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I recently read an interview with Lua co-creators Luiz H. de Figueredo and Roberto Ierusalimschy, where they discussed the design, and implementation of Lua. It was very intriguing to say the least. However, one part of the discussion brought something up in my mind. Roberto spoke of Lua as a "freestanding application" (that is, it's pure ANSI C that uses nothing from the OS.) He said, that the core of Lua was completely portable, and because of its purity has been able to be ported much more easily and to platforms never even considered (such as robots, and embedded devices.)

Now this makes me wonder. C in general is a very portable language. So, what parts of C (namely those in the the standard library) are the most unportable? and what are those that can be expected to work on most platforms? Should only a limited set of data types be used (e.g. avoiding short and maybe float)? What about the FILE and the stdio system? malloc and free? It seems that Lua avoids all of these. Is that taking things to the extreme? Or are they the root of portability issues? Beyond this, what other things can be done to make code extremely portable?

The reason I'm asking all of this, is because I'm currently writing an application in pure C89, and it's optimal that it be as portable as possible. I'm willing take a middle road in implementing it (portable enough, but no so much that I have to write everything from scratch.) Anyways, I just wanted to see what in general is key to writing the best C code.

As a final note, all of this discussion is related to C89 only.

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What they mean in the interview, if it is the one in Masterminds of Programming that you're referring to, is that the Lua library is freestanding. No full-blown app can provide that kind of portability; it will either have to talk to the OS (which can be done portably to some extent) or talk to the hardware itself (which cannot). –  larsmans Feb 15 '11 at 1:26

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In the case of Lua, we don't have much to complain about the C language itself but we have found that the C standard library contains many functions that seem harmless and straight-forward to use, until you consider that they do not check their input for validity (which is fine if inconveninent). The C standard says that handling bad input is undefined behavior, allowing those functions to do whatever they want, even crash the host program. Consider, for instance, strftime. Some libc's simply ignore invalid format specifiers but other libc's (e.g., in Windows) crash! Now, strftime is not a crucial function. Why crash instead of doing something sensible? So, Lua has to do its own validation of input before calling strftime and exporting strftime to Lua programs becomes a chore. Hence, we have tried to stay clear from these problems in the Lua core by aiming at freestanding for the core. But the Lua standard libraries cannot do that, because their goal is to export facilities to Lua programs, including what is available in the C standard library.

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"Freestanding" has a particular meaning in the context of C. Roughly, freestanding hosts are not required to provide any of the standard libraries, including the library functions malloc/free, printf, etc. Certain standard headers are still required, but they only define types and macros (for example stddef.h).

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C89 allows two types of compilers: hosted and freestanding. The basic difference is that a hosted compiler provides all of the C89 library, while a freestanding compiler need only provide <float.h>, <limits.h>, <stdarg.h>, and <stddef.h>. If you limit yourself to these headers, your code will be portable to any C89 compiler.

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But what the code will do may still be implementation-defined. –  larsmans Feb 15 '11 at 1:06
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@larsmans: That is almost equivalent to saying "the code may have bugs". Avoiding implementation-defined behaviour is not that hard, particularly if you're targetting the freestanding subset of C. –  caf Feb 15 '11 at 2:36

This is a very broad question. I'm not going to give the definite answer, instead I'll raise some issues.

Note that the C standard specifies certain things as "implementation-defined"; a conforming program will always compile on and run on any conforming platform, but it may behave differently depending on the platform. Specifically, there's

  • Word size. sizeof(long) may be four bytes on one platform, eight on another. The sizes of short, int, long etc. each have some minimum (often relative to each other), but otherwise there are no guarantees.
  • Endianness. int a = 0xff00; int b = ((char *)&a)[0]; may assign 0 to b on one platform, -1 on another.
  • Character encoding. \0 is always the null byte, but how the other characters show up depends on the OS and other factors.
  • Text-mode I/O. putchar('\n') may produce a line-feed character on one platform, a carriage return on the next, and a combination of each on yet another.
  • Signedness of char. It may or it may not be possible for a char to take on negative values.
  • Byte size. While nowadays, a byte is eight bits virtually everywhere, C caters even to the few exotic platforms where it is not.

Various word sizes and endiannesses are common. Character encoding issues are likely to come up in any text-processing application. Machines with 9-bit bytes are most likely to be found in museums. This is by no means an exhaustive list.

(And please don't write C89, that's an outdated standard. C99 added some pretty useful stuff for portability, such as the fixed-width integers int32_t etc.)

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Most of the useful stuff C99 added is easily tacked onto a legacy C89 compiler just by updating the header files and possibly adding some library functions, so there's really no sane reason to avoid it. On the other hand some C99 features like VLA require compiler support - but they're not very useful. –  R.. Feb 15 '11 at 1:11
    
@R..: I'm not saying all of C99 is useful for the OP's purposes. Also, please tell me how to define int32_t in a portable manner. (Or how to define snprintf as a macro.) –  larsmans Feb 15 '11 at 1:17
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I was agreeing with you. I never said you could implement int32_t portably (although it's fairly easy, assuming a 32-bit type exists at one of the standard integer types, to do it with #if and limits.h) nor that you could implement snprintf as a macro. I just said you can add it (not necessarily portably) without modifying the compiler. –  R.. Feb 15 '11 at 3:19
    
@R..: Excuse me, misread you. –  larsmans Feb 15 '11 at 11:34

Anything that is a part of the C89 standard should be portable to any compiler that conforms to that standard. If you stick to pure C89, you should be able to port it fairly easily. Any portability problems would then be due to compiler bugs or places where the code invokes implementation-specific behavior.

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I think that the point is there are some darker corners of C89, which different compilers interpret differently. –  Alexander Gladysh Feb 15 '11 at 0:41
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Another way to boost portability is to build your application using a portable compiler like gcc. That way, any "implementation-specific" behavior should be the same on different platforms. –  bta Feb 15 '11 at 0:44
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That's nonsense. GCC will assign different sizes to integers, depending on the platform. –  larsmans Feb 15 '11 at 1:08
    
@larsmans- That's true, variable sizes are dependent on platform as well as compiler. I was mainly referring to the "darker corners" that Alexander Gladysh mentioned above. –  bta Feb 15 '11 at 1:35
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Maybe "monsense" was too strong a term, but a "portable" compiler alone will not buy the OP very much; GCC on MinGW provides a different library and set of headers compared to GCC on Linux, GCC on FreeBSD or GCC on OpenVMS. –  larsmans Feb 15 '11 at 1:47

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