The general approach to converting a non-tail-recursive function to a tail-recursive one is to use an extra accumulator parameter that carries the current evaluation with it through recursive calls.
In your case, this is rather straight-forward:
int count(node *start)
return count_helper(start, start, 0);
int count_helper(node *current, node *start, int acc)
c = 0;
if(current == NULL)
if((current->roll_no) == 20)
c = 1;
if(current->next == start) return acc + c;
return count_helper(current->next, start, acc + c);
The primary changes I've made here are adding the extra accumulator parameter
int acc to your
count_helper definition, and making sure all of the return statements include
acc (when appropriate). Now the final return statement passes back the result of
count_helper directly, without modifying it; this is now tail-recursive.
It is less straight-forward when the results of recursive calls have to be combined in a way that isn't simple arithmetic.
However, as ruakh mentioned, many C compilers don't want to deal with the headache of optimizing tail-recursive calls because that simply isn't C's style. Maybe
-O3 will do it?