mirror of
https://github.com/saitohirga/WSJT-X.git
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356 lines
9.3 KiB
C++
356 lines
9.3 KiB
C++
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// Copyright (c) 2007 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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// Computes test data for the various bessel functions using
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// archived - deliberately naive - version of the code.
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// We'll rely on the high precision of mp_t to get us out of
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// trouble and not worry about how long the calculations take.
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// This provides a reasonably independent set of test data to
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// compare against newly added asymptotic expansions etc.
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//
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#include <fstream>
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#include <boost/math/tools/test_data.hpp>
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#include <boost/math/special_functions/bessel.hpp>
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#include "mp_t.hpp"
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using namespace boost::math::tools;
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using namespace boost::math;
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using namespace boost::math::detail;
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using namespace std;
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// Compute J(v, x) and Y(v, x) simultaneously by Steed's method, see
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// Barnett et al, Computer Physics Communications, vol 8, 377 (1974)
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template <typename T>
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int bessel_jy_bare(T v, T x, T* J, T* Y, int kind = need_j|need_y)
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{
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// Jv1 = J_(v+1), Yv1 = Y_(v+1), fv = J_(v+1) / J_v
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// Ju1 = J_(u+1), Yu1 = Y_(u+1), fu = J_(u+1) / J_u
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T u, Jv, Ju, Yv, Yv1, Yu, Yu1, fv, fu;
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T W, p, q, gamma, current, prev, next;
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bool reflect = false;
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int n, k, s;
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using namespace std;
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using namespace boost::math::tools;
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using namespace boost::math::constants;
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if (v < 0)
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{
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reflect = true;
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v = -v; // v is non-negative from here
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kind = need_j|need_y; // need both for reflection formula
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}
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n = real_cast<int>(v + 0.5L);
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u = v - n; // -1/2 <= u < 1/2
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if (x < 0)
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{
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*J = *Y = policies::raise_domain_error<T>("",
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"Real argument x=%1% must be non-negative, complex number result not supported", x, policies::policy<>());
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return 1;
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}
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if (x == 0)
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{
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*J = *Y = policies::raise_overflow_error<T>(
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"", 0, policies::policy<>());
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return 1;
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}
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// x is positive until reflection
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W = T(2) / (x * pi<T>()); // Wronskian
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if (x <= 2) // x in (0, 2]
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{
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if(temme_jy(u, x, &Yu, &Yu1, policies::policy<>())) // Temme series
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{
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// domain error:
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*J = *Y = Yu;
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return 1;
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}
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prev = Yu;
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current = Yu1;
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for (k = 1; k <= n; k++) // forward recurrence for Y
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{
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next = 2 * (u + k) * current / x - prev;
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prev = current;
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current = next;
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}
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Yv = prev;
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Yv1 = current;
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CF1_jy(v, x, &fv, &s, policies::policy<>()); // continued fraction CF1
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Jv = W / (Yv * fv - Yv1); // Wronskian relation
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}
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else // x in (2, \infty)
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{
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// Get Y(u, x):
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CF1_jy(v, x, &fv, &s, policies::policy<>());
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// tiny initial value to prevent overflow
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T init = sqrt(tools::min_value<T>());
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prev = fv * s * init;
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current = s * init;
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for (k = n; k > 0; k--) // backward recurrence for J
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{
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next = 2 * (u + k) * current / x - prev;
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prev = current;
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current = next;
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}
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T ratio = (s * init) / current; // scaling ratio
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// can also call CF1() to get fu, not much difference in precision
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fu = prev / current;
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CF2_jy(u, x, &p, &q, policies::policy<>()); // continued fraction CF2
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T t = u / x - fu; // t = J'/J
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gamma = (p - t) / q;
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Ju = sign(current) * sqrt(W / (q + gamma * (p - t)));
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Jv = Ju * ratio; // normalization
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Yu = gamma * Ju;
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Yu1 = Yu * (u/x - p - q/gamma);
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// compute Y:
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prev = Yu;
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current = Yu1;
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for (k = 1; k <= n; k++) // forward recurrence for Y
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{
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next = 2 * (u + k) * current / x - prev;
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prev = current;
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current = next;
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}
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Yv = prev;
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}
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if (reflect)
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{
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T z = (u + n % 2) * pi<T>();
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*J = cos(z) * Jv - sin(z) * Yv; // reflection formula
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*Y = sin(z) * Jv + cos(z) * Yv;
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}
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else
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{
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*J = Jv;
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*Y = Yv;
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}
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return 0;
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}
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int progress = 0;
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template <class T>
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T cyl_bessel_j_bare(T v, T x)
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{
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T j, y;
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bessel_jy_bare(v, x, &j, &y);
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std::cout << progress++ << ": J(" << v << ", " << x << ") = " << j << std::endl;
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if(fabs(j) > 1e30)
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throw std::domain_error("");
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return j;
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}
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template <class T>
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T cyl_bessel_i_bare(T v, T x)
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{
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using namespace std;
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if(x < 0)
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{
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// better have integer v:
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if(floor(v) == v)
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{
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T r = cyl_bessel_i_bare(v, -x);
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if(tools::real_cast<int>(v) & 1)
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r = -r;
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return r;
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}
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else
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return policies::raise_domain_error<T>(
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"",
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"Got x = %1%, but we need x >= 0", x, policies::policy<>());
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}
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if(x == 0)
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{
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return (v == 0) ? 1 : 0;
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}
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T I, K;
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boost::math::detail::bessel_ik(v, x, &I, &K, 0xffff, policies::policy<>());
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std::cout << progress++ << ": I(" << v << ", " << x << ") = " << I << std::endl;
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if(fabs(I) > 1e30)
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throw std::domain_error("");
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return I;
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}
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template <class T>
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T cyl_bessel_k_bare(T v, T x)
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{
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using namespace std;
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if(x < 0)
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{
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return policies::raise_domain_error<T>(
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"",
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"Got x = %1%, but we need x > 0", x, policies::policy<>());
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}
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if(x == 0)
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{
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return (v == 0) ? policies::raise_overflow_error<T>("", 0, policies::policy<>())
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: policies::raise_domain_error<T>(
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"",
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"Got x = %1%, but we need x > 0", x, policies::policy<>());
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}
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T I, K;
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bessel_ik(v, x, &I, &K, 0xFFFF, policies::policy<>());
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std::cout << progress++ << ": K(" << v << ", " << x << ") = " << K << std::endl;
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if(fabs(K) > 1e30)
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throw std::domain_error("");
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return K;
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}
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template <class T>
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T cyl_neumann_bare(T v, T x)
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{
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T j, y;
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bessel_jy(v, x, &j, &y, 0xFFFF, policies::policy<>());
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std::cout << progress++ << ": Y(" << v << ", " << x << ") = " << y << std::endl;
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if(fabs(y) > 1e30)
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throw std::domain_error("");
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return y;
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}
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template <class T>
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T sph_bessel_j_bare(T v, T x)
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{
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std::cout << progress++ << ": j(" << v << ", " << x << ") = ";
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if((v < 0) || (floor(v) != v))
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throw std::domain_error("");
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T r = sqrt(constants::pi<T>() / (2 * x)) * cyl_bessel_j_bare(v+0.5, x);
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std::cout << r << std::endl;
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return r;
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}
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template <class T>
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T sph_bessel_y_bare(T v, T x)
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{
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std::cout << progress++ << ": y(" << v << ", " << x << ") = ";
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if((v < 0) || (floor(v) != v))
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throw std::domain_error("");
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T r = sqrt(constants::pi<T>() / (2 * x)) * cyl_neumann_bare(v+0.5, x);
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std::cout << r << std::endl;
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return r;
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}
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enum
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{
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func_J = 0,
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func_Y,
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func_I,
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func_K,
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func_j,
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func_y
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};
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int main(int argc, char* argv[])
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{
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std::cout << std::setprecision(17) << std::scientific;
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std::cout << sph_bessel_j_bare(0., 0.1185395751953125e4) << std::endl;
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std::cout << sph_bessel_j_bare(22., 0.6540834903717041015625) << std::endl;
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std::cout << std::setprecision(40) << std::scientific;
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parameter_info<mp_t> arg1, arg2;
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test_data<mp_t> data;
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int functype = 0;
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std::string letter = "J";
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if(argc == 2)
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{
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if(std::strcmp(argv[1], "--Y") == 0)
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{
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functype = func_Y;
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letter = "Y";
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}
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else if(std::strcmp(argv[1], "--I") == 0)
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{
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functype = func_I;
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letter = "I";
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}
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else if(std::strcmp(argv[1], "--K") == 0)
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{
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functype = func_K;
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letter = "K";
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}
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else if(std::strcmp(argv[1], "--j") == 0)
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{
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functype = func_j;
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letter = "j";
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}
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else if(std::strcmp(argv[1], "--y") == 0)
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{
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functype = func_y;
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letter = "y";
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}
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else
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assert(0);
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}
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bool cont;
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std::string line;
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std::cout << "Welcome.\n"
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"This program will generate spot tests for the Bessel " << letter << " function\n\n";
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do{
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get_user_parameter_info(arg1, "v");
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get_user_parameter_info(arg2, "x");
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mp_t (*fp)(mp_t, mp_t);
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if(functype == func_J)
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fp = cyl_bessel_j_bare;
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else if(functype == func_I)
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fp = cyl_bessel_i_bare;
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else if(functype == func_K)
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fp = cyl_bessel_k_bare;
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else if(functype == func_Y)
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fp = cyl_neumann_bare;
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else if(functype == func_j)
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fp = sph_bessel_j_bare;
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else if(functype == func_y)
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fp = sph_bessel_y_bare;
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else
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assert(0);
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data.insert(fp, arg1, arg2);
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std::cout << "Any more data [y/n]?";
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std::getline(std::cin, line);
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boost::algorithm::trim(line);
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cont = (line == "y");
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}while(cont);
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std::cout << "Enter name of test data file [default=bessel_j_data.ipp]";
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std::getline(std::cin, line);
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boost::algorithm::trim(line);
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if(line == "")
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line = "bessel_j_data.ipp";
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std::ofstream ofs(line.c_str());
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line.erase(line.find('.'));
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ofs << std::scientific << std::setprecision(40);
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write_code(ofs, data, line.c_str());
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return 0;
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}
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