trait Laws[F[_]] extends Applicative.Laws[F] with Type[F]
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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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def
applicativeComposition[A, B, C](fa: F[A], fab: F[(A) ⇒ B], fbc: F[(B) ⇒ C]): IsEquiv[F[C]]
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def
applicativeHomomorphism[A, B](a: A, f: (A) ⇒ B): IsEquiv[F[B]]
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def
applicativeIdentity[A](fa: F[A]): IsEquiv[F[A]]
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def
applicativeInterchange[A, B](a: A, ff: F[(A) ⇒ B]): IsEquiv[F[B]]
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def
applicativeMap[A, B](fa: F[A], f: (A) ⇒ B): IsEquiv[F[B]]
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def
applyComposition[A, B, C](fa: F[A], fab: F[(A) ⇒ B], fbc: F[(B) ⇒ C]): IsEquiv[F[C]]
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asInstanceOf[T0]: T0
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clone(): AnyRef
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def
covariantComposition[A, B, C](fa: F[A], f: (A) ⇒ B, g: (B) ⇒ C): IsEquiv[F[C]]
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def
covariantIdentity[A](fa: F[A]): IsEquiv[F[A]]
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final
def
eq(arg0: AnyRef): Boolean
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equals(arg0: Any): Boolean
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- def flatMapAssociativity[A, B, C](fa: F[A], f: (A) ⇒ F[B], g: (B) ⇒ F[C]): IsEquiv[F[C]]
- def flatMapConsistentApply[A, B](fa: F[A], fab: F[(A) ⇒ B]): IsEquiv[F[B]]
- def flatMapConsistentMap2[A, B, C](fa: F[A], fb: F[B], f: (A, B) ⇒ C): IsEquiv[F[C]]
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synchronized[T0](arg0: ⇒ T0): T0
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toString(): String
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This is the API documentation for the Monix library.
Package Overview
monix.execution exposes lower level primitives for dealing with asynchronous execution:
Atomic
types, as alternative tojava.util.concurrent.atomic
monix.eval is for dealing with evaluation of results, thus exposing Task and Coeval.
monix.reactive exposes the
Observable
pattern:Observable
implementationsmonix.types implements type-class shims, to be translated to type-classes provided by libraries such as Cats or Scalaz.
monix.cats is the optional integration with the Cats library, providing translations for the types described in
monix.types
.monix.scalaz is the optional integration with the Scalaz library, providing translations for the types described in
monix.types
.