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I'm looking for a single-producer, single-consumer FIFO implementation that would perform faster than the normal lock-write-unlock-signal / waitForSignal-lock-read-unlock stuff. I'm looking for something supported by most POSIX operating systems (x86 specific is fine) written in either C or C++.

I'm not looking to pass anything larger than a pointer.

I'm not necessarily attached to the lock-free idea, but I do want something fast and correct. One of the papers I read on the subject mentioned a two-queue approach that seemed interesting, but I haven't been able to find much about that since then.

From the research I've done so far, 0mq (which supposedly uses a lock-free structure for its inproc:// scheme) looks like it's the most attractive option. That being said, I'd like to be sure I haven't missed anything before I go down that path.

One other alternative might involve using a POSIX message queue, but this seems like it'd be rather slow for thread <--> thread communication; is this true?

Any single-consumer single-producer lock free queue implementation in C? seems relevant, but the accepted answer there really isn't an enumeration of existing libraries as much as it is "premature optimization is bad".

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Premature optimization is bad. –  Lightness Races in Orbit Jul 9 '11 at 22:27
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Stumbled onto stackoverflow.com/questions/1164023/…, which seems to be a duplicate (albeit an older one). liblfds.org looks interesting. –  Not Provided Jul 11 '11 at 1:57

4 Answers 4

up vote 1 down vote accepted

You will want to look at Intel's Thread Building Blocks. They build on the primitives provided by x86's user-mode atomic operations, and pthreads or Win32 threads, and provide fast, efficient, templated data structures. A concurrent queue is among many.

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Cool! Another library to look into! –  Not Provided Jul 9 '11 at 22:40

The problem is that POSIX doesn't include an API (that I know of) for interlocked operations. In fact, not all platforms support the same operations for lock-free programming (some use compare-and-swap, some use load-linked-store-conditional).

That said, the only difficult part about making a lock-free single-consumer queue (supporting multiple producers is trivial) is handling the ABA problem, and that really shouldn't be a problem.

You need a singly-linked-list for producers to add to (prepend to). The consumer has a local queue, when that's exhausted it grabs the entire producer list and reverses it, creating a new local queue. The Windows SList API is an example.

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It might not be a problem, per se (much of what I've read leads me to believe I have enough of a handle on this to solve it); at the same time, I don't want to spend time writing / debugging / maintaining something if someone else has already done it (and, in the case of a library devoted to this kind of thing, has likely devoted more time to understanding this kind of thing than I have). –  Not Provided Jul 9 '11 at 22:38

Just stumbled on this: CDS (Concurrent Data Structures) tonight.

CDS (Concurrent Data Structures) is a C++ template library of lock-free and fine-grained algorithms. It contains a collection of concurrent data structures: queues, maps, hazard pointer reclamation schema, - and many others

I must say I'm only slightly past the /getting it to build/ stage (it wasn't as straightforward as I'd have liked) but ... you might be interested to take a look for yourself.

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Absolutely. Thanks much! –  Not Provided Jul 9 '11 at 22:33

In addition to the other answers here (and in this highly related question), I'll take this opportunity for a shameless plug of my own super-fast, C++ implementation of a single-consumer single-producer wait-free queue. It:

  • Uses C++11 move semantics
  • Grows as needed (but only if you want it to)
  • Does lock-free memory management for the elements (using pre-allocated contiguous blocks)
  • Is stand-alone (two headers plus a license and readme)
  • Compiles under MSVC2010+, Intel ICC 13, and GCC 4.7.2 (and should work under any C++11 fully-compliant compiler)

It's available on GitHub under the simplified BSD license (feel free to fork it!).

A comparable queue is Facebook's Folly queue, which can be ever-so-slightly faster, but does not support growing as needed (it has a fixed size).

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