// Copyright 2005-2009 Daniel James. // Distributed under 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 "./config.hpp" #ifdef BOOST_HASH_TEST_STD_INCLUDES # include #else # include #endif #include #include #include #include #include #include #if defined(BOOST_MSVC) #pragma warning(push) #pragma warning(disable:4127) // conditional expression is constant #pragma warning(disable:4723) // conditional expression is constant #if BOOST_MSVC < 1400 #pragma warning(disable:4267) // conversion from 'size_t' to 'unsigned int', // possible loss of data #endif #endif #if defined(__GNUC__) && !defined(BOOST_INTEL_CXX_VERSION) #pragma GCC diagnostic ignored "-Wfloat-equal" #endif char const* float_type(float*) { return "float"; } char const* float_type(double*) { return "double"; } char const* float_type(long double*) { return "long double"; } template void float_tests(char const* name, T* = 0) { std::cerr << "\n" << "Testing " BOOST_STRINGIZE(BOOST_HASH_TEST_NAMESPACE) "::hash<" << name << ">\n" << "\n" << "boost::hash_detail::limits::digits = " << boost::hash_detail::limits::digits<< "\n" << "boost::hash_detail::limits::digits = " << boost::hash_detail::limits::digits<< "\n" << "boost::hash_detail::limits::digits = " << boost::hash_detail::limits::digits << "\n" << "\n" << "boost::hash_detail::call_ldexp::float_type = " << float_type(static_cast::float_type*>(0)) << "\n" << "boost::hash_detail::call_frexp::float_type = " << float_type(static_cast::float_type*>(0)) << "\n" << "boost::hash_detail::select_hash_type::type = " << float_type(static_cast::type*>(0)) << "\n" << "\n" ; BOOST_HASH_TEST_NAMESPACE::hash x1; T zero = 0; T minus_zero = (T) -1 * zero; BOOST_TEST(zero == minus_zero); BOOST_TEST(x1(zero) == x1(minus_zero)); #if defined(BOOST_HASH_TEST_EXTENSIONS) BOOST_TEST(x1(zero) == BOOST_HASH_TEST_NAMESPACE::hash_value(zero)); BOOST_TEST(x1(minus_zero) == BOOST_HASH_TEST_NAMESPACE::hash_value(minus_zero)); #endif BOOST_TEST(x1(zero) != x1(0.5)); BOOST_TEST(x1(minus_zero) != x1(0.5)); BOOST_TEST(x1(0.5) != x1(-0.5)); BOOST_TEST(x1(1) != x1(-1)); using namespace std; // Doing anything with infinity causes borland to crash. #if defined(__BORLANDC__) std::cerr << "Not running infinity checks on Borland, as it causes it to crash." "\n"; #else if(boost::hash_detail::limits::has_infinity) { T infinity = -log(zero); T infinity2 = (T) 1. / zero; T infinity3 = (T) -1. / minus_zero; T infinity4 = boost::hash_detail::limits::infinity(); T minus_infinity = log(zero); T minus_infinity2 = (T) -1. / zero; T minus_infinity3 = (T) 1. / minus_zero; #if defined(BOOST_HASH_TEST_EXTENSIONS) BOOST_TEST(x1(infinity) == BOOST_HASH_TEST_NAMESPACE::hash_value(infinity)); BOOST_TEST(x1(minus_infinity) == BOOST_HASH_TEST_NAMESPACE::hash_value(minus_infinity)); #endif if(infinity == infinity2) BOOST_TEST(x1(infinity) == x1(infinity2)); if(infinity == infinity3) BOOST_TEST(x1(infinity) == x1(infinity3)); if(infinity == infinity4) BOOST_TEST(x1(infinity) == x1(infinity4)); if(minus_infinity == minus_infinity2) BOOST_TEST(x1(minus_infinity) == x1(minus_infinity2)); if(minus_infinity == minus_infinity3) BOOST_TEST(x1(minus_infinity) == x1(minus_infinity3)); BOOST_TEST(infinity != minus_infinity); if(x1(infinity) == x1(minus_infinity)) { std::cerr<<"x1(infinity) == x1(-infinity) == "<::has_denorm) { if(x1(boost::hash_detail::limits::denorm_min()) == x1(infinity)) { std::cerr << "x1(denorm_min) == x1(infinity) == " << x1(infinity) << "\n"; } if(x1(boost::hash_detail::limits::denorm_min()) == x1(minus_infinity)) { std::cerr << "x1(denorm_min) == x1(-infinity) == " << x1(minus_infinity) << "\n"; } } if(boost::hash_detail::limits::has_quiet_NaN) { if(x1(boost::hash_detail::limits::quiet_NaN()) == x1(infinity)) { std::cerr << "x1(quiet_NaN) == x1(infinity) == " << x1(infinity) << "\n"; } if(x1(boost::hash_detail::limits::quiet_NaN()) == x1(minus_infinity)) { std::cerr << "x1(quiet_NaN) == x1(-infinity) == " << x1(minus_infinity) << "\n"; } } } #endif T max = (boost::hash_detail::limits::max)(); T half_max = max / 2; T quarter_max = max / 4; T three_quarter_max = max - quarter_max; // Check the limits::max is in range. BOOST_TEST(max != half_max); BOOST_TEST(max != quarter_max); BOOST_TEST(max != three_quarter_max); BOOST_TEST(half_max != quarter_max); BOOST_TEST(half_max != three_quarter_max); BOOST_TEST(quarter_max != three_quarter_max); BOOST_TEST(max != -max); BOOST_TEST(half_max != -half_max); BOOST_TEST(quarter_max != -quarter_max); BOOST_TEST(three_quarter_max != -three_quarter_max); #if defined(BOOST_HASH_TEST_EXTENSIONS) BOOST_TEST(x1(max) == BOOST_HASH_TEST_NAMESPACE::hash_value(max)); BOOST_TEST(x1(half_max) == BOOST_HASH_TEST_NAMESPACE::hash_value(half_max)); BOOST_TEST(x1(quarter_max) == BOOST_HASH_TEST_NAMESPACE::hash_value(quarter_max)); BOOST_TEST(x1(three_quarter_max) == BOOST_HASH_TEST_NAMESPACE::hash_value(three_quarter_max)); #endif // The '!=' tests could legitimately fail, but with my hash it indicates a // bug. BOOST_TEST(x1(max) == x1(max)); BOOST_TEST(x1(max) != x1(quarter_max)); BOOST_TEST(x1(max) != x1(half_max)); BOOST_TEST(x1(max) != x1(three_quarter_max)); BOOST_TEST(x1(quarter_max) == x1(quarter_max)); BOOST_TEST(x1(quarter_max) != x1(half_max)); BOOST_TEST(x1(quarter_max) != x1(three_quarter_max)); BOOST_TEST(x1(half_max) == x1(half_max)); BOOST_TEST(x1(half_max) != x1(three_quarter_max)); BOOST_TEST(x1(three_quarter_max) == x1(three_quarter_max)); BOOST_TEST(x1(max) != x1(-max)); BOOST_TEST(x1(half_max) != x1(-half_max)); BOOST_TEST(x1(quarter_max) != x1(-quarter_max)); BOOST_TEST(x1(three_quarter_max) != x1(-three_quarter_max)); // Intel with gcc stdlib sometimes segfaults on calls to asin and acos. #if !((defined(__INTEL_COMPILER) || defined(__ICL) || \ defined(__ICC) || defined(__ECC)) && \ (defined(__GLIBCPP__) || defined(__GLIBCXX__))) T v1 = asin((T) 1); T v2 = acos((T) 0); if(v1 == v2) BOOST_TEST(x1(v1) == x1(v2)); #if defined(BOOST_HASH_TEST_EXTENSIONS) BOOST_TEST(x1(v1) == BOOST_HASH_TEST_NAMESPACE::hash_value(v1)); BOOST_TEST(x1(v2) == BOOST_HASH_TEST_NAMESPACE::hash_value(v2)); #endif #endif #if defined(BOOST_HASH_TEST_EXTENSIONS) BOOST_TEST(x1(boost::hash_detail::limits::epsilon()) == BOOST_HASH_TEST_NAMESPACE::hash_value( boost::hash_detail::limits::epsilon())); #endif BOOST_TEST(boost::hash_detail::limits::epsilon() != (T) 0); if(x1(boost::hash_detail::limits::epsilon()) == x1((T) 0)) std::cerr<<"x1(epsilon) == x1(0) == "<::epsilon() != (T) 0); if(x1(-boost::hash_detail::limits::epsilon()) == x1((T) 0)) std::cerr<<"x1(-epsilon) == x1(0) == "<::epsilon() != (T) 1); if(x1((T) 1 + boost::hash_detail::limits::epsilon()) == x1((T) 1)) std::cerr<<"x1(1 + epsilon) == x1(1) == "<::epsilon() != (T) 1); if(x1((T) 1 - boost::hash_detail::limits::epsilon()) == x1((T) 1)) std::cerr<<"x1(1 - epsilon) == x1(1) == "<::epsilon() != (T) -1); if(x1((T) -1 + boost::hash_detail::limits::epsilon()) == x1((T) -1)) std::cerr<<"x1(-1 + epsilon) == x1(-1) == "<::epsilon() != (T) -1); if(x1((T) -1 - boost::hash_detail::limits::epsilon()) == x1((T) -1)) std::cerr<<"x1(-1 - epsilon) == x1(-1) == "<::has_denorm) { if(x1(boost::hash_detail::limits::denorm_min()) == x1(zero)) { std::cerr<<"x1(denorm_min) == x1(zero) == "<::denorm_min()) != BOOST_HASH_TEST_NAMESPACE::hash_value( boost::hash_detail::limits::denorm_min())) { std::cerr << "x1(boost::hash_detail::limits::denorm_min()) = " << x1(boost::hash_detail::limits::denorm_min()) << "\nhash_value(boost::hash_detail::limits::denorm_min())" " = " << BOOST_HASH_TEST_NAMESPACE::hash_value( boost::hash_detail::limits::denorm_min()) << "\nx1(0) = " << x1(0) << "\n"; } #endif } // NaN also causes borland to crash. #if !defined(__BORLANDC__) && defined(BOOST_HASH_TEST_EXTENSIONS) if(boost::hash_detail::limits::has_quiet_NaN) { if(x1(boost::hash_detail::limits::quiet_NaN()) == x1(1.0)) { std::cerr<<"x1(quiet_NaN) == x1(1.0) == "<::quiet_NaN()) == BOOST_HASH_TEST_NAMESPACE::hash_value( boost::hash_detail::limits::quiet_NaN())); } #endif } #if defined(BOOST_MSVC) #pragma warning(pop) #endif