# How should I approach a credit card number validation algorithm?

I'm writing a program to validate credit card numbers and I have to use Luhn's Algorithm. Let me say beforehand, that I have just started to learn to program (we covered loops like last week), so there a lot of things I am unfamiliar with. I am having trouble with one of my functions that checks the arithmetic. Basically, it has to double every second digit from right to left and add everything together. But if you double a number, like 5, and you get 10, then you will have to add 1+0=1 to the total sum instead of 10. That's the part I'm stuck on. How can I put that in a program?

Sample code so far:

``````int
doubleEvenSum(string creditCardNumber) {
int evenSum;
int countPosition;
int doublePosition;
int length;

length = creditCardNumber.length ();
countPosition = creditCardNumber.at(length - 2);
evenSum = 0;
while(countPosition>0) {
if ((2 * countPosition) < 10) {
doublePosition = 2 * countPosition;
}
else if ((2 * countPosition) > 9) {
???
}
evenSum = evenSum + doublePosition;
}
``````
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How can we help you without any piece of code? –  Coding Mash Oct 20 '12 at 5:21
Hint: you can use the modulus operator (`%`) to break a number into digits. You may have seen "mod" in a math class. –  nneonneo Oct 20 '12 at 5:23
int doubleEvenSum(string creditCardNumber) { int evenSum; int countPosition; int doublePosition; int length; length = creditCardNumber.length (); countPosition = creditCardNumber.at(length - 2); evenSum = 0; while(countPosition>0) { if ((2 * countPosition) < 10) { doublePosition = 2 * countPosition; } else if ((2 * countPosition) > 9) { ??? } evenSum = evenSum + doublePosition; } –  Alti Oct 20 '12 at 5:26
Sorry, I tried to edit my original post but it wasn't working when I tried to paste the code, even when using ctrl + K –  Alti Oct 20 '12 at 5:27
I did Google it, but I didn't find anything helpful. –  Alti Oct 20 '12 at 5:27

``````#include <stdio.h>
#include <string.h>
#include <ctype.h>

/*
return the Luhn (MOD10) checksum for a sequence of digits.

-1 is returned on error (a non-digit was in the sequence

*/

int mod10( char const* s)
{
int len = strlen(s);
int sum = 0;

int dbl = 0;

while (len) {
char digit;
int val;

--len;
digit = s[len];

if (!isdigit( (unsigned char) digit)) return -1;    // non digit in the sequence

val = digit - '0';  // convert character to numeric value

if (dbl) {
// double the value
val *= 2;

// if the result is double-digits, add the digits together
if (val > 9) {
val = val - 10;
val = val + 1;
}
}

dbl = !dbl; // only double value every other time

sum += val;
}

return sum % 10;
}
``````
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Thank you, that was very helpful! –  Alti Oct 20 '12 at 5:46

Here is a different algorithm. I cut/pasted from a C# example; the second link discusses a number of optimization for Luhn.

Please study this example, and please run it through the debugger to study how the code behaves as it's executing. Understanding how code actually runs (as opposed to how you think it will run when you write it) is an essential skill. IMHO....

``````/*
* Validate credit card with Luhn Algorithm
*
* REFERENCES:
* - http://orb-of-knowledge.blogspot.com/2009/08/extremely-fast-luhn-function-for-c.html
*/
#include <stdio.h>   // printf(), scanf(), etc
#include <string.h>  // strlen (), etc
#include <ctype.h>   // isdigit(), etc
#if !defined(FALSE)
#define FALSE 0
#define TRUE ~FALSE
#endif

/*
* type definitions (should go in separate header)
*/
enum CardType {
MASTERCARD=1, BANKCARD=2, VISA=3, AMEX=4, DISCOVER=5, DINERS=6, JCB=7
};

/*
* function prototypes (should also go in header)
*/
int luhn (int number[], int len);
bool validate (CardType cardType, char *cardNumber);

/*
* program main
*/
int
main (int argc, char *argv[])
{
char cc_number[80];
int cc_type;
for ( ;; ) {
printf ("Enter a credit card number and type (1, 2, 3, 4, 5. 6 or 7):\n");
printf ("  MASTERCARD=1, BANKCARD=2, VISA=3, AMEX=4, DISCOVER=5, DINERS=6, JCB=7\n");
int iret = scanf ("%s %d", cc_number, &cc_type);
if (iret == 2)
break;
else
printf ("Incorrect input: please enter a valid CC# and CC type\n");
}
if (validate ((CardType)cc_type, cc_number))
printf ("Valid\n");
else
printf ("Invalid card type/number\n");
return 0;
}

/*
* validate card#
*/
bool
validate (CardType cardType, char *cardNumber)
{
// 16 or fewer digits?
int len = strlen(cardNumber);
if (strlen (cardNumber) > 16)
return false;

// number to validate
int number[16];
for(int i = 0; i < (int)strlen (cardNumber); i++) {
if(!isdigit(cardNumber[i]))
return FALSE;
number[i] = cardNumber[i] - '0';
}

// Validate based on card type, first if tests length, second tests prefix
switch(cardType)  {
case MASTERCARD:
if(len != 16)
return FALSE;
if(number[0] != 5 || number[1] == 0 || number[1] > 5)
return FALSE;
break;

case BANKCARD:
if(len != 16)
return FALSE;
if(number[0] != 5 || number[1] != 6 || number[2] > 1)
return FALSE;
break;

case VISA:
if(len != 16 && len != 13)
return FALSE;
if(number[0] != 4)
return FALSE;
break;

case AMEX:
if(len != 15)
return FALSE;
if(number[0] != 3 || (number[1] != 4 && number[1] != 7))
return FALSE;
break;

case DISCOVER:
if(len != 16)
return FALSE;
if(number[0] != 6 || number[1] != 0 || number[2] != 1 || number[3] != 1)
return FALSE;
break;

case DINERS:
if(len != 14)
return FALSE;
if(number[0] != 3 || (number[1] != 0 && number[1] != 6 && number[1] != 8) || number[1] == 0 && number[2] > 5)
return FALSE;
break;

case JCB:
if(len != 16 && len != 15)
return FALSE;
if(number[0] != 3 || number[1] != 5)
return FALSE;
break;
default:
return FALSE;
}

int sum = luhn (number, len);
return (sum % 10 == 0);
}

// Use Luhn Algorithm to validate
int luhn (int number[], int len)
{
int sum = 0;
for(int i = len - 1; i >= 0; i--)
{
if(i % 2 == len % 2)
{
int n = number[i] * 2;
sum += (n / 10) + (n % 10);
}
else
sum += number[i];
}
return sum;
}
``````
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