// Copyright Christopher Kormanyos 2014. // Copyright John Maddock 2014. // Copyright Paul A. Bristow 2014. // 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 #ifdef _MSC_VER # pragma warning(disable : 4127) // conditional expression is constant. # pragma warning(disable : 4512) // assignment operator could not be generated. # pragma warning(disable : 4996) // use -D_SCL_SECURE_NO_WARNINGS. #endif #define BOOST_TEST_MAIN #include // Boost.Test #include #include // // We need to define an iostream operator for __float128 in order to // compile this test: // // // DESCRIPTION: // ~~~~~~~~~~~~ // // This file tests the implementation of floating-point typedefs having // specified widths, as implemented in and described // in N3626 (proposed for C++14). // For more information on and the corresponding // proposal of "Floating-Point Typedefs Having Specified Widths", // see: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2013/n3626.pdf // The tests: // // Perform sanity checks on boost::float16_t, boost::float32_t, // boost::float64_t, boost::float80_t, and boost::float128_t when // these types are available. In the sanity checks, we verify the // formal behavior of the types and the macros for creating literal // floating-point constants. // // An extended check is included for boost::float128_t. This checks // the functionality of , I/O stream operations, and // functions for boost::float128_t. // For some reason the (x != x) check fails on Mingw: #if !defined(__MINGW64__) #define TEST_CSTDFLOAT_SANITY_CHECK_NAN(the_digits) \ { \ using std::sqrt; \ const float_type x = sqrt(float_type(test_cstdfloat::minus_one)); \ const bool the_nan_test = ( std::numeric_limits::has_quiet_NaN \ && (x != x)); \ BOOST_CHECK_EQUAL( the_nan_test, true ); \ } #else #define TEST_CSTDFLOAT_SANITY_CHECK_NAN(the_digits) #endif #define TEST_CSTDFLOAT_SANITY_CHECK(the_digits) \ void sanity_check_##the_digits##_func() \ { \ typedef boost::float##the_digits##_t float_type; \ \ BOOST_CONSTEXPR_OR_CONST int my_digits10 = std::numeric_limits::digits10; \ \ { \ BOOST_CONSTEXPR_OR_CONST float_type x = \ BOOST_FLOAT##the_digits##_C(0.33333333333333333333333333333333333333333); \ std::stringstream ss; \ ss << std::setprecision(my_digits10 - 1) \ << x; \ std::string str = "0."; \ str += std::string(std::string::size_type(my_digits10 - 1), char('3')); \ BOOST_CHECK_EQUAL( ss.str(), str ); \ } \ { \ BOOST_CONSTEXPR_OR_CONST float_type x = \ BOOST_FLOAT##the_digits##_C(0.66666666666666666666666666666666666666666); \ std::stringstream ss; \ ss << std::setprecision(my_digits10 - 1) \ << x; \ std::string str = "0."; \ str += std::string(std::string::size_type(my_digits10 - 2), char('6')); \ str += "7"; \ BOOST_CHECK_EQUAL( ss.str(), str ); \ } \ { \ const float_type x = BOOST_FLOAT##the_digits##_C(1.0) / test_cstdfloat::zero; \ const bool the_inf_test = ( std::numeric_limits::has_infinity \ && (x == std::numeric_limits::infinity())); \ BOOST_CHECK_EQUAL( the_inf_test, true ); \ } \ TEST_CSTDFLOAT_SANITY_CHECK_NAN(the_digits)\ { \ const bool the_lim_test = \ (std::numeric_limits::digits >= std::numeric_limits::digits); \ BOOST_CHECK_EQUAL( the_lim_test, true ); \ } \ } namespace test_cstdfloat { #if defined(BOOST_FLOAT128_C) template void test_less(T a, U b) { BOOST_CHECK(a < b); BOOST_CHECK(a <= b); BOOST_CHECK(!(a > b)); BOOST_CHECK(!(a >= b)); BOOST_CHECK(!(a == b)); BOOST_CHECK((a != b)); BOOST_CHECK(b > a); BOOST_CHECK(b >= a); BOOST_CHECK(!(b < a)); BOOST_CHECK(!(b <= a)); BOOST_CHECK(!(b == a)); BOOST_CHECK((b != a)); BOOST_CHECK(std::isless(a, b)); BOOST_CHECK(std::islessequal(a, b)); BOOST_CHECK(!std::isgreater(a, b)); BOOST_CHECK(!std::isgreaterequal(a, b)); BOOST_CHECK(std::islessgreater(a, b)); BOOST_CHECK(!std::isless(b, a)); BOOST_CHECK(!std::islessequal(b, a)); BOOST_CHECK(std::isgreater(b, a)); BOOST_CHECK(std::isgreaterequal(b, a)); BOOST_CHECK(std::islessgreater(b, a)); } template void test_equal(T a, U b) { BOOST_CHECK(!(a < b)); BOOST_CHECK(a <= b); BOOST_CHECK(!(a > b)); BOOST_CHECK((a >= b)); BOOST_CHECK((a == b)); BOOST_CHECK(!(a != b)); BOOST_CHECK(!(b > a)); BOOST_CHECK(b >= a); BOOST_CHECK(!(b < a)); BOOST_CHECK((b <= a)); BOOST_CHECK((b == a)); BOOST_CHECK(!(b != a)); BOOST_CHECK(!std::isless(a, b)); BOOST_CHECK(std::islessequal(a, b)); BOOST_CHECK(!std::isgreater(a, b)); BOOST_CHECK(std::isgreaterequal(a, b)); BOOST_CHECK(!std::islessgreater(a, b)); BOOST_CHECK(!std::isless(b, a)); BOOST_CHECK(std::islessequal(b, a)); BOOST_CHECK(!std::isgreater(b, a)); BOOST_CHECK(std::isgreaterequal(b, a)); BOOST_CHECK(!std::islessgreater(b, a)); } template void test_unordered(T a, U b) { BOOST_CHECK(!(a < b)); BOOST_CHECK(!(a <= b)); BOOST_CHECK(!(a > b)); BOOST_CHECK(!(a >= b)); BOOST_CHECK(!(a == b)); BOOST_CHECK((a != b)); BOOST_CHECK(!(b > a)); BOOST_CHECK(!(b >= a)); BOOST_CHECK(!(b < a)); BOOST_CHECK(!(b <= a)); BOOST_CHECK(!(b == a)); BOOST_CHECK((b != a)); BOOST_CHECK(!std::isless(a, b)); BOOST_CHECK(!std::islessequal(a, b)); BOOST_CHECK(!std::isgreater(a, b)); BOOST_CHECK(!std::isgreaterequal(a, b)); BOOST_CHECK(!std::islessgreater(a, b)); BOOST_CHECK(!std::isless(b, a)); BOOST_CHECK(!std::islessequal(b, a)); BOOST_CHECK(!std::isgreater(b, a)); BOOST_CHECK(!std::isgreaterequal(b, a)); BOOST_CHECK(!std::islessgreater(b, a)); } template void test() { // // Basic sanity checks for C99 functions which are just imported versions // from Boost.Math. These should still be found via ADL so no using declarations here... // T val = 2; BOOST_CHECK(std::signbit(val) == 0); BOOST_CHECK(std::signbit(val + 2) == 0); val = -val; BOOST_CHECK(std::signbit(val)); BOOST_CHECK(std::signbit(val * 2)); T s = 2; val = 3; BOOST_CHECK_EQUAL(std::copysign(val, s), 3); BOOST_CHECK_EQUAL(std::copysign(val, s * -2), -3); BOOST_CHECK_EQUAL(std::copysign(-2 * val, s), 6); BOOST_CHECK_EQUAL(std::copysign(-2 * val, 2 * s), 6); s = -2; BOOST_CHECK_EQUAL(std::copysign(val, s), -3); BOOST_CHECK_EQUAL(std::copysign(val, s * -2), 3); BOOST_CHECK_EQUAL(std::copysign(-2 * val, s), -6); BOOST_CHECK_EQUAL(std::copysign(-2 * val, 2 * s), -6); val = -3; BOOST_CHECK_EQUAL(std::copysign(val, s), -3); BOOST_CHECK_EQUAL(std::copysign(val, s * -2), 3); BOOST_CHECK_EQUAL(std::copysign(-2 * val, s), -6); BOOST_CHECK_EQUAL(std::copysign(-2 * val, 2 * s), -6); s = 0; BOOST_CHECK_EQUAL(std::copysign(val, s), 3); BOOST_CHECK_EQUAL(std::copysign(val, s * -2), -3); BOOST_CHECK_EQUAL(std::copysign(-2 * val, s), 6); BOOST_CHECK_EQUAL(std::copysign(-2 * val, 2 * s), 6); // Things involving signed zero, need to detect it first: val = 3; BOOST_CHECK_EQUAL(std::fpclassify(val), FP_NORMAL); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_NORMAL); BOOST_CHECK(!std::isinf(val)); BOOST_CHECK(!std::isinf(val + 2)); BOOST_CHECK(!std::isnan(val)); BOOST_CHECK(!std::isnan(val + 2)); BOOST_CHECK(std::isnormal(val)); BOOST_CHECK(std::isnormal(val + 2)); val = -3; BOOST_CHECK_EQUAL(std::fpclassify(val), FP_NORMAL); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_NORMAL); BOOST_CHECK(!std::isinf(val)); BOOST_CHECK(!std::isinf(val + 2)); BOOST_CHECK(!std::isnan(val)); BOOST_CHECK(!std::isnan(val + 2)); BOOST_CHECK(std::isnormal(val)); BOOST_CHECK(std::isnormal(val + 2)); val = 0; BOOST_CHECK_EQUAL(std::fpclassify(val), FP_ZERO); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_ZERO); BOOST_CHECK(!std::isinf(val)); BOOST_CHECK(!std::isinf(val + 2)); BOOST_CHECK(!std::isnan(val)); BOOST_CHECK(!std::isnan(val + 2)); BOOST_CHECK(!std::isnormal(val)); BOOST_CHECK(!std::isnormal(val * 2)); BOOST_CHECK(!std::isnormal(val * -2)); if (std::numeric_limits::has_infinity) { val = std::numeric_limits::infinity(); BOOST_CHECK_EQUAL(std::fpclassify(val), FP_INFINITE); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_INFINITE); BOOST_CHECK(std::isinf(val)); BOOST_CHECK(std::isinf(val + 2)); BOOST_CHECK(!std::isnan(val)); BOOST_CHECK(!std::isnan(val + 2)); BOOST_CHECK(!std::isnormal(val)); BOOST_CHECK(!std::isnormal(val + 2)); val = -val; BOOST_CHECK_EQUAL(std::fpclassify(val), FP_INFINITE); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_INFINITE); BOOST_CHECK(std::isinf(val)); BOOST_CHECK(std::isinf(val + 2)); BOOST_CHECK(!std::isnan(val)); BOOST_CHECK(!std::isnan(val + 2)); BOOST_CHECK(!std::isnormal(val)); BOOST_CHECK(!std::isnormal(val + 2)); } if (std::numeric_limits::has_quiet_NaN) { val = std::numeric_limits ::quiet_NaN(); BOOST_CHECK_EQUAL(std::fpclassify(val), FP_NAN); BOOST_CHECK_EQUAL(std::fpclassify(val * 3), FP_NAN); BOOST_CHECK(!std::isinf(val)); BOOST_CHECK(!std::isinf(val + 2)); BOOST_CHECK(std::isnan(val)); BOOST_CHECK(std::isnan(val + 2)); BOOST_CHECK(!std::isnormal(val)); BOOST_CHECK(!std::isnormal(val + 2)); } s = 8 * std::numeric_limits::epsilon(); val = 2.5; BOOST_CHECK_CLOSE_FRACTION(std::asinh(val), T(1.6472311463710957106248586104436196635044144301932365282203100930843983757633104078778420255069424907777006132075516484778755360595913172299093829522950397895699619540523579875476513967578478619028438291006578604823887119907434Q), s); BOOST_CHECK_CLOSE_FRACTION(std::acosh(val), T(1.5667992369724110786640568625804834938620823510926588639329459980122148134693922696279968499622201141051039184050936311066453565386393240356562374302417843319480223211857615778787272615171906055455922537080327062362258846337050Q), s); val = 0.5; BOOST_CHECK_CLOSE_FRACTION(std::atanh(val), T(0.5493061443340548456976226184612628523237452789113747258673471668187471466093044834368078774068660443939850145329789328711840021129652599105264009353836387053015813845916906835896868494221804799518712851583979557605727959588753Q), s); val = 55.25; BOOST_CHECK_CLOSE_FRACTION(std::cbrt(val), T(3.8087058015466360309383876359583281382991983919300128125378938779672144843676192684301168479657279498120767424724024965319869248797423276064015643361426189576415670917818313417529572608229017809069355688606687557031643655896118Q), s); val = 2.75; BOOST_CHECK_CLOSE_FRACTION(std::erf(val), T(0.9998993780778803631630956080249130432349352621422640655161095794654526422025908961447328296681056892975214344779300734620255391682713519265048496199034963706976420982849598189071465666866369396765001072187538732800143945532487Q), s); BOOST_CHECK_CLOSE_FRACTION(std::erfc(val), T(0.0001006219221196368369043919750869567650647378577359344838904205345473577974091038552671703318943107024785655220699265379744608317286480734951503800965036293023579017150401810928534333133630603234998927812461267199856054467512Q), s); val = 0.125; BOOST_CHECK_CLOSE_FRACTION(std::expm1(val), T(0.1331484530668263168290072278117938725655031317451816259128200360788235778800483865139399907949417285732315270156473075657048210452584733998785564025916995261162759280700397984729320345630340659469435372721057879969170503978449Q), s); val = 20; s = 2; BOOST_CHECK_EQUAL(std::fdim(val, s), 18); BOOST_CHECK_EQUAL(std::fdim(s, val), 0); BOOST_CHECK_EQUAL(std::fdim(val, s * 2), 16); BOOST_CHECK_EQUAL(std::fdim(s * 2, val), 0); BOOST_CHECK_EQUAL(std::fdim(val, 2), 18); BOOST_CHECK_EQUAL(std::fdim(2, val), 0); BOOST_CHECK_EQUAL(std::fmax(val, s), val); BOOST_CHECK_EQUAL(std::fmax(s, val), val); BOOST_CHECK_EQUAL(std::fmax(val * 2, s), val * 2); BOOST_CHECK_EQUAL(std::fmax(val, s * 2), val); BOOST_CHECK_EQUAL(std::fmax(val * 2, s * 2), val * 2); BOOST_CHECK_EQUAL(std::fmin(val, s), s); BOOST_CHECK_EQUAL(std::fmin(s, val), s); BOOST_CHECK_EQUAL(std::fmin(val * 2, s), s); BOOST_CHECK_EQUAL(std::fmin(val, s * 2), s * 2); BOOST_CHECK_EQUAL(std::fmin(val * 2, s * 2), s * 2); BOOST_CHECK_EQUAL(std::fmax(val, 2), val); BOOST_CHECK_EQUAL(std::fmax(val, 2.0), val); BOOST_CHECK_EQUAL(std::fmax(20, s), val); BOOST_CHECK_EQUAL(std::fmax(20.0, s), val); BOOST_CHECK_EQUAL(std::fmin(val, 2), s); BOOST_CHECK_EQUAL(std::fmin(val, 2.0), s); BOOST_CHECK_EQUAL(std::fmin(20, s), s); BOOST_CHECK_EQUAL(std::fmin(20.0, s), s); if (std::numeric_limits::has_quiet_NaN) { BOOST_CHECK_EQUAL(std::fmax(val, std::numeric_limits::quiet_NaN()), val); BOOST_CHECK_EQUAL(std::fmax(std::numeric_limits::quiet_NaN(), val), val); BOOST_CHECK_EQUAL(std::fmin(val, std::numeric_limits::quiet_NaN()), val); BOOST_CHECK_EQUAL(std::fmin(std::numeric_limits::quiet_NaN(), val), val); } if (std::numeric_limits::has_quiet_NaN) { BOOST_CHECK_EQUAL(std::fmax(val, std::numeric_limits::quiet_NaN()), val); BOOST_CHECK_EQUAL(std::fmax(std::numeric_limits::quiet_NaN(), val), val); BOOST_CHECK_EQUAL(std::fmin(val, std::numeric_limits::quiet_NaN()), val); BOOST_CHECK_EQUAL(std::fmin(std::numeric_limits::quiet_NaN(), val), val); } test_less(s, val); test_less(2, val); test_less(s, 20); test_less(s + 0, val); test_less(s, val * 1); test_less(s * 1, val * 1); test_less(s * 1, 20); test_less(s + 2, val * 2); test_equal(val, val); test_equal(20, val); test_equal(val, 20); test_equal(val + 0, val); test_equal(val, val * 1); test_equal(val * 1, val * 1); test_equal(val * 1, 20); test_equal(val * 20, val * 20); if (std::numeric_limits::has_quiet_NaN) { s = std::numeric_limits::quiet_NaN(); test_unordered(s, val); test_unordered(s, 20); test_unordered(s + 0, val); test_unordered(s, val * 1); test_unordered(s * 1, val * 1); test_unordered(s * 1, 20); test_unordered(s + 2, val * 2); if (std::numeric_limits::has_quiet_NaN) { double n = std::numeric_limits::quiet_NaN(); test_unordered(n, val); } } T tol = 8 * std::numeric_limits::epsilon(); s = 2; BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val, s)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val, 2)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val, 2.0)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(20, s)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(20.0, s)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val * 1, s)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val * 1, s * 1)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val * 1, 2)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(val * 1, 2.0)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(20, s * 1)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::hypot(20.0, s * 1)), T(20.099751242241780540438529825519152373890046940052754581145656594656982463103940762472355384907904704732599006530Q), tol); BOOST_CHECK_CLOSE_FRACTION(std::lgamma(val), T(39.339884187199494036224652394567381081691457206897853119937969989377572554993874476249340525204204720861169039582Q), tol); BOOST_CHECK_CLOSE_FRACTION(std::lgamma(val + 0), T(39.339884187199494036224652394567381081691457206897853119937969989377572554993874476249340525204204720861169039582Q), tol); BOOST_CHECK_EQUAL(std::lrint(val), 20); BOOST_CHECK_EQUAL(std::lrint(val * 2), 40); BOOST_CHECK_EQUAL(std::llrint(val), 20); BOOST_CHECK_EQUAL(std::llrint(val * 2), 40); val = 0.125; BOOST_CHECK_CLOSE_FRACTION(std::log1p(val), T(0.117783035656383454538794109470521705068480712564733141107348638794807720528133786929641528638208114949935615070Q), tol); BOOST_CHECK_CLOSE_FRACTION(std::log1p(val + 0), T(0.117783035656383454538794109470521705068480712564733141107348638794807720528133786929641528638208114949935615070Q), tol); val = 20; BOOST_CHECK_CLOSE_FRACTION(T(std::log2(val)), T(4.321928094887362347870319429489390175864831393024580612054756395815934776608625215850139743359370155099657371710Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::log2(val + 0)), T(4.321928094887362347870319429489390175864831393024580612054756395815934776608625215850139743359370155099657371710Q), tol); BOOST_CHECK_EQUAL(T(std::nearbyint(val)), 20); BOOST_CHECK_EQUAL(T(std::nearbyint(val + 0.25)), 20); BOOST_CHECK_EQUAL(T(std::rint(val)), 20); BOOST_CHECK_EQUAL(T(std::rint(val + 0.25)), 20); BOOST_CHECK_GT(std::nextafter(val, T(200)), val); BOOST_CHECK_GT(std::nextafter(val + 0, T(200)), val); BOOST_CHECK_GT(std::nextafter(val + 0, T(200) + 1), val); BOOST_CHECK_GT(std::nextafter(val, T(200) + 1), val); BOOST_CHECK_GT(std::nexttoward(val, T(200)), val); BOOST_CHECK_GT(std::nexttoward(val + 0, T(200)), val); BOOST_CHECK_GT(std::nexttoward(val + 0, T(200) + 1), val); BOOST_CHECK_GT(std::nexttoward(val, T(200) + 1), val); val = 21; s = 5; BOOST_CHECK_EQUAL(T(std::remainder(val, s)), 1); BOOST_CHECK_EQUAL(T(std::remainder(val, 5)), 1); BOOST_CHECK_EQUAL(T(std::remainder(21, s)), 1); BOOST_CHECK_EQUAL(T(std::remainder(val * 1, s)), 1); BOOST_CHECK_EQUAL(T(std::remainder(val * 1, s * 1)), 1); BOOST_CHECK_EQUAL(T(std::remainder(val, s * 1)), 1); BOOST_CHECK_EQUAL(T(std::remainder(val * 1, 5)), 1); BOOST_CHECK_EQUAL(T(std::remainder(21, s * 1)), 1); int i(0); BOOST_CHECK_EQUAL(T(std::remquo(val, s, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(val, 5, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(21, s, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(val * 1, s, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(val * 1, s * 1, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(val, s * 1, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(val * 1, 5, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; BOOST_CHECK_EQUAL(T(std::remquo(21, s * 1, &i)), 1); BOOST_CHECK_EQUAL(i, 4); i = 0; val = 5.25; tol = 3000; BOOST_CHECK_CLOSE_FRACTION(std::tgamma(val), T(35.211611852799685705225257690531248115026311138908448314086859575901217653313145619623624570033258659272301335544Q), tol); BOOST_CHECK_CLOSE_FRACTION(std::tgamma(val + 1), T(184.86096222719834995243260287528905260388813347926935364895601277348139267989401450302402899267460796117958201160Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::exp2(val)), T(38.054627680087074134959999057935229289375106958842157216608071191022933383261349115865003025220405558913196632792Q), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::exp2(val + 1)), T(76.109255360174148269919998115870458578750213917684314433216142382045866766522698231730006050440811117826393265585Q), tol); val = 15; BOOST_CHECK_CLOSE_FRACTION(T(std::exp2(val)), T(32768uL), tol); BOOST_CHECK_CLOSE_FRACTION(T(std::exp2(val + 1)), T(65536uL), tol); i = std::fpclassify(val) + std::isgreaterequal(val, s) + std::islessequal(val, s) + std::isnan(val) + std::isunordered(val, s) + std::isfinite(val) + std::isinf(val) + std::islessgreater(val, s) + std::isnormal(val) + std::signbit(val) + std::isgreater(val, s) + std::isless(val, s); } #endif int zero; int minus_one; #if defined(BOOST_FLOATMAX_C) BOOST_CONSTEXPR_OR_CONST int has_floatmax_t = 1; #else BOOST_CONSTEXPR_OR_CONST int has_floatmax_t = 0; #endif #if defined(BOOST_FLOAT16_C) TEST_CSTDFLOAT_SANITY_CHECK(16) #endif #if defined(BOOST_FLOAT32_C) TEST_CSTDFLOAT_SANITY_CHECK(32) #endif #if defined(BOOST_FLOAT64_C) TEST_CSTDFLOAT_SANITY_CHECK(64) #endif #if defined(BOOST_FLOAT80_C) TEST_CSTDFLOAT_SANITY_CHECK(80) #endif #if defined(BOOST_FLOAT128_C) TEST_CSTDFLOAT_SANITY_CHECK(128) void extend_check_128_func() { test(); } #endif // defined (BOOST_FLOAT128_C) } BOOST_AUTO_TEST_CASE(test_main) { test_cstdfloat::zero = 0; test_cstdfloat::minus_one = -1; // Perform basic sanity checks that verify both the existence of the proper // floating-point literal macros as well as the correct digit handling // for a given floating-point typedef having specified width. BOOST_CHECK_EQUAL(test_cstdfloat::has_floatmax_t, 1); #if defined(BOOST_FLOAT16_C) test_cstdfloat::sanity_check_16_func(); #endif #if defined(BOOST_FLOAT32_C) test_cstdfloat::sanity_check_32_func(); #endif #if defined(BOOST_FLOAT64_C) test_cstdfloat::sanity_check_64_func(); #endif #if defined(BOOST_FLOAT80_C) test_cstdfloat::sanity_check_80_func(); #endif #if defined(BOOST_FLOAT128_C) test_cstdfloat::sanity_check_128_func(); // Perform an extended check of boost::float128_t including // a variety of functions from the C++ standard library. test_cstdfloat::extend_check_128_func(); #endif // defined (BOOST_FLOAT128_C) }