aboutsummaryrefslogtreecommitdiff
path: root/src
diff options
context:
space:
mode:
Diffstat (limited to 'src')
-rw-r--r--src/PPL/Internal.hs29
-rw-r--r--src/PPL/Sampling.hs21
2 files changed, 21 insertions, 29 deletions
diff --git a/src/PPL/Internal.hs b/src/PPL/Internal.hs
index b7d49ee..0ba6ae5 100644
--- a/src/PPL/Internal.hs
+++ b/src/PPL/Internal.hs
@@ -13,6 +13,8 @@ module PPL.Internal
randomTree,
samples,
mutateTree,
+ splitTrees,
+ draw,
)
where
@@ -29,7 +31,10 @@ import qualified System.Random as R
-- Reimplementation of the LazyPPL monads to avoid some dependencies
-data Tree = Tree !Double [Tree]
+data Tree = Tree
+ { draw :: !Double,
+ splitTrees :: [Tree]
+ }
split :: Tree -> (Tree, Tree)
split (Tree r (t : ts)) = (t, Tree r ts)
@@ -41,23 +46,11 @@ randomTree g = let (a, g') = random g in Tree a (randomTrees g')
randomTrees g = let (g1, g2) = R.split g in randomTree g1 : randomTrees g2
{-# INLINE mutateTree #-}
-mutateTree :: RandomGen g => Double -> Double -> g -> Tree -> Tree
-mutateTree p q g (Tree a ts) =
- let (r, g1) = random g
- (b, g2) = random g1
- in Tree
- ( if r >= p
- then a
- else
- if r < p * q
- then 1 - a
- else b
- )
- (mutateTrees p q g2 ts)
- where
- mutateTrees p q g (t : ts) =
- let (g1, g2) = R.split g
- in mutateTree p q g1 t : mutateTrees p q g2 ts
+mutateTree :: Double -> Tree -> Tree -> Tree -> Tree
+mutateTree p (Tree r rs) b@(Tree _ bs) (Tree a ts) =
+ if r < p
+ then b
+ else Tree a $ zipWith3 (mutateTree p) rs bs ts
newtype Prob a = Prob {runProb :: Tree -> a}
diff --git a/src/PPL/Sampling.hs b/src/PPL/Sampling.hs
index ad11837..84e5ada 100644
--- a/src/PPL/Sampling.hs
+++ b/src/PPL/Sampling.hs
@@ -9,26 +9,25 @@ import Data.Bifunctor
import Data.Monoid
import Numeric.Log
import PPL.Distr
-import PPL.Internal hiding (split)
-import System.Random (StdGen, random, randoms, split)
+import PPL.Internal
+import System.Random (StdGen, random, randoms)
import qualified Streaming as S
import Streaming.Prelude (Stream, yield, Of)
-mh :: Monad m => StdGen -> Double -> Double -> Meas a -> Stream (Of (a, Log Double)) m ()
-mh g p q m = step g2 t x w
+mh :: Monad m => StdGen -> Double -> Meas a -> Stream (Of (a, Log Double)) m ()
+mh g p m = step t0 t x w
where
- t = randomTree g1
- (g1,g2) = split g
+ (t0,t) = split $ randomTree g
(x, w) = head $ samples m t
- step !g !t !x !w = do
- let (g1, g2) = split g
- t' = mutateTree p q g1 t
+ step !t0 !t !x !w = do
+ let (t1:t2:t3:t4:_) = splitTrees t0
+ t' = mutateTree p t1 t2 t
(x', w') = head $ samples m t'
ratio = w' / w
- (Exp . log -> r, g3) = random g2
+ (Exp . log -> r) = draw t3
(t'', x'', w'') = if r < ratio
then (t', x', w')
else (t, x, w)
yield (x'', w'')
- step g3 t'' x'' w''
+ step t4 t'' x'' w''