Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to find the best algorithmic solution to the following problem. It's a real-world problem, but I'm going to present it in an abstract manner.

There is a community of 1000 people. Each user is provided with a set number of tickets. There are four types of tickets (each one corresponds to a different event). However, some people are willing to make trades (for example, I want one A-ticket and am willing to give up two B-tickets). Moreover, some people have extra tickets that they are willing to give away for nothing (for example, I'll give away two C-tickets to whoever wants them). Assuming that I know what each person is willing to give away / trade, how do I satisfy the most number of people?

I tried Googling, but I don't know how to word this problem to avoid getting results related to algorithmic trading of financial instruments.


share|improve this question
You need to define "satisfy". Do people get satisfied if they have at least tickets to some subset of {A,B,C,D} or a certain number of each type at minimum? Also if a person is willing to give away or trade, and you can't satisfy that person, is that person still willing to give away the ticket? –  ronalchn Aug 19 '12 at 2:47
This algorithm not sufficiently well-defined. You do not say what it means to "satisfy" a person, whether they start with more than one type of ticket, etc. I would suggest editing the question; it may be closed soon otherwise. –  ninjagecko Aug 19 '12 at 2:47
Good point. So a person is satisfied when he or she ends up with the exact tickets (in terms of both quantity and type) that he or she wanted. The people who do not want to make any trades or are willing to give tickets away are always considered satisfied. –  user1481479 Aug 19 '12 at 2:50
Just noticed the second question. So a person is only willing to make a trade if he or she can be satisfied by the trade. –  user1481479 Aug 19 '12 at 2:58
When I added barter to my search keywords I started picking up papers on kidney exchanges, which is at least not financial instruments. That looks like a hard problem. One of the papers said research in combinatorial auctions wasn't quite applicable to them - might perhaps be to you. –  mcdowella Aug 19 '12 at 8:03

2 Answers 2

up vote 0 down vote accepted

Given that it has multiple dimensions, it is likely an NP-complete problem. It has parallels to a multi-dimensional knapsack problem.

Therefore, I recommend trying a backtracking approach.

Start with everybody involved in the trade.

Sort the people who cause the most deficit descending (here you can weight the deficit caused by each ticket type by the shortfall in each ticket).

Then in a backtracking manner, kick the person causing the next highest deficit person out of the trade.

Repeat until you either have no more deficit in any ticket (record as possible answer), or you have kicked everybody out.

When that happens, backtrack 1 step and continue (if you already tried kicking the highest deficit, kick the next highest deficit causing person).

Repeat until end or you run out of time. Get the optimal answer out of the possible answers you found.

If the problem is too hard, it will probably run out of time. Otherwise, this algorithm should give you a reasonable answer (perhaps near to optimal).

How well this method works depends on how generous/greedy the people are, how many people there are, and how fast your computer is.

share|improve this answer
Thanks! Especially for the reference to the knapsack problem. –  user1481479 Aug 20 '12 at 2:05

Look for a bipartite minimum weigth matching problem. The idea is to find the shortest distance from i to j using vertices 1 .. k only.

share|improve this answer
Thanks, I'll look into this too. –  user1481479 Aug 20 '12 at 2:06

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.