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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)

or

MMapWriter::writeAt(size_t offset, const void* src, size_t size)
59

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.

8
  • 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
13

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.

3
  • 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
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    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
0

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.

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