# Infinite numbers in NURB curve

Hello guys i wrote a function which produces a Nurb given a set of control points..! I also wrote an another function which produces these control points and then calls the first function to draw the NURB. My problem is that after a few calls the first function produces some infinite numbers which i don't understand why is doing that...!

This is the code i use

``````void knot(int n,int c,int x[30])

{
int nplusc,nplus2,i;

nplusc = n + c;
nplus2 = n + 2;

x[1] = 0;
for (i = 2; i <= nplusc; i++){
if ( (i > c) && (i < nplus2) )
x[i] = x[i-1] + 1;
else
x[i] = x[i-1];
}

}

void rbasis(int c,float u,int npts,int x[30],float h[28],float r[28])

{
int nplusc;
int i,k;
float d,e;
float sum;
float temp[36];

nplusc = npts + c;

/*      printf("knot vector is \n");
for (i = 1; i <= nplusc; i++){
printf(" %d %d \n", i,x[i]);
}
printf("u is %lf \n", u);
*/

/* calculate the first order nonrational basis functions n[i]   */

for (i = 1; i<= nplusc-1; i++){
if (( u >= x[i]) && (u < x[i+1]))
temp[i] = 1;
else
temp[i] = 0;
}

/* calculate the higher order nonrational basis functions */

for (k = 2; k <= c; k++){
for (i = 1; i <= nplusc-k; i++){
if (temp[i] != 0)    /* if the lower order basis function is zero skip the calculation */
d = ((u-x[i])*temp[i])/(x[i+k-1]-x[i]);
else
d = 0;

if (temp[i+1] != 0)     /* if the lower order basis function is zero skip the calculation */
e = ((x[i+k]-u)*temp[i+1])/(x[i+k]-x[i+1]);
else
e = 0;

temp[i] = d + e;
}
}

if (u == (float)x[nplusc]){     /*    pick up last point    */
temp[npts] = 1;
}
/*
printf("Nonrational basis functions are \n");
for (i=1; i<= npts; i++){
printf("%lf ", temp[i]);
}
printf("\n");
*/
/* calculate sum for denominator of rational basis functions */

sum = 0.;
for (i = 1; i <= npts; i++){
sum = sum + temp[i]*h[i];
}

/* form rational basis functions and put in r vector */

for (i = 1; i <= npts; i++){
if (sum != 0){
r[i] = (temp[i]*h[i])/(sum);}
else
r[i] = 0;
}

}

void rbspline()

{
int i,j,icount,jcount;
int i1;
int x[150];     /* data points store vector */
int nplusc;
int ispline;
int npts,k;
int p1;

float step;
float u;
float nbasis[28];
float temp;

float b[59];  /* control vertices matrix*/
float p[203]; /* allows for up to 200 points on curve */
float h[28];

FILE *splineinput;
FILE *airfoilcoordinates;

splineinput = fopen("controlpoints.txt","r");
airfoilcoordinates = fopen("airfoilcoordinates.dat","w");

npts = 28;
k = 5;     /* third ordech=getc();r, change for other orders */
p1 = 60;   /* eleven points on curve */

for (ispline = 1; ispline <= 2*npts; ispline++)
{
fscanf(splineinput,"%f",&b[ispline]);
}

printf("\nPolygon points\n");

for (ispline = 1; ispline <= 2*npts; ispline=ispline+2)
{
printf(" %1.5f %1.5f  \n",b[ispline],b[ispline+1]);
}

for (ispline=1; ispline <= npts; ispline++)
{
h[ispline] = 1.0;
}

for (ispline = 1; ispline <= 2*p1; ispline++)
{
p[ispline] = 0.;
}

nplusc = npts + k;

/*  zero and redimension the knot vector and the basis array */

for(i = 0; i <= npts; i++){
nbasis[i] = 0.;
}

for(i = 0; i <= nplusc; i++){
x[i] = 0.;
}

/* generate the uniform open knot vector */

knot(npts,k,x);

/*
printf("The knot vector is ");
for (i = 1; i <= nplusc; i++){
printf(" %d ", x[i]);
}
printf("\n");
*/

icount = 0;

/*    calculate the points on the rational B-spline curve */

u = 0;
step = ((float)x[nplusc])/((float)(p1-1));

for (i1 = 1; i1<= p1; i1++){

if ((float)x[nplusc] - u < 5e-6){
u = (float)x[nplusc];
}

rbasis(k,u,npts,x,h,nbasis);      /* generate the basis function for this value of t */
/*
printf("u = %f \n",u);
printf("nbasis = ");
for (i = 1; i <= npts; i++){
printf("%f  ",nbasis[i]);
}
printf("\n");
*/
for (j = 1; j <= 2; j++){      /* generate a point on the curve */
jcount = j;
p[icount+j] = 0.;

for (i = 1; i <= npts; i++){ /* Do local matrix multiplication */
temp = nbasis[i]*b[jcount];
p[icount + j] = p[icount + j] + temp;
/*
printf("jcount,nbasis,b,nbasis*b,p = %d %f %f %f %f\n",jcount,nbasis[i],b[jcount],temp,p[icount+j]);
*/
jcount = jcount + 2;
}
}
/*
printf("icount, p %d %f %f %l \n",icount,p[icount+1],p[icount+2],p[icount+3]);
*/
icount = icount + 2;
u = u + step;
}

printf("\nHomogeneous weighting vector is \n");
for (ispline = 1; ispline <= npts; ispline++){
printf(" %1.5f ", h[ispline]);
}

printf("\n");

/*printf("\nCurve points\n"); */

for (ispline = 1; ispline <= 2*p1; ispline=ispline+2)
{
fprintf(airfoilcoordinates,"%1.5f %1.5f \n",p[ispline],p[ispline+1]);
}

fclose(splineinput);
fclose(airfoilcoordinates);

}
``````

and this function calls the rbspline...

``````void evaluate(void)
{
int mem;
int i;

FILE *controlpoints;
float y[NVARS] = {1.00000,0.92544,0.82351,0.78301,0.74004,0.50199,0.40422,0.31056,
0.18549,0.14954,0.11702,0.06331,0.02581,0.01334,0.00509,0.00000,0.00052,0.00555,0.03324,
0.11345,0.33088,0.43678,0.60146,0.70751,0.8043,0.92047,0.98713,1.00000};

remove("save.txt");

for(mem = 0; mem < POPSIZE; mem++)
{
controlpoints = fopen("controlpoints.txt","w");

for(i = 0; i < NVARS; i++)
{

printf("The value of population[%d].gene[%d] is %1.5f\n",mem,i,population[mem].gene[i]);
fprintf(controlpoints,"%1.5f\n%1.5f\n",y[i],population[mem].gene[i]);

}
fclose(controlpoints);
rbspline();

XfoilCall();

population[mem].fitness = FileRead();
if( remove( "save.txt" ) != 0 )
perror( "Error deleting file" );
else
puts( "File successfully deleted" );

}

}
``````

Can you please help me out...?

-
That's a lot of code, which function is giving you issues? Have you debugged the issue at all to isolate where the problem is? – Mike Mar 6 '13 at 18:41
Did you look for divisions by zero? – Sebastian Mar 6 '13 at 18:41
Guys at the beginning and for few iterations the code runs fine..! Then suddenly starts to produce infinite numbers... and zeros..! I don't think that i have divisions by zero..! – user2019482 Mar 6 '13 at 19:44
I see a lot of `for`-loops that starts with `1` or `2`, I just want to make sure that you know that an array starts at index `0` and that it is intentional from your side to have it like that. (Like `x[1] = 0;` will set the second element to `0`). – Jite Mar 6 '13 at 20:45