How would I create a vector filled with random numbers?

The usual code one finds is along the lines of:

std::mt19937 rng {std::random_device{}()};
std::uniform_int_distribution<int> dist {1, 52};

std::vector<int> vec(10);
std::generate(begin(vec), end(vec), [&]{return dist(rng);} );

However this means that each value is touched twice: Once set to zero and then to the random value (even at O3)

So how to do this as efficient as possible?

  • 1 - although it may be more efficient to just size the vector once and then overwrite the values. – BoBTFish Sep 14 at 12:51
  • where is anything set to zero? – P i Sep 14 at 12:53
  • Didn't found that question, thanks. I just posted what I deemed to be the answer below as it is 1 solution, although there might be more. (Seen the question afterwards) – Flamefire Sep 14 at 12:54
  • @Pi The ctor does that. – Flamefire Sep 14 at 12:54
  • 1
    @Flamefire I meant in the assembly you posted. Cannot find it. – P i Sep 14 at 12:59

You can make a function call iterator and pass that into vector range constructor:

#include <boost/iterator/iterator_facade.hpp>
#include <iostream>
#include <vector>
#include <random>
#include <tuple>

template<class F, class Tag = std::input_iterator_tag>
class FunctionCallIterator
    : public boost::iterator_facade<
          FunctionCallIterator<F, Tag>,
          typename std::result_of<F()>::type,
          typename std::result_of<F()>::type
    std::tuple<F, ptrdiff_t> m_; // Enable empty base class optimization for empty F.
    friend class boost::iterator_core_access;
    typename std::result_of<F()>::type dereference() const { return std::get<0>(m_)(); }
    bool equal(FunctionCallIterator const& b) const { return std::get<1>(m_) == std::get<1>(b.m_); }
    void increment() { ++std::get<1>(m_); }
    void decrement() { --std::get<1>(m_); }
    void advance(ptrdiff_t n) { std::get<1>(m_) += n; }
    ptrdiff_t distance_to(FunctionCallIterator const& b) const { return std::get<1>(b.m_) - std::get<1>(m_); }
    FunctionCallIterator(F const& f, ptrdiff_t n) : m_(f, n) {}

int main() {
    std::mt19937 rng {std::random_device{}()};
    std::uniform_int_distribution<int> dist {1, 52};
    auto f = [&]{return dist(rng);};
    using RngIter = FunctionCallIterator<decltype(f), std::random_access_iterator_tag>;
    std::vector<int> vec(RngIter{f, 0}, RngIter{f, 10});
    for(auto v : vec)
        std::cout << v << '\n';

Compared to push_back/back_inserter method this method does not check the current vector size vs its capacity and does not increment vector size for each element.

  • This is indeed as efficient as it gets: But note that your iterator violates some constraints: It claims to be random-access but isn't. It is rather an input iterator, so usage outside this use case is dangerous. Having a range constructor for vector would be nice (like: std::vector<int> vec(RandomRange{[&]{return dist(rng);}, 10});) – Flamefire Sep 14 at 15:21
  • @Flamefire Yes, you are right. It has random_access_iterator_tag so that vector range constructor allocates once. If it is marked with input_iterator_tag the vector constructor does push_back method (libstdc++). – Maxim Egorushkin Sep 14 at 15:31
  • @Flamefire Changed the code to make the user explicitly opt into using random_access_iterator_tag, while the default is safe input_iterator_tag. – Maxim Egorushkin Sep 14 at 16:18

From what I found the combination of reserve with back_inserter should do the trick:

std::mt19937 rng {std::random_device{}()};
std::uniform_int_distribution<int> dist {1, 52};

std::vector<int> vec;
const size_t size = 1000;
std::generate_n(std::back_inserter(vec), size, [&]{return dist(rng);} );

This seems to be very efficient but there still is a capacity check, which shouldn't be required:

Not sure if std::vector allows anything to be more efficient than this. What would be required is an uninitialized_resize

Edit: Also seen on Is this correct way to combine std::generate_n and std::back_inserter?

  • Why do you need back_inserter for simple int? Just resize the vector and use generate directly. Initialization with zeros is really fast. – Evg Sep 14 at 12:58
  • 1
    @Evg While it is fast it's still unneeded overhead. It also doesn't scale well for other types. – NathanOliver Sep 14 at 13:00
  • @NathanOliver, for int on my machine it is ~2 times faster and for double it is ~100 times faster. std::back_inserter also has some overhead, and I doubt that it is smaller than zero initialization. – Evg Sep 14 at 13:03
  • 1
    I've recently heard that the range constructor (the one that takes a pair of iterators) is the fastest way to generate a vector. Though I haven't seen any evidence, it does make sense. It can pre-reserve but also doesn't need to rely on any insertion functions to insert elements, it can insert them directly and can skip the capacity check you mention. You would just need to write a simple input iterator that generates new values on operator++. You'd have to get std::distance to be constant time for your iterators, which my be a bit trickier in this case. – François Andrieux Sep 14 at 13:07
  • @NathanOliver, in the second block you don't need back_inserter. – Evg Sep 14 at 13:11

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