I'm now developing binary parsing program using Haskell. I currently found out that strict/lazy both BitGet seems to be very slow and surprisingly allocate a lot of memory.
I tested below code (built with -O2), such as parsing entire bits in the input file, and figure out the profiling result. For this example, I used the 1,819,173 bytes binary file.
Strict version:
import Prelude as P
import System.Environment (getArgs)
import Data.ByteString as B
import Data.Binary.Strict.BitGet
coreFunc :: Int -> BitGet Int
coreFunc len = f len 0
where
f 0 r = return r
f l _ = do
b <- getBit
f (l - 1) $ if b then 1 else 0
mainFunc :: B.ByteString -> IO ()
mainFunc bs =
case runBitGet bs (coreFunc ((B.length bs) * 8)) of
Left emsg -> error emsg
Right r -> print $ show r
main :: IO ()
main = do
args <- getArgs
case args of
[] -> return ()
(x:_) -> (do
bs <- B.readFile x
mainFunc bs
return ()
)
-- profiling result --
total time = 1.74 secs (1741 ticks @ 1000 us, 1 processor)
total alloc = 7,948,043,192 bytes (excludes profiling overheads)
Lazy version:
import Prelude as P
import System.Environment (getArgs)
import Data.ByteString.Lazy as B
import Data.Binary.Bits.Get
import Data.Binary.Get
import Data.Int (Int64)
coreFunc :: Int64 -> BitGet Int
coreFunc len = f len 0
where
f 0 r = return r
f l _ = do
b <- getBool
f (l - 1) $ if b then 1 else 0
mainFunc :: B.ByteString -> IO ()
mainFunc bs = do
let r = runGet (runBitGet (coreFunc ((B.length bs) * 8))) bs
print $ show r
main :: IO ()
main = do
args <- getArgs
case args of
[] -> return ()
(x:_) -> (do
bs <- B.readFile x
mainFunc bs
return ()
)
-- profiling result --
total time = 2.21 secs (2207 ticks @ 1000 us, 1 processor)
total alloc = 6,405,531,680 bytes (excludes profiling overheads)
I want to ask that:
- How can I improve this performance?
- Can I profile inside of the BitGet library behavior?
- Are there the other way to parse binary bits?