package channel // Of returns a channel containing all values func Of[T any](values ...T) <-chan T { return AsChanDelayed(0, values...) } // OfDelayed behaves like Of but with a pre-defined delay between each value func OfDelayed[T any](delay time.Duration, values ...T) <-chan T { out := make(chan T, len(values)) go func(out chan T, values []T) { for i, value := range values { out <- value if i < len(values)-1 { time.Sleep(delay) } } close(out) }(out, values) return out } // OfDelayedFunc behaves like OfDelayed but accepts a function to determine the delay func OfDelayedFunc[T any](delayFunc func(value T) time.Duration, values ...T) <-chan T { out := make(chan T, len(values)) go func(out chan T, values []T) { for i, value := range values { out <- value if i < len(values)-1 { time.Sleep(delayFunc(value)) } } close(out) }(out, values) return out } // OfFunc returns a channel containing the return values of successively calling f // It closes the channel as soon as ctx is done func OfFunc[T any](ctx context.Context, buffer int, f func() T) <-chan T { out := make(chan T, buffer) go func() { defer close(out) for ctx.Err() == nil { select { case out <- f(): case <-ctx.Done(): return } } }() return out }