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 [article GCD and LCM
     [quickbook 1.3]
     [copyright 2001-2002 Daryle Walker]
     [license
         Distributed under the Boost Software License, Version 1.0.
         (See accompanying file LICENSE_1_0.txt or copy at
         [@http://www.boost.org/LICENSE_1_0.txt http://www.boost.org/LICENSE_1_0.txt])
     ]
     [authors [Walker, Daryle]]
     [category math]
     [last-revision $Date: 2006-12-29 11:08:32 +0000 (Fri, 29 Dec 2006) $]
 ]

 This manual is also available in
 [@http://svn.boost.org/svn/boost/sandbox/pdf/math/release/math-gcd.pdf
 printer friendly PDF format].


 [section:gcd_lcm Greatest Common Divisor and Least Common Multiple]

 [section Introduction]

 The class and function templates in <boost/math/common_factor.hpp>
 provide run-time and compile-time evaluation of the greatest common divisor
 (GCD) or least common multiple (LCM) of two integers.
 These facilities are useful for many numeric-oriented generic
 programming problems.

 [endsect]

 [section Synopsis]

    namespace boost
    {
    namespace math
    {

    template < typename IntegerType >
       class gcd_evaluator;
    template < typename IntegerType >
       class lcm_evaluator;

    template < typename IntegerType >
       IntegerType  gcd( IntegerType const &a, IntegerType const &b );
    template < typename IntegerType >
       IntegerType  lcm( IntegerType const &a, IntegerType const &b );

    typedef ``['see-below]`` static_gcd_type;

    template < static_gcd_type Value1, static_gcd_type Value2 >
       struct static_gcd;
    template < static_gcd_type Value1, static_gcd_type Value2 >
       struct static_lcm;

    }
    }

 [endsect]

 [section GCD Function Object]

 [*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

    template < typename IntegerType >
    class boost::math::gcd_evaluator
    {
    public:
       // Types
       typedef IntegerType  result_type;
       typedef IntegerType  first_argument_type;
       typedef IntegerType  second_argument_type;

       // Function object interface
       result_type  operator ()( first_argument_type const &a,
       second_argument_type const &b ) const;
    };

 The boost::math::gcd_evaluator class template defines a function object
 class to return the greatest common divisor of two integers.
 The template is parameterized by a single type, called IntegerType here.
 This type should be a numeric type that represents integers.
 The result of the function object is always nonnegative, even if either of
 the operator arguments is negative.

 This function object class template is used in the corresponding version of
 the GCD function template. If a numeric type wants to customize evaluations
 of its greatest common divisors, then the type should specialize on the
 gcd_evaluator class template.

 [endsect]

 [section LCM Function Object]

 [*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

    template < typename IntegerType >
    class boost::math::lcm_evaluator
    {
    public:
       // Types
       typedef IntegerType  result_type;
       typedef IntegerType  first_argument_type;
       typedef IntegerType  second_argument_type;

       // Function object interface
       result_type  operator ()( first_argument_type const &a,
       second_argument_type const &b ) const;
    };

 The boost::math::lcm_evaluator class template defines a function object
 class to return the least common multiple of two integers. The template
 is parameterized by a single type, called IntegerType here. This type
 should be a numeric type that represents integers. The result of the
 function object is always nonnegative, even if either of the operator
 arguments is negative. If the least common multiple is beyond the range
 of the integer type, the results are undefined.

 This function object class template is used in the corresponding version
 of the LCM function template. If a numeric type wants to customize
 evaluations of its least common multiples, then the type should
 specialize on the lcm_evaluator class template.

 [endsect]

 [section:run_time Run-time GCD & LCM Determination]

 [*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

    template < typename IntegerType >
    IntegerType  boost::math::gcd( IntegerType const &a, IntegerType const &b );

    template < typename IntegerType >
    IntegerType  boost::math::lcm( IntegerType const &a, IntegerType const &b );

 The boost::math::gcd function template returns the greatest common
 (nonnegative) divisor of the two integers passed to it.
 The boost::math::lcm function template returns the least common
 (nonnegative) multiple of the two integers passed to it.
 The function templates are parameterized on the function arguments'
 IntegerType, which is also the return type. Internally, these function
 templates use an object of the corresponding version of the
 gcd_evaluator and lcm_evaluator class templates, respectively.

 [endsect]

 [section:compile_time Compile time GCD and LCM determination]

 [*Header: ] [@../../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]

    typedef ``['unspecified]`` static_gcd_type;

    template < static_gcd_type Value1, static_gcd_type Value2 >
    struct boost::math::static_gcd : public mpl::integral_c<static_gcd_type, implementation_defined>
    {
    };

    template < static_gcd_type Value1, static_gcd_type Value2 >
    struct boost::math::static_lcm : public mpl::integral_c<static_gcd_type, implementation_defined>
    {
    };

 The type `static_gcd_type` is the widest unsigned-integer-type that is supported
 for use in integral-constant-expressions by the compiler.  Usually this
 the same type as `boost::uintmax_t`, but may fall back to being `unsigned long`
 for some older compilers.

 The boost::math::static_gcd and boost::math::static_lcm class templates
 take two value-based template parameters of the ['static_gcd_type] type
 and inherit from the type `boost::mpl::integral_c`.
 Inherited from the base class, they have a member /value/
 that is the greatest common factor or least
 common multiple, respectively, of the template arguments.
 A compile-time error will occur if the least common multiple
 is beyond the range of `static_gcd_type`.

 [h3 Example]

    #include <boost/math/common_factor.hpp>
    #include <algorithm>
    #include <iterator>


    int main()
    {
       using std::cout;
       using std::endl;

       cout << "The GCD and LCM of 6 and 15 are "
       << boost::math::gcd(6, 15) << " and "
       << boost::math::lcm(6, 15) << ", respectively."
       << endl;

       cout << "The GCD and LCM of 8 and 9 are "
       << boost::math::static_gcd<8, 9>::value
       << " and "
       << boost::math::static_lcm<8, 9>::value
       << ", respectively." << endl;

       int  a[] = { 4, 5, 6 }, b[] = { 7, 8, 9 }, c[3];
       std::transform( a, a + 3, b, c, boost::math::gcd_evaluator<int>() );
       std::copy( c, c + 3, std::ostream_iterator<int>(cout, " ") );
    }

 [endsect]

 [section:header Header <boost/math/common_factor.hpp>]

 This header simply includes the headers
 [@../../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]
 and [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>].

 Note this is a legacy header: it used to contain the actual implementation,
 but the compile-time and run-time facilities
 were moved to separate headers (since they were independent of each other).

 [endsect]

 [section:demo Demonstration Program]

 The program [@../../../../../libs/math/test/common_factor_test.cpp common_factor_test.cpp] is a demonstration of the results from
 instantiating various examples of the run-time GCD and LCM function
 templates and the compile-time GCD and LCM class templates.
 (The run-time GCD and LCM class templates are tested indirectly through
 the run-time function templates.)

 [endsect]

 [section Rationale]

 The greatest common divisor and least common multiple functions are
 greatly used in some numeric contexts, including some of the other
 Boost libraries. Centralizing these functions to one header improves
 code factoring and eases maintainence.

 [endsect]

 [section History]

 * 17 Dec 2005: Converted documentation to Quickbook Format.
 * 2 Jul 2002: Compile-time and run-time items separated to new headers.
 * 7 Nov 2001: Initial version

 [endsect]

 [section Credits]

 The author of the Boost compilation of GCD and LCM computations is
 Daryle Walker. The code was prompted by existing code hiding in the
 implementations of Paul Moore's rational library and Steve Cleary's
 pool library. The code had updates by Helmut Zeisel.

 [endsect]

 [endsect]
	[article GCD and LCM
	[quickbook 1.3]
	[copyright 2001-2002 Daryle Walker]
	[license
	Distributed under the Boost Software License, Version 1.0.
	(See accompanying file LICENSE_1_0.txt or copy at
	[@http://www.boost.org/LICENSE_1_0.txt http://www.boost.org/LICENSE_1_0.txt])
	]
	[authors [Walker, Daryle]]
	[category math]
	[last-revision $Date: 2006-12-29 11:08:32 +0000 (Fri, 29 Dec 2006) $]
	]

	This manual is also available in
	[@http://svn.boost.org/svn/boost/sandbox/pdf/math/release/math-gcd.pdf
	printer friendly PDF format].


	[section:gcd_lcm Greatest Common Divisor and Least Common Multiple]

	[section Introduction]

	The class and function templates in <boost/math/common_factor.hpp>
	provide run-time and compile-time evaluation of the greatest common divisor
	(GCD) or least common multiple (LCM) of two integers.
	These facilities are useful for many numeric-oriented generic
	programming problems.

	[endsect]

	[section Synopsis]

	namespace boost
	{
	namespace math
	{

	template < typename IntegerType >
	class gcd_evaluator;
	template < typename IntegerType >
	class lcm_evaluator;

	template < typename IntegerType >
	IntegerType gcd( IntegerType const &a, IntegerType const &b );
	template < typename IntegerType >
	IntegerType lcm( IntegerType const &a, IntegerType const &b );

	typedef ``['see-below]`` static_gcd_type;

	template < static_gcd_type Value1, static_gcd_type Value2 >
	struct static_gcd;
	template < static_gcd_type Value1, static_gcd_type Value2 >
	struct static_lcm;

	}
	}

	[endsect]

	[section GCD Function Object]

	[*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

	template < typename IntegerType >
	class boost::math::gcd_evaluator
	{
	public:
	// Types
	typedef IntegerType result_type;
	typedef IntegerType first_argument_type;
	typedef IntegerType second_argument_type;

	// Function object interface
	result_type operator ()( first_argument_type const &a,
	second_argument_type const &b ) const;
	};

	The boost::math::gcd_evaluator class template defines a function object
	class to return the greatest common divisor of two integers.
	The template is parameterized by a single type, called IntegerType here.
	This type should be a numeric type that represents integers.
	The result of the function object is always nonnegative, even if either of
	the operator arguments is negative.

	This function object class template is used in the corresponding version of
	the GCD function template. If a numeric type wants to customize evaluations
	of its greatest common divisors, then the type should specialize on the
	gcd_evaluator class template.

	[endsect]

	[section LCM Function Object]

	[*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

	template < typename IntegerType >
	class boost::math::lcm_evaluator
	{
	public:
	// Types
	typedef IntegerType result_type;
	typedef IntegerType first_argument_type;
	typedef IntegerType second_argument_type;

	// Function object interface
	result_type operator ()( first_argument_type const &a,
	second_argument_type const &b ) const;
	};

	The boost::math::lcm_evaluator class template defines a function object
	class to return the least common multiple of two integers. The template
	is parameterized by a single type, called IntegerType here. This type
	should be a numeric type that represents integers. The result of the
	function object is always nonnegative, even if either of the operator
	arguments is negative. If the least common multiple is beyond the range
	of the integer type, the results are undefined.

	This function object class template is used in the corresponding version
	of the LCM function template. If a numeric type wants to customize
	evaluations of its least common multiples, then the type should
	specialize on the lcm_evaluator class template.

	[endsect]

	[section:run_time Run-time GCD & LCM Determination]

	[*Header: ] [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]

	template < typename IntegerType >
	IntegerType boost::math::gcd( IntegerType const &a, IntegerType const &b );

	template < typename IntegerType >
	IntegerType boost::math::lcm( IntegerType const &a, IntegerType const &b );

	The boost::math::gcd function template returns the greatest common
	(nonnegative) divisor of the two integers passed to it.
	The boost::math::lcm function template returns the least common
	(nonnegative) multiple of the two integers passed to it.
	The function templates are parameterized on the function arguments'
	IntegerType, which is also the return type. Internally, these function
	templates use an object of the corresponding version of the
	gcd_evaluator and lcm_evaluator class templates, respectively.

	[endsect]

	[section:compile_time Compile time GCD and LCM determination]

	[*Header: ] [@../../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]

	typedef ``['unspecified]`` static_gcd_type;

	template < static_gcd_type Value1, static_gcd_type Value2 >
	struct boost::math::static_gcd : public mpl::integral_c<static_gcd_type, implementation_defined>
	{
	};

	template < static_gcd_type Value1, static_gcd_type Value2 >
	struct boost::math::static_lcm : public mpl::integral_c<static_gcd_type, implementation_defined>
	{
	};

	The type `static_gcd_type` is the widest unsigned-integer-type that is supported
	for use in integral-constant-expressions by the compiler. Usually this
	the same type as `boost::uintmax_t`, but may fall back to being `unsigned long`
	for some older compilers.

	The boost::math::static_gcd and boost::math::static_lcm class templates
	take two value-based template parameters of the ['static_gcd_type] type
	and inherit from the type `boost::mpl::integral_c`.
	Inherited from the base class, they have a member /value/
	that is the greatest common factor or least
	common multiple, respectively, of the template arguments.
	A compile-time error will occur if the least common multiple
	is beyond the range of `static_gcd_type`.

	[h3 Example]

	#include <boost/math/common_factor.hpp>
	#include <algorithm>
	#include <iterator>


	int main()
	{
	using std::cout;
	using std::endl;

	cout << "The GCD and LCM of 6 and 15 are "
	<< boost::math::gcd(6, 15) << " and "
	<< boost::math::lcm(6, 15) << ", respectively."
	<< endl;

	cout << "The GCD and LCM of 8 and 9 are "
	<< boost::math::static_gcd<8, 9>::value
	<< " and "
	<< boost::math::static_lcm<8, 9>::value
	<< ", respectively." << endl;

	int a[] = { 4, 5, 6 }, b[] = { 7, 8, 9 }, c[3];
	std::transform( a, a + 3, b, c, boost::math::gcd_evaluator<int>() );
	std::copy( c, c + 3, std::ostream_iterator<int>(cout, " ") );
	}

	[endsect]

	[section:header Header <boost/math/common_factor.hpp>]

	This header simply includes the headers
	[@../../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]
	and [@../../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>].

	Note this is a legacy header: it used to contain the actual implementation,
	but the compile-time and run-time facilities
	were moved to separate headers (since they were independent of each other).

	[endsect]

	[section:demo Demonstration Program]

	The program [@../../../../../libs/math/test/common_factor_test.cpp common_factor_test.cpp] is a demonstration of the results from
	instantiating various examples of the run-time GCD and LCM function
	templates and the compile-time GCD and LCM class templates.
	(The run-time GCD and LCM class templates are tested indirectly through
	the run-time function templates.)

	[endsect]

	[section Rationale]

	The greatest common divisor and least common multiple functions are
	greatly used in some numeric contexts, including some of the other
	Boost libraries. Centralizing these functions to one header improves
	code factoring and eases maintainence.

	[endsect]

	[section History]

	* 17 Dec 2005: Converted documentation to Quickbook Format.
	* 2 Jul 2002: Compile-time and run-time items separated to new headers.
	* 7 Nov 2001: Initial version

	[endsect]

	[section Credits]

	The author of the Boost compilation of GCD and LCM computations is
	Daryle Walker. The code was prompted by existing code hiding in the
	implementations of Paul Moore's rational library and Steve Cleary's
	pool library. The code had updates by Helmut Zeisel.

	[endsect]

	[endsect]