But in my case consumer work is much more complicated and takes some time. So I want 4 consumers that process data in parallel.
So for example if producer produce numbers: 1,2,3,4,5,6,7,8,9,10,11..
I want consumer1 to catch 1,5,9,... consumer2 to catch 2,6,10,... consumer3 to catch 3,7,11,... consumer4 to catch 4,8,12... (well not exactly these numbers, the idea is that data should be processed in parallel, i don't care which certain number is processed on which consumer)
And remember this need to be done parallel because in real application consumer work is pretty expensive. I expect consumers to be executed in different threads to use power of multicore systems.
Of course I can just create 4 ringbuffers and attach 1 consumer to 1 ring-buffer. This way I can use original example. But I feel it wouldn't be correct. Likely it would be correct to create 1 publisher (1 ringbuffer) and 4 consumers - as this is what i need.
Adding link to a very simular question in google groups: https://groups.google.com/forum/#!msg/lmax-disruptor/-CLapWuwWLU/GHEP4UkxrAEJ
So we have two options:
- one ring many consumers (each consumer will "wake-up" on every addition, all consumer should have the same WaitStrategy)
- many "one ring - one consumer" (each consumer will wake-up only on data that it should process. each consumer can have own WaitStrategy).