public void load(ISession session, PreparedStatement stmt) { ResultSet rs = null; try { rs = stmt.executeQuery(); StringBuffer buf = new StringBuffer(4096); while (rs.next()) { String line1 = rs.getString(1); String line2 = rs.getString(2); buf.append(line1.trim() + " "); buf.append(line2.trim() + " "); } String source = ""; if (buf.length() == 0 && sourceType == TABLE_TYPE) { ISQLDatabaseMetaData md = session.getMetaData(); // TODO: Need to define a better approach to getting dialects. // That is, we don't really want to ever prompt the user in this // case. It's always Oracle. Yet, we may have a new OracleDialect // at some point. HibernateDialect dialect = DialectFactory.getDialect("Oracle"); // TODO: How to let the user customize this?? CreateScriptPreferences prefs = new CreateScriptPreferences(); ITableInfo[] tabs = new ITableInfo[] {(ITableInfo) getDatabaseObjectInfo()}; List<ITableInfo> tables = Arrays.asList(tabs); // Handle table source List<String> sqls = dialect.getCreateTableSQL(tables, md, prefs, false); String sep = session.getQueryTokenizer().getSQLStatementSeparator(); for (String sql : sqls) { buf.append(sql); buf.append(sep); buf.append("\n"); } source = buf.toString(); } else { if (s_log.isDebugEnabled()) { s_log.debug("View source before formatting: " + buf.toString()); } source = formatter.reformat(buf.toString()); } getTextArea().setText(source); getTextArea().setCaretPosition(0); } catch (SQLException ex) { s_log.error("Unexpected exception: " + ex.getMessage(), ex); session.showErrorMessage(ex); } finally { SQLUtilities.closeResultSet(rs); } }
public ExplainExecuterPanel(ISession session) { _session = session; _dialectType = DialectFactory.getDialectType(_session.getMetaData()); _session .getProperties() .addPropertyChangeListener( new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { onPropertyChange(evt.getPropertyName()); } }); createGUI(); }
private void addTreeNodeMenuActionsForDB2(ISession session) { try { if (DialectFactory.isDB2(session.getMetaData())) { // Plugin knows only how to script Views and Stored Procedures on DB2. // So if it's not a DB2 Session we tell SQuirreL the Plugin should not be used. // Add context menu items to the object tree's view and procedure nodes. IObjectTreeAPI otApi = session.getSessionInternalFrame().getObjectTreeAPI(); otApi.addToPopup( DatabaseObjectType.VIEW, new ScriptDB2ViewAction(session.getApplication(), _resources, session)); otApi.addToPopup( DatabaseObjectType.PROCEDURE, new ScriptDB2ProcedureAction(session.getApplication(), _resources, session)); } } catch (Exception e) { throw new RuntimeException(e); } }
/** Create the <TT>IDataSet</TT> to be displayed in this tab. */ protected IDataSet createDataSet() throws DataSetException { final ISession session = getSession(); final ISQLConnection conn = session.getSQLConnection(); ISQLDatabaseMetaData md = session.getMetaData(); try { final Statement stmt = conn.createStatement(); try { final SessionProperties props = session.getProperties(); if (props.getContentsLimitRows()) { try { stmt.setMaxRows(props.getContentsNbrRowsToShow()); } catch (Exception ex) { s_log.error("Error on Statement.setMaxRows()", ex); } } final ITableInfo ti = getTableInfo(); /** * When the SessionProperties are set to read-only (either table or text) but the user has * selected "Make Editable" on the Popup menu, we want to limit the edit capability to only * that table, and only for as long as the user is looking at that one table. When the user * switches away to another table, that new table should not be editable. */ final String currentTableName = ti.getQualifiedName(); if (!currentTableName.equals(previousTableName)) { previousTableName = currentTableName; // needed to prevent an infinite loop _dataSetUpdateableTableModel.setEditModeForced(false); /** * Tell the GUI to rebuild itself. Unfortunately, this has the side effect of calling this * same function another time. The second call does not seem to be a problem, but we need * to have reset the previousTableName before makeing this call or we will be in an * infinite loop. */ // props.forceTableContentsOutputClassNameChange(); } /** * If the table has a pseudo-column that is the best unique identifier for the rows (like * Oracle's rowid), then we want to include that field in the query so that it will be * available if the user wants to edit the data later. */ String pseudoColumn = ""; try { BestRowIdentifier[] rowIDs = md.getBestRowIdentifier(ti); for (int i = 0; i < rowIDs.length; ++i) { short pseudo = rowIDs[i].getPseudoColumn(); if (pseudo == DatabaseMetaData.bestRowPseudo) { pseudoColumn = " ," + rowIDs[i].getColumnName(); break; } } } // Some DBMS's (EG Think SQL) throw an exception on a call to // getBestRowIdentifier. catch (Throwable th) { if (s_log.isDebugEnabled()) { s_log.debug("getBestRowIdentifier not supported for table " + currentTableName, th); } } // TODO: - Col - Add method to Databasemetadata that returns array // of objects for getBestRowIdentifier. For PostgreSQL put this kludge in // the new function. THis way all the kludges are kept in one place. // // KLUDGE!!!!!! // // For some DBs (e.g. PostgreSQL) there is actually a pseudo-column // providing the rowId, but the getBestRowIdentifier function is not // implemented. This kludge hardcodes the knowledge that specific // DBs use a specific pseudo-column. Additionally, as of pg 8.1, // you must create the table using "WITH OID" appended to the create // statement. Otherwise, OID column is not available by default. // if (pseudoColumn.length() == 0) { if (DialectFactory.isPostgreSQL(md)) { pseudoColumn = ", oid"; } if (DialectFactory.isOracle(md)) { pseudoColumn = ", ROWID"; } } ResultSet rs = null; try { // Note. Some DBMSs such as Oracle do not allow: // "select *, rowid from table" // You cannot have any column name in the columns clause // if you have * in there. Aliasing the table name seems to // be the best way to get around the problem. final StringBuffer buf = new StringBuffer(); buf.append("select tbl.*") .append(pseudoColumn) .append(" from ") .append(ti.getQualifiedName()) .append(" tbl"); String clause = _sqlFilterClauses.get(WhereClausePanel.getClauseIdentifier(), ti.getQualifiedName()); if ((clause != null) && (clause.length() > 0)) { buf.append(" where ").append(clause); } clause = _sqlFilterClauses.get( OrderByClausePanel.getClauseIdentifier(), ti.getQualifiedName()); if ((clause != null) && (clause.length() > 0)) { buf.append(" order by ").append(clause); } if (s_log.isDebugEnabled()) { s_log.debug("createDataSet running SQL: " + buf.toString()); } showWaitDialog(stmt); rs = stmt.executeQuery(buf.toString()); } catch (SQLException ex) { if (s_log.isDebugEnabled()) { s_log.debug("createDataSet: exception from pseudocolumn query - " + ex, ex); } // We assume here that if the pseudoColumn was used in the query, // then it was likely to have caused the SQLException. If not, // (length == 0), then retrying the query won't help - just throw // the exception. if (pseudoColumn.length() == 0) { throw ex; } // pseudocolumn query failed, so reset it. Otherwise, we'll // mistake the last column for a pseudocolumn and make it // uneditable pseudoColumn = ""; // Some tables have pseudo column primary keys and others // do not. JDBC on some DBMSs does not handle pseudo // columns 'correctly'. Also, getTables returns 'views' as // well as tables, so the thing we are looking at might not // be a table. (JDBC does not give a simple way to // determine what we are looking at since the type of // object is described in a DBMS-specific encoding.) For // these reasons, rather than testing for all these // conditions, we just try using the pseudo column info to // get the table data, and if that fails, we try to get the // table data without using the pseudo column. // TODO: Should we change the mode from editable to // non-editable? final StringBuffer buf = new StringBuffer(); buf.append("select *").append(" from ").append(ti.getQualifiedName()).append(" tbl"); String clause = _sqlFilterClauses.get(WhereClausePanel.getClauseIdentifier(), ti.getQualifiedName()); if ((clause != null) && (clause.length() > 0)) { buf.append(" where ").append(clause); } clause = _sqlFilterClauses.get( OrderByClausePanel.getClauseIdentifier(), ti.getQualifiedName()); if ((clause != null) && (clause.length() > 0)) { buf.append(" order by ").append(clause); } rs = stmt.executeQuery(buf.toString()); } final ResultSetDataSet rsds = new ResultSetDataSet(); // to allow the fw to save and reload user options related to // specific columns, we construct a unique name for the table // so the column can be associcated with only that table. // Some drivers do not provide the catalog or schema info, so // those parts of the name will end up as null. That's ok since // this string is never viewed by the user and is just used to // distinguish this table from other tables in the DB. // We also include the URL used to connect to the DB so that // the same table/DB on different machines is treated differently. rsds.setContentsTabResultSet( rs, _dataSetUpdateableTableModel.getFullTableName(), DialectFactory.getDialectType(md)); if (rs != null) { try { rs.close(); } catch (SQLException e) { } } // KLUDGE: // We want some info about the columns to be available for validating the // user input during cell editing operations. Ideally we would get that // info inside the ResultSetDataSet class during the creation of the // columnDefinition objects by using various functions in ResultSetMetaData // such as isNullable(idx). Unfortunately, in at least some DBMSs (e.g. // Postgres, HSDB) the results of those calls are not the same (and are less accurate // than) the SQLMetaData.getColumns() call used in ColumnsTab to get the column info. // Even more unfortunate is the fact that the set of attributes reported on by the two // calls is not the same, with the ResultSetMetadata listing things not provided by // getColumns. Most of the data provided by the ResultSetMetaData calls is correct. // However, the nullable/not-nullable property is not set correctly in at least two // DBMSs, while it is correct for those DBMSs in the getColumns() info. Therefore, // we collect the collumn nullability information from getColumns() and pass that // info to the ResultSet to override what it got from the ResultSetMetaData. TableColumnInfo[] columnInfos = md.getColumnInfo(getTableInfo()); final ColumnDisplayDefinition[] colDefs = rsds.getDataSetDefinition().getColumnDefinitions(); // get the nullability information and pass it into the ResultSet // Unfortunately, not all DBMSs provide the column number in object 17 as stated in the // SQL documentation, so we have to guess that the result set is in column order for (int i = 0; i < columnInfos.length; i++) { boolean isNullable = true; TableColumnInfo info = columnInfos[i]; if (info.isNullAllowed() == DatabaseMetaData.columnNoNulls) { isNullable = false; } if (i < colDefs.length) { colDefs[i].setIsNullable(isNullable); } } // ?? remember which column is the rowID (if any) so we can // ?? prevent editing on it if (pseudoColumn.length() > 0) { _dataSetUpdateableTableModel.setRowIDCol(rsds.getColumnCount() - 1); } return rsds; } finally { SQLUtilities.closeStatement(stmt); } } catch (SQLException ex) { throw new DataSetException(ex); } finally { disposeWaitDialog(); } }