This is an almost language-agnostic question, and not a homework. Ideally I would use C# and/or SQL server for solution.
Suppose that I have a function
GetExchangeRate(buyCurrency, sellCurrency). So, if 1 GBP is worth 1.6 USD, then
GetExchangeRate('GBP', 'USD') = 1.6 and
GetExchangeRate('USD', 'GBP') = 0.625.
The orders in the system will be represented as the following triplets:
(buyCurrency, SellCurrency, buyCurrencyAmount). So, ('GBP', 'USD', 125.00) means buy 125 GBP with however many dollars it costs.
My goal is to save on transaction costs and cancel out the orders, including transitivity. Netting the buys and the sells between the same pair of currencies is easy to do, and easy to justify. Let's just say that I might have a business reason to simplify an order where I am buying GBP with USD, and also buying EUR with GBP, and so on ...
I want to simplify this set of orders transitively. I was thinking of building out a graph data structure (nodes are currencies and edges are buyCurrencyAmounts), even though the data would be stored in SQL tables, and applying the right algorithm to this. I thought of first doing a simple netting, followed by a topological sort on a DAG, followed by starting from the top, then walking in the topological order and "squeezing" the orders down, e.g. simplifying them.
The problem is that I will not necessarily have a DAG. But then, I will be likely simplifying the graph structure as I execute the algorithm, whichever one that will be.
What is the right data structure / algorithm that I should use for this? Should I be worried about the resulting precision? Are there some good approaches to not losing cents as I go? Can you recommend a good C# library that can handle this? Would it be crazy/inefficient/too much work to attempt this using only SQL Server 2008?
EDIT: The fees paid for transactions are all built into the price (exchange rate). There is no fixed flat fee or anything like that.