Boost C++ Libraries

...one of the most highly regarded and expertly designed C++ library projects in the world. Herb Sutter and Andrei Alexandrescu, C++ Coding Standards

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Area of Circle

Generic numeric programming employs templates to use the same code for different floating-point types and functions. Consider the area of a circle a of radius r, given by

a = π * r2

The area of a circle can be computed in generic programming using Boost.Math for the constant π as shown below:

#include <boost/math/constants/constants.hpp>

template<typename T>
inline T area_of_a_circle(T r)
{
   using boost::math::constants::pi;
   return pi<T>() * r * r;
}

It is possible to use area_of_a_circle() with built-in floating-point types as well as floating-point types from Boost.Multiprecision. In particular, consider a system with 4-byte single-precision float, 8-byte double-precision double and also the cpp_dec_float_50 data type from Boost.Multiprecision with 50 decimal digits of precision.

We can compute and print the approximate area of a circle with radius 123/100 for float, double and cpp_dec_float_50 with the program below.

#include <iostream>
#include <iomanip>
#include <boost/multiprecision/cpp_dec_float.hpp>

using boost::multiprecision::cpp_dec_float_50;

int main(int, char**)
{
   const float r_f(float(123) / 100);
   const float a_f = area_of_a_circle(r_f);

   const double r_d(double(123) / 100);
   const double a_d = area_of_a_circle(r_d);

   const cpp_dec_float_50 r_mp(cpp_dec_float_50(123) / 100);
   const cpp_dec_float_50 a_mp = area_of_a_circle(r_mp);

   // 4.75292
   std::cout
      << std::setprecision(std::numeric_limits<float>::digits10)
      << a_f
      << std::endl;

   // 4.752915525616
   std::cout
      << std::setprecision(std::numeric_limits<double>::digits10)
      << a_d
      << std::endl;

   // 4.7529155256159981904701331745635599135018975843146
   std::cout
      << std::setprecision(std::numeric_limits<cpp_dec_float_50>::digits10)
      << a_mp
      << std::endl;
}

In the next example we'll look at calling both standard library and Boost.Math functions from within generic code. We'll also show how to cope with template arguments which are expression-templates rather than number types.


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