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broken state

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This commit is contained in:
Nicole Dresselhaus 2018-06-14 11:56:28 +02:00
parent 8c9d1b1413
commit 022b26e7a6
2 changed files with 47 additions and 5 deletions
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27
app/Main.hs
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@ -104,11 +104,30 @@ loop loopAmount ps env = loop' loopAmount 0 ps env
(!fs,cs) <- unzip <$> fitness plants
let fps = zip plants fs -- gives us plants & their fitness in a tuple
sumFitness = sum fs
spc = meanAndVar `from` sumProducedCompounds $ cs
ndc = meanAndVar `from` numDistinctCompounds $ cs
-- $C_{\Sigma,mu}$: Durchschnittliche Menge an produzierten Stoffen
-- $C_{\Sigma,sigma}$: Durchschnittliche Varianz an produzierten Stoffen
(c_Sigma_mu, c_Sigma_sigma) = meanAndVar `from` sumProducedCompounds $ cs
-- - $C_{i,\mu}$: Durchschnittliche Anzahl produzierter Komponenten
-- - $C_{i,\sigma}$: Zusätzlich: Betrachtung der Varianz dieser Komponenten innerhalb der Population
-- (Z.B. Stoff A wird immer mit $0.5$ produziert, hat also keine Varianz,
-- wogegen Stoff B *im Schnitt* mit $0.5$ produziert wird, aber dies eine extreme
-- Varianz auslöst)
-- c_mu_sigma :: [(Amount,Amount)]
(c_i_mu,c_i_sigma) = unzip $ meanAndVar `from` id <$> byProducts cs
-- - $C_d$: Durchschnittliche Anzahl distinkter Produzierter Stoffe (sprich
-- nicht-endemisch, $#i | C_{i,\sigma} > \epsilon$ )
isEndemic :: Vector Bool
isEndemic = (> 0.01) <$> fromList c_i_sigma
(c_d_mu, c_d_sigma) = meanAndVar `from` (countWith isEndemic) $ cs
-- - $C_{\sigma,\{\mu/\sigma\}}$: Mittelwert/Varianz von $\C_{i,\sigma}$
(c_sigma_mu, c_sigma_sigma) = meanAndVar `from` id $ c_i_sigma
-- - $\mathbf{E}[C_{\Sigma,plant} - C_{\Sigma,mu}]$: Durchschnittliche Abweichung der produzierten
-- Stoffe gegenüber dem Schnitt der Gesamtpopulation
e_hash_plant = F.mean `from` numDistinctCompounds $ cs
-- mean and variance of fitness
fns = meanAndVar `from` id $ fs
cstats = meanAndVar `from` id <$> byProducts cs
cstats' = meanAndVar `from` id $ snd <$> cstats
-- - $P_\{\mu,\sigma\}$ Mittelwert/Varianz der Anteile der Stoffe in Pflanze i, die giftig sind
toxs = meanAndVar `from` percentagePoisonous $ cs
when (curLoop `mod` printEvery == 0) $ liftIO $ do
printPopulation stringe (zip3 plants fs cs)
putStrLn $ "Population statistics (mean,variance):"

25
src/Evaluation.hs
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@ -1,16 +1,21 @@
{-# LANGUAGE GADTs #-}
module Evaluation
( sumProducedCompounds
, numDistinctCompounds
, percentagePoisonous
, sumCompounds
, from
, meanAndVar
, sumWith
, countWith
, byCompound
, byProducts
) where
import Control.Foldl as F
import Numeric.LinearAlgebra as LA
import Data.List
import Numeric.LinearAlgebra.Devel as LA
import Data.List as L
import Environment
@ -33,6 +38,24 @@ numDistinctCompounds :: Functor f => f (LA.Vector Amount) -> f Amount
--numDistinctCompounds :: [LA.Vector Amount] -> [Amount]
numDistinctCompounds comps = sumElements . LA.cmap (\x -> if abs x < eps then 0 else 1) <$> comps
countWith :: Functor f => (LA.Vector Bool) -> f (LA.Vector Amount) -> f Amount
countWith toSelect = fmap $ sumElements . LA.zipVectorWith (\selected _ -> if selected then 1 else 0) toSelect
-- apply selection to set data to 1 or 0
-- sum up 1 or 0s
-- for all data
sumWith :: Functor f => (LA.Vector Bool) -> f (LA.Vector Amount) -> f Amount
sumWith toSelect = fmap $ sumElements . LA.zipVectorWith (\selected d -> if selected then d else 0) toSelect
-- apply selection to set data to 1 or 0
-- sum up data or 0s
-- for all data
percentagePoisonous :: Functor f => [Int] -> f (LA.Vector Amount) -> f Amount
percentagePoisonous poisons = fmap percentage
where
percentage v = (\(tox,total) -> tox / total) $ foldl1' pfold [(if i `L.elem` poisons then v!i else 0, v!i) | i <- [1..LA.size v]]
pfold (a,b) (a',b') = (a+a', b+b')
-- | helper function for Foldl-Package.
--
-- Usage: @F.mean `from` sumCompounds $ v@ where v is a Set/List/Vector/... of Vector of Compounds.