# How would you check an array for correctness? [closed]

I have an array of prime numbers. The length of this array is 1,000,000. This means that my last element primes[999999] should have the 1 millionth prime, and actually it should have the 1,000,001th prime since I left 2 out of the beginning.

When I run my program and have it spit out the last element of the array it spits out the 999,999th prime number. I am in the process of learning C and this is a little homework project for a math class I am taking. I have no idea where to even start in my troubleshooting of this problem. Any help would be greatly appreciated.

Edit: Sorry, for some reason I thought it might be an easy answer. I posted the code below. I have printed out the array of primes under option 1 and all the primes are correct and the result is correct. Any other option and I get an erroneous output.

void createArray( int, unsigned long long * );
unsigned long long root(unsigned long long);
void print( unsigned long long *, int );

int main(void){

unsigned long long *prime = (unsigned long long *)calloc(SIZE6,
sizeof(unsigned long long));
unsigned long long *ptrEmpty = &prime[15];
unsigned long long i;
unsigned long long j;
long int sizeComp;
int flag = 0;
unsigned long option = 0;
int length = 0;

system( "clear" );

do{
flag = 0;
option = -1;

printf( "Welcome to the prime number finder program. Below are a list "
"of prime numbers\nyou can find as well as their average runni"
"ng time on the Loki system of UNO.\n\nOption 1: Return the 10"
"0th prime number. ( Running time: .006s )\nOption 2: Return t"
"he 1000th prime number. ( Running time: .008s )\nOption 3: Re"
"turn the 10000th prime number. ( Running time: .089s )\nOptio"
"n 4: Return the 100000th prime number. ( Running time: 2.188s"
" )\nOption 5: Return the 1000000th prime number. ( Running ti"
"me: 57.156s )\nOption 6: Return the 10000000th prime number. "
"( **CAUTION!** Running time: 35m51.3s )\n\nEnter the number o"
"f the option you would like the program to\nperform (Enter 0 "
"to exit):  " );

scanf( "%lu", &option );

switch( option ){

case 0:
flag = 1;
break;
case 1:
createArray( SIZE1, prime );
ptrEmpty = &prime[15];
length = SIZE1;
break;
case 2:
createArray( SIZE2, prime );
ptrEmpty = &prime[15];
length = SIZE2;
break;
case 3:
createArray( SIZE3, prime );
ptrEmpty = &prime[15];
length = SIZE3;
break;
case 4:
createArray( SIZE4, prime );
ptrEmpty = &prime[15];
length = SIZE4;
break;
case 5:
createArray( SIZE5, prime );
ptrEmpty = &prime[15];
length = SIZE5;
break;
case 6:
createArray( SIZE6, prime );
ptrEmpty = &prime[15];
length = SIZE6;
break;
default:
printf( "Please enter one of the available options ( 1 - 7 ) "
"or 0 to exit:  " );
flag= 1;
break;
}

if( flag != 1 ){
for( i = START, sizeComp = 15; sizeComp <= length; i += 2 ){

flag = 0;
for( j = 0; prime[j] < root( i ); j++ ){

if( ( i % prime[j] ) == 0 ){
flag = 1;
break;
}
}

if( flag == 0 ){
*ptrEmpty = i;
++sizeComp;
ptrEmpty++;
}
}

printf( "\nThe %dth prime number is %llu.\n\n", length,
prime[ length - 2 ]);

//            print( prime, length );
printf( "****************************************"
"****************************************\n\n" );

}

}while( option != 0 );

free( prime );

return 0;
}

void print( unsigned long long *prime, int length ){

int i;
printf( "\n%4d", 2 );
for( i = 0; i < length; i++){
printf( "%4llu ", prime[i] );
}
printf( "\n" );
}

void createArray( int length, unsigned long long *prime ){

unsigned long long *pHolder = NULL;

pHolder = (unsigned long long *)realloc( prime, length *
sizeof( unsigned long long ) );

if(pHolder != NULL){
prime = pHolder;
}else{
free( prime );
printf( "Error reallocating memory.\n" );
exit(1);
}

prime[0] = 3;
prime[1] = 5;
prime[2] = 7;
prime[3] = 11;
prime[4] = 13;
prime[5] = 17;
prime[6] = 19;
prime[7] = 23;
prime[8] = 29;
prime[9] = 31;
prime[10] = 37;
prime[11] = 41;
prime[12] = 43;
prime[13] = 47;
prime[14] = 53;
}

unsigned long long root(unsigned long long a) {

unsigned long long rem = 0;
unsigned long long root = 0;
int i;

for (i = 0; i < 16; i++) {
root <<= 1;
rem <<= 2;
rem += a >> 30;
a <<= 2;

if (root < rem) {
root++;
rem -= root;
root++;
}
}

return (root >> 1);
}

Edit: SIZE1 = 100, SIZE2 = 1000, SIZE3 = 10000, SIZE4 = 100000, SIZE5 = 1000000, SIZE6 = 10000000

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## closed as unclear what you're asking by larsmans, Kerrek SB, Andrew Medico, Yu Hao, Jonathan LefflerMay 5 '14 at 6:07

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

How about showing some code? We are not mind readers. –  OldProgrammer Jun 7 '13 at 18:45
If you post your code, someone will likely point out your bug. If you want to figure it out by yourself, you could try using printf to output debug info while your program is running. I'd start by printing out the start of the array to check you really are ignoring the first 2 primes. –  simonc Jun 7 '13 at 18:47
@OldProgrammer I added the code to my post above along with some additional info. –  user1362058 Jun 7 '13 at 19:26
createArray reallocates prime and assigns the resulting address to the identifier prime. At that point, prime refers to the local parameter of the function createArray. Assigning to it does not change the pointer in the main program. createArray must return the new pointer so the main program can update prime, or createArray must be passed a pointer to the pointer prime so that it can change the pointer. –  Eric Postpischil Jun 7 '13 at 19:47
@EricPostpischil how would i fix it then? When i call createArray pass it &(prime) and then the prototype would say; createArray( unsigned long long **prime, int length)? Then the assignment would look like this; *prime = pHolder? –  user1362058 Jun 7 '13 at 23:33