-- |
-- Module : System.CPUTime
-- Copyright : (c) The University of Glasgow 2001
--- License : BSD-style (see the file libraries/core/LICENSE)
+-- License : BSD-style (see the file libraries/base/LICENSE)
--
-- Maintainer : libraries@haskell.org
-- Stability : provisional
import Hugs.Time ( getCPUTime, clockTicks )
#endif
+#ifdef __NHC__
+import CPUTime ( getCPUTime, cpuTimePrecision )
+#endif
+
#ifdef __GLASGOW_HASKELL__
import Foreign
import Foreign.C
u_usec <- (#peek struct timeval,tv_usec) ru_utime :: IO CTime
s_sec <- (#peek struct timeval,tv_sec) ru_stime :: IO CTime
s_usec <- (#peek struct timeval,tv_usec) ru_stime :: IO CTime
-
- return ((fromIntegral u_sec * 1000000 + fromIntegral u_usec +
- fromIntegral s_sec * 1000000 + fromIntegral s_usec)
+ 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 = ()
times p_tms
u_ticks <- (#peek struct tms,tms_utime) p_tms :: IO CClock
s_ticks <- (#peek struct tms,tms_stime) p_tms :: IO CClock
- return (( (fromIntegral u_ticks + fromIntegral s_ticks) * 1000000000000)
+ let realToInteger = round . realToFrac :: Real a => a -> Integer
+ return (( (realToInteger u_ticks + realToInteger s_ticks) * 1000000000000)
`div` fromIntegral clockTicks)
type CTms = ()
#endif
#else /* win32 */
+ -- NOTE: GetProcessTimes() is only supported on NT-based OSes.
+ -- The counts reported by GetProcessTimes() are in 100-ns (10^-7) units.
allocaBytes (#const sizeof(FILETIME)) $ \ p_creationTime -> do
allocaBytes (#const sizeof(FILETIME)) $ \ p_exitTime -> do
allocaBytes (#const sizeof(FILETIME)) $ \ p_kernelTime -> do
if toBool ok then do
ut <- ft2psecs p_userTime
kt <- ft2psecs p_kernelTime
- return (fromIntegral (ut + kt))
+ return (ut + kt)
else return 0
- where ft2psecs ft = do
+ where
+ ft2psecs :: Ptr FILETIME -> IO Integer
+ ft2psecs ft = do
high <- (#peek FILETIME,dwHighDateTime) ft :: IO CLong
low <- (#peek FILETIME,dwLowDateTime) ft :: IO CLong
+ -- Convert 100-ns units to picosecs (10^-12)
+ -- => multiply by 10^5.
return (((fromIntegral high) * (2^32) + (fromIntegral low)) * 100000)
-- ToDo: pin down elapsed times to just the OS thread(s) that
-- in CPU time that the implementation can record, and is given as an
-- integral number of picoseconds.
+#ifndef __NHC__
cpuTimePrecision :: Integer
cpuTimePrecision = round ((1000000000000::Integer) % fromIntegral (clockTicks))
+#endif
#ifdef __GLASGOW_HASKELL__
clockTicks :: Int