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For some reason, when I define a variable as "uint" instead of "unsigned int" in my program, it errors. This seems strange, because uint is typedef'd as:

typedef unsigned int uint;

...so I would think that I could use the two interchangeably. To be more exact, I am assigning the result of a function which returns "unsigned int" into a uint variable, then using that uint in a vector resize call... at which point it errors. Ie, my code looks something like this:

unsigned int getUInt()
{
    return 3;
}

int main(void) {
    vector<vector<float> > vectVect(100000);
    for(uint i = 0; i < vectVect.size(); ++i)
    {
        vector<float>& myVect = vectVect[i];
        uint myUnsignedInt = getUInt();
        myVect.resize(myUnsignedInt);
    }
    cout << "finished" << endl;
}

...and the line it errors at is the myVect.resize line.

Obviously, I already have a solution, but I'd like to understand WHY this is happening, as I'm pretty baffled. Anyone have any ideas?

PS - In case anyone thinks it may matter, I'm using gcc v4.1.2 on fedora 15... and the include file which defines uint is /usr/include/sys/types.h.

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9  
Whenever you get an error, you always need to include the error in question in your question. –  Seth Carnegie Nov 17 '11 at 7:03
1  
You should show the real code which is failing. In particular the #include-s, the using declarations, etc. And GCC 4.6 is probably much more standard conformant than 4.1 was. –  Basile Starynkevitch Nov 17 '11 at 7:04
    
And as you can see here, the error doesn't occur in the example you've provided (at least with that version of gcc). –  Seth Carnegie Nov 17 '11 at 7:07
    
And for the heck of it, gcc 4.3.4 does not produce the error either. –  Matthieu M. Nov 17 '11 at 7:12
1  
The error was a segfault at runtime - and after further digging, I think the typdef is unrelated. It must be some sort of issue with unallocated memory being written over, and changing that typedefjust happened to change the code in some random way that it worked. Thanks for the feedback, though! –  Paul Molodowitch Nov 18 '11 at 7:20
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3 Answers

up vote 3 down vote accepted

My guess is that there is another uint in the system. Try renaming yours to something unusual or even better wrap it in a namespace.

namespace MY {
    typedef unsigned int uint;
}

for (MY::uint i = 0; ....
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just going to pick this as the answer, since it was a good guess, and I never did figure out exactly what was going on... –  Paul Molodowitch Dec 12 '12 at 23:22
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My guess is that it's trying to form a "hierarchy" of some sort.

In other words, we have:

typedef unsigned int size_t;
typedef unsigned int uint;

If size_t is "more specific" than a generic unsigned int, then it makes sense to prevent it from being converted to uint, which may be "more specific" than any old unsigned int.

I would expect this to be a warning if anything, though, not an error...

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3  
I don't think that's it. A typedef creates an alias for a type, not a new type. So given the above declarations, unsigned int, size_t, and uint are all the same type (as are unsigned and int unsigned). –  Keith Thompson Nov 17 '11 at 10:06
    
@KeithThompson: That's what should happen, I agree; I'm guessing maybe the compiler was accidentally doing this instead, but idk. –  Mehrdad Nov 17 '11 at 10:54
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I don't think so. You've made it a separate type. For the same reason, const char * and void * can't be used interchangeably because they're typed differently, even though they're the same under the covers. You can, of course, recast them successfully.

If you simply want to make your life easier, and you're under Windows (you don't say), you could use UINT, which gives you the simplicity of the same thing without making a separate type. Or #define UINT unsigned integer, if not Windows. Sure, this circumvents type checking, but that's what you're complaining about to begin with.

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This is incorrect. typedef unsigned int uint creates a synonym for unsigned int. Under a conformant compiler, uint and unsigned int are one and the same type after this typedef. –  Gorpik Nov 17 '11 at 11:52
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