Here is my function that tests two points x and y if they're in the mandelbrot set or not after MAX_ITERATION 255. It should return 0 if not, 1 if it is.

```
int isMandelbrot (int x, int y) {
int i;
int j;
double Re[255];
double Im[255];
double a;
double b;
double dist;
double finaldist;
int check;
i=0;
Re[0]=0;
Im[0]=0;
j=-1;
a=0;
b=0;
while (i < MAX_ITERATION) {
a = Re[j];
b = Im[j];
Re[i]=((a*a)-(b*b))+x;
Im[i]=(2 * a * b) + y;
i++;
j++;
}
finaldist = sqrt(pow(Re[MAX_ITERATION],2)+pow(Im[MAX_ITERATION],2));
if (dist > 2) { //not in mandelbrot
check = 0;
} else if (dist <= 2) { //in mandelbrot set
check = 1;
}
return check;
}
```

Given that it's correct (can someone verify... or write a more efficient one?). Here is my code to print it, however it does not work! (it keeps giving all points are in the set). What have I done wrong here?

```
int main(void) {
double col;
double row;
int checkSet;
row = -4;
col = -1;
while (row < 1.0 ) {
while (col < 1.0) {
checkSet = isMandelbrot(row, col);
if (checkSet == 1) {
printf("-");
} else if (checkSet == 0) {
printf("*");
}
col=col+0.5;
}
col=-1;
row=row+0.5;
printf("\n");
}
return 0;
}
```

`main()`

... – Oliver Charlesworth Apr 16 '11 at 10:06`pow(xxx, 2)`

, the`pow`

function is designed to calculate x^y for any numbers. It will do this by approximation using a complex algorithm. Use`x*x`

instead.`sqrt(x) < 2`

is the same as`x < 4`

, but way faster. (Which was quite evident when I drew mandelbrots on my C64 twenty years ago.) – Lindydancer Apr 16 '11 at 10:09