# How can I optimise my awful code for finding the highest palindrome of a 3 digit number?

This is what I have written so far. It compiles, and, as far as I can tell, it should 'work' - if you were to give your computer an infinite amount of time to compute the answer !

I was just wondering if anyone would please be able to give me a way to optimise this so that my program will tell me the highest palindromic number (the same both forwards and backwards eg, 91 * 99 = 9009;) formed by multiplying any two three-digit numbers.

`````` public class HighestPalindrome {
public static void main(String[] args) {
int number=0;

search:
for(int LoopOfFirstNumber=999;LoopOfFirstNumber<=100;LoopOfFirstNumber -= 3){
for(int LoopOfSecondNumber=LoopOfFirstNumber;LoopOfSecondNumber<=100;LoopOfSecondNumber-=3)
{
number = LoopOfFirstNumber * LoopOfSecondNumber;
if (number == reverse(number))
{
break search;
}
}
}
}

//The code after this works fine, I believe. It will reverse any number given very quickly, I think the problem
//is above....with the two for loops!

private static int reverse(int n, int r) {
if (n == 0) return r;
System.out.println("This iteration returns " + n/10 + " and  " + 10*r+n%10);
return reverse(n/10, 10*r+n%10);
}

public static int reverse(int n) {
return reverse(n, 0);
}
``````
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as I see, there's mistake in loop exit condition: LoopOfFirstNumber<=0; your loop will not be executed at all. –  Kel Oct 25 '10 at 10:37
This isn't guaranteed to give you the largest number, either. It's not necessarily the case that the number with the largest first factor is the largest (two smaller numbers may multiply up to be bigger) –  Paul Oct 25 '10 at 10:41

As you already guessed, the problem is in the nested loop. Try to figure out a few property of the numbers. Multiplication of two three digits number will always give a number having five or six digits. Since you are looking for the highest number, then it's expected to be six digit number starting with number 9 and since it's palindromic, it probably ends with number 9 as well. In short, you're expecting numbers in the form 9xyyx9.

Next, not all pairs of numbers can be multiplied and end with number 9. xx3 and xx3 will give xxxxx9, so does xx1 and xx9; but xx1 and xx8 will never multiply to xxxxx9.

Find properties like these, and try to filter which ones likely can be implemented easily into your search.

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Ok, I see what you're trying to say (and thank you very much for taking the time to say it!). I'm just trying to think of a way to integate these things into my code. If I decremented my loop by 3 instead of 1 every iteration it would work, I believe ? –  user476033 Oct 25 '10 at 11:15
I just edited my code to include my revisions now, it still doesnt run :( –  user476033 Oct 25 '10 at 11:19
You are still doing `<=100`. Do `>=100` instead. –  codaddict Oct 25 '10 at 11:21
@codaddict - I made that change and it worked straight away ! Thank you very much ! :) Can you explain why this is the case though please ? I was under the impression that the 2nd condition of the for loop specified a point at which to end the loop ? Surely with <=100, the for loop should keep cycling until my 999 is reduced to 100 (or break; is called), and >=100 should cause it to end straight away ? Obviously this is not the case, I am just a little confused ! :) Thank you very much again ! :) –  user476033 Oct 25 '10 at 11:32
@user476033: the code as you have right now may not give correct result, since it skips some valid possibilities. There are three pairs of potential last digits that can multiply to 5-6 digit number ending with 9: (1*9=9), (3*3=9), (7*7=49). That is, you need to search all of `xx1*xx9`, `xx3*xx3`, and `xx7*xx7`. That's testing at most 24300 combinations (or even less, if you apply a few more optimizations); compared to your original which tests at most 810000 combinations. In my computer, 24300 palindrome tests takes a blink of an eye to calculate. –  Lie Ryan Oct 25 '10 at 12:27

Your `for` loop conditions is wrong:

``````LoopOfFirstNumber<=0
``````

it should be:

``````LoopOfFirstNumber>=100
``````

You should continue to loop till your loop counters are `>= 100` which is the smallest 3 digit number.

Also once you find a palindrome, you need to break both the loops. Currently you are breaking only the inner loop. To fix this you need to use labeled break.

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Actually, it should be LoopOfFirstNumber > 100, since we want only three digit numbers... –  Paul Oct 25 '10 at 10:39
Ah, thank you very much. I changed from having a '++' loop to a '--' because I thought this would be faster (was I right in this assumption actually?), but I forgot to edit the conditions ! Many thanks ! –  user476033 Oct 25 '10 at 10:42
Actually...why would I want my for loop to stop after 100 iterations ? Wouldn't 999 have three digits also ? –  user476033 Oct 25 '10 at 10:43
You don't want to stop after 100, but your loop as originally posted counted down from 999. If you're counting up, you want to start at 100. Counting down should be faster, if you stop each loop when the current product is less than your current maximum palindrome - no point in testing whether any numbers less than that are palindromes. –  Paul Oct 25 '10 at 10:47
Also, you're testing each number twice (because for any given values of first and second number, later on you'll test the same number with first and second swapped) –  Paul Oct 25 '10 at 10:48

The inner for loop doesn't need to start with 999, it can start with `LoopOfSecondNumber = LoopOfFirstNumber`:

Let's assume that there is a solution for which `LoopOfSecondNumber = x > LoopOfFirstNumber = y`. Then there would be a solution where the two numbers are switched: `LoopOfFirstNumber = x`, `LoopOfSecondNumber = y` => This solution would thus have been found earlier in the outer loop already.

This doesn't bring you much optimization though, in best case it takes you half of the time the original code took.

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Why don't you tackle it from the other side?

Create a set of all the palindrome numbers starting from 1000000 (1000*1000) and working down, should be fairly easy.

And then factorise them - though I guess you're going to need an algorithm for this :-(

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for (int SetOfAllIntegers=999999;SetOfAllIntegers<=900000;SetOfAllIntegers-=3) { if (SetOfAllIntegers == reverse(SetOfAllIntegers)) { int answer=SetOfAllIntegers; System.out.println(answer); break; } } Is something like this what you mean ? :) –  user476033 Oct 25 '10 at 11:24
Apologies, I'm not sure how to post properly indented code in comments ! –  user476033 Oct 25 '10 at 11:25