{-# LANGUAGE NoImplicitPrelude #-} module Utils where import GA (R) import Protolude takeFraktion :: (RealFrac f) => f -> [a] -> [a] takeFraktion frac list = take (floor (frac * (fromIntegral (length list)))) list dropFraktion :: (RealFrac f) => f -> [a] -> [a] dropFraktion frac list = drop (floor (frac * (fromIntegral (length list)))) list meanOfAccuricyPerClass :: (Enum r, Bounded r, Eq r) => [(r, r)] -> R meanOfAccuricyPerClass results = mean $ map (accuracyInClass results) [minBound .. maxBound] geomeanOfAccuricyPerClass :: (Enum r, Bounded r, Eq r) => [(r, r)] -> R geomeanOfAccuricyPerClass results = geomean $ map (accuracyInClass results) [minBound .. maxBound] geomeanOfDistributionAccuracy :: (Enum r, Bounded r, Eq r) => [(r, r)] -> R geomeanOfDistributionAccuracy results = geomean $ map (distributionAccuracyForClass results) [minBound .. maxBound] distributionAccuracyForClass :: (Eq r) => [(r, r)] -> r -> R distributionAccuracyForClass results clas = (1 - (min 1 (fromIntegral (abs ((length (inResClass results clas)) - (length (inClass results clas)))) / fromIntegral (length (inClass results clas))))) * 100 mean :: (Show f, Floating f) => [f] -> f mean values = (sum values) * (1 / (fromIntegral (length values))) geomean :: (Show f, Floating f) => [f] -> f geomean values = (product values) ** (1 / (fromIntegral (length values))) accuracyInClass :: (Eq r) => [(r, r)] -> r -> R accuracyInClass results clas = ((accuracy' (inResClass results clas)) * 100) / fromIntegral (length (inClass results clas)) inClass :: (Eq r) => [(r, r)] -> r -> [(r, r)] inClass results clas = (filter ((clas ==) . fst) results) inResClass :: (Eq r) => [(r, r)] -> r -> [(r, r)] inResClass results clas = (filter ((clas ==) . snd) results) accuracy' :: (Eq r) => [(r, r)] -> R accuracy' results = fromIntegral $ length (filter (\(target, res) -> (res == target)) results) repeatedly :: (a -> Maybe a) -> a -> [a] repeatedly f x = case f x of Nothing -> [] Just y -> y : repeatedly f y contains :: (Eq a, Foldable t ) => t a -> a -> Bool contains list val = any (== val) list count :: (Eq a) => [a] -> a -> Int count [] find = 0 count ys find = length xs where xs = [xs | xs <- ys, xs == find]