Those methods are the equivalent of python's special methods, and are called in the same circumstances. For example `tp_as_number->nb_add`

is called when executing `a + b`

and `a`

is the extension type.
It is the equivalent of `__add__`

. The `inplace_*`

functions are the equivalents of `__i*__`

methods.

Note that the `__r*__`

methods are implemented simply swapping arguments to the normal functions, thus `5 + a`

where `a`

is an extension type will first try to call the numeric version of `nb_add`

, after this failed it tries `nb_add`

of `a`

putting `5`

as first argument and `a`

as the second one.

The same is true for the `tp_as_mapping`

and `tp_as_sequence`

structs. The `mp_length`

and `sq_length`

functions are called by the built-in function `len`

, and are the equivalent of `__len__`

. Theoretically you could implement different functions for `mp_length`

and `sq_length`

, in which case the `sq_length`

has precedence(this can be seen from the source code, even though I don't know whether this behaviour is documented).

Also note that, for example, the `+`

operator can be implemented in different functions. The `sq_concat`

is called after trying `nb_add`

, and thus an extension type can support `+`

operator without having an `nb_add`

function set.