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gmp_rational

#include <boost/multiprecision/gmp.hpp>

namespace boost{ namespace multiprecision{

class gmp_rational;

typedef number<gmp_rational >         mpq_rational;

}} // namespaces

The gmp_rational back-end is used via the typedef boost::multiprecision::mpq_rational. It acts as a thin wrapper around the GMP mpq_t to provide a rational number type that is a drop-in replacement for the native C++ number types, but with unlimited precision.

As well as the usual conversions from arithmetic and string types, instances of number<gmp_rational> are copy constructible and assignable from:

There is also a two-argument constructor that accepts a numerator and denominator (both of type number<gmp_int>).

There are also non-member functions:

mpz_int numerator(const mpq_rational&);
mpz_int denominator(const mpq_rational&);

which return the numerator and denominator of the number.

It's also possible to access the underlying mpq_t via the data() member function of mpq_rational.

Things you should know when using this type:

Example:
#include <boost/multiprecision/gmp.hpp>
#include <boost/multiprecision/gmp.hpp>
#include <iostream>

int main()
{
   using namespace boost::multiprecision;

   mpq_rational v = 1;

   // Do some arithmetic:
   for(unsigned i = 1; i <= 1000; ++i)
      v *= i;
   v /= 10;

   std::cout << v << std::endl; // prints 1000! / 10
   std::cout << numerator(v) << std::endl;
   std::cout << denominator(v) << std::endl;

   mpq_rational w(2, 3);  // component wise constructor
   std::cout << w << std::endl; // prints 2/3

   // Access the underlying data:
   mpq_t q;
   mpq_init(q);
   mpq_set(q, v.backend().data());
   mpq_clear(q);
   return 0;
}

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