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142 lines
5.0 KiB
Plaintext
142 lines
5.0 KiB
Plaintext
[section:series_evaluation Series Evaluation]
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[h4 Synopsis]
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``
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#include <boost/math/tools/series.hpp>
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``
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namespace boost{ namespace math{ namespace tools{
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template <class Functor, class U, class V>
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inline typename Functor::result_type sum_series(Functor& func, const U& tolerance, boost::uintmax_t& max_terms, const V& init_value);
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template <class Functor, class U, class V>
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inline typename Functor::result_type sum_series(Functor& func, const U& tolerance, boost::uintmax_t& max_terms);
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//
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// The following interfaces are now deprecated:
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//
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template <class Functor>
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typename Functor::result_type sum_series(Functor& func, int bits);
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template <class Functor>
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typename Functor::result_type sum_series(Functor& func, int bits, boost::uintmax_t& max_terms);
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template <class Functor, class U>
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typename Functor::result_type sum_series(Functor& func, int bits, U init_value);
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template <class Functor, class U>
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typename Functor::result_type sum_series(Functor& func, int bits, boost::uintmax_t& max_terms, U init_value);
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template <class Functor>
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typename Functor::result_type kahan_sum_series(Functor& func, int bits);
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template <class Functor>
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typename Functor::result_type kahan_sum_series(Functor& func, int bits, boost::uintmax_t& max_terms);
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}}} // namespaces
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[h4 Description]
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These algorithms are intended for the
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[@http://en.wikipedia.org/wiki/Series_%28mathematics%29 summation of infinite series].
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Each of the algorithms takes a nullary-function object as the first argument:
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the function object will be repeatedly invoked to pull successive terms from
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the series being summed.
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The second argument is the precision required,
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summation will stop when the next term is less than
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/tolerance/ times the result. The deprecated versions of sum_series
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take an integer number of bits here - internally they just convert this to
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a tolerance and forward the call.
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The third argument /max_terms/ sets an upper limit on the number
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of terms of the series to evaluate. In addition, on exit the function will
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set /max_terms/ to the actual number of terms of the series that were
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evaluated: this is particularly useful for profiling the convergence
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properties of a new series.
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The final optional argument /init_value/ is the initial value of the sum
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to which the terms of the series should be added. This is useful in two situations:
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* Where the first value of the series has a different formula to successive
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terms. In this case the first value in the series can be passed as the
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last argument and the logic of the function object can then be simplified
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to return subsequent terms.
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* Where the series is being added (or subtracted) from some other value:
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termination of the series will likely occur much more rapidly if that other
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value is passed as the last argument. For example, there are several functions
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that can be expressed as /1 - S(z)/ where S(z) is an infinite series. In this
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case, pass -1 as the last argument and then negate the result of the summation
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to get the result of /1 - S(z)/.
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The two /kahan_sum_series/ variants of these algorithms maintain a carry term
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that corrects for roundoff error during summation.
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They are inspired by the
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[@http://en.wikipedia.org/wiki/Kahan_Summation_Algorithm /Kahan Summation Formula/]
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that appears in
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[@http://docs.sun.com/source/806-3568/ncg_goldberg.html What Every Computer Scientist Should Know About Floating-Point Arithmetic].
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However, it should be pointed out that there are very few series that require
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summation in this way.
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[h4 Example]
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Let's suppose we want to implement /log(1+x)/ via its infinite series,
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[equation log1pseries]
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We begin by writing a small function object to return successive terms
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of the series:
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template <class T>
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struct log1p_series
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{
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// we must define a result_type typedef:
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typedef T result_type;
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log1p_series(T x)
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: k(0), m_mult(-x), m_prod(-1){}
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T operator()()
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{
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// This is the function operator invoked by the summation
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// algorithm, the first call to this operator should return
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// the first term of the series, the second call the second
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// term and so on.
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m_prod *= m_mult;
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return m_prod / ++k;
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}
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private:
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int k;
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const T m_mult;
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T m_prod;
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};
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Implementing log(1+x) is now fairly trivial:
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template <class T>
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T log1p(T x)
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{
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// We really should add some error checking on x here!
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assert(std::fabs(x) < 1);
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// Construct the series functor:
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log1p_series<T> s(x);
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// Set a limit on how many iterations we permit:
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boost::uintmax_t max_iter = 1000;
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// Add it up, with enough precision for full machine precision:
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return tools::sum_series(s, std::numeric_limits<T>::epsilon(), max_iter);
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}
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[endsect][/section Series Evaluation]
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[/
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Copyright 2006 John Maddock and Paul A. Bristow.
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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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