, readEitherString
, loadJSArray
, fromObj
+ , tryFromObj
+ , fromJVal
, asJSObject
, asObjectList
, fromJResult
+ , tryRead
+ , formatTable
+ , annotateResult
) where
import Data.List
-import Control.Monad
import qualified Text.JSON as J
import Text.Printf (printf)
import Debug.Trace
+import Ganeti.HTools.Types
+
-- * Debug functions
-- | To be used only for debugging, breaks referential integrity.
sepSplit sep s
| x == "" && xs == [] = []
| xs == [] = [x]
- | ys == [] = x:"":[]
- | otherwise = x:(sepSplit sep ys)
+ | ys == [] = [x,""]
+ | otherwise = x:sepSplit sep ys
where (x, xs) = break (== sep) s
ys = drop 1 xs
-- * Mathematical functions
--- Simple and slow statistical functions, please replace with better versions
-
--- | Mean value of a list.
-meanValue :: Floating a => [a] -> a
-meanValue lst = (sum lst) / (fromIntegral $ length lst)
-
--- | Squaring function
-square :: (Num a) => a -> a
-square = (^ 2)
+-- Simple and slow statistical functions, please replace with better
+-- versions
--- | Standard deviation.
-stdDev :: Floating a => [a] -> a
-stdDev lst =
- let mv = meanValue lst
- av = sum $ map square $ map (\e -> e - mv) lst
- bv = sqrt (av / (fromIntegral $ length lst))
- in bv
-
--- | Coefficient of variation.
-varianceCoeff :: Floating a => [a] -> a
-varianceCoeff lst = (stdDev lst) / (fromIntegral $ length lst)
+-- | The covariance of the list
+varianceCoeff :: [Double] -> Double
+varianceCoeff lst =
+ let ll = fromIntegral (length lst)::Double -- length of list
+ mv = sum lst / ll -- mean value
+ av = foldl' (\accu em -> let d = em - mv in accu + d * d) 0.0 lst
+ bv = sqrt (av / ll) -- stddev
+ cv = bv / ll -- covariance
+ in cv
-- * JSON-related functions
fromJResult (J.Error x) = fail x
fromJResult (J.Ok x) = return x
+annotateJResult :: Monad m => String -> J.Result a -> m a
+annotateJResult s (J.Error x) = fail (s ++ ": " ++ x)
+annotateJResult _ (J.Ok x) = return x
+
-- | Tries to read a string from a JSON value.
--
-- In case the value was not a string, we fail the read (in the
-- | Converts a JSON message into an array of JSON objects.
loadJSArray :: (Monad m) => String -> m [J.JSObject J.JSValue]
-loadJSArray s = fromJResult $ J.decodeStrict s
+loadJSArray = fromJResult . J.decodeStrict
-- | Reads a the value of a key in a JSON object.
-fromObj :: (J.JSON a, Monad m) => String -> J.JSObject J.JSValue -> m a
+fromObj :: (J.JSON a, Monad m) => String -> [(String, J.JSValue)] -> m a
fromObj k o =
- case lookup k (J.fromJSObject o) of
+ case lookup k o of
Nothing -> fail $ printf "key '%s' not found in %s" k (show o)
- Just val -> fromJResult $ J.readJSON val
+ Just val -> annotateJResult (printf "key '%s', value '%s'" k (show val))
+ (J.readJSON val)
+
+-- | Annotate a Result with an ownership information
+annotateResult :: String -> Result a -> Result a
+annotateResult owner (Bad s) = Bad $ owner ++ ": " ++ s
+annotateResult _ v = v
+
+-- | Try to extract a key from a object with better error reporting
+-- than fromObj
+tryFromObj :: (J.JSON a) =>
+ String -> [(String, J.JSValue)] -> String -> Result a
+tryFromObj t o k = annotateResult t (fromObj k o)
+
+-- | Small wrapper over readJSON.
+fromJVal :: (Monad m, J.JSON a) => J.JSValue -> m a
+fromJVal v =
+ case J.readJSON v of
+ J.Error s -> fail ("Cannot convert value " ++ show v ++ ", error: " ++ s)
+ J.Ok x -> return x
-- | Converts a JSON value into a JSON object.
asJSObject :: (Monad m) => J.JSValue -> m (J.JSObject J.JSValue)
-- | Coneverts a list of JSON values into a list of JSON objects.
asObjectList :: (Monad m) => [J.JSValue] -> m [J.JSObject J.JSValue]
-asObjectList = sequence . map asJSObject
+asObjectList = mapM asJSObject
+
+-- * Parsing utility functions
+
+-- | Parse results from readsPrec
+parseChoices :: (Monad m, Read a) => String -> String -> [(a, String)] -> m a
+parseChoices _ _ ((v, ""):[]) = return v
+parseChoices name s ((_, e):[]) =
+ fail $ name ++ ": leftover characters when parsing '"
+ ++ s ++ "': '" ++ e ++ "'"
+parseChoices name s _ = fail $ name ++ ": cannot parse string '" ++ s ++ "'"
+
+-- | Safe 'read' function returning data encapsulated in a Result.
+tryRead :: (Monad m, Read a) => String -> String -> m a
+tryRead name s = parseChoices name s $ reads s
+
+-- | Format a table of strings to maintain consistent length
+formatTable :: [[String]] -> [Bool] -> [[String]]
+formatTable vals numpos =
+ let vtrans = transpose vals -- transpose, so that we work on rows
+ -- rather than columns
+ mlens = map (maximum . map length) vtrans
+ expnd = map (\(flds, isnum, ml) ->
+ map (\val ->
+ let delta = ml - length val
+ filler = replicate delta ' '
+ in if delta > 0
+ then if isnum
+ then filler ++ val
+ else val ++ filler
+ else val
+ ) flds
+ ) (zip3 vtrans numpos mlens)
+ in transpose expnd