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259 lines
9.3 KiB
Plaintext
259 lines
9.3 KiB
Plaintext
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[mathpart gcd_lcm Integer Utilities (Greatest Common Divisor and Least Common Multiple)]
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[section Introduction]
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The class and function templates in `<boost/math/common_factor.hpp>`
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provide both run-time and compile-time evaluation of the greatest common divisor
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(GCD) or least common multiple (LCM) of two integers.
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These facilities are useful for many numeric-oriented generic
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programming problems.
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[endsect] [/section Introduction]
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[section Synopsis]
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namespace boost
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{
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namespace math
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{
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template < typename IntegerType >
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class gcd_evaluator;
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template < typename IntegerType >
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class lcm_evaluator;
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template < typename IntegerType >
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IntegerType gcd( IntegerType const &a, IntegerType const &b );
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template < typename ForwardIterator >
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std::pair<typename std::iterator_traits<I>::value_type, I> gcd_range(I first, I last);
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template < typename IntegerType >
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IntegerType lcm( IntegerType const &a, IntegerType const &b );
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typedef ``['see-below]`` static_gcd_type;
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template < static_gcd_type Value1, static_gcd_type Value2 >
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struct static_gcd;
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template < static_gcd_type Value1, static_gcd_type Value2 >
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struct static_lcm;
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}
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}
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[endsect] [/section Introduction]
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[section GCD Function Object]
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[*Header: ] [@../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]
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template < typename IntegerType >
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class boost::math::gcd_evaluator
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{
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public:
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// Types
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typedef IntegerType result_type;
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typedef IntegerType first_argument_type;
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typedef IntegerType second_argument_type;
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// Function object interface
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result_type operator ()( first_argument_type const &a,
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second_argument_type const &b ) const;
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};
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The `boost::math::gcd`_evaluator class template defines a function object
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class to return the greatest common divisor of two integers.
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The template is parameterized by a single type, called `IntegerType` here.
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This type should be a numeric type that represents integers.
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The result of the function object is always nonnegative, even if either of
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the operator arguments is negative.
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This function object class template is used in the corresponding version of
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the GCD function template. If a numeric type wants to customize evaluations
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of its greatest common divisors, then the type should specialize on the
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`gcd_evaluator` class template.
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[endsect] [/section GCD Function Object]
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[section LCM Function Object]
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[*Header: ] [@../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]
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template < typename IntegerType >
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class boost::math::lcm_evaluator
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{
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public:
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// Types
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typedef IntegerType result_type;
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typedef IntegerType first_argument_type;
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typedef IntegerType second_argument_type;
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// Function object interface
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result_type operator ()( first_argument_type const &a,
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second_argument_type const &b ) const;
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};
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The `boost::math::lcm_evaluator` class template defines a function object
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class to return the least common multiple of two integers. The template
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is parameterized by a single type, called `IntegerType `here. This type
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should be a numeric type that represents integers. The result of the
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function object is always nonnegative, even if either of the operator
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arguments is negative. If the least common multiple is beyond the range
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of the integer type, the results are undefined.
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This function object class template is used in the corresponding version
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of the LCM function template. If a numeric type wants to customize
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evaluations of its least common multiples, then the type should
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specialize on the `lcm_evaluator` class template.
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[endsect] [/section LCM Function Object]
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[section:run_time Run-time GCD & LCM Determination]
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[*Header: ] [@../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>]
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template < typename IntegerType >
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IntegerType boost::math::gcd( IntegerType const &a, IntegerType const &b );
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template < typename ForwardIterator >
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std::pair<typename std::iterator_traits<I>::value_type, I> gcd_range(I first, I last);
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template < typename IntegerType >
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IntegerType boost::math::lcm( IntegerType const &a, IntegerType const &b );
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The `boost::math::gcd` function template returns the greatest common
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(nonnegative) divisor of the two integers passed to it.
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`boost::math::gcd_range` is the iteration of the above gcd algorithm over a
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range, returning the greatest common divisor of all the elements. The algorithm
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terminates when the gcd reaches unity or the end of the range. Thus it also
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returns the iterator after the last element inspected because this may not be
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equal to the end of the range.
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The boost::math::lcm function template returns the least common
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(nonnegative) multiple of the two integers passed to it.
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The function templates are parameterized on the function arguments'
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IntegerType, which is also the return type. Internally, these function
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templates use an object of the corresponding version of the
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`gcd_evaluator` and `lcm_evaluator` class templates, respectively.
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[endsect] [/section:run_time Run-time GCD & LCM Determination]
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[section:compile_time Compile-time GCD and LCM determination]
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[*Header: ] [@../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]
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typedef ``['unspecified]`` static_gcd_type;
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template < static_gcd_type Value1, static_gcd_type Value2 >
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struct boost::math::static_gcd : public mpl::integral_c<static_gcd_type, implementation_defined>
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{
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};
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template < static_gcd_type Value1, static_gcd_type Value2 >
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struct boost::math::static_lcm : public mpl::integral_c<static_gcd_type, implementation_defined>
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{
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};
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The type `static_gcd_type` is the widest unsigned-integer-type that is supported
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for use in integral-constant-expressions by the compiler. Usually this
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the same type as `boost::uintmax_t`, but may fall back to being `unsigned long`
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for some older compilers.
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The boost::math::static_gcd and boost::math::static_lcm class templates
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take two value-based template parameters of the ['static_gcd_type] type
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and inherit from the type `boost::mpl::integral_c`.
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Inherited from the base class, they have a member /value/
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that is the greatest common factor or least
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common multiple, respectively, of the template arguments.
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A compile-time error will occur if the least common multiple
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is beyond the range of `static_gcd_type`.
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[h3 Example]
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#include <boost/math/common_factor.hpp>
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#include <algorithm>
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#include <iterator>
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#include <iostream>
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int main()
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{
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using std::cout;
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using std::endl;
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cout << "The GCD and LCM of 6 and 15 are "
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<< boost::math::gcd(6, 15) << " and "
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<< boost::math::lcm(6, 15) << ", respectively."
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<< endl;
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cout << "The GCD and LCM of 8 and 9 are "
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<< boost::math::static_gcd<8, 9>::value
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<< " and "
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<< boost::math::static_lcm<8, 9>::value
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<< ", respectively." << endl;
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int a[] = { 4, 5, 6 }, b[] = { 7, 8, 9 }, c[3];
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std::transform( a, a + 3, b, c, boost::math::gcd_evaluator<int>() );
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std::copy( c, c + 3, std::ostream_iterator<int>(cout, " ") );
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}
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[endsect] [/section:compile_time Compile time GCD and LCM determination]
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[section:gcd_header Header <boost/math/common_factor.hpp>]
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This header simply includes the headers
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[@../../../../boost/math/common_factor_ct.hpp <boost/math/common_factor_ct.hpp>]
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and [@../../../../boost/math/common_factor_rt.hpp <boost/math/common_factor_rt.hpp>].
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[note This is a legacy header: it used to contain the actual implementation,
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but the compile-time and run-time facilities
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were moved to separate headers (since they were independent of each other).]
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[endsect] [/section:gcd_header Header <boost/math/common_factor.hpp>]
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[section:demo Demonstration Program]
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The program [@../../../../libs/math/test/common_factor_test.cpp common_factor_test.cpp]
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is a demonstration of the results from
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instantiating various examples of the run-time GCD and LCM function
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templates and the compile-time GCD and LCM class templates.
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(The run-time GCD and LCM class templates are tested indirectly through
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the run-time function templates.)
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[endsect] [/section:demo Demonstration Program]
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[section Rationale]
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The greatest common divisor and least common multiple functions are
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greatly used in some numeric contexts, including some of the other
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Boost libraries. Centralizing these functions to one header improves
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code factoring and eases maintainence.
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[endsect] [/section Rationale]
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[section:gcd_history History]
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* 13 May 2013 Moved into main Boost.Math Quickbook documentation.
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* 17 Dec 2005: Converted documentation to Quickbook Format.
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* 2 Jul 2002: Compile-time and run-time items separated to new headers.
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* 7 Nov 2001: Initial version
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[endsect] [/section:gcd_history History]
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[section:gcd_credits Credits]
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The author of the Boost compilation of GCD and LCM computations is
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Daryle Walker. The code was prompted by existing code hiding in the
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implementations of Paul Moore's rational library and Steve Cleary's
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pool library. The code had updates by Helmut Zeisel.
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[endsect] [/section:gcd_credits Credits]
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[endmathpart] [/mathpart gcd_lcm Integer Utilities (Greatest Common Divisor and Least Common Multiple)]
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[/
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Copyright 2005, 2013 Daryle Walker.
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENSE_1_0.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt).
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]
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