mirror of https://github.com/python/cpython
Add checking for a number of metaclass error conditions.
We add some new rules that are required for preserving internal invariants of types. 1. If type (or a subclass of type) appears in bases, it must appear before any non-type bases. If a non-type base (like a regular new-style class) occurred first, it could trick type into allocating the new class an __dict__ which must be impossible. 2. There are several checks that are made of bases when creating a type. Those checks are now repeated when assigning to __bases__. We also add the restriction that assignment to __bases__ may not change the metaclass of the type. Add new tests for these cases and for a few other oddball errors that were no previously tested. Remove a crasher test that was fixed. Also some internal refactoring: Extract the code to find the most derived metaclass of a type and its bases. It is now needed in two places. Rewrite the TypeError checks in test_descr to use doctest. The tests now clearly show what exception they expect to see.
This commit is contained in:
parent
2d1f5c93bb
commit
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@ -1,19 +0,0 @@
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# http://python.org/sf/1303614
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class Y(object):
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pass
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class type_with_modifiable_dict(Y, type):
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pass
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class MyClass(object):
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"""This class has its __dict__ attribute completely exposed:
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user code can read, reassign and even delete it.
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"""
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__metaclass__ = type_with_modifiable_dict
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if __name__ == '__main__':
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del MyClass.__dict__ # if we set tp_dict to NULL,
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print MyClass # doing anything with MyClass segfaults
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@ -1,6 +1,6 @@
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# Test enhancements related to descriptors and new-style classes
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from test.test_support import verify, vereq, verbose, TestFailed, TESTFN, get_original_stdout
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from test.test_support import verify, vereq, verbose, TestFailed, TESTFN, get_original_stdout, run_doctest
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from copy import deepcopy
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import warnings
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@ -820,6 +820,22 @@ def metaclass():
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except TypeError: pass
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else: raise TestFailed, "calling object w/o call method should raise TypeError"
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# Testing code to find most derived baseclass
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class A(type):
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def __new__(*args, **kwargs):
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return type.__new__(*args, **kwargs)
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class B(object):
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pass
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class C(object):
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__metaclass__ = A
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# The most derived metaclass of D is A rather than type.
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class D(B, C):
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pass
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def pymods():
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if verbose: print "Testing Python subclass of module..."
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log = []
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@ -1411,49 +1427,89 @@ def dynamics():
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verify(someclass != object)
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def errors():
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if verbose: print "Testing errors..."
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"""Test that type can't be placed after an instance of type in bases.
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try:
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class C(list, dict):
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pass
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except TypeError:
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pass
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else:
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verify(0, "inheritance from both list and dict should be illegal")
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>>> class C(list, dict):
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... pass
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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multiple bases have instance lay-out conflict
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try:
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class C(object, None):
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pass
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except TypeError:
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pass
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else:
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verify(0, "inheritance from non-type should be illegal")
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class Classic:
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pass
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>>> class C(object, None):
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... pass
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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bases must be types
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try:
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class C(type(len)):
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pass
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except TypeError:
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pass
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else:
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verify(0, "inheritance from CFunction should be illegal")
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>>> class C(type(len)):
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... pass
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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type 'builtin_function_or_method' is not an acceptable base type
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try:
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class C(object):
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__slots__ = 1
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except TypeError:
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pass
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else:
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verify(0, "__slots__ = 1 should be illegal")
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>>> class Classic:
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... def __init__(*args): pass
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>>> class C(object):
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... __metaclass__ = Classic
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try:
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class C(object):
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__slots__ = [1]
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except TypeError:
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pass
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else:
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verify(0, "__slots__ = [1] should be illegal")
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>>> class C(object):
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... __slots__ = 1
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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'int' object is not iterable
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>>> class C(object):
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... __slots__ = [1]
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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__slots__ items must be strings, not 'int'
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>>> class A(object):
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... pass
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>>> class B(A, type):
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... pass
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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metaclass conflict: type must occur in bases before other non-classic base classes
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Create two different metaclasses in order to setup an error where
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there is no inheritance relationship between the metaclass of a class
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and the metaclass of its bases.
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>>> class M1(type):
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... pass
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>>> class M2(type):
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... pass
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>>> class A1(object):
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... __metaclass__ = M1
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>>> class A2(object):
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... __metaclass__ = M2
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>>> class B(A1, A2):
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... pass
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Traceback (most recent call last):
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TypeError: Error when calling the metaclass bases
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metaclass conflict: the metaclass of a derived class must be a (non-strict) subclass of the metaclasses of all its bases
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>>> class B(A1):
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... pass
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Also check that assignment to bases is safe.
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>>> B.__bases__ = A1, A2
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Traceback (most recent call last):
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TypeError: metaclass conflict: the metaclass of a derived class must be a (non-strict) subclass of the metaclasses of all its bases
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>>> B.__bases__ = A2,
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Traceback (most recent call last):
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TypeError: metaclass conflict: the metaclass of a derived class must be a (non-strict) subclass of the metaclasses of all its bases
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>>> class M3(M1):
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... pass
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>>> class C(object):
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... __metaclass__ = M3
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>>> B.__bases__ = C,
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Traceback (most recent call last):
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TypeError: assignment to __bases__ may not change metatype
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"""
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def classmethods():
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if verbose: print "Testing class methods..."
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@ -4179,7 +4235,6 @@ def test_main():
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slots()
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slotspecials()
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dynamics()
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errors()
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classmethods()
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classmethods_in_c()
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staticmethods()
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@ -4247,6 +4302,9 @@ def test_main():
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methodwrapper()
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notimplemented()
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from test import test_descr
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run_doctest(test_descr, verbosity=True)
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if verbose: print "All OK"
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if __name__ == "__main__":
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@ -127,6 +127,7 @@ type_get_bases(PyTypeObject *type, void *context)
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return type->tp_bases;
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}
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static PyTypeObject *most_derived_metaclass(PyTypeObject *, PyObject *);
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static PyTypeObject *best_base(PyObject *);
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static int mro_internal(PyTypeObject *);
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static int compatible_for_assignment(PyTypeObject *, PyTypeObject *, char *);
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Py_ssize_t i;
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int r = 0;
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PyObject *ob, *temp;
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PyTypeObject *new_base, *old_base;
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PyTypeObject *new_base, *old_base, *metatype;
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PyObject *old_bases, *old_mro;
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if (!(type->tp_flags & Py_TPFLAGS_HEAPTYPE)) {
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@ -230,6 +231,17 @@ type_set_bases(PyTypeObject *type, PyObject *value, void *context)
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}
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}
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metatype = most_derived_metaclass(type->ob_type, value);
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if (metatype == NULL)
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return -1;
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if (metatype != type->ob_type) {
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PyErr_SetString(PyExc_TypeError,
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"assignment to __bases__ may not change "
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"metatype");
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return -1;
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}
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new_base = best_base(value);
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if (!new_base) {
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/* Calculate the best base amongst multiple base classes.
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This is the first one that's on the path to the "solid base". */
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This is the first one that's on the path to the "solid base".
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Requires that all base classes be types or classic classes.
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Will return NULL with TypeError set if
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1) the base classes have conflicting layout instances, or
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2) all the bases are classic classes.
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*/
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static PyTypeObject *
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best_base(PyObject *bases)
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base_proto = PyTuple_GET_ITEM(bases, i);
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if (PyClass_Check(base_proto))
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continue;
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if (!PyType_Check(base_proto)) {
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PyErr_SetString(
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PyExc_TypeError,
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"bases must be types");
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return NULL;
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}
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assert(PyType_Check(base_proto));
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base_i = (PyTypeObject *)base_proto;
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if (base_i->tp_dict == NULL) {
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if (PyType_Ready(base_i) < 0)
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return t_size != b_size;
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}
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/* Return the type object that will determine the layout of the instance. */
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static PyTypeObject *
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solid_base(PyTypeObject *type)
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{
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return base;
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}
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/* Determine the proper metatype to deal with this, and check some
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error cases while we're at it. Note that if some other metatype
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wins to contract, it's possible that its instances are not types.
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Error cases of interest: 1. The metaclass is not a subclass of a
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base class. 2. A non-type, non-classic base class appears before
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type.
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*/
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static PyTypeObject *
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most_derived_metaclass(PyTypeObject *metatype, PyObject *bases)
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{
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Py_ssize_t nbases, i;
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PyTypeObject *winner;
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/* types_ordered: One of three states possible:
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0 type is in bases
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1 non-types also in bases
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2 type follows non-type in bases (error)
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*/
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int types_ordered = 0;
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nbases = PyTuple_GET_SIZE(bases);
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winner = metatype;
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for (i = 0; i < nbases; i++) {
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PyObject *tmp = PyTuple_GET_ITEM(bases, i);
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PyTypeObject *tmptype = tmp->ob_type;
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if (tmptype == &PyClass_Type)
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continue; /* Special case classic classes */
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if (!PyType_Check(tmp)) {
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PyErr_SetString(PyExc_TypeError,
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"bases must be types");
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return NULL;
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}
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if (PyObject_IsSubclass(tmp, (PyObject*)&PyType_Type)) {
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if (types_ordered == 1) {
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types_ordered = 2;
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}
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}
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else if (!types_ordered)
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types_ordered = 1;
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if (winner == tmptype)
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continue;
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if (PyType_IsSubtype(winner, tmptype))
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continue;
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if (PyType_IsSubtype(tmptype, winner)) {
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winner = tmptype;
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continue;
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}
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PyErr_SetString(PyExc_TypeError,
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"metaclass conflict: "
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"the metaclass of a derived class "
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"must be a (non-strict) subclass "
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"of the metaclasses of all its bases");
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return NULL;
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}
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if (types_ordered == 2) {
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PyErr_SetString(PyExc_TypeError,
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"metaclass conflict: "
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"type must occur in bases before other "
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"non-classic base classes");
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return NULL;
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}
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return winner;
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}
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static void object_dealloc(PyObject *);
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static int object_init(PyObject *, PyObject *, PyObject *);
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static int update_slot(PyTypeObject *, PyObject *);
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@ -1642,37 +1723,18 @@ type_new(PyTypeObject *metatype, PyObject *args, PyObject *kwds)
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&PyDict_Type, &dict))
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return NULL;
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/* Determine the proper metatype to deal with this,
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and check for metatype conflicts while we're at it.
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Note that if some other metatype wins to contract,
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it's possible that its instances are not types. */
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nbases = PyTuple_GET_SIZE(bases);
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winner = metatype;
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for (i = 0; i < nbases; i++) {
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tmp = PyTuple_GET_ITEM(bases, i);
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tmptype = tmp->ob_type;
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if (tmptype == &PyClass_Type)
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continue; /* Special case classic classes */
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if (PyType_IsSubtype(winner, tmptype))
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continue;
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if (PyType_IsSubtype(tmptype, winner)) {
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winner = tmptype;
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continue;
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}
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PyErr_SetString(PyExc_TypeError,
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"metaclass conflict: "
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"the metaclass of a derived class "
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"must be a (non-strict) subclass "
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"of the metaclasses of all its bases");
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winner = most_derived_metaclass(metatype, bases);
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if (winner == NULL)
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return NULL;
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}
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if (winner != metatype) {
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if (winner->tp_new != type_new) /* Pass it to the winner */
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if (winner->tp_new != type_new) /* Pass it to the winner */ {
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return winner->tp_new(winner, args, kwds);
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}
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metatype = winner;
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}
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/* Adjust for empty tuple bases */
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nbases = PyTuple_GET_SIZE(bases);
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if (nbases == 0) {
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bases = PyTuple_Pack(1, &PyBaseObject_Type);
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if (bases == NULL)
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