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I am well used to relying on GHC's forkIO for portable lightweight threads when programming in Haskell.

What are equivalent libraries for C that can provide the same scalibility and ease of use?

Specifically I need C-equivalents of at least the following two functions.

forkIO     :: IO () -> IO ThreadId
killThread ::             ThreadId -> IO ()

I assume for my application, it would be enough if threads only switched on blocking operations rather than being forcefully suspended because all threads block highly frequently for network IO and I only use the splice system call to ask the Linux kernel to push data around between sockets.


Update

This paper has figures and tables comparing

with results favoring Protothreads. As I have not used any and there may also be other libraries, I would love to hear from anyone who has used / developed such libraries.

share|improve this question

closed as off-topic by Tunaki, cimmanon, approxiblue, Paul Roub, Manos Nikolaidis Jan 9 at 16:50

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7  
Dare I say foreign export of libHSrts.a ... ? (i.e. just use the GHC runtime, which is a C library, after all). That said, the GHC runtime is 50k lines of C, and uses epoll for thread scheduling. You'd need an epoll wrapper. – Don Stewart Jan 16 '13 at 21:48
3  
As to you last question: write correct function prototypes and link with -lHSrts. – Hristo Iliev Jan 16 '13 at 22:17
6  
@KenWhite To be fair, the OP does point out criteria, or at least an entrance threshold: the performance and ease of use of Haskell's green threads. He proceeds to provide references to specific Haskell functions whose C equivalents are needed. Phrasing might be suboptimal, but the question as a whole is clearly above the "should I use Python or Ruby for my next web project" type speculation that is unwanted on SO. – user4815162342 Jan 16 '13 at 23:31
1  
@user4815162342: I understand that, and didn't vote to close the question because of that; however, the subject (title) of the question asks "What is the best", which is a violation of the guidelines, and that's why I asked if it could be rephrased. :-) It could be as simple as replacing "What is the best" with "Is there a", for instance. – Ken White Jan 16 '13 at 23:35
1  
I usually use libevent when I want this. – singpolyma Jan 16 '13 at 23:42

I no longer have the commenting for the following code, nor any examples - this is a portable ( pseudo ) thread library implemented as pre processor macros

     typedef struct
     {
     unsigned int magic;
     unsigned short ctx;
     unsigned char is_destroyed;
     }
     _run;

     typedef struct
     {
     unsigned int magic;
     unsigned int cnt;
     }
     _sem;


     #define aa_RUNNER_WAITING             0
     #define aa_RUNNER_YIELDED             1
     #define aa_RUNNER_EXITED              2
     #define aa_RUNNER_ENDED               3

     #define aaRunnerCreate(rp)            (rp)->magic='runr'; (rp)->ctx=0; (rp)->is_destroyed=NO
     #define aaRunnerDestroy(rp)           (rp)->is_destroyed=YES

     #define aaRunnerThread(args)          C args
     #define aaRunnerBegin(rp)             { C yflag=YES; if(yflag) {}  switch((rp)->ctx) { case 0:
     #define aaRunnerEnd(rp)               } yflag=NO; if(yflag) {}  aaRunnerCreate(rp); return aa_RUNNER_ENDED; }

     #define aaRunnerWaitUntil(rp,condx)   do  { (rp)->ctx=__LINE__; case __LINE__: if(!(condx))  { return aa_RUNNER_WAITING;  }  } while(0)
     #define aaRunnerWaitWhile(rp,condi)   aaRunnerWaitUntil((rp),!(condi))
     #define aaRunnerWaitThread(rp,thr)    aaRunnerWaitWhile((rp),aaRunnerSchedule(thr))
     #define aaRunnerWaitSpawn(rp,chl,thr) do { aaRunnerCreate((chl));  aaRunnerWaitThread((rp),(thr)); } while(0)

     #define aaRunnerRestart(rp)           do { aaRunnerCreate(rp); return aa_RUNNER_WAITING; } while(0)
     #define aaRunnerExit(rp)              do { aaRunnerCreate(rp); (rp)->magic=0; return aa_RUNNER_EXITED;  } while(0)

     #define aaRunnerSchedule(f)           ((f)<aa_RUNNER_EXITED)
     #define aaRunnerYield(rp)             do { yflag=NO; (rp)->ctx=__LINE__; case __LINE__: if(!yflag||!((rp)->is_destroyed))  { return aa_RUNNER_YIELDED;  }  } while(0)
     #define aaRunnerYieldUntil(rp,condi)  do { yflag=NO; (rp)->ctx=__LINE__; case __LINE__: if(!yflag||!(condi)) { return aa_RUNNER_YIELDED;   }   } while(0)

     #define aaRunnerSemInit(sp,c)         (sp)->magic='runs'; (sp)->cnt=c
     #define aaRunnerSemWait(rp,sp)        do { aaRunnerWaitUntil(rp,(sp)->cnt>0); --(sp)->cnt;  } while(0)
     #define aaRunnerSemSignal(rp,sp)      ++(sp)->cnt
share|improve this answer
    
Whow thanks for sharing! – Cetin Sert Jan 31 '13 at 5:11

libMill is probably what you're searching for: http://libmill.org/

It implements user level threads in the Go-Lang channel style.

And it's being developed by the super smart Martin Sústrik, creator of ZeroMQ http://250bpm.com/. So it must be good ☺

share|improve this answer

Use POSIX threads. They are "green" on any modern implementation, not in the sense of "Green Threads", but in the sense of being lightweight and efficient. There is no portable way to roll your own threads on top of plain C or POSIX minus threads. As OP mentioned, there are some libraries implementing green-threads/co-routines in non-portable ways (often despite claiming portability).

The closest-to-portable approach is using makecontext/swapcontext, and unfortunately this cannot perform well because it has to make syscalls to save/restore the signal mask on each switch between "threads". This makes switching between "green" threads more expensive than a context switch between kernel-level threads on a "real" POSIX threads implementation, and basically negates any claimed benefit of "green threads".

Non-portable approaches that don't care about the signal mask could use machine-specific asm to do the context switches entirely in userspace, and in theory perform better than kernel-level threads, but performance would again fly out the window as soon as you introduce IO, since a thread that's about to perform IO would have to first do expensive tests to check if the operation will block, and if so, turn over control to a different thread.

I maintain my position that "green threads" are an idea whose time is long past. This also seems to be the position of the Austin Group (responsible for POSIX), who removed the ucontext functions in POSIX 2008 and recommended replacement with POSIX threads (which are now a mandatory feature).

share|improve this answer
12  
POSIX threads are decidedly not green threads as that term is generally understood. Linux implementation of POSIX threads was always creating OS-level threads in 1-to-1 correspondence with POSIX ones, and Solaris, FreeBSD, and NetBSD all switched to the 1-to-1 model at some point in their history. – user4815162342 Jan 16 '13 at 23:26
6  
... which tells you Haskell threads can be distributed across cores, so not obsolete for the reasons you assumed, @R.. , and certainly considerably more lightweight than OS threads. – AndrewC Jan 16 '13 at 23:58
7  
Even if the green thread concept is obsolete (which is debatable), the term is well-defined, and the claim that "[POSIX threads] are 'green' on any modern implementation" is false. As I wrote, all modern implementation of POSIX threads are 1-to-1 mappings to OS LWPs, which is the very opposite of green threads. – user4815162342 Jan 17 '13 at 2:56
12  
Can I launch 1M Posix threads on a reasonable laptop? – Don Stewart Jan 17 '13 at 13:39
12  
@R.. hpaste.org/80868 creates 1M threads. With a 256byte thread stack, it allocates 300M total and completes in 2.7s. I would love to see the equivalent scaling with Posix threads. – Don Stewart Jan 17 '13 at 14:35

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