/////////////////////////////////////////////////////////////// // Copyright 2012 John Maddock. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at https://www.boost.org/LICENSE_1_0.txt // #ifndef BOOST_MULTIPRECISION_TEST_HPP #define BOOST_MULTIPRECISION_TEST_HPP #include #include #include #include #include #include #include #include #include namespace detail { template inline typename boost::disable_if_c::value || boost::multiprecision::is_unsigned_number::value, T>::type abs(const T& a) { return a < 0 ? -a : a; } template inline typename boost::enable_if_c::value || boost::multiprecision::is_unsigned_number::value, T>::type abs(const T& a) { return a; } } // namespace detail template typename boost::enable_if_c::value == boost::multiprecision::number_kind_integer, T>::type relative_error(T a, T b) { return a > b ? a - b : b - a; } template typename boost::disable_if_c<(boost::multiprecision::number_category::value == boost::multiprecision::number_kind_integer) || boost::multiprecision::is_interval_number::value, T>::type relative_error(T a, T b) { using ::detail::abs; using std::abs; T min_val = (std::numeric_limits::min)(); T max_val = (std::numeric_limits::max)(); if ((a != 0) && (b != 0)) { if (a == b) return 0; // TODO: use isfinite: if (abs(b) >= max_val) { if (abs(a) >= max_val) return 0; // one infinity is as good as another! } // If the result is denormalised, treat all denorms as equivalent: if ((a < min_val) && (a > 0)) a = min_val; else if ((a > -min_val) && (a < 0)) a = -min_val; if ((b < min_val) && (b > 0)) b = min_val; else if ((b > -min_val) && (b < 0)) b = -min_val; return (std::max)(abs(T((a - b) / a)), abs(T((a - b) / b))) / std::numeric_limits::epsilon(); } // Handle special case where one or both are zero: if (min_val == 0) return abs(T(a - b)); if (abs(a) < min_val) a = min_val; if (abs(b) < min_val) b = min_val; return (std::max)(abs(T((a - b) / a)), abs(T((a - b) / b))) / std::numeric_limits::epsilon(); } template typename boost::mpl::if_c::value, U, T>::type relative_error(T a, U b) { typedef typename boost::mpl::if_c::value, U, T>::type cast_type; return relative_error(static_cast(a), static_cast(b)); } template typename boost::enable_if_c::value, T>::type relative_error(T a, T b) { typename boost::multiprecision::component_type::type am = median(a); typename boost::multiprecision::component_type::type bm = median(b); return relative_error::type>(am, bm); } enum { warn_on_fail, error_on_fail, abort_on_fail }; template inline T epsilon_of(const T&) { BOOST_STATIC_ASSERT(std::numeric_limits::is_specialized); return std::numeric_limits::is_integer ? static_cast(1) : std::numeric_limits::epsilon(); } template inline int digits_of(const T&) { return std::numeric_limits::is_specialized ? std::numeric_limits::digits10 + 3 : std::numeric_limits::digits10 + 3; } inline std::ostream& report_where(const char* file, int line, const char* function) { if (function) BOOST_LIGHTWEIGHT_TEST_OSTREAM << "In function: " << function << std::endl; BOOST_LIGHTWEIGHT_TEST_OSTREAM << file << ":" << line; return BOOST_LIGHTWEIGHT_TEST_OSTREAM; } #define BOOST_MP_REPORT_WHERE report_where(__FILE__, __LINE__, BOOST_CURRENT_FUNCTION) inline void report_severity(int severity) { if (severity == error_on_fail) ++boost::detail::test_errors(); else if (severity == abort_on_fail) { ++boost::detail::test_errors(); abort(); } } #define BOOST_MP_REPORT_SEVERITY(severity) report_severity(severity) template void report_unexpected_exception(const E& e, int severity, const char* file, int line, const char* function) { report_where(file, line, function) << " Unexpected exception of type " << typeid(e).name() << std::endl; BOOST_LIGHTWEIGHT_TEST_OSTREAM << "Errot message was: " << e.what() << std::endl; BOOST_MP_REPORT_SEVERITY(severity); } #ifndef BOOST_NO_EXCEPTIONS #define BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) \ catch (const std::exception& e) \ { \ report_unexpected_exception(e, severity, __FILE__, __LINE__, BOOST_CURRENT_FUNCTION); \ } \ catch (...) \ { \ std::cout << "Exception of unknown type was thrown" << std::endl; \ report_severity(severity); \ } #define BOOST_MP_TRY try #else #define BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_MP_TRY #endif #define BOOST_CHECK_IMP(x, severity) \ BOOST_MP_TRY \ { \ if (x) \ { \ } \ else \ { \ BOOST_MP_REPORT_WHERE << " Failed predicate: " << BOOST_STRINGIZE(x) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_CHECK(x) BOOST_CHECK_IMP(x, error_on_fail) #define BOOST_WARN(x) BOOST_CHECK_IMP(x, warn_on_fail) #define BOOST_REQUIRE(x) BOOST_CHECK_IMP(x, abort_on_fail) #define BOOST_CLOSE_IMP(x, y, tol, severity) \ BOOST_MP_TRY \ { \ if (relative_error(x, y) > tol) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for closeness: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(5) << std::fixed \ << "Relative error was: " << relative_error(x, y) << "eps\n" \ << "Tolerance was: " << tol << "eps" << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_EQUAL_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!((x) == (y))) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for equality: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << (x) << "\n" \ << "Value of RHS was: " << (y) << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_NE_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!(x != y)) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for non-equality: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_LT_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!(x < y)) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for less than: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_GT_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!(x > y)) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for greater than: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_LE_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!(x <= y)) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for less-than-equal-to: \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #define BOOST_GE_IMP(x, y, severity) \ BOOST_MP_TRY \ { \ if (!(x >= y)) \ { \ BOOST_MP_REPORT_WHERE << " Failed check for greater-than-equal-to \n" \ << std::setprecision(digits_of(x)) << std::scientific \ << "Value of LHS was: " << x << "\n" \ << "Value of RHS was: " << y << "\n" \ << std::setprecision(3) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ } \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #ifndef BOOST_NO_EXCEPTIONS #define BOOST_MT_CHECK_THROW_IMP(x, E, severity) \ BOOST_MP_TRY \ { \ x; \ BOOST_MP_REPORT_WHERE << " Expected exception not thrown in expression " << BOOST_STRINGIZE(x) << std::endl; \ BOOST_MP_REPORT_SEVERITY(severity); \ } \ catch (const E&) {} \ BOOST_MP_UNEXPECTED_EXCEPTION_CHECK(severity) #else #define BOOST_MT_CHECK_THROW_IMP(x, E, severity) #endif #define BOOST_CHECK_CLOSE(x, y, tol) BOOST_CLOSE_IMP(x, y, ((tol / (100 * epsilon_of(x)))), error_on_fail) #define BOOST_WARN_CLOSE(x, y, tol) BOOST_CLOSE_IMP(x, y, (tol / (100 * epsilon_of(x))), warn_on_fail) #define BOOST_REQUIRE_CLOSE(x, y, tol) BOOST_CLOSE_IMP(x, y, (tol / (100 * epsilon_of(x))), abort_on_fail) #define BOOST_CHECK_CLOSE_FRACTION(x, y, tol) BOOST_CLOSE_IMP(x, y, ((tol / (epsilon_of(x)))), error_on_fail) #define BOOST_WARN_CLOSE_FRACTION(x, y, tol) BOOST_CLOSE_IMP(x, y, (tol / (epsilon_of(x))), warn_on_fail) #define BOOST_REQUIRE_CLOSE_FRACTION(x, y, tol) BOOST_CLOSE_IMP(x, y, (tol / (epsilon_of(x))), abort_on_fail) #define BOOST_CHECK_EQUAL(x, y) BOOST_EQUAL_IMP(x, y, error_on_fail) #define BOOST_WARN_EQUAL(x, y) BOOST_EQUAL_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_EQUAL(x, y) BOOST_EQUAL_IMP(x, y, abort_on_fail) #define BOOST_CHECK_NE(x, y) BOOST_NE_IMP(x, y, error_on_fail) #define BOOST_WARN_NE(x, y) BOOST_NE_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_NE(x, y) BOOST_NE_IMP(x, y, abort_on_fail) #define BOOST_CHECK_LT(x, y) BOOST_LT_IMP(x, y, error_on_fail) #define BOOST_WARN_LT(x, y) BOOST_LT_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_LT(x, y) BOOST_LT_IMP(x, y, abort_on_fail) #define BOOST_CHECK_GT(x, y) BOOST_GT_IMP(x, y, error_on_fail) #define BOOST_WARN_GT(x, y) BOOST_GT_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_GT(x, y) BOOST_GT_IMP(x, y, abort_on_fail) #define BOOST_CHECK_LE(x, y) BOOST_LE_IMP(x, y, error_on_fail) #define BOOST_WARN_LE(x, y) BOOST_LE_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_LE(x, y) BOOST_LE_IMP(x, y, abort_on_fail) #define BOOST_CHECK_GE(x, y) BOOST_GE_IMP(x, y, error_on_fail) #define BOOST_WARN_GE(x, y) BOOST_GE_IMP(x, y, warn_on_fail) #define BOOST_REQUIRE_GE(x, y) BOOST_GE_IMP(x, y, abort_on_fail) #define BOOST_CHECK_THROW(x, E) BOOST_MT_CHECK_THROW_IMP(x, E, error_on_fail) #define BOOST_WARN_THROW(x, E) BOOST_MT_CHECK_THROW_IMP(x, E, warn_on_fail) #define BOOST_REQUIRE_THROW(x, E) BOOST_MT_CHECK_THROW_IMP(x, E, abort_on_fail) #endif