map
- change each element
fold
- combine all the elements
scan
- combine all the elements keeping a running "total" - this is what you need
It's going to be easier to keep everything as an Integer until the very end:
type PosixOffset = Integer
A string in your listOfTimes
could be a unix time, an increment or an erroneous value.
We could represent that by Maybe (Either PosixOffset Integer)
but that could get annoying.
Let's roll our own:
data Time = Unix PosixOffset | Inc Integer | Error String deriving Show
This allows me to be flexible about what we do later with an error: crash the program with an error
,
show the Error
message to the user but somehow allow them to resume, or ignore the bad value.
Let's make safe version to replace read :: String -> Integer
, which returns Nothing
instead of crashing. We'll need to import Data.Char (isDigit)
readInteger :: String -> Maybe Integer
readInteger "" = Nothing
readInteger xs | all isDigit xs = Just (read xs)
| otherwise = Nothing
Now we can use that to readTime
with some helpful Error
messages.
readTime :: String -> Time
readTime ('u':xs) = case readInteger xs of
Just i -> Unix i
Nothing -> Error $ "readTime: there should be an integer after the u, but I got: " ++ 'u':xs
readTime [] = Error "readTime: empty time"
readTime xs = case readInteger xs of
Just i -> Inc i
Nothing -> Error $ "readTime: " ++ xs ++ " is neither a unix time nor an increment."
The plan is to convert our list of Strings to a list of pairs (PosixOffset,Integer)
,
with the last known PosixOffset
from a unix time, and the current increment.
We'll then need to be able to convert these pairs to a UTCTime
toUTC :: (PosixOffset,Integer) -> UTCTime
toUTC (p,i) = psUTC (p+i)
Now we need to know how to combine the running total of the Time
s with the next Time
. We'll keep hold of the last unix time for reference.
addTime :: (PosixOffset,Integer) -> Time -> (PosixOffset,Integer)
addTime (oldunix,oldinc) time = case time of
Unix new -> (new,0) -- If there's a new unix time, replace and reset the inc to 0.
Inc inc -> (oldunix,inc) -- If there's a new increment, replace the old one.
Error msg -> error msg -- If there's an error, crash showing it.
or you could use
addTimeTolerant :: (PosixOffset,Integer) -> Time -> (PosixOffset,Integer)
addTimeTolerant (oldunix,oldinc) time = case time of
Unix new -> (new,0) -- If there's a new unix time, replace and reset the inc to 0.
Inc inc -> (oldunix,inc) -- If there's a new increment, replace the old one.
Error msg -> (oldunix,oldinc) -- If there's an error, ignore it and keep the time the same.
Now we can stick it together: turn the String
s into Time
s,
then combine them into (PosixOffset,Integer)
pairs by scan
ning with addTime
,
then turn all the resulting pairs into UTCTime
s.
runningTotal :: [String] -> [UTCTime]
runningTotal [] = []
runningTotal xss = let (t:ts) = map readTime xss in -- turn Strings to Times
case t of
Error msg -> error msg
Inc _ -> error "runningTotal: list must start with a unix time"
Unix po -> map toUTC $ scanl addTime (po,0) ts -- scan the list adding times,
-- starting with an initial unix time
-- then convert them all to UTC
or if you like the keep calm and carry on approach of addTimeTolerant
, you could use
isn't_UnixTime :: Time -> Bool
isn't_UnixTime (Unix _) = False
isn't_UnixTime _ = True
runningTotalTolerant :: [String] -> [UTCTime]
runningTotalTolerant xss =
let ts = dropWhile isn't_UnixTime (map readTime xss) in -- cheerily find the first unix time
if null ts then [] else -- if there wasn't one, there are no UTCTimes
let (Unix po) = head ts in -- grab the first time
map toUTC $ scanl addTimeTolerant (po,0) (tail ts) -- scan the list adding times,
-- starting with an initial unix time
-- then convert them all to UTC
scan
s is best.