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So I am not a C programmer so pardon this question. I was reading this blog entry Google Zopfli Compression and I was a little dumbfounded by the following sentence : "Zopfli is written in C for portability".

How exactly is C a portable language? Or does he not mean portable in a compile-to-machine-code sense, but some other context? I guess C is more portable than writing assembly code. But is that really the comparison he is trying to make? I hope someone can enlighten me as to what he means and how exactly C is a portable language.

Thanks a lot!

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closed as primarily opinion-based by Wooble, Shafik Yaghmour, Joshua Taylor, jlehr, Blair Jan 10 at 22:10

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

    
Are you hoping to use this library on some architecture that has no C compilers available? –  Wooble Jan 10 at 15:05
    
Nope. This is just out of interest! –  Marc HPunkt Jan 10 at 15:06
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This is an unfortunate statement, you do not choose C for portability. –  ouah Jan 10 at 15:08
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@ouah That's a interesting trivia, but (as also stated in the answers) the conclusion is wrong. Oh yes, you can do countless non-portable things in C (more than in higher-level languages). But a reasonable subset of it (core language + some libraries + some extensions) is not only defined such that it can work well on virtually any platform there is, as a matter of fact it is implemented on hundreds of platforms right now. That includes quite a few platforms that will never be supported by any other language, modern or not (e.g. embedded). –  delnan Jan 10 at 15:23
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@MarcHPunkt the bytecode may well be distributable as-is with no extra work needed; but all you're doing is passing off the work to the people who have to port the JVM to your graphing calculator or your washing machine. –  tabstop Jan 10 at 15:25

4 Answers 4

Portable in this context means something like "Anybody can take this source code and compile it on their own computer and have this program." Very nearly all computers drawing power somewhere today have a C compiler available for them (it may not be installed on that machine, but it's either available to be installed or is available as a cross-compiler (eg embedded systems)), so that same source code is portable virtually everywhere. (EDIT: I'm assuming based on context that the source code doesn't have system-specific things in it, as system-specific things would limit your portability.)

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"Portability" has multiple meanings, depending on the context:

  • The C language is "portable" in the sense that C compilers have been written for a wide variety of platforms, from mainframes to microcontrollers;

  • The language is also "portable" in the sense that there is an agreed-upon standard that implementations conform to (to greater or lesser degree), so you don't have subtly different versions of the language depending on the vendor - the behavior of a conforming program should be the same on any conforming implementation;

  • C programs that don't make any assumptions about the system they're running on (type sizes, alignment, endianess) or use system-specific libraries are often "trivially" portable; they only need to be recompiled for the target platform, without needing to edit the source code.

Compared to the majority of its contemporaries (Pascal, Fortran, etc.), C is highly portable, and I spent the bulk of the '90s writing C code that had to run on multiple platforms concurrently (one project required the same code to run on Windows NT, Solaris, and Classic MacOS).

C's portability can be summed up as "write once1, build and run everywhere", where Java and C#'s portability can be summed up as "write and build once, run everywhere."


1. Subject to the caveats in the third bullet

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For a piece of software to be considered cross-platform, it must be able to function on more than one computer architecture or operating system.

Developing such program can be a time-consuming task because different operating systems have different application programming interfaces (API). For example, Linux uses a different API for application software than Windows does.

C is a language you can use in most of the API.

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C code can be directly called in C++, and easily used in C# and I believe Objective-C. That and the wide availability of c compilers, it does make sense.

Of course, the argument can also be made that Java is more portable as far as running it directly on other machines. But Java can't be moved from language to language as easily.

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