int keyspace_client_test() { //TEST_CALL(keyspace_client_basic_test()); TEST_CALL(test_invalid_result()); TEST_CALL(test_init()); TEST_CALL(test_invalid_init_memleak()); TEST_CALL(test_badconnect()); return TEST_SUCCESS; }
void test_plus_float_4() { // matrix Array<float> m1( sizeLarge, sizeLarge ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m1(i,j) = -1.0; } Array<float> m2( sizeLarge, sizeLarge ); for (int i = 0; i < m2.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m2.GetDescriptor().GetDim( 1 ); j++) m2(i,j) = 1.0; } Array<float> m3( sizeLarge, sizeLarge ); for (int i = 0; i < m3.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m3.GetDescriptor().GetDim( 1 ); j++) m3(i,j) = 5.0; } Array<float> m4( sizeLarge, sizeLarge ); m3 = m1 + m2; TEST_CALL( m3, m4, BOOST_CURRENT_FUNCTION ); }
void test_plus_complex_5() { // matrix Array<Complex> m1( sizeLarge, sizeLarge ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m1(i,j) = Complex(-1,-1); } Array<Complex> m2( sizeLarge, sizeLarge ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m2(i,j) = Complex(1,1); } Array<Complex> m3( sizeLarge, sizeLarge ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m3(i,j) = Complex(5,5); } Array<Complex> m4( sizeLarge, sizeLarge ); m3 = m1 + m2; TEST_CALL( m3, m4, BOOST_CURRENT_FUNCTION ); }
void test_plus_complex_3() { Array<Complex> m1( sizeSmall, sizeSmall ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m1(i,j) = Complex(-1,-1); } std::complex <double> a = 1; Array<Complex> m2( sizeSmall, sizeSmall ); for (int i = 0; i < m2.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m2.GetDescriptor().GetDim( 1 ); j++) m2(i,j) = Complex(1,1); } Array<Complex> m3( sizeSmall, sizeSmall ); for (int i = 0; i < m3.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m3.GetDescriptor().GetDim( 1 ); j++) m3(i,j) = Complex(5,5); } Array<Complex> m4( sizeSmall, sizeSmall ); m3 = m1 + m2; TEST_CALL( m3, m4, BOOST_CURRENT_FUNCTION ); }
void test_determinant_complex_5x5_1() { Array<Complex> m( 5, 5 ); m(0,0) = Complex( 7.20062084171543270000e-01, 1.34233246597730590000e+00); m(0,1) = Complex( 8.60555690148311130000e-01, 3.92421335311681220000e-02); m(0,2) = Complex( 2.18668479048691470000e-01, 1.72773644586722130000e+00); m(0,3) = Complex( 4.57375168040441650000e-01, 2.86312044167152280000e-01); m(0,4) = Complex( 1.33808518016311080000e+00, 1.83364254050747610000e+00); m(1,0) = Complex( 9.08424743706797160000e-01, 1.19917109624562770000e+00); m(1,1) = Complex( 1.38750514826782690000e+00, 8.70351091393903650000e-01); m(1,2) = Complex( 7.79861314312970010000e-01, 1.95395836322886260000e-01); m(1,3) = Complex( 1.66837812211379900000e+00, 1.11874114480600780000e+00); m(1,4) = Complex( 1.00042264856220480000e+00, 1.97393654956731620000e+00); m(2,0) = Complex( 7.72779797184344640000e-01, 1.11952314775580990000e-01); m(2,1) = Complex( 1.89042697433692060000e+00, 1.66444295056563530000e+00); m(2,2) = Complex( 1.18180946081067280000e+00, 1.81610440637353830000e+00); m(2,3) = Complex( 3.12893853930540370000e-02, 9.15924789464694910000e-03); m(2,4) = Complex( 4.35987597500307130000e-01, 1.01026620359764510000e+00); m(3,0) = Complex( 1.55110928450107100000e+00, 1.12686037086713540000e-01); m(3,1) = Complex( 1.56846519646348170000e+00, 1.23478034290816850000e+00); m(3,2) = Complex( 9.18760095932650730000e-01, 2.16033388273517920000e-01); m(3,3) = Complex( 1.72742173011173140000e+00, 1.53336399724297490000e+00); m(3,4) = Complex( 1.14323145080817820000e+00, 5.42843248835030100000e-01); m(4,0) = Complex( 1.46854221137187870000e+00, 3.05001274004940590000e-01); m(4,1) = Complex( 1.41114371626213760000e+00, 1.04025883062148390000e+00); m(4,2) = Complex( 1.00679973477908250000e-01, 1.03399351619388980000e+00); m(4,3) = Complex( 1.56138106064868550000e-01, 1.69741845291656480000e+00); m(4,4) = Complex( 2.44378301846839510000e-01, 2.01501023842471260000e-01); Complex control = Complex( -1.00028861738829940000e+01, 9.93608334223188020000e+00); TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_plus_double_5() { // matrix Array<double> m1( sizeLarge, sizeLarge ); for (double i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (double j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m1(i,j) = -1; } Array<double> m2( sizeLarge, sizeLarge ); for (double i = 0; i < m2.GetDescriptor().GetDim( 0 ); i++) { for (double j = 0; j < m2.GetDescriptor().GetDim( 1 ); j++) m2(i,j) = 1; } Array<double> m3( sizeLarge, sizeLarge ); for (double i = 0; i < m3.GetDescriptor().GetDim( 0 ); i++) { for (double j = 0; j < m3.GetDescriptor().GetDim( 1 ); j++) m3(i,j) = 5; } Array<double> m4( sizeLarge, sizeLarge ); m3 = m1 + m2; TEST_CALL( m3, m4, BOOST_CURRENT_FUNCTION ); }
void test_plus_double_3() { Array<double> m1( sizeSmall, sizeSmall ); for (int i = 0; i < m1.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m1.GetDescriptor().GetDim( 1 ); j++) m1(i,j) = -1.0; } Array<double> m2( sizeSmall, sizeSmall ); for (int i = 0; i < m2.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m2.GetDescriptor().GetDim( 1 ); j++) m2(i,j) = 1.0; } Array<double> m3( sizeSmall, sizeSmall ); for (int i = 0; i < m3.GetDescriptor().GetDim( 0 ); i++) { for (int j = 0; j < m3.GetDescriptor().GetDim( 1 ); j++) m3(i,j) = 5.0; } Array<double> m4( sizeSmall, sizeSmall ); m3 = m1 + m2; TEST_CALL( m3, m4, BOOST_CURRENT_FUNCTION ); }
void test_determinant_complex_4x4_1() { Array<Complex> m( 4, 4 ); m( 0, 0 ) = Complex( 1, 1 ); m( 0, 1 ) = Complex( 1, 0 ); m( 0, 2 ) = Complex( 0, 1 ); m( 0, 3 ) = Complex( 0, 1 ); m( 1, 0 ) = Complex( 2, 2 ); m( 1, 1 ) = Complex( 1, 0 ); m( 1, 2 ) = Complex( 2, -2 ); m( 1, 3 ) = Complex( 0, 1 ); m( 2, 0 ) = Complex( 3, 0 ); m( 2, 1 ) = Complex( 1, 0 ); m( 2, 2 ) = Complex( 0, 4 ); m( 2, 3 ) = Complex( 0, 1 ); m( 3, 0 ) = Complex( 3, 0 ); m( 3, 1 ) = Complex( 1, 1 ); m( 3, 2 ) = Complex( 0, 4 ); m( 3, 3 ) = Complex( 0, 2 ); Complex det = m.determinant(); Complex control = Complex( 15, -7); TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_float_20x20_1() { Array<float> data = read_file_matrix<float>( std::string("unit_tests_files//test_determinant_float_20x20_1//data.txt") ); float control = 9.974225382144941e+03; TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_float_100x100_1() { Array<float> data = read_file_matrix<float>( std::string("unit_tests_files//test_determinant_float_100x100_1//data.txt") ); float control = 2.094843919208893e+03; TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_complex_3x3_2() { Array<Complex> data = read_file_matrix<Complex>( std::string("unit_tests_files//test_determinant_complex_3x3_1//data.txt") ); Complex control = Complex( -2.465963761762253e-15, 7.725952660079466e-16 ); TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_double_100x100_1() { Array<double> data = read_file_matrix<double>( std::string("unit_tests_files//test_determinant_double_100x100_1//data.txt") ); double control = 3.899089460444517e+02; TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_complex_20x20_2() { Array<Complex> data = read_file_matrix<Complex>( std::string("unit_tests_files//test_determinant_complex_20x20_2//data.txt") ); Complex control = 0; TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_complex_100x100_1() { Array<Complex> data = read_file_matrix<Complex>( std::string("unit_tests_files//test_determinant_complex_100x100_1//data.txt") ); Complex control = Complex( -2.2809e-04, 2.5320e-04 ); TEST_CALL( abs(data.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_complex_1x1_1() { Array<Complex> m( 1, 1 ); m( 0, 0 ) = Complex( 1, 1 ); Complex control = Complex( 1, 1 ); TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_float_1x1_1() { Array<float> m( 1, 1 ); float control = 1; m( 0, 0 ) = 1; TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_double_1x1_2() { Array<double> m( 1, 1 ); m( 0, 0 ) = 0; double control = 0; TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_double_2x2_1() { Array<double> m( 2, 2 ); m( 0, 0 ) = 1; m( 0, 1 ) = 0; m( 1, 0 ) = 0; m( 1, 1 ) = 1; double control = 1; TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_determinant_float_2x2_3() { Array<float> m( 2, 2 ); m( 0, 0 ) = 1; m( 0, 1 ) = 2; m( 1, 0 ) = 3; m( 1, 1 ) = 4; float control = 2; TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_complex_2x2_2() { Array<Complex> m( 2, 2 ); m( 0, 0 ) = Complex( 1, 1 ); m( 0, 1 ) = Complex( 1, 0 ); m( 1, 0 ) = Complex( 2, 2 ); m( 1, 1 ) = Complex( 2, 0 ); Complex det = m.determinant(); Complex control = Complex( 0, 0); TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_float_3x3_2() { Array<float> m( 3, 3 ); m( 0, 0 ) = 1; m( 0, 1 ) = 1; m( 0, 2 ) = 1; m( 1, 0 ) = 1; m( 1, 1 ) = 1; m( 1, 2 ) = 1; m( 2, 0 ) = 1; m( 2, 1 ) = 1; m( 2, 2 ) = 1; float control = 0; TEST_CALL( abs(m.determinant()), abs(control), BOOST_CURRENT_FUNCTION ); }
void test_plus_double_2() { // large vector Array<double> v1( sizeLarge ); for (int i = 0; i < v1.GetDescriptor().GetDim( 0 ); i++) v1(i) = -1; Array<double> v2( sizeLarge ); for (int i = 0; i < v2.GetDescriptor().GetDim( 0 ); i++) v2(i) = 1; Array<double> v3( sizeLarge ); for (int i = 0; i < v3.GetDescriptor().GetDim( 0 ); i++) v3(i) = 5; Array<double> v4( sizeLarge ); v3 = v1 + v2; TEST_CALL( v3, v4, BOOST_CURRENT_FUNCTION ); }
void test_plus_complex_2() { // large vector Array<Complex> v1( sizeLarge ); for (int i = 0; i < v1.GetDescriptor().GetDim( 0 ); i++) v1(i) = Complex(-1,-1); Array<Complex> v2( sizeLarge ); for (int i = 0; i < v2.GetDescriptor().GetDim( 0 ); i++) v2(i) = Complex(1,1); Array<Complex> v3( sizeLarge ); for (int i = 0; i < v3.GetDescriptor().GetDim( 0 ); i++) v3(i) = Complex(5,5); Array<Complex> v4( sizeLarge ); v3 = v1 + v2; TEST_CALL( v3, v4, BOOST_CURRENT_FUNCTION ); }
void test_plus_float_1() { // small vector Array<float> v1( sizeSmall ); for (int i = 0; i < v1.GetDescriptor().GetDim( 0 ); i++) v1(i) = -1; Array<float> v2( sizeSmall ); for (int i = 0; i < v2.GetDescriptor().GetDim( 0 ); i++) v2(i) = 1; Array<float> v3( sizeSmall ); for (int i = 0; i < v3.GetDescriptor().GetDim( 0 ); i++) v3(i) = 5; Array<float> v4( sizeSmall ); v3 = v1 + v2; TEST_CALL( v3, v4, BOOST_CURRENT_FUNCTION ); }
// m.det() = 0 void test_determinant_complex_4x4_2() { Array<Complex> m( 4, 4 ); m( 0, 0 ) = Complex( 1, 1 ); m( 0, 1 ) = Complex( 1, 0 ); m( 0, 2 ) = Complex( 0, 1 ); m( 0, 3 ) = Complex( 0, 1 ); m( 1, 0 ) = Complex( 2, 2 ); m( 1, 1 ) = Complex( 1, 0 ); m( 1, 2 ) = Complex( 2, -2 ); m( 1, 3 ) = Complex( 0, 1 ); m( 2, 0 ) = Complex( 3, 0 ); m( 2, 1 ) = Complex( 1, 0 ); m( 2, 2 ) = Complex( 0, 4 ); m( 2, 3 ) = Complex( 0, 1 ); m( 3, 0 ) = Complex( 3, 0 ); m( 3, 1 ) = Complex( 1, 0 ); m( 3, 2 ) = Complex( 0, 4 ); m( 3, 3 ) = Complex( 0, 1 ); TEST_CALL( m.determinant(), Complex( 0, 0), BOOST_CURRENT_FUNCTION ); }
// any operation before init must fall static int test_init() { keyspace_client_t kc; keyspace_result_t kr; int status; kc = keyspace_client_create(); status = keyspace_client_submit(kc); if (status == KEYSPACE_SUCCESS) return TEST_FAILURE; status = keyspace_client_begin(kc); if (status == KEYSPACE_SUCCESS) return TEST_FAILURE; status = keyspace_client_cancel(kc); if (status == KEYSPACE_SUCCESS) return TEST_FAILURE; kr = keyspace_client_result(kc); if (kr != KEYSPACE_INVALID_RESULT) return TEST_FAILURE; TEST_CALL(test_init_with_commands(kc)); // test init with invalid arguments status = keyspace_client_init(kc, 0, NULL); if (status == KEYSPACE_SUCCESS) return TEST_FAILURE; status = keyspace_client_init(kc, sizeof(NODES) / sizeof(*NODES), NODES); if (status != KEYSPACE_SUCCESS) return TEST_FAILURE; keyspace_client_destroy(kc); return TEST_SUCCESS; }
void test_plus_complex_1() { // small vector Array<Complex> v1( sizeSmall ); for (int i = 0; i < v1.GetDescriptor().GetDim( 0 ); i++) v1(i) = Complex(-1,-1); Array<Complex> v2( sizeSmall ); for (int i = 0; i < v2.GetDescriptor().GetDim( 0 ); i++) v2(i) = Complex(-1,-1); Array<Complex> v3( sizeSmall ); for (int i = 0; i < v3.GetDescriptor().GetDim( 0 ); i++) v3(i) = Complex(5,5); Array<Complex> v4( sizeSmall ); for (int i = 0; i < v4.GetDescriptor().GetDim( 0 ); i++) v4(i) = Complex(-2,-2); v3 = v1 + v2; TEST_CALL( v3, v4, BOOST_CURRENT_FUNCTION ); }
void TEST_ROUTE(){ TEST_CALL("foobar", testFoobar); }
void TEST_ROUTE(){ route_add("ping", method_ping); route_add("sum", method_sum); route_add("unkown_error", method_unknown_error); route_add("error_msg", method_error_msg); // check all possible error TEST_CALL("invalid json", testInvalidJSON); TEST_CALL("invalid request not object/array", testInvalidRequest); TEST_CALL("invalid request (id)", testInvalidRequestId); TEST_CALL("invalid request (method, version)", testInvalidRequestElse); TEST_CALL("not insert params", testInvalidParams); TEST_CALL("not found", testNotFound); TEST_CALL("unknown error", testUnknownError); TEST_CALL("error message", testErrorMessage); // ping TEST_CALL("test ping", testPing); // sum TEST_CALL("test sum", testSum); // batch TEST_CALL("test batch request", testBatch); TEST_CALL("test batch invalid one", testBatchInvalidOne); }
int main() { // Create URL rusturl_ptr url = rusturl_new("http://example.com/path/some/file.txt", strlen("http://example.com/path/some/file.txt")); assert(url); // Check we have a URL StringContainer container; TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://example.com/path/some/file.txt"); TEST_CALL(rusturl_set_host(url, "test.com", strlen("test.com")), 0); TEST_CALL(rusturl_get_host(url, &container), 0); container.CheckEquals("test.com"); TEST_CALL(rusturl_get_path(url, &container), 0); container.CheckEquals("/path/some/file.txt"); TEST_CALL(rusturl_set_path(url, "hello/../else.txt", strlen("hello/../else.txt")), 0); TEST_CALL(rusturl_get_path(url, &container), 0); container.CheckEquals("/else.txt"); TEST_CALL(rusturl_resolve(url, "./bla/file.txt", strlen("./bla/file.txt"), &container), 0); container.CheckEquals("http://test.com/bla/file.txt"); TEST_CALL(rusturl_get_scheme(url, &container), 0); container.CheckEquals("http"); TEST_CALL(rusturl_set_username(url, "user", strlen("user")), 0); TEST_CALL(rusturl_get_username(url, &container), 0); container.CheckEquals("user"); TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://[email protected]/else.txt"); TEST_CALL(rusturl_set_password(url, "pass", strlen("pass")), 0); TEST_CALL(rusturl_get_password(url, &container), 0); container.CheckEquals("pass"); TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://*****:*****@test.com/else.txt"); TEST_CALL(rusturl_set_username(url, "", strlen("")), 0); TEST_CALL(rusturl_set_password(url, "", strlen("")), 0); TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://test.com/else.txt"); TEST_CALL(rusturl_set_host_and_port(url, "example.org:1234", strlen("example.org:1234")), 0); TEST_CALL(rusturl_get_host(url, &container), 0); container.CheckEquals("example.org"); assert(rusturl_get_port(url) == 1234); TEST_CALL(rusturl_set_port(url, "9090", strlen("9090")), 0); assert(rusturl_get_port(url) == 9090); TEST_CALL(rusturl_set_query(url, "x=1", strlen("x=1")), 0); TEST_CALL(rusturl_get_query(url, &container), 0); container.CheckEquals("x=1"); TEST_CALL(rusturl_set_fragment(url, "fragment", strlen("fragment")), 0); TEST_CALL(rusturl_get_fragment(url, &container), 0); container.CheckEquals("fragment"); TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://example.org:9090/else.txt?x=1#fragment"); // Free the URL rusturl_free(url); url = rusturl_new("http://example.com/#", strlen("http://example.com/#")); assert(url); // Check we have a URL assert(rusturl_has_fragment(url) == 1); TEST_CALL(rusturl_set_fragment(url, "", 0), 0); assert(rusturl_has_fragment(url) == 0); TEST_CALL(rusturl_get_spec(url, &container), 0); container.CheckEquals("http://example.com/"); rusturl_free(url); printf("SUCCESS\n"); return 0; }