The following code does not try to minimize the size of the arr[] array, and if the upper end of the range is less than 16k then could declare the arr[] as `short`

rather than `unsigned int`

The lowest valid value for the low end of the input is 2, but the code is not checking for that low limit, you might want to add that check.

The code makes no effort to minimize the number of loops executed by checking for the square root of the upper limit, you might want to add that check.

The code compiles cleanly, handles the case when the upper limit is a prime and when the lower limit is a prime as well as when the limit values are not primes.

```
#include <stdio.h>
#include <string.h>
#include <math.h>
int main()
{
int numTestCases, testCase;
size_t i; // index
size_t lowLimit;
size_t upperLimit;
size_t k; // offset multiplier
scanf("%d", &numTestCases);
/*Looping for t test cases*/
for(testCase=0; testCase<numTestCases; testCase++)
{
scanf("%lu %lu", (unsigned long*)&lowLimit, (unsigned long*)&upperLimit);
unsigned arr[upperLimit+1];
/*Assigning whole array to indicate entry is a prime*/
memset(arr, 0x01, upperLimit+1);
/*Sieve of Eratosthenes logic for assigning false to composite values*/
//size_t sqrtUpperLimit = (size_t)ceil(sqrt(upperLimit));
for(i=2; i<= upperLimit; i++)
{
if(arr[i])
{
if( i >= lowLimit )
{
printf("%ld\n", i);
}
for( k=2; (i*k) <= upperLimit; k++)
{
arr[(i*k)] = 0;
}
}
}
}
return 0;
} // end function; main
```

here is an edited version of the code, with the addition of some instrumentation in the way of prompts to the user via calls to `printf()`

```
#include <stdio.h>
#include <string.h>
#include <math.h>
int main()
{
int numTestCases, testCase;
size_t i; // index
size_t lowLimit;
size_t upperLimit;
size_t k; // offset multiplier
printf("enter number of test cases\n");
scanf("%d", &numTestCases);
/*Looping for t test cases*/
for(testCase=0; testCase<numTestCases; testCase++)
{
printf( "enter lower limit upper limit limits\n");
scanf("%lu %lu", (unsigned long*)&lowLimit, (unsigned long*)&upperLimit);
unsigned arr[upperLimit+1];
/*Assigning whole array to indicate entry is a prime*/
memset(arr, 0x01, upperLimit+1);
/*Sieve of Eratosthenes logic for assigning false to composite values*/
//size_t sqrtUpperLimit = (size_t)ceil(sqrt(upperLimit));
for(i=2; i<= upperLimit; i++)
{
if(arr[i])
{
if( i >= lowLimit )
{
printf("%ld\n", i);
}
for( k=2; (i*k) <= upperLimit; k++)
{
arr[(i*k)] = 0;
}
}
}
}
return 0;
} // end function; main
```

Using the above instrumented code and the input of:

```
5 2 3 30 31 20 27 2 3 4 5
```

it worked perfectly.

This was the output:

```
enter number of test cases
5
enter upper/lower limits
2 3
sizeof arr[]: 4
2
3
enter upper/lower limits
30 31
sizeof arr[]: 32
31
enter upper/lower limits
20 27
sizeof arr[]: 28
23
enter upper/lower limits
2 3
sizeof arr[]: 4
2
3
enter upper/lower limits
4 5
sizeof arr[]: 6
5
```

`1`

as first number, then why you need`2 100`

? program handle only`2 10`

. – fghj Nov 16 '15 at 18:57`2`

– Prashanth Nov 16 '15 at 18:59`if(arr[i]==true)`

NEVER compare to`true`

because`true`

can be anything except 0/false. two suggested methods:`if( arr[i] )`

or`if( false != arr[i] )`

– user3629249 Nov 16 '15 at 21:32