mirror of
https://github.com/saitohirga/WSJT-X.git
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469 lines
13 KiB
C++
469 lines
13 KiB
C++
// Copyright John Maddock 2006.
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// Copyright Paul A. Bristow 2007, 2009
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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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#include <boost/math/concepts/real_concept.hpp>
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#define BOOST_TEST_MAIN
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#include <boost/test/unit_test.hpp>
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#include <boost/test/floating_point_comparison.hpp>
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#include <boost/math/special_functions/math_fwd.hpp>
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#include <boost/math/constants/constants.hpp>
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#include <boost/array.hpp>
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#include <boost/random.hpp>
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#include "functor.hpp"
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#include "handle_test_result.hpp"
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#include "table_type.hpp"
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#ifndef SC_
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#define SC_(x) static_cast<typename table_type<T>::type>(BOOST_JOIN(x, L))
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#endif
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template <class Real, typename T>
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void do_test_ellint_rf(T& data, const char* type_name, const char* test)
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{
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#if !(defined(ERROR_REPORTING_MODE) && !defined(ELLINT_RF_FUNCTION_TO_TEST))
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typedef Real value_type;
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std::cout << "Testing: " << test << std::endl;
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#ifdef ELLINT_RF_FUNCTION_TO_TEST
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value_type(*fp)(value_type, value_type, value_type) = ELLINT_RF_FUNCTION_TO_TEST;
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#elif defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS)
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value_type (*fp)(value_type, value_type, value_type) = boost::math::ellint_rf<value_type, value_type, value_type>;
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#else
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value_type (*fp)(value_type, value_type, value_type) = boost::math::ellint_rf;
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#endif
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boost::math::tools::test_result<value_type> result;
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result = boost::math::tools::test_hetero<Real>(
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data,
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bind_func<Real>(fp, 0, 1, 2),
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extract_result<Real>(3));
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handle_test_result(result, data[result.worst()], result.worst(),
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type_name, "ellint_rf", test);
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std::cout << std::endl;
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#endif
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}
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template <class Real, typename T>
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void do_test_ellint_rc(T& data, const char* type_name, const char* test)
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{
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#if !(defined(ERROR_REPORTING_MODE) && !defined(ELLINT_RC_FUNCTION_TO_TEST))
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typedef Real value_type;
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std::cout << "Testing: " << test << std::endl;
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#ifdef ELLINT_RC_FUNCTION_TO_TEST
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value_type(*fp)(value_type, value_type) = ELLINT_RC_FUNCTION_TO_TEST;
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#elif defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS)
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value_type (*fp)(value_type, value_type) = boost::math::ellint_rc<value_type, value_type>;
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#else
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value_type (*fp)(value_type, value_type) = boost::math::ellint_rc;
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#endif
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boost::math::tools::test_result<value_type> result;
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result = boost::math::tools::test_hetero<Real>(
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data,
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bind_func<Real>(fp, 0, 1),
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extract_result<Real>(2));
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handle_test_result(result, data[result.worst()], result.worst(),
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type_name, "ellint_rc", test);
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std::cout << std::endl;
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#endif
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}
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template <class Real, typename T>
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void do_test_ellint_rj(T& data, const char* type_name, const char* test)
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{
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#if !(defined(ERROR_REPORTING_MODE) && !defined(ELLINT_RJ_FUNCTION_TO_TEST))
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typedef Real value_type;
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std::cout << "Testing: " << test << std::endl;
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#ifdef ELLINT_RJ_FUNCTION_TO_TEST
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value_type(*fp)(value_type, value_type, value_type, value_type) = ELLINT_RJ_FUNCTION_TO_TEST;
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#elif defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS)
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value_type (*fp)(value_type, value_type, value_type, value_type) = boost::math::ellint_rj<value_type, value_type, value_type, value_type>;
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#else
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value_type (*fp)(value_type, value_type, value_type, value_type) = boost::math::ellint_rj;
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#endif
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boost::math::tools::test_result<value_type> result;
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result = boost::math::tools::test_hetero<Real>(
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data,
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bind_func<Real>(fp, 0, 1, 2, 3),
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extract_result<Real>(4));
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handle_test_result(result, data[result.worst()], result.worst(),
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type_name, "ellint_rj", test);
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std::cout << std::endl;
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#endif
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}
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template <class Real, typename T>
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void do_test_ellint_rd(T& data, const char* type_name, const char* test)
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{
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#if !(defined(ERROR_REPORTING_MODE) && !defined(ELLINT_RD_FUNCTION_TO_TEST))
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typedef Real value_type;
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std::cout << "Testing: " << test << std::endl;
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#ifdef ELLINT_RD_FUNCTION_TO_TEST
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value_type(*fp)(value_type, value_type, value_type) = ELLINT_RD_FUNCTION_TO_TEST;
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#elif defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS)
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value_type (*fp)(value_type, value_type, value_type) = boost::math::ellint_rd<value_type, value_type, value_type>;
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#else
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value_type (*fp)(value_type, value_type, value_type) = boost::math::ellint_rd;
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#endif
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boost::math::tools::test_result<value_type> result;
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result = boost::math::tools::test_hetero<Real>(
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data,
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bind_func<Real>(fp, 0, 1, 2),
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extract_result<Real>(3));
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handle_test_result(result, data[result.worst()], result.worst(),
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type_name, "ellint_rd", test);
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std::cout << std::endl;
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#endif
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}
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template <class Real, typename T>
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void do_test_ellint_rg(T& data, const char* type_name, const char* test)
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{
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#if !(defined(ERROR_REPORTING_MODE) && !defined(ELLINT_RD_FUNCTION_TO_TEST))
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typedef Real value_type;
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std::cout << "Testing: " << test << std::endl;
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#ifdef ELLINT_RG_FUNCTION_TO_TEST
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value_type(*fp)(value_type, value_type, value_type) = ELLINT_RG_FUNCTION_TO_TEST;
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#elif defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS)
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value_type(*fp)(value_type, value_type, value_type) = boost::math::ellint_rg<value_type, value_type, value_type>;
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#else
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value_type(*fp)(value_type, value_type, value_type) = boost::math::ellint_rg;
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#endif
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boost::math::tools::test_result<value_type> result;
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result = boost::math::tools::test_hetero<Real>(
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data,
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bind_func<Real>(fp, 0, 1, 2),
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extract_result<Real>(3));
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handle_test_result(result, data[result.worst()], result.worst(),
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type_name, "ellint_rg", test);
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std::cout << std::endl;
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#endif
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}
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#if !defined(TEST1) && !defined(TEST2) && !defined(TEST3) && !defined(TEST4)
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#define TEST1
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#define TEST2
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#define TEST3
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#define TEST4
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#endif
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#ifdef TEST1
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template <typename T>
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void t1(T, const char* type_name)
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{
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#include "ellint_rf_data.ipp"
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do_test_ellint_rf<T>(ellint_rf_data, type_name, "RF: Random data");
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}
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template <typename T>
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void t2(T, const char* type_name)
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{
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#include "ellint_rf_xxx.ipp"
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do_test_ellint_rf<T>(ellint_rf_xxx, type_name, "RF: x = y = z");
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}
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template <typename T>
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void t3(T, const char* type_name)
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{
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#include "ellint_rf_xyy.ipp"
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do_test_ellint_rf<T>(ellint_rf_xyy, type_name, "RF: x = y or y = z or x = z");
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}
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template <typename T>
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void t4(T, const char* type_name)
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{
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#include "ellint_rf_0yy.ipp"
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do_test_ellint_rf<T>(ellint_rf_0yy, type_name, "RF: x = 0, y = z");
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}
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template <typename T>
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void t5(T, const char* type_name)
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{
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#include "ellint_rf_xy0.ipp"
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do_test_ellint_rf<T>(ellint_rf_xy0, type_name, "RF: z = 0");
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}
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#endif
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#ifdef TEST2
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template <typename T>
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void t6(T, const char* type_name)
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{
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#include "ellint_rc_data.ipp"
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do_test_ellint_rc<T>(ellint_rc_data, type_name, "RC: Random data");
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}
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template <typename T>
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void t7(T, const char* type_name)
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{
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#include "ellint_rj_data.ipp"
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do_test_ellint_rj<T>(ellint_rj_data, type_name, "RJ: Random data");
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}
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template <typename T>
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void t8(T, const char* type_name)
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{
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#include "ellint_rj_e4.ipp"
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do_test_ellint_rj<T>(ellint_rj_e4, type_name, "RJ: 4 Equal Values");
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}
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template <typename T>
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void t9(T, const char* type_name)
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{
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#include "ellint_rj_e3.ipp"
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do_test_ellint_rj<T>(ellint_rj_e3, type_name, "RJ: 3 Equal Values");
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}
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template <typename T>
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void t10(T, const char* type_name)
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{
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#include "ellint_rj_e2.ipp"
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do_test_ellint_rj<T>(ellint_rj_e2, type_name, "RJ: 2 Equal Values");
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}
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template <typename T>
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void t11(T, const char* type_name)
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{
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#include "ellint_rj_zp.ipp"
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do_test_ellint_rj<T>(ellint_rj_zp, type_name, "RJ: Equal z and p");
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}
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#endif
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#ifdef TEST3
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template <typename T>
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void t12(T, const char* type_name)
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{
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#include "ellint_rd_data.ipp"
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do_test_ellint_rd<T>(ellint_rd_data, type_name, "RD: Random data");
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}
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template <typename T>
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void t13(T, const char* type_name)
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{
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#include "ellint_rd_xyy.ipp"
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do_test_ellint_rd<T>(ellint_rd_xyy, type_name, "RD: y = z");
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}
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template <typename T>
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void t14(T, const char* type_name)
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{
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#include "ellint_rd_xxz.ipp"
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do_test_ellint_rd<T>(ellint_rd_xxz, type_name, "RD: x = y");
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}
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template <typename T>
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void t15(T, const char* type_name)
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{
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#include "ellint_rd_0yy.ipp"
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do_test_ellint_rd<T>(ellint_rd_0yy, type_name, "RD: x = 0, y = z");
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}
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template <typename T>
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void t16(T, const char* type_name)
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{
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#include "ellint_rd_xxx.ipp"
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do_test_ellint_rd<T>(ellint_rd_xxx, type_name, "RD: x = y = z");
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}
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template <typename T>
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void t17(T, const char* type_name)
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{
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#include "ellint_rd_0xy.ipp"
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do_test_ellint_rd<T>(ellint_rd_0xy, type_name, "RD: x = 0");
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}
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#endif
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#ifdef TEST4
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template <typename T>
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void t18(T, const char* type_name)
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{
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#include "ellint_rg.ipp"
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do_test_ellint_rg<T>(ellint_rg, type_name, "RG: Random Data");
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}
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template <typename T>
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void t19(T, const char* type_name)
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{
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#include "ellint_rg_00x.ipp"
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do_test_ellint_rg<T>(ellint_rg_00x, type_name, "RG: two values 0");
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}
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template <typename T>
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void t20(T, const char* type_name)
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{
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#include "ellint_rg_xxx.ipp"
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do_test_ellint_rg<T>(ellint_rg_xxx, type_name, "RG: All values the same or zero");
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}
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template <typename T>
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void t21(T, const char* type_name)
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{
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#include "ellint_rg_xyy.ipp"
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do_test_ellint_rg<T>(ellint_rg_xyy, type_name, "RG: two values the same");
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}
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template <typename T>
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void t22(T, const char* type_name)
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{
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#include "ellint_rg_xy0.ipp"
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do_test_ellint_rg<T>(ellint_rg_xy0, type_name, "RG: one value zero");
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}
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#endif
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template <typename T>
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void test_spots(T val, const char* type_name)
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{
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#ifndef TEST_UDT
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using namespace boost::math;
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using namespace std;
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// Spot values from Numerical Computation of Real or Complex
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// Elliptic Integrals, B. C. Carlson: http://arxiv.org/abs/math.CA/9409227
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// RF:
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T tolerance = (std::max)(T(1e-13f), tools::epsilon<T>() * 5) * 100; // Note 5eps expressed as a persentage!!!
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T eps2 = 5 * tools::epsilon<T>();
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BOOST_CHECK_CLOSE(ellint_rf(T(1), T(2), T(0)), T(1.3110287771461), tolerance);
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BOOST_CHECK_CLOSE(ellint_rf(T(0.5), T(1), T(0)), T(1.8540746773014), tolerance);
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BOOST_CHECK_CLOSE(ellint_rf(T(2), T(3), T(4)), T(0.58408284167715), tolerance);
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// RC:
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BOOST_CHECK_CLOSE_FRACTION(ellint_rc(T(0), T(1)/4), boost::math::constants::pi<T>(), eps2);
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BOOST_CHECK_CLOSE_FRACTION(ellint_rc(T(9)/4, T(2)), boost::math::constants::ln_two<T>(), eps2);
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BOOST_CHECK_CLOSE_FRACTION(ellint_rc(T(1) / 4, T(-2)), boost::math::constants::ln_two<T>() / 3, eps2);
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// RJ:
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BOOST_CHECK_CLOSE(ellint_rj(T(0), T(1), T(2), T(3)), T(0.77688623778582), tolerance);
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BOOST_CHECK_CLOSE(ellint_rj(T(2), T(3), T(4), T(5)), T(0.14297579667157), tolerance);
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BOOST_CHECK_CLOSE(ellint_rj(T(2), T(3), T(4), T(-0.5)), T(0.24723819703052), tolerance);
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BOOST_CHECK_CLOSE(ellint_rj(T(2), T(3), T(4), T(-5)), T(-0.12711230042964), tolerance);
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// RD:
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BOOST_CHECK_CLOSE(ellint_rd(T(0), T(2), T(1)), T(1.7972103521034), tolerance);
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BOOST_CHECK_CLOSE(ellint_rd(T(2), T(3), T(4)), T(0.16510527294261), tolerance);
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// Sanity/consistency checks from Numerical Computation of Real or Complex
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// Elliptic Integrals, B. C. Carlson: http://arxiv.org/abs/math.CA/9409227
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boost::mt19937 ran;
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boost::uniform_real<float> ur(0, 1000);
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T eps40 = 40 * tools::epsilon<T>();
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for(unsigned i = 0; i < 1000; ++i)
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{
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T x = ur(ran);
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T y = ur(ran);
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T z = ur(ran);
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T lambda = ur(ran);
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T mu = x * y / lambda;
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// RF, eq 49:
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T s1 = ellint_rf(x+lambda, y+lambda, lambda) +
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ellint_rf(x + mu, y + mu, mu);
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T s2 = ellint_rf(x, y, T(0));
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BOOST_CHECK_CLOSE_FRACTION(s1, s2, eps40);
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// RC is degenerate case of RF:
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s1 = ellint_rc(x, y);
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s2 = ellint_rf(x, y, y);
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BOOST_CHECK_CLOSE_FRACTION(s1, s2, eps40);
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// RC, eq 50 (Note have to assume y = x):
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T mu2 = x * x / lambda;
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s1 = ellint_rc(lambda, x+lambda)
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+ ellint_rc(mu2, x + mu2);
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s2 = ellint_rc(T(0), x);
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BOOST_CHECK_CLOSE_FRACTION(s1, s2, eps40);
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/*
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T p = ????; // no closed form for a, b and p???
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s1 = ellint_rj(x+lambda, y+lambda, lambda, p+lambda)
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+ ellint_rj(x+mu, y+mu, mu, p+mu);
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s2 = ellint_rj(x, y, T(0), p)
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- 3 * ellint_rc(a, b);
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*/
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// RD, eq 53:
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s1 = ellint_rd(lambda, x+lambda, y+lambda)
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+ ellint_rd(mu, x+mu, y+mu);
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s2 = ellint_rd(T(0), x, y)
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- 3 / (y * sqrt(x+y+lambda+mu));
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BOOST_CHECK_CLOSE_FRACTION(s1, s2, eps40);
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// RD is degenerate case of RJ:
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s1 = ellint_rd(x, y, z);
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s2 = ellint_rj(x, y, z, z);
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BOOST_CHECK_CLOSE_FRACTION(s1, s2, eps40);
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}
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#endif
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//
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// Now random spot values:
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//
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#ifdef TEST1
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t1(val, type_name);
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t2(val, type_name);
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t3(val, type_name);
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t4(val, type_name);
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t5(val, type_name);
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#endif
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#ifdef TEST2
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t6(val, type_name);
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t7(val, type_name);
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t8(val, type_name);
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t9(val, type_name);
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t10(val, type_name);
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t11(val, type_name);
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|
#endif
|
|
#ifdef TEST3
|
|
t12(val, type_name);
|
|
t13(val, type_name);
|
|
t14(val, type_name);
|
|
t15(val, type_name);
|
|
t16(val, type_name);
|
|
t17(val, type_name);
|
|
#endif
|
|
#ifdef TEST4
|
|
t18(val, type_name);
|
|
t19(val, type_name);
|
|
t20(val, type_name);
|
|
t21(val, type_name);
|
|
t22(val, type_name);
|
|
#endif
|
|
}
|
|
|