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mcmc-0.1.3: bench/Poisson.hs

-- |
-- Module      :  Poisson
-- Description :  Poisson regression model for airline fatalities
-- Copyright   :  (c) Dominik Schrempf 2020
-- License     :  GPL-3.0-or-later
--
-- Maintainer  :  dominik.schrempf@gmail.com
-- Stability   :  unstable
-- Portability :  portable
--
-- Creation date: Fri May  8 13:30:51 2020.
--
-- See https://revbayes.github.io/tutorials/mcmc/poisson.html.
module Poisson
  ( poissonBench,
  )
where

import Control.Monad
import Lens.Micro
import Mcmc
import Numeric.Log hiding (sum)
import Statistics.Distribution hiding
  ( mean,
    stdDev,
  )
import Statistics.Distribution.Poisson
import System.Random.MWC

type I = (Double, Double)

fatalities :: [Int]
fatalities = [24, 25, 31, 31, 22, 21, 26, 20, 16, 22]

normalizedYears :: [Double]
normalizedYears = map (subtract m) ys
  where
    ys = [1976.0 .. 1985.0]
    m = sum ys / fromIntegral (length ys)

f :: Int -> Double -> I -> Log Double
f ft yr (alpha, beta) = Exp $ logProbability (poisson l) (fromIntegral ft)
  where
    l = exp $ alpha + beta * yr

lh :: I -> Log Double
lh x =
  product [f ft yr x | (ft, yr) <- zip fatalities normalizedYears]

moveAlpha :: Move I
moveAlpha = slideSymmetric "alpha" 2 _1 0.2 False

moveBeta :: Move I
moveBeta = slideSymmetric "beta" 1 _2 0.2 False

moveCycle :: Cycle I
moveCycle = fromList [moveAlpha, moveBeta]

initial :: I
initial = (0, 0)

monAlpha :: MonitorParameter I
monAlpha = monitorRealFloat "alpha" _1

monBeta :: MonitorParameter I
monBeta = monitorRealFloat "beta" _2

monStd :: MonitorStdOut I
monStd = monitorStdOut [monAlpha, monBeta] 150

mon :: Monitor I
mon = Monitor monStd [] []

nBurn :: Maybe Int
nBurn = Just 2000

nAutoTune :: Maybe Int
nAutoTune = Just 200

nIter :: Int
nIter = 10000

poissonBench :: GenIO -> IO ()
poissonBench g = do
  let s = noSave $ status "Poisson" (const 1) lh moveCycle mon initial nBurn nAutoTune nIter g
  void $ mh s