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I have a API like this,

class IoType {
......
    StatusType writeBytes(......, size_t& bytesWritten);
    StatusType writeObjects(......, size_t& objsWritten);
};

A senior member of the team who I respect seems to have a problem with the type size_t and suggest that I use C99 types. I know it sounds stupid but I always think c99 types like uint32_t and uint64_t look ugly. I do use them but only when it's really necessary, for instance when I need to serialize/deserialize a structure, I do want to be specific about the sizes of my data members.

What are the arguments against using size_t? I know it's not a real type but if I know for sure even a 32-bit integer is enough for me and a size type seems to be appropriate for number of bytes or number of objects, etc.

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2  
The "senior member of the team" is an idiot. –  Nemo Sep 27 '11 at 4:56
    
Did you ask the reason ? –  iammilind Sep 27 '11 at 5:19
    
@iammilind, not yet. I was pondering if it's worth bringing up. –  grokus Sep 27 '11 at 5:24
    
I've had had senior members tell me that shared_ptrs slice (stackoverflow.com/questions/3305753/shared-ptr-and-slicing) That was really frustrating coupled with the fact that he had an alpha geek attitude augmented with a non-argument for why the boost docs were wrong. –  sashang Sep 27 '11 at 6:44

3 Answers 3

up vote 3 down vote accepted

Use exact-size types like uint32_t whenever you're dealing with serialization of any sort (binary files, networking, etc.). Use size_t whenever you're dealing with the size of an object in memory—that's what it's intended for. All of the functions that deal with object sizes, like malloc, strlen, and the sizeof operator all size_t.

If you use size_t correctly, your program will be maximally portable, and it will not waste time and memory on platforms where it doesn't need to. On 32-bit platforms, a size_t will be 32 bits—if you instead used a uint64_t, you'd waste time and space. Conversely, on 64-bit platforms, a size_t will be 64 bits—if you instead used a uint32_t, your program could behave incorrectly (maybe even crash or open up a security vulnerability) if it ever had to deal with a piece of memory larger than 4 GB.

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I agree with you. The problem is that besides using size_t for memory size or array size or string size, etc. I'm using it for number of bytes or number of objects, not entirely its intended use. Is that a good practice? Or at least is that acceptable? –  grokus Sep 27 '11 at 5:06
    
@grokus: Number of bytes is a perfectly good use for size_t. For number of objects, it could go either way: you could use size_t, or you could use a plain old int if you don't think there's any way you'd have over 4 billion objects. –  Adam Rosenfield Sep 27 '11 at 5:11
    
@Adam: regarding "4 billion": an int formally only guarantees the 16-bit range -32767 through +32767. The apparently missing bottom value is because two's complement representation is not guaranteed either. –  Cheers and hth. - Alf Sep 27 '11 at 5:24
    
@Alf: Yes, that's true. If you want to be portable to systems with 16-bit ints, then you need to be more careful, but the fraction of software that gets written these days that needs to be 16-bit compatible is miniscule. –  Adam Rosenfield Sep 27 '11 at 15:01

I can't think of anything wrong in using size_t in contexts where you don't need to serialize values. Also using size_t correctly will increase the code's safety/portability across 32 and 64 bit patforms.

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One thing I should add is that we are a startup and are doing development on a 64-bit platform off the bat, so there is no 32 to 64 bit problem. –  grokus Sep 27 '11 at 5:08
1  
Why look backwards? size_t will also "just work" on tomorrow's 128-bit systems. This is not even a close call. Like I said, your "senior" team member is an idiot. –  Nemo Sep 27 '11 at 5:22
    
@Nemo, fair enough. –  grokus Sep 27 '11 at 13:06

Uhm, it's not a good idea to replace size_t (a maximally portable thing) with a less portable C99 fixed size or minimum size unsigned type.

On the other hand, you can avoid a lot of technical problems (wasted time) by using the signed ptrdiff_t type instead. The standard library’s use of unsigned type is just for historical reasons. It made sense in its day, and even today on 16-bit architectures, but generally it is nothing but trouble & verbosity.

Making that change requires some support, though, in particular a general size function that returns array or container size as ptrdiff_t.


Now, regarding your function signature

    StatusType writeBytes(......, size_t& bytesWritten);

This forces the calling code’s choice of type for the bytes written count.

And then, with unsigned type size_t forced, it is easy to introduce a bug, e.g. by checking if that is less or more than some computed quantity.

A grotesque example: std::string("ah").length() < -5 is guaranteed true.

So instead, make that …

    Size writeBytes(......);

or, if you do not want to use exceptions,

    Size writeBytes(......, StatusType& status );

It is OK to have an enumeration of possible statuses as unsigned type or as whatever, because the only operations on status values will be equality checking and possibly as keys.

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1  
What if you have a 3-gigabyte object on a 32-bit system? –  Keith Thompson Sep 27 '11 at 5:01
1  
@Keith: then you must do as you must do, treat it very specially. :-) Or better, just don't do that. It is likely to cause some severe trashing in Windows (when you have increased available address space from 2G), and I suspect the same is the case for *nix. –  Cheers and hth. - Alf Sep 27 '11 at 5:08

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