Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Class-based algebras. #13

Open
wants to merge 8 commits into
base: master
Choose a base branch
from
Open
Show file tree
Hide file tree
Changes from all commits
Commits
File filter

Filter by extension

Filter by extension

Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
1 change: 1 addition & 0 deletions CHANGELOG/minor.md
Original file line number Diff line number Diff line change
@@ -0,0 +1 @@
- move `attributeCoelgotM` to `attributeElgotAlgebraM`, updating it to the generalized form.
28 changes: 0 additions & 28 deletions core/src/main/scala/matryoshka/AlgebraOps.scala

This file was deleted.

29 changes: 0 additions & 29 deletions core/src/main/scala/matryoshka/CoalgebraOps.scala

This file was deleted.

34 changes: 0 additions & 34 deletions core/src/main/scala/matryoshka/CofreeOps.scala

This file was deleted.

24 changes: 0 additions & 24 deletions core/src/main/scala/matryoshka/FreeOps.scala

This file was deleted.

12 changes: 6 additions & 6 deletions core/src/main/scala/matryoshka/IdOps.scala
Original file line number Diff line number Diff line change
Expand Up @@ -19,21 +19,21 @@ package matryoshka
import scalaz._

sealed class IdOps[A](self: A) {
def hylo[F[_]: Functor, B](f: F[B] => B, g: A => F[A]): B =
def hylo[F[_]: Functor, B](f: Algebra[F, B], g: Coalgebra[F, A]): B =
matryoshka.hylo(self)(f, g)
def hyloM[M[_]: Monad, F[_]: Traverse, B](f: F[B] => M[B], g: A => M[F[A]]):
def hyloM[M[_]: Monad, F[_]: Traverse, B](f: AlgebraM[M, F, B], g: CoalgebraM[M, F, A]):
M[B] =
matryoshka.hyloM(self)(f, g)
def ghylo[F[_]: Functor, W[_]: Comonad, M[_]: Monad, B](
w: DistributiveLaw[F, W],
m: DistributiveLaw[M, F],
f: F[W[B]] => B,
g: A => F[M[A]]):
f: GAlgebra[W, F, B],
g: GCoalgebra[M, F, A]):
B =
matryoshka.ghylo(self)(w, m, f, g)

def chrono[F[_]: Functor, B](
g: F[Cofree[F, B]] => B, f: A => F[Free[F, A]]):
g: GAlgebra[Cofree[F, ?], F, B], f: GCoalgebra[Free[F, ?], F, A]):
B =
matryoshka.chrono(self)(g, f)

Expand All @@ -47,7 +47,7 @@ sealed class IdOps[A](self: A) {
def elgotAna[F[_]: Functor, B](ψ: A => B \/ F[A]): Free[F, B] =
matryoshka.elgotAna(self)(ψ)

def elgot[F[_]: Functor, B](φ: F[B] => B, ψ: A => B \/ F[A]): B =
def elgot[F[_]: Functor, B](φ: Algebra[F, B], ψ: ElgotCoalgebra[B \/ ?, F, A]): B =
matryoshka.elgot(self)(φ, ψ)

def coelgot[F[_]: Functor, B](φ: ((A, F[B])) => B, ψ: A => F[A]): B =
Expand Down
2 changes: 1 addition & 1 deletion core/src/main/scala/matryoshka/Proj.scala
Original file line number Diff line number Diff line change
Expand Up @@ -24,7 +24,7 @@ import scalaz._
/** An extractor to make it easier to pattern-match on arbitrary Recursive
* structures.
*
* NB: This extractor is irrufutable and doesn’t break exhaustiveness checking.
* NB: This extractor is irrefutable and doesn’t break exhaustiveness checking.
*/
object Proj {
def unapply[T[_[_]]: Recursive, F[_]: Functor](obj: T[F]): Some[F[T[F]]] =
Expand Down
4 changes: 4 additions & 0 deletions core/src/main/scala/matryoshka/TraverseT.scala
Original file line number Diff line number Diff line change
Expand Up @@ -40,6 +40,10 @@ import simulacrum.typeclass
def transAnaM[M[_]: Monad, F[_]: Functor, G[_]: Traverse](t: T[F])(f: F[T[F]] => M[G[T[F]]]): M[T[G]] =
traverse(t)(f(_).flatMap(_.traverse(transAnaM(_)(f))))

def transApoM[M[_]: Monad, F[_]: Functor, G[_]: Traverse](t: T[F])(f: F[T[F]] => M[G[T[G] \/ T[F]]]):
M[T[G]] =
traverse(t)(f(_).flatMap(_.traverse(_.fold(_.point[M], transApoM(_)(f)))))

def topDownCataM[F[_]: Traverse, M[_]: Monad, A](
t: T[F], a: A)(
f: (A, T[F]) => M[(A, T[F])]):
Expand Down
154 changes: 154 additions & 0 deletions core/src/main/scala/matryoshka/algebra.scala
Original file line number Diff line number Diff line change
@@ -0,0 +1,154 @@
/*
* Copyright 2014 - 2015 SlamData Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/

package matryoshka

import scala.Function1

import scalaz._, Leibniz._, Scalaz._

/** The most general algebra, using both generalized and Elgot comonads as
* well as a monad.
*/
final class GElgotAlgebraM[E[_], G[_], M[_], F[_], A](f: E[F[G[A]]] => M[A])
extends Function1[E[F[G[A]]], M[A]] {
def apply(v1: E[F[G[A]]]) = f(v1)

def attribute(implicit E: Comonad[E], G: Comonad[G], M: Functor[M], F: Functor[F]) =
matryoshka.attribute[E, G, M, F, A](this)

def generalizeElgot[EE[_]: Comonad](
implicit ev: GElgotAlgebraM[E, G, M, F, A] === GAlgebraM[G, M, F, A]):
GElgotAlgebraM[EE, G, M, F, A] =
matryoshka.generalizeW[EE, F[G[A]], M[A]](ev(this).apply)

def generalize[GG[_]: Comonad](implicit EF: Functor[λ[α => E[F[α]]]], ev: GElgotAlgebraM[E, G, M, F, A] === ElgotAlgebraM[E, M, F, A]):
GElgotAlgebraM[E, GG, M, F, A] =
matryoshka.generalizeAlgebra[λ[α => E[F[α]]], GG, Id, M, F, A](ev(this).apply)

def generalizeM[MM[_]: Applicative](
implicit ev: GElgotAlgebraM[E, G, M, F, A] === GElgotAlgebra[E, G, F, A]):
GElgotAlgebraM[E, G, MM, F, A] =
matryoshka.generalizeM[MM, E[F[G[A]]], A](ev(this).apply)

def zip[B](
b: ⇒ GElgotAlgebraM[E, G, M, F, B])(
implicit E: Functor[E], G: Functor[G], M: Applicative[M], F: Functor[F]):
GElgotAlgebraM[E, G, M, F, (A, B)]=
node => (this.f(node ∘ (_ ∘ (_ ∘ (_._1)))) ⊛ b(node ∘ (_ ∘ (_ ∘ (_._2)))))((_, _))
}
object GElgotAlgebraM {
implicit def gElgotAlgebraMZip[E[_]: Functor, G[_]: Functor, M[_]: Applicative, F[_]: Functor]:
Zip[GElgotAlgebraM[E, G, M, F, ?]] =
new Zip[GElgotAlgebraM[E, G, M, F, ?]] {
def zip[A, B](
a: ⇒ GElgotAlgebraM[E, G, M, F, A],
b: ⇒ GElgotAlgebraM[E, G, M, F, B]) =
a.zip(b)
}
}

sealed class GElgotCoalgebraM[E[_], G[_], M[_], F[_], A](f: A => M[E[F[G[A]]]])
extends Function1[A, M[E[F[G[A]]]]] {
def apply(v1: A) = f(v1)

def generalizeM[MM[_]: Applicative](implicit ev: GElgotCoalgebraM[E, G, M, F, A] === GElgotCoalgebra[E, G, F, A]):
GElgotCoalgebraM[E, G, MM, F, A] =
matryoshka.generalizeM[MM, A, E[F[G[A]]]](ev(this).apply)

def generalizeElgot[EE[_]: Applicative](
implicit M: Functor[M],
ev: GElgotCoalgebraM[E, G, M, F, A] === GCoalgebraM[G, M, F, A]):
GElgotCoalgebraM[EE, G, M, F, A] =
matryoshka.generalizeCoalgebra[M, EE, λ[α => F[G[α]]], A](ev(this).apply)

def generalize[GG[_]: Applicative](implicit MEF: Functor[λ[α => M[E[F[α]]]]], ev: GElgotCoalgebraM[E, G, M, F, A] === ElgotCoalgebraM[E, M, F, A]):
GElgotCoalgebraM[E, GG, M, F, A] =
matryoshka.generalizeCoalgebra[λ[α => M[E[F[α]]]], GG, Id, A](ev(this).apply)
}

// NB: This class is needed to avoid the `Id[Id[_]]` “cyclic alias” issue.
final class GCoalgebra[G[_], F[_], A](f: A => F[G[A]])
extends GElgotCoalgebraM[Id, G, Id, F, A](f)

sealed trait ZeroIdInstances {
implicit def toGElgotAlgebraM[E[_], G[_], M[_], F[_], A](f: E[F[G[A]]] => M[A]): GElgotAlgebraM[E, G, M, F, A] =
new GElgotAlgebraM[E, G, M, F, A](f)

implicit def toGElgotCoalgebraM[E[_], G[_], M[_], F[_], A](f: A => M[E[F[G[A]]]]): GElgotCoalgebraM[E, G, M, F, A] =
new GElgotCoalgebraM[E, G, M, F, A](f)
}

sealed trait OneIdInstances extends ZeroIdInstances {
}

sealed trait TwoIdInstances extends OneIdInstances {
// FIXME: somehow this causes an ambiguous implicit with a lower priority
// implicit.
// implicit def toElgotAlgebra[E[_], F[_], A](f: E[F[A]] => A):
// ElgotAlgebra[E, F, A] =
// new GElgotAlgebraM[E, Id, Id, F, A](f)
// Poor man’s unapply trick
implicit def toElgotAlgebraU[E[_[_], _], F[_], A, X[_]](f: E[X, F[A]] => A):
ElgotAlgebra[E[X, ?], F, A] =
new GElgotAlgebraM[E[X, ?], Id, Id, F, A](f)

implicit def toElgotCoalgebra[E[_], F[_], A](f: A => E[F[A]]):
ElgotCoalgebra[E, F, A] =
new GElgotCoalgebraM[E, Id, Id, F, A](f)
// Poor man’s unapply trick
implicit def toElgotCoalgebraU[E[_[_], _], F[_], A, X[_]](f: A => E[X, F[A]]):
ElgotCoalgebra[E[X, ?], F, A] =
new GElgotCoalgebraM[E[X, ?], Id, Id, F, A](f)

implicit def toGAlgebra[G[_], F[_], A](f: F[G[A]] => A): GAlgebra[G, F, A] =
new GElgotAlgebraM[Id, G, Id, F, A](f)
// Poor man’s unapply trick
implicit def toGAlgebraU[G[_[_], _], F[_], A, X[_]](f: F[G[X, A]] => A):
GAlgebra[G[X, ?], F, A] =
new GElgotAlgebraM[Id, G[X, ?], Id, F, A](f)

implicit def toGCoalgebra[G[_], F[_], A](f: A => F[G[A]]):
GCoalgebra[G, F, A] =
new GCoalgebra[G, F, A](f)
// Poor man’s unapply trick
implicit def toGCoalgebraU[G[_[_], _], F[_], A, X[_]](f: A => F[G[X, A]]):
GCoalgebra[G[X, ?], F, A] =
new GCoalgebra[G[X, ?], F, A](f)

implicit def toAlgebraM[M[_], F[_], A](f: F[A] => M[A]): AlgebraM[M, F, A] =
new GElgotAlgebraM[Id, Id, M, F, A](f)
// Poor man’s unapply trick
implicit def toAlgebraMU[M[_[_], _], F[_], A, X[_]](f: F[A] => M[X, A]):
AlgebraM[M[X, ?], F, A] =
new GElgotAlgebraM[Id, Id, M[X, ?], F, A](f)

implicit def toCoalgebraM[M[_], F[_], A](f: A => M[F[A]]):
CoalgebraM[M, F, A] =
new GElgotCoalgebraM[Id, Id, M, F, A](f)
// Poor man’s unapply trick
implicit def toCoalgebraMU[M[_[_], _], F[_], A, X[_]](f: A => M[X, F[A]]):
CoalgebraM[M[X, ?], F, A] =
new GElgotCoalgebraM[Id, Id, M[X, ?], F, A](f)
}

trait ThreeIdInstances extends TwoIdInstances {
implicit def toAlgebra[F[_], A](f: F[A] => A): Algebra[F, A] =
new GElgotAlgebraM[Id, Id, Id, F, A](f)

implicit def toCoalgebra[F[_], A](f: A => F[A]): Coalgebra[F, A] =
new GCoalgebra[Id, F, A](f)
}
Loading