//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // <complex> // template<class T> // complex<T> // operator*(const complex<T>& lhs, const complex<T>& rhs); #include <complex> #include <cassert> #include "../cases.h" template <class T> void test(const std::complex<T>& lhs, const std::complex<T>& rhs, std::complex<T> x) { assert(lhs * rhs == x); } template <class T> void test() { std::complex<T> lhs(1.5, 2.5); std::complex<T> rhs(1.5, 2.5); std::complex<T> x(-4.0, 7.5); test(lhs, rhs, x); } // test edges void test_edges() { const unsigned N = sizeof(testcases) / sizeof(testcases[0]); for (unsigned i = 0; i < N; ++i) { for (unsigned j = 0; j < N; ++j) { std::complex<double> r = testcases[i] * testcases[j]; switch (classify(testcases[i])) { case zero: switch (classify(testcases[j])) { case zero: assert(classify(r) == zero); break; case non_zero: assert(classify(r) == zero); break; case inf: assert(classify(r) == NaN); break; case NaN: assert(classify(r) == NaN); break; case non_zero_nan: assert(classify(r) == NaN); break; } break; case non_zero: switch (classify(testcases[j])) { case zero: assert(classify(r) == zero); break; case non_zero: assert(classify(r) == non_zero); break; case inf: assert(classify(r) == inf); break; case NaN: assert(classify(r) == NaN); break; case non_zero_nan: assert(classify(r) == NaN); break; } break; case inf: switch (classify(testcases[j])) { case zero: assert(classify(r) == NaN); break; case non_zero: assert(classify(r) == inf); break; case inf: assert(classify(r) == inf); break; case NaN: assert(classify(r) == NaN); break; case non_zero_nan: assert(classify(r) == inf); break; } break; case NaN: switch (classify(testcases[j])) { case zero: assert(classify(r) == NaN); break; case non_zero: assert(classify(r) == NaN); break; case inf: assert(classify(r) == NaN); break; case NaN: assert(classify(r) == NaN); break; case non_zero_nan: assert(classify(r) == NaN); break; } break; case non_zero_nan: switch (classify(testcases[j])) { case zero: assert(classify(r) == NaN); break; case non_zero: assert(classify(r) == NaN); break; case inf: assert(classify(r) == inf); break; case NaN: assert(classify(r) == NaN); break; case non_zero_nan: assert(classify(r) == NaN); break; } break; } } } } int main() { test<float>(); test<double>(); test<long double>(); test_edges(); }