// Boost.Polygon library voronoi_robust_fpt_test.cpp file // Copyright Andrii Sydorchuk 2010-2012. // 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) // See http://www.boost.org for updates, documentation, and revision history. #include #include #include #include #include #include #include using boost::polygon::detail::int32; using boost::polygon::detail::uint32; using boost::polygon::detail::int64; using boost::polygon::detail::fpt64; using boost::polygon::detail::efpt64; using boost::polygon::detail::extended_int; using boost::polygon::detail::extended_exponent_fpt; using boost::polygon::detail::robust_fpt; using boost::polygon::detail::robust_dif; using boost::polygon::detail::robust_sqrt_expr; using boost::polygon::detail::type_converter_fpt; using boost::polygon::detail::type_converter_efpt; using boost::polygon::detail::ulp_comparison; typedef robust_fpt rfpt_type; typedef type_converter_fpt to_fpt_type; typedef type_converter_efpt to_efpt_type; type_converter_fpt to_fpt; void robust_fpt_constructors_test1() { rfpt_type a = rfpt_type(); BOOST_TEST_EQ(a.fpv(), 0.0); BOOST_TEST_EQ(a.re(), 0.0); BOOST_TEST_EQ(a.ulp(), 0); } void robust_fpt_constructors_test2() { rfpt_type a(10.0, 1.0); BOOST_TEST_EQ(a.fpv(), 10.0); BOOST_TEST_EQ(a.re(), 1.0); BOOST_TEST_EQ(a.ulp(), 1.0); } void robust_fpt_constructors_test3() { rfpt_type a(10.0); BOOST_TEST_EQ(a.fpv(), 10.0); BOOST_TEST_EQ(a.re(), 0.0); BOOST_TEST_EQ(a.ulp(), 0.0); } void robust_fpt_constructors_test4() { rfpt_type a(10.0, 3.0); BOOST_TEST_EQ(a.fpv(), 10.0); BOOST_TEST_EQ(a.re(), 3.0); BOOST_TEST_EQ(a.ulp(), 3.0); rfpt_type b(10.0, 2.75); BOOST_TEST_EQ(b.fpv(), 10.0); BOOST_TEST_EQ(b.re(), 2.75); BOOST_TEST_EQ(b.ulp(), 2.75); } void robust_fpt_sum_test1() { rfpt_type a(2.0, 5.0); rfpt_type b(3.0, 4.0); rfpt_type c = a + b; BOOST_TEST_EQ(c.fpv(), 5.0); BOOST_TEST_EQ(c.re(), 6.0); BOOST_TEST_EQ(c.ulp(), 6.0); c += b; BOOST_TEST_EQ(c.fpv(), 8.0); BOOST_TEST_EQ(c.re(), 7.0); BOOST_TEST_EQ(c.ulp(), 7.0); } void robust_fpt_sum_test2() { rfpt_type a(3.0, 2.0); rfpt_type b(-2.0, 3.0); rfpt_type c = a + b; BOOST_TEST_EQ(c.fpv(), 1.0); BOOST_TEST_EQ(c.re(), 13.0); BOOST_TEST_EQ(c.ulp(), 13.0); c += b; BOOST_TEST_EQ(c.fpv(), -1.0); BOOST_TEST_EQ(c.re(), 20.0); BOOST_TEST_EQ(c.ulp(), 20.0); } void robust_fpt_dif_test1() { rfpt_type a(2.0, 5.0); rfpt_type b(-3.0, 4.0); rfpt_type c = a - b; BOOST_TEST_EQ(c.fpv(), 5.0); BOOST_TEST_EQ(c.re(), 6.0); BOOST_TEST_EQ(c.ulp(), 6.0); c -= b; BOOST_TEST_EQ(c.fpv(), 8.0); BOOST_TEST_EQ(c.re(), 7.0); BOOST_TEST_EQ(c.ulp(), 7.0); } void robust_fpt_dif_test2() { rfpt_type a(3.0, 2.0); rfpt_type b(2.0, 3.0); rfpt_type c = a - b; BOOST_TEST_EQ(c.fpv(), 1.0); BOOST_TEST_EQ(c.re(), 13.0); BOOST_TEST_EQ(c.ulp(), 13.0); c -= b; BOOST_TEST_EQ(c.fpv(), -1.0); BOOST_TEST_EQ(c.re(), 20.0); BOOST_TEST_EQ(c.ulp(), 20.0); } void robust_fpt_mult_test3() { rfpt_type a(2.0, 3.0); rfpt_type b(4.0, 1.0); rfpt_type c = a * b; BOOST_TEST_EQ(c.fpv(), 8.0); BOOST_TEST_EQ(c.re(), 5.0); BOOST_TEST_EQ(c.ulp(), 5.0); c *= b; BOOST_TEST_EQ(c.fpv(), 32.0); BOOST_TEST_EQ(c.re(), 7.0); BOOST_TEST_EQ(c.ulp(), 7.0); } void robust_fpt_div_test1() { rfpt_type a(2.0, 3.0); rfpt_type b(4.0, 1.0); rfpt_type c = a / b; BOOST_TEST_EQ(c.fpv(), 0.5); BOOST_TEST_EQ(c.re(), 5.0); BOOST_TEST_EQ(c.ulp(), 5.0); c /= b; BOOST_TEST_EQ(c.fpv(), 0.125); BOOST_TEST_EQ(c.re(), 7.0); BOOST_TEST_EQ(c.ulp(), 7.0); } void robust_dif_constructors_test() { robust_dif rd1; BOOST_TEST_EQ(rd1.pos(), 0); BOOST_TEST_EQ(rd1.neg(), 0); BOOST_TEST_EQ(rd1.dif(), 0); robust_dif rd2(1); BOOST_TEST_EQ(rd2.pos(), 1); BOOST_TEST_EQ(rd2.neg(), 0); BOOST_TEST_EQ(rd2.dif(), 1); robust_dif rd3(-1); BOOST_TEST_EQ(rd3.pos(), 0); BOOST_TEST_EQ(rd3.neg(), 1); BOOST_TEST_EQ(rd3.dif(), -1); robust_dif rd4(1, 2); BOOST_TEST_EQ(rd4.pos(), 1); BOOST_TEST_EQ(rd4.neg(), 2); BOOST_TEST_EQ(rd4.dif(), -1); } void robust_dif_operators_test1() { robust_dif a(5, 2), b(1, 10); int dif_a = a.dif(); int dif_b = b.dif(); robust_dif sum = a + b; robust_dif dif = a - b; robust_dif mult = a * b; robust_dif umin = -a; BOOST_TEST_EQ(sum.dif(), dif_a + dif_b); BOOST_TEST_EQ(dif.dif(), dif_a - dif_b); BOOST_TEST_EQ(mult.dif(), dif_a * dif_b); BOOST_TEST_EQ(umin.dif(), -dif_a); } void robust_dif_operators_test2() { robust_dif a(5, 2); for (int b = -3; b <= 3; b += 6) { int dif_a = a.dif(); int dif_b = b; robust_dif sum = a + b; robust_dif dif = a - b; robust_dif mult = a * b; robust_dif div = a / b; BOOST_TEST_EQ(sum.dif(), dif_a + dif_b); BOOST_TEST_EQ(dif.dif(), dif_a - dif_b); BOOST_TEST_EQ(mult.dif(), dif_a * dif_b); BOOST_TEST_EQ(div.dif(), dif_a / dif_b); } } void robust_dif_operators_test3() { robust_dif b(5, 2); for (int a = -3; a <= 3; a += 6) { int dif_a = a; int dif_b = b.dif(); robust_dif sum = a + b; robust_dif dif = a - b; robust_dif mult = a * b; BOOST_TEST_EQ(sum.dif(), dif_a + dif_b); BOOST_TEST_EQ(dif.dif(), dif_a - dif_b); BOOST_TEST_EQ(mult.dif(), dif_a * dif_b); } } void robust_dif_operators_test4() { std::vector< robust_dif > a4(4, robust_dif(5, 2)); std::vector< robust_dif > b4(4, robust_dif(1, 2)); std::vector< robust_dif > c4 = a4; c4[0] += b4[0]; c4[1] -= b4[1]; c4[2] *= b4[2]; BOOST_TEST_EQ(c4[0].dif(), a4[0].dif() + b4[0].dif()); BOOST_TEST_EQ(c4[1].dif(), a4[1].dif() - b4[1].dif()); BOOST_TEST_EQ(c4[2].dif(), a4[2].dif() * b4[2].dif()); a4[0] += b4[0].dif(); a4[1] -= b4[1].dif(); a4[2] *= b4[2].dif(); a4[3] /= b4[3].dif(); BOOST_TEST_EQ(c4[0].dif(), a4[0].dif()); BOOST_TEST_EQ(c4[1].dif(), a4[1].dif()); BOOST_TEST_EQ(c4[2].dif(), a4[2].dif()); BOOST_TEST_EQ(c4[3].dif() / b4[3].dif(), a4[3].dif()); } void robust_sqrt_expr_test1() { robust_sqrt_expr sqrt_expr; int32 A[1] = {10}; int32 B[1] = {100}; BOOST_TEST_EQ(sqrt_expr.eval1(A, B), 100.0); } void robust_sqrt_expr_test2() { robust_sqrt_expr sqrt_expr; int32 A[2] = {10, 30}; int32 B[2] = {400, 100}; BOOST_TEST_EQ(sqrt_expr.eval2(A, B), 500.0); } void robust_sqrt_expr_test3() { robust_sqrt_expr sqrt_expr; int32 A[2] = {10, -30}; int32 B[2] = {400, 100}; BOOST_TEST_EQ(sqrt_expr.eval2(A, B), -100.0); } void robust_sqrt_expr_test4() { robust_sqrt_expr sqrt_expr; int32 A[3] = {10, 30, 20}; int32 B[3] = {4, 1, 9}; BOOST_TEST_EQ(sqrt_expr.eval3(A, B), 110.0); } void robust_sqrt_expr_test5() { robust_sqrt_expr sqrt_expr; int32 A[3] = {10, 30, -20}; int32 B[3] = {4, 1, 9}; BOOST_TEST_EQ(sqrt_expr.eval3(A, B), -10.0); } void robust_sqrt_expr_test6() { robust_sqrt_expr sqrt_expr; int32 A[4] = {10, 30, 20, 5}; int32 B[4] = {4, 1, 9, 16}; BOOST_TEST_EQ(sqrt_expr.eval4(A, B), 130.0); } void robust_sqrt_expr_test7() { robust_sqrt_expr sqrt_expr; int32 A[4] = {10, 30, -20, -5}; int32 B[4] = {4, 1, 9, 16}; BOOST_TEST_EQ(sqrt_expr.eval4(A, B), -30.0); } void robust_sqrt_expr_test8() { typedef extended_int<16> eint512; robust_sqrt_expr sqrt_expr; int32 A[4] = {1000, 3000, -2000, -500}; int32 B[4] = {400, 100, 900, 1600}; eint512 AA[4], BB[4]; for (std::size_t i = 0; i < 4; ++i) { AA[i] = A[i]; BB[i] = B[i]; } BOOST_TEST_EQ(to_fpt(sqrt_expr.eval4(AA, BB)), -30000.0); } template class sqrt_expr_tester { public: static const std::size_t MX_SQRTS = 4; bool run() { static boost::mt19937 gen(static_cast(time(NULL))); bool ret_val = true; for (std::size_t i = 0; i < MX_SQRTS; ++i) { a[i] = gen() & 1048575; int64 temp = gen() & 1048575; b[i] = temp * temp; } uint32 mask = (1 << MX_SQRTS); for (std::size_t i = 0; i < mask; i++) { fpt64 expected_val = 0.0; for (std::size_t j = 0; j < MX_SQRTS; j++) { if (i & (1 << j)) { A[j] = a[j]; B[j] = b[j]; expected_val += static_cast(a[j]) * std::sqrt(static_cast(b[j])); } else { A[j] = -a[j]; B[j] = b[j]; expected_val -= static_cast(a[j]) * std::sqrt(static_cast(b[j])); } } fpt64 received_val = to_fpt(sqrt_expr_.eval4(A, B)); ret_val &= ulp_cmp(expected_val, received_val, 25) == ulp_comparison::EQUAL; } return ret_val; } private: robust_sqrt_expr<_int, _fpt, to_efpt_type> sqrt_expr_; ulp_comparison ulp_cmp; _int A[MX_SQRTS]; _int B[MX_SQRTS]; int64 a[MX_SQRTS]; int64 b[MX_SQRTS]; }; void mpz_sqrt_evaluator_test() { typedef extended_int<16> eint512; sqrt_expr_tester tester; for (int i = 0; i < 2000; ++i) BOOST_TEST(tester.run()); } int main() { robust_fpt_constructors_test1(); robust_fpt_constructors_test2(); robust_fpt_constructors_test3(); robust_fpt_constructors_test4(); robust_fpt_sum_test1(); robust_fpt_sum_test2(); robust_fpt_dif_test1(); robust_fpt_dif_test2(); robust_fpt_mult_test3(); robust_fpt_div_test1(); robust_dif_constructors_test(); robust_dif_operators_test1(); robust_dif_operators_test2(); robust_dif_operators_test3(); robust_dif_operators_test4(); robust_sqrt_expr_test1(); robust_sqrt_expr_test2(); robust_sqrt_expr_test3(); robust_sqrt_expr_test4(); robust_sqrt_expr_test5(); robust_sqrt_expr_test6(); robust_sqrt_expr_test7(); robust_sqrt_expr_test8(); mpz_sqrt_evaluator_test(); return boost::report_errors(); }