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B.2 Boost

The Boost project was started by members of the C++ Standard Committee as a way to explore future directions for the C++ library and to provide a high-quality library that extends what is available in the standard C++ library. Boost has grown to encompass many areas, such as dates and times, regular expressions, lambda expressions, mathematical functions, graphs (the mathematical kind, not the pictorial kind), type traits, multithreaded programming, and more.

Some of the Boost packages have already been proposed as extensions to the standard library. By the time you read this, the Standard Committee might already have accepted a formal Technical Specification for an extension to the standard library. See my web site at http://www.tempest-sw.com/cpp/ for current information.

This section presents two of the packages in Boost that are part of the proposed library extension: tuples and smart pointers. A tuple is a generalization of the standard pair class template. Instead of being limited to 2 elements, a tuple can contain up to 10 elements (and the maximum can be extended if necessary). Example B-2 shows one way to use boost::tuple.

Example B-2. Using a tuple
#include <numeric>
#include <iostream>
#include <ostream>
#include <vector>
#include "boost/tuple/tuple.hpp"

// Store count, sum, and sum of squares.
typedef boost::tuple<std::size_t, double, double> Stats;

// Accumulate statistics.
Stats stats(Stats s, double x)
{
  ++s.get<0>(  );
  s.get<1>(  ) += x;
  s.get<2>(  ) += x * x;
  return s;
}

int main(  )
{
  std::vector<double> v;
   . . .  fill v with data  . . . 

  Stats s = std::accumulate(v.begin(  ), v.end(  ),
                  boost::make_tuple(0U, 0.0, 0.0), stats);
  std::cout << "count = " << s.get<0>(  ) << '\n';
  std::cout << "mean  = " << s.get<1>(  ) / s.get<0>(  ) << '\n';
}

Boost has several smart pointer class templates. They solve a number of problems that the standard auto_ptr<> class template does not. For example, you cannot store an auto_ptr<> object in a standard container, but you can store a boost::shared_ptr<> object. Boost has several other smart pointer templates; for the sake of brevity, Example B-3 shows only shared_ptr<>.

Example B-3. Using shared pointers
#include <algorithm>
#include <iostream>
#include <iterator>
#include <ostream>
#include <string>
#include <vector>
#include "boost/smart_ptr.hpp"

// A company has employees. Each employee can be Exempt or NonExempt. Certain
// Exempt employees are Managers, which are distinguished by having a group of
// Employees. All the memory for said employees is managed automatically by Boost
// shared_ptr<> templates.

class Employee {
public:
  Employee(const std::string& name) : name_(name) {}
  virtual ~Employee(  ) {}
  const std::string name(  ) const { return name_; }
  virtual void print(std::ostream&);
private:
  const std::string name_;
};
typedef boost::shared_ptr<Employee> employee;

void Employee::print(std::ostream& out)
{
  out << name(  ) << '\n';
}

class Exempt : public Employee {
public:
  Exempt(const std::string& name) : Employee(name) {}
};

class NonExempt : public Employee {
public:
  NonExempt(const std::string& name) : Employee(name) {}
};

class Manager : public Exempt {
public:
  Manager(const std::string& name) : Exempt(name) {}
  void add(Employee* e) { group_.push_back(employee(e)); }
  void add(employee e) { group_.push_back(e); }
  virtual void print(std::ostream&);
private:
  std::vector<employee> group_;
};
typedef boost::shared_ptr<Manager> manager;

void Manager::print(std::ostream& out)
{
  out << name(  ) << " { ";
  std::copy(group_.begin(  ), group_.end(  ),
    std::ostream_iterator<employee>(out, ""));
  out << "}\n";
}

// Make it easier to print any kind of employee.
template<typename charT, typename traits>
std::basic_ostream<charT,traits>& operator<<(std::basic_ostream<charT,traits>&
  out, employee e)
{
  e->print(out);
  return out;
}

int main(  )
{
  manager ceo(new Manager("I. M. Portant"));
  manager muddle(new Manager("Muddled manager"));
  ceo->add(muddle);
  muddle->add(new Exempt("J. Doe"));
  muddle->add(new NonExempt("J. Dough"));
  ceo->print(std::cout);
}
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