Yes.

`size_t`

is defined to be an unsigned integer type large enough to contain the size of any object. `uintmax_t`

is defined to be able to store any value of any unsigned integer type. So if `size_t`

can store it, `uintmax_t`

can store it.

Definition of `size_t`

from C++11 §18.2:

The type size_t is an implementation-defined unsigned integer type that is large enough to contain the size in bytes of any object.

Definition of `uintmax_t`

from C99 §7.18.1.5 (it is included in C++ by normative reference):

The following type designates an unsigned integer type capable of representing any value
of any unsigned integer type:

```
uintmax_t
```

`std::size_t`

is (wrongly) signed. So: not always, but it would still map to a unique value so you can go back & forth with no issue. More likely is that`size_t`

is shorter than`uintmax_t`

– Dave Apr 4 '13 at 23:07