While the poster might most likely need to rethink his design, in some cases there is a legitimate need to distinguish between instances of built-in/extension types, created in C, and instances of classes created in Python with the
class statement. While both are types, the latter are a category of types that CPython internally calls "heap types" because their type structures are allocated at run-time. That python continues to distinguish them can be seen in
>>> int # "type"
>>> class X(object): pass
>>> X # "class"
__repr__ distinction is implemented exactly by checking whether the type is a heap type.
Depending on the exact needs of the application, an
is_class_instance function can be implemented in one of the following ways:
# Built-in types such as int or object do not have __dict__ by
# default. __dict__ is normally obtained by inheriting from a
# dictless type using the class statement. Checking for the
# existence of __dict__ is an indication of a class instance.
# Caveat: a built-in or extension type can still request instance
# dicts using tp_dictoffset, and a class can suppress it with
return hasattr(o, '__dict__')
# A reliable approach, but one that is also more dependent
# on the CPython implementation.
Py_TPFLAGS_HEAPTYPE = (1L<<9) # Include/object.h
return bool(type(o).__flags__ & Py_TPFLAGS_HEAPTYPE)
Here is an explanation of the second version of the function. It really tests whether the type is a "heap type" using the same test that CPython uses internally for its own purposes. That ensures that it will always return True for instances of heap types ("classes") and False for instances of non-heap-types ("types", but also old-style classes, which is easy to fix). It does that by checking whether the
tp_flags member of the C-level
PyTypeObject structure has the
Py_TPFLAGS_HEAPTYPE bit set. The weak part of the implementation is that it hardcodes the value of the
Py_TPFLAGS_HEAPTYPE constant to the currently observed value. (This is necessary because the constant is not exposed to Python by a symbolic name.) While in theory this constant could change, it is highly unlikely to happen in practice because such a change would gratuitously break the ABI of existing extension modules. Looking at the definitions of
Py_TPFLAGS constants in
Include/object.h, it is apparent that new ones are being carefully added without disturbing the old ones. Another weakness is that this code has zero chance running on a non-CPython implementation, such as Jython or IronPython.