How do I declare in C/C++ that the code that is written is to be built in either HP-UX or Solaris or AIX?
I found that, a good way to figure this king of question, is, at least with gcc, to have this makefile:
should output all the definitions you have available.
should give you the answer. Example for Linux:
Once you found the define you are looking for, you type at the beginning of your code:
How about a macro passed to the compiler ?
Then test for the macro in your code with a simple
[EDIT: Put some of my comments here in my answer that explain how
Be careful about how you handle this. You should identify the features of the O/S that you want to use by feature, not by O/S, and write your code accordingly. Then, in one header, you can identify which of the features are available on the O/S that you are compiling on. This is the technique used by autoconf, and even if you do not use autoconf itself, the technique it espouses is better than the platform-based technique. Remember, the features found on one O/S often migrate and become available on others too, so if you work by features, you can adapt to the future more easily than if you work solely on the O/S.
You also have to write your code appropriately, and portably. Isolate the O/S dependencies in separate files whenever possible, and code to an abstract O/S interface that does what you need. Taken to an extreme, you end up with a Java JVM; you don't need to go that far, but you can obviate most of the problems.
Take a look at portable libraries like the Apache Portable Runtime (APR) library.
And write your code along the lines of:
This is a grossly over-simplified example - there could be a number of fallbacks before you use plain read() and write(). Nevertheless, this is the concept used in the most portable code - things like GCC and Apache and so on.
Perhaps a less convoluted solution that some of those suggested is to consult Pre-defined C/C++ Compiler Macros. This site provides an extensive list of compiler macros for a large number of compiler/OS/Architecture combinations.