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I see variables defined with this type but I don't know where it comes from, nor what is its purpose. Why not use int or unsigned int? (What about other "similar" types? Void_t, etc).

marked as duplicate by Mooing Duck, talonmies, Rudi, T I, Dirk Aug 10 '13 at 9:11

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  • Exact Question: stackoverflow.com/questions/502856/… – kjfletch Jul 13 '09 at 13:23
  • @kjfletch: hhhmmm, it's weird that searching for term 'size_t' (as I did previously) didn't return that question. – Eliseo Ocampos Jul 13 '09 at 13:40
  • @Eliseo Ocampos, and it didn't come up when you enetered your question subject? Very strange. Hope you got your answers. – kjfletch Jul 13 '09 at 13:42
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    The OP specifically asked Where do I find the definition of size_t? I landed here searching for the same thing. The cited dup does not discuss where to find the declaration. – jww Jul 27 '15 at 16:06
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    This question is obviously not the same question as the one linked. "Where do I find something" is not the same thing as "What is the difference between" (even if the answer to one provides the answer to the other). My Google search for 'c++ where is size_t definition' took me straight here, and I would have missed the other question, because it's different. – Dan Nissenbaum Nov 22 '16 at 5:09

From Wikipedia

The stdlib.h and stddef.h header files define a datatype called size_t1 which is used to represent the size of an object. Library functions that take sizes expect them to be of type size_t, and the sizeof operator evaluates to size_t.

The actual type of size_t is platform-dependent; a common mistake is to assume size_t is the same as unsigned int, which can lead to programming errors,2 particularly as 64-bit architectures become more prevalent.

From C99 7.17.1/2

The following types and macros are defined in the standard header stddef.h



which is the unsigned integer type of the result of the sizeof operator

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    For example, on Win64, int and unsigned int types are 32 bits, while size_t is 64 bits. – Michael Burr Jul 13 '09 at 15:45
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    Please refer to ISO C(99) standard (from which the C++ standard includes) sections 7.17 and 7.18.3 – Martin York Jul 13 '09 at 16:50
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    @LokiAstari why don't you just edit the answer since you're know where it is written in the standard? – Hi-Angel Oct 2 '14 at 6:19
  • So where is the C++ answer ? – Lothar Nov 7 '17 at 3:34
  • @Lothar I think the only difference is that size_t may be a keyword, and otherwise has the same meaning. – Paul Stelian Mar 30 '18 at 16:56

size_t is the unsigned integer type of the result of the sizeof operator (ISO C99 Section 7.17.)

The sizeof operator yields the size (in bytes) of its operand, which may be an expression or the parenthesized name of a type. The size is determined from the type of the operand. The result is an integer. The value of the result is implementation-defined, and its type (an unsigned integer type) is size_t (ISO C99 Section

  • The best answer as it quotes the standard. – Martin York Jul 13 '09 at 16:51
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    @Martin - true enough, but I think that the 'why isn't unsigned int used' part of the question is as interesting (or more) as the 'what is size_t' part, and you won't find that in the standard. – Michael Burr Jul 13 '09 at 19:19
  • Yeah, except there is no 'Section 17.17' :p. It's rare, no one said a word about Void_t – Eliseo Ocampos Jul 14 '09 at 1:43
  • I accept this answer as it responds directly the question, but it would be great if it's complimented with Michael's answer. – Eliseo Ocampos Jul 14 '09 at 15:15
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    Pity your answer doesn't tell me what header file to include. – Matt Dec 7 '11 at 8:06

According to size_t description on en.cppreference.com size_t is defined in the following headers :



Defined in header <cstddef>         
Defined in header <cstdio>      
Defined in header <cstring>         
Defined in header <ctime>       
Defined in header <cwchar>
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    This is exactly what I needed, this answer should be upvoted. – neodelphi Aug 3 '17 at 12:48

Practically speaking size_t represents the number of bytes you can address. On most modern architectures for the last 10-15 years that has been 32 bits which has also been the size of a unsigned int. However we are moving to 64bit addressing while the uint will most likely stay at 32bits (it's size is not guaranteed in the c++ standard). To make your code that depends on the memory size portable across architectures you should use a size_t. For example things like array sizes should always use size_t's. If you look at the standard containers the ::size() always returns a size_t.

Also note, visual studio has a compile option that can check for these types of errors called "Detect 64-bit Portability Issues".


This way you always know what the size is, because a specific type is dedicated to sizes. The very own question shows that it can be an issue: is it an int or an unsigned int? Also, what is the magnitude (short, int, long, etc.)?

Because there is a specific type assigned, you don't have to worry about the length or the signed-ness.

The actual definition can be found in the C++ Reference Library, which says:

Type: size_t (Unsigned integral type)

Header: <cstring>

size_t corresponds to the integral data type returned by the language operator sizeof and is defined in the <cstring> header file (among others) as an unsigned integral type.

In <cstring>, it is used as the type of the parameter num in the functions memchr, memcmp, memcpy, memmove, memset, strncat, strncmp, strncpy and strxfrm, which in all cases it is used to specify the maximum number of bytes or characters the function has to affect.

It is also used as the return type for strcspn, strlen, strspn and strxfrm to return sizes and lengths.


size_t should be defined in your standard library's headers. In my experience, it usually is simply a typedef to unsigned int. The point, though, is that it doesn't have to be. Types like size_t allow the standard library vendor the freedom to change its underlying data types if appropriate for the platform. If you assume size_t is always unsigned int (via casting, etc), you could run into problems in the future if your vendor changes size_t to be e.g. a 64-bit type. It is dangerous to assume anything about this or any other library type for this reason.


I'm not familiar with void_t except as a result of a Google search (it's used in a vmalloc library by Kiem-Phong Vo at AT&T Research - I'm sure it's used in other libraries as well).

The various xxx_t typedefs are used to abstract a type from a particular definite implementation, since the concrete types used for certain things might differ from one platform to another. For example:

  • size_t abstracts the type used to hold the size of objects because on some systems this will be a 32-bit value, on others it might be 16-bit or 64-bit.
  • Void_t abstracts the type of pointer returned by the vmalloc library routines because it was written to work on systems that pre-date ANSI/ISO C where the void keyword might not exist. At least that's what I'd guess.
  • wchar_t abstracts the type used for wide characters since on some systems it will be a 16 bit type, on others it will be a 32 bit type.

So if you write your wide character handling code to use the wchar_t type instead of, say unsigned short, that code will presumably be more portable to various platforms.

  • This is what I was looking for, partly. As I said in a comment in fpmurphy's answer, it would be great that it can be complemented with this answer (If you don't mind maybe you can edit it) :) – Eliseo Ocampos Jul 14 '09 at 15:21

In minimalistic programs where a size_t definition was not loaded "by chance" in some include but I still need it in some context (for example to access std::vector<double>), then I use that context to extract the correct type. For example typedef std::vector<double>::size_type size_t.

(Surround with namespace {...} if necessary to make the scope limited.)


As for "Why not use int or unsigned int?", simply because it's semantically more meaningful not to. There's the practical reason that it can be, say, typedefd as an int and then upgraded to a long later, without anyone having to change their code, of course, but more fundamentally than that a type is supposed to be meaningful. To vastly simplify, a variable of type size_t is suitable for, and used for, containing the sizes of things, just like time_t is suitable for containing time values. How these are actually implemented should quite properly be the implementation's job. Compared to just calling everything int, using meaningful typenames like this helps clarify the meaning and intent of your program, just like any rich set of types does.

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