sealed class :+:[+M, +N] extends AnyRef
The coproduct (or free product) of monoids M
and N
.
Conceptually this is an alternating list of M
and N
values, with
the identity as the empty list, and composition as list concatenation that
combines adjacent elements when possible.
- Source
- MonoidCoproduct.scala
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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
- Definition Classes
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def
appendLeft[A >: M, B >: N](m: A)(implicit arg0: Monoid[A], arg1: Monoid[B]): :+:[A, B]
Append a value from the left monoid
-
def
appendRight[A >: M, B >: N](n: B)(implicit arg0: Monoid[A], arg1: Monoid[B]): :+:[A, B]
Append a value from the right monoid
-
final
def
asInstanceOf[T0]: T0
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def
both[A >: M, B >: N](implicit arg0: Monoid[A], arg1: Monoid[B]): (A, B)
Project out both monoids individually
-
def
clone(): AnyRef
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final
def
eq(arg0: AnyRef): Boolean
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def
equals(arg0: Any): Boolean
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def
finalize(): Unit
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def
fold[Z](f: (M) ⇒ Z, g: (N) ⇒ Z)(implicit arg0: Monoid[Z]): Z
A homomorphism to a monoid
Z
(iff
andg
are homomorphisms). -
final
def
getClass(): Class[_]
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def
hashCode(): Int
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final
def
isInstanceOf[T0]: Boolean
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def
left[A >: M](implicit arg0: Monoid[A]): A
Project out the value in the left monoid
-
final
def
ne(arg0: AnyRef): Boolean
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final
def
notify(): Unit
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final
def
notifyAll(): Unit
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def
prependLeft[A >: M, B >: N](m: A)(implicit arg0: Monoid[A], arg1: Monoid[B]): :+:[A, B]
Prepend a value from the left monoid
-
def
prependRight[A >: M, B >: N](n: B)(implicit arg0: Monoid[A], arg1: Monoid[B]): :+:[A, B]
Prepend a value from the right monoid
-
def
right[A >: N](implicit arg0: Monoid[A]): A
Project out the value in the right monoid
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
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def
toString(): String
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def
untangle[A >: M, B >: N](f: (B, A) ⇒ A, g: (A, B) ⇒ B)(implicit arg0: Monoid[A], arg1: Monoid[B]): (A, B)
Take a value from the coproduct monoid where each monoid acts on the other, and untangle into a pair of values.
Take a value from the coproduct monoid where each monoid acts on the other, and untangle into a pair of values. Before being folded into the answer an
N
value is combined with the sum of theM
values to its left viag
and anM
value is combined with the sum of theN
values to its left viaf
. This allows you to add upN
values while having the opportunity to "track" an evolvingM
value, and vice versa. -
def
untangleLeft[A >: M, B >: N](f: (A, B) ⇒ B)(implicit arg0: Monoid[A], arg1: Monoid[B]): (A, B)
Like
untangle
, exceptM
values are simply combined without regard to theN
values to the left of it. -
def
untangleRight[A >: M, B >: N](f: (B, A) ⇒ A)(implicit arg0: Monoid[A], arg1: Monoid[B]): (A, B)
Like
untangle
, exceptN
values are simply combined without regard to theN
values to the left of it. -
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
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def
|+|[A >: M, B >: N](m: :+:[A, B])(implicit arg0: Monoid[A], arg1: Monoid[B]): :+:[A, B]
The associative operation of the monoid coproduct