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I wrote the following class for generating random integers from a given interval [lower, upper].

 class RandomInteger {


    std::random_device randomDevice;
    std::default_random_engine randomEngine;
    std::uniform_int_distribution<> distribution;


    RandomInteger(int64_t lower, int64_t upper);

    virtual ~RandomInteger();

    virtual int64_t generate();

RandomInteger::RandomInteger(int64_t lower, int64_t upper) : randomEngine(this->randomDevice()), distribution(lower, upper) {

RandomInteger::~RandomInteger() {
    // TODO Auto-generated destructor stub

int64_t RandomInteger::generate() {
    int64_t i = this->distribution(this->randomEngine);
    return i;

This is okay if the interval remains the same and multiple calls to generate are made. However, now my use case is generating integers from an interval which is always changing (the upper bound increases every time).

First and foremost, this needs to be fast. This has nothing to do with cryptography so very pseudo-random numbers are okay (and std::random_device is probably not needed). I would also like to avoid C style if possible and use modern C++11 style.

Can you suggest ways to do this efficiently?

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Is changing the distribution not efficient enough? uniform_int_distribution is a very thin wrapper, there shouldn’t be any significant overhead. Also, why are the functions in your class virtual? – Konrad Rudolph Apr 9 '13 at 11:44
OOP is very overrated, C++ supports it but for the most part it has superior mechanisms (algorithm oriented programming) to solve a problem – see most of the standard library. virtual functions do have a significant cost, don’t be misled. Their actual overhead is relatively small but they pose a barrier to inlining, which may have much bigger implications on performance. Regarding your second question: yes, exactly. The cost of that should be effectively the same as assigning two integers (because internally that’s happening), nothing more. – Konrad Rudolph Apr 9 '13 at 12:13
@cls FWIW you will also see many prominent people that use other so-called OOP languages tell you to "design for inheritance or forbid it". It sounds like the same idea to me. You cannot get reusability by simply slapping a keyword in there. Actual reusability and extensibility comes from design, not magically from language features (though lack of the right language features may hinder design). – R. Martinho Fernandes Apr 9 '13 at 12:17
@cls: That advice holds true for any language. "OOP language" is meaningless. Virtual functions are not a magic extensibility button- you need a whole lot more. Simple fact is, you don't need virtual, so don't use it. – Puppy Apr 9 '13 at 12:19
@cls I was gonna respond. However, I couldn't say it much better than @R.MF already did. Meanwhile, let me just commend you for actually asking the question instead of just :shrug: and thinking people are wrong. This is what sets people who (will) get it apart from the people who don't. – sehe Apr 9 '13 at 12:21

1 Answer 1

up vote 2 down vote accepted

Use the overload of uniform_int_distribution::operator() that accepts a const param_type &:

int64_t RandomInteger::generate(int64_t lower, int64_t upper) {
    int64_t i = this->distribution(this->randomEngine,
      std::uniform_int_distribution<int64_t>{lower, upper}.param());
    return i;

(Note that you should value-initialize distribution, as you are not interested in setting its param. Also, distribution should be templated with int64_t, not int.)

If uniform_int_distribution preserves any state, then this will use it efficiently.

In actual fact, most implementations of uniform_int_distribution do not preserve any state; see e.g. libstdc++ random.tcc:

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