Lets read the source (I have python2.7.3 on my machine):
Here's where the addition takes place (as far as I can tell):
static PyObject *
int_add(PyIntObject *v, PyIntObject *w)
register long a, b, x;
/* casts in the line below avoid undefined behaviour on overflow */
x = (long)((unsigned long)a + b);
if ((x^a) >= 0 || (x^b) >= 0)
return PyLong_Type.tp_as_number->nb_add((PyObject *)v, (PyObject *)w);
So far, not too bad -- We get C
long types from the python integer types in the
CONVERT_TO_LONG macro. Then they do an addition. Notice how they pull some interesting tricks with casting the various longs in order to detect overflow.* If no overflow is detected, they convert the C
long back into a python object and return it. If there is an overflow, you can see that they then try the addition again -- This time, using the python
long type (
If you look at
int_sub, you'll see that it's pretty much the same thing (with slightly different bit trickery to detect underflow).
int_mul appears to be a little more complicated, and comes with a nice big block comment. Really, the code is littered with comments about how they deal with the overflow/underflow in different situations. It's pretty informative.
- I'm a bit too tired right now to unravel it, but if you do, feel free to leave a comment (or just edit).