# Determining winning amount in Poker without creating side-pots

I'm trying to run a poker simulation and have the following data about a poker table

• how much each player contributed to the pot
• a "hand score" (after flop) for each player (ie, if `player.score == player.score`, they tied)

I'm stuck calculating how much each player should win without needing to create sidepots and assigning players to each of them.

For example,

``````player.contributed = 100
player.contributed = 80
player.contributed = 20
``````

``````player.score = 10
player.score = 2
player.score = 10
``````

``````total_pot = 200;
``````

In this example, do I first need to return `player` 20 back and remove it from the pot?

Then, since `player` and `player` have tied for first spot, and `player` has lost, should the pot be divided as:

``````player.received = 170
``````

And subsequently, if `player` had won, should the pot be divided as:

``````player.received = 20
``````
• I know it's not answering your question which is why I am commenting and not answering but depending on implementation generally I think it would be better practice to create the individual side pots, as it would be clearer code to have a representation of each fraction of the total that should be won, also I would imagine it makes it quicker to compute if the pot has to split – rogermushroom Mar 28 '11 at 17:23

First sort by score descending, so you'll end up with two groups: { 0, 2 }, { 1 }.

Then, sort each group by the order they have contributed ascending: { 2 (20), 0 (100) }, { 1 (80) }.

Now, divide the pot in that order:

1. First you'll take (max) 20 away from each players contributions to create the first pot. And divide it evenly to 2 and 0. The first pot will be (20 + 20 + 20 = 60. So both 0 and 2 will be given 30). After that, the first players winnings are done, and you are left with: { 0 (80) }, { 1 (60) }.

2. Now, you'll take (max) 80 away from each players contributions to create the next pot (80 + 60 = 140). And give it to 0 (no division needed as there are no longer more than one in the top group, so 0 will receive the whole 140). You'll be left with: { 1 (0) }.

3. No more contributions left, so you are done.

• I'm beggining to implement it, but it makes a lot of sense thanks! – Lem0n Mar 28 '11 at 19:29
• How would you handle a player folding? – Christopher Tarquini May 18 '13 at 22:51
• my friend, you just saved my life... – alexandrecosta Nov 1 '13 at 14:26
• How do you decide who the second side-pot goes to? What if there are three winners who tied? And a fourth non-winner who contributed more than all of them, how would he get the last side-pot back? – laggingreflex Apr 15 '14 at 16:55
• @ChrisT Presumably, give their hand the minimum score. – David Eisenstat Apr 15 '14 at 18:44

The following code has a very large number of assertions, but BE CAREFUL because I have not tested it carefully. It's not clear what to do with the odd chips; I give them to the players that appear later in the collection.

``````import java.util.*;

public class Player {

static void winnings(Collection<Player> players) {
for (Player player : players) {
assert player.contributed >= 0;
}
int potCutoff = 0;
while (true) {
int playerCount = 0;
int nextPotCutoff = Integer.MAX_VALUE;
int scoreMax = Integer.MIN_VALUE;
int winnerCount = 0;
for (Player player : players) {
if (player.contributed <= potCutoff) {
continue;
}
playerCount++;
assert playerCount > 0;
nextPotCutoff = Math.min(nextPotCutoff, player.contributed);
if (player.score > scoreMax) {
scoreMax = player.score;
winnerCount = 1;
} else if (player.score == scoreMax) {
winnerCount++;
assert winnerCount > 0;
} else {
assert player.score < scoreMax;
}
}
if (playerCount == 0) {
break;
}
assert playerCount > 0;
assert nextPotCutoff > potCutoff;
assert potCutoff >= 0;
assert Integer.MAX_VALUE / (nextPotCutoff - potCutoff) >= playerCount;
int potTotal = playerCount * (nextPotCutoff - potCutoff);
assert potTotal > 0;
assert winnerCount > 0;
assert winnerCount <= playerCount;
for (Player player : players) {
if (player.contributed <= potCutoff) {
continue;
}
assert player.contributed >= nextPotCutoff;
if (player.score == scoreMax) {
assert winnerCount > 0;
int winnerShare = potTotal / winnerCount;
winnerCount--;
assert winnerShare > 0;
assert potTotal >= winnerShare;
potTotal -= winnerShare;
} else {
assert player.score < scoreMax;
}
}
assert winnerCount == 0;
assert potTotal == 0;
potCutoff = nextPotCutoff;
}
}

public static void main(String[] args) {
Player p0 = new Player(), p1 = new Player(), p2 = new Player();
p0.contributed = 100;
p1.contributed = 80;
p2.contributed = 20;
p0.score = 10;
p1.score = 2;
p2.score = 10;
Collection<Player> players = new ArrayList<Player>();