I was trying to write recursion function,to find factorial of a number.

    int factorial(int input,int *answer)
       if ( input ==0 )        
        return 0;

       *answer  = *answer * input;
       factorial(input -1, answer);

What will you say about this function? Is it tail recursive?

  • 11
    Without a return statement, this function yields nothing but undefined behavior. – James McNellis Oct 14 '10 at 16:46
  • 1
    @James: Actually, it looks like he's trying to store the result into answer instead of returning any value. And it seems to assume that *answer is initialized to 1. – casablanca Oct 14 '10 at 16:52
  • @casablanca: That's fine, but the function has a return type of int and does not actually return a value. – James McNellis Oct 14 '10 at 16:55
  • @James: Agreed, a return type at all makes no sense here. void would have worked just fine. – casablanca Oct 14 '10 at 16:55
  • yes, true void is not required. – jess Oct 14 '10 at 16:58

When doing tail recursive functions (especially tail recursive functions) it is often helpful to have a helper function in addition to another function which has a more friendly interface. The friendly interface function really just sets up the less friendly function's arguments.

static unsigned factorial_helper(unsigned input, unsigned acc) {
       if (intput == 0) {
           return acc;
       return factorial_helper(input-1, acc * input);

unsigned factorial(int input) {
    if (input < 0) {
    return factorial_helper(input, 1);

By passing an accumulator value you avoid having to use pointers or do any computations upon returning from called functions, which makes the functions truely tail recursive.

  • On line 2, you wrote intput instead of input. Doesn't compile like that. – Patrick Bucher Oct 4 '18 at 9:05

Here's a link with a definition: http://phoenix.goucher.edu/~kelliher/cs23/feb21.html

"A function is tail recursive if the very last thing it does is make its recursive call."

In the code you posted, the last thing the function does is make a recursive call to itself, so by this definition, it is tail-recursive.

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