Your desired code is:

```
#if (typeid(std::uint32_t) == typeid(unsigned long))
typedef unsigned long Integer32;
#else
typedef std::uint32_t Integer32;
```

It's not legal, but what you're trying to say is, in other words "if `uint32_t`

means `unsigned long`

, then `Integer32`

means `unsigned long`

. Otherwise, it means whatever `uint32_t`

means".

That's equivalent to:

```
typedef std::uint32_t Integer32;
```

because in both cases you're aliasing `Integer32`

to mean the same type that `uint32_t`

means. So just write that.

It is guaranteed that `uint32_t`

is an unsigned 32-bit type in a conforming implementation. Since it's not `unsigned long`

on your implementation, then it's almost certainly `unsigned int`

. Those two types, `unsigned long`

and `unsigned int`

, are distinct types even if they're the same size. By contrast, `uint32_t`

is a typedef, so it's the same type as whatever it's typedefed to mean.

To answer your new question:

```
typedef unsigned short Integer16;
```

`unsigned short`

might not be exactly 16 bits (although there aren't many implementations on which it isn't). If you want an exact 16 bit unsigned type then that's what `uint16_t`

is for. It's an optional type, so on implementations that don't have a suitable type your code will result in an informative error, which is almost as well as you can do.

```
typedef std::uint32_t Integer32;
```

OK, with the warning that `uint32_t`

is an optional type. If you prefer the name `Integer32`

then you're free to use it.

```
typedef unsigned int FastInteger16;
```

Use `std::uint_fast16_t`

rather than `unsigned int`

if you want a fast unsigned integer of at least 16 bits.

```
typedef unsigned long FastInteger32;
```

Use `std::uint_fast32_t`

rather than `unsigned long`

if you want a fast unsigned integer of at least 32 bits.

`sizeof()`

report for the two types? – cdhowie Jan 21 '13 at 16:25`uint32_t`

is a 32-bit type as it should be. What's the problem? – Mike Seymour Jan 21 '13 at 16:48[how to determine if]?". Trust me,`std::uint32_t is not 32 bits`

`std::uint32_t`

will always be32 bits. – Robᵩ Jan 21 '13 at 16:53