# Project Euler Problem 4

I've created a solution to problem 4 on Project Euler. However, what I find is that placing the print statement (that prints the answer) in different locations prints different answers. And for some reason, the highest value of result is 580085. Shouldn't it be 906609? Is there something wrong with my isPalindrome() method?

`````` #include <stdio.h>
#include <stdbool.h>

int isPalindrome(int n);

//Find the largest palindrome made from the product of two 3-digit numbers.
int main(void)
{
int i = 0;
int j = 0;
int result = 0;
int palindrome = 0;
int max = 0;

//Each iteration of i will be multiplied from j:10-99
for(i = 100; i <= 999; i++)
{
for(j = 100; j <= 999; j++)
{
result = i * j;
if(isPalindrome(result) == 0)
{
//printf("Largest Palindrome: %d\n", max); //906609
//printf("Result: %d\n", result); //580085
if(result > max)
{
max = result;
//printf("Largest Palindrome: %d\n", max); //927340
}
printf("Largest Palindrome: %d\n", max); //906609
}
}
}

//printf("Largest Palindrome: %d\n", max); //998001

system("PAUSE");
return 0;
} //End of main

//Determines if number is a palindrome
int isPalindrome(int num)
{
int n = num;
int i = 0;
int j = 0;
int k = 0;
int count = 0;
int yes = 0;

//Determines the size of numArray
while(n/10 != 0)
{
n%10;
count++;
n = n/10;
}

int numArray[count];

//Fill numArray with each digit of num
for(i = 0; i <= count; i++)
{
numArray[i] = num%10;
//printf("%d\n", numArray[i]);
num = num/10;
}

//Determines if num is a Palindrome
while(numArray[k] == numArray[count])
{
k = k + 1;
count = count - 1;
yes++;
}

if(yes >= 3)
{
return 0;
}

}//End of Function
``````
-
int numArray[count]; This shouldn't even compile. numArray should be a pointer int* and allocated using malloc –  Pepe Aug 9 '11 at 17:24
Variable length arrays are permitted in C99 en.wikipedia.org/wiki/Variable-length_array –  dcpomero Aug 9 '11 at 17:28
@P.R: But it does compile. And variable-length arrays are perfectly valid in the ISO C99 standard of the C language. It's arguably less error-prone than allocating with malloc, too. –  ShreevatsaR Aug 9 '11 at 17:31
@ShreevatsaR I didn't know that but I don't see how it would be less error-prone than malloc. –  Pepe Aug 9 '11 at 17:37
@P.R: For instance, one very common error with malloc is to forget to free() the memory afterwards, and thus cause a memory leak. As I type this, the latest revision of your answer below has the same problem. –  ShreevatsaR Aug 9 '11 at 17:47
show 2 more comments

I remember doing that problem a while ago and I simply made a `is_palindrome()` function and brute-forced it. I started testing from 999*999 downwards.

My approach to detect a palindrome was rather different from yours. I would convert the given number to a string and compare the first char with the nth char, second with n-1 and so on.

It was quite simple (and might be inefficient too) but the answer would come up "instantly".

-
Nice. I completely overlooked the use of strings for this problem. Next time, I will definitely consider it. –  kachilous Aug 9 '11 at 18:18
``````//Determines if number is a palindrome
bool isPalindrome(int num)   // Change this to bool
{
int n = num;
int i = 0;
int j = 0;
int k = 0;
int count = 1; // Start counting at 1, to account for 1 digit numbers
int yes = 0;

//Determines the size of numArray
while(n/10 != 0)
{
// n%10; <-- What was that all about!
count++;
n = n/10;
}

int numArray[count];

//Fill numArray with each digit of num
for(i = 0; i < count; i++)                 // This will crash if you use index=count; Array indices go from 0 to Size-1
{
numArray[i] = num%10;
//printf("%d\n", numArray[i]);
num = num/10;
}

//Determines if num is a Palindrome
/*
while(numArray[k] == numArray[count-1])       // Again count-1 not count; This is really bad though what if you have 111111 or some number longer than 6. It might also go out of bounds
{
k = k + 1;
count = count - 1;
yes++;
}
*/

for(k = 1; k <= count; k++)
{
if(numArray[k-1] != numArray[count-k])
return false;
}

return true;

}//End of Function
``````

That's all I could find.

You also need to change this

``````if(isPalindrome(result) == 0)
``````

To

``````if(isPalindrome(result))
``````

The Code's Output after making the modifications: Link

-

A few issues in the `isPalindrome` function :

• the first while loop doesn't count the number of digits in the number, but counts one less.
• as a result, the `numArray` array is too small (assuming that your compiler supports creating the array like that to begin with)
• the for loop is writing a value past the end of the array, at best overwriting some other (possibly important) memory location.
• the second while loop has no properly defined end condition - it can happily compare values past the bounds of the array.
• due to that, the value in `yes` is potentially incorrect, and so the result of the function is too.
• you return nothing if the function does not detect a palindrome.
-

The correct printf is the one after the for,after you iterate through all possible values

You are using int to store the value of the palidrome but your result is bigger then 65536, you should use unsigned

``````result = i * j;
``````

this pice of code is wrong :

``````while(n/10 != 0) {
n%10;
count++;
n = n/10;
}
``````

it should be:

``````while(n != 0) {
count++;
n = n/10;
}
``````

As well as the changes that P.R sugested.

You could do something like this to find out if the number is palindrome:

``````int isPalindrom(unsigned nr) {

int i, len;
char str[10];

//convert number to string
sprintf(str, "%d", nr);
len  = strlen(str);

//compare first half of the digits with the second half
// stop if you find two digits which are not equal
for(i = 0; i < len / 2  && str[i] == str[len - i - 1]; i++);

return i == len / 2;
}
``````
-

I converted the number to String so I'd be able to go over the number as a char array:

``````private static boolean isPalindrom(long num) {
String numAsStr = String.valueOf(num);
char[] charArray = numAsStr.toCharArray();
int length = charArray.length;
for (int i = 0 ; i < length/2 ; ++i) {
if (charArray[i] != charArray[length - 1 - i]) return false;
}
return true;
}
``````
-

there is no problem in the code in finding the number. actually according to your code fragment:

. . }
printf("Largest Palindrome: %d\n", max); //906609 } } }

``````   //printf("Largest Palindrome: %d\n", max); //998001

system("PAUSE");
``````

. . .

you get the result as soon as a palindrome number is found multiplying the number downwards..

you should store the palindrome in a variable max and let the code run further as there is a possibility of finding a greater palindrome further. NOTE: i=800,j=500 i*j will be greater when compare with i=999,j=100. just understand the logic here.

-