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I am having some problems with writing a C program for this question. Maybe am reading the question wrong and doing it the wrong way. Could someone help me with it please? This is they way I'm trying to do it

void main(void)
    int j, sum=0;
    long int product=1;
    printf("\nThe sum of positive odd numbers is: %d", sum);
    printf("\nThe product of positive even numbers is: %d", product);

The output I am getting is:

The sum of positive odd numbers is: 225
The product of positive even numbers is: -1409286144

I am getting the product part wrong. I have tried using unsigned long int, long long, unsigned long long. Nothing works.

share|improve this question
Your product is overflowing the limits of your storage type. Try swapping up from a long int to a bigger storage type. –  StarPilot Apr 30 '13 at 23:04
2*4*8...*28 gives roughly a 30 digit number. You'll pretty much need a floating point type to hold that. For what it's worth: the sum of N consecutive odd numbers (starting from 1) gives N squared, so you can compute that part a little more quickly and easily. –  Jerry Coffin Apr 30 '13 at 23:05
Use modulo instead to condense your code to 1 loop. pseudocode- for (j=1,j<=30,j++) If j%2=0, then product=product*j, else sum=sum+j –  Michael Gardner Apr 30 '13 at 23:10
Your answer should just fit within a 64-bit integer number. –  Michael Dorgan Apr 30 '13 at 23:15
The sheer size of this simple product is a gentle reminder that we should live in fear of algorithms that have factorial time complexity!! =) –  paddy Apr 30 '13 at 23:26

3 Answers 3

up vote 4 down vote accepted

Try using %ld instead of %d in your printf:

printf("\nThe product of positive even numbers is: %ld", product);

Since it's a long int and not an int.

If you use long long int, you'd want %lld. You might need the long long size, given that this is a very very large product. I don't know if your platform's long int is 32 or 64 bit, but you will certainly need a 64 bit number here.

The long long format string can vary depending on your exact platform and compiler, but mostly things have standardized on %lld nowadays. In particular, old Microsoft compilers sometimes used %I64d.

share|improve this answer
thanks a lot! the long long int with %lld worked for me. –  Raed Shahid May 1 '13 at 13:43
@StilesCrisis I am afraid %ld in printf() produces an incorrect output (negative number) both in my compiler Mingw and ideone ideone.com/GRSMLE –  Rüppell's Vulture May 1 '13 at 15:38
@SheerFish: you are in 32 bit mode, and that is overflow you are seeing. On a 32 bit platform, to get the correct result you must use long long int. –  StilesCrisis May 1 '13 at 17:24

There are no issues as far as the sum of all odd numbers less than 30 is concerned as it's only 225.But the product of all even numbers (or odd numbers for that matter) less than 30 is an enormous number.For that you need a data type with larger capacity.In the following program I have simply used double instead of long int for product and I have used the %e format specifier to display the product in prinf() in a neat way, though you can use %f as well.


int main(void)    //Return type of main() is "int",not "void" as you've used
    int j, sum=0;
    double product=1;   //Change type of "product" to "double"


    printf("The sum of positive odd numbers is: %d\n", sum); 
    printf("The product of positive even numbers is: %e",product); //Use %e 

Output The sum of positive odd numbers is: 225

       The product of positive even numbers is: 4.284987e+16
share|improve this answer
thanks for the explanation and the answer. it works. –  Raed Shahid May 1 '13 at 13:46
@RaedShahid Did %ld in printf() solve your problem as per the poster above suggested?It found incorrect result in it. ideone.com/GRSMLE –  Rüppell's Vulture May 1 '13 at 15:39
double may provide a close approximation but is unlikely to get the actual correct answer. Depending on your needs it may be sufficient. long long int will be precise but will also start failing when the result grows > 2^64, while the double will continue to work just with decreased precision. –  StilesCrisis May 1 '13 at 17:26
@Rüppell'sVulture not really. it does give incorrect result so i had to use long long int. –  Raed Shahid May 2 '13 at 14:29
@RaedShahid long long int gives correct result on my 32 bit system,but there is overflow for long int.So StilesCrisis is right,it's just that long int is not enough in a 32 bit system like mine. –  Rüppell's Vulture May 2 '13 at 14:31

calculate use unsinged int (32bit)

#include <stdio.h>
#include <stdlib.h>
#include <assert.h>

typedef unsigned short UInt16;
typedef unsigned UInt32;
typedef struct _unums {
    size_t size;
    UInt16 *nums;//array 
} UNums;

void UNums_init(UNums *num, UInt16 n){
    num->nums = malloc(sizeof(UInt16));
    num->nums[0] = n;
    num->size = 1;

void UNums_mul(UNums *num, UInt16 n){
    UInt16 carry = 0;
    size_t i;

        UInt32 wk = n;
        wk = wk * num->nums[i] + carry;
        num->nums[i] = wk % 10000;
        carry = wk / 10000;
        num->size += 1;
        num->nums = realloc(num->nums, num->size * sizeof(UInt16));
        num->nums[i] = carry;

void UNums_print(UNums *num){
    size_t i = num->size;
    int w = 0;
        printf("%0*hu", w, num->nums[i]);
        if(!w) w = 4;

void UNum_drop(UNums *num){
    num->nums = NULL;

int main( void ){
    UNums n;
    UInt16 i;
    assert(sizeof(UInt32) == 4);//32bit
    assert(sizeof(UInt16) == 2);//16bit

    UNums_init(&n, 1);
        UNums_mul(&n, i);
    return 0;
share|improve this answer
reason for downvote What is? Please tell me if there is a mistake in the program. –  BLUEPIXY May 1 '13 at 10:16
its not me. but i didn't understand what you have done here and i'm pretty novice in C as you can tell by the question i have asked :p –  Raed Shahid May 1 '13 at 13:48
Okey-dokey Have you ever the calculation by writing the multiplication? –  BLUEPIXY May 1 '13 at 13:57

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