{-# INCLUDE "HsBase.h" #-} {-# LINE 1 "System/CPUTime.hsc" #-} ----------------------------------------------------------------------------- {-# LINE 2 "System/CPUTime.hsc" #-} -- | -- Module : System.CPUTime -- Copyright : (c) The University of Glasgow 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : libraries@haskell.org -- Stability : provisional -- Portability : portable -- -- The standard CPUTime library. -- ----------------------------------------------------------------------------- module System.CPUTime ( getCPUTime, -- :: IO Integer cpuTimePrecision -- :: Integer ) where import Prelude import Data.Ratio {-# LINE 28 "System/CPUTime.hsc" #-} {-# LINE 32 "System/CPUTime.hsc" #-} {-# LINE 34 "System/CPUTime.hsc" #-} import Foreign import Foreign.C {-# LINE 38 "System/CPUTime.hsc" #-} {-# LINE 39 "System/CPUTime.hsc" #-} {-# LINE 41 "System/CPUTime.hsc" #-} -- ----------------------------------------------------------------------------- -- |Computation 'getCPUTime' returns the number of picoseconds CPU time -- used by the current program. The precision of this result is -- implementation-dependent. getCPUTime :: IO Integer getCPUTime = do {-# LINE 50 "System/CPUTime.hsc" #-} -- getrusage() is right royal pain to deal with when targetting multiple -- versions of Solaris, since some versions supply it in libc (2.3 and 2.5), -- while 2.4 has got it in libucb (I wouldn't be too surprised if it was back -- again in libucb in 2.6..) -- -- Avoid the problem by resorting to times() instead. -- {-# LINE 58 "System/CPUTime.hsc" #-} allocaBytes (144) $ \ p_rusage -> do {-# LINE 59 "System/CPUTime.hsc" #-} getrusage (0) p_rusage {-# LINE 60 "System/CPUTime.hsc" #-} let ru_utime = ((\hsc_ptr -> hsc_ptr `plusPtr` 0)) p_rusage {-# LINE 62 "System/CPUTime.hsc" #-} let ru_stime = ((\hsc_ptr -> hsc_ptr `plusPtr` 16)) p_rusage {-# LINE 63 "System/CPUTime.hsc" #-} u_sec <- ((\hsc_ptr -> peekByteOff hsc_ptr 0)) ru_utime :: IO CTime {-# LINE 64 "System/CPUTime.hsc" #-} u_usec <- ((\hsc_ptr -> peekByteOff hsc_ptr 8)) ru_utime :: IO CTime {-# LINE 65 "System/CPUTime.hsc" #-} s_sec <- ((\hsc_ptr -> peekByteOff hsc_ptr 0)) ru_stime :: IO CTime {-# LINE 66 "System/CPUTime.hsc" #-} s_usec <- ((\hsc_ptr -> peekByteOff hsc_ptr 8)) ru_stime :: IO CTime {-# LINE 67 "System/CPUTime.hsc" #-} let realToInteger = round . realToFrac :: Real a => a -> Integer return ((realToInteger u_sec * 1000000 + realToInteger u_usec + realToInteger s_sec * 1000000 + realToInteger s_usec) * 1000000) type CRUsage = () foreign import ccall unsafe getrusage :: CInt -> Ptr CRUsage -> IO CInt {-# LINE 93 "System/CPUTime.hsc" #-} {-# LINE 127 "System/CPUTime.hsc" #-} {-# LINE 128 "System/CPUTime.hsc" #-} -- |The 'cpuTimePrecision' constant is the smallest measurable difference -- in CPU time that the implementation can record, and is given as an -- integral number of picoseconds. {-# LINE 134 "System/CPUTime.hsc" #-} cpuTimePrecision :: Integer cpuTimePrecision = round ((1000000000000::Integer) % fromIntegral (clockTicks)) {-# LINE 137 "System/CPUTime.hsc" #-} {-# LINE 139 "System/CPUTime.hsc" #-} clockTicks :: Int clockTicks = {-# LINE 144 "System/CPUTime.hsc" #-} unsafePerformIO (sysconf (2) >>= return . fromIntegral) {-# LINE 145 "System/CPUTime.hsc" #-} foreign import ccall unsafe sysconf :: CInt -> IO CLong {-# LINE 147 "System/CPUTime.hsc" #-} {-# LINE 148 "System/CPUTime.hsc" #-}