// Copyright (c) 2012 Robert Ramey // // 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 #include #include #include "../include/safe_integer.hpp" #include "../include/automatic.hpp" template using safe_t = boost::numeric::safe< T, boost::numeric::automatic >; template bool test_add( T1 v1, T2 v2, const char *av1, const char *av2, char expected_result ){ { std::cout << "testing safe<" << av1 << "> + " << av2 << " -> "; static_assert(boost::numeric::is_safe >::value, "safe_t not safe!"); safe_t t1 = v1; using result_type = decltype(t1 + v2); result_type result; static_assert( boost::numeric::is_safe::value, "Expression failed to return safe type" ); try{ result = t1 + v2; std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == 'x'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** failed to detect error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ t1 + v2; } catch(std::exception){} return false; } } catch(std::exception){ std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == '.'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** erroneously detected error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ t1 + v2; } catch(std::exception){} return false; } } } { std::cout << "testing " << av1 << " + " << "safe<"<< av2 << "> -> "; static_assert(boost::numeric::is_safe >::value, "safe_t not safe!"); safe_t t2 = v2; using result_type = decltype(v1 + t2); result_type result; static_assert( boost::numeric::is_safe::value, "Expression failed to return safe type" ); try{ result = v1 + t2; std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == 'x'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** failed to detect error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ v1 + t2; } catch(std::exception){} return false; } } catch(std::exception){ std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == '.'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** erroneously detected error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ v1 + t2; } catch(std::exception){} return false; } } } { std::cout << "testing safe<" << av1 << "> + safe<" << av2 << "> -> "; safe_t t1 = v1; safe_t t2 = v2; using result_type = decltype(t1 + v2); result_type result; static_assert( boost::numeric::is_safe::value, "Expression failed to return safe type" ); try{ result = t1 + t2; std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == 'x'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** failed to detect error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ t1 +t2; } catch(std::exception){} return false; } } catch(std::exception){ std::cout << std::hex << result << "(" << std::dec << result << ")" << std::endl; if(expected_result == '.'){ const std::type_info & ti = typeid(result); int status; std::cout << "*** erroneously detected error in addition " << abi::__cxa_demangle(ti.name(),0,0,&status) << '\n' << std::endl; try{ t1 + t2; } catch(std::exception){} return false; } } } return true; // correct result } #include "test.hpp" #include "test_values.hpp" // note: same test matrix as used in test_checked. Here we test all combinations // safe and unsafe integers. in test_checked we test all combinations of // integer primitives const char *test_addition_result[VALUE_ARRAY_SIZE] = { // 0 0 0 0 // 01234567012345670123456701234567 // 01234567890123456789012345678901 /* 0*/ ".............x.................x", /* 1*/ ".............x.................x", /* 2*/ "..............x.............xxxx", /* 3*/ "..............x.............xxxx", /* 4*/ ".............x.................x", /* 5*/ ".............x.................x", /* 6*/ "..............x.............xxxx", /* 7*/ "..............x.............xxxx", /* 8*/ ".............x.................x", /* 9*/ ".............x.................x", /*10*/ "..............x.............xxxx", /*11*/ "..............x.............xxxx", /*12*/ ".............x.................x", /*13*/ "xx..xx..xx..xx..xxxxxxxxxxxx...x", /*14*/ "..xx..xx..xx..xx............xxxx", /*15*/ "..............x.............xxxx", // 0 0 0 0 // 01234567012345670123456701234567 // 01234567890123456789012345678901 /*16*/ ".............x.................x", /*17*/ ".............x.................x", /*18*/ ".............x.................x", /*19*/ ".............x.................x", /*20*/ ".............x.................x", /*21*/ ".............x.................x", /*22*/ ".............x.................x", /*23*/ ".............x.................x", /*24*/ ".............x.................x", /*25*/ ".............x.................x", /*26*/ ".............x.................x", /*27*/ ".............x.................x", /*28*/ "..xx..xx..xx..xx...............x", /*29*/ "..xx..xx..xx..xx...............x", /*30*/ "..xx..xx..xx..xx..............xx", /*31*/ "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx" }; #define TEST_IMPL(v1, v2, result) \ rval &= test_add( \ v1, \ v2, \ BOOST_PP_STRINGIZE(v1), \ BOOST_PP_STRINGIZE(v2), \ result \ ); /**/ #define TESTX(value_index1, value_index2) \ (std::cout << value_index1 << ',' << value_index2 << std::endl); \ TEST_IMPL( \ BOOST_PP_ARRAY_ELEM(value_index1, VALUES), \ BOOST_PP_ARRAY_ELEM(value_index2, VALUES), \ test_addition_result[value_index1][value_index2] \ ) /**/ int main(int argc, char * argv[]){ // sanity check on test matrix - should be symetrical for(int i = 0; i < VALUE_ARRAY_SIZE; ++i) for(int j = i + 1; j < VALUE_ARRAY_SIZE; ++j) if(test_addition_result[i][j] != test_addition_result[j][i]){ std::cout << i << ',' << j << std::endl; return 1; } bool rval = true; TEST_EACH_VALUE_PAIR return ! rval ; }