Generating the *Derived classes

These are notes on the use of, a tool you need when implementing new types in Jython.


Many of the Java classes that implement Python types have a counterpart class with the same name but with "Derived" appended. For example PyString is paired with PyStringDerived, PyType with PyTypeDerived, and so on. The *Derived classes are each a sub-class of their corresponding principal class. They come into play when you create a sub-class (in Python) and override (in Python) one or more methods whose base definition is exposed from the Java implementation. They ensure that this overriding (Python) method is the version invoked, even when the call is from Java.

There are two parts to this remarkable feature. One is in the implementation of the principal class itself, where the static exposed new method checks to see whether the actual (Python) type of the object being created is exactly the type that the principal class implements. If it is, then a new instance of the (Java) class is returned. If it is not exactly that class, an instance of the counterpart *Derived class is returned.

The second part of the feature is in the *Derived class. There, each exposed method may be overridden in a stylised way: it will check for the existence of a (Python) method redefining (the exposed name of) that method. If it fails to find one, it calls the version in the principal class (using the super keyword in Java). If it finds a Python re-definition, it invokes that using PyObject.__call__().

The *Derived counterpart of each principal class is generated using the script and a brief specification. The script is in the src/templates directory, together with several modules it imports, and it has to be run with that as the current directory. The specification corresponding to each principal class is in the same directory.

One of the imported modules is This used to have a function in its own right, but it is superseded by the exposer (org.python.expose.generate.Exposer) and the corresponding Ant task. If you use the new exposer, even if you prohibit sub-classing with @ExposedType(isBaseType=false), it will generate a reference to the sort of class creates. The modern exposer is described in the article PythonTypesInJava.

Author's note:

At the time of starting these notes, there is no user guide to and what it achieves. These notes stem from use of the tool and a certain amount of reverse-engineering. Please improve on them by correcting misunderstandings and omissions.

The work was done on a Windows 7 system, using Python 2.7 (without trying later versions, because of the vintage of the code). The choice of OS shows sometimes in the direction of slashes in pathnames, but that shouldn't confuse anyone. Although the motivation was to add a serious Python type (bytearray) to Jython, illustrations will be drawn from a facetiously-named type (piranha), with a Java implementation in src/org/python/ethel/the/frog/ as a Command

The 2-argument Forms

The most transparent form of the command is:

python [--lazy] <derived-spec> <output-file>

When using in that way one is working with three user files:

<derived-spec>, the specification for the contents of the derived Java class. By convention, this has the extension .derived, and the Python name of the type being defined. The files for Jython types are in the src/templates folder along with the scripts, but anywhere seems to work with this form of the command, so we'll use src/org/python/ethel/the/frog/piranha.derived (note lower case type name piranha).

<output-file>, the file in which the generated class will be written. This has to be in the Jython source tree under src/org/python. If your code is not there, seems to run correctly, but will get the Java package statement wrong. You can supply any filename you like, but the class it writes will be named by adding "Derived" to the name of the input class. For our example the output file is src/org/python/ethel/the/frog/

And last but not least, the class file that implements your type. The input file is identified from the directory of the output file and the class name given in the text of <derived-spec> (see below). This therefore also has to be in the Jython source tree under src/org/python. For our example the input file is src/org/python/ethel/the/frog/

The --lazy option causes only to generate the output file if the input file is newer.

The 1-argument and 0-argument Forms

A second form of the command is:

python [--lazy] [<derived-spec>]

When using in that way one is working with the same three user files as above, and a configuration file src/templates/mappings. The entries in that file look like this:


In effect, this file allows to look up the second argument given the first, although this second argument is now given in dotted notation. In this form, the specification file <name>.derived has to be in src/templates and the input and output classes will be found relative to src.

Finally, the <derived-spec> argument is optional. In the zero-argument form, will process all of the entries in src/templates/mappings. It is essentially this form, with the --lazy option, that implements the template Ant target in build.xml.

The Specification file <name>.derived

Available Directives


Define the name of the input class. Do not qualify the class name with the package: the script will work it out from the output file path, relative to src. E.g. base_class: Piranha

Request creation of a dictionary in the derived class. If not specified, only a slots array is created.
Include all the methods from this base class,
no_toString: [true|false]

If the parameter is false or the directive is not present, generated class will be given a custom toString() method that invokes __repr__. If true, or the directive is given without a parameter, the generated class will not be given a custom toString() method. Use this when you already have a satisfactory one in the base.

The rest of the file is Java code to insert (pretty much verbatim) into the derived class. Use this to provide your own custom overriding methods.

Examples of Use

Minimal Case


Here is an example of a type defined in Java for access as a built-in in Jython. For information on the annotations and structure see PythonTypesInJava.

   1 package org.python.ethel.the.frog;
   3 import org.python.core.PyObject;
   4 import org.python.core.PyString;
   5 import org.python.core.PyType;
   6 import org.python.expose.ExposedMethod;
   7 import org.python.expose.ExposedNew;
   8 import org.python.expose.ExposedType;
  10 @ExposedType(name="piranha")
  11 public class Piranha extends PyObject {
  13     public static final PyType TYPE = PyType.fromClass(Piranha.class);
  15     public Piranha() { this(TYPE); }
  17     public Piranha(PyType subType) { super(subType); }
  19     @ExposedNew
  20     final void newPiranha(PyObject[] args, String[] keywords) {}
  22     @ExposedMethod(names={"theOperation", "theOtherOperation"})
  23     public int operation(int payment) { return payment*2; }
  24 }

Specification piranha.derived

base_class: Piranha


The command

python ..\org\python\ethel\the\frog\piranha.derived  ..\org\python\ethel\the\frog\

issued with current directory src/templates produces

   1 /* Generated file, do not modify.  See jython/src/templates/ */
   2 package org.python.ethel.the.frog;
   4 import;
   5 import org.python.core.*;
   7 public class PiranhaDerived extends Piranha implements Slotted {
   9     public PyObject getSlot(int index) {
  10         return slots[index];
  11     }
  13     public void setSlot(int index,PyObject value) {
  14         slots[index]=value;
  15     }
  17     private PyObject[]slots;
  19     public String toString() {
  20         PyType self_type=getType();
  21         PyObject impl=self_type.lookup("__repr__");
  22         if (impl!=null) {
  23             PyObject res=impl.__get__(this,self_type).__call__();
  24             if (!(res instanceof PyString))
  25                 throw Py.TypeError(
  26                     "__repr__ returned non-string (type "+
  27                     res.getType().fastGetName()+")");
  28             return((PyString)res).toString();
  29         }
  30         return super.toString();
  31     }
  33 }

Additional Features


Specification piranha.derived