Returning a ResultSet
I am trying to create a method from where I can query my database and retrieve a whole table.
Currently, it works just fine if I use the data inside the method. However, I want the method to return the results.
I'm getting a java.sql.SQLException: Operation not allowed after ResultSet closed
on the current code.
How can I achieve this?
public ResultSet select() {
con = null;
st = null;
rs = null;
try {
con = DriverManager.getConnection(url, user, password);
st = con.createStatement();
rs = st.executeQuery("SELECT * FROM biler");
/*
if (rs.next()) {
System.out.println(rs.getString("model"));
}*/
} catch (SQLException ex) {
Logger lgr = Logger.getLogger(MySQL.class.getName());
lgr.log(Level.SEVERE, ex.getMessage(), ex);
} finally {
try {
if (rs != null) {
rs.close();
}
if (st != null) {
st.close();
}
if (con != null) {
con.close();
}
} catch (SQLException ex) {
Logger lgr = Logger.getLogger(MySQL.class.getName());
lgr.log(Level.WARNING, ex.getMessage(), ex);
}
}
return rs;
}
You should never pass a ResultSet
around through public methods. This is prone to resource leaking because you're forced to keep the statement and the connection open. Closing them would implicitly close the result set. But keeping them open would cause them to dangle around and cause the DB to run out of resources when there are too many of them open.
Map it to a collection of Javabeans like so and return it instead:
public List<Biler> list() throws SQLException {
Connection connection = null;
PreparedStatement statement = null;
ResultSet resultSet = null;
List<Biler> bilers = new ArrayList<Biler>();
try {
connection = database.getConnection();
statement = connection.prepareStatement("SELECT id, name, value FROM Biler");
resultSet = statement.executeQuery();
while (resultSet.next()) {
Biler biler = new Biler();
biler.setId(resultSet.getLong("id"));
biler.setName(resultSet.getString("name"));
biler.setValue(resultSet.getInt("value"));
bilers.add(biler);
}
} finally {
if (resultSet != null) try { resultSet.close(); } catch (SQLException ignore) {}
if (statement != null) try { statement.close(); } catch (SQLException ignore) {}
if (connection != null) try { connection.close(); } catch (SQLException ignore) {}
}
return bilers;
}
Or, if you're on Java 7 already, just make use of try-with-resources statement which will auto-close those resources:
public List<Biler> list() throws SQLException {
List<Biler> bilers = new ArrayList<Biler>();
try (
Connection connection = database.getConnection();
PreparedStatement statement = connection.prepareStatement("SELECT id, name, value FROM Biler");
ResultSet resultSet = statement.executeQuery();
) {
while (resultSet.next()) {
Biler biler = new Biler();
biler.setId(resultSet.getLong("id"));
biler.setName(resultSet.getString("name"));
biler.setValue(resultSet.getInt("value"));
bilers.add(biler);
}
}
return bilers;
}
By the way, you should not be declaring the Connection
, Statement
and ResultSet
as instance variables at all (major threadsafety problem!), nor be swallowing the SQLException
at that point at all (the caller will have no clue that a problem occurred), nor be closing the resources in the same try
(if e.g. result set close throws an exception, then statement and connection are still open). All those issues are fixed in the above code snippets.
If you don't know what you want of the ResultSet on retrieving time I suggest mapping the complete thing into a map like this:
List<Map<String, Object>> resultList = new ArrayList<Map<String, Object>>();
Map<String, Object> row = null;
ResultSetMetaData metaData = rs.getMetaData();
Integer columnCount = metaData.getColumnCount();
while (rs.next()) {
row = new HashMap<String, Object>();
for (int i = 1; i <= columnCount; i++) {
row.put(metaData.getColumnName(i), rs.getObject(i));
}
resultList.add(row);
}
So basically you have the same thing as the ResultSet then (without the ResultSetMetaData).
Well, you do call rs.close()
in your finally
-block.
That's basically a good idea, as you should close all your resources (connections, statements, result sets, ...).
But you must close them after you use them.
There are at least three possible solutions:
-
don't close the resultset (and connection, ...) and require the caller to call a separate "close" method.
This basically means that now the caller needs to remember to call close and doesn't really make things easier.
-
let the caller pass in a class that gets passed the resultset and call that within your method
This works, but can become slightly verbose, as you'll need a subclass of some interface (possibly as an anonymous inner class) for each block of code you want to execute on the resultset.
The interface looked like this:
public interface ResultSetConsumer<T> { public T consume(ResultSet rs); }
and your
select
method looked like this:public <T> List<T> select(String query, ResultSetConsumer<T> consumer) { Connection con = null; Statement st = null; ResultSet rs = null; try { con = DriverManager.getConnection(url, user, password); st = con.createStatement(); rs = st.executeQuery(query); List<T> result = new ArrayList<T>(); while (rs.next()) { result.add(consumer.consume(rs)); } } catch (SQLException ex) { // logging } finally { try { if (rs != null) { rs.close(); } if (st != null) { st.close(); } if (con != null) { con.close(); } } catch (SQLException ex) { Logger lgr = Logger.getLogger(MySQL.class.getName()); lgr.log(Level.WARNING, ex.getMessage(), ex); } } return rs; }
-
do all the work inside the
select
method and return someList
as a result.This is probably the most widely used one: iterate over the resultset and convert the data into custom data in your own DTOs and return those.
As everyone before me said its a bad idea to pass the result set. If you are using Connection pool library like c3p0 then you can safely user CachedRowSet and its implementation CachedRowSetImpl. Using this you can close the connection. It will only use connection when required. Here is snippet from the java doc:
A CachedRowSet object is a disconnected rowset, which means that it makes use of a connection to its data source only briefly. It connects to its data source while it is reading data to populate itself with rows and again while it is propagating changes back to its underlying data source. The rest of the time, a CachedRowSet object is disconnected, including while its data is being modified. Being disconnected makes a RowSet object much leaner and therefore much easier to pass to another component. For example, a disconnected RowSet object can be serialized and passed over the wire to a thin client such as a personal digital assistant (PDA).
Here is the code snippet for querying and returning ResultSet:
public ResultSet getContent(String queryStr) {
Connection conn = null;
Statement stmt = null;
ResultSet resultSet = null;
CachedRowSetImpl crs = null;
try {
Connection conn = dataSource.getConnection();
stmt = conn.createStatement();
resultSet = stmt.executeQuery(queryStr);
crs = new CachedRowSetImpl();
crs.populate(resultSet);
} catch (SQLException e) {
throw new IllegalStateException("Unable to execute query: " + queryStr, e);
}finally {
try {
if (resultSet != null) {
resultSet.close();
}
if (stmt != null) {
stmt.close();
}
if (conn != null) {
conn.close();
}
} catch (SQLException e) {
LOGGER.error("Ignored", e);
}
}
return crs;
}
Here is the snippet for creating data source using c3p0:
ComboPooledDataSource cpds = new ComboPooledDataSource();
try {
cpds.setDriverClass("<driver class>"); //loads the jdbc driver
} catch (PropertyVetoException e) {
e.printStackTrace();
return;
}
cpds.setJdbcUrl("jdbc:<url>");
cpds.setMinPoolSize(5);
cpds.setAcquireIncrement(5);
cpds.setMaxPoolSize(20);
javax.sql.DataSource dataSource = cpds;
You can use the CachedRowSet object that is just for what you want:
public CachedRowSetImpl select(String url, String user, String password) {
CachedRowSetImpl crs = null;
try (Connection con = DriverManager.getConnection(url, user, password);
Statement st = con.createStatement();
ResultSet rs = st.executeQuery("SELECT * FROM biler");) {
crs = new CachedRowSetImpl();
crs.populate(rs);
} catch (SQLException ex) {
Logger lgr = Logger.getLogger(MySQL.class.getName());
lgr.log(Level.SEVERE, ex.getMessage(), ex);
} catch (SQLException ex) {
Logger lgr = Logger.getLogger(MySQL.class.getName());
lgr.log(Level.WARNING, ex.getMessage(), ex);
}
return crs;
}
You can read the documentation here: https://docs.oracle.com/javase/7/docs/api/javax/sql/rowset/CachedRowSet.html