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I just started learning C++ and have a question about vectors. The book I'm reading states that if I want to extract the size of a vector of type double (for example), I should do something like:

vector<double>::size_type vector_size;
vector_size = myVector.size();

Whereas in Java I might do

int vector_size;
vector_size = myVector.size();

My question is, why is there a type named vector::size_type? Why doesn't C++ just use int?

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There are answers in this question – ks1322 Oct 3 '11 at 14:28
In C++11, you can say auto vector_size = myVector.size(); and worry a little less ;) – fredoverflow Oct 16 '11 at 21:49
@FredOverflow That's no good if you're initializing vector_size to 0 but you intend to use it as a vector<double>::size_type. – Brian Gordon Mar 3 '14 at 13:19
@BrianGordon I don't understand your objection. If myVector is of type std::vector<double>, and you write auto vector_size = myVector.size(); then vector_size is of type std::vector<double>::size_type, no matter if the vector is empty or not. Please clarify. – fredoverflow Mar 3 '14 at 15:34
If you have for(std::vector<double>::size_type i=0; i<myVector.size(); i++) then auto cannot be used to declare i. – Brian Gordon Mar 3 '14 at 18:06
up vote 17 down vote accepted

C++ is a language for library writing*, and allowing the author to be as general as possible is one of its key strengths. Rather than prescribing the standard containers to use any particular data type, the more general approach is to decree that each container expose a size_type member type. This allows for greater flexibility and genericity. For example, consider this generic code:

template <template <typename...> Container, typename T>
void doStuff(const Container<T> & c)
  typename Container<T>::size_type n = c.size();
  // ...

This code will work on any container template (that can be instantiated with a single argument), and we don't impose any unnecessary restrictions on the user of our code.

(In practice, most size types will resolve to std::size_t, which in turn is an unsigned type, usually unsigned int or unsigned long -- but why should we have to know that?)

*) I'm not sure what the corresponding statement for Java would be.

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+1 Beat me to it. – Mark B Oct 3 '11 at 14:33
* A friend of mine once said that Java is a language for baboon coders, but I haven't enough experience with it to confirm or deny this claim. :P – Matteo Italia Oct 3 '11 at 14:34
@Kerrek Unless you are on a 64 bit system where std::size_t is probably a 64 bit type. – xanatos Oct 3 '11 at 14:45
@xanatos: that's true. Maybe we should dig up some of the common typedefs, out of curiosity. – Kerrek SB Oct 3 '11 at 14:48

Java does not have unsigned integer types, so they have to go with int.

Contrarily, C++ does and uses them where appropriate (where negative values are nonsensical), the canonical example being the length of something like an array.

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The reason why the standard uses size_t, rather than int, is because on some smaller machines, int wouldn't have been large enough (and going to long would have incurred a performance penalty). The use of an unsigned type here is generally recognized as a flaw, since unsigned types in C and C++ work in somewhat funny ways. (Basically, an expression like abs(i1 - i2) should correctly give the distance between two index types. It doesn't if i1 or i2 are unsigned.) – James Kanze Oct 3 '11 at 16:26

The C++ standard says that a container's size_type is an unsigned integral type, but it doesn't specify which one; one implementation might use unsigned int and another might use unsigned long, for example.

C++ isn't "shielded" from platform-specific implementation details as much as Java is. The size_type alias helps to shield your code from such details, so it'll work properly regardless of what actual type should be used to represent a vector's size.

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My personal feeling about this is that it is for a better code safety/readability.

For me int is a type which conveys no special meaning: it can number apples, bananas, or anything.

size_type, which is probably a typedef for size_t has a stronger meaning: it indicates a size, in bytes.

That is, it is easier to know what a variable mean. Of course, following this rationale, there could be a lot of different types for different units. But a "buffer size" is really a common case so it somehow deserves a dedicated type.

Another aspect is code maintability: if the container suddenly changes its size_type from say, uint64_t to unsigned int for instance, using size_type you don't have to change it in every source code relying on it.

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The book you’re reading states that if you want to extract the size of a vector of type double (for example), you should do something like:

    vector<double>::size_type vector_size;
    vector_size = myVector.size();

Whereas in Java you might do

    int vector_size;
    vector_size = myVector.size();

Both are inferior options in C++. The first is extremely verbose and unsafe (mostly due to implicit promotions). The second is verbose and extremely unsafe (due to number range).

In C++, do

    ptrdiff_t const vectorSize = myVector.size();

Note that

  • ptrdiff_t, from the stddef.h header, is a signed type that is guaranteed large enough.

  • Initialization is done in the declaration (this is better C++ style).

  • The same naming convention has been applied to both variables.

In summary, doing the right thing is shorter and safer.

Cheers & hth.,

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I'm not sure I understand why the first method is unsafe. What do you mean by implicit promotions? – user485498 Oct 3 '11 at 15:19
Unless they've fixed it in C++11, ptrdiff_t is not guaranteed to be large enough. It's possible to have objects the size of which cannot be represented in a ptrdiff_t. – James Kanze Oct 3 '11 at 16:36
@James: there's not room enough here to discuss how an array of char might be too large in a 16-bit address space. the answer for a 3 GiB array of char in 32-bit address space is that it's not supported by the standard (ptrdiff_t is required to be large enough), so deal specially with it if you must have that beast. Personally, I have never encountered the 3 GiB array of char. :-) – Cheers and hth. - Alf Oct 3 '11 at 17:17
@AlfP.Steinbach I've never needed a 3 GiB array of char either, but I've used 32 bit implementations which supported them (Sun CC under Solaris, g++ under Linux on a 32 bit PC). The C standard definitely allows pointer subtraction to overflow (resulting in undefined behavior), and as far as I know, the C++ standard just passes the buck on to the C standard here. – James Kanze Oct 3 '11 at 17:32
@James: there seems to me to be a dispute here between 5.7 and 18.2 in C++11. 5.7 says that overflow is possible, 18.2 says that ptrdiff_t "can hold the difference of two subscripts in an array object, as described in 5.7". This is different from the text in C89/C99, which just says that ptrdiff_t is the type of the result of pointer subtraction, not that it can in general hold the value. It reads to me as if whoever wrote it was expecting the issue to be resolved in C++11, but there's still a difference in language between 18.2/6 (big enough for any object) and /5 (an array object). – Steve Jessop Oct 4 '11 at 17:54

You can use int, that types are created to portability of code.

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Especially for portability between 32bit and 64bit machines, no? – arne Oct 3 '11 at 14:28
You can, but don't. At the least, use std::size_t. – GManNickG Oct 3 '11 at 14:29
Or with a new enough compiler, just auto size = myVector.size(); – Useless Oct 3 '11 at 14:31

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