mirror of
https://github.com/IBM/fp-go.git
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142 lines
4.2 KiB
Go
142 lines
4.2 KiB
Go
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// 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 readerio
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import (
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"sync"
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"github.com/IBM/fp-go/v2/function"
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"github.com/IBM/fp-go/v2/internal/fromio"
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"github.com/IBM/fp-go/v2/internal/fromreader"
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"github.com/IBM/fp-go/v2/internal/functor"
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"github.com/IBM/fp-go/v2/internal/readert"
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"github.com/IBM/fp-go/v2/io"
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"github.com/IBM/fp-go/v2/reader"
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)
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// FromIO converts an [IO] to a [ReaderIO]
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func FromIO[R, A any](t IO[A]) ReaderIO[R, A] {
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return reader.Of[R](t)
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}
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func FromReader[R, A any](r Reader[R, A]) ReaderIO[R, A] {
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return readert.MonadFromReader[Reader[R, A], ReaderIO[R, A]](io.Of[A], r)
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}
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func MonadMap[R, A, B any](fa ReaderIO[R, A], f func(A) B) ReaderIO[R, B] {
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return readert.MonadMap[ReaderIO[R, A], ReaderIO[R, B]](io.MonadMap[A, B], fa, f)
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}
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func Map[R, A, B any](f func(A) B) Operator[R, A, B] {
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return readert.Map[ReaderIO[R, A], ReaderIO[R, B]](io.Map[A, B], f)
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}
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func MonadChain[R, A, B any](ma ReaderIO[R, A], f func(A) ReaderIO[R, B]) ReaderIO[R, B] {
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return readert.MonadChain(io.MonadChain[A, B], ma, f)
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}
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func Chain[R, A, B any](f func(A) ReaderIO[R, B]) Operator[R, A, B] {
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return readert.Chain[ReaderIO[R, A]](io.Chain[A, B], f)
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}
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func Of[R, A any](a A) ReaderIO[R, A] {
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return readert.MonadOf[ReaderIO[R, A]](io.Of[A], a)
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}
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func MonadAp[B, R, A any](fab ReaderIO[R, func(A) B], fa ReaderIO[R, A]) ReaderIO[R, B] {
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return readert.MonadAp[ReaderIO[R, A], ReaderIO[R, B], ReaderIO[R, func(A) B], R, A](io.MonadAp[A, B], fab, fa)
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}
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func MonadApSeq[B, R, A any](fab ReaderIO[R, func(A) B], fa ReaderIO[R, A]) ReaderIO[R, B] {
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return readert.MonadAp[ReaderIO[R, A], ReaderIO[R, B], ReaderIO[R, func(A) B], R, A](io.MonadApSeq[A, B], fab, fa)
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}
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func MonadApPar[B, R, A any](fab ReaderIO[R, func(A) B], fa ReaderIO[R, A]) ReaderIO[R, B] {
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return readert.MonadAp[ReaderIO[R, A], ReaderIO[R, B], ReaderIO[R, func(A) B], R, A](io.MonadApPar[A, B], fab, fa)
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}
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func Ap[B, R, A any](fa ReaderIO[R, A]) Operator[R, func(A) B, B] {
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return function.Bind2nd(MonadAp[B, R, A], fa)
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}
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func Ask[R any]() ReaderIO[R, R] {
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return fromreader.Ask(FromReader[R, R])()
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}
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func Asks[R, A any](r Reader[R, A]) ReaderIO[R, A] {
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return fromreader.Asks(FromReader[R, A])(r)
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}
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func MonadChainIOK[R, A, B any](ma ReaderIO[R, A], f func(A) IO[B]) ReaderIO[R, B] {
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return fromio.MonadChainIOK(
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MonadChain[R, A, B],
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FromIO[R, B],
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ma, f,
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)
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}
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func ChainIOK[R, A, B any](f func(A) IO[B]) Operator[R, A, B] {
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return fromio.ChainIOK(
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Chain[R, A, B],
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FromIO[R, B],
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f,
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)
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}
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// Defer creates an IO by creating a brand new IO via a generator function, each time
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func Defer[R, A any](gen func() ReaderIO[R, A]) ReaderIO[R, A] {
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return func(r R) IO[A] {
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return func() A {
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return gen()(r)()
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}
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}
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}
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// Memoize computes the value of the provided [ReaderIO] monad lazily but exactly once
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// The context used to compute the value is the context of the first call, so do not use this
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// method if the value has a functional dependency on the content of the context
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func Memoize[R, A any](rdr ReaderIO[R, A]) ReaderIO[R, A] {
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// synchronization primitives
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var once sync.Once
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var result A
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// callback
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gen := func(r R) func() {
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return func() {
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result = rdr(r)()
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}
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}
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// returns our memoized wrapper
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return func(r R) IO[A] {
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io := gen(r)
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return func() A {
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once.Do(io)
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return result
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}
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}
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}
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func Flatten[R, A any](mma ReaderIO[R, ReaderIO[R, A]]) ReaderIO[R, A] {
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return MonadChain(mma, function.Identity[ReaderIO[R, A]])
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}
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func MonadFlap[R, A, B any](fab ReaderIO[R, func(A) B], a A) ReaderIO[R, B] {
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return functor.MonadFlap(MonadMap[R, func(A) B, B], fab, a)
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}
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func Flap[R, A, B any](a A) Operator[R, func(A) B, B] {
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return functor.Flap(Map[R, func(A) B, B], a)
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}
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