I am trying to code a project in c, that displays a fractal called Sierpinski fractal, (where the nodes are represented by '#'). So a 1-sierpinski triangle looks like :

```
##
#
```

a 2-sierpinski triangle

```
####
# #
##
#
```

and so on... Here's a link to find what it looks like : http://fr.wikipedia.org/wiki/Triangle_de_Sierpiński

I was told it could be done without any loop, just by recursive method. So I tried something like :

```
//extracting the power of two's index
int puiss_2(int N){
int i=0,j=1;
for(i=0;i<N;i++){
j=j*2;
i++;
}
return j;
}
//the recursive method
void fractal(int N)
{
int M;
M= puiss_2(N);
if(M==0){
printf("##\n");
printf("# ");
}
else{
fractal(N-1);
fractal(N-1);
printf("\n");
fractal(N-1);
printf(" ");
}
}
int main()
{
int N;
scanf("%d",&N);
fractal(N);
}
```

Of course it didn't work because, when I jump to a line, I can't reverse it. So when I call it two times :

fractal(N-1); fractal(N-1);

two contiguous motives are not gathered one aside the other... Does anyone has an idea on how to make that ? Or perhaps I went completely wrong in my algo's design?

needto do this recursively? If you don't there's already readily available code to do it iteratively: rosettacode.org/wiki/Sierpinski_triangle – Mike Oct 2 '12 at 14:11