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I'm getting the 1.#QNAN0 (floating point exception error) within the function gupdate and I can't figure it out how to fix them. I think the error actually is not from the computing the average (avg), but the error occurs when variables, t, r, b and l are called to calculate the avg. I've check all of the variable to see if it will get the same error and it did. That's just my assumption.

I've just started to learn how to program in C therefore my luck of skill is causing me not to see obvious (possibly) errors. Any help will be appreciated.

Thank you,

#include <stdio.h>
#include <math.h>
#define maximum_row (40)
#define maximum_column (80)

//int ginitial();
float ginitial(int m, int n, float grid[][maximum_column], float evalue, float guess);
float gupdate( int m, int n, float grid[][maximum_column], float evalue, float fv[],        float guess);
float average(int m, int n, float grid[][maximum_column]);
void pgrid(int m, int n, float grid[][maximum_column], FILE *fout);



main(){

float grid[maximum_row][maximum_column];


FILE *fin, *fout;

fin = fopen("cp4.txt","r");
fout = fopen("cp4output.out","w");

/*output test*/
int output;
output = 4;

/*input from the file*/
int m,n,itmax;
float eps,evalue;

int row,col;
float fvalue;


/*reading input file from 2nd row to the -1.*/
float guess_sum = 0; /*needs to reset when new grid is made*/
int fvcounter = 0; /*needs to reset when new grid is made.*/
float guess = 0; /*needs to reset when new grid is made*/

/*from the function */
float unknown = 0; /*needs to reset when new grid is made*/
float counter = 0;

/*for loop to runs through the grid*/
int i,j,k;
k = 0;
float diff = 0;

int r2,c2;

float diff2;

float xold, xnew;
float fvs;

float left,right,top,bottom;
float avg;

float abs_diff;

int sol_counter = 0;

float big_diff = -1;
float diff_c,diff_r;
int not_conv;

int iterations = 1;

int sol_found = 0;


/*
m - total number of rows in the grid
n - total number of columns in the grid
itmax - maximum iteraton
eps - convergence criterion
evalue - value at all of the exterior points
*/

/*Read the first line of the file*/
fscanf(fin,"%d %d %d %f %f", &m,&n,&itmax,&eps,&evalue);

if(output == 1)
fprintf(fout,"%d %d %d %f %f\n",m,n,itmax,eps,evalue);

/*echo the input file data*/
fprintf(fout,"***********************************************\n");
fprintf(fout,"New Grid has dimensions %d rows by %d columns\n",m,n);

int r[m*n];
int c[m*n];
float fv[m*n];



/*Read each line to put fvalue into the location that is specified*/
do
{

    fscanf(fin,"%d %d %f",&row, &col, &fvalue);



    if(output==1)
    fprintf(fout,"%d %d %f\n",row,col,fvalue);


    /*store the input value into three different arrays*/

    r[fvcounter] = row;
    c[fvcounter] = col;
    fv[fvcounter] = fvalue;

    if(output==1)
    fprintf(fout,"\n%d %d %f\n",r[fvcounter],c[fvcounter],fv[fvcounter]);

    /*count how many assigned fvalues*/
    fvcounter++;

    /*sum all the fvalues*/
    if(row != -1)
    {
        guess_sum = guess_sum + fvalue;

        if(output == 1)
        {
            fprintf(fout,"fvcoutner: %d\n",fvcounter);
            fprintf(fout,"%.1f\n",fvalue);
            fprintf(fout,"guess_sum: %.1f\n",guess_sum);
        }

    }

    i++;

    if(output == 1)
    fprintf(fout,"%d %d %f %d\n",row,col,fvalue,fvcounter);

}while(row != -1);





if(output == 1)
fprintf(fout,"guess_sum: %f\n",guess_sum);

/*guess is average of all the fixed-values*/
guess = guess_sum/(fvcounter-1);/*guess = 3.272727*/

if(output == 1)
fprintf(fout,"guess: %f\n",guess);


/*boundary value points*/
int bound,bp;

/*Edges*/
bound = (2*m + 2*n) - 4;

/*Fixed-value + bound*/
bp = bound + (fvcounter-1);
fprintf(fout,"Number of boundary value points: %d\n",bp);


/*the function will return the number of unknown value.*/
counter = ginitial(m,n,grid,evalue,guess);
unknown = counter - (fvcounter-1);



if(output==1)
{
    fprintf(fout,"unknown: %f\n",guess);
    fprintf(fout,"fvcounter: %d\n",fvcounter);
    fprintf(fout,"ginitial: %f\n",ginitial(m,n,grid,evalue,guess));
}



fprintf(fout,"Number of unknown points: %0.0f\n",unknown);
fprintf(fout,"Maximum Number of Iterations: %d\n", itmax);
fprintf(fout,"Convergence Criterion: %f%%\n",eps);
fprintf(fout,"------------------------------------------------------------\n");
fprintf(fout,"                    Maximum Error                 #Points \n");
fprintf(fout,"               ----------------------               not  \n");
fprintf(fout,"Iter #         Row     Col     Value%%            Converged\n");
fprintf(fout,"------------------------------------------------------------\n");

/*runs through the grid to do the computations*/
/*need to have convergence counter to count which cells are not converged --- #points     not converged*/
/*value% is computed by |(xnew - xold)/xnew| * 100; when new approximation is less than 1*10^-6, divide by 1 instead of xnew.*/


/*Replace unknown value with the fixed value*/
for(i = 0; i < fvcounter; i++)
{

    if(output==1)
    {
        fprintf(fout,"%d\n",r[i]);
        fprintf(fout,"%d\n",c[i]);
    }

    /*this will replace the unknown to fixed point.*/
    grid[r[i]][c[i]] = fv[i];
}


/*this will print the grid (Testing purposes)*/
//pgrid(m,n,grid,fout);



fprintf(fout,"\n");



/*  U     U    PPPPPP    DDDDD       AAAAA     TTTTTTT    EEEEEEE  */
/*  U     U    P     P   D     D    A     A       T       E        */
/*  U     U    PPPPPP    D     D    AAAAAAA       T       EEEEE    */
/*  U     U    P         D    D     A     A       T       E        */
/*  UUUUUUU    P         DDDDD      A     A       T       EEEEEEE  */






//while(sol_found == 0)
while(sol_found < 2)
{

    /*print the grid*/
    pgrid(m,n,grid,fout);
    fprintf(fout,"\n");

    for(i = 0; i < m; i++)
    {
        for(j = 0;j < n;j++)
        {
            /*from the most left corner to start compute the average*/
            //xold = grid[i][j];


            /*abs_diff -> difference between new and old*/
            abs_diff = gupdate(i,j,grid,evalue,fv,guess);

            fprintf(fout,"avg: %f\n",abs_diff);



            if(abs_diff != -1000)
            { 
                /*absolute value of the difference*/
                if(abs_diff < 0)
                {
                    abs_diff = -abs_diff * 100;

                    if(abs_diff < eps)
                    {
                        sol_counter++;
                    }

                    if(output==1)
                    fprintf(fout,"error %%: %f\n",abs_diff);
                }/*abs_diff < 0*/
                else
                {
                    abs_diff = abs_diff * 100;

                    if(abs_diff < eps)
                    {
                        sol_counter++;
                    }

                    if(output==1)
                    fprintf(fout,"error %%: %f\n",abs_diff*100);
                }

            }/*if(abs_diff != -1000)*/


            /*Replace with bigger abs_diff*/
            /*The fix-value should be ignored as well*/
           if(big_diff < abs_diff)
            {
                big_diff = abs_diff;

                /*find the lcoation where it has bigger error.*/
                diff_r = i;
                diff_c = j;
            }/*if(big_diff < abs_diff*/

            if(output == 1)
            {
                fprintf(fout,"big_diff: %f\n",big_diff);
                fprintf(fout,"diff_r: %f\n",diff_r);
                fprintf(fout,"diff_c: %f\n",diff_c);
            }

            /*When all the solutions are reached, iteration should be stop.*/

            //fprintf(fout,"avg: %f\n",xnew);

            if(output==1)
            fprintf(fout,"sol_counter: %d\n",sol_counter);


            /*Points that are not converged*/
            not_conv = (int) unknown - sol_counter;

            if(output==1)
            {
                fprintf(fout,"unknown: %f\n",unknown);
                fprintf(fout,"not_conv: %d\n",not_conv);
            }

            /*printing the grid*/
            //fprintf(fout,"%f ",grid[i][j]);

        }/*for(j = 0;j < n;j++)*/

        //fprintf(fout,"\n");

    }/*for(i = 0; i < m; i++)*/

 /*print the grid*/
 pgrid(m,n,grid,fout);

/*this will print the result of each iterations*/
fprintf(fout,"%d              %0.0f       %0.0f    %f            %d\n", iterations, diff_r, diff_c, big_diff, not_conv);
iterations++;

if(not_conv == 0)
{
    sol_found = 1;
}


   sol_found++;
   }//test 
   //}/*while(sol_found == 0)*/






}/*main()*/








/*this needs to be fixed*/
float ginitial(int m, int n, float grid[][maximum_column], float evalue, float guess)
{
/*Creating the grid using the given m and n.*/
int i,j;
float counter = 0;

/*initial guess need to be made --> 0 for U and E is given*/
/*
i is counter for the m, rows.
j is counter for the n, columns.
*/


for(i = 0; i<m; i++)
    {
        for(j = 0; j<n; j++)
        {
            /*Boundary*/
            if(i == 0 && j != 0)
            {
                grid[i][j] = evalue;

            }

            if(i == (m-1) && j != (n-1))
            {
                grid[i][j] = evalue;  

            }

            if(j == 0 && i != 0)
            {
                grid[i][j] = evalue;

            }

            if(j == (n-1) && i != (m-1))
            {
                grid[i][j] = evalue;

            }

            /*Initial guess*/
            if(i>0 && i != m-1 && j != n-1 && j>0)
            {
                grid[i][j] = guess;
                counter++;

            }

        }
    }


return counter;
/*return how many unknown values there are.*/

}




/*this function only operated when the value is not boundary or the fixed value.*/
float gupdate( int m, int n, float grid[][maximum_column], float evalue, float fv[],      float guess)
{
float old = grid[m][n];

/*evalue is boundary value*/
if(grid[m][n] == evalue)
{
    return -1000; /*Boundary*/
    /*-1000 respresents that the grid did not change*/
}

/*fvalue is fixed value*/

int i;

for(i=0; i<(m*n); i++)
{
    if(grid[m][n] == fv[i])
    {
        return -1000; /*fixed value*/
        /*-1000 respresents that the grid did not change*/
    }
}


if(grid[m][n] == guess)
{
    float avg;
    float t,r,b,l;

    t = grid[m-1][n];
    r = grid[m][n+1];
    b = grid[m+1][n];
    l = grid[m][n-1]; 

    avg =(t + r + b + l)/4;  

    /*Replace the old with new*/
    grid[m][n] = avg;      

    /*return the difference*/
    if(avg > 0.000001)
    return (avg - old)/avg;

    if(avg < 0.000001)
    return (avg - old);




   }


 }

/*Print the grid*/
void pgrid(int m, int n, float grid[][maximum_column], FILE *fout)
{
    int i,j;

for(i = 0; i<m; i++)
{
        for(j = 0; j<n; j++)
        {
            fprintf(fout,"%f ",grid[i][j]);
        }

        fprintf(fout,"\n");
}



}


float average(int m, int n, float grid[][maximum_column])
{
float avg;
float t,r,b,l;

t = grid[m-1][n];
r = grid[m][n+1];
b = grid[m+1][n];
l = grid[m][n-1]; 

avg =(t + r + b + l)/4;        

//avg = (top + right + bottom + left)/4;

return avg; 
}
share|improve this question
4  
That's an awful lot of code you're asking us to parse. Try coming up with a SSCCE. –  Carl Norum Oct 21 '12 at 21:45
    
The most likely candidate is a div0. My wild guess guess_sum/(fvcounter-1); –  wildplasser Oct 21 '12 at 22:01
    
There are a lot (too many) of issues in this program. gupdate function does not always return a value. i++ is used but i is not initialized. You are incorrectly testing float values for equality. –  ouah Oct 21 '12 at 22:04
    
I know my program is a mess and I apologize for the long codes. However, I'm not sure what ouah said. I think the i is initialized as integer and returning -1000 or avg value. Could you be little more specific? –  user1763813 Oct 21 '12 at 23:13
    
First iteration seems to be working just fine. But second iteration I get the error... I'm investigating on the guess = guess_sun/fvcounter; but seems to me that its working just fine. If I change to fvcounter to 1, I still get the same error. Also thought that need casting for the fvcounter since fvcounter is integer data type. But still having same troubles. –  user1763813 Oct 22 '12 at 1:02

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