Lets say I have guessed a lottery number of:

1689

And the way the lottery works is, the order of the digits don't matter as long as the digits match up 1:1 with the digits in the actual winning lottery number.

So, the number 1689 would be a winning lottery number with:

1896, 1698, 9816, etc..

As long as each digit in your guess was present in the target number, then you win the lottery.

Is there a mathematical way I can do this?

I've solved this problem with a O(N^2) looping checking each digit against each digit of the winning lottery number (separating them with modulus). Which is fine, it works but I want to know if there are any neat math tricks I can do.

For example, at first... I thought I could be tricky and just take the sum and product of each digit in both numbers and if they matched then you won.

^ Do you think that would work?

~~However, I quickly disproved this when I found that lottery guess: 222, and 124 have the different digits but the same product and sum.~~

Anyone know any math tricks I can use to quickly determine if the digits in num1 match the digits in num2 regardless of order?

N is faster than 100*NlogN for any N that makes a reasonable length lottery ticket. – Sparr Feb 26 '09 at 20:35