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{-# LANGUAGE ViewPatterns #-}
module Main where
import Control.Monad
import Data.Fixed (mod')
import Data.Foldable (toList)
import Data.List
import qualified Data.Map as M
import GHC.Compact
import Numeric.Log hiding (sum)
import Options.Applicative
import PPL hiding (binom)
import System.Random (mkStdGen, setStdGen)
cumsum = scanl1 (+)
first f xs = snd . head . filter (f . fst) $ zip xs [0 ..]
stirling 0 = 1
stirling 1 = 1
stirling n = Exp $ n * (log n - 1) + log (sqrt (2 * pi)) + log n / 2
logFromInt = logFrom . fromIntegral
logFrom = Exp . log
binom :: Int -> Int -> Double -> Log Double
binom n@(logFromInt -> n') k@(logFromInt -> k') p =
n `choose` k * logFrom p ** k' * logFrom (1 - p) ** (n' - k')
where
choose (fromIntegral -> n) (fromIntegral -> k) = stirling n / stirling k / stirling (n - k)
-- (infinite) binary trees
data Tree a = Tree a (Tree a) (Tree a)
deriving (Show)
instance Foldable Tree where
foldMap f t = bftrav [t]
where
bftrav [] = mempty
bftrav ((Tree a l r) : ts) = f a <> bftrav (ts <> [l, r])
{-# INLINE pairs #-}
pairs (a : b : rs) = (a, b) : pairs rs
pairs [] = []
pairs _ = error "unexpected number of columns, expecting pairs"
-- Infinite trees from infinite lists
-- NB: it's harder to partition a list so that it folds back to
-- equivalence. It doesn't really matter here since we're only
-- unfolding random uniforms anyway.
treeFromList (x : xs) = Tree x (treeFromList lpart) (treeFromList rpart)
where
(lpart, rpart) = unzip $ pairs xs
-- Constrain trees so leaves sum to node value
normTree :: Tree Double -> Tree Double
normTree (Tree x (Tree u l r) (Tree v l' r')) =
let s = x / (u + v)
in Tree x (normTree $ Tree (s * u) l r) (normTree $ Tree (s * v) l' r')
drawTreeProbs = toList . normTree . treeFromList <$> iid uniform
model :: [[Int]] -> Meas ([[Double]], [Int])
model xs = do
(ps, params, clusters) <- sample $ do
-- Sample hyperparameters
a <- bounded 1 10
-- CRP style
dir <- cumsum <$> dirichletProcess a
rs <- iid uniform
ps <- iid drawTreeProbs
let clusters = map (\r -> first (>= r) dir) rs
params = map (transpose ps !!) clusters
pure (ps, params, clusters)
mapM_ scoreLog $ zipWith likelihood params xs
let cls = take (length xs) clusters
k = maximum cls + 1
n = length (head xs) `div` 2
pure (map (take k) $ take n ps, cls)
where
likelihood ps cnts = product $ zipWith go ps (pairs cnts)
where
go p (c, d) = binom d c p
-- Tabulate list
tabulate xs = M.elems $ M.fromListWith (+) [(c, 1) | c <- xs]
-- Command line args
data Options = Options
{ seed :: Int,
nsamples :: Int,
mhfrac :: Double,
input :: FilePath,
propsPath :: FilePath,
clusterPath :: FilePath
}
main = run =<< execParser opts
where
opts =
info
(parser <**> helper)
(fullDesc <> progDesc "Infer a phylogeny from SNV calls in multiple samples" <> header "phylogey - Bayesian phylogeny inference")
parser =
Options <$> option auto (long "seed" <> short 's' <> help "random seed" <> showDefault <> value 42 <> metavar "INT")
<*> option auto (long "nsamples" <> short 'n' <> help "number of samples from posterior" <> value 100000 <> metavar "INT" <> showDefault)
<*> option probability (long "mhfrac" <> short 'm' <> help "Metropolis-Hastings mutation probability" <> value 0.3 <> metavar "(0,1]" <> showDefault)
<*> argument str (metavar "INPUT")
<*> argument str (metavar "PROPS")
<*> argument str (metavar "TREE")
probability = eitherReader $ \arg -> case reads arg of
[(r, "")] -> if r <= 1 && r > 0 then Right r else Left "mhfrac not a valid probability"
_ -> Left "mhfrac not a valid probability"
run opts = do
setStdGen . mkStdGen $ seed opts
(hdr : lines) <- lines <$> readFile (input opts)
let dbl = round . read :: String -> Int
parsed <- compact $ map (map dbl . tail . words) lines
((ps, cl), _) <- foldl1' (\a c -> if mml a < mml c then a else c) . take (nsamples opts) <$> mh (mhfrac opts) 0.5 (model $ getCompact parsed)
writeFile (propsPath opts) . unlines $ map (intercalate "," . map show) ps
writeFile (clusterPath opts) . unlines $ map show cl
where
mml ((ps, cl), lik) = sum' (sum' (log . (+ 1))) ps + sum' (log . (+ 1)) tab - sum' (ln . stirling) tab - ln lik
where
tab = tabulate cl
sum' f = sum . map f
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