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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.
/*
* Jython Database Specification API 2.0
*
*
* Copyright (c) 2001 brian zimmer
*
*/
package com.ziclix.python.sql.util;
import org.python.core.ClassDictInit;
import org.python.core.Py;
import org.python.core.PyBuiltinMethodSet;
import org.python.core.PyClass;
import org.python.core.PyList;
import org.python.core.PyObject;
import org.python.core.PyString;
import org.python.core.Traverseproc;
import org.python.core.Visitproc;
import com.ziclix.python.sql.PyConnection;
import com.ziclix.python.sql.zxJDBC;
import com.ziclix.python.sql.pipe.Pipe;
import com.ziclix.python.sql.pipe.db.DBSink;
import com.ziclix.python.sql.pipe.db.DBSource;
/**
* A class to perform efficient Bulk CoPy of database tables.
*/
public class BCP extends PyObject implements ClassDictInit, Traverseproc {
/**
* Field sourceDH, destDH
*/
protected Class sourceDH, destDH;
/**
* Field batchsize, queuesize
*/
protected int batchsize, queuesize;
/**
* Field source, destination
*/
protected PyConnection source, destination;
/**
* The source connection will produce the rows while the destination
* connection will consume the rows and coerce as necessary for the
* destination database.
*/
public BCP(PyConnection source, PyConnection destination) {
this(source, destination, -1);
}
/**
* The source connection will produce the rows while the destination
* connection will consume the rows and coerce as necessary for the
* destination database.
*
* @param batchsize used to batch the inserts on the destination
*/
public BCP(PyConnection source, PyConnection destination, int batchsize) {
this.source = source;
this.destination = destination;
this.destDH = null;
this.sourceDH = null;
this.batchsize = batchsize;
this.queuesize = 0;
}
/**
* Field __methods__
*/
protected static PyList __methods__;
/**
* Field __members__
*/
protected static PyList __members__;
static {
PyObject[] m = new PyObject[1];
m[0] = new PyString("bcp");
__methods__ = new PyList(m);
m = new PyObject[6];
m[0] = new PyString("source");
m[1] = new PyString("destination");
m[2] = new PyString("batchsize");
m[3] = new PyString("queuesize");
m[4] = new PyString("sourceDataHandler");
m[5] = new PyString("destinationDataHandler");
__members__ = new PyList(m);
}
/**
* String representation of the object.
*
* @return a string representation of the object.
*/
public String toString() {
return "";
}
/**
* Sets the attribute name to value.
*
* @param name
* @param value
*/
public void __setattr__(String name, PyObject value) {
if ("destinationDataHandler".equals(name)) {
this.destDH = (Class) value.__tojava__(Class.class);
} else if ("sourceDataHandler".equals(name)) {
this.sourceDH = (Class) value.__tojava__(Class.class);
} else if ("batchsize".equals(name)) {
this.batchsize = ((Number) value.__tojava__(Number.class)).intValue();
} else if ("queuesize".equals(name)) {
this.queuesize = ((Number) value.__tojava__(Number.class)).intValue();
} else {
super.__setattr__(name, value);
}
}
/**
* Gets the value of the attribute name.
*
* @param name
* @return the attribute for the given name
*/
public PyObject __findattr_ex__(String name) {
if ("destinationDataHandler".equals(name)) {
return Py.java2py(this.destDH);
} else if ("sourceDataHandler".equals(name)) {
return Py.java2py(this.sourceDH);
} else if ("batchsize".equals(name)) {
return Py.newInteger(this.batchsize);
} else if ("queuesize".equals(name)) {
return Py.newInteger(this.queuesize);
}
return super.__findattr_ex__(name);
}
/**
* Initializes the object's namespace.
*
* @param dict
*/
static public void classDictInit(PyObject dict) {
dict.__setitem__("bcp", new BCPFunc("bcp", 0, 1, 2, zxJDBC.getString("bcp")));
dict.__setitem__("batchsize", Py.newString(zxJDBC.getString("batchsize")));
dict.__setitem__("queuesize", Py.newString(zxJDBC.getString("queuesize")));
// hide from python
dict.__setitem__("classDictInit", null);
dict.__setitem__("toString", null);
dict.__setitem__("PyClass", null);
dict.__setitem__("getPyClass", null);
dict.__setitem__("sourceDH", null);
dict.__setitem__("destDH", null);
}
/**
* Bulkcopy data from one database to another.
*
* @param fromTable the table in question on the source database
* @param where an optional where clause, defaults to '(1=1)' if null
* @param params optional params to substituted in the where clause
* @param include the columns to be queried from the source, '*' if None
* @param exclude the columns to be excluded from insertion on the destination, all if None
* @param toTable if non-null, the table in the destination db, otherwise the same table name as the source
* @param bindings the optional bindings for the destination, this allows morphing of types during the copy
* @return the count of the total number of rows bulk copied, -1 if the query returned no rows
*/
protected PyObject bcp(String fromTable, String where, PyObject params, PyObject include, PyObject exclude, String toTable, PyObject bindings) {
Pipe pipe = new Pipe();
String _toTable = (toTable == null) ? fromTable : toTable;
DBSource source = new DBSource(this.source, sourceDH, fromTable, where, include, params);
DBSink sink = new DBSink(this.destination, destDH, _toTable, exclude, bindings, this.batchsize);
return pipe.pipe(source, sink).__sub__(Py.newInteger(1));
}
/* Traverseproc implementation */
@Override
public int traverse(Visitproc visit, Object arg) {
if (source != null) {
int retVal = visit.visit(source, arg);
if (retVal != 0) {
return retVal;
}
}
return destination != null ? visit.visit(destination, arg) : 0;
}
@Override
public boolean refersDirectlyTo(PyObject ob) {
return ob != null && (ob == source || ob == destination);
}
}
/**
* @copyright 2001 brian zimmer
*/
class BCPFunc extends PyBuiltinMethodSet {
BCPFunc(String name, int index, int argcount, String doc) {
this(name, index, argcount, argcount, doc);
}
BCPFunc(String name, int index, int minargs, int maxargs, String doc) {
super(name, index, minargs, maxargs, doc, BCP.class);
}
/**
* Method __call__
*
* @param arg
* @return PyObject
*/
public PyObject __call__(PyObject arg) {
BCP bcp = (BCP) __self__;
switch (index) {
case 0:
String table = (String) arg.__tojava__(String.class);
if (table == null) {
throw Py.ValueError(zxJDBC.getString("invalidTableName"));
}
PyObject count = bcp.bcp(table, null, Py.None, Py.None, Py.None, null, Py.None);
return count;
default :
throw info.unexpectedCall(1, false);
}
}
public PyObject __call__(PyObject arga, PyObject argb) {
BCP bcp = (BCP) __self__;
switch (index) {
case 0:
String table = (String) arga.__tojava__(String.class);
if (table == null) {
throw Py.ValueError(zxJDBC.getString("invalidTableName"));
}
String where = (String) argb.__tojava__(String.class);
PyObject count = bcp.bcp(table, where, Py.None, Py.None, Py.None, null, Py.None);
return count;
default :
throw info.unexpectedCall(2, false);
}
}
public PyObject __call__(PyObject arga, PyObject argb, PyObject argc) {
BCP bcp = (BCP) __self__;
switch (index) {
case 0:
String table = (String) arga.__tojava__(String.class);
if (table == null) {
throw Py.ValueError(zxJDBC.getString("invalidTableName"));
}
String where = (String) argb.__tojava__(String.class);
PyObject count = bcp.bcp(table, where, argc, Py.None, Py.None, null, Py.None);
return count;
default :
throw info.unexpectedCall(3, false);
}
}
public PyObject __call__(PyObject[] args, String[] keywords) {
BCP bcp = (BCP) __self__;
switch (index) {
case 0:
/*
* B.bcp(table, [where=None, params=None, include=None, exclude=None, toTable=None, bindings=None])
*/
String where = null;
PyObject params = Py.None;
PyArgParser parser = new PyArgParser(args, keywords);
String table = (String) parser.arg(0, Py.None).__tojava__(String.class);
if (table == null) {
throw Py.ValueError(zxJDBC.getString("invalidTableName"));
}
// 'where' can be the second argument or a keyword
if (parser.numArg() >= 2) {
where = (String) parser.arg(1, Py.None).__tojava__(String.class);
}
if (where == null) {
where = (String) parser.kw("where", Py.None).__tojava__(String.class);
}
// 'params' can be the third argument or a keyword
if (parser.numArg() >= 3) {
params = parser.arg(2, Py.None);
}
if (params == Py.None) {
params = parser.kw("params", Py.None);
}
String toTable = (String) parser.kw("toTable", Py.None).__tojava__(String.class);
PyObject include = parser.kw("include", Py.None);
PyObject exclude = parser.kw("exclude", Py.None);
PyObject bindings = parser.kw("bindings", Py.None);
PyObject count = bcp.bcp(table, where, params, include, exclude, toTable, bindings);
return count;
default :
throw info.unexpectedCall(3, false);
}
}
}