I am working with an array of roughly 2000 elements in C++.

Each element represents the probability of that element being selected randomly.

I then have convert this array into a cumulative array, with the intention of using this to work out which element to choose when a dice is rolled.

Example array: {1,2,3,4,5}

Example cumulative array: {1,3,6,10,15}

I want to be able to select 3 in the cumulative array when numbers 3, 4 or 5 are rolled.

The added complexity is that my array is made up of long doubles. Here's an example of a few consecutive elements:

0.96930161525189592646367317541056252139242133125662803649902343750 0.96941377254127855667142910078837303444743156433105468750000000000 0.96944321382974149711383993199831365927821025252342224121093750000 0.96946143938926617454089618153290075497352518141269683837890625000 0.96950069444055009509463721739663810694764833897352218627929687500 0.96951751803395748961766908990966840065084397792816162109375000000

This could be a terrible way of doing weighted probabilities with this data set, so I'm open to any suggestions of better ways of working this out.

`partial_sum`

. – Peter Wood Feb 18 '13 at 15:21`std::upper_bound`

… subtract 1 from the result to get the element "at least equal to" the argument. – Potatoswatter Feb 18 '13 at 17:37