Other than the size of the values that each type can hold, what are the main differences in usage between size_t and off_t? Is it just a convention that size_t types are used for absolute sizes and off_t types are used for offsets? Or does it go deeper than that?

I am writing a wrapper class to enable the writing of large files using mmap and I want to know what the best types are to use for their arguments. Given that I want to write to files > 4GB, I'm tempted to use size_t for everything, but is that the best practice? (or should I be using some off64_t types for certain functions?)

For example, should my writeAt function be declared as:

MMapWriter::writeAt(off64_t offset, const void* src, size_t size)


MMapWriter::writeAt(size_t offset, const void* src, size_t size)

size_t is for objects, off_t is for files.

mmap merges the two concepts, pretty much by definition. Personally I think I'd use size_t, since no matter what else it is, a mapped file is also an array in (virtual) memory.

size_t is standard C++, off_t is Posix, and off64_t is a GNU extension that goes with the functions fopen64, ftello64, etc. I think it should always be the same type as off_t on 64 bit GNU systems, but don't bet your company on that without checking.

Should it be relevant, off_t is signed whereas size_t is unsigned. But the signed counterpart to size_t is ptrdiff_t, so when you need a signed type it doesn't automatically mean you should use off_t or off64_t.

  • Thanks Steve, this is a great help. I guess I hadn't quite made the link that mmap was bridging the two concepts. May 17 '12 at 12:37
  • Great answer, but why in the hell do fread() and fwrite() take size_t then?
    – Nik Reiman
    Jun 9 '13 at 14:35
  • 4
    Notice that there is also ssize_t as a signed counterpart of size_t.
    – fuz
    Jun 10 '14 at 15:37
  • 3
    @NikReiman: I think fread takes size_t because the "most important fact" about the size is how it relates to the buffer. Even if files can be bigger than in-memory objects on your system, the size of the objects read/written by fread/fwrite is limited to memory. But the C standard doesn't handle large files all that well: fseek uses long for the offset, which Posix considers unsatisfactory and therefore introduces fseeko and off_t. Maybe it's just because the C standard originally envisaged that long would always be the biggest integer type, but then Microsoft argued otherwise. Jul 22 '14 at 12:27
  • Don't use off64_t or 64-bit file functions explicitly; adding -D_FILE_OFFSET_BITS=64 to CFLAGS will automatically change all off_t to off64_t on GNU systems while maintaining compatibility with systems that don't understand off64_t. Jan 3 '16 at 16:23

size_t is part of the C++ (and C) standards, and refers to the type of a sizeof expression. off_t is defined by the Posix standard, and refers to the size of a file.

  • So using off_tis non portable? Or do C/C++ standard themselves adhere to the posix standard.
    – Alok Save
    May 17 '12 at 11:25
  • 3
    @Als: The Posix libraries are a set of extensions to the C (and C++) standard. Among the things they add are off_t and the file functions that use it, like lseek. So no, C/C++ do not adhere to Posix. Anyway Posix is a specification for an operating system rather than just one programming language: as well as libraries it includes for example a shell and shell utilities, which are beyond the scope of the C standard (If you like, Posix picks up where the standard definition of system leaves off). May 17 '12 at 11:28
  • 4
    And using off_t "is portable" if you're already using mmap, also a Posix function. It's portable Posix code, it's not portable C++ code. May 17 '12 at 11:34

Good rule of thumb for this scenario. Use whatever function signature that results in you using the least amount of explicit casting, be it c style or c++ style. If you have to cast, c++ style is safer as it is more limited in the types of cast it can do.

The benefit of this is if you port to a platform where the types don't match up (whether it be a signed, size or endianness issue etc.), you should catch most of the bugs at compile time, rather than at runtime. Casting is the sledgehammer approach for squeezing a triangular shaped object into a round hole (more or less your telling the compiler to keep quiet, I know what I'm doing).

Trying to find casting issues at runtime can be a pain as it can be hard to reproduce. It's better to find issues at compile-time rather than runtime. The compiler is your friend.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.