Slot wrappers

A slot wrapper is installed in the dict of an extension type to access a special method implemented in C. For example, object.__init__ or Integer.__lt__. Note that slot wrappers are always unbound (there is a bound variant called method-wrapper).

EXAMPLES:

sage: int.__add__
<slot wrapper '__add__' of 'int' objects>

Pure Python classes have normal methods, not slot wrappers:

sage: class X(object):
....:     def __add__(self, other):
....:         return NotImplemented
sage: X.__add__    # py2
<unbound method X.__add__>
sage: X.__add__    # py3
<function X.__add__ at ...>
sage.cpython.wrapperdescr.wrapperdescr_call(slotwrapper, self, *args, **kwds)

Call a slot wrapper without any type checks.

The main reason to use this is to call arithmetic slots like __mul__ without having to worry about whether to call T.__mul__(a, b) or T.__rmul__(b, a).

INPUT:

  • slotwrapper – a slot wrapper (for example int.__add__).
  • self – the first positional argument. Normally, this should be of the correct type (an int when calling int.__add__). However, this check is skipped: you can pass an arbitrary object.
  • *args, **kwds – further arguments.

Warning

Since this skips type checks, it can easily crash Python if used incorrectly.

EXAMPLES:

sage: from sage.cpython.wrapperdescr import wrapperdescr_call
sage: wrapperdescr_call(Integer.__mul__, 6, 9)
54
sage: wrapperdescr_call(Integer.__mul__, 7/5, 9)
63/5
sage: from sage.structure.element import Element
sage: wrapperdescr_call(Element.__mul__, 6, 9)
54
sage: wrapperdescr_call(Element.__mul__, 7/5, 9)
63/5
sage: from sage.numerical.mip import MixedIntegerLinearProgram
sage: wrapperdescr_call(type.__call__, MixedIntegerLinearProgram, maximization=False)
Mixed Integer Program (no objective, 0 variables, 0 constraints)