Let's say we are implementing normal Rock Paper Scissors, as you say in your comment on your question. Let's assign:

```
Rock: 0
Paper: 1
Scissors: 2
```

This answer assumes you know about the modulo operator (`%`

), so if not, please look that up first to understand what it means. I use it in this answer so that when we add 1 to scissors (which is 2), you get 0 instead of 3, since rock is 0 and there are no items for number 3.

With this assignment of numbers to choices, we want a choice to win if it comes right after the other person's choice, lose if it comes right before it, and tie if they're equal. For example, 2 comes right after 1, so scissors beats paper. We will use the modulo operator to make sure that our numbers stay between 1 and 3 (including 1 and 3).

So if you want to determine if player 1 wins, you would check if their move is 1 bigger than player 2's move. To tell if they tie, see if they have the same move. And if neither of those is true, then player 2 must have won. Here's an example implementation with some tests:

```
>>> def winner(p1, p2):
... if (p1+1) % 3 == p2:
... return "Player 2 won because their move is one greater than player 1"
... elif p1 == p2:
... return "It's a draw because both players played the same move"
... else:
... return "Player 1 wins because we know that it's not a draw and that player 2 didn't win"
...
>>>
>>>
>>> rock = 0
>>> paper = 1
>>> scissors = 2
>>> winner(rock, paper)
'Player 2 won because their move is one greater than player 1'
>>> winner(paper, scissors)
'Player 2 won because their move is one greater than player 1'
>>> winner(scissors, rock)
'Player 2 won because their move is one greater than player 1'
>>> winner(rock, scissors)
"Player 1 wins because we know that it's not a draw and that player 2 didn't win"
>>> winner(paper, paper)
"It's a draw because both players played the same move"
```

Now in this game, the mathematical rule was that an item beats the item with the number 1 less than it (modulo 3). If you add more items, you will need to come up with a mathematical rule to govern how the game works. One example (that wouldn't be very fun) would be to keep the rule that an item beats the item 1 less than it (and therefore loses to the item 1 more than it), and has a tie with any other item, though this would be a rather boring game.

Hope that answer helps!! Good luck!