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I have a bunch of classes such as the following,


class SomeClass : public Function{
public:

   ref call(ref args){
    // do & return stuff
   }

   int getType(){return TYPE;}
   ref toString(){ return "SomeClass";}
};

I got like 50 of these and the only thing that is different is the body of the call function. Is it possible to have a macro that will take a name and a body and replace "SomeClass" with name and insert body into call function?

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1  
you'll still end up having to write those 50 classes. Have a look at Boost.Preprocessor and the concept of Preprocessor List –  Joel Falcou May 7 '11 at 22:23
    
@unapersson, can you tell me what it is? it sure isn't French. –  Hamza Yerlikaya May 7 '11 at 22:28
    
@Joel Falcou, where I am doing this (on a microcontroller) I can't run Boost. –  Hamza Yerlikaya May 7 '11 at 22:29
1  
he, the Preprocessor library is just a bunch of macros in headers, so no worries on your MC stuff –  Joel Falcou May 7 '11 at 22:31
    
You can use Boost.Preprocessor with practically any C or C++ compiler; it only utilizes the preprocessor so it should not affect performance at all. It is very useful for code generation. –  James McNellis May 7 '11 at 22:32

3 Answers 3

up vote 4 down vote accepted

Sure. Expanding the body of the call member function is a bit easier if you have a compiler that supports variadic macros. While I've used Boost.Preprocessor's stringize macro, it is trivial to write your own.

#define DEFINE_CLASS(name, parenthesized_call_body)                 \
    class name : public Function {                                  \
        ref call (ref args) {                                       \
            DEFINE_CLASS_CALL_BODY parenthesized_call_body          \
        }                                                           \
        int getType() { return TYPE; }                              \
        const char* toString() { return BOOST_PP_STRINGIZE(name); } \
    };

#define DEFINE_CLASS_CALL_BODY(...) __VA_ARGS__

Used as:

DEFINE_CLASS(SomeClass, (return ref()))

The call body needs to be parenthesized so that any commas present in the body are not treated as macro argument separators. Alternatively, you could just declare the call function in the class definition and then define that function separately.

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4  
Just say no to preprocessor abuse. –  Chris May 7 '11 at 22:32
    
@Chris: Using the preprocessor for code generation is not preprocessor abuse. (I don't know that I'd use a macro for the OP's specific use case, but I regularly use macros for defining enumerations and exception classes where I would otherwise have to write repetitive, unmaintainable code.) –  James McNellis May 7 '11 at 22:33
    
Hey I didn't downvote you or anything, it's a good answer, but in general I've found that this kind of preprocessor magic leads to nightmares for the maintainers down the line. –  Chris May 7 '11 at 22:36
    
using boost.preprocessor FILE_ITERATE is actually nicer as you have your code not embedded in a macro but as a part of a file. Error goes where they should when reported by the compiler and you keep syntax hightlighting –  Joel Falcou May 7 '11 at 22:39
2  
@Chris tend to disagree. This is very clean and easily maintainable macros. Defining something in one place in such structured manner makes maintenance easy. –  Andrey May 7 '11 at 22:52

To avoid wrapping the body of the function in a macro invocation, you can split the class-defining macro into prefix and suffix:

#define DEFINE_FUNCTION_CLASS_BEGIN(name) \
    class name : public Function { \
    public: \
        ref call(ref args) {

#define DEFINE_FUNCTION_CLASS_END \
        } \
        int getType() { return TYPE; } \
        void toString() { return #name; } \
    };

Invoke with:

DEFINE_FUNCTION_CLASS_BEGIN(SomeClass)

// Stuff.

DEFINE_FUNCTION_CLASS_END

Alternatively, use a template:

template<int Type>
class SomeClass : public Function {
public:
    int getType() { return Type; }
    ref call(ref args) {}
    std::string toString() {}
};

And specialise it:

template<>
ref SomeClass<TYPE>::call(ref args) {
    // Stuff.
};

template<>
std::string SomeClass<FOO>::toString() {
    return "FOO";
};
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You've used a mass getType() and toString() functions? This isn't Java or C#, and looking at your code, I think that you need some additional C++ tuition- another example is that you returned "SomeClass" from a function that returns void.

However, what you want can be done with a pretty simple template.

template<typename T> class SomeClass : public Function {
    T t;
public:
    SomeClass(const T& ref)
        : t(ref) {}
    ret call(args) {
        return t(args);
    }
    int getType() { return TYPE; }
    std::string toString() { return "someClass"; } 
};

ret func(argtypes) { ... }
SomeClass<ret(*)(argtypes)> instance(func);
struct lols {
    // .. Whatever you want in here
    ret operator()(args) { ... };
}
SomeClass<lols> anotherinstance(lols()); // or constructor arguments if needed 
share|improve this answer
    
templates won't do, I am trying to insert the function body. –  Hamza Yerlikaya May 7 '11 at 23:05
    
@Hamza: Check my edit. There is no need to use a macro in this scenario. –  Puppy May 7 '11 at 23:08
    
returning void, it is a typo, I am using my own object system, thats why getType and toString is there, I just got tired of writing a half page of explanation as to why I am reinventing the wheel every time I ask a question plz see my earlier questions as to why. –  Hamza Yerlikaya May 7 '11 at 23:32

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