scalaz/scalaz/IsomorphismSemigroup

IsomorphismSemigroup

trait IsomorphismSemigroup[F, G] extends Semigroup[F]
trait Semigroup[F]
class Object
trait Matchable
class Any
trait IsomorphismBand[F, G]

Type members

Inherited classlikes

trait SemigroupLaw

A semigroup in type F must satisfy two laws:

A semigroup in type F must satisfy two laws:

  • '''closure''': ∀ a, b in F, append(a, b) is also in F. This is enforced by the type system.
  • '''associativity''': ∀ a, b, c in F, the equation append(append(a, b), c) = append(a, append(b , c)) holds.
Inherited from
Semigroup

Value members

Abstract methods

def iso: IsoSet[F, G]

Concrete methods

def append(f1: F, f2: => F): F

Inherited methods

final
def apply: Apply[[α] =>> F]

An scalaz.Apply, that implements ap with append. Note that the type parameter α in Apply[λ[α => F]] is discarded; it is a phantom type. As such, the functor cannot support scalaz.Bind.

An scalaz.Apply, that implements ap with append. Note that the type parameter α in Apply[λ[α => F]] is discarded; it is a phantom type. As such, the functor cannot support scalaz.Bind.

Inherited from
Semigroup
final
def compose: Compose[[α, β] =>> F]

Every Semigroup gives rise to a scalaz.Compose, for which the type parameters are phantoms.

Every Semigroup gives rise to a scalaz.Compose, for which the type parameters are phantoms.

Note

compose.semigroup = this

Inherited from
Semigroup
def multiply1(value: F, n: Int): F

For n = 0, value For n = 1, append(value, value) For n = 2, append(append(value, value), value)

For n = 0, value For n = 1, append(value, value) For n = 2, append(append(value, value), value)

The default definition uses peasant multiplication, exploiting associativity to only require O(log n) uses of append

Inherited from
Semigroup

Inherited fields

Implicits

Implicits

implicit
def G: Semigroup[G]