' that are in either set.)') frozenset_reduce = SMM('__reduce__', 1, doc='Return state information for' ' pickling.') register_all(vars(), globals()) def descr__frozenset__new__(space, w_frozensettype, w_iterable=NoneNotWrapped): from pypy.objspace.std.setobject import W_FrozensetObject from pypy.objspace.std.setobject import _is_frozenset_exact if _is_frozenset_exact(w_iterable): return w_iterable w_obj = space.allocate_instance(W_FrozensetObject, w_frozensettype) W_FrozensetObject.__init__(w_obj, space, None) return w_obj frozenset_typedef = StdTypeDef( "frozenset", __doc__="""frozenset(iterable) --> frozenset object Build an immutable unordered collection.""", __new__=newmethod(descr__frozenset__new__), ) frozenset_typedef.custom_hash = True frozenset_typedef.registermethods(globals())
' one of the sets.)') frozenset_union = SMM('union', 2, doc='Return the union of two sets as a' ' new set.\n\n(i.e. all elements' ' that are in either set.)') frozenset_reduce = SMM('__reduce__',1, doc='Return state information for' ' pickling.') register_all(vars(), globals()) def descr__frozenset__new__(space, w_frozensettype, w_iterable=NoneNotWrapped): from pypy.objspace.std.setobject import W_FrozensetObject from pypy.objspace.std.setobject import _is_frozenset_exact if _is_frozenset_exact(w_iterable): return w_iterable w_obj = space.allocate_instance(W_FrozensetObject, w_frozensettype) W_FrozensetObject.__init__(w_obj, space, None) return w_obj frozenset_typedef = StdTypeDef("frozenset", __doc__ = """frozenset(iterable) --> frozenset object Build an immutable unordered collection.""", __new__ = newmethod(descr__frozenset__new__), ) frozenset_typedef.custom_hash = True frozenset_typedef.registermethods(globals())
W_ComplexObject.__init__(w_obj, realval, imagval) return w_obj def complexwprop(name): def fget(space, w_obj): from pypy.objspace.std.complexobject import W_ComplexObject if not isinstance(w_obj, W_ComplexObject): raise OperationError(space.w_TypeError, space.wrap("descriptor is for 'complex'")) return space.newfloat(getattr(w_obj, name)) return GetSetProperty(fget) def descr___getnewargs__(space, w_self): from pypy.objspace.std.complexobject import W_ComplexObject assert isinstance(w_self, W_ComplexObject) return space.newtuple([space.newcomplex(w_self.realval,w_self.imagval)]) complex_typedef = StdTypeDef("complex", __doc__ = """complex(real[, imag]) -> complex number Create a complex number from a real part and an optional imaginary part. This is equivalent to (real + imag*1j) where imag defaults to 0.""", __new__ = newmethod(descr__new__), __getnewargs__ = newmethod(descr___getnewargs__), real = complexwprop('realval'), imag = complexwprop('imagval'), ) complex_typedef.custom_hash = True complex_typedef.registermethods(globals())