An O(log(n)) approach (this is ripped directly from an answer to a very similar question):

The usual technique is to transform the array into an array of cumulative sums:

```
[10 60 5 25] --> [10 70 75 100]
```

Pick a random number in the range from zero up to the cumulative total (in the example: `0 <= x < 100`

). Then, use bisection on the cumulative array to locate the index into the original array:

```
Random variable x Index in the Cumulative Array Value in Original Array
----------------- ----------------------------- ----------------------
0 <= x < 10 0 10
10 <= x < 70 1 60
70 <= x < 75 2 5
75 <= x < 100 3 25
```

For example, if the random variable *x* is 4, bisecting the cumulative array gives a position index of 0 which corresponds to 10 in the original array.

And, if the random variable *x* is 72, bisecting the cumulative array gives a position index of 2 which corresponds to 5 in the original array.