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I'm looking for code that constructs orderbook from orders

For example if orders are

side | price | quantity
buy   100      1
buy   101      10
buy   100      1000
buy   100      10000

then agregated orderbook should be:

side | price | quantity
buy    100     11001
buy    101     10 

During program lifetime orders are added, modified or deleted. On each order update I need to update OrderBook quickly.

I'm sure this is very common task, so there should be a lot of implementations in Internet already.

Thank you for any references, I'm looking for c# implementation, but I can rewrite it from another language if needed.

upd Actually I should rephrase my question. Initially orderbook is empty. Then I receive events: add order, change order quantity or cancel order. I should recalculate orderBook from this messages. But now it becomes clear for me how simple it should be. When order is added I just add quantity at this price level. When order quantity is changed i just need to add "change" and when order is canceled i just need to remove corresponding quantity from corresponding price level. The only question is where should I store "last order quantity" Totally there are a lot of orders (dozens of millions), but there are not a lot of active orders (not more than 100 000) and for each active order I need to obtain "last quantity" by orderId... Of course I can use dictionary, but that would be too slow probably. I want something faster. But I can not use 50 000 000 items array.

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"there should be a lot of implementations in Internet already". I doubt it. There may exist commercial implementations of such stuff though. –  Alexandre C. Mar 29 '12 at 18:42
    
Oh, and please see mattgemmell.com/2008/12/08/what-have-you-tried for next time –  Alexandre C. Mar 29 '12 at 19:29
    
i think ociweb Liquibook is the most popular open-source implementation of orderbook –  javapowered Nov 22 '13 at 17:38

4 Answers 4

Here is the code tested in LINQPad


var orders = new [] {
    new {Side = "Buy", Price = 100, Quantity = 1 },
    new {Side = "Buy", Price = 101, Quantity = 10 },
    new {Side = "Buy", Price = 100, Quantity = 1000 },
    new {Side = "Buy", Price = 100, Quantity = 10000 },
    new {Side = "Sell", Price = 100, Quantity = 10000 }
};

var orderboook 
    = from o in (           
                    from order in orders
                    group order by order.Side into sideGroup
                    select new {
                        Side = sideGroup.Key,
                        SideGroup = 
                            from s in sideGroup
                            group s by s.Price into g
                            select new {
                                Side = sideGroup.Key,
                                Price = g.Key, 
                                Quantity = g.Sum( s => s.Quantity) 
                            }
                    }
                )
     from g in o.SideGroup
     select g;

orderboook.Dump(); // .Dump() is LINQPad helper method...

The result in LINQPad is
orderbook result in LINQPad

share|improve this answer
    
+1 for pointing me to LINQPad :) –  reagan Jun 23 '13 at 14:21

Using a query you can do

UPDATE OrderBook 
SET quantity = (
    SELECT SUM(quantity) FROM orders
    WHERE price = :your_price
      AND side = :your_side) p
WHERE price = :your_price
  AND side = :your_side

where :your_price and :your_side are values of modified order.
Better if you can clear all table and fill it from beginning:

TRUNCATE TABLE OrderBook;
INSERT INTO OrderBook
SELECT side, price, SUM(quantity)
FROM orders
GROUP BY side, price

In my first example I assumed that in your order only quantity can change; but if other values can change it cannot work.
Second example is expensive, so use it only if your order don't change often.
Finally: if your orders vary often and every value can change you could:

  1. Update OrderBook removing values from order that should be modified (so before it's updated)
  2. Update OrderBook adding values from order that has been changed.
share|improve this answer
    
It makes more sense to just make it a view based on the group by query. Let the DB handle caching it and maintaining the cache. –  Servy Mar 29 '12 at 17:51
    
sorry I've updated description. I don't need to "transfer" current orders to orderbook. I need to do that during application lifetime on each "order update event" –  javapowered Mar 29 '12 at 18:03

You need to group by the price and side and then select the sum of quantity for each group. Since you haven't specified any medium (database, objects in memory, etc.) we can't really give you a specific implementation.

Edit: apparently these are object in memory, in which case LINQ is your friend:

var results = orders.OrderBy(order => new{order.side, order.price})
.Select(group => new{ group.Key.side, group.Key.price, group.Sum(order => order.quantity));
share|improve this answer
    
i need c# implementation, of course I have orders in memory :) –  javapowered Mar 29 '12 at 17:53

Of course I can use dictionary, but that would be too slow probably

Any solution will involve either a tree, or a hashtable. So you're probably better off using the standard dictionary implementation of your language.

Now, don't guess anything about performance, especially before having implemented something that works. Then profile, and if the particular dictionary implementation you're using is proven to impact performance, then ask a specific question with actual code we will be glad to try and improve.

share|improve this answer
    
I guess you right. Knowing that 95% of active orders are "very close to each other", i.e. theirs id is withing 100 000 interval I probably can try to use array for this part and to use dictionary for the rest 5% of orders and I will need to move orders dinamically from array to dictionary. But that sounds so complicated that I would better to use Dictionary as a first shot and profile it if needed –  javapowered Mar 29 '12 at 19:30
    
@javapowered: the saying goes "Do the simplest thing which can possibly work" (and from experience, this is a golden rule in any form of [algorithmic] trading). –  Alexandre C. Mar 29 '12 at 19:32
    
@javapowered: also, performance here is relative. I suppose your concern will be more about connection latency than cheap stuff like storing stuff in a dictionary. The single best improvement that money can buy for HFT is colocation. –  Alexandre C. Mar 29 '12 at 19:35
    
I already collocated. this is must-have in HFT :) Unfortanately I already loose 150 µs because of quickfast, I don't want to loose more because of my own code. –  javapowered Mar 29 '12 at 19:38

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