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I am looking forward for an algorithm for the below problem.

Problem: There will be a set of people who owe each other some money or none. Now, I need an algorithm (the best and neat) to settle expense among this group.

Person AmtSpent
------ ---------
A       400  
B      1000  
C       100  
Total  1500

Now, expense per person is 1500/3 = 500. Meaning B to give A 100. B to give C 400. I know, I can start with the least spent amount and work forward.

Can some one point me the best one if you have.

Thanks in advance.

To sum up, 1. Find the total expense, and expense per head.
2. Find the amount each owe or outstanding (-ve denote outstanding).
3. Start with the least +ve amount. Allocate it to the -ve amount.
4. Keep repeating step 3, until you run out of -ve amount.
s. Move to next bigger +ve number. Keep repeating 3 & 4 until there are +ve numbers.

Or is there any better way to do? I am just curious. :)

share|improve this question
is this a homework assignment? – Glen Jun 10 '09 at 11:11
sounds like a "golf trip" assignment. – Cheeso Jun 10 '09 at 11:14
Well.. I am just curious to settle my expenses with my bunch of friends.. Just acting smart to do something other than excel. No homework anyway. :) – Guru Jun 10 '09 at 11:31
If by "better", you mean "fewer net payments", then it is only possible to the extent that a possibility exists for a deficit (or surplus) to be broken apart such that its parts EXACTLY match some group of surpluses (or deficits). But as granularity of payments increases (pennies rather than dollars), the likelihood of this approaches nil, and your described solution is optimal. – John Pirie Jun 10 '09 at 11:41
Lets assume that each or few spend some amount and the total amount is shared among them equally. So, it has to part EXACTLY. Fewer payments is better. Anything else need to take into consideration? – Guru Jun 10 '09 at 11:53
up vote 1 down vote accepted

You have described it already. Sum all the expenses (1500 in your case), divide by number of people sharing the expense (500). For each individual, deduct the contributions that person made from the individual share (for person A, deduct 400 from 500). The result is the net that person "owes" to the central pool. If the number is negative for any person, the central pool "owes" the person.

Because you have already described the solution, I don't know what you are asking. Maybe you are trying to resolve the problem without the central pool, the "bank"?

I also don't know what you mean by "start with the least spent amount and work forward."

share|improve this answer
I think he means sorting first by amount spent can minimize the number of payment transactions, although that's not specified as a requirement – John Pirie Jun 10 '09 at 11:15
I thought there would be some other better way to do so. To sum up, 1. Find the total expense, and expense per head. 2. Find the amount each owe or outstanding (-ve denote outstanding). 3. Start with the least +ve amount. Allocate it to the -ve amount. 4. Keep repeating step 3, until you run out of -ve amounts. Move to next bigger +ve number. Or is there any better way to do? I am just curious. :) – Guru Jun 10 '09 at 11:28

The best way to get back to zero state (minimum number of transactions) was covered in this question here.

share|improve this answer
That's a good solution (suggeested by "Pax "). The problem with me is, I am not going to limit the users to three. And solution suggested by "jwoolard" is very much as the one pointed already. I will be happy adopting this. :) – Guru Jun 10 '09 at 12:00
Just be aware that this it's not an easy undertaking to get the absolute minimum - you basically have to look at the entire search space. The accepted answer in that other question will give you a very good answer but there are edge conditions which will mean it's not the minimum (I called it the best in terms of bang-per-buck). – paxdiablo Jun 10 '09 at 12:17

I have created an Android app which solves this problem. You can input expenses during the trip, it even recommends you "who should pay next". At the end it calculates "who should send how much to whom". My algorithm calculates minimum required number of transactions and you can setup "transaction tolerance" which can reduce transactions even further (you don't care about $1 transactions) Try it out, it's called Settle Up:

Description of my algorithm:

I have basic algorithm which solves the problem with n-1 transactions, but it's not optimal. It works like this: From payments, I compute balance for each member. Balance is what he paid minus what he should pay. I sort members according to balance increasingly. Then I always take the poorest and richest and transaction is made. At least one of them ends up with zero balance and is excluded from further calculations. With this, number of transactions cannot be worse than n-1. It also minimizes amount of money in transactions. But it's not optimal, because it doesn't detect subgroups which can settle up internally.

Finding subgroups which can settle up internally is hard. I solve it by generating all combinations of members and checking if sum of balances in subgroup equals zero. I start with 2-pairs, then 3-pairs ... (n-1)pairs. Implementations of combination generators are available. When I find a subgroup, I calculate transactions in the subgroup using basic algorithm described above. For every found subgroup, one transaction is spared.

The solution is optimal, but complexity increases to O(n!). This looks terrible but the trick is there will be just small number of members in reality. I have tested it on Nexus One (1 Ghz procesor) and the results are: until 10 members: <100 ms, 15 members: 1 s, 18 members: 8 s, 20 members: 55 s. So until 18 members the execution time is fine. Workaround for >15 members can be to use just the basic algorithm (it's fast and correct, but not optimal).

Source code:

Source code is available inside a report about algorithm written in Czech. Source code is at the end and it's in English:

share|improve this answer
+1. really interesting. It appears to be promising. I once built a appspot on Python (did not complete it successfully). So, you used which method? which algorithm? the double entry book keeping? – Guru Apr 23 '11 at 17:25
It actually started as my semester project for class. So I had to "invent" the algorithm. It's quite hard to search for existing solutions, because I don't know the terms. Do you have some suggestions for further research? – David Vávra Apr 25 '11 at 20:41
Description of my algorithm: I have for each member his balance (plus or minus). I have basic algorithm which solves it with N-1 transactions: order members according to balance and the the one with lowest balance sends money to next one and so on. This algorithm can be improved - I try to find two-pairs of people who settle up just with one transaction. Then I search for triples from the rest and so on. With each of these subgroups I use the basic algorithm. But transactions are spared. So worst-case is N-1 transactions, but usually less. – David Vávra Apr 25 '11 at 20:49
thanks for the explanation, Destil. I have moved the comment to your answer about for easy reading. All the best. – Guru Apr 26 '11 at 20:25
Hi, eventually I have changed the algorithm, because the previous one generated transactions with more money than it was needed. I have improved the description in my post. I have also attached link to the full source code. – David Vávra May 3 '11 at 9:05

very pseudocode

expense = CalculateExpense;

I := 0;
J := Count;

while I < J do
  transfer = Min(expense - Spent(I), Spent(J) - expense);
  Inc(Spent[I], transfer);
  Dec(Spent[J], transfer);

  WriteToLog('Transfered <transfer> from <I> to <J>);

  if Spent[I] = expense then Inc(I);
  if Spent[J] = expense then Inc(J);
share|improve this answer

Straightforward, as you do in your text:

Returns expenses to be payed by everybody in the original array. Negativ values: this person gets some back

Just hand whatever you owe to the next in line and then drop out. If you get some, just wait for the second round. When done, reverse the whole thing. After these two round everybody has payed the same amount.

procedure SettleDepth(Expenses: array of double);
  i: Integer;
  s: double;
  //Sum all amounts and divide by number of people
  // O(n) 
  s := 0.0;
  for i := Low(Expenses) to High(Expenses) do
     s := s + Expenses[i];

  s := s / (High(Expenses) - Low(Expenses));

  // Inplace Change to owed amount
  // and hand on what you owe
  // drop out if your even 
  for i := High(Expenses) downto Low(Expenses)+1 do begin
     Expenses[i] := s - Expenses[i];
     if (Expenses[i] > 0) then begin
        Expenses[i-1] := Expenses[i-1] + Expenses[i];
     end else if (Expenses[i] = 0) then begin

  Expenses[Low(Expenses)] := s - Expenses[Low(Expenses)];
  if (Expenses[Low(Expenses)] = 0) then begin

  // hand on what you owe
  for i := Low(Expenses) to High(Expenses)-1 do begin
     if (Expenses[i] > 0) then begin
        Expenses[i+1] := Expenses[i+1] + Expenses[i];
share|improve this answer

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