Trait/Object

scalaz

MonadListen

Related Docs: object MonadListen | package scalaz

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trait MonadListen[F[_], W] extends MonadTell[F, W]

Source
MonadListen.scala
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Inherited
  1. MonadListen
  2. MonadTell
  3. Monad
  4. Bind
  5. Applicative
  6. InvariantApplicative
  7. Apply
  8. Functor
  9. InvariantFunctor
  10. AnyRef
  11. Any
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Visibility
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Type Members

  1. trait ApplicativeLaw extends ApplyLaw

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    Definition Classes
    Applicative
  2. trait ApplyLaw extends FunctorLaw

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    Definition Classes
    Apply
  3. trait BindLaw extends ApplyLaw

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    Definition Classes
    Bind
  4. trait FlippedApply extends Apply[F]

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    Attributes
    protected[this]
    Definition Classes
    Apply
  5. trait FunctorLaw extends InvariantFunctorLaw

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    Definition Classes
    Functor
  6. trait InvariantFunctorLaw extends AnyRef

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    Definition Classes
    InvariantFunctor
  7. trait MonadLaw extends ApplicativeLaw with BindLaw

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    Definition Classes
    Monad

Abstract Value Members

  1. abstract def bind[A, B](fa: F[A])(f: (A) ⇒ F[B]): F[B]

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    Equivalent to join(map(fa)(f)).

    Equivalent to join(map(fa)(f)).

    Definition Classes
    Bind
  2. abstract def listen[A](ma: F[A]): F[(A, W)]

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  3. abstract def point[A](a: ⇒ A): F[A]

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    Definition Classes
    Applicative
  4. abstract def writer[A](w: W, v: A): F[A]

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    Definition Classes
    MonadTell

Concrete Value Members

  1. final def !=(arg0: Any): Boolean

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

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    Definition Classes
    AnyRef → Any
  3. final def ==(arg0: Any): Boolean

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    Definition Classes
    AnyRef → Any
  4. def ap[A, B](fa: ⇒ F[A])(f: ⇒ F[(A) ⇒ B]): F[B]

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    Sequence f, then fa, combining their results by function application.

    Sequence f, then fa, combining their results by function application.

    NB: with respect to apply2 and all other combinators, as well as scalaz.Bind, the f action appears to the *left*. So f should be the "first" F-action to perform. This is in accordance with all other implementations of this typeclass in common use, which are "function first".

    Definition Classes
    BindApply
  5. def ap2[A, B, C](fa: ⇒ F[A], fb: ⇒ F[B])(f: F[(A, B) ⇒ C]): F[C]

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    Definition Classes
    Apply
  6. def ap3[A, B, C, D](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C])(f: F[(A, B, C) ⇒ D]): F[D]

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    Definition Classes
    Apply
  7. def ap4[A, B, C, D, E](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D])(f: F[(A, B, C, D) ⇒ E]): F[E]

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    Definition Classes
    Apply
  8. def ap5[A, B, C, D, E, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E])(f: F[(A, B, C, D, E) ⇒ R]): F[R]

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    Definition Classes
    Apply
  9. def ap6[A, B, C, D, E, FF, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF])(f: F[(A, B, C, D, E, FF) ⇒ R]): F[R]

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    Definition Classes
    Apply
  10. def ap7[A, B, C, D, E, FF, G, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G])(f: F[(A, B, C, D, E, FF, G) ⇒ R]): F[R]

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    Definition Classes
    Apply
  11. def ap8[A, B, C, D, E, FF, G, H, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H])(f: F[(A, B, C, D, E, FF, G, H) ⇒ R]): F[R]

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    Definition Classes
    Apply
  12. def apF[A, B](f: ⇒ F[(A) ⇒ B]): (F[A]) ⇒ F[B]

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    Flipped variant of ap.

    Flipped variant of ap.

    Definition Classes
    Apply
  13. def applicativeLaw: ApplicativeLaw

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    Definition Classes
    Applicative
  14. val applicativeSyntax: ApplicativeSyntax[F]

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    Definition Classes
    Applicative
  15. def apply[A, B](fa: F[A])(f: (A) ⇒ B): F[B]

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    Alias for map.

    Alias for map.

    Definition Classes
    Functor
  16. def apply10[A, B, C, D, E, FF, G, H, I, J, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H], fi: ⇒ F[I], fj: ⇒ F[J])(f: (A, B, C, D, E, FF, G, H, I, J) ⇒ R): F[R]

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    Definition Classes
    Apply
  17. def apply11[A, B, C, D, E, FF, G, H, I, J, K, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H], fi: ⇒ F[I], fj: ⇒ F[J], fk: ⇒ F[K])(f: (A, B, C, D, E, FF, G, H, I, J, K) ⇒ R): F[R]

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    Definition Classes
    Apply
  18. def apply12[A, B, C, D, E, FF, G, H, I, J, K, L, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H], fi: ⇒ F[I], fj: ⇒ F[J], fk: ⇒ F[K], fl: ⇒ F[L])(f: (A, B, C, D, E, FF, G, H, I, J, K, L) ⇒ R): F[R]

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    Definition Classes
    Apply
  19. def apply2[A, B, C](fa: ⇒ F[A], fb: ⇒ F[B])(f: (A, B) ⇒ C): F[C]

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    Definition Classes
    BindApply
  20. def apply3[A, B, C, D](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C])(f: (A, B, C) ⇒ D): F[D]

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    Definition Classes
    Apply
  21. def apply4[A, B, C, D, E](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D])(f: (A, B, C, D) ⇒ E): F[E]

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    Definition Classes
    Apply
  22. def apply5[A, B, C, D, E, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E])(f: (A, B, C, D, E) ⇒ R): F[R]

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    Definition Classes
    Apply
  23. def apply6[A, B, C, D, E, FF, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF])(f: (A, B, C, D, E, FF) ⇒ R): F[R]

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    Definition Classes
    Apply
  24. def apply7[A, B, C, D, E, FF, G, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G])(f: (A, B, C, D, E, FF, G) ⇒ R): F[R]

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    Definition Classes
    Apply
  25. def apply8[A, B, C, D, E, FF, G, H, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H])(f: (A, B, C, D, E, FF, G, H) ⇒ R): F[R]

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    Definition Classes
    Apply
  26. def apply9[A, B, C, D, E, FF, G, H, I, R](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E], ff: ⇒ F[FF], fg: ⇒ F[G], fh: ⇒ F[H], fi: ⇒ F[I])(f: (A, B, C, D, E, FF, G, H, I) ⇒ R): F[R]

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    Definition Classes
    Apply
  27. def applyApplicative: Applicative[[α]\/[F[α], α]]

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    Add a unit to any Apply to form an Applicative.

    Add a unit to any Apply to form an Applicative.

    Definition Classes
    Apply
  28. def applyLaw: ApplyLaw

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    Definition Classes
    Apply
  29. val applySyntax: ApplySyntax[F]

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    Definition Classes
    Apply
  30. final def applying1[Z, A1](f: (A1) ⇒ Z)(implicit a1: F[A1]): F[Z]

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    Definition Classes
    Apply
  31. final def applying2[Z, A1, A2](f: (A1, A2) ⇒ Z)(implicit a1: F[A1], a2: F[A2]): F[Z]

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    Definition Classes
    Apply
  32. final def applying3[Z, A1, A2, A3](f: (A1, A2, A3) ⇒ Z)(implicit a1: F[A1], a2: F[A2], a3: F[A3]): F[Z]

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    Definition Classes
    Apply
  33. final def applying4[Z, A1, A2, A3, A4](f: (A1, A2, A3, A4) ⇒ Z)(implicit a1: F[A1], a2: F[A2], a3: F[A3], a4: F[A4]): F[Z]

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    Definition Classes
    Apply
  34. final def asInstanceOf[T0]: T0

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    Definition Classes
    Any
  35. def bicompose[G[_, _]](implicit arg0: Bifunctor[G]): Bifunctor[[α, β]F[G[α, β]]]

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    The composition of Functor F and Bifunctor G, [x, y]F[G[x, y]], is a Bifunctor

    The composition of Functor F and Bifunctor G, [x, y]F[G[x, y]], is a Bifunctor

    Definition Classes
    Functor
  36. def bindLaw: BindLaw

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    Definition Classes
    Bind
  37. val bindSyntax: BindSyntax[F]

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    Definition Classes
    Bind
  38. def clone(): AnyRef

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    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( ... )
  39. def compose[G[_]](implicit G0: Applicative[G]): Applicative[[α]F[G[α]]]

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    The composition of Applicatives F and G, [x]F[G[x]], is an Applicative

    The composition of Applicatives F and G, [x]F[G[x]], is an Applicative

    Definition Classes
    Applicative
  40. def compose[G[_]](implicit G0: Apply[G]): Apply[[α]F[G[α]]]

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    The composition of Applys F and G, [x]F[G[x]], is a Apply

    The composition of Applys F and G, [x]F[G[x]], is a Apply

    Definition Classes
    Apply
  41. def compose[G[_]](implicit G0: Functor[G]): Functor[[α]F[G[α]]]

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    The composition of Functors F and G, [x]F[G[x]], is a Functor

    The composition of Functors F and G, [x]F[G[x]], is a Functor

    Definition Classes
    Functor
  42. def counzip[A, B](a: \/[F[A], F[B]]): F[\/[A, B]]

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    Definition Classes
    Functor
  43. def discardLeft[A, B](fa: ⇒ F[A], fb: ⇒ F[B]): F[B]

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    Combine fa and fb according to Apply[F] with a function that discards the A(s)

    Combine fa and fb according to Apply[F] with a function that discards the A(s)

    Definition Classes
    Apply
  44. def discardRight[A, B](fa: ⇒ F[A], fb: ⇒ F[B]): F[A]

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    Combine fa and fb according to Apply[F] with a function that discards the B(s)

    Combine fa and fb according to Apply[F] with a function that discards the B(s)

    Definition Classes
    Apply
  45. final def eq(arg0: AnyRef): Boolean

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

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    Definition Classes
    AnyRef → Any
  47. def filterM[A](l: IList[A])(f: (A) ⇒ F[Boolean]): F[IList[A]]

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    Filter l according to an applicative predicate.

    Filter l according to an applicative predicate.

    Definition Classes
    Applicative
  48. def filterM[A](l: List[A])(f: (A) ⇒ F[Boolean]): F[List[A]]

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    Filter l according to an applicative predicate.

    Filter l according to an applicative predicate.

    Definition Classes
    Applicative
  49. def filterM[A, B](map: ==>>[A, B])(f: (B) ⇒ F[Boolean])(implicit O: Order[A]): F[==>>[A, B]]

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    Filter map according to an applicative predicate.

    Filter map according to an applicative predicate. *

    Definition Classes
    Applicative
  50. def finalize(): Unit

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    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( classOf[java.lang.Throwable] )
  51. def flip: Applicative[F]

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    An Applicative for F in which effects happen in the opposite order.

    An Applicative for F in which effects happen in the opposite order.

    Definition Classes
    ApplicativeApply
  52. def forever[A, B](fa: F[A]): F[B]

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    Repeats an applicative action infinitely

    Repeats an applicative action infinitely

    Definition Classes
    Apply
  53. def fpair[A](fa: F[A]): F[(A, A)]

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    Twin all As in fa.

    Twin all As in fa.

    Definition Classes
    Functor
  54. def fproduct[A, B](fa: F[A])(f: (A) ⇒ B): F[(A, B)]

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    Pair all As in fa with the result of function application.

    Pair all As in fa with the result of function application.

    Definition Classes
    Functor
  55. def functorLaw: FunctorLaw

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    Definition Classes
    Functor
  56. val functorSyntax: FunctorSyntax[F]

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    Definition Classes
    Functor
  57. final def getClass(): Class[_]

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    Definition Classes
    AnyRef → Any
  58. def hashCode(): Int

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    Definition Classes
    AnyRef → Any
  59. def icompose[G[_]](implicit G0: Contravariant[G]): Contravariant[[α]F[G[α]]]

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    The composition of Functor F and Contravariant G, [x]F[G[x]], is contravariant.

    The composition of Functor F and Contravariant G, [x]F[G[x]], is contravariant.

    Definition Classes
    Functor
  60. def ifM[B](value: F[Boolean], ifTrue: ⇒ F[B], ifFalse: ⇒ F[B]): F[B]

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    if lifted into a binding.

    if lifted into a binding. Unlike lift3((t,c,a)=>if(t)c else a), this will only include context from the chosen of ifTrue and ifFalse, not the other.

    Definition Classes
    Bind
  61. val invariantApplicativeSyntax: InvariantApplicativeSyntax[F]

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    Definition Classes
    InvariantApplicative
  62. def invariantFunctorLaw: InvariantFunctorLaw

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    Definition Classes
    InvariantFunctor
  63. val invariantFunctorSyntax: InvariantFunctorSyntax[F]

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    Definition Classes
    InvariantFunctor
  64. final def isInstanceOf[T0]: Boolean

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    Definition Classes
    Any
  65. def iterateUntil[A](f: F[A])(p: (A) ⇒ Boolean): F[A]

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    Execute an action repeatedly until its result satisfies the given predicate and return that result, discarding all others.

    Execute an action repeatedly until its result satisfies the given predicate and return that result, discarding all others.

    Definition Classes
    Monad
  66. def iterateWhile[A](f: F[A])(p: (A) ⇒ Boolean): F[A]

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    Execute an action repeatedly until its result fails to satisfy the given predicate and return that result, discarding all others.

    Execute an action repeatedly until its result fails to satisfy the given predicate and return that result, discarding all others.

    Definition Classes
    Monad
  67. def join[A](ffa: F[F[A]]): F[A]

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    Sequence the inner F of FFA after the outer F, forming a single F[A].

    Sequence the inner F of FFA after the outer F, forming a single F[A].

    Definition Classes
    Bind
  68. def lift[A, B](f: (A) ⇒ B): (F[A]) ⇒ F[B]

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    Lift f into F.

    Lift f into F.

    Definition Classes
    Functor
  69. def lift10[A, B, C, D, E, FF, G, H, I, J, R](f: (A, B, C, D, E, FF, G, H, I, J) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G], F[H], F[I], F[J]) ⇒ F[R]

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    Definition Classes
    Apply
  70. def lift11[A, B, C, D, E, FF, G, H, I, J, K, R](f: (A, B, C, D, E, FF, G, H, I, J, K) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G], F[H], F[I], F[J], F[K]) ⇒ F[R]

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    Definition Classes
    Apply
  71. def lift12[A, B, C, D, E, FF, G, H, I, J, K, L, R](f: (A, B, C, D, E, FF, G, H, I, J, K, L) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G], F[H], F[I], F[J], F[K], F[L]) ⇒ F[R]

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    Definition Classes
    Apply
  72. def lift2[A, B, C](f: (A, B) ⇒ C): (F[A], F[B]) ⇒ F[C]

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    Definition Classes
    Apply
  73. def lift3[A, B, C, D](f: (A, B, C) ⇒ D): (F[A], F[B], F[C]) ⇒ F[D]

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    Definition Classes
    Apply
  74. def lift4[A, B, C, D, E](f: (A, B, C, D) ⇒ E): (F[A], F[B], F[C], F[D]) ⇒ F[E]

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    Definition Classes
    Apply
  75. def lift5[A, B, C, D, E, R](f: (A, B, C, D, E) ⇒ R): (F[A], F[B], F[C], F[D], F[E]) ⇒ F[R]

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    Definition Classes
    Apply
  76. def lift6[A, B, C, D, E, FF, R](f: (A, B, C, D, E, FF) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF]) ⇒ F[R]

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    Definition Classes
    Apply
  77. def lift7[A, B, C, D, E, FF, G, R](f: (A, B, C, D, E, FF, G) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G]) ⇒ F[R]

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    Definition Classes
    Apply
  78. def lift8[A, B, C, D, E, FF, G, H, R](f: (A, B, C, D, E, FF, G, H) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G], F[H]) ⇒ F[R]

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    Definition Classes
    Apply
  79. def lift9[A, B, C, D, E, FF, G, H, I, R](f: (A, B, C, D, E, FF, G, H, I) ⇒ R): (F[A], F[B], F[C], F[D], F[E], F[FF], F[G], F[H], F[I]) ⇒ F[R]

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    Definition Classes
    Apply
  80. def liftReducer[A, B](implicit r: Reducer[A, B]): Reducer[F[A], F[B]]

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    Definition Classes
    Apply
  81. def map[A, B](fa: F[A])(f: (A) ⇒ B): F[B]

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    Lift f into F and apply to F[A].

    Lift f into F and apply to F[A].

    Definition Classes
    MonadApplicativeFunctor
  82. def mapply[A, B](a: A)(f: F[(A) ⇒ B]): F[B]

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    Lift apply(a), and apply the result to f.

    Lift apply(a), and apply the result to f.

    Definition Classes
    Functor
  83. def monadLaw: MonadLaw

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    Definition Classes
    Monad
  84. val monadListenSyntax: MonadListenSyntax[F, W]

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  85. val monadSyntax: MonadSyntax[F]

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    Definition Classes
    Monad
  86. val monadTellSyntax: MonadTellSyntax[F, W]

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    Definition Classes
    MonadTell
  87. def mproduct[A, B](fa: F[A])(f: (A) ⇒ F[B]): F[(A, B)]

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    Pair A with the result of function application.

    Pair A with the result of function application.

    Definition Classes
    Bind
  88. final def ne(arg0: AnyRef): Boolean

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    Definition Classes
    AnyRef
  89. final def notify(): Unit

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    Definition Classes
    AnyRef
  90. final def notifyAll(): Unit

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    Definition Classes
    AnyRef
  91. def par: Par[F]

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    A lawful implementation of this that is isomorphic up to the methods defined on Applicative allowing for optimised parallel implementations that would otherwise violate laws of more specific typeclasses (e.g.

    A lawful implementation of this that is isomorphic up to the methods defined on Applicative allowing for optimised parallel implementations that would otherwise violate laws of more specific typeclasses (e.g. Monad).

    Definition Classes
    Applicative
  92. def pass[A](ma: F[(A, (W) ⇒ W)]): F[A]

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  93. def plusA[A](x: ⇒ F[A], y: ⇒ F[A])(implicit sa: Semigroup[A]): F[A]

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    Semigroups can be added within an Applicative

    Semigroups can be added within an Applicative

    Definition Classes
    Applicative
  94. def product[G[_]](implicit G0: Monad[G]): Monad[[α](F[α], G[α])]

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    The product of Monad F and G, [x](F[x], G[x]]), is a Monad

    The product of Monad F and G, [x](F[x], G[x]]), is a Monad

    Definition Classes
    Monad
  95. def product[G[_]](implicit G0: Bind[G]): Bind[[α](F[α], G[α])]

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    The product of Bind F and G, [x](F[x], G[x]]), is a Bind

    The product of Bind F and G, [x](F[x], G[x]]), is a Bind

    Definition Classes
    Bind
  96. def product[G[_]](implicit G0: Applicative[G]): Applicative[[α](F[α], G[α])]

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    The product of Applicatives F and G, [x](F[x], G[x]]), is an Applicative

    The product of Applicatives F and G, [x](F[x], G[x]]), is an Applicative

    Definition Classes
    Applicative
  97. def product[G[_]](implicit G0: Apply[G]): Apply[[α](F[α], G[α])]

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    The product of Applys F and G, [x](F[x], G[x]]), is a Apply

    The product of Applys F and G, [x](F[x], G[x]]), is a Apply

    Definition Classes
    Apply
  98. def product[G[_]](implicit G0: Functor[G]): Functor[[α](F[α], G[α])]

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    The product of Functors F and G, [x](F[x], G[x]]), is a Functor

    The product of Functors F and G, [x](F[x], G[x]]), is a Functor

    Definition Classes
    Functor
  99. final def pure[A](a: ⇒ A): F[A]

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    Definition Classes
    Applicative
  100. def replicateM[A](n: Int, fa: F[A]): F[IList[A]]

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    Performs the action n times, returning the list of results.

    Performs the action n times, returning the list of results.

    Definition Classes
    Applicative
  101. def replicateM_[A](n: Int, fa: F[A]): F[Unit]

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    Performs the action n times, returning nothing.

    Performs the action n times, returning nothing.

    Definition Classes
    Applicative
  102. def sequence[A, G[_]](as: G[F[A]])(implicit arg0: Traverse[G]): F[G[A]]

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    Definition Classes
    Applicative
  103. def sequence1[A, G[_]](as: G[F[A]])(implicit arg0: Traverse1[G]): F[G[A]]

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    Definition Classes
    Apply
  104. def strengthL[A, B](a: A, f: F[B]): F[(A, B)]

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    Inject a to the left of Bs in f.

    Inject a to the left of Bs in f.

    Definition Classes
    Functor
  105. def strengthR[A, B](f: F[A], b: B): F[(A, B)]

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    Inject b to the right of As in f.

    Inject b to the right of As in f.

    Definition Classes
    Functor
  106. final def synchronized[T0](arg0: ⇒ T0): T0

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    Definition Classes
    AnyRef
  107. def tell(w: W): F[Unit]

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    Definition Classes
    MonadTell
  108. def toString(): String

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    Definition Classes
    AnyRef → Any
  109. def traverse[A, G[_], B](value: G[A])(f: (A) ⇒ F[B])(implicit G: Traverse[G]): F[G[B]]

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    Definition Classes
    Applicative
  110. def traverse1[A, G[_], B](value: G[A])(f: (A) ⇒ F[B])(implicit G: Traverse1[G]): F[G[B]]

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    Definition Classes
    Apply
  111. def tuple2[A, B](fa: ⇒ F[A], fb: ⇒ F[B]): F[(A, B)]

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    Definition Classes
    Apply
  112. def tuple3[A, B, C](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C]): F[(A, B, C)]

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    Definition Classes
    Apply
  113. def tuple4[A, B, C, D](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D]): F[(A, B, C, D)]

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    Definition Classes
    Apply
  114. def tuple5[A, B, C, D, E](fa: ⇒ F[A], fb: ⇒ F[B], fc: ⇒ F[C], fd: ⇒ F[D], fe: ⇒ F[E]): F[(A, B, C, D, E)]

    Permalink
    Definition Classes
    Apply
  115. def unfoldrOpt[S, A, B](seed: S)(f: (S) ⇒ Maybe[(F[A], S)])(implicit R: Reducer[A, B]): Maybe[F[B]]

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    Unfold seed to the right and combine effects left-to-right, using the given Reducer to combine values.

    Unfold seed to the right and combine effects left-to-right, using the given Reducer to combine values. Implementations may override this method to not unfold more than is necessary to determine the result.

    Definition Classes
    Apply
  116. def unlessM[A](cond: Boolean)(f: ⇒ F[A]): F[Unit]

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    Returns the given argument if cond is false, otherwise, unit lifted into F.

    Returns the given argument if cond is false, otherwise, unit lifted into F.

    Definition Classes
    Applicative
  117. def untilM[G[_], A](f: F[A], cond: ⇒ F[Boolean])(implicit G: MonadPlus[G]): F[G[A]]

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    Execute an action repeatedly until the Boolean condition returns true.

    Execute an action repeatedly until the Boolean condition returns true. The condition is evaluated after the loop body. Collects results into an arbitrary MonadPlus value, such as a List.

    Definition Classes
    Monad
  118. def untilM_[A](f: F[A], cond: ⇒ F[Boolean]): F[Unit]

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    Execute an action repeatedly until the Boolean condition returns true.

    Execute an action repeatedly until the Boolean condition returns true. The condition is evaluated after the loop body. Discards results.

    Definition Classes
    Monad
  119. def void[A](fa: F[A]): F[Unit]

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    Empty fa of meaningful pure values, preserving its structure.

    Empty fa of meaningful pure values, preserving its structure.

    Definition Classes
    Functor
  120. final def wait(): Unit

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

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

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    Definition Classes
    AnyRef
    Annotations
    @throws( ... )
  123. def whenM[A](cond: Boolean)(f: ⇒ F[A]): F[Unit]

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    Returns the given argument if cond is true, otherwise, unit lifted into F.

    Returns the given argument if cond is true, otherwise, unit lifted into F.

    Definition Classes
    Applicative
  124. def whileM[G[_], A](p: F[Boolean], body: ⇒ F[A])(implicit G: MonadPlus[G]): F[G[A]]

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    Execute an action repeatedly as long as the given Boolean expression returns true.

    Execute an action repeatedly as long as the given Boolean expression returns true. The condition is evaluated before the loop body. Collects the results into an arbitrary MonadPlus value, such as a List.

    Definition Classes
    Monad
  125. def whileM_[A](p: F[Boolean], body: ⇒ F[A]): F[Unit]

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    Execute an action repeatedly as long as the given Boolean expression returns true.

    Execute an action repeatedly as long as the given Boolean expression returns true. The condition is evaluated before the loop body. Discards results.

    Definition Classes
    Monad
  126. def widen[A, B](fa: F[A])(implicit ev: <~<[A, B]): F[B]

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    Functors are covariant by nature, so we can treat an F[A] as an F[B] if A is a subtype of B.

    Functors are covariant by nature, so we can treat an F[A] as an F[B] if A is a subtype of B.

    Definition Classes
    Functor
  127. final def xderiving0[Z](z: ⇒ Z): F[Z]

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    Definition Classes
    InvariantApplicative
  128. final def xderiving1[Z, A1](f: (A1) ⇒ Z, g: (Z) ⇒ A1)(implicit a1: F[A1]): F[Z]

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    Definition Classes
    InvariantApplicative
  129. final def xderiving2[Z, A1, A2](f: (A1, A2) ⇒ Z, g: (Z) ⇒ (A1, A2))(implicit a1: F[A1], a2: F[A2]): F[Z]

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    Definition Classes
    InvariantApplicative
  130. final def xderiving3[Z, A1, A2, A3](f: (A1, A2, A3) ⇒ Z, g: (Z) ⇒ (A1, A2, A3))(implicit a1: F[A1], a2: F[A2], a3: F[A3]): F[Z]

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    Definition Classes
    InvariantApplicative
  131. final def xderiving4[Z, A1, A2, A3, A4](f: (A1, A2, A3, A4) ⇒ Z, g: (Z) ⇒ (A1, A2, A3, A4))(implicit a1: F[A1], a2: F[A2], a3: F[A3], a4: F[A4]): F[Z]

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    Definition Classes
    InvariantApplicative
  132. def xmap[A, B](fa: F[A], f: (A) ⇒ B, g: (B) ⇒ A): F[B]

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    Converts ma to a value of type F[B] using the provided functions f and g.

    Converts ma to a value of type F[B] using the provided functions f and g.

    Definition Classes
    FunctorInvariantFunctor
  133. def xmapb[A, B](ma: F[A])(b: Bijection[A, B]): F[B]

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    Converts ma to a value of type F[B] using the provided bijection.

    Converts ma to a value of type F[B] using the provided bijection.

    Definition Classes
    InvariantFunctor
  134. def xmapi[A, B](ma: F[A])(iso: Isomorphism.<=>[A, B]): F[B]

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    Converts ma to a value of type F[B] using the provided isomorphism.

    Converts ma to a value of type F[B] using the provided isomorphism.

    Definition Classes
    InvariantFunctor
  135. def xproduct0[Z](z: ⇒ Z): F[Z]

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    Definition Classes
    ApplicativeInvariantApplicative
  136. def xproduct1[Z, A1](a1: ⇒ F[A1])(f: (A1) ⇒ Z, g: (Z) ⇒ A1): F[Z]

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    Definition Classes
    ApplicativeInvariantApplicative
  137. def xproduct2[Z, A1, A2](a1: ⇒ F[A1], a2: ⇒ F[A2])(f: (A1, A2) ⇒ Z, g: (Z) ⇒ (A1, A2)): F[Z]

    Permalink
    Definition Classes
    ApplicativeInvariantApplicative
  138. def xproduct3[Z, A1, A2, A3](a1: ⇒ F[A1], a2: ⇒ F[A2], a3: ⇒ F[A3])(f: (A1, A2, A3) ⇒ Z, g: (Z) ⇒ (A1, A2, A3)): F[Z]

    Permalink
    Definition Classes
    ApplicativeInvariantApplicative
  139. def xproduct4[Z, A1, A2, A3, A4](a1: ⇒ F[A1], a2: ⇒ F[A2], a3: ⇒ F[A3], a4: ⇒ F[A4])(f: (A1, A2, A3, A4) ⇒ Z, g: (Z) ⇒ (A1, A2, A3, A4)): F[Z]

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    Definition Classes
    ApplicativeInvariantApplicative

Inherited from MonadTell[F, W]

Inherited from Monad[F]

Inherited from Bind[F]

Inherited from Applicative[F]

Inherited from InvariantApplicative[F]

Inherited from Apply[F]

Inherited from Functor[F]

Inherited from InvariantFunctor[F]

Inherited from AnyRef

Inherited from Any

Ungrouped