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  • Where does size_t come from when I don't have anything included?
  • Is it reasonable to always assume size_t == std::size_t?
  • When should I use the size_type in std containers (string::size_type, vector<T>::size_type, etc)?
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Sounds like a compiler specific – BЈовић Dec 14 '11 at 16:21
Could you explain what you observed for your first point? For your compiler, does size_t a; work as a declaration even when you haven't #included anything? Since it appears to be a question about an implementation, could you tell us which implementation you're using? – David Thornley Dec 14 '11 at 16:41
@DavidThornley That's exactly what I see, I'm using VS2010 – David Dec 14 '11 at 17:32
up vote 10 down vote accepted

Where does size_t come from when I don't have anything included in an empty project?

If you don't have anything included, then you can't use size_t. It's defined in <stddef.h> (and perhaps also in <cstddef>, if your version of that header puts the definitions in the global namespace as well as std).

Is it reasonable to always assume size_t == std::size_t?

Yes. All types and functions defined by the C library are included in the std namespace, as long as you include the appropriate C++ header (e.g. <cstddef> rather than <stddef.h>)

When should I use std::_::size_type?

Do you mean the size_type types defined in some standard classes and templates such as vector? You could use those when using those classes if you like. In most cases, you'll know that it's the same as size_t, so you might as well use that and save a bit of typing. If you're writing generic code, where you don't know what the class is, then it's better to use size_type in case it's not compatible with size_t.

For example, you might want to write a container designed to hold more items than can be represented by size_t. You might use some kind of big number type to represent the container's size, which isn't convertible to size_t. In that case, code like size_t s = c.size() would fail to compile - you'd need to use Container::size_type instead.

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On your first point, I can use size_t when I haven't included anything. For reference - I'm using VS2010. – David Dec 14 '11 at 17:34
@Dave: That's presumably a Microsoft extension to the language - there are a lot of them. Try compiling with language extensions disabled. – Mike Seymour Dec 14 '11 at 17:39
You're right about what I meant by std::____::size_type but can you elaborate on when it could be 'incompatible' with size_t, and the difference between what std::size_t and ::size_type represent? – David Dec 14 '11 at 17:41
@Dave: I've added a bit more detail on that. – Mike Seymour Dec 14 '11 at 17:50

Where does size_t come from when I don't have anything included in an empty project?

size_t is a base unsigned integer memsize-type defined in the standard library of C/C++ languages. It is defined in "stddef.h" for C and in <cstddef> for C++.

Types defined by the header file "stddef.h" are located in the global namespace while <cstddef> header places the size_t type in the namespace std.

"stddef.h" from C is included into C++ for compatibility, and hence the type can be found in both the global namespace (::size_t) and the std namespace (std::size_t).

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size_t is defined in <cstddef> and is in std namespace.

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It would be good(atleast for me to learn) if the downvoter explains the reason. – Sanish Sep 19 '12 at 1:31

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