#ifndef SPROUT_LIBS_RANDOM_TEST_DISTRIBUTION_GENERIC_HPP #define SPROUT_LIBS_RANDOM_TEST_DISTRIBUTION_GENERIC_HPP #include #include #include #include #include namespace testspr { template void random_distribution_test_generic() { using namespace sprout; { SPROUT_STATIC_CONSTEXPR auto parm = typename Distribution::param_type(); SPROUT_STATIC_CONSTEXPR auto dist1 = Distribution(parm); SPROUT_STATIC_CONSTEXPR auto dist2 = Distribution(parm); // min // max TESTSPR_DOUBLE_ASSERT(dist1.min() <= dist1.max()); // param TESTSPR_DOUBLE_ASSERT(parm == dist1.param()); { auto dist_temp = Distribution(); dist_temp.param(parm); TESTSPR_ASSERT(dist_temp == dist1); } // operator== // operator!= TESTSPR_DOUBLE_ASSERT(dist1 == dist2); TESTSPR_DOUBLE_ASSERT(!(dist1 != dist2)); { std::string s; // operator<< { std::ostringstream os; os << dist1; TESTSPR_ASSERT(os); s = os.str(); } auto dist_temp = Distribution(); // operator>> { std::istringstream is(s); is >> dist_temp; TESTSPR_ASSERT(is); } TESTSPR_ASSERT(dist_temp == dist1); } // operator() { SPROUT_STATIC_CONSTEXPR auto eng = Engine(SPROUT_UNIQUE_SEED); { SPROUT_STATIC_CONSTEXPR auto rnd = dist1(eng); // result TESTSPR_DOUBLE_ASSERT(dist1.min() <= rnd.result()); TESTSPR_DOUBLE_ASSERT(rnd.result() <= dist1.max()); // engine TESTSPR_DOUBLE_ASSERT(rnd.engine().min() <= rnd.engine().max()); // distribution TESTSPR_DOUBLE_ASSERT(rnd.distribution().min() <= rnd.distribution().max()); } } } } } // namespace testspr #endif // #ifndef SPROUT_LIBS_RANDOM_TEST_DISTRIBUTION_GENERIC_HPP