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Let's say I have 1000 functions defined as follows

void func dummy1(int a);
void func dummy2(int a, int aa);
void func dummy3(int a, int aa, int aaa);
.
.
.
void func dummy1000(int a, int aa, int aaa, ...);

I want to write a function that takes an integer, n (n < 1000) and calls nth dummy function (in case of 10, dummy10) with exactly n arguments(arguments can be any integer, let's say 0) as required. I know this can be achieved by writing a switch case statement with 1000 cases which is not plausible.

In my opinion, this cannot be achieved without recompilation at run time so languages like java, c, c++ will never let such a thing happen.

Hopefully, there is a way to do this. If so I am curious.

Note: This is not something that I will ever use, I asked question just because of my curiosity.

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Have you looked at reflection before? –  Jon Skeet Feb 19 '13 at 21:19
    
Is the "n args" part of it incidental, or is that the example you wish to find a solution for? If so, check out en.wikipedia.org/wiki/Stdarg.h –  Rahul Banerjee Feb 19 '13 at 21:23
    
"N args" part is not incidental, I included that in question on purpose. I have checked that library now, however I think it doesn't help if you want your functions to have certain number of arguments but calling them without using control statements. –  bfaskiplar Feb 20 '13 at 8:06
    
A very short shell script would generate the thousand-headed case statement you seem to despair of. –  WaywiserTundish Feb 20 '13 at 10:12
    
Yes, no doubt it would –  bfaskiplar Feb 20 '13 at 10:31
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5 Answers 5

up vote 1 down vote accepted

In modern functional languages, you can make a list of functions which take a list as an argument. This will arguably solve your problem, but it is also arguably cheating, as it is not quite the statically-typed implementation your question seems to imply. However, it is pretty much what dynamic languages such as Python, Ruby, or Perl do when using "manual" argument handling...

Anyway, the following is in Haskell: it supplies the nth function (from its first argument fs) a list of n copies of the second argument (x), and returns the result. Of course, you will need to put together the list of functions somehow, but unlike a switch statement this list will be reusable as a first-class argument.

selectApplyFunction :: [ [Int] -> a ] -> Int -> Int -> a
selectApplyFunction fs x n = (fs !! (n-1)) (replicate n x)

dummy1 [a] = 5 * a
dummy2 [a, b] = (a + 3) * b
dummy3 [a, b, c] = (a*b*c) / (a*b + b*c + c*a)
...
myFunctionList = [ dummy1, dummy2, dummy3, ... ]

-- (myfunction n) provides n copies of the number 42 to the n'th function
myFunction = selectApplyFunction myFunctionList 42

-- call the 666'th function with 666 copies of 42
result = myFunction 666

Of course, you will get an exception if n is greater than the number of functions, or if the function can't handle the list it is given. Note, too, that it is poor Haskell style -- mainly because of the way it abuses lists to (abusively) solve your problem...

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No doubt interpreted languages will do this job somehow since they have a chance to interpret input before execution as in this example. I just wondered if that is also possible with a language doesn't have a way to interpret run time input. –  bfaskiplar Feb 20 '13 at 22:29
    
I think there is some misunderstanding: Haskell is a statically-typed language, whose dominant implementation (GHC) is a compiler. Compiled languages and interpreted languages are equally capable of interpreting runtime input. –  comingstorm Feb 20 '13 at 23:24
    
My minor point was that my Haskell solution was doing "by hand" (with statically-typed lists) what dynamic languages implement implicitly (as part of their argument-handling mechanics). My major point was that my solution may have answered the question asked, but probably didn't properly satisfy your curiosity -- so, you probably need to do some more thinking, and some more studying, and come up with a better question 8^) –  comingstorm Feb 20 '13 at 23:33
    
Compiler should know the number of arguments exactly so it can generate instructions for pushing arguments onto stack before calling the function. When which function to call and so directly number of arguments needed depend on an input from user, code should be written with flow control instructions which results in a number of jump instructions in assembly. However, in an interpreted language, interpreter can interpret the command just at the time of execution to generate 'some new instructions' in this case you don't need any control flow statements in source code just as in your example. –  bfaskiplar Feb 20 '13 at 23:40
    
No my question was originally how this could be achieved without any dynamic recompilation just like how reflection and your solution do, I am not satisfied. –  bfaskiplar Feb 20 '13 at 23:42
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No, you are incorrect. Most modern languages support some form of Reflection that will allow you to call a function by name and pass params to it.

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Will reflection allow me to pass parameters from a string which can be initialized and assigned at run-time? –  bfaskiplar Feb 20 '13 at 8:09
    
yes, you can do anything you wish... –  Zdravko Danev Feb 20 '13 at 12:22
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You can create an array of functions in most of modern languages. In pseudo code,

var dummy = new Array();
dummy[1] = function(int a);
dummy[2] = function(int a, int aa);
...

var result = dummy[whateveryoucall](1,2,3,...,whateveryoucall);
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How does this solution deal with different number of parameters of functions? –  bfaskiplar Feb 20 '13 at 8:07
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In functional languages you could do something like this, in strongly typed ones, like Haskell, the functions must have the same type, though:

funs = [reverse, tail, init]   -- 3 functions of type [a]->[a]

run fn arg = (funs !! fn) $ args  -- applies function at index fn to args
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In object oriented languages, you can use function objects and reflection together to achieve exactly what you want. The problem of the variable number of arguments is solved by passing appropriate POJOs (recalling C stucts) to the function object.

interface Functor<A,B> {
    public B compute(A input);
}

class SumInput {
    private int x, y;
    // getters and setters
}

class Sum implements Functor<SumInput, Integer> {

    @Override
    public Integer compute(SumInput input) {
       return input.getX() + input.getY();
    }

}

Now imagine you have a large number of these "functors". You gather them in a configuration file (maybe an XML file with metadata about each functor, usage scenarios, instructions, etc...) and return the list to the user.
The user picks one of them. By using reflection, you can see what is the required input and the expected output. The user fills in the input, and by using reflection you instantiate the functor class (newInstance()), call the compute() function and get the output.
When you add a new functor, you just have to change the list of the functors in the config file.

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