If I want to call more than one C function, each one depending on the result of the previous one, is it better to create a wrapper C function that handles the three calls? Will it cost the same as using Haskell FFI without converting types?

Suppose I have the following Haskell code:

foo :: CInt -> IO CInt
foo x = do
  a <- cfA x
  b <- cfB a
  c <- cfC c
  return c

Each function cf* is a C call.

Is it better, in terms of performance, to create a single C function like cfABC and make only one foreign call in Haskell?

int cfABC(int x) {
   int a, b, c;
   a = cfA(x);
   b = cfB(a);
   c = cfC(b);
   return c;

Haskell code:

foo :: CInt -> IO CInt
foo x = do
  c <- cfABC x
  return c

How to measure the performace cost of a C call from Haskell? Not the cost of the C function itself, but the cost of the "context-switching" from Haskell to C and back.

  • 1
    I'm not at all sure, but I found this blog post enlightening. If I interpret it correctly, foreign ccall unsafe (with unsafe being the key), is essentially as cheap as an inline C function call. However, great care has to be taken when using unsafe, and the safe variant (foreign ccall) costs more and involves taking locks.
    – gspr
    Commented Jan 25, 2013 at 10:43
  • You'd think any difference would be compiled away... Commented Jan 25, 2013 at 11:42
  • @fosskers: what do you mean?
    – gspr
    Commented Jan 25, 2013 at 11:59
  • 6
    @ThiagoNegri: I did some crude (non-Criterion) benchmarks to compare foreign ccall and foreign ccall unsafe. I have a C function that, given double x returns sin(x)*sin(x)*cos(x)/2.0. I compiled it with GCC 4.7.2 and -O2. The benchmark calls it with 100000000 different arguments from 0 to pi/2 and sums the results. With foreign ccall it ran in about 9.6 seconds, compared to 4.6 seconds for foreign ccall unsafe. Calling it from an actual C program gave a running time of 4.4-4.5 seconds. This gives you some idea, at least. The Haskell code was compiled with GHC 7.4.2.
    – gspr
    Commented Jan 25, 2013 at 17:48
  • 1
    @gspr: Forget I said anything. My knowledge of the FFI is insufficient. Commented Jan 25, 2013 at 22:47

2 Answers 2


The answer depends mostly on whether the foreign call is a safe or an unsafe call.

An unsafe C call is basically just a function call, so if there's no (nontrivial) type conversion, there are three function calls if you make three foreign calls, and between one and four when you write a wrapper in C, depending on how many of the component functions can be inlined when compiling the C, since a foreign call into C cannot be inlined by GHC. Such a function call is generally very cheap (it's just a copy of the arguments and a jump to the code), so the difference is small either way, the wrapper should be slightly slower when no C function can be inlined into the wrapper, and slightly faster when all can be inlined [and that was indeed the case in my benchmarking, +1.5ns resp. -3.5ns where the three foreign calls took about 12.7ns for everything just returning the argument]. If the functions do something nontrivial, the difference is negligible (and if they're not doing anything nontrivial, you'd probably better write them in Haskell to let GHC inline the code).

A safe C call involves saving some nontrivial amount of state, locking, possibly spawning a new OS thread, so that takes much longer. Then the small overhead of perhaps calling one function more in C is negligible compared to the cost of the foreign calls [unless passing the arguments requires an unusual amount of copying, many huge structs or so]. In my do-nothing benchmark

{-# LANGUAGE ForeignFunctionInterface #-}
module Main (main) where

import Criterion.Main
import Foreign.C.Types
import Control.Monad

foreign import ccall safe "funcs.h cfA" c_cfA :: CInt -> IO CInt
foreign import ccall safe "funcs.h cfB" c_cfB :: CInt -> IO CInt
foreign import ccall safe "funcs.h cfC" c_cfC :: CInt -> IO CInt
foreign import ccall safe "funcs.h cfABC" c_cfABC :: CInt -> IO CInt

wrap :: (CInt -> IO CInt) -> Int -> IO Int
wrap foo arg = fmap fromIntegral $ foo (fromIntegral arg)

cfabc = wrap c_cfABC

foo :: Int -> IO Int
foo = wrap (c_cfA >=> c_cfB >=> c_cfC)

main :: IO ()
main = defaultMain
            [ bench "three calls" $ foo 16
            , bench "single call" $ cfabc 16

where all the C functions just return the argument, the mean for the single wrapped call is a bit above 100ns [105-112], and for the three separate calls around 300ns [290-315].

So a safe c call takes roughly 100ns and usually, it is then faster to wrap them up into a single call. But still, if the called functions do something sufficiently nontrivial, the difference won't matter.

  • 1
    The doc says that an unsafe call stops all other Haskell threads. Do you know why? Commented Jan 25, 2013 at 18:54
  • 1
    Where does it say that? In the users guide I read that a safe foreign call will stop all other Haskell threads when the programme was linked without -threaded. I don't see why an unsafe foreign call [which confusingly means that calling it is safe in the sense that it needs no precautions] should do that. Commented Jan 25, 2013 at 19:13
  • 3
    The post from Edward Z. Yang "Safety first: FFI and threading" says that an unsafe foreign call cannot be preempted from the Haskell RTS. The user guide says: "if you need to make a foreign call to a function that takes a long time or blocks indefinitely, then you should mark it safe and use -threaded." I guess the author tought that "if you use unsafe, it will block even if you use -threaded" was implicit. Commented Jan 25, 2013 at 19:28
  • 2
    I think an unsafe call can't be preempted because it is inlined in the RTS. So the RTS cannot go forward and give control to another Haskell thread untill this call returns. And probably the safe call may open a new OS thread when no thread is available for making the foreign call and keep the Haskell RTS Scheduler going. Commented Jan 25, 2013 at 19:37
  • 1
    Ah, in the docs for forkOS: "To allow foreign calls to be made without blocking all the Haskell threads (with GHC), it is only necessary to use the -threaded option when linking your program, and to make sure the foreign import is not marked unsafe." (emphasis mine). I still don't know why the RTS shouldn't be able to run other threads in parallel to one with an unsafe call in principle, but GHC's implementation at least can't. An unsafe foreign call can't be pre-empted because GHC's scheduler only steps in when a thread allocates, and unsafe calls don't alloc (as far as GHC knows). Commented Jan 25, 2013 at 20:03

That probably depends very much on your exact Haskell compiler, the C compiler, and the glue binding them together. The only way to find out for sure is to measure it.

On a more philosophical tune, each time you mix languages you create a barrier for newcommers: In this case it isn't enough to be fluent in Haskell and C (that already gives a narrow set), but you also have to know the calling conventions and whatnot enough to work with them. And many times there are subtle issues to handle (even calling C from C++, which are very similar languages isn't at all trivial). Unless there are very compelling reasons, I'd stick with a single language. The only exception I can think of offhand is for creating e.g. Haskell bindings to a preexisting complex library, something like NumPy for Python.

  • 6
    I feel this misses the question asker's point. He's asking "what's the performance costs involved in doing x?", and your answer seems to boil down to "hard to say, but don't do x, because it'll be harder for people to understand your code".
    – gspr
    Commented Jan 25, 2013 at 14:31
  • @gspr: No. I said the only way to make sure is to measure for his exact setup, there are too many variables. But he asks about performance, and (after reading Bentley's "Writing efficient programs" and "Programming pearls", and also Kernighan and Pike's "The practice of programming", and other books by the Unix crowd) I'm firmly convinced that people time is much more expensive than computer time, except for very narrow situations. So Knuth's dictum that "Premature optimization is the root of all evil" rings true.
    – vonbrand
    Commented Jan 25, 2013 at 14:54
  • Sure, but I don't think it's unreasonable to assume (for the sake of the question) that the author has concluded that he does need to call into C from Haskell, and so he came to ask about what costs are involved and how he should structure his calls. That being said, I guess my downvote was a bit too much. Sadly, it's been locked in now.
    – gspr
    Commented Jan 25, 2013 at 15:02
  • @gspr, in my experience (copiously corroborated by the literature I cite) people are notoriously bad at guessing where the true costs lie, and moreover many (almost all?) are prone to rush into some microoptimization quest on the first hint of performance problems. It may be well be that OP does understand all this (in which case I'd love an explanation/defense with details), but there are many other not so enlightened readers here. I consider my audience to go much farther than just the few people asking, commenting, and answering.
    – vonbrand
    Commented Jan 25, 2013 at 16:14
  • As others said, your answer has nothing to do with my question. The question is: "What is the cost? How to measure it?". You didn't say what is the cost and, if it depends on the environment, neither how to measure it. Commented Jan 25, 2013 at 17:02

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