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As the RingBuffer up-front allocates objects of a given type, how can you use a single ring buffer to process messages of various different types?

You can't create new object instances to insert into the ringBuffer and that would defeat the purpose of up-front allocation.

So you could have 3 messages in an async messaging pattern:

  1. NewOrderRequest
  2. NewOrderCreated
  3. NewOrderRejected

So my question is how are you meant to use the Disruptor pattern for real-world messageing systems?



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2 Answers 2

up vote 24 down vote accepted

One approach (our most common pattern) is to store the message in its marshalled form, i.e. as a byte array. For incoming requests e.g. Fix messages, binary message, are quickly pulled of the network and placed in the ring buffer. The unmarshalling and dispatch of different types of messages are handled by EventProcessors (Consumers) on that ring buffer. For outbound requests, the message is serialised into the preallocated byte array that forms the entry in the ring buffer.

If you are using some fixed size byte array as the preallocated entry, some additional logic is required to handle overflow for larger messages. I.e. pick a reasonable default size and if it is exceeded allocate a temporary array that is bigger. Then discard it when the entry is reused or consumed (depending on your use case) reverting back to the original preallocated byte array.

If you have different consumers for different message types you could quickly identify if your consumer is interested in the specific message either by knowing an offset into the byte array that carries the type information or by passing a discriminator value through on the entry.

Also there is no rule against creating object instances and passing references (we do this in a couple of places too). You do lose the benefits of object preallocation, however one of the design goals of the disruptor was to allow the user the choice of the most appropriate form of storage.

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Regarding your comment "Some additional logic is required to handle overflow ..." - this is incorrect. Watch the LMAX video at, the ringbuffer array size is always constant (he used 20 million entries), and in practice it is either practically empty (the system is chugging along nicely) or full (there is something wrong, and no amount of expanding the array size will fix it). Martin did remark that the Disruptor pattern is so damn fast that the bottleneck becomes the I/O from either the network or the disk, so it will never fill up in practice. – Contango Aug 4 '11 at 14:53
I know, I was in that presentation. I'm one on the left. I realise that my answer is not particularly clear, I was talking about the size of the individual entries. It's not possible to know what size all of your messages will be, but you can take a really good guess and handle the exceptional case by a slower code path. – Michael Barker Aug 4 '11 at 21:04
you said the most common approach is to use a byte array as the storage type for the Disruptor. My question is: is there any disadvantage to using non-POD datatypes as the storage for Disruptor. If i use a structure which contains a java.String, for example, will it lead to cache misses? as the String member variable might be at some far location from the array in the RingBuffer. Thanks. – weima Feb 17 '12 at 13:21
It's hard to be sure. Is this a new string that is allocated with each event, then you'll probably get a miss, or one that is shared across multiple events in that case you may benefit from temporal locality. Remember in any performance conversation testing and numbers are king. – Michael Barker Feb 17 '12 at 19:34

There is a library called Javolution ( that let's you defined objects as structs with fixed-length fields like string[40] etc. that rely on byte-buffers internally instead of variable size objects... that allows the token ring to be initialized with fixed size objects and thus (hopefully) contiguous blocks of memory that allow the cache to work more efficiently.

We are using that for passing events / messages and use standard strings etc. for our business-logic.

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