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Jython is an implementation of the high-level, dynamic, object-oriented language Python written in 100% Pure Java, and seamlessly integrated with the Java platform. It thus allows you to run Python on any Java platform.

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/*
 * Jython Database Specification API 2.0
 *
 * $Id: DataHandler.java 6610 2009-07-31 04:52:17Z pjenvey $
 *
 * Copyright (c) 2001 brian zimmer 
 *
 */
package com.ziclix.python.sql;

import org.python.core.Py;
import org.python.core.PyFile;
import org.python.core.PyObject;
import org.python.core.PyList;

import java.io.BufferedReader;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.Reader;
import java.io.StringReader;
import java.lang.reflect.Constructor;
import java.math.BigInteger;
import java.math.BigDecimal;
import java.sql.CallableStatement;
import java.sql.Date;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Statement;
import java.sql.Time;
import java.sql.Timestamp;
import java.sql.Types;

/**
 * The DataHandler is responsible mapping the JDBC data type to
 * a Jython object.  Depending on the version of the JDBC
 * implementation and the particulars of the driver, the type
 * mapping can be significantly different.
 *
 * This interface can also be used to change the behaviour of
 * the default mappings provided by the cursor.  This might be
 * useful in handling more complicated data types such as BLOBs,
 * CLOBs and Arrays.
 *
 * @author brian zimmer
 * @author last revised by $Author: pjenvey $
 * @version $Revision: 6610 $
 */
public class DataHandler {

    /** Default size for buffers. */
    private static final int INITIAL_SIZE = 1024 * 4;

    private static final String[] SYSTEM_DATAHANDLERS = {
        "com.ziclix.python.sql.JDBC20DataHandler"
    };

    /**
     * Handle most generic Java data types.
     */
    public DataHandler() {}

    /**
     * Some database vendors are case sensitive on calls to DatabaseMetaData,
     * most notably Oracle.  This callback allows a DataHandler to affect the
     * name.
     */
    public String getMetaDataName(PyObject name) {
        return ((name == Py.None) ? null : name.__str__().toString());
    }

    /**
     * A factory method for determing the correct procedure class to use
     * per the cursor type.
     * @param cursor an open cursor
     * @param name the name of the procedure to invoke
     * @return an instance of a Procedure
     * @throws SQLException
     */
    public Procedure getProcedure(PyCursor cursor, PyObject name) throws SQLException {
        return new Procedure(cursor, name);
    }

    /**
     * Returns the row id of the last executed statement.
     *
     * @param stmt the current statement
     * @return the row id of the last executed statement or None
     * @throws SQLException thrown if an exception occurs
     *
     */
    public PyObject getRowId(Statement stmt) throws SQLException {
        return Py.None;
    }

    /**
     * A callback prior to each execution of the statement.  If the statement is
     * a PreparedStatement, all the parameters will have been set.
     */
    public void preExecute(Statement stmt) throws SQLException {
        return;
    }

    /**
     * A callback after successfully executing the statement.
     */
    public void postExecute(Statement stmt) throws SQLException {
        return;
    }

    /**
     * Any .execute() which uses prepared statements will receive a callback for deciding
     * how to map the PyObject to the appropriate JDBC type.
     *
     * @param stmt the current PreparedStatement
     * @param index the index for which this object is bound
     * @param object the PyObject in question
     * @throws SQLException
     */
    public void setJDBCObject(PreparedStatement stmt, int index, PyObject object) throws SQLException {

        try {
            Object o = object.__tojava__(Object.class);
            if (o instanceof BigInteger) {
                //XXX: This is in here to specifically fix passing a PyLong into Postgresql.
                stmt.setObject(index, o, Types.BIGINT);
            } else {
                stmt.setObject(index, o);
            }
        } catch (Exception e) {
            SQLException cause = null, ex = new SQLException("error setting index [" + index + "]");

            if (e instanceof SQLException) {
                cause = (SQLException) e;
            } else {
                cause = new SQLException(e.getMessage());
            }

            ex.setNextException(cause);

            throw ex;
        }
    }

    /**
     * Any .execute() which uses prepared statements will receive a callback for deciding
     * how to map the PyObject to the appropriate JDBC type.  The type is the JDBC
     * type as obtained from java.sql.Types.
     *
     * @param stmt the current PreparedStatement
     * @param index the index for which this object is bound
     * @param object the PyObject in question
     * @param type the java.sql.Types for which this PyObject should be bound
     * @throws SQLException
     */
    public void setJDBCObject(PreparedStatement stmt, int index, PyObject object, int type)
        throws SQLException {
        try {
            if (checkNull(stmt, index, object, type)) {
                return;
            }

            switch (type) {

                case Types.DATE:
                    Date date = (Date) object.__tojava__(Date.class);
                    stmt.setDate(index, date);
                    break;

                case Types.TIME:
                    Time time = (Time) object.__tojava__(Time.class);
                    stmt.setTime(index, time);
                    break;

                case Types.TIMESTAMP:
                    Timestamp timestamp = (Timestamp) object.__tojava__(Timestamp.class);
                    stmt.setTimestamp(index, timestamp);
                    break;

                case Types.LONGVARCHAR:
                    if (object instanceof PyFile) {
                        object = ((PyFile) object).read();
                    }

                    String varchar = (String) object.__tojava__(String.class);
                    Reader reader = new BufferedReader(new StringReader(varchar));

                    stmt.setCharacterStream(index, reader, varchar.length());
                    break;

                case Types.BIT:
                    stmt.setBoolean(index, object.__nonzero__());
                    break;

                default :
                    if (object instanceof PyFile) {
                        object = ((PyFile) object).read();
                    }

                    stmt.setObject(index, object.__tojava__(Object.class), type);
                    break;
            }
        } catch (Exception e) {
            SQLException cause = null, ex = new SQLException("error setting index [" + index
                                                             + "], type [" + type + "]");

            if (e instanceof SQLException) {
                cause = (SQLException) e;
            } else {
                cause = new SQLException(e.getMessage());
            }

            ex.setNextException(cause);
            throw ex;
        }
    }

    /**
     * Given a ResultSet, column and type, return the appropriate
     * Jython object.
     *
     * 

Note: DO NOT iterate the ResultSet. * * @param set the current ResultSet set to the current row * @param col the column number (adjusted properly for JDBC) * @param type the column type * @throws SQLException if the type is unmappable */ public PyObject getPyObject(ResultSet set, int col, int type) throws SQLException { PyObject obj = Py.None; switch (type) { case Types.CHAR: case Types.VARCHAR: String string = set.getString(col); obj = string == null ? Py.None : Py.newUnicode(string); break; case Types.LONGVARCHAR: Reader reader = set.getCharacterStream(col); obj = reader == null ? Py.None : Py.newUnicode(read(reader)); break; case Types.NUMERIC: case Types.DECIMAL: BigDecimal bd = set.getBigDecimal(col); obj = (bd == null) ? Py.None : Py.newFloat(bd.doubleValue()); break; case Types.BIT: obj = set.getBoolean(col) ? Py.True : Py.False; break; case Types.INTEGER: case Types.TINYINT: case Types.SMALLINT: obj = Py.newInteger(set.getInt(col)); break; case Types.BIGINT: obj = Py.newLong(set.getLong(col)); break; case Types.FLOAT: case Types.REAL: obj = Py.newFloat(set.getFloat(col)); break; case Types.DOUBLE: obj = Py.newFloat(set.getDouble(col)); break; case Types.TIME: obj = Py.newTime(set.getTime(col)); break; case Types.TIMESTAMP: obj = Py.newDatetime(set.getTimestamp(col)); break; case Types.DATE: Object date = set.getObject(col); // don't newDate mysql YEAR columns obj = date instanceof Date ? Py.newDate((Date)date) : Py.java2py(date); break; case Types.NULL: obj = Py.None; break; case Types.OTHER: obj = Py.java2py(set.getObject(col)); break; case Types.BINARY: case Types.VARBINARY: case Types.LONGVARBINARY: obj = Py.java2py(set.getBytes(col)); break; default : Integer[] vals = {new Integer(col), new Integer(type)}; String msg = zxJDBC.getString("errorGettingIndex", vals); throw new SQLException(msg); } return set.wasNull() || obj == null ? Py.None : obj; } /** * Given a CallableStatement, column and type, return the appropriate * Jython object. * * @param stmt the CallableStatement * @param col the column number (adjusted properly for JDBC) * @param type the column type * @throws SQLException if the type is unmappable */ public PyObject getPyObject(CallableStatement stmt, int col, int type) throws SQLException { PyObject obj = Py.None; switch (type) { case Types.CHAR: case Types.VARCHAR: case Types.LONGVARCHAR: String string = stmt.getString(col); obj = (string == null) ? Py.None : Py.newUnicode(string); break; case Types.NUMERIC: case Types.DECIMAL: BigDecimal bd = stmt.getBigDecimal(col); obj = (bd == null) ? Py.None : Py.newFloat(bd.doubleValue()); break; case Types.BIT: obj = stmt.getBoolean(col) ? Py.True : Py.False; break; case Types.INTEGER: case Types.TINYINT: case Types.SMALLINT: obj = Py.newInteger(stmt.getInt(col)); break; case Types.BIGINT: obj = Py.newLong(stmt.getLong(col)); break; case Types.FLOAT: case Types.REAL: obj = Py.newFloat(stmt.getFloat(col)); break; case Types.DOUBLE: obj = Py.newFloat(stmt.getDouble(col)); break; case Types.TIME: obj = Py.newTime(stmt.getTime(col)); break; case Types.TIMESTAMP: obj = Py.newDatetime(stmt.getTimestamp(col)); break; case Types.DATE: obj = Py.newDate(stmt.getDate(col)); break; case Types.NULL: obj = Py.None; break; case Types.OTHER: obj = Py.java2py(stmt.getObject(col)); break; case Types.BINARY: case Types.VARBINARY: case Types.LONGVARBINARY: obj = Py.java2py(stmt.getBytes(col)); break; default : Integer[] vals = {new Integer(col), new Integer(type)}; String msg = zxJDBC.getString("errorGettingIndex", vals); throw new SQLException(msg); } return stmt.wasNull() || obj == null ? Py.None : obj; } /** * Called when a stored procedure or function is executed and OUT parameters * need to be registered with the statement. * * @param statement * @param index the JDBC offset column number * @param colType the column as from DatabaseMetaData (eg, procedureColumnOut) * @param dataType the JDBC datatype from Types * @param dataTypeName the JDBC datatype name * * @throws SQLException * */ public void registerOut(CallableStatement statement, int index, int colType, int dataType, String dataTypeName) throws SQLException { try { statement.registerOutParameter(index, dataType); } catch (Throwable t) { SQLException cause = null; SQLException ex = new SQLException("error setting index [" + index + "], coltype [" + colType + "], datatype [" + dataType + "], datatypename [" + dataTypeName + "]"); if (t instanceof SQLException) { cause = (SQLException)t; } else { cause = new SQLException(t.getMessage()); } ex.setNextException(cause); throw ex; } } /** * Handles checking if the object is null or None and setting it on the statement. * * @return true if the object is null and was set on the statement, false otherwise */ public static final boolean checkNull(PreparedStatement stmt, int index, PyObject object, int type) throws SQLException { if ((object == null) || (Py.None == object)) { stmt.setNull(index, type); return true; } return false; } /** * Consume the InputStream into an byte array and close the InputStream. * * @return the contents of the InputStream a byte[] */ public static final byte[] read(InputStream stream) { int size = 0; byte[] buffer = new byte[INITIAL_SIZE]; ByteArrayOutputStream baos = new ByteArrayOutputStream(INITIAL_SIZE); try { while ((size = stream.read(buffer)) != -1) { baos.write(buffer, 0, size); } } catch (IOException ioe) { throw zxJDBC.makeException(ioe); } finally { try { stream.close(); } catch (IOException ioe) { throw zxJDBC.makeException(ioe); } } return baos.toByteArray(); } /** * Consume the Reader into a String and close the Reader. * * @return the contents of the Reader as a String */ public static String read(Reader reader) { int size = 0; char[] buffer = new char[INITIAL_SIZE]; StringBuilder builder = new StringBuilder(INITIAL_SIZE); try { while ((size = reader.read(buffer)) != -1) { builder.append(buffer, 0, size); } } catch (IOException ioe) { throw zxJDBC.makeException(ioe); } finally { try { reader.close(); } catch (IOException ioe) { throw zxJDBC.makeException(ioe); } } return builder.toString(); } /** * Build the DataHandler chain depending on the VM. This guarentees a DataHandler * but might additionally chain a JDBC2.0 or JDBC3.0 implementation. * @return a DataHandler configured for the VM version */ public static final DataHandler getSystemDataHandler() { DataHandler dh = new DataHandler(); for (String element : SYSTEM_DATAHANDLERS) { try { Class c = Class.forName(element); Constructor cons = c.getConstructor(new Class[]{DataHandler.class}); dh = (DataHandler) cons.newInstance(new Object[]{dh}); } catch (Throwable t) {} } return dh; } /** * Returns a list of datahandlers chained together through the use of delegation. * * @return a list of datahandlers */ public PyObject __chain__() { return new PyList(Py.javas2pys(this)); } /** * Returns the classname of this datahandler. */ @Override public String toString() { return getClass().getName(); } }





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