While working on some custom serialization, I've been using the types module a lot. One thing that really frustrates me is that the documentation says nothing at all on how to actually call the types. An example: types.CodeType - The type for code objects such as returned by compile(). Yeah sure, what about the 12 arguments it takes??

>>> types.CodeType()
Traceback (most recent call last):
  File "<string>", line 1, in <fragment>
TypeError: code() takes at least 12 arguments (0 given)

Now, I can generally wrest the information out from various other places in the Python docs, or on the net. For example, I'm guessing new.code(argcount, nlocals, stacksize, flags, codestring, constants, names, varnames, filename, name, firstlineno, lnotab) is the same argument list as expected by types.CodeType (although, an argument list hardly counts as a good documentation).

But seriously, does anyone know documentation that actually describes the possible calls in types?

EDIT: I just noticed one alternative that can be of slight help... help(types.CodeType) etc.

  • 1
    I think this is an obvious bug in the documentation and should really be reported as so. – Noufal Ibrahim Feb 8 '11 at 13:05

It's generally not very useful to actually instantiate the types in the types module. Their purpose is to be used in isinstance() calls, and some of them can't be instantiated at all (for example types.GeneratorType).

If it's just curiosity, have a look at the documentation available in the interactive interpreter, for example


If you really think you need to instanciate these types, I would be curious to hear an example use case :)

Edit: Here is a complete categorised list of the types in the types module for Python 2.5 to 2.7. If multiple types are put on the same line, they are just aliases for the same type.

  • 10 types cannot be instantiated at all:

    BuiltinFunctionType, BuiltinMethodType
  • 16 types are aliases for built-in names:

    BooleanType                 bool
    BufferType                  buffer
    ComplexType                 complex
    DictType, DictionaryType    dict
    FileType                    file
    FloatType                   float
    IntType                     int
    ListType                    list
    LongType                    long
    ObjectType                  object
    SliceType                   slice
    TupleType                   tuple
    TypeType                    type
    StringType                  str
    UnicodeType                 unicode
    XRangeType                  xrange

    To instantiate those, it is preferable to use the built-in name.

  • The remaining 6 types have useful docstrings:

    FunctionType, LambdaType
    MethodType, UnboundMethodType

    ClassType and InstanceType can be considered obsolete, since they refer to old-style classes.

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  • Come on, don't pull this kind of answer. The language has these features. They are occasionally used. They should be documented. – porgarmingduod Feb 8 '11 at 13:12
  • -1 for you. There is code that does use the types module to instantiate code, and there is nothing wrong with that. – jsbueno Feb 8 '11 at 13:16
  • @jsbueno: That's why I said "generally", and that I'd be curious to hear the exact use case. I still think that it is "generally" not very useful, and I'm still curious about the use case :) (I know the OP is working on "custom serialisation", but that's not very specific.) – Sven Marnach Feb 8 '11 at 13:29
  • @porgarmingduod: I gave you a pointer where to find the documentation. – Sven Marnach Feb 8 '11 at 13:30
  • @sven: If you want to annoy the person asking a question with "you don't need to do this", you can do so in a comment. If your entire answer was 'try help(types.CodeObject)', that's fine. I would have upvoted it regardless of the fact that I actually remembered that method simultaneously, because that is an answer. – porgarmingduod Feb 8 '11 at 13:49

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