Im trying to implement a cipher, and am supposed to work only in bits. However, the mod operator over 2 seems to give a value of 2. Can anyone tell me whats going wrong? The modulus operator is not working properly as far as I can tell.

Note: `fcsr1`

and `fcsr2`

are functions which just provide 80 bit long arrays as the input. The array values are all either 0 or 1.

```
#include<stdio.h>
int main(){
int i=0,n=0;
int ka[80],kb[80],rs[n];
int *k1,*k2;
printf("Enter the number of keystream bits : ");
scanf("%d",&n);
//Initialize all as 1
for(i=0;i<80;i++){
ka[i]=1;
kb[i]=1;
}
int mb=0,ms=0;
//Updating all 81 times
k1=fcsr1(ka,&mb,81);
k2=fcsr2(kb,&ms,81);
for(i=0;i<n;i=i+2){
k1=fcsr1(k1,&mb,1);
k2=fcsr2(k2,&ms,1);
int x0=k1[23];
int x1=k1[73];
int x2=k2[5];
int x3=k2[9];
int x4=k2[29];
int x5=k1[51];
//printf("%d %d %d %d %d %dNext",x0,x1,x2,x3,x4,x5);
rs[i]=((x0*x1*x2*x4*x5+x0*x1*x2*x5+x0*x1*x2+x0*x1*x3*x5+x0*x1*x4*x5+x0*x1*x4+x0*x1*x5+x0*x1+x0*x2*x3*x4*x5+x0*x2*x3*x5+x0*x2*x3+x0*x2*x4*x5+x0*x2*x4+x0*x2+x0*x3*x4*x5+x0*x3*x4+x0*x3*x5+x0*x3+x0*x4*x5+x0*x4+x1*x2*x3*x5+x1*x2*x3+x1*x2*x4*x5+x1*x2*x4+x1*x2*x5+x1*x3*x4*x5+x1*x3*x4+x1*x3+x1*x4*x5+x1*x4+x1*x5+x2*x3*x5+x2*x3+x2*x5+x2+x3*x5+x4*x5+x5)%2);
k2=fcsr2(k2,&ms,1);
x0=k1[23];
x1=k1[73];
x2=k2[6];
x3=k2[10];
x4=k2[30];
x5=k1[68];
rs[i+1]=((x0*x1*x2*x4*x5+x0*x1*x2*x5+x0*x1*x2+x0*x1*x3*x5+x0*x1*x4*x5+x0*x1*x4+x0*x1*x5+x0*x1+x0*x2*x3*x4*x5+x0*x2*x3*x5+x0*x2*x3+x0*x2*x4*x5+x0*x2*x4+x0*x2+x0*x3*x4*x5+x0*x3*x4+x0*x3*x5+x0*x3+x0*x4*x5+x0*x4+x1*x2*x3*x5+x1*x2*x3+x1*x2*x4*x5+x1*x2*x4+x1*x2*x5+x1*x3*x4*x5+x1*x3*x4+x1*x3+x1*x4*x5+x1*x4+x1*x5+x2*x3*x5+x2*x3+x2*x5+x2+x3*x5+x4*x5+x5)%2);
//printf("%d %d %d %d %d %dEnd",x0,x1,x2,x3,x4,x5);
printf("%d %d ",rs[i],rs[i+1]);
}
}
```

result:

```
Enter the number of keystream bits :
24
0 0 1 0 0 1 2 1 1 0 1 1 0 0 1 0 1 0 0 1 1 0 1 1
--------------------------------
Process exited with return value 24
Press any key to continue . . .
```

`n=0, int rs[n]`

) array out-of-bounds accesses is a classic c failure... – Corley Brigman Oct 29 '13 at 15:22