方法添加数据项到集合开头:
$collection = collect([1, 2, 3, 4, 5]); $collection->prepend(0); $collection->all(); // [0, 1, 2, 3, 4, 5]
你还可以传递第二个参数到该方法用于设置前置项的键:
$collection = collect(['one' => 1, 'two', => 2]); $collection->prepend(0, 'zero'); $collection->all(); // ['zero' => 0, 'one' => 1, 'two', => 2]
pull()
pull方法通过键从集合中移除并返回数据项:
$collection = collect(['product_id' => 'prod-100', 'name' => 'Desk']); $collection->pull('name'); // 'Desk' $collection->all(); // ['product_id' => 'prod-100']
push()
push方法附加数据项到集合结尾:
$collection = collect([1, 2, 3, 4]); $collection->push(5); $collection->all(); // [1, 2, 3, 4, 5]
put()
put方法在集合中设置给定键和值:
$collection = collect(['product_id' => 1, 'name' => 'Desk']); $collection->put('price', 100); $collection->all(); // ['product_id' => 1, 'name' => 'Desk', 'price' => 100]
random()
random方法从集合中返回随机数据项:
$collection = collect([1, 2, 3, 4, 5]); $collection->random();
4 - (retrieved randomly) 你可以传递一个整型数据到 random 函数来指定返回的数据数目,如果该整型数值大于1,将会返回一个集合:
$random = $collection->random(3); $random->all(); // [2, 4, 5] - (retrieved randomly)
reduce()
reduce方法用于减少集合到单个值,传递每个迭代结果到子迭代:
$collection = collect([1, 2, 3]); $total = $collection->reduce(function ($carry, $item) { return $carry + $item; }); // 6
在第一次迭代时 $carry 的值是null;不过,你可以通过传递第二个参数到 reduce 来指定其初始值:
$collection->reduce(function ($carry, $item) { return $carry + $item; }, 4); // 10
reverse()
reverse方法将集合数据项的顺序颠倒:
$collection = collect(['a', 'b', 'c', 'd', 'e']); $reversed = $collection->reverse(); $reversed->all(); /* [ 4 => 'e', 3 => 'd', 2 => 'c', 1 => 'b', 0 => 'a', ] */
search()
search方法为给定值查询集合,如果找到的话返回对应的键,如果没找到,则返回false:
$collection = collect([2, 4, 6, 8]); $collection->search(4); // 1
此外,你还可以传递自己的回调来搜索通过真理测试的第一个数据项:
$collection->search(function ($item, $key) { return $item > 5; }); // 2
shift()
shift方法从集合中移除并返回第一个数据项:
$collection = collect([1, 2, 3, 4, 5]); $collection->shift(); // 1 $collection->all(); // [2, 3, 4, 5]
shuffle()
shuffle方法随机打乱集合中的数据项:
$collection = collect([1, 2, 3, 4, 5]); $shuffled = $collection->shuffle(); $shuffled->all(); // [3, 2, 5, 1, 4] // (随机生成)
slice()
slice方法从给定索引开始返回集合的一个切片:
$collection = collect([1, 2, 3, 4, 5, 6, 7, 8, 9, 10]); $slice = $collection->slice(4); $slice->all(); // [5, 6, 7, 8, 9, 10]
如果你想要限制返回切片的尺寸,将尺寸值作为第二个参数传递到该方法:
$slice = $collection->slice(4, 2); $slice->all(); // [5, 6]
返回的切片有新的、数字化索引的键,如果你想要保持原有的键,可以使用 values 方法对它们进行重新索引。
sort()
sort方法对集合进行排序, 排序后的集合保持原来的数组键,在本例中我们使用values方法重置键为连续编号索引:
$collection = collect([5, 3, 1, 2, 4]); $sorted = $collection->sort(); $sorted->values()->all(); // [1, 2, 3, 4, 5]
如果你需要更加高级的排序,你可以使用自己的算法传递一个回调给 sort 方法。参考 PHP 官方文档关于 uasort 的说明,sort 方法底层正是调用了该方法。
注:要为嵌套集合和对象排序,查看 sortBy 和 sortByDesc 方法。
sortBy()
sortBy方法通过给定键对集合进行排序, 排序后的集合保持原有数组索引,在本例中,使用values方法重置键为连续索引:
$collection = collect([ ['name' => 'Desk', 'price' => 200], ['name' => 'Chair', 'price' => 100], ['name' => 'Bookcase', 'price' => 150], ]); $sorted = $collection->sortBy('price'); $sorted->values()->all(); /* [ ['name' => 'Chair', 'price' => 100], ['name' => 'Bookcase', 'price' => 150], ['name' => 'Desk', 'price' => 200], ] */
你还可以传递自己的回调来判断如何排序集合的值:
$collection = collect([ ['name' => 'Desk', 'colors' => ['Black', 'Mahogany']], ['name' => 'Chair', 'colors' => ['Black']], ['name' => 'Bookcase', 'colors' => ['Red', 'Beige', 'Brown']], ]); $sorted = $collection->sortBy(function ($product, $key) { return count($product['colors']); }); $sorted->values()->all(); /* [ ['name' => 'Chair', 'colors' => ['Black']], ['name' => 'Desk', 'colors' => ['Black', 'Mahogany']], ['name' => 'Bookcase', 'colors' => ['Red', 'Beige', 'Brown']], ] */
sortByDesc()
该方法和
sortBy用法相同,不同之处在于按照相反顺序进行排序。
sortKeys
sortKeys方法通过底层关联数组的键对集合进行排序:
$collection = collect([ 'id' => 22345, 'first' => 'John', 'last' => 'Doe', ]); $sorted = $collection->sortKeys(); $sorted->all(); /* [ 'first' => 'John', 'id' => 22345, 'last' => 'Doe', ] */
sortKeysDesc
该方法和
sortKeys方法方法签名相同,但是排序顺序与其相反。
splice()
splice方法从给定位置开始移除并返回数据项切片:
$collection = collect([1, 2, 3, 4, 5]); $chunk = $collection->splice(2); $chunk->all(); // [3, 4, 5] $collection->all(); // [1, 2]
你可以传递参数来限制返回组块的大小:
$collection = collect([1, 2, 3, 4, 5]); $chunk = $collection->splice(2, 1); $chunk->all(); // [3] $collection->all(); // [1, 2, 4, 5]
此外,你可以传递第三个包含新的数据项的参数来替代从集合中移除的数据项:
$collection = collect([1, 2, 3, 4, 5]); $chunk = $collection->splice(2, 1, [10, 11]); $chunk->all(); // [3] $collection->all(); // [1, 2, 10, 11, 4, 5]
split()
split方法通过给定数值对集合进行分组:
$collection = collect([1, 2, 3, 4, 5]); $groups = $collection->split(3); $groups->toArray(); // [[1, 2], [3, 4], [5]]
sum()
sum方法返回集合中所有数据项的和:
collect([1, 2, 3, 4, 5])->sum(); // 15
如果集合包含嵌套数组或对象,应该传递一个键用于判断对哪些值进行求和运算:
$collection = collect([ ['name' => 'JavaScript: The Good Parts', 'pages' => 176], ['name' => 'JavaScript: The Definitive Guide', 'pages' => 1096], ]); $collection->sum('pages'); // 1272
此外,你还可以传递自己的回调来判断对哪些值进行求和:
$collection = collect([ ['name' => 'Chair', 'colors' => ['Black']], ['name' => 'Desk', 'colors' => ['Black', 'Mahogany']], ['name' => 'Bookcase', 'colors' => ['Red', 'Beige', 'Brown']], ]); $collection->sum(function ($product) { return count($product['colors']); }); // 6
take()
take方法使用指定数目的数据项返回一个新的集合:
$collection = collect([0, 1, 2, 3, 4, 5]); $chunk = $collection->take(3); $chunk->all(); // [0, 1, 2]
你还可以传递负数的方式从集合末尾开始获取指定数目的数据项:
$collection = collect([0, 1, 2, 3, 4, 5]); $chunk = $collection->take(-2); $chunk->all(); // [4, 5]
tap()
tap方法会传递集合到给定回调,从而允许你在指定入口进入集合并对集合项进行处理而不影响集合本身:
collect([2, 4, 3, 1, 5]) ->sort() ->tap(function ($collection) { Log::debug('Values after sorting', $collection->values()->toArray()); }) ->shift(); // 1
times()
通过静态
times()方法可以通过调用指定次数的回调创建一个新的集合:
$collection = Collection::times(10, function ($number) { return $number * 9; }); $collection->all(); // [9, 18, 27, 36, 45, 54, 63, 72, 81, 90]
该方法在和工厂方法一起创建 Eloquent 模型时很有用:
$categories = Collection::times(3, function ($number) { return factory(Category::class)->create(['name' => 'Category #'.$number]); }); $categories->all(); /* [ ['id' => 1, 'name' => 'Category #1'], ['id' => 2, 'name' => 'Category #2'], ['id' => 3, 'name' => 'Category #3'], ] */
toArray()
toArray方法将集合转化为一个原生的 PHP 数组。如果集合的值是Eloquent模型,该模型也会被转化为数组:
$collection = collect(['name' => 'Desk', 'price' => 200]); $collection->toArray(); /* [ ['name' => 'Desk', 'price' => 200], ] */
注:toArray 还将所有嵌套对象转化为数组。如果你想要获取底层数组,使用 all 方法。
toJson()
toJson方法将集合转化为JSON:
$collection = collect(['name' => 'Desk', 'price' => 200]); $collection->toJson(); // '{"name":"Desk","price":200}'
transform()
transform方法迭代集合并对集合中每个数据项调用给定回调。集合中的数据项将会被替代成从回调中返回的值:
$collection = collect([1, 2, 3, 4, 5]); $collection->transform(function ($item, $key) { return $item * 2; }); $collection->all(); // [2, 4, 6, 8, 10]
注意:不同于大多数其它集合方法,transform 修改集合本身,如果你想要创建一个新的集合,使用 map 方法。
union()
union方法添加给定数组到集合,如果给定数组包含已经在原来集合中存在的犍,原生集合的值会被保留:
$collection = collect([1 => ['a'], 2 => ['b']]); $union = $collection->union([3 => ['c'], 1 => ['b']]); $union->all(); // [1 => ['a'], 2 => ['b'], [3 => ['c']]
unique()
unique方法返回集合中所有的唯一数据项, 返回的集合保持原来的数组键,在本例中我们使用values方法重置这些键为连续的数字索引 :
$collection = collect([1, 1, 2, 2, 3, 4, 2]); $unique = $collection->unique(); $unique->values()->all(); // [1, 2, 3, 4]
处理嵌套数组或对象时,可以指定用于判断唯一的键:
$collection = collect([ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'iPhone 5', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Apple Watch', 'brand' => 'Apple', 'type' => 'watch'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ['name' => 'Galaxy Gear', 'brand' => 'Samsung', 'type' => 'watch'], ]); $unique = $collection->unique('brand'); $unique->values()->all(); /* [ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ] */
你还可以指定自己的回调用于判断数据项唯一性:
$unique = $collection->unique(function ($item) { return $item['brand'].$item['type']; }); $unique->values()->all(); /* [ ['name' => 'iPhone 6', 'brand' => 'Apple', 'type' => 'phone'], ['name' => 'Apple Watch', 'brand' => 'Apple', 'type' => 'watch'], ['name' => 'Galaxy S6', 'brand' => 'Samsung', 'type' => 'phone'], ['name' => 'Galaxy Gear', 'brand' => 'Samsung', 'type' => 'watch'], ] */
unique方法在检查数据项值的时候使用「宽松」比较,也就是说一个整型字符串和整型数值被看作是相等的,如果要「严格」比较可以使用uniqueStrict方法。
uniqueStrict()
该方法和
unique方法签名一样,不同之处在于所有值都是「严格」比较。
unless()unless方法会执行给定回调,除非传递到该方法的第一个参数等于true:
$collection = collect([1, 2, 3]); $collection->unless(true, function ($collection) { return $collection->push(4); }); $collection->unless(false, function ($collection) { return $collection->push(5); }); $collection->all(); // [1, 2, 3, 5]
与
unless相对的方法是when。
unwrap()
静态
unwrap方法会从给定值中返回集合项:
Collection::unwrap(collect('John Doe')); // ['John Doe'] Collection::unwrap(['John Doe']); // ['John Doe'] Collection::unwrap('John Doe'); // 'John Doe'
values()
values方法通过将集合键重置为连续整型数字的方式返回新的集合:
$collection = collect([ 10 => ['product' => 'Desk', 'price' => 200], 11 => ['product' => 'Desk', 'price' => 200] ]); $values = $collection->values(); $values->all(); /* [ 0 => ['product' => 'Desk', 'price' => 200], 1 => ['product' => 'Desk', 'price' => 200], ] */
when()
when方法在传入的第一个参数执行结果为true时执行给定回调:
$collection = collect([1, 2, 3]); $collection->when(true, function ($collection) { return $collection->push(4); }); $collection->when(false, function ($collection) { return $collection->push(5); }); $collection->all(); // [1, 2, 3, 4]
与 when 方法相对的是 unless。
where()
where方法通过给定键值对过滤集合:
$collection = collect([ ['product' => 'Desk', 'price' => 200], ['product' => 'Chair', 'price' => 100], ['product' => 'Bookcase', 'price' => 150], ['product' => 'Door', 'price' => 100], ]); $filtered = $collection->where('price', 100); $filtered->all(); /* [ ['product' => 'Chair', 'price' => 100], ['product' => 'Door', 'price' => 100], ] */
检查数据项值时
where方法使用「宽松」比较,也就是说整型字符串和整型数组是等价的。使用whereStrict方法使用「严格」比较进行过滤。
whereStrict()
该方法和
where用法签名一样,不同之处在于,所有值都使用「严格」比较。
whereIn()
whereIn方法通过包含在给定数组中的键值对集合进行过滤:
$collection = collect([ ['product' => 'Desk', 'price' => 200], ['product' => 'Chair', 'price' => 100], ['product' => 'Bookcase', 'price' => 150], ['product' => 'Door', 'price' => 100], ]); $filtered = $collection->whereIn('price', [150, 200]); $filtered->all(); /* [ ['product' => 'Bookcase', 'price' => 150], ['product' => 'Desk', 'price' => 200], ] */
whereIn方法在检查数据项值的时候使用「宽松」比较,要使用「严格」比较可以使用whereInStrict方法。
whereInStrict()
该方法和
whereIn方法签名相同,不同之处在于whereInStrict在比较值的时候使用「严格」比较。
whereInstanceOf
whereInstanceOf方法通过给定类的类型过滤集合:
$collection = collect([ new User, new User, new Post, ]); return $collection->whereInstanceOf(User::class);
whereNotIn()
whereNotIn方法通过给定键值过滤不在给定数组中的集合数据项:
$collection = collect([ ['product' => 'Desk', 'price' => 200], ['product' => 'Chair', 'price' => 100], ['product' => 'Bookcase', 'price' => 150], ['product' => 'Door', 'price' => 100], ]); $filtered = $collection->whereNotIn('price', [150, 200]); $filtered->all(); /* [ ['product' => 'Chair', 'price' => 100], ['product' => 'Door', 'price' => 100], ] */
whereNotIn方法在检查集合项值的时候使用「宽松」比较,也就是说整型字符串和整型数值被看作是相等的。要想进行严格过滤可以使用whereNotInStrict方法。
whereNotInStrict()
该方法和
whereNotIn方法签名一样,不同之处在于所有值都使用「严格」比较。
wrap()
静态
wrap方法会将给定值封装到集合中:
$collection = Collection::wrap('John Doe'); $collection->all(); // ['John Doe'] $collection = Collection::wrap(['John Doe']); $collection->all(); // ['John Doe'] $collection = Collection::wrap(collect('John Doe')); $collection->all(); // ['John Doe']
zip()
zip方法在与集合的值对应的索引处合并给定数组的值:
$collection = collect(['Chair', 'Desk']); $zipped = $collection->zip([100, 200]); $zipped->all(); // [['Chair', 100], ['Desk', 200]]
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其他信息
- 授权协议: MIT
- 更新时间: 2020-08-16