I'm trying to parse a binary file format in Haskell (Apple's binary property list format), and one of the things required by the format is to treat sequences of bytes as either (a) unsigned 1-, 2-, or 4-byte integers; (b) signed 8-byte integers; (c) 32-bit floats; and (d) 64-bit doubles. Converting sequences of bytes to unsigned integers is easy, and even dealing with signed integers wouldn't be terrible. But for signed integers, and especially for Floats and Doubles, I don't really want to implement the logic myself. I've been able to find functions int2Float# :: Int# -> Float# and int2Double# :: Int# -> Double# in GHC.Prim, but these don't seem ideal (I don't particularly want to be working with unboxed types). My hope is that there's some way to cast from either a [Word8] or Word32s/Word64s. Are there any functions of type Word32 -> Float, Word64 -> Double, Word64 -> Int64, or similar?


If you aren't aware, fromIntegral converts integrals perfectly well. Also, the binary package and associated data-binary-ieee754 package are very applicable to your problem.

  • Looks like Data.Binary.IEEE754 effectively does unsafePerformIO $ peek . castPtr . poke, which is about as safe as unsafeCoerce. Still useful, though – it means that -0 and NaN actually round-trip correctly. – ephemient Jan 10 '11 at 4:20
  • 3
    And it doesn't require beginners to know about / directly use unsafeCoerce. – Thomas M. DuBuisson Jan 10 '11 at 4:30
  • I didn't realize fromIntegral would work with the fixed-width types—I should have tested that. – Antal Spector-Zabusky Jan 10 '11 at 5:40
  • Inspired by this question, I have released a package on Hackage that implements reinterpretation casts, and tries to stay updated with the fastest implementation known: hackage.haskell.org/package/reinterpret-cast – nh2 Apr 30 '14 at 14:58

Unsafe.Coerce.unsafeCoerce can convert between types, like C++'s reinterpret_cast<>. Use with caution.

Otherwise, you can implement your own IEEE-754 decoding using RealFloat.

bitsAsIEEE754 :: (Bits a, Integral a, RealFloat b) => a -> b
bitsAsIEEE754 word =
    assert (floatRadix float == 2) $
    assert (bitSize word == 1 + es + ms) $
    assert (1 `shiftL` es == maxE - minE + 3) $
    ms = floatDigits float - 1
    (minE, maxE) = floatRange float
    es = length $ takeWhile (< maxE - minE + 2) $ iterate (* 2) 1
    sgn = if testBit word (ms + es) then negate else id
    e = fromIntegral $ word `shiftR` ms .&. (1 `shiftL` es - 1)
    nor = if e == 0 then id else flip setBit ms
    m = sgn . toInteger . nor $ word .&. (1 `shiftL` ms - 1)
    float = encodeFloat m $ max minE (e + minE - 1) - ms - 1

At least with my GHC, it doesn't seem possible to create -0 and NaN using encodeFloat, but everything else should work.

  • 1
    unsafeCoerce is not correct for floating <-> integral conversion, see this question and here. – nh2 Apr 30 '14 at 0:12

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