static void test_dbd_generic(abts_case *tc, apr_dbd_t* handle, const apr_dbd_driver_t* driver) { void* native; apr_pool_t *pool = p; apr_status_t rv; native = apr_dbd_native_handle(driver, handle); ABTS_PTR_NOTNULL(tc, native); rv = apr_dbd_check_conn(driver, pool, handle); create_table(tc, handle, driver); select_rows(tc, handle, driver, 0); insert_data(tc, handle, driver, 5); select_rows(tc, handle, driver, 5); delete_rows(tc, handle, driver); select_rows(tc, handle, driver, 0); drop_table(tc, handle, driver); test_escape(tc, handle, driver); rv = apr_dbd_close(driver, handle); ABTS_ASSERT(tc, "failed to close database", rv == APR_SUCCESS); }
void interpret ( int argc, char* argv[] ) { init_with_options (argc, argv); //test_rec_write("test"); char token[30]; while (!feof(in_s)) { fscanf (in_s, "%s", token); put_msg (DEBUG, "current token is \"%s\".\n", token); if (strcmp(token, t_quit) == 0) { quit(); break;} if (token[0] == '#') { skip_line (); continue; } if (strcmp(token, t_help) == 0) { show_help_info (); continue; } if (strcmp(token, t_database) == 0) { set_database(); continue; } if (strcmp(token, t_show) == 0) { show_database(); continue; } if (strcmp(token, t_print) == 0) { print_str(); continue; } if (strcmp(token, t_create) == 0) { create_tbl(); continue; } if (strcmp(token, t_drop) == 0) { drop_tbl(); continue; } if (strcmp(token, t_insert) == 0) { insert_row(); continue; } if (strcmp(token, t_select) == 0) { select_rows(); continue; } syntax_error (token); } }
int main(int argc, char **argv) { LOGINREC *login; DBPROCESS *dbproc; read_login_info(argc, argv); printf("Starting %s\n", argv[0]); dbinit(); printf("About to logon\n"); login = dblogin(); DBSETLPWD(login, PASSWORD); DBSETLUSER(login, USER); DBSETLAPP(login, "t0011"); printf("About to open\n"); dbproc = dbopen(login, SERVER); if (strlen(DATABASE)) dbuse(dbproc, DATABASE); dbloginfree(login); printf("Dropping table\n"); sql_cmd(dbproc); dbsqlexec(dbproc); while (dbresults(dbproc) != NO_MORE_RESULTS) { /* nop */ } printf("creating table\n"); sql_cmd(dbproc); dbsqlexec(dbproc); while (dbresults(dbproc) != NO_MORE_RESULTS) { /* nop */ } printf("insert\n"); insert_row(dbproc); insert_row(dbproc); insert_row(dbproc); failed = select_rows(dbproc, STRINGBIND); dbexit(); printf("%s %s\n", __FILE__, (failed ? "failed!" : "OK")); return failed ? 1 : 0; }
template <typename T> static void _run(const FMatrixPtr &mF, T &mY) { // Dimension of the problem Index N = mY.rows(); assert(N == mF->size()); // Removes unused pre-images RealVector v = mY.rowwise().squaredNorm(); Real threshold = v.sum() * Eigen::NumTraits<Scalar>::epsilon(); bool change = false; std::vector<bool> to_keep(N, true); for(Index i = 0; i < N; i++) if (v(i) < threshold) { change = true; to_keep[i] = false; } if (!change) return; select_rows(to_keep, mY, mY); *mF = *mF->subset(to_keep); }