AllInstances

Type Members

type BuildKeyConstraint[K] = DummyImplicit

Evidence on key needed to construct new maps.
Evidence on key needed to construct new maps.

Definition Classes
MapSubMap → MapSub
trait MapMonoid[K, V] extends Monoid[XMap[K, V]]

Attributes
protected[this]
Definition Classes
MapSub
type XMap[K, +V] = Map[K, V]

Definition Classes
MapSubMap → MapSub

Value Members

final def !=(arg0: Any): Boolean

Definition Classes
AnyRef → Any
final def ##(): Int

Definition Classes
AnyRef → Any
val <:<: Category[<:<]

Definition Classes
TypeConstraintInstances
val =:=: Category[=:=]

Definition Classes
TypeConstraintInstances
final def ==(arg0: Any): Boolean

Definition Classes
AnyRef → Any
implicit val BigDecimalMultiplicationNewType: Monoid[@@[BigDecimal, Multiplication]]

Definition Classes
BigDecimalInstances
def FirstLeftProjectionEIso2[E]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [β$10$]Either[E, β$10$]]

scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.
scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.

Definition Classes
EitherInstances
val FirstLeftProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

scala.Either.LeftProjection is isomorphic to scala.Either
scala.Either.LeftProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
def FirstRightProjectionAIso2[A]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [α$14$]Either[α$14$, A]]

scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.
scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.

Definition Classes
EitherInstances
val FirstRightProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

scala.Either.RightProjection is isomorphic to scala.Either
scala.Either.RightProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
def LastLeftProjectionEIso2[E]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [β$11$]Either[E, β$11$]]

scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.
scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.

Definition Classes
EitherInstances
val LastLeftProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

scala.Either.LeftProjection is isomorphic to scala.Either
scala.Either.LeftProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
def LastRightProjectionAIso2[A]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [α$15$]Either[α$15$, A]]

scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.
scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.

Definition Classes
EitherInstances
val LastRightProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

scala.Either.RightProjection is isomorphic to scala.Either
scala.Either.RightProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
def LeftProjectionEIso2[E]: Isomorphism.<~>[[β$8$]LeftProjection[E, β$8$], [β$9$]Either[E, β$9$]]

scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.
scala.Either.LeftProjection is isomorphic to scala.Either, when the type parameter E is partially applied.

Definition Classes
EitherInstances
val LeftProjectionIso2: Isomorphism.<~~>[LeftProjection, Either]

scala.Either.LeftProjection is isomorphic to scala.Either
scala.Either.LeftProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
def RightProjectionAIso2[A]: Isomorphism.<~>[[α$12$]RightProjection[α$12$, A], [α$13$]Either[α$13$, A]]

scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.
scala.Either.RightProjection is isomorphic to scala.Either, when the type parameter A is partially applied.

Definition Classes
EitherInstances
val RightProjectionIso2: Isomorphism.<~~>[RightProjection, Either]

scala.Either.RightProjection is isomorphic to scala.Either
scala.Either.RightProjection is isomorphic to scala.Either

Definition Classes
EitherInstances
final def ab_+[K, V](m: XMap[K, V], k: K, v: V)(implicit arg0: BuildKeyConstraint[K]): XMap[K, V]

How MapLike#updated might be typed in a sane world.
How MapLike#updated might be typed in a sane world. A world that embraced higher kinds, instead of shunning them.

Attributes
protected
Definition Classes
MapSubMap → MapSub
final def ab_-[K, V](m: XMap[K, V], k: K)(implicit arg0: BuildKeyConstraint[K]): XMap[K, V]

As with ab_+, but with MapLike#-.
As with ab_+, but with MapLike#-.

Attributes
protected
Definition Classes
MapSubMap → MapSub
final def alter[K, A](m: XMap[K, A], k: K)(f: (Option[A]) ⇒ Option[A])(implicit arg0: BuildKeyConstraint[K]): XMap[K, A]

Vary the value of m get k.
Vary the value of m get k.

Definition Classes
MapSubFunctions
final def asInstanceOf[T0]: T0

Definition Classes
Any
implicit val bigDecimalInstance: Monoid[BigDecimal] with Enum[BigDecimal] with Show[BigDecimal]

Definition Classes
BigDecimalInstances
implicit val bigIntInstance: Monoid[BigInt] with Enum[BigInt] with Show[BigInt]

Definition Classes
BigInts
implicit val bigIntMultiplication: Monoid[@@[BigInt, Multiplication]] with Order[@@[BigInt, Multiplication]] with Show[@@[BigInt, Multiplication]]

Definition Classes
BigInts
implicit val bigIntegerInstance: Monoid[BigInteger] with Enum[BigInteger] with Show[BigInteger]

Definition Classes
BigIntegerInstances
implicit val bigIntegerMultiplication: Monoid[@@[BigInteger, Multiplication]] with Order[@@[BigInteger, Multiplication]] with Show[@@[BigInteger, Multiplication]]

Definition Classes
BigIntegerInstances
implicit val booleanConjunctionNewTypeInstance: Monoid[@@[Boolean, Conjunction]] with Enum[@@[Boolean, Conjunction]] with Band[@@[Boolean, Conjunction]]

Definition Classes
AnyValInstances
implicit val booleanDisjunctionNewTypeInstance: Monoid[@@[Boolean, Tags.Disjunction]] with Enum[@@[Boolean, Tags.Disjunction]] with Band[@@[Boolean, Tags.Disjunction]]

Definition Classes
AnyValInstances
implicit object booleanInstance extends Enum[Boolean] with Show[Boolean]

Definition Classes
AnyValInstances
final def buildXMap[K, V, K2, V2](implicit arg0: BuildKeyConstraint[K2]): CanBuildFrom[XMap[K, V], (K2, V2), XMap[K2, V2]]

Attributes
protected
Definition Classes
MapSubMap → MapSub
implicit val byteInstance: Monoid[Byte] with Enum[Byte] with Show[Byte]

Definition Classes
AnyValInstances
implicit val byteMultiplicationNewType: Monoid[@@[Byte, Multiplication]] with Enum[@@[Byte, Multiplication]]

Definition Classes
AnyValInstances
implicit val callableMonad: Monad[Callable]

Definition Classes
CallableInstances
implicit def callableOrder[A](implicit arg0: Order[A]): Order[Callable[A]]

Definition Classes
CallableInstances
implicit val char: Monoid[Char] with Enum[Char] with Show[Char]

Definition Classes
AnyValInstances
implicit val charMultiplicationNewType: Monoid[@@[Char, Multiplication]] with Enum[@@[Char, Multiplication]]

Definition Classes
AnyValInstances
def clone(): AnyRef

Attributes
protected[java.lang]
Definition Classes
AnyRef
Annotations
@throws( ... )
implicit val doubleInstance: Order[Double] with Show[Double]

Definition Classes
AnyValInstances
implicit def eitherAssociative: Associative[Either]

Definition Classes
EitherInstances
implicit def eitherEqual[A, B](implicit A0: Equal[A], B0: Equal[B]): Equal[Either[A, B]]

Definition Classes
EitherInstances0
implicit def eitherFirstLeftEqual[A, X](implicit A0: Equal[A]): Equal[@@[LeftProjection[A, X], First]]

Definition Classes
EitherInstances0
val eitherFirstLeftInstance: IsomorphismBifunctor[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

Definition Classes
EitherInstances
implicit def eitherFirstLeftMonoid[A, X](implicit MonoidX: Monoid[X]): Monoid[@@[LeftProjection[A, X], First]]

Definition Classes
EitherInstances
implicit def eitherFirstLeftOrder[A, X](implicit OrderA: Order[A]): Order[@@[LeftProjection[A, X], First]]

Definition Classes
EitherInstances
implicit def eitherFirstLeftRInstance[R]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

Definition Classes
EitherInstances
implicit def eitherFirstLeftSemigroup[A, X](implicit arg0: Semigroup[A]): Semigroup[@@[LeftProjection[A, X], First]]

Definition Classes
EitherInstances0
implicit def eitherFirstRightEqual[X, A](implicit A0: Equal[A]): Equal[@@[RightProjection[X, A], First]]

Definition Classes
EitherInstances0
implicit def eitherFirstRightLInstance[L]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

Definition Classes
EitherInstances
implicit def eitherFirstRightMonoid[X, A](implicit MonoidX: Monoid[X]): Monoid[@@[RightProjection[X, A], First]]

Definition Classes
EitherInstances
implicit def eitherFirstRightOrder[X, A](implicit OrderA: Order[A]): Order[@@[RightProjection[X, A], First]]

Definition Classes
EitherInstances
implicit def eitherFirstRightSemigroup[X, A](implicit arg0: Semigroup[A]): Semigroup[@@[RightProjection[X, A], First]]

Definition Classes
EitherInstances0
implicit val eitherInstance: Bitraverse[Either]

Definition Classes
EitherInstances
implicit def eitherLastLeftEqual[A, X](implicit A0: Equal[A]): Equal[@@[LeftProjection[A, X], Last]]

Definition Classes
EitherInstances0
implicit def eitherLastLeftMonoid[A, X](implicit MonoidX: Monoid[X]): Monoid[@@[LeftProjection[A, X], Last]]

Definition Classes
EitherInstances
implicit def eitherLastLeftOrder[A, X](implicit OrderA: Order[A]): Order[@@[LeftProjection[A, X], Last]]

Definition Classes
EitherInstances
implicit def eitherLastLeftRInstance[R]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

Definition Classes
EitherInstances
implicit def eitherLastLeftSemigroup[A, X](implicit arg0: Semigroup[A]): Semigroup[@@[LeftProjection[A, X], Last]]

Definition Classes
EitherInstances0
implicit def eitherLastRightEqual[X, A](implicit A0: Equal[A]): Equal[@@[RightProjection[X, A], Last]]

Definition Classes
EitherInstances0
implicit def eitherLastRightLInstance[L]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

Definition Classes
EitherInstances
implicit def eitherLastRightMonoid[X, A](implicit MonoidX: Monoid[X]): Monoid[@@[RightProjection[X, A], Last]]

Definition Classes
EitherInstances
implicit def eitherLastRightOrder[X, A](implicit OrderA: Order[A]): Order[@@[RightProjection[X, A], Last]]

Definition Classes
EitherInstances
implicit def eitherLastRightSemigroup[X, A](implicit arg0: Semigroup[A]): Semigroup[@@[RightProjection[X, A], Last]]

Definition Classes
EitherInstances0
implicit def eitherLeftEqual[A, X](implicit A0: Equal[A]): Equal[LeftProjection[A, X]]

Definition Classes
EitherInstances0
val eitherLeftInstance: IsomorphismBifunctor[LeftProjection, Either]

Definition Classes
EitherInstances
implicit def eitherLeftMonoid[A, X](implicit MonoidA: Monoid[A], MonoidX: Monoid[X]): Monoid[LeftProjection[A, X]]

Definition Classes
EitherInstances
implicit def eitherLeftOrder[A, X](implicit OrderA: Order[A]): Order[LeftProjection[A, X]]

Definition Classes
EitherInstances
implicit def eitherLeftRInstance[R]: Monad[[α$21$]LeftProjection[α$21$, R]] { def point[A](a: => A): scala.util.Either.LeftProjection[A,Nothing] }

Definition Classes
EitherInstances
implicit def eitherLeftSemigroup[A, X](implicit SemigroupA: Semigroup[A], MonoidX: Monoid[X]): Semigroup[LeftProjection[A, X]]

Definition Classes
EitherInstances0
implicit def eitherMonad[L]: Traverse[[β$0$]Either[L, β$0$]] with MonadError[[β$1$]Either[L, β$1$], L] with BindRec[[β$2$]Either[L, β$2$]] with Cozip[[β$3$]Either[L, β$3$]]

Right biased monad
Right biased monad

Definition Classes
EitherInstances
implicit def eitherOrder[A, B](implicit OrderA: Order[A], OrderB: Order[B]): Order[Either[A, B]]

Definition Classes
EitherInstances
implicit def eitherRightEqual[X, A](implicit A0: Equal[A]): Equal[RightProjection[X, A]]

Definition Classes
EitherInstances0
val eitherRightInstance: IsomorphismBifunctor[RightProjection, Either]

Definition Classes
EitherInstances
implicit def eitherRightLInstance[L]: Monad[[β$16$]RightProjection[L, β$16$]] { def point[A](a: => A): scala.util.Either.RightProjection[Nothing,A] }

Definition Classes
EitherInstances
implicit def eitherRightMonoid[X, A](implicit MonoidX: Monoid[X], MonoidA: Monoid[A]): Monoid[RightProjection[X, A]]

Definition Classes
EitherInstances
implicit def eitherRightOrder[X, A](implicit OrderA: Order[A]): Order[RightProjection[X, A]]

Definition Classes
EitherInstances
implicit def eitherRightSemigroup[X, A](implicit MonoidX: Monoid[X], SemigroupA: Semigroup[A]): Semigroup[RightProjection[X, A]]

Definition Classes
EitherInstances0
implicit def eitherShow[A, B](implicit SA: Show[A], SB: Show[B]): Show[Either[A, B]]

Definition Classes
EitherInstances
implicit def enumInstance[E <: java.lang.Enum[E]]: Equal[E]

Definition Classes
EnumInstances
final def eq(arg0: AnyRef): Boolean

Definition Classes
AnyRef
def equals(arg0: Any): Boolean

Definition Classes
AnyRef → Any
def finalize(): Unit

Attributes
protected[java.lang]
Definition Classes
AnyRef
Annotations
@throws( classOf[java.lang.Throwable] )
implicit val floatInstance: Order[Float] with Show[Float]

Definition Classes
AnyValInstances
implicit def function0Equal[R](implicit arg0: Equal[R]): Equal[() ⇒ R]

Definition Classes
FunctionInstances
implicit val function0Instance: Traverse[Function0] with Monad[Function0] with BindRec[Function0] with Comonad[Function0] with Distributive[Function0]

Definition Classes
FunctionInstances
implicit def function1Cobind[A, R](implicit A0: Semigroup[A]): Cobind[[β$0$](A) ⇒ β$0$]

Definition Classes
FunctionInstances1
implicit def function1Comonad[A, R](implicit A0: Monoid[A]): Comonad[[β$1$](A) ⇒ β$1$]

Definition Classes
FunctionInstances0
implicit def function1Contravariant[R]: Contravariant[[α$22$](α$22$) ⇒ R]

Definition Classes
FunctionInstances
implicit def function1Covariant[T]: Monad[[β$12$](T) ⇒ β$12$] with BindRec[[β$13$](T) ⇒ β$13$] with Zip[[β$14$](T) ⇒ β$14$] with Unzip[[β$15$](T) ⇒ β$15$] with Distributive[[β$16$](T) ⇒ β$16$]

Definition Classes
FunctionInstances
implicit def function1CovariantByName[T]: Monad[[β$2$](⇒ T) ⇒ β$2$] with BindRec[[β$3$](⇒ T) ⇒ β$3$] with Zip[[β$4$](⇒ T) ⇒ β$4$] with Unzip[[β$5$](⇒ T) ⇒ β$5$] with Distributive[[β$6$](⇒ T) ⇒ β$6$]

Definition Classes
FunctionInstances0
implicit val function1Instance: Arrow[Function1] with Choice[Function1] with ProChoice[Function1]

Definition Classes
FunctionInstances
implicit def function1Monoid[A, R](implicit R0: Monoid[R]): Monoid[(A) ⇒ R]

Definition Classes
FunctionInstances0
implicit def function1Semigroup[A, R](implicit R0: Semigroup[R]): Semigroup[(A) ⇒ R]

Definition Classes
FunctionInstances1
implicit def function2Instance[T1, T2]: Monad[[γ$24$](T1, T2) ⇒ γ$24$] with BindRec[[γ$25$](T1, T2) ⇒ γ$25$]

Definition Classes
FunctionInstances
implicit def function3Instance[T1, T2, T3]: Monad[[δ$28$](T1, T2, T3) ⇒ δ$28$] with BindRec[[δ$29$](T1, T2, T3) ⇒ δ$29$]

Definition Classes
FunctionInstances
implicit def function4Instance[T1, T2, T3, T4]: Monad[[ε$32$](T1, T2, T3, T4) ⇒ ε$32$] with BindRec[[ε$33$](T1, T2, T3, T4) ⇒ ε$33$]

Definition Classes
FunctionInstances
implicit def function5Instance[T1, T2, T3, T4, T5]: Monad[[ζ$36$](T1, T2, T3, T4, T5) ⇒ ζ$36$] with BindRec[[ζ$37$](T1, T2, T3, T4, T5) ⇒ ζ$37$]

Definition Classes
FunctionInstances
implicit def function6Instance[T1, T2, T3, T4, T5, T6]: Monad[[η$40$](T1, T2, T3, T4, T5, T6) ⇒ η$40$] with BindRec[[η$41$](T1, T2, T3, T4, T5, T6) ⇒ η$41$]

Definition Classes
FunctionInstances
implicit def function7Instance[T1, T2, T3, T4, T5, T6, T7]: Monad[[θ$44$](T1, T2, T3, T4, T5, T6, T7) ⇒ θ$44$] with BindRec[[θ$45$](T1, T2, T3, T4, T5, T6, T7) ⇒ θ$45$]

Definition Classes
FunctionInstances
implicit def function8Instance[T1, T2, T3, T4, T5, T6, T7, T8]: Monad[[ι$48$](T1, T2, T3, T4, T5, T6, T7, T8) ⇒ ι$48$] with BindRec[[ι$49$](T1, T2, T3, T4, T5, T6, T7, T8) ⇒ ι$49$]

Definition Classes
FunctionInstances
def futureComonad(duration: Duration)(implicit executionContext: ExecutionContext): Comonad[Future]

Requires explicit usage as the use of Await.result.
Requires explicit usage as the use of Await.result. Can throw an exception, which is inherently bad.

Definition Classes
FutureInstances
implicit def futureInstance(implicit ec: ExecutionContext): Nondeterminism[Future] with Cobind[Future] with MonadError[Future, Throwable] with Catchable[Future]

Definition Classes
FutureInstances1
implicit def futureMonoid[A](implicit g: Monoid[A], ec: ExecutionContext): Monoid[Future[A]]

Definition Classes
FutureInstances
implicit def futureSemigroup[A](implicit m: Semigroup[A], ec: ExecutionContext): Semigroup[Future[A]]

Definition Classes
FutureInstances1
final def getClass(): Class[_]

Definition Classes
AnyRef → Any
final def getOrAdd[F[_], K, A](m: XMap[K, A], k: K)(fa: ⇒ F[A])(implicit F: Applicative[F], K: BuildKeyConstraint[K]): F[(XMap[K, A], A)]

Grab a value out of Map if it's present.
Grab a value out of Map if it's present. Otherwise evaluate a value to be placed at that key in the Map.

Definition Classes
MapSubFunctions
def hashCode(): Int

Definition Classes
AnyRef → Any
final def insertWith[K, A](m1: XMap[K, A], k: K, v: A)(f: (A, A) ⇒ A)(implicit arg0: BuildKeyConstraint[K]): XMap[K, A]

As with Map.updated, but resolve a collision with f.
As with Map.updated, but resolve a collision with f. The first argument is guaranteed to be from m1.

Definition Classes
MapSubFunctions
implicit val intInstance: Monoid[Int] with Enum[Int] with Show[Int]

Definition Classes
AnyValInstances
implicit val intMultiplicationNewType: Monoid[@@[Int, Multiplication]] with Enum[@@[Int, Multiplication]]

Definition Classes
AnyValInstances
final def intersectWith[K, A, B, C](m1: XMap[K, A], m2: XMap[K, B])(f: (A, B) ⇒ C)(implicit arg0: BuildKeyConstraint[K]): XMap[K, C]

Collect only elements with matching keys, joining their associated values with f.
Collect only elements with matching keys, joining their associated values with f.

Definition Classes
MapSubFunctions
final def intersectWithKey[K, A, B, C](m1: XMap[K, A], m2: XMap[K, B])(f: (K, A, B) ⇒ C)(implicit arg0: BuildKeyConstraint[K]): XMap[K, C]

Like intersectWith, but tell f about the key.
Like intersectWith, but tell f about the key.

Definition Classes
MapSubFunctions
final def isInstanceOf[T0]: Boolean

Definition Classes
Any
implicit def listEqual[A](implicit A0: Equal[A]): Equal[List[A]]

Definition Classes
ListInstances0
implicit val listInstance: Traverse[List] with MonadPlus[List] with BindRec[List] with Zip[List] with Unzip[List] with Align[List] with IsEmpty[List] with Cobind[List]

Definition Classes
ListInstances
implicit def listMonoid[A]: Monoid[List[A]]

Definition Classes
ListInstances
implicit def listOrder[A](implicit A0: Order[A]): Order[List[A]]

Definition Classes
ListInstances
implicit def listShow[A](implicit arg0: Show[A]): Show[List[A]]

Definition Classes
ListInstances
implicit val longInstance: Monoid[Long] with Enum[Long] with Show[Long]

Definition Classes
AnyValInstances
implicit val longMultiplicationNewType: Monoid[@@[Long, Multiplication]] with Enum[@@[Long, Multiplication]]

Definition Classes
AnyValInstances
implicit val mapEntryBitraverse: Bitraverse[Entry]

Definition Classes
MapInstances
implicit def mapEqual[K, V](implicit arg0: Order[K], arg1: Equal[V]): Equal[XMap[K, V]]

Definition Classes
MapSubInstances0
implicit def mapFoldable[K]: Foldable[[β$1$]XMap[K, β$1$]]

Definition Classes
MapSubInstances0
implicit def mapInstance[K](implicit arg0: BuildKeyConstraint[K]): Traverse[[β$2$]XMap[K, β$2$]] with IsEmpty[[β$3$]XMap[K, β$3$]] with Bind[[β$4$]XMap[K, β$4$]] with Align[[β$5$]XMap[K, β$5$]]

Covariant over the value parameter, where plus applies the Last semigroup to values.
Covariant over the value parameter, where plus applies the Last semigroup to values.

Definition Classes
MapSubInstances
final def mapKeys[K, K2, A](m: XMap[K, A])(f: (K) ⇒ K2)(implicit arg0: BuildKeyConstraint[K2]): XMap[K2, A]

Exchange keys of m according to f.
Exchange keys of m according to f. Result may be smaller if f maps two or more Ks to the same K2, in which case the resulting associated value is an arbitrary choice.

Definition Classes
MapSubFunctions
implicit def mapMonoid[K, V](implicit arg0: BuildKeyConstraint[K], arg1: Semigroup[V]): Monoid[XMap[K, V]]

Map union monoid, unifying values with V's append.
Map union monoid, unifying values with V's append.

Definition Classes
MapSubInstances
implicit def mapOrder[K, V](implicit arg0: Order[K], arg1: Order[V]): Order[XMap[K, V]]

Definition Classes
MapSubInstances
implicit def mapShow[K, V](implicit K: Show[K], V: Show[V]): Show[XMap[K, V]]

Definition Classes
MapSubInstances
final def ne(arg0: AnyRef): Boolean

Definition Classes
AnyRef
final def notify(): Unit

Definition Classes
AnyRef
final def notifyAll(): Unit

Definition Classes
AnyRef
implicit def optionEqual[A](implicit A0: Equal[A]): Equal[Option[A]]

Definition Classes
OptionInstances0
implicit def optionFirst[A]: Monoid[FirstOption[A]] with Band[FirstOption[A]]

Definition Classes
OptionInstances
implicit def optionFirstMonad: Monad[FirstOption]

Definition Classes
OptionInstances
implicit def optionFirstOrder[A](implicit arg0: Order[A]): Order[FirstOption[A]]

Definition Classes
OptionInstances
implicit def optionFirstShow[A](implicit arg0: Show[A]): Show[FirstOption[A]]

Definition Classes
OptionInstances
implicit val optionInstance: Traverse[Option] with MonadPlus[Option] with BindRec[Option] with Cozip[Option] with Zip[Option] with Unzip[Option] with Align[Option] with IsEmpty[Option] with Cobind[Option] with Optional[Option]

Definition Classes
OptionInstances
implicit def optionLast[A]: Monoid[LastOption[A]] with Band[LastOption[A]]

Definition Classes
OptionInstances
implicit def optionLastMonad: Monad[LastOption]

Definition Classes
OptionInstances
implicit def optionLastOrder[A](implicit arg0: Order[A]): Order[LastOption[A]]

Definition Classes
OptionInstances
implicit def optionLastShow[A](implicit arg0: Show[A]): Show[LastOption[A]]

Definition Classes
OptionInstances
implicit def optionMax[A](implicit o: Order[A]): Monoid[MaxOption[A]] with Band[MaxOption[A]]

Definition Classes
OptionInstances
implicit def optionMaxMonad: Monad[MaxOption]

Definition Classes
OptionInstances
implicit def optionMaxOrder[A](implicit arg0: Order[A]): Order[MaxOption[A]]

Definition Classes
OptionInstances
implicit def optionMaxShow[A](implicit arg0: Show[A]): Show[MaxOption[A]]

Definition Classes
OptionInstances
implicit def optionMin[A](implicit o: Order[A]): Monoid[MinOption[A]] with Band[MinOption[A]]

Definition Classes
OptionInstances
implicit def optionMinMonad: Monad[MinOption]

Definition Classes
OptionInstances
implicit def optionMinOrder[A](implicit arg0: Order[A]): Order[MinOption[A]]

Definition Classes
OptionInstances
implicit def optionMinShow[A](implicit arg0: Show[A]): Show[MinOption[A]]

Definition Classes
OptionInstances
implicit def optionMonoid[A](implicit arg0: Semigroup[A]): Monoid[Option[A]]

Definition Classes
OptionInstances
implicit def optionOrder[A](implicit A0: Order[A]): Order[Option[A]]

Add None as an element less than all As.
Add None as an element less than all As.

Definition Classes
OptionInstances
implicit def optionShow[A](implicit arg0: Show[A]): Show[Option[A]]

Definition Classes
OptionInstances
def orderingMonoid[A]: Monoid[scala.math.Ordering[A]]

Definition Classes
OrderingInstances
implicit val partialFunctionInstance: Arrow[PartialFunction] with Category[PartialFunction] with Choice[PartialFunction]

Definition Classes
PartialFunctionInstances
implicit val setInstance: Foldable[Set] with IsEmpty[Set]

Definition Classes
SetInstances
implicit def setMonoid[A]: Monoid[Set[A]] with SemiLattice[Set[A]]

Definition Classes
SetInstances
implicit def setOrder[A](implicit arg0: Order[A]): Order[Set[A]]

We could derive set equality from Equal[A], but it would be O(n^2). Instead, we require Order[A], reducing the complexity to O(log n)
We could derive set equality from Equal[A], but it would be O(n^2). Instead, we require Order[A], reducing the complexity to O(log n)
If Equal[A].equalIsNatural == true, than Any#== is used.

Definition Classes
SetInstances
implicit def setShow[A](implicit arg0: Show[A]): Show[Set[A]]

Definition Classes
SetInstances
implicit val shortInstance: Monoid[Short] with Enum[Short] with Show[Short]

Definition Classes
AnyValInstances
implicit val shortMultiplicationNewType: Monoid[@@[Short, Multiplication]] with Enum[@@[Short, Multiplication]]

Definition Classes
AnyValInstances
implicit def streamEqual[A](implicit A0: Equal[A]): Equal[Stream[A]]

Definition Classes
StreamInstances
implicit val streamInstance: Traverse[Stream] with MonadPlus[Stream] with BindRec[Stream] with Zip[Stream] with Unzip[Stream] with Align[Stream] with IsEmpty[Stream] with Cobind[Stream]

Definition Classes
StreamInstances
implicit def streamMonoid[A]: Monoid[Stream[A]]

Definition Classes
StreamInstances
implicit def streamOrder[A](implicit A0: Order[A]): Order[Stream[A]]

Definition Classes
StreamInstances
implicit def streamShow[A](implicit A0: Show[A]): Show[Stream[A]]

Definition Classes
StreamInstances
implicit val streamZipApplicative: Applicative[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

An alternative scalaz.Applicative instance for Stream, discriminated by the type tag scalaz.Tags.Zip, that zips streams together.
An alternative scalaz.Applicative instance for Stream, discriminated by the type tag scalaz.Tags.Zip, that zips streams together.
Example:
```
import scalaz.Tags.Zip
streamZipApplicative.apply2(Zip(Stream(1, 2)), Zip(Stream(3, 4)))(_ * _) // Stream(3, 8)
```
Definition Classes
StreamInstances
implicit object stringInstance extends Monoid[String] with Show[String] with Equal[String] with Order[String] with IsEmpty[[α]String]

Definition Classes
StringInstances
final def synchronized[T0](arg0: ⇒ T0): T0

Definition Classes
AnyRef
def toString(): String

Definition Classes
AnyRef → Any
implicit val tuple1Cozip: Cozip[Tuple1]

Definition Classes
TupleInstances2
implicit def tuple1Equal[A1](implicit A1: Equal[A1]): Equal[(A1)]

Definition Classes
TupleInstances1
implicit val tuple1Instance: Traverse[Tuple1] with Monad[Tuple1] with Comonad[Tuple1]

Tuple1[A] is isomorphic to Id[X]
Tuple1[A] is isomorphic to Id[X]

Definition Classes
TupleInstances1
implicit def tuple1Monoid[A1](implicit A1: Monoid[A1]): Monoid[(A1)]

Definition Classes
TupleInstances2
implicit def tuple1Order[A1](implicit A1: Order[A1]): Order[(A1)]

Definition Classes
TupleInstances2
implicit def tuple1Semigroup[A1](implicit A1: Semigroup[A1]): Semigroup[(A1)]

Definition Classes
TupleInstances1
implicit def tuple1Show[A1](implicit A1: Show[A1]): Show[(A1)]

Definition Classes
TupleInstances2
implicit val tuple2Associative: Associative[Tuple2]

Definition Classes
TupleInstances1
implicit def tuple2BindRec[A1](implicit arg0: Semigroup[A1]): BindRec[[β$9$](A1, β$9$)]

Product BindRec
Product BindRec

Definition Classes
TupleInstances1
implicit val tuple2Bitraverse: Bitraverse[Tuple2]

Definition Classes
TupleInstances1
implicit def tuple2Cozip[A1]: Cozip[[β$16$](A1, β$16$)]

Definition Classes
TupleInstances2
implicit def tuple2Equal[A1, A2](implicit A1: Equal[A1], A2: Equal[A2]): Equal[(A1, A2)]

Definition Classes
TupleInstances1
implicit def tuple2Instance[A1]: Traverse[[β$0$](A1, β$0$)] with Comonad[[β$1$](A1, β$1$)]

Product functor and comonad
Product functor and comonad

Definition Classes
TupleInstances0
implicit def tuple2Monad[A1](implicit A1: Monoid[A1]): Monad[[β$23$](A1, β$23$)]

Definition Classes
TupleInstances2
implicit def tuple2Monoid[A1, A2](implicit A1: Monoid[A1], A2: Monoid[A2]): Monoid[(A1, A2)]

Definition Classes
TupleInstances2
implicit def tuple2Order[A1, A2](implicit A1: Order[A1], A2: Order[A2]): Order[(A1, A2)]

Definition Classes
TupleInstances2
implicit def tuple2Semigroup[A1, A2](implicit A1: Semigroup[A1], A2: Semigroup[A2]): Semigroup[(A1, A2)]

Definition Classes
TupleInstances1
implicit def tuple2Show[A1, A2](implicit A1: Show[A1], A2: Show[A2]): Show[(A1, A2)]

Definition Classes
TupleInstances2
implicit def tuple3BindRec[A1, A2](implicit arg0: Semigroup[A1], arg1: Semigroup[A2]): BindRec[[γ$10$](A1, A2, γ$10$)]

Definition Classes
TupleInstances1
implicit def tuple3Cozip[A1, A2]: Cozip[[γ$17$](A1, A2, γ$17$)]

Definition Classes
TupleInstances2
implicit def tuple3Equal[A1, A2, A3](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3]): Equal[(A1, A2, A3)]

Definition Classes
TupleInstances1
implicit def tuple3Functor[A1, A2]: Traverse[[γ$3$](A1, A2, γ$3$)]

Definition Classes
TupleInstances0
implicit def tuple3Monad[A1, A2](implicit A1: Monoid[A1], A2: Monoid[A2]): Monad[[γ$24$](A1, A2, γ$24$)]

Definition Classes
TupleInstances2
implicit def tuple3Monoid[A1, A2, A3](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3]): Monoid[(A1, A2, A3)]

Definition Classes
TupleInstances2
implicit def tuple3Order[A1, A2, A3](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3]): Order[(A1, A2, A3)]

Definition Classes
TupleInstances2
implicit def tuple3Semigroup[A1, A2, A3](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3]): Semigroup[(A1, A2, A3)]

Definition Classes
TupleInstances1
implicit def tuple3Show[A1, A2, A3](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3]): Show[(A1, A2, A3)]

Definition Classes
TupleInstances2
implicit def tuple4BindRec[A1, A2, A3](implicit arg0: Semigroup[A1], arg1: Semigroup[A2], arg2: Semigroup[A3]): BindRec[[δ$11$](A1, A2, A3, δ$11$)]

Definition Classes
TupleInstances1
implicit def tuple4Cozip[A1, A2, A3]: Cozip[[δ$18$](A1, A2, A3, δ$18$)]

Definition Classes
TupleInstances2
implicit def tuple4Equal[A1, A2, A3, A4](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3], A4: Equal[A4]): Equal[(A1, A2, A3, A4)]

Definition Classes
TupleInstances1
implicit def tuple4Functor[A1, A2, A3]: Traverse[[δ$4$](A1, A2, A3, δ$4$)]

Definition Classes
TupleInstances0
implicit def tuple4Monad[A1, A2, A3](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3]): Monad[[δ$25$](A1, A2, A3, δ$25$)]

Definition Classes
TupleInstances2
implicit def tuple4Monoid[A1, A2, A3, A4](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4]): Monoid[(A1, A2, A3, A4)]

Definition Classes
TupleInstances2
implicit def tuple4Order[A1, A2, A3, A4](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3], A4: Order[A4]): Order[(A1, A2, A3, A4)]

Definition Classes
TupleInstances2
implicit def tuple4Semigroup[A1, A2, A3, A4](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3], A4: Semigroup[A4]): Semigroup[(A1, A2, A3, A4)]

Definition Classes
TupleInstances1
implicit def tuple4Show[A1, A2, A3, A4](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3], A4: Show[A4]): Show[(A1, A2, A3, A4)]

Definition Classes
TupleInstances2
implicit def tuple5BindRec[A1, A2, A3, A4](implicit arg0: Semigroup[A1], arg1: Semigroup[A2], arg2: Semigroup[A3], arg3: Semigroup[A4]): BindRec[[ε$12$](A1, A2, A3, A4, ε$12$)]

Definition Classes
TupleInstances1
implicit def tuple5Cozip[A1, A2, A3, A4]: Cozip[[ε$19$](A1, A2, A3, A4, ε$19$)]

Definition Classes
TupleInstances2
implicit def tuple5Equal[A1, A2, A3, A4, A5](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3], A4: Equal[A4], A5: Equal[A5]): Equal[(A1, A2, A3, A4, A5)]

Definition Classes
TupleInstances1
implicit def tuple5Functor[A1, A2, A3, A4]: Traverse[[ε$5$](A1, A2, A3, A4, ε$5$)]

Definition Classes
TupleInstances0
implicit def tuple5Monad[A1, A2, A3, A4](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4]): Monad[[ε$26$](A1, A2, A3, A4, ε$26$)]

Definition Classes
TupleInstances2
implicit def tuple5Monoid[A1, A2, A3, A4, A5](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5]): Monoid[(A1, A2, A3, A4, A5)]

Definition Classes
TupleInstances2
implicit def tuple5Order[A1, A2, A3, A4, A5](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3], A4: Order[A4], A5: Order[A5]): Order[(A1, A2, A3, A4, A5)]

Definition Classes
TupleInstances2
implicit def tuple5Semigroup[A1, A2, A3, A4, A5](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3], A4: Semigroup[A4], A5: Semigroup[A5]): Semigroup[(A1, A2, A3, A4, A5)]

Definition Classes
TupleInstances1
implicit def tuple5Show[A1, A2, A3, A4, A5](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3], A4: Show[A4], A5: Show[A5]): Show[(A1, A2, A3, A4, A5)]

Definition Classes
TupleInstances2
implicit def tuple6BindRec[A1, A2, A3, A4, A5](implicit arg0: Semigroup[A1], arg1: Semigroup[A2], arg2: Semigroup[A3], arg3: Semigroup[A4], arg4: Semigroup[A5]): BindRec[[ζ$13$](A1, A2, A3, A4, A5, ζ$13$)]

Definition Classes
TupleInstances1
implicit def tuple6Cozip[A1, A2, A3, A4, A5]: Cozip[[ζ$20$](A1, A2, A3, A4, A5, ζ$20$)]

Definition Classes
TupleInstances2
implicit def tuple6Equal[A1, A2, A3, A4, A5, A6](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3], A4: Equal[A4], A5: Equal[A5], A6: Equal[A6]): Equal[(A1, A2, A3, A4, A5, A6)]

Definition Classes
TupleInstances1
implicit def tuple6Functor[A1, A2, A3, A4, A5]: Traverse[[ζ$6$](A1, A2, A3, A4, A5, ζ$6$)]

Definition Classes
TupleInstances0
implicit def tuple6Monad[A1, A2, A3, A4, A5](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5]): Monad[[ζ$27$](A1, A2, A3, A4, A5, ζ$27$)]

Definition Classes
TupleInstances2
implicit def tuple6Monoid[A1, A2, A3, A4, A5, A6](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5], A6: Monoid[A6]): Monoid[(A1, A2, A3, A4, A5, A6)]

Definition Classes
TupleInstances2
implicit def tuple6Order[A1, A2, A3, A4, A5, A6](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3], A4: Order[A4], A5: Order[A5], A6: Order[A6]): Order[(A1, A2, A3, A4, A5, A6)]

Definition Classes
TupleInstances2
implicit def tuple6Semigroup[A1, A2, A3, A4, A5, A6](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3], A4: Semigroup[A4], A5: Semigroup[A5], A6: Semigroup[A6]): Semigroup[(A1, A2, A3, A4, A5, A6)]

Definition Classes
TupleInstances1
implicit def tuple6Show[A1, A2, A3, A4, A5, A6](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3], A4: Show[A4], A5: Show[A5], A6: Show[A6]): Show[(A1, A2, A3, A4, A5, A6)]

Definition Classes
TupleInstances2
implicit def tuple7BindRec[A1, A2, A3, A4, A5, A6](implicit arg0: Semigroup[A1], arg1: Semigroup[A2], arg2: Semigroup[A3], arg3: Semigroup[A4], arg4: Semigroup[A5], arg5: Semigroup[A6]): BindRec[[η$14$](A1, A2, A3, A4, A5, A6, η$14$)]

Definition Classes
TupleInstances1
implicit def tuple7Cozip[A1, A2, A3, A4, A5, A6]: Cozip[[η$21$](A1, A2, A3, A4, A5, A6, η$21$)]

Definition Classes
TupleInstances2
implicit def tuple7Equal[A1, A2, A3, A4, A5, A6, A7](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3], A4: Equal[A4], A5: Equal[A5], A6: Equal[A6], A7: Equal[A7]): Equal[(A1, A2, A3, A4, A5, A6, A7)]

Definition Classes
TupleInstances1
implicit def tuple7Functor[A1, A2, A3, A4, A5, A6]: Traverse[[η$7$](A1, A2, A3, A4, A5, A6, η$7$)]

Definition Classes
TupleInstances0
implicit def tuple7Monad[A1, A2, A3, A4, A5, A6](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5], A6: Monoid[A6]): Monad[[η$28$](A1, A2, A3, A4, A5, A6, η$28$)]

Definition Classes
TupleInstances2
implicit def tuple7Monoid[A1, A2, A3, A4, A5, A6, A7](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5], A6: Monoid[A6], A7: Monoid[A7]): Monoid[(A1, A2, A3, A4, A5, A6, A7)]

Definition Classes
TupleInstances2
implicit def tuple7Order[A1, A2, A3, A4, A5, A6, A7](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3], A4: Order[A4], A5: Order[A5], A6: Order[A6], A7: Order[A7]): Order[(A1, A2, A3, A4, A5, A6, A7)]

Definition Classes
TupleInstances2
implicit def tuple7Semigroup[A1, A2, A3, A4, A5, A6, A7](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3], A4: Semigroup[A4], A5: Semigroup[A5], A6: Semigroup[A6], A7: Semigroup[A7]): Semigroup[(A1, A2, A3, A4, A5, A6, A7)]

Definition Classes
TupleInstances1
implicit def tuple7Show[A1, A2, A3, A4, A5, A6, A7](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3], A4: Show[A4], A5: Show[A5], A6: Show[A6], A7: Show[A7]): Show[(A1, A2, A3, A4, A5, A6, A7)]

Definition Classes
TupleInstances2
implicit def tuple8BindRec[A1, A2, A3, A4, A5, A6, A7](implicit arg0: Semigroup[A1], arg1: Semigroup[A2], arg2: Semigroup[A3], arg3: Semigroup[A4], arg4: Semigroup[A5], arg5: Semigroup[A6], arg6: Semigroup[A7]): BindRec[[θ$15$](A1, A2, A3, A4, A5, A6, A7, θ$15$)]

Definition Classes
TupleInstances1
implicit def tuple8Cozip[A1, A2, A3, A4, A5, A6, A7]: Cozip[[θ$22$](A1, A2, A3, A4, A5, A6, A7, θ$22$)]

Definition Classes
TupleInstances2
implicit def tuple8Equal[A1, A2, A3, A4, A5, A6, A7, A8](implicit A1: Equal[A1], A2: Equal[A2], A3: Equal[A3], A4: Equal[A4], A5: Equal[A5], A6: Equal[A6], A7: Equal[A7], A8: Equal[A8]): Equal[(A1, A2, A3, A4, A5, A6, A7, A8)]

Definition Classes
TupleInstances1
implicit def tuple8Functor[A1, A2, A3, A4, A5, A6, A7]: Traverse[[θ$8$](A1, A2, A3, A4, A5, A6, A7, θ$8$)]

Definition Classes
TupleInstances0
implicit def tuple8Monad[A1, A2, A3, A4, A5, A6, A7](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5], A6: Monoid[A6], A7: Monoid[A7]): Monad[[θ$29$](A1, A2, A3, A4, A5, A6, A7, θ$29$)]

Definition Classes
TupleInstances2
implicit def tuple8Monoid[A1, A2, A3, A4, A5, A6, A7, A8](implicit A1: Monoid[A1], A2: Monoid[A2], A3: Monoid[A3], A4: Monoid[A4], A5: Monoid[A5], A6: Monoid[A6], A7: Monoid[A7], A8: Monoid[A8]): Monoid[(A1, A2, A3, A4, A5, A6, A7, A8)]

Definition Classes
TupleInstances2
implicit def tuple8Order[A1, A2, A3, A4, A5, A6, A7, A8](implicit A1: Order[A1], A2: Order[A2], A3: Order[A3], A4: Order[A4], A5: Order[A5], A6: Order[A6], A7: Order[A7], A8: Order[A8]): Order[(A1, A2, A3, A4, A5, A6, A7, A8)]

Definition Classes
TupleInstances2
implicit def tuple8Semigroup[A1, A2, A3, A4, A5, A6, A7, A8](implicit A1: Semigroup[A1], A2: Semigroup[A2], A3: Semigroup[A3], A4: Semigroup[A4], A5: Semigroup[A5], A6: Semigroup[A6], A7: Semigroup[A7], A8: Semigroup[A8]): Semigroup[(A1, A2, A3, A4, A5, A6, A7, A8)]

Definition Classes
TupleInstances1
implicit def tuple8Show[A1, A2, A3, A4, A5, A6, A7, A8](implicit A1: Show[A1], A2: Show[A2], A3: Show[A3], A4: Show[A4], A5: Show[A5], A6: Show[A6], A7: Show[A7], A8: Show[A8]): Show[(A1, A2, A3, A4, A5, A6, A7, A8)]

Definition Classes
TupleInstances2
final def unionWith[K, A](m1: XMap[K, A], m2: XMap[K, A])(f: (A, A) ⇒ A)(implicit arg0: BuildKeyConstraint[K]): XMap[K, A]

Union, resolving collisions with f, where the first arg is guaranteed to be from m1, the second from m2.
Union, resolving collisions with f, where the first arg is guaranteed to be from m1, the second from m2.

Definition Classes
MapSubFunctions
Note
iff f gives rise to a scalaz.Semigroup, so does unionWith(_, _)(f).
final def unionWithKey[K, A](m1: XMap[K, A], m2: XMap[K, A])(f: (K, A, A) ⇒ A)(implicit arg0: BuildKeyConstraint[K]): XMap[K, A]

Like unionWith, but telling f about the key.
Like unionWith, but telling f about the key.

Definition Classes
MapSubFunctions
implicit val unitInstance: Monoid[Unit] with Enum[Unit] with Show[Unit] with SemiLattice[Unit]

Definition Classes
AnyValInstances
implicit def vectorEqual[A](implicit A0: Equal[A]): Equal[Vector[A]]

Definition Classes
VectorInstances0
implicit val vectorInstance: Traverse[Vector] with MonadPlus[Vector] with BindRec[Vector] with Zip[Vector] with Unzip[Vector] with IsEmpty[Vector] with Align[Vector]

Definition Classes
VectorInstances
implicit def vectorMonoid[A]: Monoid[Vector[A]]

Definition Classes
VectorInstances
implicit def vectorOrder[A](implicit A0: Order[A]): Order[Vector[A]]

Definition Classes
VectorInstances
implicit def vectorShow[A](implicit arg0: Show[A]): Show[Vector[A]]

Definition Classes
VectorInstances
final def wait(): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )
final def wait(arg0: Long, arg1: Int): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )
final def wait(arg0: Long): Unit

Definition Classes
AnyRef
Annotations
@throws( ... )

Related Docs: object AllInstances | package std

Type Members

type BuildKeyConstraint[K] = DummyImplicit

trait MapMonoid[K, V] extends Monoid[XMap[K, V]]

type XMap[K, +V] = Map[K, V]

Value Members

final def !=(arg0: Any): Boolean

final def ##(): Int

val <:<: Category[<:<]

val =:=: Category[=:=]

final def ==(arg0: Any): Boolean

implicit val BigDecimalMultiplicationNewType: Monoid[@@[BigDecimal, Multiplication]]

def FirstLeftProjectionEIso2[E]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [β$10$]Either[E, β$10$]]

val FirstLeftProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

def FirstRightProjectionAIso2[A]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [α$14$]Either[α$14$, A]]

val FirstRightProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

def LastLeftProjectionEIso2[E]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [β$11$]Either[E, β$11$]]

val LastLeftProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

def LastRightProjectionAIso2[A]: Isomorphism.<~>[[α]AnyRef { ... /* 2 definitions in type refinement */ }, [α$15$]Either[α$15$, A]]

val LastRightProjectionIso2: Isomorphism.<~~>[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

def LeftProjectionEIso2[E]: Isomorphism.<~>[[β$8$]LeftProjection[E, β$8$], [β$9$]Either[E, β$9$]]

val LeftProjectionIso2: Isomorphism.<~~>[LeftProjection, Either]

def RightProjectionAIso2[A]: Isomorphism.<~>[[α$12$]RightProjection[α$12$, A], [α$13$]Either[α$13$, A]]

val RightProjectionIso2: Isomorphism.<~~>[RightProjection, Either]

final def ab_+[K, V](m: XMap[K, V], k: K, v: V)(implicit arg0: BuildKeyConstraint[K]): XMap[K, V]

final def ab_-[K, V](m: XMap[K, V], k: K)(implicit arg0: BuildKeyConstraint[K]): XMap[K, V]

final def alter[K, A](m: XMap[K, A], k: K)(f: (Option[A]) ⇒ Option[A])(implicit arg0: BuildKeyConstraint[K]): XMap[K, A]

final def asInstanceOf[T0]: T0

implicit val bigDecimalInstance: Monoid[BigDecimal] with Enum[BigDecimal] with Show[BigDecimal]

implicit val bigIntInstance: Monoid[BigInt] with Enum[BigInt] with Show[BigInt]

implicit val bigIntMultiplication: Monoid[@@[BigInt, Multiplication]] with Order[@@[BigInt, Multiplication]] with Show[@@[BigInt, Multiplication]]

implicit val bigIntegerInstance: Monoid[BigInteger] with Enum[BigInteger] with Show[BigInteger]

implicit val bigIntegerMultiplication: Monoid[@@[BigInteger, Multiplication]] with Order[@@[BigInteger, Multiplication]] with Show[@@[BigInteger, Multiplication]]

implicit val booleanConjunctionNewTypeInstance: Monoid[@@[Boolean, Conjunction]] with Enum[@@[Boolean, Conjunction]] with Band[@@[Boolean, Conjunction]]

implicit val booleanDisjunctionNewTypeInstance: Monoid[@@[Boolean, Tags.Disjunction]] with Enum[@@[Boolean, Tags.Disjunction]] with Band[@@[Boolean, Tags.Disjunction]]

implicit object booleanInstance extends Enum[Boolean] with Show[Boolean]

final def buildXMap[K, V, K2, V2](implicit arg0: BuildKeyConstraint[K2]): CanBuildFrom[XMap[K, V], (K2, V2), XMap[K2, V2]]

implicit val byteInstance: Monoid[Byte] with Enum[Byte] with Show[Byte]

implicit val byteMultiplicationNewType: Monoid[@@[Byte, Multiplication]] with Enum[@@[Byte, Multiplication]]

implicit val callableMonad: Monad[Callable]

implicit def callableOrder[A](implicit arg0: Order[A]): Order[Callable[A]]

implicit val char: Monoid[Char] with Enum[Char] with Show[Char]

implicit val charMultiplicationNewType: Monoid[@@[Char, Multiplication]] with Enum[@@[Char, Multiplication]]

def clone(): AnyRef

implicit val doubleInstance: Order[Double] with Show[Double]

implicit def eitherAssociative: Associative[Either]

implicit def eitherEqual[A, B](implicit A0: Equal[A], B0: Equal[B]): Equal[Either[A, B]]

implicit def eitherFirstLeftEqual[A, X](implicit A0: Equal[A]): Equal[@@[LeftProjection[A, X], First]]

val eitherFirstLeftInstance: IsomorphismBifunctor[[α, β]AnyRef { ... /* 2 definitions in type refinement */ }, Either]

implicit def eitherFirstLeftMonoid[A, X](implicit MonoidX: Monoid[X]): Monoid[@@[LeftProjection[A, X], First]]

implicit def eitherFirstLeftOrder[A, X](implicit OrderA: Order[A]): Order[@@[LeftProjection[A, X], First]]

implicit def eitherFirstLeftRInstance[R]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

implicit def eitherFirstLeftSemigroup[A, X](implicit arg0: Semigroup[A]): Semigroup[@@[LeftProjection[A, X], First]]

implicit def eitherFirstRightEqual[X, A](implicit A0: Equal[A]): Equal[@@[RightProjection[X, A], First]]

implicit def eitherFirstRightLInstance[L]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

implicit def eitherFirstRightMonoid[X, A](implicit MonoidX: Monoid[X]): Monoid[@@[RightProjection[X, A], First]]

implicit def eitherFirstRightOrder[X, A](implicit OrderA: Order[A]): Order[@@[RightProjection[X, A], First]]

implicit def eitherFirstRightSemigroup[X, A](implicit arg0: Semigroup[A]): Semigroup[@@[RightProjection[X, A], First]]

implicit val eitherInstance: Bitraverse[Either]

implicit def eitherLastLeftEqual[A, X](implicit A0: Equal[A]): Equal[@@[LeftProjection[A, X], Last]]

implicit def eitherLastLeftMonoid[A, X](implicit MonoidX: Monoid[X]): Monoid[@@[LeftProjection[A, X], Last]]

implicit def eitherLastLeftOrder[A, X](implicit OrderA: Order[A]): Order[@@[LeftProjection[A, X], Last]]

implicit def eitherLastLeftRInstance[R]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

implicit def eitherLastLeftSemigroup[A, X](implicit arg0: Semigroup[A]): Semigroup[@@[LeftProjection[A, X], Last]]

implicit def eitherLastRightEqual[X, A](implicit A0: Equal[A]): Equal[@@[RightProjection[X, A], Last]]

implicit def eitherLastRightLInstance[L]: Monad[[α]AnyRef { ... /* 2 definitions in type refinement */ }]

implicit def eitherLastRightMonoid[X, A](implicit MonoidX: Monoid[X]): Monoid[@@[RightProjection[X, A], Last]]

implicit def eitherLastRightOrder[X, A](implicit OrderA: Order[A]): Order[@@[RightProjection[X, A], Last]]

implicit def eitherLastRightSemigroup[X, A](implicit arg0: Semigroup[A]): Semigroup[@@[RightProjection[X, A], Last]]

implicit def eitherLeftEqual[A, X](implicit A0: Equal[A]): Equal[LeftProjection[A, X]]

val eitherLeftInstance: IsomorphismBifunctor[LeftProjection, Either]

implicit def eitherLeftMonoid[A, X](implicit MonoidA: Monoid[A], MonoidX: Monoid[X]): Monoid[LeftProjection[A, X]]

implicit def eitherLeftOrder[A, X](implicit OrderA: Order[A]): Order[LeftProjection[A, X]]

implicit def eitherLeftRInstance[R]: Monad[[α$21$]LeftProjection[α$21$, R]] { def point[A](a: => A): scala.util.Either.LeftProjection[A,Nothing] }

implicit def eitherLeftSemigroup[A, X](implicit SemigroupA: Semigroup[A], MonoidX: Monoid[X]): Semigroup[LeftProjection[A, X]]

implicit def eitherMonad[L]: Traverse[[β$0$]Either[L, β$0$]] with MonadError[[β$1$]Either[L, β$1$], L] with BindRec[[β$2$]Either[L, β$2$]] with Cozip[[β$3$]Either[L, β$3$]]

implicit def eitherOrder[A, B](implicit OrderA: Order[A], OrderB: Order[B]): Order[Either[A, B]]

implicit def eitherRightEqual[X, A](implicit A0: Equal[A]): Equal[RightProjection[X, A]]

val eitherRightInstance: IsomorphismBifunctor[RightProjection, Either]