mo

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Published: Sep 21, 2022 License: MIT Imports: 9 Imported by: 3

README

mo - Monads

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🦄 samber/mo brings monads and popular FP abstractions to Go projects. samber/mo uses the recent Go 1.18+ Generics.

Inspired by:

  • Scala
  • Rust
  • FP-TS

See also:

  • samber/lo: A Lodash-style Go library based on Go 1.18+ Generics
  • samber/do: A dependency injection toolkit based on Go 1.18+ Generics

Why this name?

I love short name for such utility library. This name is similar to "Monad Go" and no Go package currently uses this name.

💡 Features

We currently support the following data types:

  • Option[T] (Maybe)
  • Result[T]
  • Either[A, B]
  • EitherX[T1, ..., TX] (With X between 3 and 5)
  • Future[T]
  • IO[T]
  • IOEither[T]
  • Task[T]
  • TaskEither[T]
  • State[S, A]

🚀 Install

go get github.com/samber/mo@v1

This library is v1 and follows SemVer strictly.

No breaking changes will be made to exported APIs before v2.0.0.

💡 Quick start

You can import mo using:

import (
    "github.com/samber/mo"
)

Then use one of the helpers below:

option1 := mo.Some(42)
// Some(42)

option1.
    FlatMap(func (value int) Option[int] {
        return Some(value*2)
    }).
    FlatMap(func (value int) Option[int] {
        return Some(value%2)
    }).
    FlatMap(func (value int) Option[int] {
        return Some(value+21)
    }).
    OrElse(1234)
// 21

option2 := mo.None[int]()
// None

option2.OrElse(1234)
// 1234

option3 := option1.Match(
    func(i int) (int, bool) {
        // when value is present
        return i * 2, true
    },
    func() (int, bool) {
        // when value is absent
        return 0, false
    },
)
// Some(42)

More examples in documentation.

🤠 Documentation and examples

GoDoc: https://godoc.org/github.com/samber/mo

Option[T any]

Option is a container for an optional value of type T. If value exists, Option is of type Some. If the value is absent, Option is of type None.

Constructors:

  • mo.Some() doc
  • mo.None() doc
  • mo.TupleToOption() doc
  • mo.EmptyableToOption() doc

Methods:

  • .IsPresent() doc
  • .IsAbsent() doc
  • .Size() doc
  • .Get() doc
  • .MustGet() doc
  • .OrElse() doc
  • .OrEmpty() doc
  • .ForEach() doc
  • .Match() doc
  • .Map() doc
  • .MapNone() doc
  • .FlatMap() doc
  • .MarshalJSON() doc
  • .UnmarshalJSON() doc
  • .MarshalText() doc
  • .UnmarshalText() doc
  • .MarshalBinary() doc
  • .UnmarshalBinary() doc
  • .GobEncode() doc
  • .GobDecode() doc
  • .Scan() doc
  • .Value() doc
Result[T any]

Result respresent a result of an action having one of the following output: success or failure. An instance of Result is an instance of either Ok or Err. It could be compared to Either[error, T].

Constructors:

  • mo.Ok() doc
  • mo.Err() doc
  • mo.TupleToResult() doc
  • mo.Try() doc

Methods:

Either[L any, R any]

Either respresents a value of 2 possible types. An instance of Either is an instance of either A or B.

Constructors:

  • mo.Left() doc
  • mo.Right() doc

Methods:

  • .IsLeft() doc
  • .IsRight() doc
  • .Left() doc
  • .Right() doc
  • .MustLeft() doc
  • .MustRight() doc
  • .LeftOrElse() doc
  • .RightOrElse() doc
  • .LeftOrEmpty() doc
  • .RightOrEmpty() doc
  • .Swap() doc
  • .ForEach() doc
  • .Match() doc
  • .MapLeft() doc
  • .MapRight() doc
EitherX[T1, ..., TX] (With X between 3 and 5)

EitherX respresents a value of X possible types. For example, an Either3 value is either T1, T2 or T3.

Constructors:

  • mo.NewEitherXArgY() doc. Eg:
    • mo.NewEither3Arg1[A, B, C](A)
    • mo.NewEither3Arg2[A, B, C](B)
    • mo.NewEither3Arg3[A, B, C](C)
    • mo.NewEither4Arg1[A, B, C, D](A)
    • mo.NewEither4Arg2[A, B, C, D](B)
    • ...

Methods:

  • .IsArgX() doc
  • .ArgX() doc
  • .MustArgX() doc
  • .ArgXOrElse() doc
  • .ArgXOrEmpty() doc
  • .ForEach() doc
  • .Match() doc
  • .MapArgX() doc
Future[T any]

Future represents a value which may or may not currently be available, but will be available at some point, or an exception if that value could not be made available.

Constructors:

  • mo.NewFuture() doc

Methods:

IO[T any]

IO represents a non-deterministic synchronous computation that can cause side effects, yields a value of type R and never fails.

Constructors:

  • mo.NewIO() doc
  • mo.NewIO1() doc
  • mo.NewIO2() doc
  • mo.NewIO3() doc
  • mo.NewIO4() doc
  • mo.NewIO5() doc

Methods:

IOEither[T any]

IO represents a non-deterministic synchronous computation that can cause side effects, yields a value of type R and can fail.

Constructors:

  • mo.NewIOEither() doc
  • mo.NewIOEither1() doc
  • mo.NewIOEither2() doc
  • mo.NewIOEither3() doc
  • mo.NewIOEither4() doc
  • mo.NewIOEither5() doc

Methods:

Task[T any]

Task represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type R and never fails.

Constructors:

  • mo.NewTask() doc
  • mo.NewTask1() doc
  • mo.NewTask2() doc
  • mo.NewTask3() doc
  • mo.NewTask4() doc
  • mo.NewTask5() doc
  • mo.NewTaskFromIO() doc
  • mo.NewTaskFromIO1() doc
  • mo.NewTaskFromIO2() doc
  • mo.NewTaskFromIO3() doc
  • mo.NewTaskFromIO4() doc
  • mo.NewTaskFromIO5() doc

Methods:

TaskEither[T any]

TaskEither represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type R and can fail.

Constructors:

  • mo.NewTaskEither() doc
  • mo.NewTaskEitherFromIOEither() doc

Methods:

State[S any, A any]

State represents a function (S) -> (A, S), where S is state, A is result.

Constructors:

  • mo.NewState() doc
  • mo.ReturnState() doc

Methods:

🛩 Benchmark

// @TODO

This library does not use reflect package. We don't expect overhead.

🤝 Contributing

Don't hesitate ;)

With Docker
docker-compose run --rm dev
Without Docker
# Install some dev dependencies
make tools

# Run tests
make test
# or
make watch-test

👤 Authors

  • Samuel Berthe

💫 Show your support

Give a ⭐️ if this project helped you!

support us

📝 License

Copyright © 2022 Samuel Berthe.

This project is MIT licensed.

Documentation

Index

Examples

Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type Either

type Either[L any, R any] struct {
	// contains filtered or unexported fields
}

Either respresents a value of 2 possible types. An instance of Either is an instance of either A or B.

func Left

func Left[L any, R any](value L) Either[L, R]

Left builds the left side of the Either struct, as opposed to the Right side.

Example
left := Left[string, int]("hello")
result1 := left.LeftOrElse("world")
result2 := left.RightOrElse(1234)

fmt.Println(result1, result2)
Output:

hello 1234
func Right[L any, R any](value R) Either[L, R]

Right builds the right side of the Either struct, as opposed to the Left side.

Example
right := Right[string, int](42)
result1 := right.LeftOrElse("world")
result2 := right.RightOrElse(1234)

fmt.Println(result1, result2)
Output:

world 42

func (Either[L, R]) ForEach

func (e Either[L, R]) ForEach(leftCb func(L), rightCb func(R))

ForEach executes the given side-effecting function, depending of value is Left or Right.

func (Either[L, R]) IsLeft

func (e Either[L, R]) IsLeft() bool

IsLeft returns true if Either is an instance of Left.

Example (Left)
left := Left[string, int]("hello")
result := left.IsLeft()

fmt.Println(result)
Output:

true
Example (Right)
right := Right[string, int](42)
result := right.IsLeft()

fmt.Println(result)
Output:

false

func (Either[L, R]) IsRight

func (e Either[L, R]) IsRight() bool

IsRight returns true if Either is an instance of Right.

Example (Left)
left := Left[string, int]("hello")
result := left.IsRight()

fmt.Println(result)
Output:

false
Example (Right)
right := Right[string, int](42)
result := right.IsRight()

fmt.Println(result)
Output:

true

func (Either[L, R]) Left

func (e Either[L, R]) Left() (L, bool)

Left returns left value of a Either struct.

Example (Left)
left := Left[string, int]("hello")
result, ok := left.Left()

fmt.Println(result)
fmt.Println(ok)
Output:

hello
true
Example (Right)
right := Right[string, int](42)
result, ok := right.Left()

fmt.Println(result)
fmt.Println(ok)
Output:

false

func (Either[L, R]) LeftOrElse

func (e Either[L, R]) LeftOrElse(fallback L) L

LeftOrElse returns left value of a Either struct or fallback.

Example (Left)
left := Left[string, int]("hello")
result := left.LeftOrElse("world")

fmt.Println(result)
Output:

hello
Example (Right)
right := Right[string, int](42)
result := right.LeftOrElse("world")

fmt.Println(result)
Output:

world

func (Either[L, R]) LeftOrEmpty

func (e Either[L, R]) LeftOrEmpty() L

LeftOrEmpty returns left value of a Either struct or empty value.

Example (Left)
left := Left[string, int]("hello")
result := left.LeftOrEmpty()

fmt.Println(result)
Output:

hello
Example (Right)
right := Right[string, int](42)
result := right.LeftOrEmpty()

fmt.Println(result)
Output:

func (Either[L, R]) MapLeft

func (e Either[L, R]) MapLeft(mapper func(L) Either[L, R]) Either[L, R]

MapLeft executes the given function, if Either is of type Left, and returns result.

Example (Left)
left := Left[string, int]("hello")
result := left.MapLeft(
	func(s string) Either[string, int] {
		return Right[string, int](1234)
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

false
1234
true
Example (Right)
right := Right[string, int](42)
result := right.MapLeft(
	func(s string) Either[string, int] {
		return Left[string, int]("world")
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

false
42
true

func (Either[L, R]) MapRight

func (e Either[L, R]) MapRight(mapper func(R) Either[L, R]) Either[L, R]

MapRight executes the given function, if Either is of type Right, and returns result.

Example (Left)
left := Left[string, int]("hello")
result := left.MapRight(
	func(i int) Either[string, int] {
		return Right[string, int](1234)
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

hello
true
0
false
Example (Right)
right := Right[string, int](42)
result := right.MapRight(
	func(i int) Either[string, int] {
		return Right[string, int](1234)
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

false
1234
true

func (Either[L, R]) Match

func (e Either[L, R]) Match(onLeft func(L) Either[L, R], onRight func(R) Either[L, R]) Either[L, R]

Match executes the given function, depending of value is Left or Right, and returns result.

Example (Left)
left := Left[string, int]("hello")
result := left.Match(
	func(s string) Either[string, int] {
		return Right[string, int](1234)
	},
	func(i int) Either[string, int] {
		return Right[string, int](i * 42)
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

false
1234
true
Example (Right)
right := Right[string, int](42)
result := right.Match(
	func(s string) Either[string, int] {
		return Left[string, int]("world")
	},
	func(i int) Either[string, int] {
		return Left[string, int]("foobar")
	},
)
result1, ok1 := result.Left()
result2, ok2 := result.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

foobar
true
0
false

func (Either[L, R]) MustLeft

func (e Either[L, R]) MustLeft() L

MustLeft returns left value of a Either struct or panics.

Example (Left)
left := Left[string, int]("hello")
result := left.MustLeft()

fmt.Println(result)
Output:

hello

func (Either[L, R]) MustRight

func (e Either[L, R]) MustRight() R

MustRight returns right value of a Either struct or panics.

Example (Right)
right := Right[string, int](42)
result := right.MustRight()

fmt.Println(result)
Output:

42

func (Either[L, R]) Right

func (e Either[L, R]) Right() (R, bool)

Right returns right value of a Either struct.

Example (Left)
left := Left[string, int]("hello")
result, ok := left.Right()

fmt.Println(result)
fmt.Println(ok)
Output:

0
false
Example (Right)
right := Right[string, int](42)
result, ok := right.Right()

fmt.Println(result)
fmt.Println(ok)
Output:

42
true

func (Either[L, R]) RightOrElse

func (e Either[L, R]) RightOrElse(fallback R) R

RightOrElse returns right value of a Either struct or fallback.

Example (Left)
left := Left[string, int]("hello")
result := left.RightOrElse(1234)

fmt.Println(result)
Output:

1234
Example (Right)
right := Right[string, int](42)
result := right.RightOrElse(1234)

fmt.Println(result)
Output:

42

func (Either[L, R]) RightOrEmpty

func (e Either[L, R]) RightOrEmpty() R

RightOrEmpty returns right value of a Either struct or empty value.

Example (Left)
left := Left[string, int]("hello")
result := left.RightOrEmpty()

fmt.Println(result)
Output:

0
Example (Right)
right := Right[string, int](42)
result := right.RightOrEmpty()

fmt.Println(result)
Output:

42

func (Either[L, R]) Swap

func (e Either[L, R]) Swap() Either[R, L]

Swap returns the left value in Right and vice versa.

Example (Left)
left := Left[string, int]("hello")
right := left.Swap()
result1, ok1 := right.Left()
result2, ok2 := right.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
Output:

0
false
hello
true
Example (Right)
right := Right[string, int](42)
left := right.Swap()
result1, ok1 := left.Left()
result2, ok2 := left.Right()

fmt.Println(result1)
fmt.Println(ok1)
fmt.Println(result2)
fmt.Println(ok2)
// 42
// true
//
// false
Output:

type Either3 added in v1.2.0

type Either3[T1 any, T2 any, T3 any] struct {
	// contains filtered or unexported fields
}

Either3 respresents a value of 3 possible types. An instance of Either3 is an instance of either T1, T2 or T3.

func NewEither3Arg1 added in v1.2.0

func NewEither3Arg1[T1 any, T2 any, T3 any](value T1) Either3[T1, T2, T3]

NewEither3Arg1 builds the first argument of the Either3 struct.

func NewEither3Arg2 added in v1.2.0

func NewEither3Arg2[T1 any, T2 any, T3 any](value T2) Either3[T1, T2, T3]

NewEither3Arg2 builds the second argument of the Either3 struct.

func NewEither3Arg3 added in v1.2.0

func NewEither3Arg3[T1 any, T2 any, T3 any](value T3) Either3[T1, T2, T3]

NewEither3Arg3 builds the third argument of the Either3 struct.

func (Either3[T1, T2, T3]) Arg1 added in v1.2.0

func (e Either3[T1, T2, T3]) Arg1() (T1, bool)

Arg1 returns the first argument of a Either3 struct.

func (Either3[T1, T2, T3]) Arg1OrElse added in v1.2.0

func (e Either3[T1, T2, T3]) Arg1OrElse(fallback T1) T1

Arg1OrElse returns the first argument of a Either3 struct or fallback.

func (Either3[T1, T2, T3]) Arg1OrEmpty added in v1.2.0

func (e Either3[T1, T2, T3]) Arg1OrEmpty() T1

Arg1OrEmpty returns the first argument of a Either3 struct or empty value.

func (Either3[T1, T2, T3]) Arg2 added in v1.2.0

func (e Either3[T1, T2, T3]) Arg2() (T2, bool)

Arg2 returns the second argument of a Either3 struct.

func (Either3[T1, T2, T3]) Arg2OrElse added in v1.2.0

func (e Either3[T1, T2, T3]) Arg2OrElse(fallback T2) T2

Arg2OrElse returns the second argument of a Either3 struct or fallback.

func (Either3[T1, T2, T3]) Arg2OrEmpty added in v1.2.0

func (e Either3[T1, T2, T3]) Arg2OrEmpty() T2

Arg2OrEmpty returns the second argument of a Either3 struct or empty value.

func (Either3[T1, T2, T3]) Arg3 added in v1.2.0

func (e Either3[T1, T2, T3]) Arg3() (T3, bool)

Arg3 returns the third argument of a Either3 struct.

func (Either3[T1, T2, T3]) Arg3OrElse added in v1.2.0

func (e Either3[T1, T2, T3]) Arg3OrElse(fallback T3) T3

Arg3OrElse returns the third argument of a Either3 struct or fallback.

func (Either3[T1, T2, T3]) Arg3OrEmpty added in v1.2.0

func (e Either3[T1, T2, T3]) Arg3OrEmpty() T3

Arg3OrEmpty returns the third argument of a Either3 struct or empty value.

func (Either3[T1, T2, T3]) ForEach added in v1.2.0

func (e Either3[T1, T2, T3]) ForEach(arg1Cb func(T1), arg2Cb func(T2), arg3Cb func(T3))

ForEach executes the given side-effecting function, depending of the argument set.

func (Either3[T1, T2, T3]) IsArg1 added in v1.2.0

func (e Either3[T1, T2, T3]) IsArg1() bool

IsArg1 returns true if Either3 uses the first argument.

func (Either3[T1, T2, T3]) IsArg2 added in v1.2.0

func (e Either3[T1, T2, T3]) IsArg2() bool

IsArg2 returns true if Either3 uses the second argument.

func (Either3[T1, T2, T3]) IsArg3 added in v1.2.0

func (e Either3[T1, T2, T3]) IsArg3() bool

IsArg3 returns true if Either3 uses the third argument.

func (Either3[T1, T2, T3]) MapArg1 added in v1.2.0

func (e Either3[T1, T2, T3]) MapArg1(mapper func(T1) Either3[T1, T2, T3]) Either3[T1, T2, T3]

MapArg1 executes the given function, if Either3 use the first argument, and returns result.

func (Either3[T1, T2, T3]) MapArg2 added in v1.2.0

func (e Either3[T1, T2, T3]) MapArg2(mapper func(T2) Either3[T1, T2, T3]) Either3[T1, T2, T3]

MapArg2 executes the given function, if Either3 use the second argument, and returns result.

func (Either3[T1, T2, T3]) MapArg3 added in v1.2.0

func (e Either3[T1, T2, T3]) MapArg3(mapper func(T3) Either3[T1, T2, T3]) Either3[T1, T2, T3]

MapArg3 executes the given function, if Either3 use the third argument, and returns result.

func (Either3[T1, T2, T3]) Match added in v1.2.0

func (e Either3[T1, T2, T3]) Match(
	onArg1 func(T1) Either3[T1, T2, T3],
	onArg2 func(T2) Either3[T1, T2, T3],
	onArg3 func(T3) Either3[T1, T2, T3]) Either3[T1, T2, T3]

Match executes the given function, depending of the argument set, and returns result.

func (Either3[T1, T2, T3]) MustArg1 added in v1.2.0

func (e Either3[T1, T2, T3]) MustArg1() T1

MustArg1 returns the first argument of a Either3 struct or panics.

func (Either3[T1, T2, T3]) MustArg2 added in v1.2.0

func (e Either3[T1, T2, T3]) MustArg2() T2

MustArg2 returns the second argument of a Either3 struct or panics.

func (Either3[T1, T2, T3]) MustArg3 added in v1.2.0

func (e Either3[T1, T2, T3]) MustArg3() T3

MustArg3 returns the third argument of a Either3 struct or panics.

type Either4 added in v1.2.0

type Either4[T1 any, T2 any, T3 any, T4 any] struct {
	// contains filtered or unexported fields
}

Either4 respresents a value of 4 possible types. An instance of Either4 is an instance of either T1, T2, T3 or T4.

func NewEither4Arg1 added in v1.2.0

func NewEither4Arg1[T1 any, T2 any, T3 any, T4 any](value T1) Either4[T1, T2, T3, T4]

NewEither4Arg1 builds the first argument of the Either4 struct.

func NewEither4Arg2 added in v1.2.0

func NewEither4Arg2[T1 any, T2 any, T3 any, T4 any](value T2) Either4[T1, T2, T3, T4]

NewEither4Arg2 builds the second argument of the Either4 struct.

func NewEither4Arg3 added in v1.2.0

func NewEither4Arg3[T1 any, T2 any, T3 any, T4 any](value T3) Either4[T1, T2, T3, T4]

NewEither4Arg3 builds the third argument of the Either4 struct.

func NewEither4Arg4 added in v1.2.0

func NewEither4Arg4[T1 any, T2 any, T3 any, T4 any](value T4) Either4[T1, T2, T3, T4]

NewEither4Arg4 builds the fourth argument of the Either4 struct.

func (Either4[T1, T2, T3, T4]) Arg1 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg1() (T1, bool)

Arg1 returns the first argument of a Either4 struct.

func (Either4[T1, T2, T3, T4]) Arg1OrElse added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg1OrElse(fallback T1) T1

Arg1OrElse returns the first argument of a Either4 struct or fallback.

func (Either4[T1, T2, T3, T4]) Arg1OrEmpty added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg1OrEmpty() T1

Arg1OrEmpty returns the first argument of a Either4 struct or empty value.

func (Either4[T1, T2, T3, T4]) Arg2 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg2() (T2, bool)

Arg2 returns the second argument of a Either4 struct.

func (Either4[T1, T2, T3, T4]) Arg2OrElse added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg2OrElse(fallback T2) T2

Arg2OrElse returns the second argument of a Either4 struct or fallback.

func (Either4[T1, T2, T3, T4]) Arg2OrEmpty added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg2OrEmpty() T2

Arg2OrEmpty returns the second argument of a Either4 struct or empty value.

func (Either4[T1, T2, T3, T4]) Arg3 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg3() (T3, bool)

Arg3 returns the third argument of a Either4 struct.

func (Either4[T1, T2, T3, T4]) Arg3OrElse added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg3OrElse(fallback T3) T3

Arg3OrElse returns the third argument of a Either4 struct or fallback.

func (Either4[T1, T2, T3, T4]) Arg3OrEmpty added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg3OrEmpty() T3

Arg3OrEmpty returns the third argument of a Either4 struct or empty value.

func (Either4[T1, T2, T3, T4]) Arg4 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg4() (T4, bool)

Arg4 returns the fourth argument of a Either4 struct.

func (Either4[T1, T2, T3, T4]) Arg4OrElse added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg4OrElse(fallback T4) T4

Arg4OrElse returns the fourth argument of a Either4 struct or fallback.

func (Either4[T1, T2, T3, T4]) Arg4OrEmpty added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Arg4OrEmpty() T4

Arg4OrEmpty returns the fourth argument of a Either4 struct or empty value.

func (Either4[T1, T2, T3, T4]) ForEach added in v1.2.0

func (e Either4[T1, T2, T3, T4]) ForEach(arg1Cb func(T1), arg2Cb func(T2), arg3Cb func(T3), arg4Cb func(T4))

ForEach executes the given side-effecting function, depending of the argument set.

func (Either4[T1, T2, T3, T4]) IsArg1 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) IsArg1() bool

IsArg1 returns true if Either4 uses the first argument.

func (Either4[T1, T2, T3, T4]) IsArg2 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) IsArg2() bool

IsArg2 returns true if Either4 uses the second argument.

func (Either4[T1, T2, T3, T4]) IsArg3 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) IsArg3() bool

IsArg3 returns true if Either4 uses the third argument.

func (Either4[T1, T2, T3, T4]) IsArg4 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) IsArg4() bool

IsArg4 returns true if Either4 uses the fourth argument.

func (Either4[T1, T2, T3, T4]) MapArg1 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MapArg1(mapper func(T1) Either4[T1, T2, T3, T4]) Either4[T1, T2, T3, T4]

MapArg1 executes the given function, if Either4 use the first argument, and returns result.

func (Either4[T1, T2, T3, T4]) MapArg2 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MapArg2(mapper func(T2) Either4[T1, T2, T3, T4]) Either4[T1, T2, T3, T4]

MapArg2 executes the given function, if Either4 use the second argument, and returns result.

func (Either4[T1, T2, T3, T4]) MapArg3 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MapArg3(mapper func(T3) Either4[T1, T2, T3, T4]) Either4[T1, T2, T3, T4]

MapArg3 executes the given function, if Either4 use the third argument, and returns result.

func (Either4[T1, T2, T3, T4]) MapArg4 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MapArg4(mapper func(T4) Either4[T1, T2, T3, T4]) Either4[T1, T2, T3, T4]

MapArg4 executes the given function, if Either4 use the fourth argument, and returns result.

func (Either4[T1, T2, T3, T4]) Match added in v1.2.0

func (e Either4[T1, T2, T3, T4]) Match(
	onArg1 func(T1) Either4[T1, T2, T3, T4],
	onArg2 func(T2) Either4[T1, T2, T3, T4],
	onArg3 func(T3) Either4[T1, T2, T3, T4],
	onArg4 func(T4) Either4[T1, T2, T3, T4]) Either4[T1, T2, T3, T4]

Match executes the given function, depending of the argument set, and returns result.

func (Either4[T1, T2, T3, T4]) MustArg1 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MustArg1() T1

MustArg1 returns the first argument of a Either4 struct or panics.

func (Either4[T1, T2, T3, T4]) MustArg2 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MustArg2() T2

MustArg2 returns the second argument of a Either4 struct or panics.

func (Either4[T1, T2, T3, T4]) MustArg3 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MustArg3() T3

MustArg3 returns the third argument of a Either4 struct or panics.

func (Either4[T1, T2, T3, T4]) MustArg4 added in v1.2.0

func (e Either4[T1, T2, T3, T4]) MustArg4() T4

MustArg4 returns the fourth argument of a Either4 struct or panics.

type Either5 added in v1.2.0

type Either5[T1 any, T2 any, T3 any, T4 any, T5 any] struct {
	// contains filtered or unexported fields
}

Either5 respresents a value of 5 possible types. An instance of Either5 is an instance of either T1, T2, T3, T4, or T5.

func NewEither5Arg1 added in v1.2.0

func NewEither5Arg1[T1 any, T2 any, T3 any, T4 any, T5 any](value T1) Either5[T1, T2, T3, T4, T5]

NewEither5Arg1 builds the first argument of the Either5 struct.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)
result1 := either5Arg1.Arg1OrElse(21)
result2 := either5Arg1.Arg4OrElse("Bye")

fmt.Println(result1, result2)
Output:

42 Bye

func NewEither5Arg2 added in v1.2.0

func NewEither5Arg2[T1 any, T2 any, T3 any, T4 any, T5 any](value T2) Either5[T1, T2, T3, T4, T5]

NewEither5Arg2 builds the second argument of the Either5 struct.

func NewEither5Arg3 added in v1.2.0

func NewEither5Arg3[T1 any, T2 any, T3 any, T4 any, T5 any](value T3) Either5[T1, T2, T3, T4, T5]

NewEither5Arg3 builds the third argument of the Either5 struct.

func NewEither5Arg4 added in v1.2.0

func NewEither5Arg4[T1 any, T2 any, T3 any, T4 any, T5 any](value T4) Either5[T1, T2, T3, T4, T5]

NewEither5Arg4 builds the fourth argument of the Either5 struct.

func NewEither5Arg5 added in v1.2.0

func NewEither5Arg5[T1 any, T2 any, T3 any, T4 any, T5 any](value T5) Either5[T1, T2, T3, T4, T5]

NewEither5Arg5 builds the fith argument of the Either5 struct.

func (Either5[T1, T2, T3, T4, T5]) Arg1 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg1() (T1, bool)

Arg1 returns the first argument of a Either5 struct.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)
result1, ok1 := either5Arg1.Arg1()
result2, ok2 := either5Arg1.Arg3()

fmt.Println(result1, ok1)
fmt.Println(result2, ok2)
Output:

42 true
0 false

func (Either5[T1, T2, T3, T4, T5]) Arg1OrElse added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg1OrElse(fallback T1) T1

Arg1OrElse returns the first argument of a Either5 struct or fallback.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)
result1 := either5Arg1.Arg1OrElse(21)
result2 := either5Arg1.Arg4OrElse("Bye")

fmt.Println(result1, result2)
Output:

42 Bye

func (Either5[T1, T2, T3, T4, T5]) Arg1OrEmpty added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg1OrEmpty() T1

Arg1OrEmpty returns the first argument of a Either5 struct or empty value.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)
result1 := either5Arg1.Arg1OrEmpty()
result2 := either5Arg1.Arg2OrEmpty()

fmt.Println(result1, result2)
Output:

42 false

func (Either5[T1, T2, T3, T4, T5]) Arg2 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg2() (T2, bool)

Arg2 returns the second argument of a Either5 struct.

func (Either5[T1, T2, T3, T4, T5]) Arg2OrElse added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg2OrElse(fallback T2) T2

Arg2OrElse returns the second argument of a Either5 struct or fallback.

func (Either5[T1, T2, T3, T4, T5]) Arg2OrEmpty added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg2OrEmpty() T2

Arg2OrEmpty returns the second argument of a Either5 struct or empty value.

func (Either5[T1, T2, T3, T4, T5]) Arg3 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg3() (T3, bool)

Arg3 returns the third argument of a Either5 struct.

func (Either5[T1, T2, T3, T4, T5]) Arg3OrElse added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg3OrElse(fallback T3) T3

Arg3OrElse returns the third argument of a Either5 struct or fallback.

func (Either5[T1, T2, T3, T4, T5]) Arg3OrEmpty added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg3OrEmpty() T3

Arg3OrEmpty returns the third argument of a Either5 struct or empty value.

func (Either5[T1, T2, T3, T4, T5]) Arg4 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg4() (T4, bool)

Arg4 returns the fourth argument of a Either5 struct.

func (Either5[T1, T2, T3, T4, T5]) Arg4OrElse added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg4OrElse(fallback T4) T4

Arg4OrElse returns the fourth argument of a Either5 struct or fallback.

func (Either5[T1, T2, T3, T4, T5]) Arg4OrEmpty added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg4OrEmpty() T4

Arg4OrEmpty returns the fourth argument of a Either5 struct or empty value.

func (Either5[T1, T2, T3, T4, T5]) Arg5 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg5() (T5, bool)

Arg5 returns the fith argument of a Either5 struct.

func (Either5[T1, T2, T3, T4, T5]) Arg5OrElse added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg5OrElse(fallback T5) T5

Arg5OrElse returns the fith argument of a Either5 struct or fallback.

func (Either5[T1, T2, T3, T4, T5]) Arg5OrEmpty added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Arg5OrEmpty() T5

Arg5OrEmpty returns the fith argument of a Either5 struct or empty value.

func (Either5[T1, T2, T3, T4, T5]) ForEach added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) ForEach(arg1Cb func(T1), arg2Cb func(T2), arg3Cb func(T3), arg4Cb func(T4), arg5Cb func(T5))

ForEach executes the given side-effecting function, depending of the argument set.

func (Either5[T1, T2, T3, T4, T5]) IsArg1 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) IsArg1() bool

IsArg1 returns true if Either5 uses the first argument.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)
result1 := either5Arg1.IsArg1()
result2 := either5Arg1.IsArg4()

fmt.Println(result1, result2)
Output:

true false

func (Either5[T1, T2, T3, T4, T5]) IsArg2 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) IsArg2() bool

IsArg2 returns true if Either5 uses the second argument.

func (Either5[T1, T2, T3, T4, T5]) IsArg3 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) IsArg3() bool

IsArg3 returns true if Either5 uses the third argument.

func (Either5[T1, T2, T3, T4, T5]) IsArg4 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) IsArg4() bool

IsArg4 returns true if Either5 uses the fourth argument.

func (Either5[T1, T2, T3, T4, T5]) IsArg5 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) IsArg5() bool

IsArg5 returns true if Either5 uses the fith argument.

func (Either5[T1, T2, T3, T4, T5]) MapArg1 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MapArg1(mapper func(T1) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

MapArg1 executes the given function, if Either5 use the first argument, and returns result.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)

result1 := either5Arg1.MapArg1(
	func(v int) Either5[int, bool, float64, string, byte] {
		return NewEither5Arg1[int, bool, float64, string, byte](21)
	},
)

result2 := either5Arg1.MapArg4(
	func(v string) Either5[int, bool, float64, string, byte] {
		return NewEither5Arg4[int, bool, float64, string, byte]("Bye")
	},
)

fmt.Println(result1.MustArg1(), result2.MustArg1())
Output:

21 42

func (Either5[T1, T2, T3, T4, T5]) MapArg2 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MapArg2(mapper func(T2) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

MapArg2 executes the given function, if Either5 use the second argument, and returns result.

func (Either5[T1, T2, T3, T4, T5]) MapArg3 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MapArg3(mapper func(T3) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

MapArg3 executes the given function, if Either5 use the third argument, and returns result.

func (Either5[T1, T2, T3, T4, T5]) MapArg4 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MapArg4(mapper func(T4) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

MapArg4 executes the given function, if Either5 use the fourth argument, and returns result.

func (Either5[T1, T2, T3, T4, T5]) MapArg5 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MapArg5(mapper func(T5) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

MapArg5 executes the given function, if Either5 use the fith argument, and returns result.

func (Either5[T1, T2, T3, T4, T5]) Match added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) Match(
	onArg1 func(T1) Either5[T1, T2, T3, T4, T5],
	onArg2 func(T2) Either5[T1, T2, T3, T4, T5],
	onArg3 func(T3) Either5[T1, T2, T3, T4, T5],
	onArg4 func(T4) Either5[T1, T2, T3, T4, T5],
	onArg5 func(T5) Either5[T1, T2, T3, T4, T5]) Either5[T1, T2, T3, T4, T5]

Match executes the given function, depending of the argument set, and returns result.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)

result1 := either5Arg1.Match(func(v int) Either5[int, bool, float64, string, byte] {
	return NewEither5Arg1[int, bool, float64, string, byte](21)
}, func(v bool) Either5[int, bool, float64, string, byte] {
	return NewEither5Arg2[int, bool, float64, string, byte](false)
}, func(v float64) Either5[int, bool, float64, string, byte] {
	return NewEither5Arg3[int, bool, float64, string, byte](2.1)
}, func(v string) Either5[int, bool, float64, string, byte] {
	return NewEither5Arg4[int, bool, float64, string, byte]("Bye")
}, func(v byte) Either5[int, bool, float64, string, byte] {
	return NewEither5Arg5[int, bool, float64, string, byte](10)
})

fmt.Println(result1.MustArg1())
Output:

21

func (Either5[T1, T2, T3, T4, T5]) MustArg1 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MustArg1() T1

MustArg1 returns the first argument of a Either5 struct or panics.

Example
either5Arg1 := NewEither5Arg1[int, bool, float64, string, byte](42)

// result = either5Arg1.MustArg4()
// Panics

result := either5Arg1.MustArg1()
fmt.Println(result)
Output:

42

func (Either5[T1, T2, T3, T4, T5]) MustArg2 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MustArg2() T2

MustArg2 returns the second argument of a Either5 struct or panics.

func (Either5[T1, T2, T3, T4, T5]) MustArg3 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MustArg3() T3

MustArg3 returns the third argument of a Either5 struct or panics.

func (Either5[T1, T2, T3, T4, T5]) MustArg4 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MustArg4() T4

MustArg4 returns the fourth argument of a Either5 struct or panics.

func (Either5[T1, T2, T3, T4, T5]) MustArg5 added in v1.2.0

func (e Either5[T1, T2, T3, T4, T5]) MustArg5() T5

MustArg5 returns the fith argument of a Either5 struct or panics.

type Future

type Future[T any] struct {
	// contains filtered or unexported fields
}

Future represents a value which may or may not currently be available, but will be available at some point, or an exception if that value could not be made available.

func NewFuture

func NewFuture[T any](cb func(resolve func(T), reject func(error))) *Future[T]

NewFuture instanciate a new future.

Example (Reject)
value, err := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Collect()

fmt.Println(value)
fmt.Println(err)
Output:


failure
Example (Resolve)
value, err := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Collect()

fmt.Println(value)
fmt.Println(err)
Output:

foobar
<nil>

func (*Future[T]) Cancel

func (f *Future[T]) Cancel()

Cancel cancels the Future chain.

Example (Reject)
NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Cancel()
Output:

Example (Resolve)
NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Cancel()
Output:

func (*Future[T]) Catch

func (f *Future[T]) Catch(cb func(error) (T, error)) *Future[T]

Catch is called when Future is rejected. It returns a new Future.

Example (Reject)
result := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Catch(func(err error) (string, error) {
	return "foobar", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

foobar
<nil>
Example (Resolve)
result := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Catch(func(err error) (string, error) {
	return "baz", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

foobar
<nil>

func (*Future[T]) Collect

func (f *Future[T]) Collect() (T, error)

Collect awaits and return result of the Future.

Example (Reject)
value, err := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Collect()

fmt.Println(value)
fmt.Println(err)
Output:


failure
Example (Resolve)
value, err := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Collect()

fmt.Println(value)
fmt.Println(err)
Output:

foobar
<nil>

func (*Future[T]) Either

func (f *Future[T]) Either() Either[error, T]

Result wraps Collect and returns a Result.

func (*Future[T]) Finally

func (f *Future[T]) Finally(cb func(T, error) (T, error)) *Future[T]

Finally is called when Future is processed either resolved or rejected. It returns a new Future.

Example (Reject)
result := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Finally(func(value string, err error) (string, error) {
	return "foobar", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

foobar
<nil>
Example (Resolve)
result := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Finally(func(value string, err error) (string, error) {
	return "baz", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

baz
<nil>

func (*Future[T]) Result

func (f *Future[T]) Result() Result[T]

Result wraps Collect and returns a Result.

Example (Reject)
result := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:


failure
Example (Resolve)
result := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

foobar
<nil>

func (*Future[T]) Then

func (f *Future[T]) Then(cb func(T) (T, error)) *Future[T]

Catch is called when Future is resolved. It returns a new Future.

Example (Reject)
result := NewFuture(func(resolve func(string), reject func(error)) {
	reject(fmt.Errorf("failure"))
}).Then(func(s string) (string, error) {
	return "foobar", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:


failure
Example (Resolve)
result := NewFuture(func(resolve func(string), reject func(error)) {
	resolve("foobar")
}).Then(func(s string) (string, error) {
	return "baz", nil
}).Result()

fmt.Println(result.OrEmpty())
fmt.Println(result.Error())
Output:

baz
<nil>

type IO

type IO[R any] struct {
	// contains filtered or unexported fields
}

IO represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

Example
io := NewIO(func() int {
	return time.Now().Year()
})

result1 := io.Run()
result2 := io.Run()
result3 := io.Run()

fmt.Println(result1)
fmt.Println(result2)
fmt.Println(result3)
Output:

2022
2022
2022

func NewIO

func NewIO[R any](f f0[R]) IO[R]

NewIO instanciates a new IO.

func (IO[R]) Run

func (io IO[R]) Run() R

Run execute the non-deterministic synchronous computation, with side effect.

type IO1

type IO1[R any, A any] struct {
	// contains filtered or unexported fields
}

IO1 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewIO1

func NewIO1[R any, A any](f f1[R, A]) IO1[R, A]

NewIO1 instanciates a new IO1.

func (IO1[R, A]) Run

func (io IO1[R, A]) Run(a A) R

Run execute the non-deterministic synchronous computation, with side effect.

type IO2

type IO2[R any, A any, B any] struct {
	// contains filtered or unexported fields
}

IO2 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewIO2

func NewIO2[R any, A any, B any](f f2[R, A, B]) IO2[R, A, B]

NewIO2 instanciates a new IO2.

func (IO2[R, A, B]) Run

func (io IO2[R, A, B]) Run(a A, b B) R

Run execute the non-deterministic synchronous computation, with side effect.

type IO3

type IO3[R any, A any, B any, C any] struct {
	// contains filtered or unexported fields
}

IO3 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewIO3

func NewIO3[R any, A any, B any, C any](f f3[R, A, B, C]) IO3[R, A, B, C]

NewIO3 instanciates a new IO3.

func (IO3[R, A, B, C]) Run

func (io IO3[R, A, B, C]) Run(a A, b B, c C) R

Run execute the non-deterministic synchronous computation, with side effect.

type IO4

type IO4[R any, A any, B any, C any, D any] struct {
	// contains filtered or unexported fields
}

IO4 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewIO4

func NewIO4[R any, A any, B any, C any, D any](f f4[R, A, B, C, D]) IO4[R, A, B, C, D]

NewIO4 instanciates a new IO4.

func (IO4[R, A, B, C, D]) Run

func (io IO4[R, A, B, C, D]) Run(a A, b B, c C, d D) R

Run execute the non-deterministic synchronous computation, with side effect.

type IO5

type IO5[R any, A any, B any, C any, D any, E any] struct {
	// contains filtered or unexported fields
}

IO5 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewIO5

func NewIO5[R any, A any, B any, C any, D any, E any](f f5[R, A, B, C, D, E]) IO5[R, A, B, C, D, E]

NewIO5 instanciates a new IO5.

func (IO5[R, A, B, C, D, E]) Run

func (io IO5[R, A, B, C, D, E]) Run(a A, b B, c C, d D, e E) R

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither

type IOEither[R any] struct {
	// contains filtered or unexported fields
}

IO represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewIOEither

func NewIOEither[R any](f fe0[R]) IOEither[R]

NewIOEither instanciates a new IO.

func (IOEither[R]) Run

func (io IOEither[R]) Run() Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither1

type IOEither1[R any, A any] struct {
	// contains filtered or unexported fields
}

IO1 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

Example
io := NewIOEither1(func(path string) (bool, error) {
	_, err := os.Stat(path)

	if errors.Is(err, os.ErrNotExist) {
		return false, nil
	} else if err != nil {
		// other errors
		return false, err
	}

	return true, nil
})

either1 := io.Run("./io_either.go")
either2 := io.Run("./foo_bar.go")

exist1, _ := either1.Right()
exist2, _ := either2.Right()

fmt.Println(exist1)
fmt.Println(exist2)
Output:

true
false

func NewIOEither1

func NewIOEither1[R any, A any](f fe1[R, A]) IOEither1[R, A]

NewIOEither1 instanciates a new IO1.

func (IOEither1[R, A]) Run

func (io IOEither1[R, A]) Run(a A) Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither2

type IOEither2[R any, A any, B any] struct {
	// contains filtered or unexported fields
}

IO2 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewIOEither2

func NewIOEither2[R any, A any, B any](f fe2[R, A, B]) IOEither2[R, A, B]

NewIOEither2 instanciates a new IO2.

func (IOEither2[R, A, B]) Run

func (io IOEither2[R, A, B]) Run(a A, b B) Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither3

type IOEither3[R any, A any, B any, C any] struct {
	// contains filtered or unexported fields
}

IO3 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewIOEither3

func NewIOEither3[R any, A any, B any, C any](f fe3[R, A, B, C]) IOEither3[R, A, B, C]

NewIOEither3 instanciates a new IO3.

func (IOEither3[R, A, B, C]) Run

func (io IOEither3[R, A, B, C]) Run(a A, b B, c C) Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither4

type IOEither4[R any, A any, B any, C any, D any] struct {
	// contains filtered or unexported fields
}

IO4 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewIOEither4

func NewIOEither4[R any, A any, B any, C any, D any](f fe4[R, A, B, C, D]) IOEither4[R, A, B, C, D]

NewIOEither4 instanciates a new IO4.

func (IOEither4[R, A, B, C, D]) Run

func (io IOEither4[R, A, B, C, D]) Run(a A, b B, c C, d D) Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type IOEither5

type IOEither5[R any, A any, B any, C any, D any, E any] struct {
	// contains filtered or unexported fields
}

IO5 represents a non-deterministic synchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewIOEither5

func NewIOEither5[R any, A any, B any, C any, D any, E any](f fe5[R, A, B, C, D, E]) IOEither5[R, A, B, C, D, E]

NewIOEither5 instanciates a new IO5.

func (IOEither5[R, A, B, C, D, E]) Run

func (io IOEither5[R, A, B, C, D, E]) Run(a A, b B, c C, d D, e E) Either[error, R]

Run execute the non-deterministic synchronous computation, with side effect.

type Option

type Option[T any] struct {
	// contains filtered or unexported fields
}

Option is a container for an optional value of type T. If value exists, Option is of type Some. If the value is absent, Option is of type None.

Example (None)
none := None[int]()
result := none.OrElse(1234)

fmt.Println(result)
Output:

1234
Example (Some)
some := Some(42)
result := some.OrElse(1234)

fmt.Println(result)
Output:

42

func EmptyableToOption added in v1.5.0

func EmptyableToOption[T any](value T) Option[T]

EmptyableToOption builds a Some Option when value is not empty, or None.

Example
cb := func(ok bool) error {
	if ok {
		return nil
	}

	return fmt.Errorf("an error")
}

err := cb(false)

none := EmptyableToOption(err)
result, ok := none.Get()

fmt.Println(result)
fmt.Println(ok)
Output:

an error
true

func None

func None[T any]() Option[T]

None builds an Option when value is absent.

Example
none := None[int]()
result := none.OrElse(1234)

fmt.Println(result)
Output:

1234

func Some

func Some[T any](value T) Option[T]

Some builds an Option when value is present.

Example
some := Some(42)
result := some.OrElse(1234)

fmt.Println(result)
Output:

42

func TupleToOption

func TupleToOption[T any](value T, ok bool) Option[T]

TupleToOption builds a Some Option when second argument is true, or None.

Example
m := map[string]int{
	"foo": 21,
	"bar": 42,
	"baz": 84,
}

value, ok := m["hello world"]

none := TupleToOption(value, ok)
result := none.OrElse(1234)

fmt.Println(result)
Output:

1234

func (Option[T]) FlatMap

func (o Option[T]) FlatMap(mapper func(value T) Option[T]) Option[T]

FlatMap executes the mapper function if value is present or returns None if absent.

Example (None)
none := None[int]()
result := none.FlatMap(func(i int) Option[int] {
	return Some(21)
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

false 0
Example (Some)
some := Some(42)
result := some.FlatMap(func(i int) Option[int] {
	return Some(21)
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

true 21

func (Option[T]) ForEach

func (o Option[T]) ForEach(onValue func(value T))

ForEach executes the given side-effecting function of value is present.

func (Option[T]) Get

func (o Option[T]) Get() (T, bool)

Get returns value and presence.

Example (None)
none := None[int]()
result, ok := none.Get()

fmt.Println(result)
fmt.Println(ok)
Output:

0
false
Example (Some)
some := Some(42)
result, ok := some.Get()

fmt.Println(result)
fmt.Println(ok)
Output:

42
true

func (*Option[T]) GobDecode added in v1.4.0

func (o *Option[T]) GobDecode(data []byte) error

GobDecode implements the gob.GobDecoder interface.

func (Option[T]) GobEncode added in v1.4.0

func (o Option[T]) GobEncode() ([]byte, error)

GobEncode implements the gob.GobEncoder interface.

func (Option[T]) IsAbsent

func (o Option[T]) IsAbsent() bool

IsAbsent returns true when value is present.

Example (None)
none := None[int]()
result := none.IsAbsent()

fmt.Println(result)
Output:

true
Example (Some)
some := Some(42)
result := some.IsAbsent()

fmt.Println(result)
Output:

false

func (Option[T]) IsPresent

func (o Option[T]) IsPresent() bool

IsPresent returns true when value is absent.

Example (None)
none := None[int]()
result := none.IsPresent()

fmt.Println(result)
Output:

false
Example (Some)
some := Some(42)
result := some.IsPresent()

fmt.Println(result)
Output:

true

func (Option[T]) Map

func (o Option[T]) Map(mapper func(value T) (T, bool)) Option[T]

Map executes the mapper function if value is present or returns None if absent.

Example (None)
none := None[int]()
result := none.Map(func(i int) (int, bool) {
	return 1234, true
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

false 0
Example (Some)
some := Some(42)
result := some.Map(func(i int) (int, bool) {
	return 1234, true
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

true 1234

func (Option[T]) MapNone

func (o Option[T]) MapNone(mapper func() (T, bool)) Option[T]

MapNone executes the mapper function if value is absent or returns Option.

Example (None)
none := None[int]()
result := none.MapNone(func() (int, bool) {
	return 1234, true
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

true 1234
Example (Some)
some := Some(42)
result := some.MapNone(func() (int, bool) {
	return 1234, true
})

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

true 42

func (Option[T]) MarshalBinary added in v1.4.0

func (o Option[T]) MarshalBinary() ([]byte, error)

BinaryMarshaler is the interface implemented by an object that can marshal itself into a binary form.

func (Option[T]) MarshalJSON added in v1.3.0

func (o Option[T]) MarshalJSON() ([]byte, error)

MarshalJSON encodes Option into json.

Example (None)
type test struct {
	Email Option[string] `json:"email"`
}

value := test{Email: None[string]()}
result, err := json.Marshal(value)

fmt.Println(string(result))
fmt.Println(err)
Output:

{"email":null}
<nil>
Example (Some)
type test struct {
	Email Option[string] `json:"email"`
}

value := test{Email: Some("samuel@example.com")}
result, err := json.Marshal(value)

fmt.Println(string(result))
fmt.Println(err)
Output:

{"email":"samuel@example.com"}
<nil>

func (Option[T]) MarshalText added in v1.4.0

func (o Option[T]) MarshalText() ([]byte, error)

MarshalText implements the encoding.TextMarshaler interface.

func (Option[T]) Match

func (o Option[T]) Match(onValue func(value T) (T, bool), onNone func() (T, bool)) Option[T]

Match executes the first function if value is present and second function if absent. It returns a new Option.

Example (None)
none := None[int]()
result := none.Match(
	func(i int) (int, bool) {
		return 0, false
	},
	func() (int, bool) {
		return 2, true
	},
)

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

true 2
Example (Some)
some := Some(42)
result := some.Match(
	func(i int) (int, bool) {
		return 0, false
	},
	func() (int, bool) {
		return 2, true
	},
)

fmt.Println(result.IsPresent(), result.OrEmpty())
Output:

false 0

func (Option[T]) MustGet

func (o Option[T]) MustGet() T

MustGet returns value if present or panics instead.

Example (Some)
some := Some(42)
result := some.MustGet()

fmt.Println(result)
Output:

42

func (Option[T]) OrElse

func (o Option[T]) OrElse(fallback T) T

OrElse returns value if present or default value.

Example (None)
none := None[int]()
result := none.OrElse(1234)

fmt.Println(result)
Output:

1234
Example (Some)
some := Some(42)
result := some.OrElse(1234)

fmt.Println(result)
Output:

42

func (Option[T]) OrEmpty

func (o Option[T]) OrEmpty() T

OrEmpty returns value if present or empty value.

Example (None)
none := None[int]()
result := none.OrEmpty()

fmt.Println(result)
Output:

0
Example (Some)
some := Some(42)
result := some.OrEmpty()

fmt.Println(result)
Output:

42

func (*Option[T]) Scan added in v1.4.0

func (o *Option[T]) Scan(src any) error

Scan implements the SQL driver.Scanner interface.

func (Option[T]) Size

func (o Option[T]) Size() int

Size returns 1 when value is present or 0 instead.

Example (None)
none := None[int]()
result := none.Size()

fmt.Println(result)
Output:

0
Example (Some)
some := Some(42)
result := some.Size()

fmt.Println(result)
Output:

1

func (*Option[T]) UnmarshalBinary added in v1.4.0

func (o *Option[T]) UnmarshalBinary(data []byte) error

BinaryUnmarshaler is the interface implemented by an object that can unmarshal a binary representation of itself.

func (*Option[T]) UnmarshalJSON added in v1.3.0

func (o *Option[T]) UnmarshalJSON(b []byte) error

UnmarshalJSON decodes Option from json.

Example (None)
type test struct {
	Email Option[string] `json:"email"`
}

value := []byte(`{"email":null}`)

var result test
err := json.Unmarshal(value, &result)

fmt.Println(result.Email.Get())
fmt.Println(err)
Output:

false
<nil>
Example (Some)
type test struct {
	Email Option[string] `json:"email"`
}

value := []byte(`{"email":"samuel@example.com"}`)

var result test
err := json.Unmarshal(value, &result)

fmt.Println(result.Email.Get())
fmt.Println(err)
Output:

samuel@example.com true
<nil>

func (*Option[T]) UnmarshalText added in v1.4.0

func (o *Option[T]) UnmarshalText(data []byte) error

UnmarshalText implements the encoding.TextUnmarshaler interface.

func (Option[T]) Value added in v1.4.0

func (o Option[T]) Value() (driver.Value, error)

Value implements the driver Valuer interface.

type Result

type Result[T any] struct {
	// contains filtered or unexported fields
}

Result respresent a result of an action having one of the following output: success or failure. An instance of Result is an instance of either Ok or Err. It could be compared to `Either[error, T]`.

Example (Err)
ko := Err[int](err)
result := ko.OrElse(1234)
_err := ko.Error()

fmt.Println(result, _err)
Output:

1234 error
Example (Ok)
ok := Ok(42)
result := ok.OrElse(1234)
_err := ok.Error()

fmt.Println(result, _err)
Output:

42 <nil>

func Err

func Err[T any](err error) Result[T]

Err builds a Result when value is invalid.

Example
ko := Err[int](err)
result := ko.OrElse(1234)
_err := ko.Error()

fmt.Println(result, _err)
Output:

1234 error

func Ok

func Ok[T any](value T) Result[T]

Ok builds a Result when value is valid.

Example
ok := Ok(42)
result := ok.OrElse(1234)
_err := ok.Error()

fmt.Println(result, _err)
Output:

42 <nil>

func Try added in v1.1.0

func Try[T any](f func() (T, error)) Result[T]

Try returns either a Ok or Err object.

Example (Err)
randomFunc := func() (int, error) {
	return 42, err
}

result := Try(randomFunc)
value, err := result.Get()

fmt.Println(value)
fmt.Println(err)
Output:

0
error
Example (Ok)
randomFunc := func() (int, error) {
	return 42, nil
}

result := Try(randomFunc)
value, err := result.Get()

fmt.Println(value)
fmt.Println(err)
Output:

42
<nil>

func TupleToResult

func TupleToResult[T any](value T, err error) Result[T]

TupleToResult convert a pair of T and error into a Result.

Example
randomFunc := func() (int, error) {
	return 42, err
}

value, _err := randomFunc()

none := TupleToResult(value, _err)
result := none.OrElse(1234)

fmt.Println(result)
Output:

1234

func (Result[T]) Error

func (r Result[T]) Error() error

Error returns error when value is invalid or nil.

Example (Err)
ko := Err[int](err)
result := ko.Error()

fmt.Println(result)
Output:

error
Example (Ok)
ok := Ok(42)
result := ok.Error()

fmt.Println(result)
Output:

<nil>

func (Result[T]) FlatMap

func (r Result[T]) FlatMap(mapper func(value T) Result[T]) Result[T]

FlatMap executes the mapper function if Result is valid. It returns a new Result.

Example (Err)
ko := Err[int](err)
result := ko.FlatMap(
	func(i int) Result[int] {
		return Ok(1234)
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

true 0 error
Example (Ok)
ok := Ok(42)
result := ok.FlatMap(
	func(i int) Result[int] {
		return Ok(1234)
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 1234 <nil>

func (Result[T]) ForEach

func (r Result[T]) ForEach(mapper func(value T))

ForEach executes the given side-effecting function if Result is valid.

func (Result[T]) Get

func (r Result[T]) Get() (T, error)

MustGet returns value and error.

Example (Err)
ko := Err[int](err)
result, err := ko.Get()

fmt.Println(result)
fmt.Println(err)
Output:

0
error
Example (Ok)
ok := Ok(42)
result, err := ok.Get()

fmt.Println(result)
fmt.Println(err)
Output:

42
<nil>

func (Result[T]) IsError

func (r Result[T]) IsError() bool

IsError returns true when value is invalid.

Example (Err)
ko := Err[int](err)
result := ko.IsError()

fmt.Println(result)
Output:

true
Example (Ok)
ok := Ok(42)
result := ok.IsError()

fmt.Println(result)
Output:

false

func (Result[T]) IsOk

func (r Result[T]) IsOk() bool

IsOk returns true when value is valid.

Example (Err)
ko := Err[int](err)
result := ko.IsOk()

fmt.Println(result)
Output:

false
Example (Ok)
ok := Ok(42)
result := ok.IsOk()

fmt.Println(result)
Output:

true

func (Result[T]) Map

func (r Result[T]) Map(mapper func(value T) (T, error)) Result[T]

Map executes the mapper function if Result is valid. It returns a new Result.

Example (Err)
ko := Err[int](err)
result := ko.Map(
	func(i int) (int, error) {
		return i * 2, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

true 0 error
Example (Ok)
ok := Ok(42)
result := ok.Map(
	func(i int) (int, error) {
		return i * 2, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 84 <nil>

func (Result[T]) MapErr

func (r Result[T]) MapErr(mapper func(error) (T, error)) Result[T]

MapErr executes the mapper function if Result is invalid. It returns a new Result.

Example (Err)
ko := Err[int](err)
result := ko.MapErr(
	func(_err error) (int, error) {
		return 1234, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 1234 <nil>
Example (Ok)
ok := Ok(42)
result := ok.MapErr(
	func(_err error) (int, error) {
		return 1234, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 42 <nil>

func (Result[T]) Match

func (r Result[T]) Match(onSuccess func(value T) (T, error), onError func(err error) (T, error)) Result[T]

Match executes the first function if Result is valid and second function if invalid. It returns a new Result.

Example (Err)
ko := Err[int](err)
result := ko.Match(
	func(i int) (int, error) {
		return i * 2, nil
	},
	func(err error) (int, error) {
		return 21, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 21 <nil>
Example (Ok)
ok := Ok(42)
result := ok.Match(
	func(i int) (int, error) {
		return i * 2, nil
	},
	func(err error) (int, error) {
		return 21, nil
	},
)

fmt.Println(result.IsError(), result.OrEmpty(), result.Error())
Output:

false 84 <nil>

func (Result[T]) MustGet

func (r Result[T]) MustGet() T

MustGet returns value when Result is valid or panics.

Example (Ok)
ok := Ok(42)
result := ok.MustGet()

fmt.Println(result)
Output:

42

func (Result[T]) OrElse

func (r Result[T]) OrElse(fallback T) T

OrElse returns value when Result is valid or default value.

Example (Err)
ko := Err[int](err)
result := ko.OrElse(1234)

fmt.Println(result)
Output:

1234
Example (Ok)
ok := Ok(42)
result := ok.OrElse(1234)

fmt.Println(result)
Output:

42

func (Result[T]) OrEmpty

func (r Result[T]) OrEmpty() T

OrEmpty returns value when Result is valid or empty value.

Example (Err)
ko := Err[int](err)
result := ko.OrEmpty()

fmt.Println(result)
Output:

0
Example (Ok)
ok := Ok(42)
result := ok.OrEmpty()

fmt.Println(result)
Output:

42

func (Result[T]) ToEither

func (r Result[T]) ToEither() Either[error, T]

ToEither transforms a Result into an Either type.

Example (Err)
ko := Err[int](err)
either := ko.ToEither()

err, isLeft := either.Left()
value, isRight := either.Right()

fmt.Println(isLeft, isRight)
fmt.Println(err)
fmt.Println(value)
Output:

true false
error
0
Example (Ok)
ok := Ok(42)
either := ok.ToEither()

err, isLeft := either.Left()
value, isRight := either.Right()

fmt.Println(isLeft, isRight)
fmt.Println(err)
fmt.Println(value)
Output:

false true
<nil>
42

type State

type State[S any, A any] struct {
	// contains filtered or unexported fields
}

State represents a function `(S) -> (A, S)`, where `S` is state, `A` is result.

func NewState

func NewState[S any, A any](f func(state S) (A, S)) State[S, A]

func ReturnState

func ReturnState[S any, A any](x A) State[S, A]

func (State[S, A]) Get

func (s State[S, A]) Get() State[S, S]

Get returns the current state.

func (State[S, A]) Modify

func (s State[S, A]) Modify(f func(state S) S) State[S, A]

Modify the state by applying a function to the current state.

func (State[S, A]) Put

func (s State[S, A]) Put(state S) State[S, A]

Put set the state.

func (State[S, A]) Run

func (s State[S, A]) Run(state S) (A, S)

Run executes a computation in the State monad.

type Task

type Task[R any] struct {
	// contains filtered or unexported fields
}

Task represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

Example
task := NewTask(func() *Future[int] {
	return NewFuture(func(resolve func(int), reject func(error)) {
		resolve(time.Now().Year())
	})
})

// returns a future
future := task.Run()

// a Task never fail
result, _ := future.Collect()

fmt.Println(result)
Output:

2022

func NewTask

func NewTask[R any](f ff0[R]) Task[R]

NewTask instanciates a new Task.

func NewTaskFromIO

func NewTaskFromIO[R any](io IO[R]) Task[R]

NewTaskFromIO instanciates a new Task from an existing IO.

func (Task[R]) Run

func (t Task[R]) Run() *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type Task1

type Task1[R any, A any] struct {
	// contains filtered or unexported fields
}

Task1 represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewTask1

func NewTask1[R any, A any](f ff1[R, A]) Task1[R, A]

NewTask1 instanciates a new Task1.

func NewTaskFromIO1

func NewTaskFromIO1[R any, A any](io IO1[R, A]) Task1[R, A]

NewTaskFromIO1 instanciates a new Task1 from an existing IO1.

func (Task1[R, A]) Run

func (t Task1[R, A]) Run(a A) *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type Task2

type Task2[R any, A any, B any] struct {
	// contains filtered or unexported fields
}

Task2 represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewTask2

func NewTask2[R any, A any, B any](f ff2[R, A, B]) Task2[R, A, B]

NewTask2 instanciates a new Task2.

func NewTaskFromIO2

func NewTaskFromIO2[R any, A any, B any](io IO2[R, A, B]) Task2[R, A, B]

NewTaskFromIO2 instanciates a new Task2 from an existing IO2.

func (Task2[R, A, B]) Run

func (t Task2[R, A, B]) Run(a A, b B) *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type Task3

type Task3[R any, A any, B any, C any] struct {
	// contains filtered or unexported fields
}

Task3 represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewTask3

func NewTask3[R any, A any, B any, C any](f ff3[R, A, B, C]) Task3[R, A, B, C]

NewTask3 instanciates a new Task3.

func NewTaskFromIO3

func NewTaskFromIO3[R any, A any, B any, C any](io IO3[R, A, B, C]) Task3[R, A, B, C]

NewTaskFromIO3 instanciates a new Task3 from an existing IO3.

func (Task3[R, A, B, C]) Run

func (t Task3[R, A, B, C]) Run(a A, b B, c C) *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type Task4

type Task4[R any, A any, B any, C any, D any] struct {
	// contains filtered or unexported fields
}

Task4 represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewTask4

func NewTask4[R any, A any, B any, C any, D any](f ff4[R, A, B, C, D]) Task4[R, A, B, C, D]

NewTask4 instanciates a new Task4.

func NewTaskFromIO4

func NewTaskFromIO4[R any, A any, B any, C any, D any](io IO4[R, A, B, C, D]) Task4[R, A, B, C, D]

NewTaskFromIO4 instanciates a new Task4 from an existing IO4.

func (Task4[R, A, B, C, D]) Run

func (t Task4[R, A, B, C, D]) Run(a A, b B, c C, d D) *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type Task5

type Task5[R any, A any, B any, C any, D any, E any] struct {
	// contains filtered or unexported fields
}

Task5 represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and never fails.

func NewTask5

func NewTask5[R any, A any, B any, C any, D any, E any](f ff5[R, A, B, C, D, E]) Task5[R, A, B, C, D, E]

NewTask5 instanciates a new Task5.

func NewTaskFromIO5

func NewTaskFromIO5[R any, A any, B any, C any, D any, E any](io IO5[R, A, B, C, D, E]) Task5[R, A, B, C, D, E]

NewTaskFromIO5 instanciates a new Task5 from an existing IO5.

func (Task5[R, A, B, C, D, E]) Run

func (t Task5[R, A, B, C, D, E]) Run(a A, b B, c C, d D, e E) *Future[R]

Run execute the non-deterministic asynchronous computation, with side effect.

type TaskEither

type TaskEither[R any] struct {
	Task[R]
}

TaskEither represents a non-deterministic asynchronous computation that can cause side effects, yields a value of type `R` and can fail.

func NewTaskEither

func NewTaskEither[R any](f ff0[R]) TaskEither[R]

NewTaskEither instanciates a new TaskEither.

func NewTaskEitherFromIO

func NewTaskEitherFromIO[R any](io IO[R]) TaskEither[R]

NewTaskEitherFromIO instanciates a new TaskEither from an existing IO.

func (TaskEither[R]) Match

func (t TaskEither[R]) Match(onLeft func(error) Either[error, R], onRight func(R) Either[error, R]) Either[error, R]

Match executes the first function if task succeeded and second function if task failed. It returns a new Option.

func (TaskEither[R]) OrElse

func (t TaskEither[R]) OrElse(fallback R) R

OrElse returns value if task succeeded or default value.

func (TaskEither[R]) ToEither

func (t TaskEither[R]) ToEither() Either[error, R]

ToTask converts TaskEither to Task

func (TaskEither[R]) ToTask

func (t TaskEither[R]) ToTask(fallback R) Task[R]

ToTask converts TaskEither to Task

func (TaskEither[R]) TryCatch

func (t TaskEither[R]) TryCatch(onLeft func(error) Either[error, R], onRight func(R) Either[error, R]) Either[error, R]

TryCatch is an alias to Match

Directories

Path Synopsis
Package options provides cross type transformations for `mo.Option`.
Package options provides cross type transformations for `mo.Option`.

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