// (C) Copyright John Maddock 2007. // Use, modification and distribution are subject to the // Boost Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #include #include #include #include #include #include #include #include #include #include #include #include "functor.hpp" #include "handle_test_result.hpp" #include "test_expint_hooks.hpp" // // DESCRIPTION: // ~~~~~~~~~~~~ // // This file tests the expint functions. There are two sets of tests: // 1) Sanity checks: comparison to test values created with the // online calculator at functions.wolfram.com // 2) Accuracy tests use values generated with NTL::RR at // 1000-bit precision and our generic versions of these functions. // // Note that when this file is first run on a new platform many of // these tests will fail: the default accuracy is 1 epsilon which // is too tight for most platforms. In this situation you will // need to cast a human eye over the error rates reported and make // a judgement as to whether they are acceptable. Either way please // report the results to the Boost mailing list. Acceptable rates of // error are marked up below as a series of regular expressions that // identify the compiler/stdlib/platform/data-type/test-data/test-function // along with the maximum expected peek and RMS mean errors for that // test. // void expected_results() { // // Define the max and mean errors expected for // various compilers and platforms. // const char* largest_type; #ifndef BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS if(boost::math::policies::digits >() == boost::math::policies::digits >()) { largest_type = "(long\\s+)?double"; } else { largest_type = "long double"; } #else largest_type = "(long\\s+)?double"; #endif // // On MacOS X erfc has much higher error levels than // expected: given that the implementation is basically // just a rational function evaluation combined with // exponentiation, we conclude that exp and pow are less // accurate on this platform, especially when the result // is outside the range of a double. // add_expected_result( ".*", // compiler ".*", // stdlib "Mac OS", // platform "float|double|long double", // test type(s) ".*E1.*", // test data group ".*", 30, 10); // test function add_expected_result( ".*", // compiler ".*", // stdlib "Mac OS", // platform "float|double|long double", // test type(s) ".*Ei.*", // test data group ".*", 300, 200); // test function add_expected_result( ".*", // compiler ".*", // stdlib "Mac OS", // platform ".*", // test type(s) ".*", // test data group ".*", 40, 15); // test function add_expected_result( ".*", // compiler ".*", // stdlib ".*", // platform "float|double|long double", // test type(s) ".*E1.*", // test data group ".*", 2, 1); // test function add_expected_result( ".*", // compiler ".*", // stdlib ".*", // platform "float|double|long double", // test type(s) ".*Ei.*", // test data group ".*", 6, 3); // test function if(std::numeric_limits::digits > 100) { add_expected_result( ".*", // compiler ".*", // stdlib ".*", // platform "real_concept", // test type(s) ".*Ei.*", // test data group ".*", 150, 50); // test function } add_expected_result( "Sun.*", // compiler ".*", // stdlib ".*", // platform "real_concept", // test type(s) ".*Ei.*", // test data group ".*", 150, 50); // test function add_expected_result( ".*", // compiler ".*", // stdlib ".*", // platform "real_concept", // test type(s) ".*Ei.*", // test data group ".*", 50, 20); // test function add_expected_result( ".*", // compiler ".*", // stdlib ".*", // platform ".*", // test type(s) ".*", // test data group ".*", 25, 5); // test function std::cout << "Tests run with " << BOOST_COMPILER << ", " << BOOST_STDLIB << ", " << BOOST_PLATFORM << std::endl; } template T expint_wrapper(T n, T z) { return boost::math::expint( boost::math::itrunc(n), z); } #ifdef TEST_OTHER template T other_expint_wrapper(T n, T z) { return other::expint( boost::math::itrunc(n), z); } #endif template void do_test_expint(const T& data, const char* type_name, const char* test_name) { // // test En(T) against data: // using namespace std; typedef typename T::value_type row_type; typedef typename row_type::value_type value_type; std::cout << test_name << " with type " << type_name << std::endl; typedef value_type (*pg)(value_type, value_type); #if defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS) pg funcp = expint_wrapper; #else pg funcp = expint_wrapper; #endif boost::math::tools::test_result result; // // test expint against data: // result = boost::math::tools::test( data, bind_func(funcp, 0, 1), extract_result(2)); handle_test_result(result, data[result.worst()], result.worst(), type_name, "boost::math::expint", test_name); #ifdef TEST_OTHER if(boost::is_floating_point::value && other::expint(2u, 2.0)) { funcp = other_expint_wrapper; // // test expint against data: // result = boost::math::tools::test( data, bind_func(funcp, 0, 1), extract_result(2)); handle_test_result(result, data[result.worst()], result.worst(), type_name, "other::expint", test_name); } #endif std::cout << std::endl; } template void do_test_expint_Ei(const T& data, const char* type_name, const char* test_name) { // // test Ei(T) against data: // using namespace std; typedef typename T::value_type row_type; typedef typename row_type::value_type value_type; std::cout << test_name << " with type " << type_name << std::endl; typedef value_type (*pg)(value_type); #if defined(BOOST_MATH_NO_DEDUCED_FUNCTION_POINTERS) pg funcp = boost::math::expint; #else pg funcp = boost::math::expint; #endif boost::math::tools::test_result result; // // test expint against data: // result = boost::math::tools::test( data, bind_func(funcp, 0), extract_result(1)); handle_test_result(result, data[result.worst()], result.worst(), type_name, "boost::math::expint", test_name); #ifdef TEST_OTHER if(boost::is_floating_point::value && other::expint(2.0)) { funcp = other::expint; // // test expint against data: // result = boost::math::tools::test( data, bind_func(funcp, 0), extract_result(1)); handle_test_result(result, data[result.worst()], result.worst(), type_name, "other::expint", test_name); } #endif } template void test_expint(T, const char* name) { // // The actual test data is rather verbose, so it's in a separate file // #include "expint_data.ipp" do_test_expint(expint_data, name, "Exponential Integral En"); #include "expint_small_data.ipp" do_test_expint(expint_small_data, name, "Exponential Integral En: small z values"); #include "expint_1_data.ipp" do_test_expint(expint_1_data, name, "Exponential Integral E1"); #include "expinti_data.ipp" do_test_expint_Ei(expinti_data, name, "Exponential Integral Ei"); if(boost::math::tools::log_max_value() > 100) { #include "expinti_data_double.ipp" do_test_expint_Ei(expinti_data_double, name, "Exponential Integral Ei: double exponent range"); } #if defined(LDBL_MAX_10_EXP) && (LDBL_MAX_10_EXP > 2000) if(boost::math::tools::log_max_value() > 1000) { #include "expinti_data_long.ipp" do_test_expint_Ei(expinti_data_long, name, "Exponential Integral Ei: long exponent range"); } #endif } template void test_spots(T, const char* t) { std::cout << "Testing basic sanity checks for type " << t << std::endl; // // Basic sanity checks, tolerance is 100 epsilon // expressed as a percentage: // T tolerance = boost::math::tools::epsilon() * 100 * (boost::is_floating_point::value ? 500 : 500); // // En: // BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(1)/1024), static_cast(1023.0004881223430781283448725609773366468629307172L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(0.125F)), static_cast(7.0599752206767632229191371458324058897760385999252L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(0.5F)), static_cast(1.2130613194252668472075990699823609068838362709744L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(1.5F)), static_cast(0.14875344009895321928885364717600834756144775290739L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(4.5F)), static_cast(0.0024686658973871792213651409526512283936753927790603L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(0, static_cast(50.0F)), static_cast(3.8574996959278355660346856330540251495056653024605e-24L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(1)/1024), static_cast(6.3552324648310718026144555193580322129376300855378L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(0.125F)), static_cast(1.6234256405841687914563069246244088736331060573721L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(0.5F)), static_cast(0.55977359477616081174679593931508523522684689031635L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(1.5F)), static_cast(0.10001958240663265190190933991166697826173000614035L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(4.5F)), static_cast(0.0020734007547146144328855938695797884889319725701443L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(1, static_cast(50.0F)), static_cast(3.7832640295504590186989678540212857803028931862511e-24L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(1)/1024), static_cast(0.99281763247803906867747111039220635198625517639812L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(0.125F)), static_cast(0.67956869751157430393285377765099962701786656781914L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(0.5F)), static_cast(0.32664386232455301773040156533363783582849469032901L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(1.5F)), static_cast(0.073100786538480851080416460896512053949576620150553L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(4.5F)), static_cast(0.0017786931420265415481579618738214795713453909401220L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(2, static_cast(50.0F)), static_cast(3.7117833188688273667858889516369684601386058104706e-24L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(1)/1024), static_cast(0.24967471743034509414923673526350536071348482068601L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(0.125F)), static_cast(0.21195078838966585733668853784460504343264488743527L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(0.5F)), static_cast(0.13097731169586484777931864012654136046214618229236L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(1.5F)), static_cast(0.038529924425495155395971538166055731456940831714065L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(4.5F)), static_cast(0.0012311157382296328534406162790653865883418172939975L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(5, static_cast(50.0F)), static_cast(3.5124400631332394056901125740903320085753990490695e-24L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(1)/1024), static_cast(0.047570244582119027573000641518739337055625638422014L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(0.125F)), static_cast(0.041762730174712898120606793100375713866392079558609L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(0.5F)), static_cast(0.028178840877963713109230354192609362941651630844684L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(1.5F)), static_cast(0.0098864453561701486668317763826728620676449196215016L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(4.5F)), static_cast(0.00043257793497205419001613830279995985617548506505159L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(22, static_cast(50.0F)), static_cast(2.6900194251201629500599598206345018300567305625080e-24L), tolerance); // // Ei: // BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(1)/1024), static_cast(-6.35327933972759151358547423727042905862963067106751711596065L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(0.125)), static_cast(-1.37320852494298333781545045921206470808223543321810480716122L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(0.5)), static_cast(0.454219904863173579920523812662802365281405554352642045162818L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(1)), static_cast(1.89511781635593675546652093433163426901706058173270759164623L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(50.5)), static_cast(1.72763195602911805201155668940185673806099654090456049881069e20L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(-1)/1024), static_cast(-6.35523246483107180261445551935803221293763008553775821607264L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(-0.125)), static_cast(-1.62342564058416879145630692462440887363310605737209536579267L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(-0.5)), static_cast(-0.559773594776160811746795939315085235226846890316353515248293L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(-1)), static_cast(-0.219383934395520273677163775460121649031047293406908207577979L), tolerance); BOOST_CHECK_CLOSE(::boost::math::expint(static_cast(-50.5)), static_cast(-2.27237132932219350440719707268817831250090574830769670186618e-24L), tolerance); } int test_main(int, char* []) { expected_results(); BOOST_MATH_CONTROL_FP; boost::math::expint(114.7); test_spots(0.0f, "float"); test_spots(0.0, "double"); #ifndef BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS test_spots(0.0L, "long double"); test_spots(boost::math::concepts::real_concept(0.1), "real_concept"); #else std::cout << "The long double tests have been disabled on this platform " "either because the long double overloads of the usual math functions are " "not available at all, or because they are too inaccurate for these tests " "to pass." << std::cout; #endif test_expint(0.1F, "float"); test_expint(0.1, "double"); #ifndef BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS test_expint(0.1L, "long double"); test_expint(boost::math::concepts::real_concept(0.1), "real_concept"); #else std::cout << "The long double tests have been disabled on this platform " "either because the long double overloads of the usual math functions are " "not available at all, or because they are too inaccurate for these tests " "to pass." << std::cout; #endif return 0; }