In Python whenever I had a bunch of functions that I wanted to use across multiple programs I'd make another .py file and then just import that wherever I needed it. How would I do that in C/C++? Do I dump both prototype and implementation into an .h file? or do I need to place the function prototypes in the .h file and the implementations in a separate .cpp file with the same name as the .h file and #include the .h wherever I need it?
You need to do a couple of things:
A couple of other comments. It's normal to have
When using headers, you want to add include guards to protect against the multiple include issue.
In C/C++ we usually put declarations in .h files and implementation in .c/cpp files.
(Note: there're many other ways, for example the include, templates, inline, extern, ... so you may find some code only in header files or only in c/cpp files - for example some of the STL and templates.)
Then you need to "link" the file with your program, which works like the "import" in Python interpreter but actually works in static linking object files together into a single executable file.
However the "link" command and syntax depends on your compiler and OS linker. So you need to check your compiler for more information, for example "ld" on UNIX and "link.exe" on DOS/Windows. Moreover, usually the C compiler will invoke the linker automatically.
For example, say you have 2 files: a.c and b.c (with a.h and b.h), on gcc:
There are two ways to approach this that differ only slightly. As others have said, the first steps are:
-Create a header file which contains your function prototypes. You'll want to mark this with
to prevent problems with multiple inclusions.
-Create a .c file which contains the actual definitions.
Here's where the solutions branch. If you want to include the source directly in your project, make the .c file part of your compilation stage as well as your link stage.
However, if you really plan on using this across multiple projects, you'll probably want to compile this source file independently, and reference the object file from your other projects. This is loosely what a "library" is, though libraries may consist of multiple object modules - each of which has been compiled but not yet linked.
update Someone pointed out that this really only keeps the header from being included in a single cpp file. News flash: that's all you need to do.
Compilers treat each cpp file individually. The header files included by each cpp source file tell the compiler, "hey! This thing is defined in another source file! Assume references that match this prototype are A-OK and keep moving on."
The LINKER, on other other hand, is responsible for fixing up these references, and IT will throw a fit if the same symbol is defined in multiple object files. For that to happen, a function would have to be defined in two separate source files - a real definition with a body, not just an extern prototype - OR the object file that contains its body/definition would have to be included in the link command more than once.
Re:"inline" Use of "inline" is meant as an optmization feature. Functions declared as inline have their bodies expanded inline at each place where they are called. Using this to get around multiple definition errors is very, very bad. This is similar to macro expansion.
See Francis's answer. The sentence that you wrote, "or do I need to place the function prototypes in the .h file and the implementations in a separate .cpp file with the same name as the .h file and #include the .h wherever I need it?", is pretty-much correct. You don't have to do things exactly this way, but it works.
It's up to you how you do this, The compiler doesn't care. But if you put your functions in a .h file, you should declare them
On the other hand, if you make them __inline, you will tend to get a copy created in each place that you use the function. This will bloat the size of your program. So unless the functions are quite small, it's probably best to put the functions in a .cpp and create a parallel .h with function prototypes and public structures. This is the way most programmers work.
On the other hand, in the STL (Standard Template Library), virtually all of the code is in header files. (without the .h extension)