Scala';符号运算符是什么意思?
Scala语法有很多符号。由于使用搜索引擎很难找到这些类型的名称,因此列出一个完整的名称列表会很有帮助 Scala中的所有符号都是什么,它们各自做什么 特别是,我想知道关于Scala';符号运算符是什么意思?,scala,operators,Scala,Operators,Scala语法有很多符号。由于使用搜索引擎很难找到这些类型的名称,因此列出一个完整的名称列表会很有帮助 Scala中的所有符号都是什么,它们各自做什么 特别是,我想知道关于->,|124;=,++=,Scala和其他语言之间的一个区别(很好,IMO)是,它允许您使用几乎任何字符来命名方法 您列举的不是“标点符号”,而是简单明了的方法,因此它们的行为因对象而异(尽管有一些约定) 例如,检查,您将看到这里提到的一些方法 要记住的一些事情: 大多数情况下,A运算符+equal B组合转换为A=A运算
->|124;=++=Scala和其他语言之间的一个区别(很好,IMO)是,它允许您使用几乎任何字符来命名方法
您列举的不是“标点符号”,而是简单明了的方法,因此它们的行为因对象而异(尽管有一些约定)
例如,检查,您将看到这里提到的一些方法
要记住的一些事情:
- 大多数情况下,
A运算符+equal B
组合转换为A=A运算符B
,如|124;=
或+=
示例中所示
- 以
:
结尾的方法是右关联的,这意味着A::B
实际上是B.::(A)
浏览Scala文档可以找到大多数答案。在这里保留一个引用会重复工作,而且很快就会落后:)您可以根据一些标准首先对这些引用进行分组。在这篇文章中,我将只解释下划线字符和右箭头
。
包含一个句点。Scala中的句点始终表示方法调用。所以周期的左边是接收者,右边是消息(方法名)。现在,\uu
是Scala中的一个特殊符号。有几篇关于它的帖子,例如所有用例。这里是一个匿名函数的快捷方式,它是一个函数的快捷方式,该函数接受一个参数并调用其上的方法。现在\uu
不是一个有效的方法,因此您肯定看到了.\u1
或类似的内容,即调用函数参数上的方法.\u1
\u1
到\u22
是元组的方法,用于提取元组的特定元素。例如:
val tup = ("Hallo", 33)
tup._1 // extracts "Hallo"
tup._2 // extracts 33
现在让我们假设函数应用程序快捷方式的一个用例。给定一个将整数映射到字符串的映射:
val coll = Map(1 -> "Eins", 2 -> "Zwei", 3 -> "Drei")
哇,又出现了一个奇怪的标点符号。连字符和大于字符类似于右侧箭头
,是一个生成。因此,编写(1,“Eins”)
或1->“Eins”
的结果没有区别,只是后者更容易阅读,特别是在像map示例这样的元组列表中。->
并不是魔术,它和其他一些操作符一样,是可用的,因为在作用域中的对象中有所有隐式转换。这里发生的转换是
implicit def any2ArrowAssoc [A] (x: A): ArrowAssoc[A]
其中ArrowAssoc
具有创建元组2
的->
方法。因此,1->“Eins”
是实际调用Predef.any2ArrowAssoc(1)。->(“Eins”)
。好啊现在回到带下划线的原始问题:
// lets create a sequence from the map by returning the
// values in reverse.
coll.map(_._2.reverse) // yields List(sniE, iewZ, ierD)
下面的下划线缩短了以下等效代码:
coll.map(tup => tup._2.reverse)
请注意,map的map
方法将key和value的元组传递给函数参数。因为我们只对值(字符串)感兴趣,所以我们使用元组上的\u 2
方法提取它们。关于:
还有一个条目涉及:
案例。简而言之,它用于通过“考虑头元素和尾列表”来构造列表。它既是一个表示约束列表的方法,又可以用作提取器,但最常见的是它是列表上的一个方法。正如Pablo Fernandez指出的,由于它以冒号结尾,因此它是右关联的,这意味着方法调用的接收者在右边,参数在操作符的左边。通过这种方式,您可以优雅地将“考虑”表示为在现有列表中预先添加一个新的head元素:
val x = 2 :: 3 :: Nil // same result as List(2, 3)
val y = 1 :: x // yields List(1, 2, 3)
这相当于
val x = Nil.::(3).::(2) // successively prepend 3 and 2 to an empty list
val y = x.::(1) // then prepend 1
“用作提取器”对象如下所示:
def extract(l: List[Int]) = l match {
case Nil => "empty"
case head :: Nil => "exactly one element (" + head + ")"
case head :: tail => "more than one element"
}
extract(Nil) // yields "empty"
extract(List(1)) // yields "exactly one element (1)"
extract(List(2, 3)) // yields "more than one element"
这看起来像一个操作符,但实际上只是另一种(更可读的)书写方式
def extract2(l: List[Int]) = l match {
case Nil => "empty"
case ::(head, Nil) => "exactly one element (" + head + ")"
case ::(head, tail) => "more than one element"
}
您可以在中阅读有关提取器的更多信息。Scala继承了大部分提取器。这包括按位或
(单管字符)、按位和&
、按位异或^
、以及逻辑(布尔)或|
(两管字符)和逻辑和&
。有趣的是,您可以在boolean
上使用单字符运算符,因此java的逻辑运算符是完全冗余的:
true && true // valid
true & true // valid as well
3 & 4 // bitwise-and (011 & 100 yields 000)
3 && 4 // not valid
正如在另一篇文章中指出的,以等号结尾的调用通过重新分配得到解决(如果不存在同名的方法!):
var x = 3
x += 1 // `+=` is not a method in `int`, Scala makes it `x = x + 1`
通过这种“双重检查”,可以轻松地将可变集合交换为不可变集合:
val m = collection.mutable.Set("Hallo") // `m` a val, but holds mutable coll
var i = collection.immutable.Set("Hallo") // `i` is a var, but holds immutable coll
m += "Welt" // destructive call m.+=("Welt")
i += "Welt" // re-assignment i = i + "Welt" (creates a new immutable Set)
为了便于教学,我将运算符分为四类:
- 关键词/保留符号
- 自动导入的方法
- 常用方法
- 句法糖/成分
幸运的是,大多数类别都出现在问题中:
-> // Automatically imported method
||= // Syntactic sugar
++= // Syntactic sugar/composition or common method
<= // Common method
_._ // Typo, though it's probably based on Keyword/composition
:: // Common method
:+= // Common method
这些都是语言的一部分,因此,可以在适当描述语言的任何文本中找到,例如(PDF)本身
最后一个,下划线,应该有一个特别的描述,因为它被广泛使用,并且有很多不同的含义。以下是一个示例:
import scala._ // Wild card -- all of Scala is imported
import scala.{ Predef => _, _ } // Exception, everything except Predef
def f[M[_]] // Higher kinded type parameter
def f(m: M[_]) // Existential type
_ + _ // Anonymous function placeholder parameter
m _ // Eta expansion of method into method value
m(_) // Partial function application
_ => 5 // Discarded parameter
case _ => // Wild card pattern -- matches anything
f(xs: _*) // Sequence xs is passed as multiple parameters to f(ys: T*)
case Seq(xs @ _*) // Identifier xs is bound to the whole matched sequence
不过,我可能忘了其他一些意思
自动导入的方法
因此,如果您没有在上面的列表中找到您要查找的符号,那么它必须是一个方法,或者是其中的一部分。但是,通常,您会看到一些符号,并且该类的文档将不包含这些符号
val m = collection.mutable.Set("Hallo") // `m` a val, but holds mutable coll
var i = collection.immutable.Set("Hallo") // `i` is a var, but holds immutable coll
m += "Welt" // destructive call m.+=("Welt")
i += "Welt" // re-assignment i = i + "Welt" (creates a new immutable Set)
-> // Automatically imported method
||= // Syntactic sugar
++= // Syntactic sugar/composition or common method
<= // Common method
_._ // Typo, though it's probably based on Keyword/composition
:: // Common method
:+= // Common method
// Keywords
<- // Used on for-comprehensions, to separate pattern from generator
=> // Used for function types, function literals and import renaming
// Reserved
( ) // Delimit expressions and parameters
[ ] // Delimit type parameters
{ } // Delimit blocks
. // Method call and path separator
// /* */ // Comments
# // Used in type notations
: // Type ascription or context bounds
<: >: <% // Upper, lower and view bounds
<? <! // Start token for various XML elements
" """ // Strings
' // Indicate symbols and characters
@ // Annotations and variable binding on pattern matching
` // Denote constant or enable arbitrary identifiers
, // Parameter separator
; // Statement separator
_* // vararg expansion
_ // Many different meanings
import scala._ // Wild card -- all of Scala is imported
import scala.{ Predef => _, _ } // Exception, everything except Predef
def f[M[_]] // Higher kinded type parameter
def f(m: M[_]) // Existential type
_ + _ // Anonymous function placeholder parameter
m _ // Eta expansion of method into method value
m(_) // Partial function application
_ => 5 // Discarded parameter
case _ => // Wild card pattern -- matches anything
f(xs: _*) // Sequence xs is passed as multiple parameters to f(ys: T*)
case Seq(xs @ _*) // Identifier xs is bound to the whole matched sequence
// Not necessarily in this order
import _root_.java.lang._ // _root_ denotes an absolute path
import _root_.scala._
import _root_.scala.Predef._
class <:<
class =:=
object <%<
object =:=
"a" -> 1 // Look for an implicit from String, AnyRef, Any or type parameter
List(1, 2) ++ List(3, 4)
List(1, 2).++(List(3, 4))
List(2, 3).::(1)
1 +: List(2, 3) :+ 4
class Example(arr: Array[Int] = Array.fill(5)(0)) {
def apply(n: Int) = arr(n)
def update(n: Int, v: Int) = arr(n) = v
def a = arr(0); def a_=(v: Int) = arr(0) = v
def b = arr(1); def b_=(v: Int) = arr(1) = v
def c = arr(2); def c_=(v: Int) = arr(2) = v
def d = arr(3); def d_=(v: Int) = arr(3) = v
def e = arr(4); def e_=(v: Int) = arr(4) = v
def +(v: Int) = new Example(arr map (_ + v))
def unapply(n: Int) = if (arr.indices contains n) Some(arr(n)) else None
}
val Ex = new Example // or var for the last example
println(Ex(0)) // calls apply(0)
Ex(0) = 2 // calls update(0, 2)
Ex.b = 3 // calls b_=(3)
// This requires Ex to be a "val"
val Ex(c) = 2 // calls unapply(2) and assigns result to c
// This requires Ex to be a "var"
Ex += 1 // substituted for Ex = Ex + 1
(_+_) // An expression, or parameter, that is an anonymous function with
// two parameters, used exactly where the underscores appear, and
// which calls the "+" method on the first parameter passing the
// second parameter as argument.
for (n <- 1 to 10) n % 2 match {
case 0 => println("even")
case 1 => println("odd")
}
for (n ← 1 to 10) n % 2 match {
case 0 ⇒ println("even")
case 1 ⇒ println("odd")
}
( 1 to 100 ).foldLeft( 0, _+_ )
( 1 to 100 )./:( 0 )( _+_ )
( 0 /: ( 1 to 100 ) )( _+_ )
( 1 to 100 ).foldRight( 0, _+_ )
( 1 to 100 ).:\( 0 )( _+_ )
( ( 1 to 100 ) :\ 0 )( _+_ )
!! AbstractActor
!! Actor // Sends msg to this actor and immediately ...
!! Proxy
! Actor // Sends msg to this actor (asynchronous).
! Channel // Sends a message to this Channel.
! OutputChannel // Sends msg to this ...
! Proxy // Sends msg to this ...
!= Any // o != arg0 is the same as !(o == (arg0)).
!= AnyRef
!= Boolean
!= Byte
!= Char
!= Double
!= Float
!= Int
!= Long
!= Short
!? AbstractActor
!? Actor // Sends msg to this actor and awaits reply ...
!? Channel // Sends a message to this Channel and ...
!? Proxy
% BigInt // Remainder of BigInts
% Byte
% Char
% Double
% Float
% Int
% Long
% Short
% Elem // Returns a new element with updated attributes, resolving namespace uris from this element's scope. ...
&&& Parsers.Parser
&& Boolean
&+ NodeBuffer // Append given object to this buffer, returns reference on this NodeBuffer ...
& BigInt // Bitwise and of BigInts
& Boolean
& Byte
& Char
& Enumeration.Set32 // Equivalent to * for bit sets. ...
& Enumeration.Set64 // Equivalent to * for bit sets. ...
& Enumeration.SetXX // Equivalent to * for bit sets. ...
& Int
& Long
& Short
&~ BigInt // Bitwise and-not of BigInts. Returns a BigInt whose value is (this & ~that).
&~ Enumeration.Set32 // Equivalent to - for bit sets. ...
&~ Enumeration.Set64 // Equivalent to - for bit sets. ...
&~ Enumeration.SetXX // Equivalent to - for bit sets. ...
>>> Byte
>>> Char
>>> Int
>>> Long
>>> Short
>> BigInt // (Signed) rightshift of BigInt
>> Byte
>> Char
>> Int
>> Long
>> Short
>> Parsers.Parser // Returns into(fq)
>> Parsers.Parser // Returns into(fq)
> BigDecimal // Greater-than comparison of BigDecimals
> BigInt // Greater-than comparison of BigInts
> Byte
> Char
> Double
> Float
> Int
> Long
> Ordered
> PartiallyOrdered
> Short
>= BigDecimal // Greater-than-or-equals comparison of BigDecimals
>= BigInt // Greater-than-or-equals comparison of BigInts
>= Byte
>= Char
>= Double
>= Float
>= Int
>= Long
>= Ordered
>= PartiallyOrdered
>= Short
<< BigInt // Leftshift of BigInt
<< Byte
<< Char
<< Int
<< Long
<< Short
<< Buffer // Send a message to this scriptable object.
<< BufferProxy // Send a message to this scriptable object.
<< Map // Send a message to this scriptable object.
<< MapProxy // Send a message to this scriptable object.
<< Scriptable // Send a message to this scriptable object.
<< Set // Send a message to this scriptable object.
<< SetProxy // Send a message to this scriptable object.
<< SynchronizedBuffer // Send a message to this scriptable object.
<< SynchronizedMap // Send a message to this scriptable object.
<< SynchronizedSet // Send a message to this scriptable object.
< BigDecimal // Less-than of BigDecimals
< BigInt // Less-than of BigInts
< Byte
< Char
< Double
< Float
< Int
< Long
< Ordered
< PartiallyOrdered
< Short
< OffsetPosition // Compare this position to another, by first comparing their line numbers, ...
< Position // Compare this position to another, by first comparing their line numbers, ...
<= BigDecimal // Less-than-or-equals comparison of BigDecimals
<= BigInt // Less-than-or-equals comparison of BigInts
<= Byte
<= Char
<= Double
<= Float
<= Int
<= Long
<= Ordered
<= PartiallyOrdered
<= Short
<~ Parsers.Parser // A parser combinator for sequential composition which keeps only the left result
** Enumeration.SetXX
** Set // Intersect. It computes an intersection with set that. ...
** Set // This method is an alias for intersect. ...
* BigDecimal // Multiplication of BigDecimals
* BigInt // Multiplication of BigInts
* Byte
* Char
* Double
* Float
* Int
* Long
* Short
* Set
* RichString // return n times the current string
* Parsers.Parser // Returns a parser that repeatedly parses what this parser parses, interleaved with the `sep' parser. ...
* Parsers.Parser // Returns a parser that repeatedly parses what this parser parses
* Parsers.Parser // Returns a parser that repeatedly parses what this parser parses, interleaved with the `sep' parser. ...
* Parsers.Parser // Returns a parser that repeatedly parses what this parser parses, interleaved with the `sep' parser.
* Parsers.Parser // Returns a parser that repeatedly parses what this parser parses
++: ArrayBuffer // Prepends a number of elements provided by an iterable object ...
++: Buffer // Prepends a number of elements provided by an iterable object ...
++: BufferProxy // Prepends a number of elements provided by an iterable object ...
++: SynchronizedBuffer // Prepends a number of elements provided by an iterable object ...
++ Array // Returns an array consisting of all elements of this array followed ...
++ Enumeration.SetXX
++ Iterable // Appends two iterable objects.
++ IterableProxy // Appends two iterable objects.
++ Iterator // Returns a new iterator that first yields the elements of this ...
++ List // Appends two list objects.
++ RandomAccessSeq // Appends two iterable objects.
++ RandomAccessSeqProxy // Appends two iterable objects.
++ Seq // Appends two iterable objects.
++ SeqProxy // Appends two iterable objects.
++ IntMap // Add a sequence of key/value pairs to this map.
++ LongMap // Add a sequence of key/value pairs to this map.
++ Map // Add a sequence of key/value pairs to this map.
++ Set // Add all the elements provided by an iterator ...
++ Set // Add all the elements provided by an iterator to the set.
++ SortedMap // Add a sequence of key/value pairs to this map.
++ SortedSet // Add all the elements provided by an iterator ...
++ Stack // Push all elements provided by the given iterable object onto ...
++ Stack // Push all elements provided by the given iterator object onto ...
++ TreeHashMap
++ TreeHashMap // Add a sequence of key/value pairs to this map.
++ Collection // Operator shortcut for addAll.
++ Set // Operator shortcut for addAll.
++ ArrayBuffer // Appends two iterable objects.
++ Buffer // Appends a number of elements provided by an iterable object ...
++ Buffer // Appends a number of elements provided by an iterator ...
++ Buffer // Appends two iterable objects.
++ BufferProxy // Appends a number of elements provided by an iterable object ...
++ Map // Add a sequence of key/value pairs to this map.
++ MapProxy // Add a sequence of key/value pairs to this map.
++ PriorityQueue
++ Set // Add all the elements provided by an iterator ...
++ SynchronizedBuffer // Appends a number of elements provided by an iterable object ...
++ RichString // Appends two iterable objects.
++ RichStringBuilder // Appends a number of elements provided by an iterable object ...
++ RichStringBuilder // Appends two iterable objects.
++= Map // Add a sequence of key/value pairs to this map.
++= MapWrapper // Add a sequence of key/value pairs to this map.
++= ArrayBuffer // Appends a number of elements in an array
++= ArrayBuffer // Appends a number of elements provided by an iterable object ...
++= ArrayStack // Pushes all the provided elements onto the stack.
++= Buffer // Appends a number of elements in an array
++= Buffer // Appends a number of elements provided by an iterable object ...
++= Buffer // Appends a number of elements provided by an iterator
++= BufferProxy // Appends a number of elements provided by an iterable object ...
++= Map // Add a sequence of key/value pairs to this map.
++= MapProxy // Add a sequence of key/value pairs to this map.
++= PriorityQueue // Adds all elements provided by an Iterable object ...
++= PriorityQueue // Adds all elements provided by an iterator into the priority queue.
++= PriorityQueueProxy // Adds all elements provided by an Iterable object ...
++= PriorityQueueProxy // Adds all elements provided by an iterator into the priority queue.
++= Queue // Adds all elements provided by an Iterable object ...
++= Queue // Adds all elements provided by an iterator ...
++= QueueProxy // Adds all elements provided by an Iterable object ...
++= QueueProxy // Adds all elements provided by an iterator ...
++= Set // Add all the elements provided by an iterator ...
++= SetProxy // Add all the elements provided by an iterator ...
++= Stack // Pushes all elements provided by an Iterable object ...
++= Stack // Pushes all elements provided by an iterator ...
++= StackProxy // Pushes all elements provided by an Iterable object ...
++= StackProxy // Pushes all elements provided by an iterator ...
++= SynchronizedBuffer // Appends a number of elements provided by an iterable object ...
++= SynchronizedMap // Add a sequence of key/value pairs to this map.
++= SynchronizedPriorityQueue // Adds all elements provided by an Iterable object ...
++= SynchronizedPriorityQueue // Adds all elements provided by an iterator into the priority queue.
++= SynchronizedQueue // Adds all elements provided by an Iterable object ...
++= SynchronizedQueue // Adds all elements provided by an iterator ...
++= SynchronizedSet // Add all the elements provided by an iterator ...
++= SynchronizedStack // Pushes all elements provided by an Iterable object ...
++= SynchronizedStack // Pushes all elements provided by an iterator ...
++= RichStringBuilder // Appends a number of elements provided by an iterable object ...
+: ArrayBuffer // Prepends a single element to this buffer and return ...
+: Buffer // Prepend a single element to this buffer and return ...
+: BufferProxy // Prepend a single element to this buffer and return ...
+: ListBuffer // Prepends a single element to this buffer. It takes constant ...
+: ObservableBuffer // Prepend a single element to this buffer and return ...
+: SynchronizedBuffer // Prepend a single element to this buffer and return ...
+: RichStringBuilder // Prepend a single element to this buffer and return ...
+: BufferWrapper // Prepend a single element to this buffer and return ...
+: RefBuffer // Prepend a single element to this buffer and return ...
+ BigDecimal // Addition of BigDecimals
+ BigInt // Addition of BigInts
+ Byte
+ Char
+ Double
+ Enumeration.SetXX // Create a new set with an additional element.
+ Float
+ Int
+ List
+ Long
+ Short
+ EmptySet // Create a new set with an additional element.
+ HashSet // Create a new set with an additional element.
+ ListSet.Node // This method creates a new set with an additional element.
+ ListSet // This method creates a new set with an additional element.
+ Map
+ Map // Add a key/value pair to this map.
+ Map // Add two or more key/value pairs to this map.
+ Queue // Creates a new queue with element added at the end ...
+ Queue // Returns a new queue with all all elements provided by ...
+ Set // Add two or more elements to this set.
+ Set // Create a new set with an additional element.
+ Set1 // Create a new set with an additional element.
+ Set2 // Create a new set with an additional element.
+ Set3 // Create a new set with an additional element.
+ Set4 // Create a new set with an additional element.
+ SortedMap // Add a key/value pair to this map.
+ SortedMap // Add two or more key/value pairs to this map.
+ SortedSet // Create a new set with an additional element.
+ Stack // Push all elements provided by the given iterable object onto ...
+ Stack // Push an element on the stack.
+ TreeSet // A new TreeSet with the entry added is returned,
+ Buffer // adds "a" from the collection. Useful for chaining.
+ Collection // adds "a" from the collection. Useful for chaining.
+ Map // Add a key/value pair to this map.
+ Set // adds "a" from the collection. Useful for chaining.
+ Buffer // Append a single element to this buffer and return ...
+ BufferProxy // Append a single element to this buffer and return ...
+ Map // Add a key/value pair to this map.
+ Map // Add two or more key/value pairs to this map.
+ MapProxy // Add a key/value pair to this map.
+ MapProxy // Add two or more key/value pairs to this map.
+ ObservableBuffer // Append a single element to this buffer and return ...
+ PriorityQueue
+ Set // Add a new element to the set.
+ Set // Add two or more elements to this set.
+ SynchronizedBuffer // Append a single element to this buffer and return ...
+ Parsers.Parser // Returns a parser that repeatedly (at least once) parses what this parser parses.
+ Parsers.Parser // Returns a parser that repeatedly (at least once) parses what this parser parses.
+= Collection // adds "a" from the collection.
+= Map // Add a key/value pair to this map.
+= ArrayBuffer // Appends a single element to this buffer and returns ...
+= ArrayStack // Alias for push.
+= BitSet // Sets i-th bit to true. ...
+= Buffer // Append a single element to this buffer.
+= BufferProxy // Append a single element to this buffer.
+= HashSet // Add a new element to the set.
+= ImmutableSetAdaptor // Add a new element to the set.
+= JavaSetAdaptor // Add a new element to the set.
+= LinkedHashSet // Add a new element to the set.
+= ListBuffer // Appends a single element to this buffer. It takes constant ...
+= Map // Add a key/value pair to this map.
+= Map // Add two or more key/value pairs to this map.
+= Map // This method defines syntactic sugar for adding or modifying ...
+= MapProxy // Add a key/value pair to this map.
+= MapProxy // Add two or more key/value pairs to this map.
+= ObservableSet // Add a new element to the set.
+= PriorityQueue // Add two or more elements to this set.
+= PriorityQueue // Inserts a single element into the priority queue.
+= PriorityQueueProxy // Inserts a single element into the priority queue.
+= Queue // Inserts a single element at the end of the queue.
+= QueueProxy // Inserts a single element at the end of the queue.
+= Set // Add a new element to the set.
+= Set // Add two or more elements to this set.
+= SetProxy // Add a new element to the set.
+= Stack // Pushes a single element on top of the stack.
+= StackProxy // Pushes a single element on top of the stack.
+= SynchronizedBuffer // Append a single element to this buffer.
+= SynchronizedMap // Add a key/value pair to this map.
+= SynchronizedMap // Add two or more key/value pairs to this map.
+= SynchronizedPriorityQueue // Inserts a single element into the priority queue.
+= SynchronizedQueue // Inserts a single element at the end of the queue.
+= SynchronizedSet // Add a new element to the set.
+= SynchronizedStack // Pushes a single element on top of the stack.
+= RichStringBuilder // Append a single element to this buffer.
+= Reactions // Add a reaction.
+= RefBuffer // Append a single element to this buffer.
+= CachedFileStorage // adds a node, setting this.dirty to true as a side effect
+= IndexedStorage // adds a node, setting this.dirty to true as a side effect
+= SetStorage // adds a node, setting this.dirty to true as a side effect
-> Map.MapTo
-> Map.MapTo
-- List // Computes the difference between this list and the given list ...
-- Map // Remove a sequence of keys from this map
-- Set // Remove all the elements provided by an iterator ...
-- SortedMap // Remove a sequence of keys from this map
-- MutableIterable // Operator shortcut for removeAll.
-- Set // Operator shortcut for removeAll.
-- Map // Remove a sequence of keys from this map
-- MapProxy // Remove a sequence of keys from this map
-- Set // Remove all the elements provided by an iterator ...
--= Map // Remove a sequence of keys from this map
--= MapProxy // Remove a sequence of keys from this map
--= Set // Remove all the elements provided by an iterator ...
--= SetProxy // Remove all the elements provided by an iterator ...
--= SynchronizedMap // Remove a sequence of keys from this map
--= SynchronizedSet // Remove all the elements provided by an iterator ...
- BigDecimal // Subtraction of BigDecimals
- BigInt // Subtraction of BigInts
- Byte
- Char
- Double
- Enumeration.SetXX // Remove a single element from a set.
- Float
- Int
- List // Computes the difference between this list and the given object ...
- Long
- Short
- EmptyMap // Remove a key from this map
- EmptySet // Remove a single element from a set.
- HashMap // Remove a key from this map
- HashSet // Remove a single element from a set.
- IntMap // Remove a key from this map
- ListMap.Node // Creates a new mapping without the given key. ...
- ListMap // This creates a new mapping without the given key. ...
- ListSet.Node // - can be used to remove a single element from ...
- ListSet // - can be used to remove a single element from ...
- LongMap // Remove a key from this map
- Map // Remove a key from this map
- Map // Remove two or more keys from this map
- Map1 // Remove a key from this map
- Map2 // Remove a key from this map
- Map3 // Remove a key from this map
- Map4 // Remove a key from this map
- Set // Remove a single element from a set.
- Set // Remove two or more elements from this set.
- Set1 // Remove a single element from a set.
- Set2 // Remove a single element from a set.
- Set3 // Remove a single element from a set.
- Set4 // Remove a single element from a set.
- SortedMap // Remove a key from this map
- SortedMap // Remove two or more keys from this map
- TreeHashMap // Remove a key from this map
- TreeMap // Remove a key from this map
- TreeSet // Remove a single element from a set.
- UnbalancedTreeMap.Node // Remove a key from this map
- UnbalancedTreeMap // Remove a key from this map
- Map // Remove a key from this map
- MutableIterable
- Set
- ListBuffer // Removes a single element from the buffer and return ...
- Map // Remove a key from this map
- Map // Remove two or more keys from this map
- MapProxy // Remove a key from this map
- MapProxy // Remove two or more keys from this map
- Set // Remove a new element from the set.
- Set // Remove two or more elements from this set.
-= Buffer // removes "a" from the collection.
-= Collection // removes "a" from the collection.
-= Map // Remove a key from this map, noop if key is not present.
-= BitSet // Clears the i-th bit.
-= Buffer // Removes a single element from this buffer, at its first occurrence. ...
-= HashMap // Remove a key from this map, noop if key is not present.
-= HashSet // Removes a single element from a set.
-= ImmutableMapAdaptor // Remove a key from this map, noop if key is not present.
-= ImmutableSetAdaptor // Removes a single element from a set.
-= JavaMapAdaptor // Remove a key from this map, noop if key is not present.
-= JavaSetAdaptor // Removes a single element from a set.
-= LinkedHashMap // Remove a key from this map, noop if key is not present.
-= LinkedHashSet // Removes a single element from a set.
-= ListBuffer // Remove a single element from this buffer. It takes linear time ...
-= Map // Remove a key from this map, noop if key is not present.
-= Map // Remove two or more keys from this map
-= MapProxy // Remove a key from this map, noop if key is not present.
-= MapProxy // Remove two or more keys from this map
-= ObservableMap // Remove a key from this map, noop if key is not present.
-= ObservableSet // Removes a single element from a set.
-= OpenHashMap // Remove a key from this map, noop if key is not present.
-= Set // Remove two or more elements from this set.
-= Set // Removes a single element from a set.
-= SetProxy // Removes a single element from a set.
-= SynchronizedMap // Remove a key from this map, noop if key is not present.
-= SynchronizedMap // Remove two or more keys from this map
-= SynchronizedSet // Removes a single element from a set.
-= Reactions // Remove the given reaction.
-= CachedFileStorage // removes a tree, setting this.dirty to true as a side effect
-= IndexedStorage // removes a tree, setting this.dirty to true as a side effect
/% BigInt // Returns a pair of two BigInts containing (this / that) and (this % that).
/: Iterable // Similar to foldLeft but can be used as ...
/: IterableProxy // Similar to foldLeft but can be used as ...
/: Iterator // Similar to foldLeft but can be used as ...
/ BigDecimal // Division of BigDecimals
/ BigInt // Division of BigInts
/ Byte
/ Char
/ Double
/ Float
/ Int
/ Long
/ Short
:/: Document
::: List
:: List
:: Document
:\ Iterable // An alias for foldRight. ...
:\ IterableProxy // An alias for foldRight. ...
:\ Iterator // An alias for foldRight. ...
== Any // o == arg0 is the same as o.equals(arg0).
== AnyRef // o == arg0 is the same as if (o eq null) arg0 eq null else o.equals(arg0).
== Boolean
== Byte
== Char
== Double
== Float
== Int
== Long
== Short
? Actor // Receives the next message from this actor's mailbox.
? Channel // Receives the next message from this Channel.
? InputChannel // Receives the next message from this Channel.
? Parsers.Parser // Returns a parser that optionally parses what this parser parses.
? Parsers.Parser // Returns a parser that optionally parses what this parser parses.
\ NodeSeq // Projection function. Similar to XPath, use this \ "foo"
\\ NodeSeq // projection function. Similar to XPath, use this \\ 'foo
^ BigInt // Bitwise exclusive-or of BigInts
^ Boolean
^ Byte
^ Char
^ Int
^ Long
^ Short
^? Parsers.Parser // A parser combinator for partial function application
^? Parsers.Parser // A parser combinator for partial function application
^^ Parsers.Parser // A parser combinator for function application
^^ Parsers.Parser // A parser combinator for function application
^^ Parsers.UnitParser // A parser combinator for function application
^^^ Parsers.Parser
| BigInt // Bitwise or of BigInts
| Boolean
| Byte
| Char
| Enumeration.Set32 // Equivalent to ++ for bit sets. Returns a set ...
| Enumeration.Set32 // Equivalent to + for bit sets. Returns a set ...
| Enumeration.Set64 // Equivalent to ++ for bit sets. Returns a set ...
| Enumeration.Set64 // Equivalent to + for bit sets. Returns a set ...
| Enumeration.SetXX // Equivalent to ++ for bit sets. Returns a set ...
| Enumeration.SetXX // Equivalent to + for bit sets. Returns a set ...
| Int
| Long
| Short
| Parsers.Parser // A parser combinator for alternative composition
| Parsers.Parser // A parser combinator for alternative composition
| Parsers.UnitParser // A parser combinator for alternative composition
|| Boolean
||| Parsers.Parser
||| Parsers.Parser // A parser combinator for alternative with longest match composition
||| Parsers.Parser // A parser combinator for alternative with longest match composition
||| Parsers.UnitParser // A parser combinator for alternative with longest match composition
~! Parsers.Parser // A parser combinator for non-back-tracking sequential composition
~! Parsers.Parser // A parser combinator for non-back-tracking sequential composition with a unit-parser
~! Parsers.Parser // A parser combinator for non-back-tracking sequential composition
~! Parsers.UnitParser // A parser combinator for non-back-tracking sequential composition with a unit-parser
~! Parsers.UnitParser // A parser combinator for non-back-tracking sequential composition
~> Parsers.Parser // A parser combinator for sequential composition which keeps only the right result
~ BigInt // Returns the bitwise complement of this BigNum
~ Parsers.OnceParser // A parser combinator for sequential composition
~ Parsers.Parser // A parser combinator for sequential composition
~ Parsers
~ Parsers.OnceParser // A parser combinator for sequential composition with a unit-parser
~ Parsers.OnceParser // A parser combinator for sequential composition
~ Parsers.Parser // A parser combinator for sequential composition with a unit-parser
~ Parsers.Parser // A parser combinator for sequential composition
~ Parsers.UnitOnceParser // A parser combinator for sequential composition with a unit-parser
~ Parsers.UnitOnceParser // A parser combinator for sequential composition
~ Parsers.UnitParser // A parser combinator for sequential composition with a unit-parser
~ Parsers.UnitParser // A parser combinator for sequential composition
unary_! Boolean
unary_+ Byte
unary_+ Char
unary_+ Double
unary_+ Float
unary_+ Int
unary_+ Long
unary_+ Short
unary_- BigDecimal // Returns a BigDecimal whose value is the negation of this BigDecimal
unary_- BigInt // Returns a BigInt whose value is the negation of this BigInt
unary_- Byte
unary_- Char
unary_- Double
unary_- Float
unary_- Int
unary_- Long
unary_- Short
unary_~ Byte
unary_~ Char
unary_~ Int
unary_~ Long
unary_~ Short