# Daily Coding Problem #15

Today problem is a `probability`

problem.

# Problem

This problem was asked by Facebook.

Given a stream of elements too large to store in memory, pick a random element from the stream with uniform probability.

# Solution

There are many variations of such problems, and before solving it, I want to show some basic examples that I met.

Most trivial one is **picking one random element from an array**.

Every programming language has a function to generate a pseudo-random number (`int`

or `float`

) within the given range. If you think
of an array **A** as of **N** numbers, it’s clear how to pick random one: generate number **i** from 0 to N, and **a[i]** is the answer.

```
func oneRandom(a []int) int {
i := rand.Intn(len(a))
return aa[i]
}
```

Sometimes you need to pick **N random elements from an array**.

In this case, you can use the same approach and pick **N** indexes from **0** to **len(A)**.

```
func nRandom(a []int, n int) []int {
result := make([]int, n)
for i := 0; i < n; i++ {
result[i] = oneRandom(a)
}
return result
}
```

However, if you need to pick **N** random elements, they also have to be **different**.

In this case, you can pick **N** different indexes and make sure that they are different:

```
func nDifferentRandom1(a []int, n int) []int {
m := map[int]bool{}
for len(m) != n {
j := rand.Intn(len(a))
m[j] = true
}
result := make([]int, n)
for i := range m {
result[i] = a[i]
}
return result
}
```

But itâ€™s not very efficient, because you can spend much time trying to pick the last index when you need to pick 8 elements from an array of length 10.

In this case, you can use the well-known zero-allocation algorithm to do so. The idea is to move elements you picked to the beginning of an array, and choose from others next:

```
func nDifferentRandom2(a []int, n int) []int{
for i := 0; i < n; i++ {
chooseFrom := a[i:] // define a slice to pick from
choosenIndex := rand.Intn(len(chooseFrom)) // pick a random index from i to N
a[i], a[choosenIndex] = a[choosenIndex], a[i] // swap choosenElement with i
}
// after all, we have choosen elements at the
// begining of an array, and probability is always same.
return a[:n]
}
```

Let’s return to problem #15 and try to solve it using previous examples.

What do we have:

- a stream of elements too large to store in memory
- should pick 1 random element

We understand that to pick a random element from the stream with uniform probability, we need to process hole stream somehow (without storing to memory).

Well, we always can iterate over a stream (but just once).

If we knew the length of a stream, we could use the approach from the first example, that would be perfect.

In first example each element of an array have a linked number - it’s index. Moreover, we used a function that returns number from 0 to n with uniform probability within that range to pick one.

So, in this case, we can **assign** a random value to each element with the same probability, and choose between them based on it linked number.

Let’s do it: for each element, we generate a float number between **[0..1]**. Also, we remember
maximum value that we generated, an element from the stream associated with it - random element.

# Code

```
func solution(in <-chan int) <-chan int {
res := make(chan int, 1)
go func() {
var result int
var lastprob float64
for a := range in {
prob := rand.Float64()
if prob > lastprob {
result = a
lastprob = prob
}
}
res <- result
}()
return res
}
```