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In C++, if I write a simple game like pong using Linux, can that same code be compiled on Windows and OSX? Where can I tell it won't be able to be compiled?

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that depends on what libraries/functions you use exactly and whether they are available for all platforms... –  Yahia Oct 22 '11 at 20:21

4 Answers 4

C++ is ultra portable and has compilers available on more platforms than you can shake a stick at. Languages like Java are typically touted as being massively cross platform, ironically they are in fact usually implemented in C++, or C.

That covers "portability". If you actually mean, how cross platform is C++, then not so much: The C++ standard only defines an IO library suitable for console IO - i.e. text based, so as soon as you want develop some kind of GUI, you are going to need to use a GUI framework - and GUI frameworks are historically very platform specific. Windows has multiple "native" GUI frameworks now - the C++ framework made available from Microsoft is still MFC - which wraps the native Win32 API which is a C API. (WPF and WinForms are available to CLR C++).

The Apple Mac's GUI framework is called Cocoa, and is an objective-C library, but its easy to access Objective C from C++ in that development environment.

On Linux there is the GTK+ and Qt frameworks that are both actually ported to Windows and Apple, so one of these C++ frameworks can solve your "how to write a GUI application in C++ once that builds and runs on windows, apple mac and linux".

Of course, its difficult to regard Qt as strictly C++ anymore - Qt defines a special markup for signals and slots that requires a pre-compile compile step.

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Even text I/O is difficult to do portably if you need non-ASCII characters. –  dan04 Oct 22 '11 at 20:39
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The dig at Java because it's implemented in C++ is a red herring. Perl, Python and Ruby are written in C, but they're far more portable and C remains a nightmare to code cross platform. –  Schwern Oct 22 '11 at 21:08
    
There's also a compiler for sticks, although shaking is not atomic and you need to watch memory use. –  ssube Oct 22 '11 at 21:48
    
Reading cross-platform unicode from the console can turn into a real undertaking needing basically a whole framework (I use some internal not especially documented boost class to get an UTF8 codecvt under windows..) and I don't think I've seen any single larger cross-platform c/c++ project that didn't have a whole of defines around. Apart from that with enough frameworks it's certainly doable, but contrary to say Java/Python where you really have to work hard to make it non-portable c++ certainly makes it easy to fuck that up :) –  Voo Oct 22 '11 at 21:48

You have three major portability hurdles.

The first, and simplest, is writing C++ code that all the target compilers understand. Note: this is different from writing to the C++ standard. The problem with "writing to the standard" starts with: which standard? You have C++98, C++03, C++TR1 or C++11? These are all revisions to C++ and the newer one you use the less compliant compilers are likely to be. C++ is very large, and realistically the best you can hope for is C++98 with some C++03 features.

Compilers all add their own extensions, and it's all too easy to unknowingly use them. You would be wise to write to the standard and not to the compiler documentation. Some compilers have a "strict" mode where they will turn off all extensions. You would be wise to do primary development in the compiler which has the most strictures and the best standard compliance. gcc has the -Wstrict family of flags to turn on strict warnings. -ansi will remove extensions which conflict with the standard. -std=c++98 will tell the compiler to work against the C++98 standard and remove GNU C++ extensions.

With that in mind, to remain sane you must restrict yourself to a handful of compilers. Even writing a relatively simple C library for multiple compilers is difficult. Fortunately, both Linux and OS X use gcc. Windows has Visual C++, but different versions are more like a squabbling family than a single compiler when it comes to compatibility (with the standard or each other), so you'll have to pick a version or two to support. Alternatively, you can use one of the gcc derived compiler environments such as MinGW.

Next is your graphics and sound library. It has to not just be cross platform, it has to look good and be fast on all platforms. These days there's a lot of possibilities, Simple DirectMedia Layer is one. You'll have to choose at what level you want to code. Do you want detailed control? Or do you want an engine to take care of things? There's an existing answer for this so I won't go into details. Be sure to choose one that is dedicated to being cross platform, not just happens to work. Compatibility bugs in your graphics library can sink your project fast.

Finally, there's the simple incompatibilities which exist between the operating systems. POSIX compliance has come a long way, and you're lucky that both Linux and OS X are Unix under the hood, but Windows will always be the odd man out. Things which are likely to bite you mostly have to do with the filesystem. Here's a handful:

  • Filesystem layout
  • File path syntax (ie. C:\foo\bar vs /foo/bar)
  • Mandatory Windows file locking
  • Differing file permissions systems
  • Differing models of interprocess communication (ie. fork, shared memory, etc...)
  • Differing threading models (your graphics library should smooth this out)

There you have it. What a mess, huh? Cross-platform programming is as much a state of mind and statement of purpose as it is a technique. It requires some dedication and extra time. There are some things you can do to make the process less grueling...

  • Turn on all strictures and warnings and fix them
  • Turn off all language extensions
  • Periodically compile and test in Windows, not just at the end
  • Get programmer who likes Windows on the project
  • Restrict yourself to as few compilers as you can
  • Choose a well maintained, well supported graphics library
  • Isolate platform specific code (for example, in a subclass)
  • Treat Windows as a first class citizen

The most important thing is to do this all from the start. Portability is not something you bolt on at the end. Not just your code, but your whole design can become unportable if you're not vigilant.

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The nice thing about standards is that you have so many to choose from. ;-) –  Voo Oct 22 '11 at 21:39

You can read the standard - if a program respects the standard, it should be compilable on all platforms that have a C++ standard-compliant compiler.

As for 3rd party libraries you might be using, the platform availability is usually specified in the documentation.

When GUI comes to question, there are cross-platform options (such as QT), but you should probably ask yourself - do I really want portability when it comes to UI? Sometimes, it's better to have the GUI part platform-specific.

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Of course, there are no standard-compliant compilers [there used to be one, but then the standard changed], plus the multitude of implementation defined behavior, so "respecting the standard" is only step one. –  Dennis Zickefoose Oct 22 '11 at 20:58

If you are thinking of porting from Linux to Windows, using OPENGL for the graphical part gives you freedom to run your program on both operating systems as long as you don't use any system specific functionality.

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