# c recursion program problem

I'm new to concept of recursion. I want to write a recursive function which take a float and integer as argument and call it recursively in a way that the float value remain constant and integer value changes

I write the following code:

``````#include <stdio.h>

float sum(float f, int k)
{
static float c;
c = f - k;
c = sum(f, k - 1);
return c;
}

int main()
{
float f, g = 10.00;
int i = 5;
f = sum(g, i);
printf("the sum of integer and float = %f", f);
}
``````

When I compile it it shows no errors but when I run the program it shows a segmentation fault.

My question are following:

1. what is wrong with the code?
2. why it is showing segmentation error?
3. how to use recursion in a function which has more than one argument?

Please explain me with some example of recursive function which has two arguments.

-
this statement c = sum(f, k - 1);should be c += sum(f, k - 1);.If logic is concerned. –  Algorithmist Jun 3 '11 at 7:33
no termination condition –  Shweta Jun 3 '11 at 8:33

The code is wrong because it can never end (I presume it fails with a stackoverflow error).

For recursion, you need two things

1. A base case
2. A recursive case that moves towards the base case

Looks like you've only got the second. I suspect sum should return when `k` is zero. Something like this hopefully makes sense:

`````` float sum(float f, int k) {
if (k <= 0) {
// The base case
return f;
} else {
// The recursive case.  This does one step of the work
// and moves towards the base case
return 1 + sum(f, k - 1);
}
}
``````
-
It's better to use tail recursion, so the stack keeps a constant size. –  patapizza Jun 3 '11 at 7:40
Yes, if your language supports tail recursion then I agree. For explaining things, I think that's a discussion that comes after getting recursion. –  Jeff Foster Jun 3 '11 at 7:44

Your recursion does not have a base (non-recursive), terminating case.

Every call to `sum` makes a recursive call to itself, this continues till your stackoverflows, resulting in a seg fault.

-

The recursion never stops, and eventually you run out of stack. You need to decide when it is time to stop the recursion. for example, if `k` equals 0 you don't call `sum` again, but exit with `return`.

``````float sum(float f ,int k)
{
static float c;
if (k > 0)
{
c=f-k; /// <<< why is this here? you ignore the value and overwrite it in the next step.
c=sum(f,k-1);
}
return c;
}
``````

Of course there are additional problems: having `c` as static may be a problem that will affect the correctness of the calculation, and also the place I marked looks suspicious because you loose the value and overwrite it with the subsequent call to `sum`.

-

``````#include <stdio.h>
float sum(float f, int k, float c) {
if (k == 0)
return c;
sum(f, k - 1, f - k);
}
``````
-

The first thing I see is that your recursion has no termination. It will go on forever. Perhaps you want:

``````float sum(float f ,int k)
{
static float c;

c=f-k;
if (k != 0)
c=sum(f,k-1);
return c;
}
``````

So that when k is zero the recursion stops. You had a stack overflow.

-

When you do recursion you need a status to end it.

``````#include <stdio.h>

float sum(float f, int k)
{
if(k == 0) return f;
return 1 + sum(f,k-1);
}

int main()
{
float f, g = 10.00;
int i = 5;
f = sum(g, i);
printf("the sum of integer and float = %f", f);
}
``````

With that code, and your example f=10.00 and i=5

``````Call sum(10.0, 5)
return 1 + sum(10.0, 4)
1 + sum(10.0, 3)
1 + sum(10.0, 2)
1 + sum(10.0, 1)
1 + sum(10.0, 0)
10
1 + 10 = 11
1 + 11 = 12
1 + 12 = 13
1 + 13 = 14
1 + 14 = 15
return 15;
``````
-
I don't understand what the "sum" function is for. Is it supposed to be adding f and k? In which case, there is no recursion; you should just add f and k: `return f + k`.