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551 lines
12 KiB
Plaintext
551 lines
12 KiB
Plaintext
[/
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Copyright (c) 2012 John Maddock
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Use, modification and distribution are subject to the
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Boost Software License, Version 1.0. (See accompanying file
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LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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]
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[section:jacobi Jacobi Elliptic Functions]
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[section:jac_over Overvew of the Jacobi Elliptic Functions]
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There are twelve Jacobi Elliptic functions, of which the three copolar functions ['sn], ['cn] and ['dn] are the most important
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as the other nine can be computed from these three
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[footnote [@http://en.wikipedia.org/wiki/Jacobi_elliptic_functions Wikipedia: Jacobi elliptic functions]]
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[footnote [@http://mathworld.wolfram.com/JacobiEllipticFunctions.html Weisstein, Eric W. "Jacobi Elliptic Functions." From MathWorld - A Wolfram Web Resource.]]
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[footnote [@http://dlmf.nist.gov/22 Digital Library of Mathematical Functions: Jacobian Elliptic Functions]].
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These functions each take two arguments: a parameter, and a variable as described below.
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Like all elliptic functions these can be parameterised in a number of ways:
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* In terms of a parameter ['m].
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* In terms of the elliptic modulus ['k] where ['m = k[super 2]].
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* In terms of the modular angle [alpha], where ['m = sin[super 2][alpha]].
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In our implementation, these functions all take the elliptic modulus /k/ as the parameter.
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In addition the variable /u/ is sometimes expressed as an amplitude [phi], in our implementation we always use /u/.
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Finally note that our functions all take the elliptic modulus as the first argument - this is for alignment with
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the Elliptic Integrals.
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There are twenve functions for computing the twelve individual Jacobi elliptic functions: __jacobi_cd, __jacobi_cn, __jacobi_cs,
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__jacobi_dc, __jacobi_dn, __jacobi_ds, __jacobi_nc, __jacobi_nd, __jacobi_ns, __jacobi_sc, __jacobi_sd and __jacobi_sn.
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They are all called as for example:
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jacobi_cs(k, u);
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Note however that these individual functions are all really thin wrappers around the function __jacobi_elliptic which calculates
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the three copolar functions ['sn], ['cn] and ['dn] in a single function call. Thus if you need more than one of these functions
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for a given set of arguments, it's most efficient to use __jacobi_elliptic.
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[endsect]
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[section:jacobi_elliptic Jacobi Elliptic SN, CN and DN]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U, class V>
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``__sf_result`` jacobi_elliptic(T k, U u, V* pcn, V* pdn);
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template <class T, class U, class V, class Policy>
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``__sf_result`` jacobi_elliptic(T k, U u, V* pcn, V* pdn, const Policy&);
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}} // namespaces
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[heading Description]
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The function __jacobi_elliptic calculates the three copolar Jacobi elliptic functions
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['sn(u, k)], ['cn(u, k)] and ['dn(u, k)]. The returned value is
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['sn(u, k)], and if provided, ['*pcn] is
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set to ['cn(u, k)], and ['*pdn] is set to ['dn(u, k)].
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The functions are defined as follows, given:
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[equation jacobi1]
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The the angle [phi] is called the ['amplitude] and:
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[equation jacobi2]
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[note ['[phi]] is called the amplitude.
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['k] is called the modulus.
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]
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[caution Rather like other elliptic functions, the Jacobi functions
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are expressed in a variety of different ways. In particular,
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the parameter /k/ (the modulus) may also be expressed using a modular
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angle [alpha], or a parameter /m/. These are related by:
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k = sin[alpha]
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m = k[super 2] = sin[super 2][alpha]
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So that the function ['sn] (for example) may be expressed as
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either:
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sn(u, k)
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sn(u \\ [alpha])
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sn(u| m)
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To further complicate matters, some texts refer to the ['complement
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of the parameter m], or 1 - m, where:
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1 - m = 1 - k[super 2] = cos[super 2][alpha]
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This implementation uses /k/ throughout, and makes this the first argument
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to the functions: this is for alignment with the elliptic integrals which match the requirements
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of the [@http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1836.pdf
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Technical Report on C++ Library Extensions]. However, you should
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be extra careful when using these functions!]
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[optional_policy]
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The following graphs illustrate how these functions change as /k/ changes: for small /k/
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these are sine waves, while as /k/ tends to 1 they become hyperbolic functions:
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[graph jacobi_sn]
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[graph jacobi_cn]
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[graph jacobi_dn]
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[heading Accuracy]
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These functions are computed using only basic arithmetic operations and trigomometric functions, so
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there isn't much variation in accuracy over differing platforms.
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Typically errors are trivially small for small angles, and as is typical for cyclic
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functions, grow as the angle increases.
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Note that only results for the widest floating point type on the
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system are given as narrower types have __zero_error. All values
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are relative errors in units of epsilon.
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[table_jacobi_cn]
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[table_jacobi_dn]
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[table_jacobi_sn]
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[heading Testing]
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The tests use a mixture of spot test values calculated using the online
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calculator at [@http://functions.wolfram.com/ functions.wolfram.com],
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and random test data generated using
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MPFR at 1000-bit precision and this implementation.
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[heading Implementation]
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For ['k > 1] we apply the relations:
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[equation jacobi3]
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Then filter off the special cases:
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['sn(0, k) = 0] and ['cn(0, k) = dn(0, k) = 1].
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['sn(u, 0) = sin(u), cn(u, 0) = cos(u) and dn(u, 0) = 1].
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['sn(u, 1) = tanh(u), cn(u, 1) = dn(u, 1) = 1 / cosh(u)].
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And for ['k[super 4] < [epsilon]] we have:
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[equation jacobi4]
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Otherwise the values are calculated using the method of [@http://dlmf.nist.gov/22.20#SS2 arithmetic geometric means].
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[endsect]
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[section:jacobi_cd Jacobi Elliptic Function cd]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_cd(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_cd(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['cd].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['cd(u, k) = cn(u, k) / dn(u, k)]
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[graph jacobi_cd]
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[endsect]
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[section:jacobi_cn Jacobi Elliptic Function cn]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_cn(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_cn(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['cn].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic.
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[graph jacobi_cn]
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[endsect]
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[section:jacobi_cs Jacobi Elliptic Function cs]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_cs(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_cs(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['cs].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['cs(u, k) = cn(u, k) / sn(u, k)]
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[graph jacobi_cs]
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[endsect]
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[section:jacobi_dc Jacobi Elliptic Function dc]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_dc(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_dc(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['dc].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['dc(u, k) = dn(u, k) / cn(u, k)]
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[graph jacobi_dc]
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[endsect]
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[section:jacobi_dn Jacobi Elliptic Function dn]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_dn(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_dn(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['dn].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic.
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[graph jacobi_dn]
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[endsect]
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[section:jacobi_ds Jacobi Elliptic Function ds]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_ds(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_ds(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['ds].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['ds(u, k) = dn(u, k) / sn(u, k)]
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[graph jacobi_ds]
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[endsect]
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[section:jacobi_nc Jacobi Elliptic Function nc]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_nc(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_nc(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['nc].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['nc(u, k) = 1 / cn(u, k)]
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[graph jacobi_nc]
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[endsect]
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[section:jacobi_nd Jacobi Elliptic Function nd]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_nd(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_nd(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['nd].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['nd(u, k) = 1 / dn(u, k)]
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[graph jacobi_nd]
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[endsect]
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[section:jacobi_ns Jacobi Elliptic Function ns]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_ns(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_ns(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['ns].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['ns(u, k) = 1 / sn(u, k)]
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[graph jacobi_ns]
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[endsect]
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[section:jacobi_sc Jacobi Elliptic Function sc]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_sc(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_sc(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['sc].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['sc(u, k) = sn(u, k) / cn(u, k)]
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[graph jacobi_sc]
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[endsect]
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[section:jacobi_sd Jacobi Elliptic Function sd]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_sd(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_sd(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['sd].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic, with:
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['sd(u, k) = sn(u, k) / dn(u, k)]
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[graph jacobi_sd]
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[endsect]
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[section:jacobi_sn Jacobi Elliptic Function sn]
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[heading Synopsis]
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``
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#include <boost/math/special_functions/jacobi_elliptic.hpp>
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``
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namespace boost { namespace math {
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template <class T, class U>
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``__sf_result`` jacobi_sn(T k, U u);
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template <class T, class U, class Policy>
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``__sf_result`` jacobi_sn(T k, U u, const Policy& pol);
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}} // namespaces
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[heading Description]
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This function returns the Jacobi elliptic function ['sn].
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[optional_policy]
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This function is a trivial wrapper around __jacobi_elliptic.
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[graph jacobi_sn]
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[endsect]
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[endsect]
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