Your problem was interesting. So, I tried writing something and finally came up with this.

```
//---------- sample List initialization ------
list<string> lst;
lst.push_back("A");
lst.push_back("B");
....
lst.push_back("Y");
lst.push_back("Z");
#define LIST_SIZE 26
//--------------------------------------------
//------------- Shuffle Algorithm ------------
unordered_multimap<int,string> mymap;
int HashKeys[LIST_SIZE];
srand((int)time(NULL) * (int)clock());
for(int i = 0; i<LIST_SIZE; i++) // loop 'n' times
{
HashKeys[i] = rand(); // O(c) operation
}
for(int i = 0;lst.size() > 0; i++) // loop 'n' times
{
// O(n) operation ( varies from O(c) to O(n) according to the situations )
mymap.insert(std::make_pair<int,string>(HashKeys[rand() % LIST_SIZE],lst.front()));
lst.pop_front(); // O(c) operation
}
unordered_multimap<int,string>::iterator it;
for(int i = 0; i < LIST_SIZE ;i++) // loop 'n' times
{
while(mymap.count(HashKeys[i]) > 0) // unpredictable
{
it = mymap.find(HashKeys[i]); // O(c) for single O(n) for multi
// ...USAGE...
cout << it->second << endl;
lst.push_back(it->second);
//............
mymap.erase(it); // O(c) operation
}
}
//-------------------------------------------------
```

Time Complexity is O(n^2) if there are multiple values for same key in the hash map.
Otherwise the time complexity is O(n).
so everything depends on the function `(rand() % LIST_SIZE)`

lists are, even in domains where they are historically seen as superior. – Konrad Rudolph Oct 13 '12 at 11:30almost alwaysmuch less efficient than vectors`std::list`

in the first place. The situations where`std::list`

shines is when 1) you require iterators to always remain valid (to store them for instance, but pointers to`std::deque`

elements or indices in a vector are alternatives to consider), 2) you want constant time splicing. If you need neither 1 or 2, use something else (this means either`deque`

,`vector`

or`[multi]set`

). – Alexandre C. Oct 13 '12 at 21:57