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I'm using std::uint32_t and for some reason it's a different data type than unsigned long which is an unsigned 32 on my platform (ARM Cortex M4 K20) ... Any ideas?

Nevermind I guess sometimes you want variable-sized types:

typedef unsigned short Integer16;
typedef std::uint32_t Integer32;

typedef unsigned int FastInteger16;
typedef unsigned long FastInteger32;

Any problems with this?

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closed as not a real question by Robᵩ, Green Chili, Jason Towne, Tyler Crompton, sashoalm Jan 21 '13 at 21:22

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

What does sizeof() report for the two types? –  cdhowie Jan 21 '13 at 16:25
4 on both unsigned long and std::uint32_t... –  Ryan Brown Jan 21 '13 at 16:45
@RyanBrown: So uint32_t is a 32-bit type as it should be. What's the problem? –  Mike Seymour Jan 21 '13 at 16:48
I don't understand your second question: "[how to determine if] std::uint32_t is not 32 bits?". Trust me, std::uint32_t will always be 32 bits. –  Robᵩ Jan 21 '13 at 16:53
The problem is it doesn't match unsigned long 32-bit types defined already... –  Ryan Brown Jan 21 '13 at 17:10

2 Answers 2

The type std::uint32_t is supposed to be exactly 32 bits and an unsigned integer.

But this means it can be unsigned int or unsigned long.
Potentially both these values can be 32 bits long (depending on implementation).

Or barring that any way to do defines telling me if std::uint32_t is not 32 bits so I can conditionally redefine the basic types?

The type std::uint32_t is defined to be 32 bits. This type is optionally defined and is not available if your platform does not have a 32 bit unsigned integer type.

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this answer doesnt seem to match the question... –  Mooing Duck Jan 21 '13 at 16:34

Your desired code is:

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

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I guess typeid is a function and defines can't do functions, at least that code blows up for me with 'function call is not allowed in a constant expression'. –  Ryan Brown Jan 21 '13 at 17:28
@Ryan: typeid is an operator, not a function. But you're correct that you can't use it in preprocessor conditionals. I guess the reason the error says "function" is that the preprocessor is reporting the error, and the preprocessor doesn't know that although typeid(X) looks like a function call, it isn't one. –  Steve Jessop Jan 21 '13 at 17:29

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