trait
AllOps[F[_], D] extends Ops[F, D] with Foldable.AllOps[F, D]
Type Members
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abstract
type
TypeClassType <: Reducible[F]
Abstract Value Members
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abstract
def
self: F[D]
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abstract
val
typeClassInstance: TypeClassType
Concrete Value Members
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final
def
!=(arg0: Any): Boolean
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final
def
##(): Int
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final
def
==(arg0: Any): Boolean
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final
def
asInstanceOf[T0]: T0
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def
clone(): AnyRef
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def
collectFirstSome[B](f: (D) ⇒ Option[B]): Option[B]
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def
combineAll(implicit arg0: Monoid[D]): D
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def
dropWhile_(p: (D) ⇒ Boolean): List[D]
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def
existsM[G[_]](p: (D) ⇒ G[Boolean])(implicit G: Monad[G]): G[Boolean]
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def
filter_(p: (D) ⇒ Boolean): List[D]
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def
finalize(): Unit
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def
fold(implicit A: Monoid[D]): D
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def
foldK[G[_], A](implicit arg0: <:<[D, G[A]], G: MonoidK[G]): G[A]
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def
foldLeft[B](b: B)(f: (B, D) ⇒ B): B
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def
foldLeftM[G[_], B](z: B)(f: (B, D) ⇒ G[B])(implicit G: Monad[G]): G[B]
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def
foldM[G[_], B](z: B)(f: (B, D) ⇒ G[B])(implicit G: Monad[G]): G[B]
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def
foldMap[B](f: (D) ⇒ B)(implicit B: Monoid[B]): B
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def
foldMapM[G[_], B](f: (D) ⇒ G[B])(implicit G: Monad[G], B: Monoid[B]): G[B]
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def
foldRight[B](lb: Eval[B])(f: (D, Eval[B]) ⇒ Eval[B]): Eval[B]
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def
forallM[G[_]](p: (D) ⇒ G[Boolean])(implicit G: Monad[G]): G[Boolean]
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final
def
getClass(): Class[_]
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def
hashCode(): Int
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def
intercalate(a: D)(implicit A: Monoid[D]): D
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final
def
isInstanceOf[T0]: Boolean
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def
maximum(implicit A: Order[D]): D
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def
maximumOption(implicit A: Order[D]): Option[D]
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def
minimum(implicit A: Order[D]): D
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def
minimumOption(implicit A: Order[D]): Option[D]
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def
nonEmptyIntercalate(a: D)(implicit A: Semigroup[D]): D
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def
nonEmptyPartition[B, C](f: (D) ⇒ Either[B, C]): Ior[NonEmptyList[B], NonEmptyList[C]]
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def
nonEmptySequence_[G[_], A](implicit arg0: <:<[D, G[A]], G: Apply[G]): G[Unit]
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def
nonEmptyTraverse_[G[_], B](f: (D) ⇒ G[B])(implicit G: Apply[G]): G[Unit]
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final
def
notify(): Unit
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final
def
notifyAll(): Unit
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def
partitionEither[B, C](f: (D) ⇒ Either[B, C])(implicit A: Alternative[F]): (F[B], F[C])
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def
reduce(implicit A: Semigroup[D]): D
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def
reduceK[G[_], A](implicit arg0: <:<[D, G[A]], G: SemigroupK[G]): G[A]
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def
reduceLeft(f: (D, D) ⇒ D): D
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def
reduceLeftM[G[_], B](f: (D) ⇒ G[B])(g: (B, D) ⇒ G[B])(implicit G: FlatMap[G]): G[B]
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def
reduceLeftOption(f: (D, D) ⇒ D): Option[D]
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def
reduceLeftTo[B](f: (D) ⇒ B)(g: (B, D) ⇒ B): B
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def
reduceLeftToOption[B](f: (D) ⇒ B)(g: (B, D) ⇒ B): Option[B]
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def
reduceMap[B](f: (D) ⇒ B)(implicit B: Semigroup[B]): B
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def
reduceMapM[G[_], B](f: (D) ⇒ G[B])(implicit G: FlatMap[G], B: Semigroup[B]): G[B]
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def
reduceRight(f: (D, Eval[D]) ⇒ Eval[D]): Eval[D]
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def
reduceRightOption(f: (D, Eval[D]) ⇒ Eval[D]): Eval[Option[D]]
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def
reduceRightTo[B](f: (D) ⇒ B)(g: (D, Eval[B]) ⇒ Eval[B]): Eval[B]
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def
reduceRightToOption[B](f: (D) ⇒ B)(g: (D, Eval[B]) ⇒ Eval[B]): Eval[Option[B]]
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def
sequence_[G[_], A](implicit arg0: <:<[D, G[A]], arg1: Applicative[G]): G[Unit]
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def
size: Long
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final
def
synchronized[T0](arg0: ⇒ T0): T0
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def
takeWhile_(p: (D) ⇒ Boolean): List[D]
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def
toList: List[D]
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def
toString(): String
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def
traverse_[G[_], B](f: (D) ⇒ G[B])(implicit G: Applicative[G]): G[Unit]
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def
unorderedFold(implicit arg0: CommutativeMonoid[D]): D
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def
unorderedFoldMap[B](f: (D) ⇒ B)(implicit arg0: CommutativeMonoid[B]): B
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final
def
wait(): Unit
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final
def
wait(arg0: Long, arg1: Int): Unit
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final
def
wait(arg0: Long): Unit