/////////////////////////////////////////////////////////////// // 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 #ifdef _MSC_VER #define _SCL_SECURE_NO_WARNINGS #endif #include #include "test.hpp" template void check_result_type(const T&, const U&) { BOOST_CHECK(0); } void check_result_type(const boost::multiprecision::checked_int1024_t&, const boost::multiprecision::checked_int1024_t&) {} int main() { #ifndef BOOST_NO_EXCEPTIONS try { #endif typedef boost::multiprecision::checked_int1024_t big_type; typedef boost::multiprecision::checked_int512_t small_type; typedef boost::multiprecision::number, boost::multiprecision::et_off> little_type; big_type big_val = (big_type(1) << 1000) + 1; small_type small_val = 1; little_type little_val = 1; check_result_type(big_val, big_val + small_val); check_result_type(big_val, big_val - small_val); check_result_type(big_val, big_val * small_val); check_result_type(big_val, big_val / small_val); check_result_type(big_val, big_val | small_val); check_result_type(big_val, big_val & small_val); check_result_type(big_val, big_val ^ small_val); check_result_type(big_val, small_val + big_val); check_result_type(big_val, small_val - big_val); check_result_type(big_val, small_val * big_val); check_result_type(big_val, small_val / big_val); check_result_type(big_val, small_val | big_val); check_result_type(big_val, small_val & big_val); check_result_type(big_val, small_val ^ big_val); check_result_type(big_val, big_val + little_val); check_result_type(big_val, big_val - little_val); check_result_type(big_val, big_val * little_val); check_result_type(big_val, big_val / little_val); check_result_type(big_val, big_val | little_val); check_result_type(big_val, big_val & little_val); check_result_type(big_val, big_val ^ little_val); check_result_type(big_val, little_val + big_val); check_result_type(big_val, little_val - big_val); check_result_type(big_val, little_val * big_val); check_result_type(big_val, little_val / big_val); check_result_type(big_val, little_val | big_val); check_result_type(big_val, little_val & big_val); check_result_type(big_val, little_val ^ big_val); BOOST_CHECK_EQUAL(big_val == small_val, false); BOOST_CHECK_EQUAL(big_val <= small_val, false); BOOST_CHECK_EQUAL(big_val >= small_val, true); BOOST_CHECK_EQUAL(big_val < small_val, false); BOOST_CHECK_EQUAL(big_val > small_val, true); BOOST_CHECK_EQUAL(big_val != small_val, true); BOOST_CHECK_EQUAL(small_val == big_val, false); BOOST_CHECK_EQUAL(small_val <= big_val, true); BOOST_CHECK_EQUAL(small_val >= big_val, false); BOOST_CHECK_EQUAL(small_val < big_val, true); BOOST_CHECK_EQUAL(small_val > big_val, false); BOOST_CHECK_EQUAL(small_val != big_val, true); BOOST_CHECK_EQUAL(big_val == little_val, false); BOOST_CHECK_EQUAL(big_val <= little_val, false); BOOST_CHECK_EQUAL(big_val >= little_val, true); BOOST_CHECK_EQUAL(big_val < little_val, false); BOOST_CHECK_EQUAL(big_val > little_val, true); BOOST_CHECK_EQUAL(big_val != little_val, true); BOOST_CHECK_EQUAL(little_val == big_val, false); BOOST_CHECK_EQUAL(little_val <= big_val, true); BOOST_CHECK_EQUAL(little_val >= big_val, false); BOOST_CHECK_EQUAL(little_val < big_val, true); BOOST_CHECK_EQUAL(little_val > big_val, false); BOOST_CHECK_EQUAL(little_val != big_val, true); #ifndef BOOST_NO_EXCEPTIONS } catch (const std::exception& e) { std::cout << "Failed with unexpected exception: " << e.what() << std::endl; return 1; } #endif return boost::report_errors(); }