package lo import "sync" type synchronize struct { locker sync.Locker } func (s *synchronize) Do(cb func()) { s.locker.Lock() Try0(cb) s.locker.Unlock() } // Synchronize wraps the underlying callback in a mutex. It receives an optional mutex. func Synchronize(opt ...sync.Locker) *synchronize { if len(opt) > 1 { panic("unexpected arguments") } else if len(opt) == 0 { opt = append(opt, &sync.Mutex{}) } return &synchronize{ locker: opt[0], } } // Async executes a function in a goroutine and returns the result in a channel. func Async[A any](f func() A) <-chan A { ch := make(chan A, 1) go func() { ch <- f() }() return ch } // Async0 executes a function in a goroutine and returns a channel set once the function finishes. func Async0(f func()) <-chan struct{} { ch := make(chan struct{}, 1) go func() { f() ch <- struct{}{} }() return ch } // Async1 is an alias to Async. func Async1[A any](f func() A) <-chan A { return Async(f) } // Async2 has the same behavior as Async, but returns the 2 results as a tuple inside the channel. func Async2[A any, B any](f func() (A, B)) <-chan Tuple2[A, B] { ch := make(chan Tuple2[A, B], 1) go func() { ch <- T2(f()) }() return ch } // Async3 has the same behavior as Async, but returns the 3 results as a tuple inside the channel. func Async3[A any, B any, C any](f func() (A, B, C)) <-chan Tuple3[A, B, C] { ch := make(chan Tuple3[A, B, C], 1) go func() { ch <- T3(f()) }() return ch } // Async4 has the same behavior as Async, but returns the 4 results as a tuple inside the channel. func Async4[A any, B any, C any, D any](f func() (A, B, C, D)) <-chan Tuple4[A, B, C, D] { ch := make(chan Tuple4[A, B, C, D], 1) go func() { ch <- T4(f()) }() return ch } // Async5 has the same behavior as Async, but returns the 5 results as a tuple inside the channel. func Async5[A any, B any, C any, D any, E any](f func() (A, B, C, D, E)) <-chan Tuple5[A, B, C, D, E] { ch := make(chan Tuple5[A, B, C, D, E], 1) go func() { ch <- T5(f()) }() return ch } // Async6 has the same behavior as Async, but returns the 6 results as a tuple inside the channel. func Async6[A any, B any, C any, D any, E any, F any](f func() (A, B, C, D, E, F)) <-chan Tuple6[A, B, C, D, E, F] { ch := make(chan Tuple6[A, B, C, D, E, F], 1) go func() { ch <- T6(f()) }() return ch }