sealed
class
IdOps[A] extends AnyRef
Instance Constructors
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new
IdOps(self: A)
Type Members
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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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def
ana[T[_[_]], F[_]](f: (A) ⇒ F[A])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
anaM[T[_[_]], M[_], F[_]](f: (A) ⇒ M[F[A]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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def
apo[T[_[_]], F[_]](f: (A) ⇒ F[\/[T[F], A]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
apoM[T[_[_]], M[_], F[_]](f: (A) ⇒ M[F[\/[T[F], A]]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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final
def
asInstanceOf[T0]: T0
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def
attributeAna[F[_]](ψ: (A) ⇒ F[A])(implicit arg0: Functor[F]): Cofree[F, A]
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def
attributeAnaM[M[_], F[_]](ψ: (A) ⇒ M[F[A]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[Cofree[F, A]]
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def
chrono[F[_], B](g: (F[Cofree[F, B]]) ⇒ B, f: (A) ⇒ F[Free[F, A]])(implicit arg0: Functor[F]): B
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def
clone(): AnyRef
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def
codyna[F[_], B](φ: (F[B]) ⇒ B, ψ: (A) ⇒ F[Free[F, A]])(implicit arg0: Functor[F]): B
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def
codynaM[M[_], F[_], B](φ: (F[B]) ⇒ M[B], ψ: (A) ⇒ M[F[Free[F, A]]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[B]
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def
coelgot[F[_], B](φ: ((A, F[B])) ⇒ B, ψ: (A) ⇒ F[A])(implicit arg0: Functor[F]): B
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def
dyna[F[_], B](φ: (F[Cofree[F, B]]) ⇒ B, ψ: (A) ⇒ F[A])(implicit arg0: Functor[F]): B
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def
elgot[F[_], B](φ: (F[B]) ⇒ B, ψ: (A) ⇒ \/[B, F[A]])(implicit arg0: Functor[F]): B
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def
elgotAna[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], f: (A) ⇒ M[F[A]])(implicit arg0: Monad[M], arg1: Functor[F], T: Corecursive[T]): T[F]
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def
elgotApo[T[_[_]], F[_]](f: (A) ⇒ \/[T[F], F[A]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
finalize(): Unit
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def
freeAna[F[_], B](ψ: (A) ⇒ \/[B, F[A]])(implicit arg0: Functor[F]): Free[F, B]
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def
futu[T[_[_]], F[_]](f: (A) ⇒ F[Free[F, A]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
futuM[T[_[_]], M[_], F[_]](f: (A) ⇒ M[F[Free[F, A]]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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def
gana[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], f: (A) ⇒ F[M[A]])(implicit arg0: Monad[M], arg1: Functor[F], T: Corecursive[T]): T[F]
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def
ganaM[T[_[_]], M[_], N[_], F[_]](k: DistributiveLaw[M, F], f: (A) ⇒ N[F[M[A]]])(implicit arg0: Monad[M], arg1: Traverse[M], arg2: Monad[N], arg3: Traverse[F], T: Corecursive[T]): N[T[F]]
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final
def
getClass(): Class[_]
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def
ghylo[W[_], M[_], F[_], B](w: DistributiveLaw[F, W], m: DistributiveLaw[M, F], f: (F[W[B]]) ⇒ B, g: (A) ⇒ F[M[A]])(implicit arg0: Comonad[W], arg1: Monad[M], arg2: Functor[F]): B
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def
ghyloM[W[_], M[_], N[_], F[_], B](w: DistributiveLaw[F, W], m: DistributiveLaw[M, F], f: (F[W[B]]) ⇒ N[B], g: (A) ⇒ N[F[M[A]]])(implicit arg0: Comonad[W], arg1: Traverse[W], arg2: Monad[M], arg3: Traverse[M], arg4: Monad[N], arg5: Traverse[F]): N[B]
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def
gpostpro[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], e: ~>[F, F], g: (A) ⇒ F[M[A]])(implicit arg0: Recursive[T], arg1: Monad[M], arg2: Functor[F], T: Corecursive[T]): T[F]
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def
hashCode(): Int
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def
hylo[F[_], B](f: (F[B]) ⇒ B, g: (A) ⇒ F[A])(implicit arg0: Functor[F]): B
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def
hyloM[M[_], F[_], B](f: (F[B]) ⇒ M[B], g: (A) ⇒ M[F[A]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[B]
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final
def
isInstanceOf[T0]: Boolean
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final
def
notify(): Unit
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final
def
notifyAll(): Unit
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def
postpro[T[_[_]], F[_]](e: ~>[F, F], g: (A) ⇒ F[A])(implicit arg0: Recursive[T], arg1: Functor[F], T: Corecursive[T]): T[F]
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final
def
synchronized[T0](arg0: ⇒ T0): T0
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def
toString(): String
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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
Shadowed Implicit Value Members
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def
ana[T[_[_]], F[_]](f: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
anaM[T[_[_]], M[_], F[_]](f: (IdOps[A]) ⇒ M[F[IdOps[A]]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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def
apo[T[_[_]], F[_]](f: (IdOps[A]) ⇒ F[\/[T[F], IdOps[A]]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
apoM[T[_[_]], M[_], F[_]](f: (IdOps[A]) ⇒ M[F[\/[T[F], IdOps[A]]]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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def
attributeAna[F[_]](ψ: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Functor[F]): Cofree[F, IdOps[A]]
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def
attributeAnaM[M[_], F[_]](ψ: (IdOps[A]) ⇒ M[F[IdOps[A]]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[Cofree[F, IdOps[A]]]
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def
chrono[F[_], B](g: (F[Cofree[F, B]]) ⇒ B, f: (IdOps[A]) ⇒ F[Free[F, IdOps[A]]])(implicit arg0: Functor[F]): B
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def
codyna[F[_], B](φ: (F[B]) ⇒ B, ψ: (IdOps[A]) ⇒ F[Free[F, IdOps[A]]])(implicit arg0: Functor[F]): B
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def
codynaM[M[_], F[_], B](φ: (F[B]) ⇒ M[B], ψ: (IdOps[A]) ⇒ M[F[Free[F, IdOps[A]]]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[B]
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def
coelgot[F[_], B](φ: ((IdOps[A], F[B])) ⇒ B, ψ: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Functor[F]): B
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def
dyna[F[_], B](φ: (F[Cofree[F, B]]) ⇒ B, ψ: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Functor[F]): B
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def
elgot[F[_], B](φ: (F[B]) ⇒ B, ψ: (IdOps[A]) ⇒ \/[B, F[IdOps[A]]])(implicit arg0: Functor[F]): B
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def
elgotAna[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], f: (IdOps[A]) ⇒ M[F[IdOps[A]]])(implicit arg0: Monad[M], arg1: Functor[F], T: Corecursive[T]): T[F]
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def
elgotApo[T[_[_]], F[_]](f: (IdOps[A]) ⇒ \/[T[F], F[IdOps[A]]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
freeAna[F[_], B](ψ: (IdOps[A]) ⇒ \/[B, F[IdOps[A]]])(implicit arg0: Functor[F]): Free[F, B]
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def
futu[T[_[_]], F[_]](f: (IdOps[A]) ⇒ F[Free[F, IdOps[A]]])(implicit arg0: Functor[F], T: Corecursive[T]): T[F]
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def
futuM[T[_[_]], M[_], F[_]](f: (IdOps[A]) ⇒ M[F[Free[F, IdOps[A]]]])(implicit arg0: Monad[M], arg1: Traverse[F], T: Corecursive[T]): M[T[F]]
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def
gana[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], f: (IdOps[A]) ⇒ F[M[IdOps[A]]])(implicit arg0: Monad[M], arg1: Functor[F], T: Corecursive[T]): T[F]
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def
ganaM[T[_[_]], M[_], N[_], F[_]](k: DistributiveLaw[M, F], f: (IdOps[A]) ⇒ N[F[M[IdOps[A]]]])(implicit arg0: Monad[M], arg1: Traverse[M], arg2: Monad[N], arg3: Traverse[F], T: Corecursive[T]): N[T[F]]
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def
ghylo[W[_], M[_], F[_], B](w: DistributiveLaw[F, W], m: DistributiveLaw[M, F], f: (F[W[B]]) ⇒ B, g: (IdOps[A]) ⇒ F[M[IdOps[A]]])(implicit arg0: Comonad[W], arg1: Monad[M], arg2: Functor[F]): B
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def
ghyloM[W[_], M[_], N[_], F[_], B](w: DistributiveLaw[F, W], m: DistributiveLaw[M, F], f: (F[W[B]]) ⇒ N[B], g: (IdOps[A]) ⇒ N[F[M[IdOps[A]]]])(implicit arg0: Comonad[W], arg1: Traverse[W], arg2: Monad[M], arg3: Traverse[M], arg4: Monad[N], arg5: Traverse[F]): N[B]
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def
gpostpro[T[_[_]], M[_], F[_]](k: DistributiveLaw[M, F], e: ~>[F, F], g: (IdOps[A]) ⇒ F[M[IdOps[A]]])(implicit arg0: Recursive[T], arg1: Monad[M], arg2: Functor[F], T: Corecursive[T]): T[F]
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def
hylo[F[_], B](f: (F[B]) ⇒ B, g: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Functor[F]): B
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def
hyloM[M[_], F[_], B](f: (F[B]) ⇒ M[B], g: (IdOps[A]) ⇒ M[F[IdOps[A]]])(implicit arg0: Monad[M], arg1: Traverse[F]): M[B]
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def
postpro[T[_[_]], F[_]](e: ~>[F, F], g: (IdOps[A]) ⇒ F[IdOps[A]])(implicit arg0: Recursive[T], arg1: Functor[F], T: Corecursive[T]): T[F]