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I am wondering if how I can write a function to detect the parameter type, value and function name and return value of another function.

For example. I have a function:

double average(string datapath, double *data, int numofinput)
{
   // some code here
}

I want to have another function, such as detector(), which can be inserted into the function to be detected, like

double average(string datapath, double *data, int numofinput)
{

   // some code here
   detector();
}

and the detector will return:

name: average
returned value: 2.43
pathname: string='C:/Users/Nick/Data/'
data: pointer=0x0065
numofinput: int=17

Somthing like that. Any suggestion is highly appreciated. Thanks. Nick

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3  
wait, you would even want detector to show you the return value before you actually return anything??? –  Zdeslav Vojkovic Oct 3 '12 at 14:19
    
Sorry, put the detector() after the function is executed. –  Nick Tsui Oct 3 '12 at 14:27
    
so now you want it to execute after return? how? –  Zdeslav Vojkovic Oct 3 '12 at 14:31
2  
It might be technically possible to do this, but it would require some seriously ugly macros. Your function definitions would have to be completely switched out with a macro that only "sortof" looks like a function definition, and your return statement would have to be switched out with a macro that stored the return value immediately before returning it, but that might require that you pass the type into the macro and...yeah, it'd get really ugly really fast. –  Stargazer712 Oct 3 '12 at 14:33
    
You would need a reflection mechanism which does not exist in standard C++. On the other hand, some C++ variants, such as C++/CLI, have it. –  Gorpik Oct 3 '12 at 14:41

3 Answers 3

up vote 2 down vote accepted

In general this can't be done:

  • detector would need to show the return value before you actually return anything, which is same as mind reading
  • when a binary is built, the names of the functions are not available inside it (in general, except for exports)
  • your average function might not be a function at all, as compiler could inline it.

For specific cases, however, you could be able to get this information - under assumption that you have debug symbols available, which in general you don't.

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So when this average function gets called, can I at least know the input arguments' type and value? –  Nick Tsui Oct 3 '12 at 14:29
    
Without debug symbols, no. They can be provided in many different ways, depending on number of parameters, optimizations, etc. Type info is also lost in general. You will not find a type name in the binary. –  Zdeslav Vojkovic Oct 3 '12 at 14:33

Here's an (untested) idea:

#define DETECTOR(name, ...) detector_wrapper(name, #name, ##__VA_ARGS__)

template <typename R, typename ...Args, typename ...Brgs>
R detector_wrapper(R(&f)(Args...), char const * name, Brgs &&... brgs)
{
    auto && result = f(std::forward<Brgs>(brgs)...);

    std::cout << "Function name: " << name << std::endl
              << "Return type:   " << demangle(R) << std::endl 
              << "Return value:  " << result << std::endl;

    return result;
}

Usage:

double d = DETECTOR(average, path, data, n);

With a bit more work you can also print the types of the arguments and their values, though not their names (obviously, since the names are not part of the declaration, only of the definition).

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return std::forward<decltype(result)>(result); (untested). –  Xeo Oct 3 '12 at 14:45
    
this means that ALL calls would have to be wrapped instead of instrumenting just the function. –  Zdeslav Vojkovic Oct 3 '12 at 14:48
    
additionally, unless I missed something, you are calling non-variadic f as variadic - this wouldn't work, would it? –  Zdeslav Vojkovic Oct 3 '12 at 14:52

Ok, here's another way to do it, including printing parameter names and types. It is not very elegant for two reasons:

  1. It requires a new macro for every number of parameters you send, and ...
  2. It's freaking macros! I've never seen them used elegantly (and this is no exception).

So here goes:

#include <iostream>

#define DETECTOR_0ARG_FUNC(RETTYPE, NAME)   \
            RETTYPE NAME() \
            { \
                std::cout << "Function Name: " #NAME << std::endl; \
                std::cout << "Returns: " #RETTYPE << std::endl; \
                std::cout << "No Parameters" << std::endl;

#define DETECTOR_1ARG_FUNC(RETTYPE, NAME, PARAM1TYPE, PARAM1NAME)   \
            RETTYPE NAME(PARAM1TYPE PARAM1NAME) \
            { \
                std::cout << "Function Name: " #NAME << std::endl; \
                std::cout << "Returns: " #RETTYPE << std::endl; \
                std::cout << "Pameter 1 (" #PARAM1TYPE " " #PARAM1NAME "): " << PARAM1NAME << std::endl;

#define DETECTOR_RETURN(RETTYPE, VALUE) \
                RETTYPE __retval = (VALUE); \
                std::cout << "Returning: " << __retval << std::endl << std::endl; \
                return __retval;

#define DETECTOR_END_FUNC   \
            }


DETECTOR_0ARG_FUNC(int, GetFiveFactorial)

    int result = 1;
    for(int i=5; i>0; i--)
    {
        result = result * i;
    }
    DETECTOR_RETURN(int, result)

DETECTOR_END_FUNC


DETECTOR_1ARG_FUNC(int, GetFactorial, int, initVal)

    int result = 1;
    for(int i=initVal; i > 0; i--)
    {
        result = result * i;
    }
    DETECTOR_RETURN(int, result);

DETECTOR_END_FUNC


int main(int argc, char **argv)
{
    GetFiveFactorial();
    GetFactorial(7);
    return 0;
}

The output:

Function Name: GetFiveFactorial
Returns: int
No Parameters
Returning: 120

Function Name: GetFactorial
Returns: int
Pameter 1 (int initVal): 7
Returning: 5040

I kindof don't recommend that you do this. But from a theoretical standpoint, it is possible this way.

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