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sizeof is a C keyword. It returns the size in a type named size_t. However, size_t is not a keyword, but is defined primarily in stddef.h and probably other C standard header files too.

Consider a scenario where you want to create a C program which does not include any C standard headers or libraries. (Like for example, if you are creating an OS kernel.) Now, in such code, sizeof can be used (it is a C keyword, so it is a part of the language), but the type that it returns (size_t) is not available!

Does not this signify some kind of a problem in the C standard specification? Can you clarify this?

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Many headers are perfectly safe and sensible to include, even in an OS kernel. The issue you are worried about in a kernel is linking to libraries, not including headers. –  RBerteig Apr 11 '09 at 8:08
RBerteig: Just for argument sake, let's say I want to create a C program using just the language, no headers/libraries and I want to use sizeof. –  Ashwin Apr 11 '09 at 8:10
You'd need to write your own implementation library in assembly, most likely. You can't do an awful lot without the headers and libraries (and their associated functions). –  Chris Lutz Apr 11 '09 at 8:11
Standard headers are part of the language. Many do define the interfaces to the standard libraries, and there are good reasons not to use those in a kernel or deep embedded system. But others primarily define useful things related to the implementation: stddef.h, limits.h are examples. –  RBerteig Apr 11 '09 at 8:16
Chris and RBerteig: Yes, but let's consider a program which doesn't use any headers/libraries, just does some arithmetic say. –  Ashwin Apr 11 '09 at 8:59

10 Answers 10

up vote 40 down vote accepted

It does not literally return a value of type size_t since size_t is not a concrete type in itself, but rather a typedef to an unspecified built-in type. Typedef identifiers (such as size_t) are completely equivalent to their respective underlying types (and are converted thereto at compile time). If size_t is defined as an unsigned int on your platform, then sizeof returns an unsigned int when it is compiled on your system. size_t is just a handy way of maintaining portability and only needs to be included in stddef.h if you are using it explicitly by name.

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+1, the right answer. Anything that returns a typedef cannot really be said to return that typedef. It returns whatever the typedef boils down to. If you want portability, include stddef.h. If you don't, look up the definition of size_t on your platform and use that type directly instead. –  Daniel Earwicker Apr 11 '09 at 8:33
Volte: I'm seeing the picture now. So, the compiler cannot "see" size_t, but use a type for sizeof that is exactly the same as what size_t is typedef to in the headers that ship with the compiler. –  Ashwin Apr 11 '09 at 9:08
As pointed out in my answer, the compiler did "see" the typedef of size)t when it itself was compiled - in a sense it "knows" about size_t –  anon Apr 11 '09 at 9:10
Neil Butterworth: I couldn't grok it in your reply, but understood it when I read Volte's reply :-) Now to complicate matters a bit, what will happen with a cross compiler whose native and destination platforms require different size_t? ;-) –  Ashwin Apr 11 '09 at 9:19
The size_t that the compiler saw is at best an implementation detail since conforming C compilers could be written in any language. It is a matter of standard that sizeof's return type is equivalent to size_t, but the actual underlying type is left to the implementation of the compiler. –  Volte Apr 11 '09 at 9:34

sizeof is a keyword because, despite it's name and usage, it is an operator like + or = or < rather than a function like printf() or atoi() or fgets(). A lot of people forget (or just don't know) that sizeof is actually an operator, and is always resolved at compile-time rather than at runtime.

The C language doesn't need size_t to be a usable, consistent language. That's just part of the standard library. The C language needs all operators. If, instead of +, C used the keyword plus to add numbers, you would make it an operator.

Besides, I do semi-implicit recasting of size_ts to unsigned ints (and regular ints, but Kernighan and Ritchie will someday smite me for this) all the time. You can assign the return type of a sizeof to an int if you like, but in my work I'm usually just passing it straight on to a malloc() or something.

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Chris: Thanks for that cogent explanation. But, doesn't that imply that size_t is intimately inside C, like int/char is. Why define it in a header then? –  Ashwin Apr 11 '09 at 9:04
Not that it's widely used (or even supported), but for C99-style variable length arrays, sizeof is evaluated at runtime. –  Michael Burr Apr 11 '09 at 9:49
@Michael - Seriously? Damn. However, C99 is really poorly supported, so I'm sticking to my malloc() and realloc() and free() to do that job for a while. –  Chris Lutz Apr 11 '09 at 9:54
Michael Burr: That is news to me! Thanks for pointing it out :-) –  Ashwin Apr 11 '09 at 9:59
@ChrisLutz Since when is C99 poorly supported? This is news to me. It's not because MSVC fails to implement a standard that is more than a decade old, that that standard is poorly supported... –  rubenvb May 27 '13 at 14:45

Some headers from the C standard are defined for a freestanding environment, i.e. fit for use e.g. in an operating system kernel. They do not define any functions, merely defines and typedefs.

They are float.h, iso646.h, limits.h, stdarg.h, stdbool.h, stddef.h and stdint.h.

When working on an operating system, it isn't a bad idea to start with these headers. Having them available makes many things easier in your kernel. Especially stdint.h will become handy (uint32_t et al.).

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DevSolar: OS kernel was just an example, instead consider a case where I want to write a C program using sizeof, but not including any C header. Thanks for the info about the freestanding environment headers, I wasn't aware of that. –  Ashwin Apr 11 '09 at 9:16

Does not this signify some kind of a problem in the C standard specification?

Look up the difference between a hosted implementation of C and a freestanding C implementation. The freestanding (C99) implementation is required to provide headers:

  • <float.h>
  • <iso646.h>
  • <limits.h>
  • <stdarg.h>
  • <stdbool.h>
  • <stddef.h>
  • <stdint.h>

These headers do not define any functions at all. They define parts of the language that are somewhat compiler specific (for example, the offsetof macro in <stddef.h>, and the variable argument list macros and types in <stdarg.h>), but they can be handled without actually being built into the language as full keywords.

This means that even in your hypothetical kernel, you should expect the C compiler to provide these headers and any underlying support functions - even though you provide everything else.

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Jonathan: That cleared all my doubts, thanks! :-) –  Ashwin Apr 12 '09 at 1:00

I think that the main reasons that size_t is not a keyword are:

  • there's no compelling reason for it to be. The designers of the C and C++ languages have always preferred to have language features be implemented in the library if possible and reasonable
  • adding keywords to a language can create problems for an existing body of legacy code. This is another reason they are generally resistant to adding new keywords.

For example, in discussing the next major revision of the C++ standard, Stroustrup had this to say:

The C++0x improvements should be done in such a way that the resulting language is easier to learn and use. Among the rules of thumb for the committee are:


  • Prefer standard library facilities to language extensions


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Still, it feels quite weird that a built-in operator sizeof yields an expression of a library type size_t. :) –  musiphil Apr 10 at 20:57
@musiphil: it might feel less weird to think of it as: the library must define size_t to be the type that the sizeof operator yields. –  Michael Burr Apr 10 at 21:24

From MSDN:

When the sizeof operator is applied to an object of type char, it yields 1

Even if you don't have stddef.h available/included and don't know about size_t, using sizeof you can get the size of objects relative to char.

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But if you want to store that size somewhere, without risking overflow, you will need the typedef of size_t. –  anon Apr 11 '09 at 8:17
schnaader: All that says is that size_t will be some sort of an integral type, but not exactly what type. –  Ashwin Apr 11 '09 at 9:09
@Neil - Honestly, how often do you find a type for which sizeof() returns something that would overflow even an unsigned char? On my system, even a FILE struct is only 88 bytes. –  Chris Lutz Apr 12 '09 at 4:17

size_t is actually a type - often an unsigned int. Sizeof is an operator that gives the size of a type. The type returned by sizeof is actually implementation-specific, not a C standard. It's just an integer.

Edit: To be very clear, you do not need the size_t type in order to use sizeof. I think the answer you're looking for is - Yes, it is inconsistent. However, it doesn't matter. You can still practically use sizeof correctly without having a size_t definition from a header file.

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Anthony: I'm aware of that. But, size_t is defined in C headers, it's not a part of the language. That's where the disconnect is. –  Ashwin Apr 11 '09 at 8:07
in the c++ standard at least (I don't have the C standard) sizeof is defined as returning size_t not just an integer type, and the clause explicitly referenced stddef.h –  anon Apr 11 '09 at 8:09
Ash: The following code is valid: int main() { double a; unsigned int b = sizeof(a); } Without any headers, this is still correct. The lowest common denominator of size_t is that it is an unsigned integral type. Size_t is basically just a typedef. –  Anthony Apr 11 '09 at 8:15
Anthony Kanago: This might also imply that the compiler you're using is aware of size_t. If we get pedantic, this may not be a valid case since the standard doesn't say the compiler should know about size_t. –  Ashwin Apr 11 '09 at 9:12

There is no reason not to include stddef.h, even if you are working on a kernel - it defines type sizes for your specific compiler that any code will need.

Note also that almost all C compilers are self-compiled. The actual compiler code for the sizeof operator will therefore use size_t and reference the same stddef.h file as does user code.

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Neil: But just for argument sake, let's say I want to create a program that doesn't use any C standard headers or libraries. Just a pure C language program. –  Ashwin Apr 11 '09 at 8:09
The header files are part of the C language! –  anon Apr 11 '09 at 8:10
Neil Butterworth: I couldn't grok it in your reply, but understood it when I read Volte's reply :-) Now to complicate matters a bit, what will happen with a cross compiler whose native and destination platforms require different size_t? ;-) –  Ashwin Apr 11 '09 at 9:23
that of course is why I said "almost all" :-) –  anon Apr 11 '09 at 9:38

size_t is not a keyword by necessity. Different architectures often have different sizes for integral types. For example a 64 bit machine is likely to have an unsigned long long as size_t if they didn't decide to make int a 64 bit datatype.

If you make sizeof a builtin type to the compiler, then it will take away the power to do cross compilation.

Also, sizeof is more like a magic compile time macro (think c++ template) which explains why it is a keyword instead of defined type.

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This argument is moot since even the size of integral types (for example) change depending on the platform. An int could be 4 bytes or 8 bytes and so on, but int is still a keyword. –  Ashwin Apr 11 '09 at 9:13

The simple reason is because it is not a fundamental type. If you look up the C standard you will find that fundamental types include int, char etc but not size_t. Why so? As others have already pointed out, size_t is an implementation specific type (i.e. a type capable of holding the size in number of "C bytes" of any object).

On the other hand, sizeof is an (unary) operator. All operators are keywords.

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Which fundamental type is NOT implementation-specific? That size_t is an implementation-specific type cannot be the reason for its being a library type. –  musiphil Apr 10 at 20:58
There are operators that are NOT in the form of keywords: +, *, ... –  musiphil Apr 10 at 20:59

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