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* fix: initial checkin of v2 Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: slowly migrate IO Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: migrate MonadTraverseArray and TraverseArray Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: migrate traversal Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: complete migration of IO Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: migrate ioeither Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: refactorY Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: next step in migration Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: adjust IO generation code Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: get rid of more IO methods Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: get rid of more IO * fix: convert iooption Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: convert reader Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: convert a bit of reader Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: new build script Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: cleanup Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: reformat Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: simplify Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: some cleanup Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: adjust Pair to Haskell semantic Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: documentation and testcases Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: some performance optimizations Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: remove coverage Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> * fix: better doc Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com> --------- Signed-off-by: Dr. Carsten Leue <carsten.leue@de.ibm.com>
145 lines
4.1 KiB
Go
145 lines
4.1 KiB
Go
// Copyright (c) 2023 - 2025 IBM Corp.
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// All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package monoid
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import (
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S "github.com/IBM/fp-go/v2/semigroup"
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)
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// Monoid represents an algebraic structure with an associative binary operation and an identity element.
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//
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// A Monoid extends Semigroup by adding an identity element (Empty) that satisfies:
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// - Left identity: Concat(Empty(), x) = x
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// - Right identity: Concat(x, Empty()) = x
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//
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// The Monoid must also satisfy the associativity law from Semigroup:
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// - Associativity: Concat(Concat(x, y), z) = Concat(x, Concat(y, z))
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//
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// Common examples:
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// - Integer addition with 0 as identity
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// - Integer multiplication with 1 as identity
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// - String concatenation with "" as identity
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// - List concatenation with [] as identity
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// - Boolean AND with true as identity
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// - Boolean OR with false as identity
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type Monoid[A any] interface {
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S.Semigroup[A]
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Empty() A
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}
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type monoid[A any] struct {
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c func(A, A) A
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e A
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}
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func (m monoid[A]) Concat(x, y A) A {
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return m.c(x, y)
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}
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func (m monoid[A]) Empty() A {
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return m.e
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}
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// MakeMonoid creates a monoid from a binary operation and an identity element.
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//
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// The provided concat function must be associative, and the empty element must
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// satisfy the identity laws (left and right identity).
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//
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// Parameters:
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// - c: An associative binary operation func(A, A) A
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// - e: The identity element of type A
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//
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// Returns:
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// - A Monoid[A] instance
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//
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// Example:
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//
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// // Integer addition monoid
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// addMonoid := MakeMonoid(
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// func(a, b int) int { return a + b },
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// 0, // identity element
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// )
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// result := addMonoid.Concat(5, 3) // 8
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// empty := addMonoid.Empty() // 0
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//
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// // String concatenation monoid
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// stringMonoid := MakeMonoid(
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// func(a, b string) string { return a + b },
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// "", // identity element
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// )
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// result := stringMonoid.Concat("Hello", " World") // "Hello World"
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func MakeMonoid[A any](c func(A, A) A, e A) Monoid[A] {
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return monoid[A]{c: c, e: e}
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}
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// Reverse returns the dual of a Monoid by swapping the arguments of Concat.
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//
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// The reversed monoid has the same identity element but applies the binary
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// operation in the opposite order. This is useful for operations that are
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// not commutative.
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//
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// Parameters:
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// - m: The monoid to reverse
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//
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// Returns:
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// - A new Monoid[A] with reversed operation order
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//
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// Example:
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//
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// // Subtraction monoid (not commutative)
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// subMonoid := MakeMonoid(
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// func(a, b int) int { return a - b },
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// 0,
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// )
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// reversedMonoid := Reverse(subMonoid)
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//
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// result1 := subMonoid.Concat(10, 3) // 10 - 3 = 7
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// result2 := reversedMonoid.Concat(10, 3) // 3 - 10 = -7
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//
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// // String concatenation
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// stringMonoid := MakeMonoid(
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// func(a, b string) string { return a + b },
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// "",
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// )
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// reversed := Reverse(stringMonoid)
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// result := reversed.Concat("Hello", "World") // "WorldHello"
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func Reverse[A any](m Monoid[A]) Monoid[A] {
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return MakeMonoid(S.Reverse[A](m).Concat, m.Empty())
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}
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// ToSemigroup converts a Monoid to a Semigroup by discarding the identity element.
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//
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// This is useful when you need to use a monoid in a context that only requires
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// a semigroup (associative binary operation without identity).
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//
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// Parameters:
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// - m: The monoid to convert
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//
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// Returns:
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// - A Semigroup[A] that uses the same Concat operation
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//
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// Example:
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//
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// addMonoid := MakeMonoid(
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// func(a, b int) int { return a + b },
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// 0,
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// )
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// sg := ToSemigroup(addMonoid)
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// result := sg.Concat(5, 3) // 8 (identity not available)
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func ToSemigroup[A any](m Monoid[A]) S.Semigroup[A] {
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return S.Semigroup[A](m)
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}
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