Idris2/libs/base/System/Clock.idr
2020-05-18 14:00:08 +01:00

151 lines
5.0 KiB
Idris

module System.Clock
import PrimIO
||| The various types of system clock available.
public export
data ClockType
= UTC -- The time elapsed since the "epoch:" 00:00:00 UTC, January 1, 1970
| Monotonic -- The time elapsed since some arbitrary point in the past
| Duration -- Representing a time duration.
| Process -- The amount of CPU time used by the current process.
| Thread -- The amount of CPU time used by the current thread.
| GCCPU -- The current process's CPU time consumed by the garbage collector.
| GCReal -- The current process's real time consumed by the garbage collector.
export
Show ClockType where
show UTC = "UTC"
show Monotonic = "monotonic"
show Duration = "duration"
show Process = "process"
show Thread = "thread"
show GCCPU = "gcCPU"
show GCReal = "gcReal"
public export
data Clock : (type : ClockType) -> Type where
MkClock
: {type : ClockType}
-> (seconds : Integer)
-> (nanoseconds : Integer)
-> Clock type
public export
Eq (Clock type) where
(MkClock seconds1 nanoseconds1) == (MkClock seconds2 nanoseconds2) =
seconds1 == seconds2 && nanoseconds1 == nanoseconds2
public export
Ord (Clock type) where
compare (MkClock seconds1 nanoseconds1) (MkClock seconds2 nanoseconds2) =
case compare seconds1 seconds2 of
LT => LT
GT => GT
EQ => compare nanoseconds1 nanoseconds2
public export
Show (Clock type) where
show (MkClock {type} seconds nanoseconds) =
show type ++ ": " ++ show seconds ++ "s " ++ show nanoseconds ++ "ns"
||| A helper to deconstruct a Clock.
public export
seconds : Clock type -> Integer
seconds (MkClock s _) = s
||| A helper to deconstruct a Clock.
public export
nanoseconds : Clock type -> Integer
nanoseconds (MkClock _ ns) = ns
||| Make a duration value.
public export
makeDuration : Integer -> Integer -> Clock Duration
makeDuration = MkClock
||| Opaque clock value manipulated by the back-end.
data OSClock : Type where [external]
||| Note: Back-ends are required to implement UTC, monotonic time, CPU time
||| in current process/thread, and time duration; the rest are optional.
data ClockTypeMandatory
= Mandatory
| Optional
public export
isClockMandatory : ClockType -> ClockTypeMandatory
isClockMandatory GCCPU = Optional
isClockMandatory GCReal = Optional
isClockMandatory _ = Mandatory
prim_clockTimeMonotonic : IO OSClock
prim_clockTimeMonotonic = schemeCall OSClock "blodwen-clock-time-monotonic" []
fetchOSClock : ClockType -> IO OSClock
fetchOSClock UTC = schemeCall OSClock "blodwen-clock-time-utc" []
fetchOSClock Monotonic = prim_clockTimeMonotonic
fetchOSClock Process = schemeCall OSClock "blodwen-clock-time-process" []
fetchOSClock Thread = schemeCall OSClock "blodwen-clock-time-thread" []
fetchOSClock GCCPU = schemeCall OSClock "blodwen-clock-time-gccpu" []
fetchOSClock GCReal = schemeCall OSClock "blodwen-clock-time-gcreal" []
fetchOSClock Duration = prim_clockTimeMonotonic
||| A test to determine the status of optional clocks.
osClockValid : OSClock -> IO Int
osClockValid clk = schemeCall Int "blodwen-is-time?" [clk]
fromOSClock : {type : ClockType} -> OSClock -> IO (Clock type)
fromOSClock clk =
pure $
MkClock
{type}
!(schemeCall Integer "blodwen-clock-second" [clk])
!(schemeCall Integer "blodwen-clock-nanosecond" [clk])
public export
clockTimeReturnType : (typ : ClockType) -> Type
clockTimeReturnType typ with (isClockMandatory typ)
clockTimeReturnType typ | Optional = Maybe (Clock typ)
clockTimeReturnType typ | Mandatory = Clock typ
||| Fetch the system clock of a given kind. If the clock is mandatory,
||| we return a (Clock type) else (Maybe (Clock type)).
public export
clockTime : (typ : ClockType) -> IO (clockTimeReturnType typ)
clockTime clockType with (isClockMandatory clockType)
clockTime clockType | Mandatory = fetchOSClock clockType >>= fromOSClock
clockTime clockType | Optional = do
clk <- fetchOSClock clockType
valid <- map (== 1) $ osClockValid clk
if valid
then map Just $ fromOSClock clk
else pure Nothing
toNano : Clock type -> Integer
toNano (MkClock seconds nanoseconds) =
let scale = 1000000000
in scale * seconds + nanoseconds
fromNano : {type : ClockType} -> Integer -> Clock type
fromNano n =
let scale = 1000000000
seconds = n `div` scale
nanoseconds = n `mod` scale
in MkClock seconds nanoseconds
||| Compute difference between two clocks of the same type.
public export
timeDifference : Clock type -> Clock type -> Clock Duration
timeDifference clock duration = fromNano $ toNano clock - toNano duration
||| Add a duration to a clock value.
public export
addDuration : {type : ClockType} -> Clock type -> Clock Duration -> Clock type
addDuration clock duration = fromNano $ toNano clock + toNano duration
||| Subtract a duration from a clock value.
public export
subtractDuration : {type : ClockType} -> Clock type -> Clock Duration -> Clock type
subtractDuration clock duration = fromNano $ toNano clock - toNano duration