# STL Set: insert two million ordered numbers in the most efficient manner

For the following mass-insert, because the inputs are ordered, are there any (slight) optimizations?

``````set<int> primes;
for ( int i = 2; i <= 2000000; i++ ) {
primes.insert(i);
}
// then follows Sieve of Eratosthenes algorithm
``````

New improvement, twice as fast:

``````set<int> primes;
for ( int i = 2; i <= 2000000; i++ ) {
primes.insert(primes.end(), i);
}
// then follows Sieve of Eratosthenes algorithm
``````
-

There is a overloaded version of `insert` method available which takes an iterator as the first parameter. This iterator is used as the hint i.e. the comparison will start from this iterator. So if you pass the proper iterator as the hint, then you should have a very efficient insert operation on the set. See here for details. I believe in your case, `numbers.end() -1` will be a good option.

-
``````vector<int> numbers;
for (int i=2; i<=2000000; ++i)
numbers.push_back(i);

set<int> primes(numbers.begin(), numbers.end());
``````

That should have O(n) complexity, where as yours has O(n*log(n)) complexity.

The referenced link says that when you use the iterator based constructor, if the iterator is sorted, then you get linear. However, I'm not seeing anything explicit on howto explicitly inform the constructor that it's a sorted iterator.

For something cleaner, I'd rather use boost's counting iterator though. That shortens this to:

``````set<int> primes(
boost::counting_iterator<int>(0),
boost::counting_iterator<int>(200000));
``````
-
Better yet, only put actual prime numbers into your set, rather than every number. –  luke Oct 19 '10 at 17:31
@luke: The next step of his code would do just that. Or will atleast filter the set to just the primes. –  sharth Oct 19 '10 at 17:32
Also, you know exactly how big that vector will be by the end. You should allocate once (via the constructor) and not multiple times which will really hurt performance. –  luke Oct 19 '10 at 17:32
@sharth, your `vector`-to-`set` code had a 100% run-time improvement. Although, I wasn't sure why, since logically nothing new was happening. Then, this jumped out: `primes.insert(primes.end(), i);` –  Derek Illchuk Oct 19 '10 at 17:59
-1 @sharth: The code is incorrect. `vector<int> v(2000000)` will create a vector with 2M zeroes. The following `push_back` operations will add the first 2M numbers after the 2M zeroes. Even if that was correct (update `push_back` to `numbers[i]=i`, the last step `set<int> primes(numbers.begin(), numbers.end())` has the exact same cost ast just adding them hinting `insert` with the `end` iterator. The same goes with the `counting_iterator`, it's performance is not better than the original `insert` with the hint. –  David Rodríguez - dribeas Oct 19 '10 at 19:13
show 1 more comment

If you are starting with the full range of candidate `int`s, I would not use a `set` at all, I would use a `vector<bool>`, init them all to `false`, and mark the targets (primes) as `true` as they are located.

``````vector<bool> candidates(200000);
``````

You can index this using the current candidate `int` - 1 (candidate range = 1..200000). Then iterate using `find` to locate the true values, converting to `int` by using the offset versus `begin()`.

• Total number of memory allocations - 1.
• Total memory usage 25000 bytes (`vector<bool>` is a special case, see comment from @Greg Rogers) vs >= 800000 for `set<int>`, discounting BTree overhead.
• All element access is via pointer arithmetic.
-
For the Sieve of Eratosthenes algorithm, `set` was my first thought and will probably "work", although I don't know yet if its overhead will do it in. So, on second thought, a `vector` of `bool`s is a very good option. I'll implement both and see. Thanks. –  Derek Illchuk Oct 19 '10 at 18:14
@Derek - I believe this will scale better - as the size of your upper limit grows, the overhead in managing the set will get worse. `vector` might allow a higher absolute value on your upper limit N to be implemented on the same hardware although it does depend on contiguous memory of size N - you could switch to `deque<bool>` if that becomes an issue. For low values of your range top, either `set` or `vector` will work just fine. I would be interested in your results, if you can be bothered to report back. –  Steve Townsend Oct 19 '10 at 18:18
For all input sizes I tested, the `vector` (vs. the `set`) solution runs ~4.5x faster. Thanks again. –  Derek Illchuk Oct 19 '10 at 18:54
@Derek - many thanks for the feedback, all the best –  Steve Townsend Oct 19 '10 at 18:56
This is the best suggestion for Sieve-of-Eratosthenes. However, if the range is fixed at compile time, then I would tend use `std::bitset< 200000 > candidates;` –  Arun Oct 19 '10 at 19:04