# Fibonacci closure in go

I am following the go tour on their official website and I have been asked to write a Fibonacci generator. Here it is:

`````` package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
first := 0
second := 0
return func() int{
if(first == 0) {
first = 1
second = 1
return 0
}else {
current := first
firstc := second
second = first + second
first = firstc
return current
}

}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

It works. However I consider it very ugly and I'm sure there has to be a better solution. I have been thinking about posting this on the code-review however since I'm asking for a better approach I thought this is the right place to post it.

Is there a better way to write this code?

Implement a fibonacci function that returns a function (a closure) that returns successive fibonacci numbers.

My favorite clean way to implement iterating through the Fibonacci numbers is to use `first` as fi - 1, and `second` as fi. The Fibonacci equation states that:

fi + 1 = fi + fi - 1

Except when we write this in code, in the next round we're incrementing `i`. So we're effectively doing:

fnext i = fcurrent i + fcurrent i - 1

and

fnext i - 1 = fcurrent i

The way I like to implement this in code is:

``````first, second = second, first + second
``````

The `first = second` part corresponds to updating fnext i - 1 = fcurrent i, and the `second = first + second` part corresponds to updating fnext i = fcurrent i + fcurrent i - 1.

Then all we have left to do is return the old value of first, so we'll store it in a temp variable out of the way before doing the update. In total, we get:

``````// fibonacci returns a function that returns
// successive fibonacci numbers from each
// successive call
func fibonacci() func() int {
first, second := 0, 1
return func() int {
ret := first
first, second = second, first+second
return ret
}
}
``````

See it in action on the Go Playground.

A small trick

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
a := 0
b := 1
return func() int {
a, b = b, a+b
return b-a
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

Another approach

``````func fibonacci() func() int {
n1, n := -1, 1
return func() int {
n1, n = n, n1+n
return n
}
}
``````

The Go Playground

I would make use of multiple assignment, reduce the length of identifiers, and remove that if statment:

``````func fibonacci() func() int {
var a, b int
b = 1
return func() int {
ret := a
a, b = b, a+b
return ret
}
}
``````

This is how I have done.

``````func fibonacci() func() int {
var s = []int{0,1}

return func() int{
ret := s
s,s = s,s+s
return ret
}
}
``````

Here is also my suggestion by storing each number in a Map.

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
// 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, 377, 610,
// 987, 1597, 2584, 4181, 6765, 10946, 17711, 28657, 46368, 75025,
// 121393, 196418, 317811, 514229
func fibonacci() func() int {
numbers := make(map[int]int)
n := 0
return func() int {
if n == 0 {
numbers[n] = 0
n++
return 0
}
if n == 1 {
numbers[n] = 1
n++
return 1
}
number := numbers[n-1] + numbers[n-2]
numbers[n] = number
n++
return number
}}

func main() {
f := fibonacci()
for i := 0; i < 30; i++ {
fmt.Println(f())
}
}
``````

Besides the already provided answers you could also use a defer function for it:

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
secondLast := 0
last := 1
return func() int {
defer func() {
secondLast, last = last, secondLast+last
}()
return secondLast
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

Go Playground

But i guess jwoodalls answers is the most performant one.

Edit: But if you wanna use unsigned integers (to show off how many fibonacci numbers you can compute on your architecture ;) ) you would have to use either the approach with the variable holding the return value or the defer function.

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an uint.
func fibonacci() func() uint {
var secondLast uint
var last uint = 1
return func() uint {
defer func() {
secondLast, last = last, secondLast + last
}()
return secondLast
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

Go Playground

EditEdit: Or even better: use float64!!!

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an float64.
func fibonacci() func() float64 {
var secondLast float64
var last float64 = 1
return func() float64 {
defer func() {
secondLast, last = last, secondLast+last
}()
return secondLast
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

Go Playground

Or u may use this approach...simple and understandable, though not very different from the previous answers.

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
f1 := 0
f2 := 1
return func() int {
temp := f1+f2
temp2 := f1
f1 = f2
f2 = temp
return temp2
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````
``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
a, b, sum := 1, 1, 0
return func() int {
a,b = b,sum
sum = a + b
return b
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

I had a bit of trouble with this exercise as well, thank you to everyone for these answers. Thought I would also share that if you continue the go tour and make it to the concurrency section, there is another way to implement this using channels in concurrency lesson 4.

Code snippet from lesson 4:

``````package main

import (
"fmt"
)

func fibonacci(n int, c chan int) {
x, y := 0, 1
for i := 0; i < n; i++ {
c <- x
x, y = y, x+y
}
close(c)
}

func main() {
c := make(chan int, 10)
go fibonacci(cap(c), c)
for i := range c {
fmt.Println(i)
}
}

``````

``````func fibonacci() func() int {
a, b := 0, 1
upd := func() { a, b = b, a+b }
return func() int {
defer upd()
return a
}
}

func main() {
fib := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(fib())
}
}
``````
``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
r := []int{0,0,1}
return func() int{
r = []int{r,r,r+r}
return r
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````

I was able to implement a recursive closure solution using hints from this post on the correct recursive syntax in go: https://stackoverflow.com/a/34194763/1592607

``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func(int) int {
var recur func(int) int
recur = func(x int) int {
switch x {
case 0:
return 0
case 1:
return 1
default:
return (recur(x - 1) + recur(x - 2))
}
}
return recur
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f(i))
}
}
``````
``````package main

import "fmt"

// fibonacci is a function that returns
// a function that returns an int.
func fibonacci() func() int {
first:=0
second:=0
return func() int{
if second == 0 {
second = 1
} else if first == 0 {
first = 1
} else {
first, second = second, first + second
}
return second
}
}

func main() {
f := fibonacci()
for i := 0; i < 10; i++ {
fmt.Println(f())
}
}
``````