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I am looking for an efficient method for selecting access to each element of a std::vector<T> in a random order, without reshuffling or copying them i.e no use of std::random_shuffle and ensure that each element is selected only once.

I don't want to copy or reshuffle as a) each instance of T is likely to be a very large object and b) for other operations I will be doing on the elements of the vector, it is easier for them to remain in the same order.

Furthermore, I don't really want to go down the street of continuously picking and rejecting duplicates. It is likely I will have lots of these large objects stored in the vector and efficiency is key as I will be looking to call this random selection method many times a second.

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Can you implement a swap method for your type? If the standard library implementation uses argument-dependent lookup for swap (it should), then you will get O(1) swapping of elements in the vector. –  André Caron Dec 19 '11 at 20:25

3 Answers 3

up vote 3 down vote accepted

You did not tell us whether you want to iterate over the whole array randomly, or if you only need some elements at random.

I assume the first case. You'll need extra storage for bookkeeping, and you'll need linear time for the shuffling anyway. So create a permutation, and keep its memory alive so that you can reshuffle it as you wish. With C++11:

#include <algorithm>
#include <random>
#include <numeric>

struct permutation
{
    permutation(size_t n) 
        : perm(n), g(std::random_device())
    {
        std::iota(perm.begin(), perm.end(), size_t(0));
    }

    void shuffle() { std::shuffle(perm.begin(), perm.end(), g); }

    size_t operator[](size_t n) const { return perm[n]; }

private:
    std::vector<size_t> perm;
    std::mt19937 g;
};

Usage:

std::vector<huge_t> v;
...

permutation sigma(v.size());
sigma.shuffle();

const huge_t& x = v[sigma[0]];

...
sigma.shuffle(); // No extra allocation
const huge_t& y = v[sigma[0]];

You can adapt the code to use C++03 std::random_shuffle, but please note that there are very few guarantees on the random number generator.

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Unfortunately I am using VS2008, which I believe doesn't support c++11 –  oracle3001 Dec 19 '11 at 20:03
    
+1, your answers cooler than mine :) –  w00te Dec 19 '11 at 20:06
    
Note that std::random_shuffle() has an overload which accepts a random number generator. You can pass in a higher quality generator if you wish to. –  André Caron Dec 19 '11 at 20:24
    
Just to clarify, as not familiar with c++11, what needs adapting for use with C++03? or have you already changed the code after your update? –  oracle3001 Dec 19 '11 at 20:26
    
@AndréCaron: true, but you will agree that it is quite difficult to do it properly, and I wouldn't recommand doing it if it is available via a library. –  Alexandre C. Dec 19 '11 at 20:26

Create a vector the same size as the existing one that uses pointers to the elements in the vector. Randomly shuffle the pointer vector instead and read from there - it's low cost.

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I think the easiest (and one of the more efficient ones) solution would be to either create a std::vector<size_t> holding indices into your vector<T>, or a std::vector<T*> holding the pointers into your vector. Then you can shuffle that one using std::random_shuffle, iterate over it and pick the corresponding elements from your original vector. That way you don't change the order of your original vector and shuffleing pointers or size_t is pretty cheap

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The std::vector<int> method is the way I currently have implemented it, but just wanted to check there wasn't a better way of doing this. Have come back to c++ coding after a couple of year break. –  oracle3001 Dec 19 '11 at 19:35
    
+1 Basically equivalent to w00te's approach, but the relation to the original vector is clearer, the original vector can be modified in between, and it may be 50% more memory efficent on LP64 systems if you decide that you're lazy and use int over size_t. –  delnan Dec 19 '11 at 19:37
    
Thanks guys....The std::vector<int> method is the way I currently have implemented it, but just wanted to check there wasn't a better way of doing this. Have come back to c++ coding after a couple of year break. Following on from this....Lets say std::vector<Object> ObjVector and std::vector<int> index is it possible to use for_each (index.begin(), index.end(), someMethod) to achieve the following...someMethod in someway ends up in a call to method Obj.method i.e for_each results in calls to method in each instance of Object in ObjVector in a random order? –  oracle3001 Dec 19 '11 at 19:41
    
use std::vector<T*> and std::vector<T*>::iterator –  J T Dec 19 '11 at 19:43
    
Which is better? Storing a std::vector<T>::const_iterator or std::vector<T*> as the indexing method? And do I really need to store std::vector<T*> and std::vector<T*>::iterator? –  oracle3001 Dec 19 '11 at 20:17

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