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I'm reviewing another developer's code, which contains the following:

std::string name;
std::string::size_type colon = name.find(":");

I'm arguing that using size_t would be easier to understand and just as safe, since the STL standard states that std::string is std::basic_string<char, std::allocator>, and std::allocator::size_type is size_t.

He wants assurance that that the STL standard couldn't possibly ever change to make this assumption invalid; if the standard could change, then size_type would be safer than size_t.

Could that happen? Is there any other reason to use size_type rather than size_t?

share|improve this question
size_type fits every container, regardless of what type they use, so it is more consistent. – chris May 9 '12 at 16:19
You may assume that name will always be a real std::string. – Chowlett May 9 '12 at 16:21
There is no "STL standard". The C++ standard could change, but then you'd be in a different language (call it, say "C++11") which is not entirely backward compatible with the language you're using right now (call that, say, "C++03"). Porting code from C++03 to C++11 requires knowing what the breaking changes are, and accounting for them. So you can cross that bridge if you ever come to it. Until then, if the standard says it's true, then it's true. IMO the standard is unlikely ever to change in a way that breaks code using size_t for the size of string or vector with default allocator. – Steve Jessop May 9 '12 at 16:36
... you could as well speculate that a future standard might change the return type of find to something other than std::string::size_type. There's no accounting for breaking changes. – Steve Jessop May 9 '12 at 16:46
@SteveJessop - Your second point is, I think, particularly relevant. Yes, string::size_type could change, but so could string::find(). Very good point, thanks! – Chowlett May 10 '12 at 7:41
up vote 6 down vote accepted

size_type should be used in code templated on the container type. When the code you have always operates on std::string, you can just use size_t.

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I think the best way would be to use auto and that way you can automatically conform to whatever the function returns:

auto colon = name.find(":");

It avoids the problem you're describing and it's a lot shorter.

As larsmans mentions in the comments, you may be wanting to store string indices in a struct or whatever without having a variable available to get the return type from. That's doable too:

struct StoreStringIndex {
    decltype(declval<std::string>().length()) length;

But more complicated and not shorter than std::string::size_type though. So for storing things, you probably would want to use the type's size_type, but for local variables and stuff, use auto.

share|improve this answer
Nice solution, but you are sidestepping the problem somewhat; suppose you want to store string indices in a struct or class. – Fred Foo May 9 '12 at 16:26
@larsmans auto + declval + decltype – Seth Carnegie May 9 '12 at 16:29
Or presumably, decltype(declval<std::string>().find(":")) posn_of_colon;? I wonder if C++ is the wrong language to be really hardcore about inferring every type, except of course in template code where you can't avoid it. – Steve Jessop May 9 '12 at 16:43
@SteveJessop find and length have the same return type don't they? Then you don't need to put find(":") in there. – Seth Carnegie May 9 '12 at 16:47
Yes they do (according to the standard), and (according to the standard) that type is size_t, so you could just as well use that. None of them is wrong, but since you're inferring the type, I would have thought that you'd want to infer it from an expression that relates to its use, rather than from some other expression that just so happens to have the same type. So, from length() if the member is used to store a length, and from find() if it's used to store an "index or npos" resulting from a find. – Steve Jessop May 9 '12 at 16:51

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