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I want to implement a function in C++ via Haskell FFI, which should have the (final) type of String -> String. Say, is it possible to re-implement the following function in C++ with the exact same signature?

import Data.Char
toUppers:: String -> String
toUppers s = map toUpper s

In particular, I wanted to avoid having an IO in the return type because introducing the impurity (by that I mean the IO monad) for this simple task is logically unnecessary. All examples involing a C string I have seen so far involve returning an IO something or Ptr which cannot be converted back to a pure String.

The reason I want to do this is that I have the impression that marshaling is messy with FFI. Maybe if I can fix the simplest case above (other than primitive types such as int), then I can do whatever data parsing I want on the C++ side, which should be easy.

The cost of parsing is negligible compared to the computation that I want to do between the marshalling to/from strings.

Thanks in advance.

share|improve this question
    
Can you provide some more details of what you want to accomplish? From The RWH book.realworldhaskell.org/read/interfacing-with-c-the-ffi.html "However, if we know the C code is pure, why don't we just declare it as such, by giving it a pure type in the import declaration? For the reason that we have to allocate local memory for the C function to work with, which must be done in the IO monad, as it is a local side effect. Those effects won't escape the code surrounding the foreign call, though, so when wrapped, we use unsafePerformIO to reintroduce purity." –  Jonke Jun 3 '13 at 6:53
    
@Jonke: To be more specific, I wanted to do simple computations (for C++) such as solve sets of linear equations in C++. The solution needs to be done in C++. That's why I want to using String or equivalent (ultimately) to transfer data across FFI. So I am looking for an example of marshalling String or equivalents to the C++ world without introducing an IO. BTW, hmatrix didn't work for me as I use windows/mingw. So I figured the most reliable solution is to work out a working FFI source as I described above. –  Ting L Jun 3 '13 at 21:25
    
Well, I think that your stuck in C land. If you want to transfer an array (vector) of integers or doubles from haskell to C/C++ and back that will have a different signature than transfer C chars. And a string in Haskell is quite different from a C char[]. –  Jonke Jun 4 '13 at 7:45

1 Answer 1

up vote 6 down vote accepted

You need to involve IO at least at some point, to allocate buffers for the C-strings. The straightforward solution here would probably be:

import Foreign
import Foreign.C
import System.IO.Unsafe as Unsafe

foreign import ccall "touppers" c_touppers :: CString -> IO ()
toUppers :: String -> String
toUppers s =
  Unsafe.unsafePerformIO $
    withCString s $ \cs ->
      c_touppers cs >> peekCString cs

Where we use withCString to marshall the Haskell string into a buffer, change it to upper-case and finally un-marshall the (changed!) buffer contents into the new Haskell string.

Another solution could be to delegate messing with IO to the bytestring library. That could be a good idea anyways if you are interested in performance. The solution would look roughly like follows:

import Data.ByteString.Internal

foreign import ccall "touppers2" 
  c_touppers2 :: Int -> Ptr Word8 -> Ptr Word8 -> IO ()
toUppers2 :: ByteString -> ByteString
toUppers2 s =
  unsafeCreate l $ \p2 -> 
    withForeignPtr fp $ \p1 ->
      c_touppers2 l (p1 `plusPtr` o) p2
 where (fp, o, l) = toForeignPtr s

This is a bit more elegant, as we now don't actually have to do any marshalling, just convert pointers. On the other hand, the C++ side changes in two respects - we have to handle possibly non-null-terminated strings (need to pass the length) and now have to write to a different buffer, as the input is not a copy anymore.


For reference, here are two quick-and-dirty C++ functions that fit the above imports:

#include <ctype.h>
extern "C" void touppers(char *s) {
    for (; *s; s++) *s = toupper(*s);
}
extern "C" void touppers2(int l, char *s, char *t) {
    for (int i = 0; i < l; i++) t[i] = toupper(s[i]);
}
share|improve this answer
    
Thanks for the answer. Could you show how to do the conversion to upper case on the C/C++ side? I was looking to "re-implement" the toUppers function in C++ (as in the question) because what I am really interested in is to have C++ do the work in parsing a string from Haskell, do some computation (toUppers in this case as a trivial example), and pass the result back in a string to Haskell. Thanks a lot. –  Ting L Jun 4 '13 at 5:59
    
Sure, here you go - nothing too spectacular or polished, but it should get you going. And depending on what you mean with "parsing", you should give Haskell parsing libraries like parsec or attoparsec a try. Haskell can be very fast at this sort of thing as long as you use ByteString or Text for your strings. –  Peter Wortmann Jun 4 '13 at 10:26
    
Thanks. BTW, are the above two functions lazy or is there any difference between them and (map toUpper), other than efficiency? –  Ting L Jun 4 '13 at 16:19
    
i.e., Is it safe to replace (map toUpper) with the FFI implementation to get the same behavior? Also, I tried to load this on windows/mingw. "ghc --make strFFI.hs touppers.cpp" worked, but "ghci strFFI.hs touppers.o" or "ghci strFFI.hs -ltouppers" does not work. ghci says: final link ... ghc.exe: touppers.o: unknown symbol `__imp_toupper'. Any pointers? –  Ting L Jun 4 '13 at 16:27
    
No, they aren't lazy at all - using the new toUpper on an infinite list will not terminate. The error sounds like you might be missing a library, maybe adding "-lstdc++" helps? –  Peter Wortmann Jun 4 '13 at 18:01

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