[go: up one dir, main page]

Skip to content

TeaEntityLab/fpGo

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

fpGo

tag Go Report Card codecov Travis CI Build Status GoDoc

license stars forks

Monad, Functional Programming features for Golang

Active Branches:

For Generics version(>=go1.18):generics

go get github.com/TeaEntityLab/fpGo/v2

For NonGenerics version(<=go1.17):non-generics

go get github.com/TeaEntityLab/fpGo

Why

I love functional programing, Rx-style coding, and Optional usages.

However it's hard to implement them in Golang, and there're few libraries to achieve parts of them.

Thus I implemented fpGo. I hope you would like it :)

Features

  • Optional/Maybe

  • Monad, Rx-like

  • Publisher

  • Pattern matching

  • Fp functions

  • Java8Stream-like Collection

  • Queue (LinkedListQueue/ChannelQueue/BufferedChannelQueue/ConcurrentQueue)

  • PythonicGenerator-like Coroutine(yield/yieldFrom)

  • Akka/Erlang-like Actor model(send/receive/spawn/states)

  • network/SimpleHTTP inspired by Retrofit

  • worker/WorkerPool inspired by JavaExecutorService & goroutine pool libs

Special thanks

Usage

Optional (IsPresent/IsNil, Or, Let)

var m MaybeDef[interface{}]
var orVal int
var boolVal bool

// IsPresent(), IsNil()
m = Maybe.Just(1)
boolVal = m.IsPresent() // true
boolVal = m.IsNil() // false
m = Maybe.Just(nil)
boolVal = m.IsPresent() // false
boolVal = m.IsNil() // true

// Or()
m = Maybe.Just(1)
fmt.Println((m.Or(3))) // 1
m = Maybe.Just(nil)
fmt.Println((m.Or(3))) // 3

// Let()
var letVal int
letVal = 1
m = Maybe.Just(1)
m.Let(func() {
  letVal = 2
})
fmt.Println(letVal) // letVal would be 2

letVal = 1
m = Maybe.Just(nil)
m.Let(func() {
  letVal = 3
})
fmt.Println(letVal) // letVal would be still 1

MonadIO (RxObserver-like)

Example:

var m *MonadIODef[interface{}]
var actualInt int

m = MonadIO.Just(1)
actualInt = 0
m.Subscribe(Subscription[interface{}]{
  OnNext: func(in interface{}) {
    actualInt, _ = Maybe.Just(in).ToInt()
  },
})
fmt.Println(actualInt) // actualInt would be 1

m = MonadIO.Just(1).FlatMap(func(in interface{}) *MonadIODef[interface{}] {
  v, _ := Maybe.Just(in).ToInt()
  return MonadIO.Just(v + 1)
})
actualInt = 0
m.Subscribe(Subscription[interface{}]{
  OnNext: func(in interface{}) {
    actualInt, _ = Maybe.Just(in).ToInt()
  },
})
fmt.Println(actualInt) // actualInt would be 2

Stream (inspired by Collection libs)

Example(Generics):

var s *StreamDef[int]
var tempString = ""

s = StreamFromArray([]int{}).Append(1, 1).Extend(StreamFromArray([]int{2, 3, 4}))
tempString = ""
for _, v := range s.ToArray() {
  tempString += Maybe.Just(v).ToMaybe().ToString()
}
fmt.Println(tempString) // tempString would be "11234"
s = s.Distinct()
tempString = ""
for _, v := range s.ToArray() {
  tempString += Maybe.Just(v).ToMaybe().ToString()
}
fmt.Println(tempString) // tempString would be "1234"

Example(Non-Generics/interface{}):

var s *StreamForInterfaceDef
var tempString string

s = StreamForInterface.FromArrayInt([]int{}).Append(1, 1).Extend(StreamForInterface.FromArrayInt([]int{2, 3, 4})).Extend(StreamForInterface.FromArray([]interface{}{nil})).Extend(nil)
tempString = ""
for _, v := range s.ToArray() {
  tempString += Maybe.Just(v).ToMaybe().ToString()
}
fmt.Println(tempString) // tempString would be "11234<nil>"
s = s.Distinct()
tempString = ""
for _, v := range s.ToArray() {
  tempString += Maybe.Just(v).ToMaybe().ToString()
}
fmt.Println(tempString) // tempString would be "1234<nil>"
s = s.FilterNotNil()
tempString = ""
for _, v := range s.ToArray() {
  tempString += Maybe.Just(v).ToMaybe().ToString()
}
fmt.Println(tempString) // tempString would be "1234"

Queue(LinkedListQueue/ChannelQueue/BufferedChannelQueue/ConcurrentQueue) (inspired by Collection libs)

LinkedListQueue(Shift/Unshift/Push/Pop), ConcurrentQueue(inspired by Java)

Example:

var queue Queue[int]
var stack Stack[int]
var err error
var result int

linkedListQueue := NewLinkedListQueue[int]()
queue = linkedListQueue
stack = linkedListQueue
concurrentQueue := NewConcurrentQueue[int](queue)

// As a Queue, Put(val) in the TAIL and Take() in the HEAD
err = queue.Offer(1)
err = queue.Offer(2)
err = queue.Offer(3)
result, err = queue.Poll() // Result should be 1
result, err = queue.Poll() // Result should be 2
result, err = queue.Poll() // Result should be 3
result, err = queue.Poll() // Err: ErrQueueIsEmpty

// As a Stack, Push(val) & Pop() in the TAIL.
err = stack.Push(1)
err = stack.Push(2)
err = stack.Push(3)
result, err = stack.Pop() // Result should be 3
result, err = stack.Pop() // Result should be 2
result, err = stack.Pop() // Result should be 1
result, err = stack.Pop() // Err: ErrStackIsEmpty

BufferedChannelQueue(Offer/Take/TakeWithTimeout)

Example:

var err error
var result int
var timeout time.Duration

bufferedChannelQueue := NewBufferedChannelQueue[int](3, 10000, 100).
  SetLoadFromPoolDuration(time.Millisecond / 10).
  SetFreeNodeHookPoolIntervalDuration(1 * time.Millisecond)

err = queue.Offer(1)
err = queue.Offer(2)
err = queue.Offer(3)
timeout = 1 * time.Millisecond
result, err = bufferedChannelQueue.TakeWithTimeout(timeout) // Result should be 1
result, err = bufferedChannelQueue.TakeWithTimeout(timeout) // Result should be 2
result, err = bufferedChannelQueue.TakeWithTimeout(timeout) // Result should be 3

Actor (inspired by Akka/Erlang)

Actor common(send/receive/spawn/states)

Example:

actual := 0
// Channel for results
resultChannel := make(chan interface{}, 1)
// Message CMDs
cmdSpawn := "spawn"
cmdShutdown := "shutdown"
// Testee
actorRoot := Actor.New(func(self *ActorDef[interface{}], input interface{}) {
  // SPAWN: for ROOT
  if input == cmdSpawn {
    self.Spawn(func(self *ActorDef[interface{}], input interface{}) {
      // SHUTDOWN: for Children
      if input == cmdShutdown {
        self.Close()
        return
      }

      // INT cases: Children
      val, _ := Maybe.Just(input).ToInt()
      resultChannel <- val * 10
    })
    return
  }
  // SHUTDOWN: for ROOT
  if input == cmdShutdown {
    for _, child := range self.children {
      child.Send(cmdShutdown)
    }
    self.Close()

    close(resultChannel)
    return
  }

  // INT cases: ROOT
  intVal, _ := Maybe.Just(input).ToInt()
  if intVal > 0 {
    for _, child := range self.children {
      child.Send(intVal)
    }
  }
})

// Sequential Send messages(async)
go func() {
  actorRoot.Send(cmdSpawn)
  actorRoot.Send(10)
  actorRoot.Send(cmdSpawn)
  actorRoot.Send(20)
  actorRoot.Send(cmdSpawn)
  actorRoot.Send(30)
}()

i := 0
for val := range resultChannel {
  intVal, _ := Maybe.Just(val).ToInt()
  actual += intVal

  i++
  if i == 5 {
    go actorRoot.Send(cmdShutdown)
  }
}

// Result would be 1400 (=10*10+20*10+20*10+30*10+30*10+30*10)
fmt.Println(actual)

Actor Ask (inspired by Akka/Erlang)

actorRoot := Actor.New(func(self *ActorDef[interface{}], input interface{}) {
    // Ask cases: ROOT
    switch val := input.(type) {
    case *AskDef[interface{}, int]:
        intVal, _ := Maybe.Just(val.Message).ToInt()

        // NOTE If negative, hanging for testing Ask.timeout
        if intVal < 0 {
            break
        }

        val.Reply(intVal * 10)
        break
    }
})

// var timer *time.Timer
var timeout time.Duration
timeout = 10 * time.Millisecond

// Normal cases
// Result would be 10
actual = AskNewGenerics[interface{}, int](1).AskOnce(actorRoot)
// Ask with Timeout
// Result would be 20
actual, _ = AskNewGenerics[interface{}, int](2).AskOnceWithTimeout(actorRoot, timeout)
// Ask channel
// Result would be 30
ch := AskNewGenerics[interface{}, int](3).AskChannel(actorRoot)
actual = <- ch
close(ch)

// Timeout cases
// Result would be 0 (zero value, timeout)
actual, err = AskNewGenerics[interface{}, int](-1).AskOnceWithTimeout(actorRoot, timeout)

Compose

Example:

var fn01 = func(args ...int) []int {
  val := args[0]
  return SliceOf(val + 1)
}
var fn02 = func(args ...int) []int {
  val := args[0]
  return SliceOf(val + 2)
}
var fn03 = func(args ...int) []int {
  val := args[0]
  return SliceOf(val + 3)
}

// Result would be 6
result := Compose(fn01, fn02, fn03)((0))[0]