Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am used to C, where header files usually only contain declarations and not definitions, but C++ seems to encourage the mixing of both, at least with classes. Take this class declaration which could easily be put in a header file. Some of its methods are defined inline, not in the sense of the "inline" keyword, but inline as in within the class declaration itself. Specifically the constructor and four getters/setters.

MyClass.h:

    class MyClass {
        public:
            MyClass(int a = 0, int b = 1) : _a(a), _b(b)  {};
            int getA() { return _a; };
            int getB() { return _b; };
            void setA(int a) { _a = a; };
            void setB(int b) { _b = b; };
            void doSomething(); // no definition here; defined in source file
            void doSomething2(); // no definition here; defined in source file
            void doSomething3(); // no definition here; defined in source file
        private:
            int _a;
            int _b;
    };

Is this bad form and should I define the class's methods separately in a source file, leaving only method declarations in the class declaration, or is this perfectly acceptable?

share|improve this question
add comment

3 Answers

up vote 7 down vote accepted

It may be bad form, depending on the "bigger picture" of the applications using the header. By putting implementation into the header you're requiring modifications to the header when that implementation changes... such modifications trigger/require client object recompilation with many build systems (e.g. make). By way of contrast, out-of-line changes may require relinking, and when shared libraries are used those libraries may be able to be replaced without any changes to the client apps. Consequently, when there's no particular reason to use inlining, low-level headers shared by many applications tend to prefer out of line implementation. This is particularly true when the implementation can be expected to need changes.

Another reason some people prefer separating implementation is to avoid confusing people reading the API as a form of documentation. When there's less to read it's generally clearer, although sometimes the implementation helps in understanding the functionality. But, programmers who see the implementation tend to think about the behavioural/performance implications and build client code that depends on that, even if the interface doesn't make as strict guarantees: this makes the client code fragile should the implementation change.

share|improve this answer
    
The API view is important. It's nice to have a compact place to see all member variables and functions without scrolling through function definitions. –  edA-qa mort-ora-y Dec 17 '10 at 8:57
add comment

Not only is it acceptable, it accomplishes something subtly different than putting the method definitions in the .cpp file. A method defined inside the class block is implicitly inline.

These days inline isn't a strong hint to the compiler, but it does make a difference. In particular having those function definitions readily available to the compiler at the call site may enable inlining, which for setters/getters usually improves both speed and size of the executable.

Do not put method definitions outside the class block yet inside the header file, unless you explicitly tag them inline.

A nitpick, though: you shouldn't begin identifiers with an underscore. You don't have any reserved identifiers there, but it's a good habit to avoid initial underscores.

share|improve this answer
add comment

No, it's perfectly acceptable, and in the case of inline functions or templates sometimes almost necessary.

I like it when people put functions that are more than a line or so in their own separate section of inline functions after all the class declarations though. But most people don't even do that.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.