[arch-commits] Commit in haskell-random-fu/repos (3 files)
Felix Yan
felixonmars at gemini.archlinux.org
Wed Sep 15 04:45:02 UTC 2021
Date: Wednesday, September 15, 2021 @ 04:45:02
Author: felixonmars
Revision: 1014975
archrelease: copy trunk to community-staging-x86_64
Added:
haskell-random-fu/repos/community-staging-x86_64/
haskell-random-fu/repos/community-staging-x86_64/PKGBUILD
(from rev 1014974, haskell-random-fu/trunk/PKGBUILD)
haskell-random-fu/repos/community-staging-x86_64/ghc9.patch
(from rev 1014974, haskell-random-fu/trunk/ghc9.patch)
------------+
PKGBUILD | 46 +
ghc9.patch | 1744 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2 files changed, 1790 insertions(+)
Copied: haskell-random-fu/repos/community-staging-x86_64/PKGBUILD (from rev 1014974, haskell-random-fu/trunk/PKGBUILD)
===================================================================
--- community-staging-x86_64/PKGBUILD (rev 0)
+++ community-staging-x86_64/PKGBUILD 2021-09-15 04:45:02 UTC (rev 1014975)
@@ -0,0 +1,46 @@
+# Maintainer: Felix Yan <felixonmars at archlinux.org>
+
+_hkgname=random-fu
+pkgname=haskell-random-fu
+pkgver=0.2.7.7
+pkgrel=84
+pkgdesc="Random number generation"
+url="https://github.com/mokus0/random-fu"
+license=("custom:PublicDomain")
+arch=('x86_64')
+depends=('ghc-libs' 'haskell-erf' 'haskell-math-functions' 'haskell-monad-loops' 'haskell-random'
+ 'haskell-random-shuffle' 'haskell-random-source' 'haskell-rvar' 'haskell-syb'
+ 'haskell-vector')
+makedepends=('ghc')
+source=("https://hackage.haskell.org/packages/archive/$_hkgname/$pkgver/$_hkgname-$pkgver.tar.gz"
+ ghc9.patch)
+sha256sums=('8466bcfb5290bdc30a571c91e1eb526c419ea9773bc118996778b516cfc665ca'
+ 'b96a87ecadea4d1897b3250b43445d22a56fef90ae12645d573e6c92456e921f')
+
+prepare() {
+ patch -d $_hkgname-$pkgver -p2 < ghc9.patch
+}
+
+build() {
+ cd $_hkgname-$pkgver
+
+ runhaskell Setup configure -O --enable-shared --enable-executable-dynamic --disable-library-vanilla \
+ --prefix=/usr --docdir=/usr/share/doc/$pkgname --enable-tests \
+ --dynlibdir=/usr/lib --libsubdir=\$compiler/site-local/\$pkgid \
+ --ghc-option=-optl-Wl\,-z\,relro\,-z\,now \
+ --ghc-option='-pie'
+
+ runhaskell Setup build $MAKEFLAGS
+ runhaskell Setup register --gen-script
+ runhaskell Setup unregister --gen-script
+ sed -i -r -e "s|ghc-pkg.*update[^ ]* |&'--force' |" register.sh
+ sed -i -r -e "s|ghc-pkg.*unregister[^ ]* |&'--force' |" unregister.sh
+}
+
+package() {
+ cd $_hkgname-$pkgver
+
+ install -D -m744 register.sh "$pkgdir"/usr/share/haskell/register/$pkgname.sh
+ install -D -m744 unregister.sh "$pkgdir"/usr/share/haskell/unregister/$pkgname.sh
+ runhaskell Setup copy --destdir="$pkgdir"
+}
Copied: haskell-random-fu/repos/community-staging-x86_64/ghc9.patch (from rev 1014974, haskell-random-fu/trunk/ghc9.patch)
===================================================================
--- community-staging-x86_64/ghc9.patch (rev 0)
+++ community-staging-x86_64/ghc9.patch 2021-09-15 04:45:02 UTC (rev 1014975)
@@ -0,0 +1,1744 @@
+From 268e66b778157e64f508d9d2018f8252034cc14d Mon Sep 17 00:00:00 2001
+From: Alexey Kuleshevich <alexey at kuleshevi.ch>
+Date: Sat, 3 Apr 2021 23:20:22 +0300
+Subject: [PATCH 1/3] Remove trailing whitespaces and switch to newer lts
+
+---
+ random-fu/src/Data/Random/Distribution.hs | 40 +++----
+ .../src/Data/Random/Distribution/Bernoulli.hs | 10 +-
+ .../Data/Random/Distribution/Categorical.hs | 52 ++++-----
+ .../src/Data/Random/Distribution/Dirichlet.hs | 2 +-
+ random-fu/src/Data/Random/Distribution/F.hs | 1 -
+ .../src/Data/Random/Distribution/Gamma.hs | 13 ++-
+ .../Data/Random/Distribution/Multinomial.hs | 4 +-
+ .../src/Data/Random/Distribution/Normal.hs | 42 ++++----
+ .../src/Data/Random/Distribution/Rayleigh.hs | 4 +-
+ .../Data/Random/Distribution/Triangular.hs | 4 +-
+ .../src/Data/Random/Distribution/Ziggurat.hs | 100 +++++++++---------
+ random-fu/src/Data/Random/Internal/Find.hs | 16 +--
+ random-fu/src/Data/Random/Internal/Fixed.hs | 4 +-
+ random-fu/src/Data/Random/Internal/TH.hs | 27 +++--
+ random-fu/src/Data/Random/Lift.hs | 5 +-
+ random-fu/src/Data/Random/List.hs | 5 +-
+ random-fu/src/Data/Random/RVar.hs | 2 +-
+ random-fu/src/Data/Random/Sample.hs | 4 +-
+ rvar/src/Data/RVar.hs | 58 +++++-----
+ stack.yaml | 10 +-
+ tests/speed/Bench.hs | 16 +--
+ tests/speed/speed-tests.cabal | 2 +-
+ 22 files changed, 210 insertions(+), 211 deletions(-)
+
+diff --git a/random-fu/src/Data/Random/Distribution.hs b/random-fu/src/Data/Random/Distribution.hs
+index 15ece3c..0c460f3 100644
+--- a/random-fu/src/Data/Random/Distribution.hs
++++ b/random-fu/src/Data/Random/Distribution.hs
+@@ -13,7 +13,7 @@ import Data.Random.RVar
+ -- > data Normal a
+ -- > = StdNormal
+ -- > | Normal a a
+---
++--
+ -- Where the two parameters of the 'Normal' data constructor are the mean and
+ -- standard deviation of the random variable, respectively. To make use of
+ -- the 'Normal' type, one can convert it to an 'rvar' and manipulate it or
+@@ -21,39 +21,39 @@ import Data.Random.RVar
+ --
+ -- > x <- sample (rvar (Normal 10 2))
+ -- > x <- sample (Normal 10 2)
+---
++--
+ -- A 'Distribution' is typically more transparent than an 'RVar'
+--- but less composable (precisely because of that transparency). There are
++-- but less composable (precisely because of that transparency). There are
+ -- several practical uses for types implementing 'Distribution':
+---
+--- * Typically, a 'Distribution' will expose several parameters of a standard
++--
++-- * Typically, a 'Distribution' will expose several parameters of a standard
+ -- mathematical model of a probability distribution, such as mean and std deviation for
+ -- the normal distribution. Thus, they can be manipulated analytically using
+ -- mathematical insights about the distributions they represent. For example,
+ -- a collection of bernoulli variables could be simplified into a (hopefully) smaller
+ -- collection of binomial variables.
+---
++--
+ -- * Because they are generally just containers for parameters, they can be
+--- easily serialized to persistent storage or read from user-supplied
++-- easily serialized to persistent storage or read from user-supplied
+ -- configurations (eg, initialization data for a simulation).
+---
++--
+ -- * If a type additionally implements the 'CDF' subclass, which extends
+ -- 'Distribution' with a cumulative density function, an arbitrary random
+ -- variable 'x' can be tested against the distribution by testing
+ -- @fmap (cdf dist) x@ for uniformity.
+---
++--
+ -- On the other hand, most 'Distribution's will not be closed under all the
+ -- same operations as 'RVar' (which, being a monad, has a fully turing-complete
+--- internal computational model). The sum of two uniformly-distributed
+--- variables, for example, is not uniformly distributed. To support general
+--- composition, the 'Distribution' class defines a function 'rvar' to
+--- construct the more-abstract and more-composable 'RVar' representation
++-- internal computational model). The sum of two uniformly-distributed
++-- variables, for example, is not uniformly distributed. To support general
++-- composition, the 'Distribution' class defines a function 'rvar' to
++-- construct the more-abstract and more-composable 'RVar' representation
+ -- of a random variable.
+ class Distribution d t where
+ -- |Return a random variable with this distribution.
+ rvar :: d t -> RVar t
+ rvar = rvarT
+-
++
+ -- |Return a random variable with the given distribution, pre-lifted to an arbitrary 'RVarT'.
+ -- Any arbitrary 'RVar' can also be converted to an 'RVarT m' for an arbitrary 'm', using
+ -- either 'lift' or 'sample'.
+@@ -66,7 +66,7 @@ class Distribution d t => PDF d t where
+ pdf d = exp . logPdf d
+ logPdf :: d t -> t -> Double
+ logPdf d = log . pdf d
+-
++
+
+ class Distribution d t => CDF d t where
+ -- |Return the cumulative distribution function of this distribution.
+@@ -76,19 +76,19 @@ class Distribution d t => CDF d t where
+ --
+ -- In the case where 't' is an instance of Ord, 'cdf' should correspond
+ -- to the CDF with respect to that order.
+- --
++ --
+ -- In other cases, 'cdf' is only required to satisfy the following law:
+ -- @fmap (cdf d) (rvar d)@
+ -- must be uniformly distributed over (0,1). Inclusion of either endpoint is optional,
+ -- though the preferred range is (0,1].
+- --
+- -- Note that this definition requires that 'cdf' for a product type
+- -- should _not_ be a joint CDF as commonly defined, as that definition
++ --
++ -- Note that this definition requires that 'cdf' for a product type
++ -- should _not_ be a joint CDF as commonly defined, as that definition
+ -- violates both conditions.
+ -- Instead, it should be a univariate CDF over the product type. That is,
+ -- it should represent the CDF with respect to the lexicographic order
+ -- of the product.
+- --
++ --
+ -- The present specification is probably only really useful for testing
+ -- conformance of a variable to its target distribution, and I am open to
+ -- suggestions for more-useful specifications (especially with regard to
+diff --git a/random-fu/src/Data/Random/Distribution/Bernoulli.hs b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+index 446916a..1027fd8 100644
+--- a/random-fu/src/Data/Random/Distribution/Bernoulli.hs
++++ b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+@@ -57,7 +57,7 @@ generalBernoulliCDF gte f t p x
+
+ newtype Bernoulli b a = Bernoulli b
+
+-instance (Fractional b, Ord b, Distribution StdUniform b)
++instance (Fractional b, Ord b, Distribution StdUniform b)
+ => Distribution (Bernoulli b) Bool
+ where
+ rvarT (Bernoulli p) = boolBernoulli p
+@@ -67,7 +67,7 @@ instance (Distribution (Bernoulli b) Bool, Real b)
+ cdf (Bernoulli p) = boolBernoulliCDF p
+
+ $( replicateInstances ''Int integralTypes [d|
+- instance Distribution (Bernoulli b) Bool
++ instance Distribution (Bernoulli b) Bool
+ => Distribution (Bernoulli b) Int
+ where
+ rvarT (Bernoulli p) = generalBernoulli 0 1 p
+@@ -78,7 +78,7 @@ $( replicateInstances ''Int integralTypes [d|
+ |] )
+
+ $( replicateInstances ''Float realFloatTypes [d|
+- instance Distribution (Bernoulli b) Bool
++ instance Distribution (Bernoulli b) Bool
+ => Distribution (Bernoulli b) Float
+ where
+ rvarT (Bernoulli p) = generalBernoulli 0 1 p
+@@ -89,11 +89,11 @@ $( replicateInstances ''Float realFloatTypes [d|
+ |] )
+
+ instance (Distribution (Bernoulli b) Bool, Integral a)
+- => Distribution (Bernoulli b) (Ratio a)
++ => Distribution (Bernoulli b) (Ratio a)
+ where
+ rvarT (Bernoulli p) = generalBernoulli 0 1 p
+ instance (CDF (Bernoulli b) Bool, Integral a)
+- => CDF (Bernoulli b) (Ratio a)
++ => CDF (Bernoulli b) (Ratio a)
+ where
+ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
+ instance (Distribution (Bernoulli b) Bool, RealFloat a)
+diff --git a/random-fu/src/Data/Random/Distribution/Categorical.hs b/random-fu/src/Data/Random/Distribution/Categorical.hs
+index 10051d1..575a0a2 100644
+--- a/random-fu/src/Data/Random/Distribution/Categorical.hs
++++ b/random-fu/src/Data/Random/Distribution/Categorical.hs
+@@ -37,7 +37,7 @@ import qualified Data.Vector.Mutable as MV
+ categorical :: (Num p, Distribution (Categorical p) a) => [(p,a)] -> RVar a
+ categorical = rvar . fromList
+
+--- |Construct a 'Categorical' random process from a list of probabilities
++-- |Construct a 'Categorical' random process from a list of probabilities
+ -- and categories, where the probabilities all sum to 1.
+ categoricalT :: (Num p, Distribution (Categorical p) a) => [(p,a)] -> RVarT m a
+ categoricalT = rvarT . fromList
+@@ -47,7 +47,7 @@ categoricalT = rvarT . fromList
+ weightedCategorical :: (Fractional p, Eq p, Distribution (Categorical p) a) => [(p,a)] -> RVar a
+ weightedCategorical = rvar . fromWeightedList
+
+--- |Construct a 'Categorical' random process from a list of weights
++-- |Construct a 'Categorical' random process from a list of weights
+ -- and categories. The weights do /not/ have to sum to 1.
+ weightedCategoricalT :: (Fractional p, Eq p, Distribution (Categorical p) a) => [(p,a)] -> RVarT m a
+ weightedCategoricalT = rvarT . fromWeightedList
+@@ -73,14 +73,14 @@ totalWeight (Categorical ds)
+ numEvents :: Categorical p a -> Int
+ numEvents (Categorical ds) = V.length ds
+
+--- |Construct a 'Categorical' distribution from a list of weighted categories,
++-- |Construct a 'Categorical' distribution from a list of weighted categories,
+ -- where the weights do not necessarily sum to 1.
+ fromWeightedList :: (Fractional p, Eq p) => [(p,a)] -> Categorical p a
+ fromWeightedList = normalizeCategoricalPs . fromList
+
+ -- |Construct a 'Categorical' distribution from a list of observed outcomes.
+ -- Equivalent events will be grouped and counted, and the probabilities of each
+--- event in the returned distribution will be proportional to the number of
++-- event in the returned distribution will be proportional to the number of
+ -- occurrences of that event.
+ fromObservations :: (Fractional p, Eq p, Ord a) => [a] -> Categorical p a
+ fromObservations = fromWeightedList . map (genericLength &&& head) . group . sort
+@@ -91,10 +91,10 @@ fromObservations = fromWeightedList . map (genericLength &&& head) . group . sor
+ -- binary search.
+
+ -- |Categorical distribution; a list of events with corresponding probabilities.
+--- The sum of the probabilities must be 1, and no event should have a zero
++-- The sum of the probabilities must be 1, and no event should have a zero
+ -- or negative probability (at least, at time of sampling; very clever users
+--- can do what they want with the numbers before sampling, just make sure
+--- that if you're one of those clever ones, you at least eliminate negative
++-- can do what they want with the numbers before sampling, just make sure
++-- that if you're one of those clever ones, you at least eliminate negative
+ -- weights before sampling).
+ newtype Categorical p a = Categorical (V.Vector (p, a))
+ deriving Eq
+@@ -117,19 +117,19 @@ instance (Fractional p, Ord p, Distribution Uniform p) => Distribution (Categori
+ | n == 1 = return (snd (V.head ds))
+ | otherwise = do
+ u <- uniformT 0 (fst (V.last ds))
+-
++
+ let -- by construction, p is monotone; (i < j) ==> (p i <= p j)
+ p i = fst (ds V.! i)
+ x i = snd (ds V.! i)
+-
++
+ -- findEvent
+ -- ===========
+ -- invariants: (i <= j), (u <= p j), ((i == 0) || (p i < u))
+ -- (the last one means 'i' does not increase unless it bounds 'p' below 'u')
+ -- variant: either i increases or j decreases.
+ -- upon termination: ∀ k. if (k < j) then (p k < u) else (u <= p k)
+- -- (that is, the chosen event 'x j' is the first one whose
+- -- associated cumulative probability 'p j' is greater than
++ -- (that is, the chosen event 'x j' is the first one whose
++ -- associated cumulative probability 'p j' is greater than
+ -- or equal to 'u')
+ findEvent i j
+ | j <= i = x j
+@@ -139,7 +139,7 @@ instance (Fractional p, Ord p, Distribution Uniform p) => Distribution (Categori
+ -- midpoint rounding down
+ -- (i < j) ==> (m < j)
+ m = (i + j) `div` 2
+-
++
+ return $! if u <= 0 then x 0 else findEvent 0 (n-1)
+ where n = V.length ds
+
+@@ -156,22 +156,22 @@ instance Traversable (Categorical p) where
+
+ instance Fractional p => Monad (Categorical p) where
+ return x = Categorical (V.singleton (1, x))
+-
++
+ -- I'm not entirely sure whether this is a valid form of failure; see next
+ -- set of comments.
+ #if __GLASGOW_HASKELL__ < 808
+ fail _ = Categorical V.empty
+ #endif
+-
++
+ -- Should the normalize step be included here, or should normalization
+ -- be assumed? It seems like there is (at least) 1 valid situation where
+- -- non-normal results would arise: the distribution being modeled is
+- -- "conditional" and some event arose that contradicted the assumed
+- -- condition and thus was eliminated ('f' returned an empty or
++ -- non-normal results would arise: the distribution being modeled is
++ -- "conditional" and some event arose that contradicted the assumed
++ -- condition and thus was eliminated ('f' returned an empty or
+ -- zero-probability consequent, possibly by 'fail'ing).
+- --
++ --
+ -- It seems reasonable to continue in such circumstances, but should there
+- -- be any renormalization? If so, does it make a difference when that
++ -- be any renormalization? If so, does it make a difference when that
+ -- renormalization is done? I'm pretty sure it does, actually. So, the
+ -- normalization will be omitted here for now, as it's easier for the
+ -- user (who really better know what they mean if they're returning
+@@ -180,7 +180,7 @@ instance Fractional p => Monad (Categorical p) where
+ xs >>= f = {- normalizeCategoricalPs . -} fromList $ do
+ (p, x) <- toList xs
+ (q, y) <- toList (f x)
+-
++
+ return (p * q, y)
+
+ instance Fractional p => Applicative (Categorical p) where
+@@ -191,7 +191,7 @@ instance Fractional p => Applicative (Categorical p) where
+ mapCategoricalPs :: (Num p, Num q) => (p -> q) -> Categorical p e -> Categorical q e
+ mapCategoricalPs f = fromList . map (first f) . toList
+
+--- |Adjust all the weights of a categorical distribution so that they
++-- |Adjust all the weights of a categorical distribution so that they
+ -- sum to unity and remove all events whose probability is zero.
+ normalizeCategoricalPs :: (Fractional p, Eq p) => Categorical p e -> Categorical p e
+ normalizeCategoricalPs orig@(Categorical ds)
+@@ -200,13 +200,13 @@ normalizeCategoricalPs orig@(Categorical ds)
+ lastP <- newSTRef 0
+ nDups <- newSTRef 0
+ normalized <- V.thaw ds
+-
++
+ let n = V.length ds
+ skip = modifySTRef' nDups (1+)
+ save i p x = do
+ d <- readSTRef nDups
+ MV.write normalized (i-d) (p, x)
+-
++
+ sequence_
+ [ do
+ let (p,x) = ds V.! i
+@@ -218,7 +218,7 @@ normalizeCategoricalPs orig@(Categorical ds)
+ writeSTRef lastP $! p
+ | i <- [0..n-1]
+ ]
+-
++
+ -- force last element to 1
+ d <- readSTRef nDups
+ let n' = n-d
+@@ -242,14 +242,14 @@ modifySTRef' x f = do
+ -- event will have a probability equal to the sum of all the originals).
+ collectEvents :: (Ord e, Num p, Ord p) => Categorical p e -> Categorical p e
+ collectEvents = collectEventsBy compare ((sum *** head) . unzip)
+-
++
+ -- |Simplify a categorical distribution by combining equivalent events (the new
+ -- event will have a weight equal to the sum of all the originals).
+ -- The comparator function is used to identify events to combine. Once chosen,
+ -- the events and their weights are combined by the provided probability and
+ -- event aggregation function.
+ collectEventsBy :: Num p => (e -> e -> Ordering) -> ([(p,e)] -> (p,e))-> Categorical p e -> Categorical p e
+-collectEventsBy compareE combine =
++collectEventsBy compareE combine =
+ fromList . map combine . groupEvents . sortEvents . toList
+ where
+ groupEvents = groupBy (\x y -> snd x `compareE` snd y == EQ)
+diff --git a/random-fu/src/Data/Random/Distribution/Dirichlet.hs b/random-fu/src/Data/Random/Distribution/Dirichlet.hs
+index 3388ff8..7dbc4cc 100644
+--- a/random-fu/src/Data/Random/Distribution/Dirichlet.hs
++++ b/random-fu/src/Data/Random/Distribution/Dirichlet.hs
+@@ -18,7 +18,7 @@ fractionalDirichlet [_] = return [1]
+ fractionalDirichlet as = do
+ xs <- sequence [gammaT a 1 | a <- as]
+ let total = foldl1' (+) xs
+-
++
+ return (map (* recip total) xs)
+
+ dirichlet :: Distribution Dirichlet [a] => [a] -> RVar [a]
+diff --git a/random-fu/src/Data/Random/Distribution/Gamma.hs b/random-fu/src/Data/Random/Distribution/Gamma.hs
+index ef89a44..bd27050 100644
+--- a/random-fu/src/Data/Random/Distribution/Gamma.hs
++++ b/random-fu/src/Data/Random/Distribution/Gamma.hs
+@@ -9,10 +9,10 @@
+ module Data.Random.Distribution.Gamma
+ ( Gamma(..)
+ , gamma, gammaT
+-
++
+ , Erlang(..)
+ , erlang, erlangT
+-
++
+ , mtGamma
+ ) where
+
+@@ -31,10 +31,10 @@ import Numeric.SpecFunctions
+ {-# SPECIALIZE mtGamma :: Float -> Float -> RVarT m Float #-}
+ mtGamma
+ :: (Floating a, Ord a,
+- Distribution StdUniform a,
++ Distribution StdUniform a,
+ Distribution Normal a)
+ => a -> a -> RVarT m a
+-mtGamma a b
++mtGamma a b
+ | a < 1 = do
+ u <- stdUniformT
+ mtGamma (1+a) $! (b * u ** recip a)
+@@ -42,11 +42,11 @@ mtGamma a b
+ where
+ !d = a - fromRational (1%3)
+ !c = recip (sqrt (9*d))
+-
++
+ go = do
+ x <- stdNormalT
+ let !v = 1 + c*x
+-
++
+ if v <= 0
+ then go
+ else do
+@@ -89,4 +89,3 @@ instance (Integral a, Floating b, Ord b, Distribution Normal b, Distribution Std
+
+ instance (Integral a, Real b, Distribution (Erlang a) b) => CDF (Erlang a) b where
+ cdf (Erlang a) x = incompleteGamma (fromIntegral a) (realToFrac x)
+-
+diff --git a/random-fu/src/Data/Random/Distribution/Multinomial.hs b/random-fu/src/Data/Random/Distribution/Multinomial.hs
+index 6e8971a..af4c9fa 100644
+--- a/random-fu/src/Data/Random/Distribution/Multinomial.hs
++++ b/random-fu/src/Data/Random/Distribution/Multinomial.hs
+@@ -24,9 +24,9 @@ instance (Num a, Eq a, Fractional p, Distribution (Binomial p) a) => Distributio
+ go n (p:ps) (psum:psums) f = do
+ x <- binomialT n (p / psum)
+ go (n-x) ps psums (f . (x:))
+-
++
+ go _ _ _ _ = error "rvar/Multinomial: programming error! this case should be impossible!"
+-
++
+ -- less wasteful version of (map sum . tails)
+ tailSums [] = [0]
+ tailSums (x:xs) = case tailSums xs of
+diff --git a/random-fu/src/Data/Random/Distribution/Normal.hs b/random-fu/src/Data/Random/Distribution/Normal.hs
+index 960414a..90b9e11 100644
+--- a/random-fu/src/Data/Random/Distribution/Normal.hs
++++ b/random-fu/src/Data/Random/Distribution/Normal.hs
+@@ -1,6 +1,6 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses, FlexibleInstances, FlexibleContexts,
+- UndecidableInstances, ForeignFunctionInterface, BangPatterns,
++ UndecidableInstances, ForeignFunctionInterface, BangPatterns,
+ RankNTypes
+ #-}
+
+@@ -10,13 +10,13 @@ module Data.Random.Distribution.Normal
+ ( Normal(..)
+ , normal, normalT
+ , stdNormal, stdNormalT
+-
++
+ , doubleStdNormal
+ , floatStdNormal
+ , realFloatStdNormal
+-
++
+ , normalTail
+-
++
+ , normalPair
+ , boxMullerNormalPair
+ , knuthPolarNormalPair
+@@ -44,7 +44,7 @@ normalPair = boxMullerNormalPair
+
+ -- |A random variable that produces a pair of independent
+ -- normally-distributed values, computed using the Box-Muller method.
+--- This algorithm is slightly slower than Knuth's method but using a
++-- This algorithm is slightly slower than Knuth's method but using a
+ -- constant amount of entropy (Knuth's method is a rejection method).
+ -- It is also slightly more general (Knuth's method require an 'Ord'
+ -- instance).
+@@ -55,27 +55,27 @@ boxMullerNormalPair = do
+ t <- stdUniform
+ let r = sqrt (-2 * log u)
+ theta = (2 * pi) * t
+-
++
+ x = r * cos theta
+ y = r * sin theta
+ return (x,y)
+
+ -- |A random variable that produces a pair of independent
+ -- normally-distributed values, computed using Knuth's polar method.
+--- Slightly faster than 'boxMullerNormalPair' when it accepts on the
++-- Slightly faster than 'boxMullerNormalPair' when it accepts on the
+ -- first try, but does not always do so.
+ {-# INLINE knuthPolarNormalPair #-}
+ knuthPolarNormalPair :: (Floating a, Ord a, Distribution Uniform a) => RVar (a,a)
+ knuthPolarNormalPair = do
+ v1 <- uniform (-1) 1
+ v2 <- uniform (-1) 1
+-
++
+ let s = v1*v1 + v2*v2
+ if s >= 1
+ then knuthPolarNormalPair
+ else return $ if s == 0
+ then (0,0)
+- else let scale = sqrt (-2 * log s / s)
++ else let scale = sqrt (-2 * log s / s)
+ in (v1 * scale, v2 * scale)
+
+ -- |Draw from the tail of a normal distribution (the region beyond the provided value)
+@@ -110,7 +110,7 @@ normalFInv :: Floating a => a -> a
+ normalFInv y = sqrt ((-2) * log y)
+ -- | integral of 'normalF'
+ normalFInt :: (Floating a, Erf a, Ord a) => a -> a
+-normalFInt x
++normalFInt x
+ | x <= 0 = 0
+ | otherwise = normalFVol * erf (x * sqrt 0.5)
+ -- | volume of 'normalF'
+@@ -120,8 +120,8 @@ normalFVol = sqrt (0.5 * pi)
+ -- |A random variable sampling from the standard normal distribution
+ -- over any 'RealFloat' type (subject to the rest of the constraints -
+ -- it builds and uses a 'Ziggurat' internally, which requires the 'Erf'
+--- class).
+---
++-- class).
++--
+ -- Because it computes a 'Ziggurat', it is very expensive to use for
+ -- just one evaluation, or even for multiple evaluations if not used and
+ -- reused monomorphically (to enable the ziggurat table to be let-floated
+@@ -135,10 +135,10 @@ normalFVol = sqrt (0.5 * pi)
+ -- @Distribution Normal@ instance declaration.
+ realFloatStdNormal :: (RealFloat a, Erf a, Distribution Uniform a) => RVarT m a
+ realFloatStdNormal = runZiggurat (normalZ p getIU `asTypeOf` (undefined :: Ziggurat V.Vector a))
+- where
++ where
+ p :: Int
+ p = 6
+-
++
+ getIU :: (Num a, Distribution Uniform a) => RVarT m (Int, a)
+ getIU = do
+ i <- getRandomWord8
+@@ -159,12 +159,12 @@ doubleStdNormalV = 2.4567663515413507e-3
+
+ {-# NOINLINE doubleStdNormalZ #-}
+ doubleStdNormalZ :: Ziggurat UV.Vector Double
+-doubleStdNormalZ = mkZiggurat_ True
+- normalF normalFInv
+- doubleStdNormalC doubleStdNormalR doubleStdNormalV
++doubleStdNormalZ = mkZiggurat_ True
++ normalF normalFInv
++ doubleStdNormalC doubleStdNormalR doubleStdNormalV
+ getIU
+ (normalTail doubleStdNormalR)
+- where
++ where
+ getIU :: RVarT m (Int, Double)
+ getIU = do
+ !w <- getRandomWord64
+@@ -185,9 +185,9 @@ floatStdNormalV = 2.4567663515413507e-3
+
+ {-# NOINLINE floatStdNormalZ #-}
+ floatStdNormalZ :: Ziggurat UV.Vector Float
+-floatStdNormalZ = mkZiggurat_ True
+- normalF normalFInv
+- floatStdNormalC floatStdNormalR floatStdNormalV
++floatStdNormalZ = mkZiggurat_ True
++ normalF normalFInv
++ floatStdNormalC floatStdNormalR floatStdNormalV
+ getIU
+ (normalTail floatStdNormalR)
+ where
+diff --git a/random-fu/src/Data/Random/Distribution/Rayleigh.hs b/random-fu/src/Data/Random/Distribution/Rayleigh.hs
+index c3d16a5..94ab61f 100644
+--- a/random-fu/src/Data/Random/Distribution/Rayleigh.hs
++++ b/random-fu/src/Data/Random/Distribution/Rayleigh.hs
+@@ -1,5 +1,5 @@
+ {-# LANGUAGE
+- MultiParamTypeClasses,
++ MultiParamTypeClasses,
+ FlexibleInstances, FlexibleContexts,
+ UndecidableInstances
+ #-}
+@@ -19,7 +19,7 @@ floatingRayleigh s = do
+
+ -- |The rayleigh distribution with a specified mode (\"sigma\") parameter.
+ -- Its mean will be @sigma*sqrt(pi/2)@ and its variance will be @sigma^2*(4-pi)/2@
+---
++--
+ -- (therefore if you want one with a particular mean @m@, @sigma@ should be @m*sqrt(2/pi)@)
+ newtype Rayleigh a = Rayleigh a
+
+diff --git a/random-fu/src/Data/Random/Distribution/Triangular.hs b/random-fu/src/Data/Random/Distribution/Triangular.hs
+index 4653f39..272c5a7 100644
+--- a/random-fu/src/Data/Random/Distribution/Triangular.hs
++++ b/random-fu/src/Data/Random/Distribution/Triangular.hs
+@@ -52,8 +52,8 @@ triangularCDF a b c x
+ = realToFrac (1 - (c - x)^(2 :: Int) / ((c - a) * (c - b)))
+ | otherwise
+ = 1
+-
++
+ instance (RealFloat a, Ord a, Distribution StdUniform a) => Distribution Triangular a where
+ rvarT (Triangular a b c) = floatingTriangular a b c
+ instance (RealFrac a, Distribution Triangular a) => CDF Triangular a where
+- cdf (Triangular a b c) = triangularCDF a b c
+\ No newline at end of file
++ cdf (Triangular a b c) = triangularCDF a b c
+diff --git a/random-fu/src/Data/Random/Distribution/Ziggurat.hs b/random-fu/src/Data/Random/Distribution/Ziggurat.hs
+index ca0e3e9..3d680d6 100644
+--- a/random-fu/src/Data/Random/Distribution/Ziggurat.hs
++++ b/random-fu/src/Data/Random/Distribution/Ziggurat.hs
+@@ -7,16 +7,16 @@
+
+ -- |A generic \"ziggurat algorithm\" implementation. Fairly rough right
+ -- now.
+---
++--
+ -- There is a lot of room for improvement in 'findBin0' especially.
+ -- It needs a fair amount of cleanup and elimination of redundant
+ -- calculation, as well as either a justification for using the simple
+--- 'findMinFrom' or a proper root-finding algorithm.
+---
+--- It would also be nice to add (preferably by pulling in an
+--- external package) support for numerical integration and
+--- differentiation, so that tables can be derived from only a
+--- PDF (if the end user is willing to take the performance and
++-- 'findMinFrom' or a proper root-finding algorithm.
++--
++-- It would also be nice to add (preferably by pulling in an
++-- external package) support for numerical integration and
++-- differentiation, so that tables can be derived from only a
++-- PDF (if the end user is willing to take the performance and
+ -- accuracy hit for the convenience).
+ module Data.Random.Distribution.Ziggurat
+ ( Ziggurat(..)
+@@ -48,10 +48,10 @@ import qualified Data.Vector.Unboxed as UV
+ data Ziggurat v t = Ziggurat {
+ -- |The X locations of each bin in the distribution. Bin 0 is the
+ -- 'infinite' one.
+- --
++ --
+ -- In the case of bin 0, the value given is sort of magical - x[0] is
+- -- defined to be V/f(R). It's not actually the location of any bin,
+- -- but a value computed to make the algorithm more concise and slightly
++ -- defined to be V/f(R). It's not actually the location of any bin,
++ -- but a value computed to make the algorithm more concise and slightly
+ -- faster by not needing to specially-handle bin 0 quite as often.
+ -- If you really need to know why it works, see the 'runZiggurat'
+ -- source or \"the literature\" - it's a fairly standard setup.
+@@ -64,8 +64,8 @@ data Ziggurat v t = Ziggurat {
+ --
+ -- * a bin index, uniform over [0,c) :: Int (where @c@ is the
+ -- number of bins in the tables)
+- --
+- -- * a uniformly distributed fractional value, from -1 to 1
++ --
++ -- * a uniformly distributed fractional value, from -1 to 1
+ -- if not mirrored, from 0 to 1 otherwise.
+ --
+ -- This is provided as a single 'RVar' because it can be implemented
+@@ -74,21 +74,21 @@ data Ziggurat v t = Ziggurat {
+ -- a double (using 52 bits) and a bin number (using up to 12 bits),
+ -- for example.
+ zGetIU :: !(forall m. RVarT m (Int, t)),
+-
++
+ -- |The distribution for the final \"virtual\" bin
+ -- (the ziggurat algorithm does not handle distributions
+ -- that wander off to infinity, so another distribution is needed
+ -- to handle the last \"bin\" that stretches to infinity)
+ zTailDist :: (forall m. RVarT m t),
+-
++
+ -- |A copy of the uniform RVar generator for the base type,
+ -- so that @Distribution Uniform t@ is not needed when sampling
+ -- from a Ziggurat (makes it a bit more self-contained).
+ zUniform :: !(forall m. t -> t -> RVarT m t),
+-
++
+ -- |The (one-sided antitone) PDF, not necessarily normalized
+ zFunc :: !(t -> t),
+-
++
+ -- |A flag indicating whether the distribution should be
+ -- mirrored about the origin (the ziggurat algorithm in
+ -- its native form only samples from one-sided distributions.
+@@ -113,7 +113,7 @@ runZiggurat !Ziggurat{..} = go
+ -- (or 0 to 1 if not mirroring the distribution).
+ -- Let X be U scaled to the size of the selected bin.
+ (!i,!u) <- zGetIU
+-
++
+ -- if the uniform value U falls in the area "clearly inside" the
+ -- bin, accept X immediately.
+ -- Otherwise, depending on the bin selected, use either the
+@@ -123,7 +123,7 @@ runZiggurat !Ziggurat{..} = go
+ else if i == 0
+ then sampleTail u
+ else sampleGreyArea i $! (u * zTable_xs ! i)
+-
++
+ -- when the sample falls in the "grey area" (the area between
+ -- the Y values of the selected bin and the bin after that one),
+ -- use an accept/reject method based on the target PDF.
+@@ -133,7 +133,7 @@ runZiggurat !Ziggurat{..} = go
+ if v < zFunc (abs x)
+ then return $! x
+ else go
+-
++
+ -- if the selected bin is the "infinite" one, call it quits and
+ -- defer to the tail distribution (mirroring if needed to ensure
+ -- the result has the sign already selected by zGetIU)
+@@ -143,28 +143,28 @@ runZiggurat !Ziggurat{..} = go
+ | otherwise = zTailDist
+
+
+--- |Build the tables to implement the \"ziggurat algorithm\" devised by
++-- |Build the tables to implement the \"ziggurat algorithm\" devised by
+ -- Marsaglia & Tang, attempting to automatically compute the R and V
+ -- values.
+---
++--
+ -- Arguments:
+---
++--
+ -- * flag indicating whether to mirror the distribution
+---
++--
+ -- * the (one-sided antitone) PDF, not necessarily normalized
+---
++--
+ -- * the inverse of the PDF
+---
++--
+ -- * the number of bins
+---
++--
+ -- * R, the x value of the first bin
+---
++--
+ -- * V, the volume of each bin
+---
++--
+ -- * an RVar providing the 'zGetIU' random tuple
+---
++--
+ -- * an RVar sampling from the tail (the region where x > R)
+---
++--
+ {-# INLINE mkZiggurat_ #-}
+ {-# SPECIALIZE mkZiggurat_ :: Bool -> (Float -> Float) -> (Float -> Float) -> Int -> Float -> Float -> (forall m. RVarT m (Int, Float)) -> (forall m. RVarT m Float ) -> Ziggurat UV.Vector Float #-}
+ {-# SPECIALIZE mkZiggurat_ :: Bool -> (Double -> Double) -> (Double -> Double) -> Int -> Double -> Double -> (forall m. RVarT m (Int, Double)) -> (forall m. RVarT m Double) -> Ziggurat UV.Vector Double #-}
+@@ -191,13 +191,13 @@ mkZiggurat_ m f fInv c r v getIU tailDist = Ziggurat
+ , zTailDist = tailDist
+ , zMirror = m
+ }
+- where
++ where
+ xs = zigguratTable f fInv c r v
+
+--- |Build the tables to implement the \"ziggurat algorithm\" devised by
++-- |Build the tables to implement the \"ziggurat algorithm\" devised by
+ -- Marsaglia & Tang, attempting to automatically compute the R and V
+ -- values.
+---
++--
+ -- Arguments are the same as for 'mkZigguratRec', with an additional
+ -- argument for the tail distribution as a function of the selected
+ -- R value.
+@@ -213,15 +213,15 @@ mkZiggurat :: (RealFloat t, Vector v t,
+ -> (forall m. t -> RVarT m t)
+ -> Ziggurat v t
+ mkZiggurat m f fInv fInt fVol c getIU tailDist =
+- mkZiggurat_ m f fInv c r v getIU (tailDist r)
++ mkZiggurat_ m f fInv c r v getIU (tailDist r)
+ where
+ (r,v) = findBin0 c f fInv fInt fVol
+
+ -- |Build a lazy recursive ziggurat. Uses a lazily-constructed ziggurat
+ -- as its tail distribution (with another as its tail, ad nauseam).
+---
++--
+ -- Arguments:
+---
++--
+ -- * flag indicating whether to mirror the distribution
+ --
+ -- * the (one-sided antitone) PDF, not necessarily normalized
+@@ -254,7 +254,7 @@ mkZigguratRec m f fInv fInt fVol c getIU = z
+ fix g = g (fix g)
+ z = mkZiggurat m f fInv fInt fVol c getIU (fix (mkTail m f fInv fInt fVol c getIU z))
+
+-mkTail ::
++mkTail ::
+ (RealFloat a, Vector v a, Distribution Uniform a) =>
+ Bool
+ -> (a -> a) -> (a -> a) -> (a -> a)
+@@ -269,15 +269,15 @@ mkTail m f fInv fInt fVol c getIU typeRep nextTail r = do
+ return (x + r * signum x)
+ where
+ fIntR = fInt r
+-
++
+ f' x | x < 0 = f r
+ | otherwise = f (x+r)
+ fInv' = subtract r . fInv
+ fInt' x | x < 0 = 0
+ | otherwise = fInt (x+r) - fIntR
+-
++
+ fVol' = fVol - fIntR
+-
++
+
+ zigguratTable :: (Fractional a, Vector v a, Ord a) =>
+ (a -> a) -> (a -> a) -> Int -> a -> a -> v a
+@@ -292,17 +292,17 @@ zigguratXs f fInv c r v = (xs, excess)
+ where
+ xs = Prelude.map x [0..c] -- sample c x
+ ys = Prelude.map f xs
+-
++
+ x 0 = v / f r
+ x 1 = r
+ x i | i == c = 0
+ x i | i > 1 = next (i-1)
+ x _ = error "zigguratXs: programming error! this case should be impossible!"
+-
++
+ next i = let x_i = xs!!i
+ in if x_i <= 0 then -1 else fInv (ys!!i + (v / x_i))
+-
+- excess = xs!!(c-1) * (f 0 - ys !! (c-1)) - v
++
++ excess = xs!!(c-1) * (f 0 - ys !! (c-1)) - v
+
+
+ precomputeRatios :: (Vector v a, Fractional a) => v a -> v a
+@@ -314,7 +314,7 @@ precomputeRatios zTable_xs = generate (c-1) $ \i -> zTable_xs!(i+1) / zTable_xs!
+ -- Search the distribution for an appropriate R and V.
+ --
+ -- Arguments:
+---
++--
+ -- * Number of bins
+ --
+ -- * target function (one-sided antitone PDF, not necessarily normalized)
+@@ -326,20 +326,20 @@ precomputeRatios zTable_xs = generate (c-1) $ \i -> zTable_xs!(i+1) / zTable_xs!
+ -- * estimate of total volume under function (integral from 0 to infinity)
+ --
+ -- Result: (R,V)
+-findBin0 :: (RealFloat b) =>
++findBin0 :: (RealFloat b) =>
+ Int -> (b -> b) -> (b -> b) -> (b -> b) -> b -> (b, b)
+ findBin0 cInt f fInv fInt fVol = (rMin,v rMin)
+ where
+ c = fromIntegral cInt
+ v r = r * f r + fVol - fInt r
+-
++
+ -- initial R guess:
+ r0 = findMin (\r -> v r <= fVol / c)
+ -- find a better R:
+- rMin = findMinFrom r0 1 $ \r ->
+- let e = exc r
++ rMin = findMinFrom r0 1 $ \r ->
++ let e = exc r
+ in e >= 0 && not (isNaN e)
+-
++
+ exc x = zigguratExcess f fInv cInt x (v x)
+
+ instance (Num t, Ord t, Vector v t) => Distribution (Ziggurat v) t where
+diff --git a/random-fu/src/Data/Random/Internal/Find.hs b/random-fu/src/Data/Random/Internal/Find.hs
+index 2c61f0e..c14c576 100644
+--- a/random-fu/src/Data/Random/Internal/Find.hs
++++ b/random-fu/src/Data/Random/Internal/Find.hs
+@@ -19,7 +19,7 @@ findMin = findMinFrom 0 1
+ -- specified point with the specified stepsize, performs an exponential
+ -- search out from there until it finds an interval bracketing the
+ -- change-point of the predicate, and then performs a bisection search
+--- to isolate the change point. Note that infinitely-divisible domains
++-- to isolate the change point. Note that infinitely-divisible domains
+ -- such as 'Rational' cannot be searched by this function because it does
+ -- not terminate until it reaches a point where further subdivision of the
+ -- interval has no effect.
+@@ -33,31 +33,31 @@ findMinFrom z0 step1 p
+ -- a feasible answer
+ fixZero 0 = 0
+ fixZero z = z
+-
++
+ -- preconditions:
+ -- not (p l)
+ -- 0 <= l < x
+- ascend l x
++ ascend l x
+ | p x = bisect l x
+ | otherwise = ascend x $! 2*x-z0
+-
++
+ -- preconditions:
+ -- p h
+ -- x < h <= 0
+- descend x h
++ descend x h
+ | p x = (descend $! 2*x-z0) x
+ | otherwise = bisect x h
+-
++
+ -- preconditions:
+ -- not (p l)
+ -- p h
+ -- l <= h
+- bisect l h
++ bisect l h
+ | l /< h = h
+ | l /< mid || mid /< h
+ = if p mid then mid else h
+ | p mid = bisect l mid
+ | otherwise = bisect mid h
+- where
++ where
+ a /< b = not (a < b)
+ mid = (l+h)*0.5
+diff --git a/random-fu/src/Data/Random/Internal/Fixed.hs b/random-fu/src/Data/Random/Internal/Fixed.hs
+index 758dca4..5180203 100644
+--- a/random-fu/src/Data/Random/Internal/Fixed.hs
++++ b/random-fu/src/Data/Random/Internal/Fixed.hs
+@@ -35,10 +35,10 @@ resolutionOf2 x = resolution (res x)
+ -- |The 'Fixed' type doesn't expose its constructors, but I need a way to
+ -- convert them to and from their raw representation in order to sample
+ -- them. As long as 'Fixed' is a newtype wrapping 'Integer', 'mkFixed' and
+--- 'unMkFixed' as defined here will work. Both are implemented using
++-- 'unMkFixed' as defined here will work. Both are implemented using
+ -- 'unsafeCoerce'.
+ mkFixed :: Integer -> Fixed r
+ mkFixed = unsafeCoerce
+
+ unMkFixed :: Fixed r -> Integer
+-unMkFixed = unsafeCoerce
+\ No newline at end of file
++unMkFixed = unsafeCoerce
+diff --git a/random-fu/src/Data/Random/Internal/TH.hs b/random-fu/src/Data/Random/Internal/TH.hs
+index 7f28658..500b75b 100644
+--- a/random-fu/src/Data/Random/Internal/TH.hs
++++ b/random-fu/src/Data/Random/Internal/TH.hs
+@@ -6,12 +6,12 @@
+ -- to cover large numbers of types. I'm doing that rather than using
+ -- class contexts because most Distribution instances need to cover
+ -- multiple classes (such as Enum, Integral and Fractional) and that
+--- can't be done easily because of overlap.
+---
+--- I experimented a bit with a convoluted type-level classification
+--- scheme, but I think this is simpler and easier to understand. It
+--- makes the haddock docs more cluttered because of the combinatorial
+--- explosion of instances, but overall I think it's just more sane than
++-- can't be done easily because of overlap.
++--
++-- I experimented a bit with a convoluted type-level classification
++-- scheme, but I think this is simpler and easier to understand. It
++-- makes the haddock docs more cluttered because of the combinatorial
++-- explosion of instances, but overall I think it's just more sane than
+ -- anything else I've come up with yet.
+ module Data.Random.Internal.TH
+ ( replicateInstances
+@@ -27,7 +27,7 @@ import Control.Monad
+
+ -- |Names of standard 'Integral' types
+ integralTypes :: [Name]
+-integralTypes =
++integralTypes =
+ [ ''Integer
+ , ''Int, ''Int8, ''Int16, ''Int32, ''Int64
+ , ''Word, ''Word8, ''Word16, ''Word32, ''Word64
+@@ -53,17 +53,17 @@ replaceName x y z
+ -- 'Dec's in @decls@ and substitute every instance of the 'Name' @standin@ with
+ -- each 'Name' in @types@, producing one copy of the 'Dec's in @decls@ for every
+ -- 'Name' in @types at .
+---
++--
+ -- For example, 'Data.Random.Distribution.Uniform' has the following bit of TH code:
+---
++--
+ -- @ $( replicateInstances ''Int integralTypes [d| @
+---
++--
+ -- @ instance Distribution Uniform Int where rvar (Uniform a b) = integralUniform a b @
+---
++--
+ -- @ instance CDF Uniform Int where cdf (Uniform a b) = integralUniformCDF a b @
+---
++--
+ -- @ |]) @
+---
++--
+ -- This code takes those 2 instance declarations and creates identical ones for
+ -- every type named in 'integralTypes'.
+ replicateInstances :: (Monad m, Data t) => Name -> [Name] -> m [t] -> m [t]
+@@ -76,4 +76,3 @@ replicateInstances standin types getDecls = liftM concat $ sequence
+ ]
+ | t <- types
+ ]
+-
+diff --git a/random-fu/src/Data/Random/Lift.hs b/random-fu/src/Data/Random/Lift.hs
+index f148cb1..658ac72 100644
+--- a/random-fu/src/Data/Random/Lift.hs
++++ b/random-fu/src/Data/Random/Lift.hs
+@@ -19,10 +19,10 @@ import qualified Control.Monad.Identity as MTL
+ -- For instances where 'm' and 'n' have 'return'/'pure' defined,
+ -- these instances must satisfy
+ -- @lift (return x) == return x at .
+---
++--
+ -- This form of 'lift' has an extremely general type and is used primarily to
+ -- support 'sample'. Its excessive generality is the main reason it's not
+--- exported from "Data.Random". 'RVarT' is, however, an instance of
++-- exported from "Data.Random". 'RVarT' is, however, an instance of
+ -- 'T.MonadTrans', which in most cases is the preferred way
+ -- to do the lifting.
+ class Lift m n where
+@@ -67,4 +67,3 @@ instance T.MonadTrans t => Lift MTL.Identity (t MTL.Identity) where
+ lift = T.lift
+
+ #endif
+-
+diff --git a/random-fu/src/Data/Random/List.hs b/random-fu/src/Data/Random/List.hs
+index 2398e9c..1770fac 100644
+--- a/random-fu/src/Data/Random/List.hs
++++ b/random-fu/src/Data/Random/List.hs
+@@ -28,11 +28,11 @@ shuffleT :: [a] -> RVarT m [a]
+ shuffleT [] = return []
+ shuffleT xs = do
+ is <- zipWithM (\_ i -> uniformT 0 i) (tail xs) [1..]
+-
++
+ return (SRS.shuffle xs (reverse is))
+
+ -- | A random variable that shuffles a list of a known length (or a list
+--- prefix of the specified length). Useful for shuffling large lists when
++-- prefix of the specified length). Useful for shuffling large lists when
+ -- the length is known in advance. Avoids needing to traverse the list to
+ -- discover its length. Each ordering has equal probability.
+ shuffleN :: Int -> [a] -> RVar [a]
+@@ -53,4 +53,3 @@ shuffleNofMT n m xs
+ is <- sequence [uniformT 0 i | i <- take n [m-1, m-2 ..1]]
+ return (take n $ SRS.shuffle (take m xs) is)
+ shuffleNofMT _ _ _ = error "shuffleNofMT: negative length specified"
+-
+diff --git a/random-fu/src/Data/Random/RVar.hs b/random-fu/src/Data/Random/RVar.hs
+index 9ad0492..1e69672 100644
+--- a/random-fu/src/Data/Random/RVar.hs
++++ b/random-fu/src/Data/Random/RVar.hs
+@@ -8,7 +8,7 @@ import Data.Random.Lift
+ import Data.Random.Internal.Source
+ import Data.RVar hiding (runRVarT)
+
+--- |Like 'runRVarTWith', but using an implicit lifting (provided by the
++-- |Like 'runRVarTWith', but using an implicit lifting (provided by the
+ -- 'Lift' class)
+ runRVarT :: (Lift n m, RandomSource m s) => RVarT n a -> s -> m a
+ runRVarT = runRVarTWith lift
+diff --git a/random-fu/src/Data/Random/Sample.hs b/random-fu/src/Data/Random/Sample.hs
+index 31069db..c1c730c 100644
+--- a/random-fu/src/Data/Random/Sample.hs
++++ b/random-fu/src/Data/Random/Sample.hs
+@@ -1,6 +1,6 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses,
+- FlexibleInstances, FlexibleContexts,
++ FlexibleInstances, FlexibleContexts,
+ IncoherentInstances
+ #-}
+
+@@ -8,7 +8,7 @@
+
+ module Data.Random.Sample where
+
+-import Control.Monad.State
++import Control.Monad.State
+ import Data.Random.Distribution
+ import Data.Random.Lift
+ import Data.Random.RVar
+--
+2.32.0
+
+
+From 7583073ad112dee683bae892018b0e87a9caa6d1 Mon Sep 17 00:00:00 2001
+From: funketh <theodor.k.funke at gmail.com>
+Date: Thu, 6 May 2021 19:14:31 +0200
+Subject: [PATCH 2/3] fix GHC 9 support by manually expanding TH
+
+---
+ random-fu/random-fu.cabal | 1 -
+ .../src/Data/Random/Distribution/Bernoulli.hs | 78 +++++++----
+ .../src/Data/Random/Distribution/Beta.hs | 13 +-
+ .../src/Data/Random/Distribution/Binomial.hs | 125 +++++++++++++-----
+ .../Data/Random/Distribution/Categorical.hs | 2 -
+ .../src/Data/Random/Distribution/Poisson.hs | 105 +++++++++++----
+ .../src/Data/Random/Distribution/Uniform.hs | 37 ++++--
+ random-fu/src/Data/Random/Internal/TH.hs | 78 -----------
+ 8 files changed, 267 insertions(+), 172 deletions(-)
+ delete mode 100644 random-fu/src/Data/Random/Internal/TH.hs
+
+diff --git a/random-fu/random-fu.cabal b/random-fu/random-fu.cabal
+index e7e3db9..e76e464 100644
+--- a/random-fu/random-fu.cabal
++++ b/random-fu/random-fu.cabal
+@@ -72,7 +72,6 @@ Library
+ Data.Random.Distribution.Ziggurat
+ Data.Random.Internal.Find
+ Data.Random.Internal.Fixed
+- Data.Random.Internal.TH
+ Data.Random.Lift
+ Data.Random.List
+ Data.Random.RVar
+diff --git a/random-fu/src/Data/Random/Distribution/Bernoulli.hs b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+index 1027fd8..c6a3c79 100644
+--- a/random-fu/src/Data/Random/Distribution/Bernoulli.hs
++++ b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+@@ -9,14 +9,14 @@
+
+ module Data.Random.Distribution.Bernoulli where
+
+-import Data.Random.Internal.TH
+-
+ import Data.Random.RVar
+ import Data.Random.Distribution
+ import Data.Random.Distribution.Uniform
+
+ import Data.Ratio
+ import Data.Complex
++import Data.Int
++import Data.Word
+
+ -- |Generate a Bernoulli variate with the given probability. For @Bool@ results,
+ -- @bernoulli p@ will return True (p*100)% of the time and False otherwise.
+@@ -66,27 +66,59 @@ instance (Distribution (Bernoulli b) Bool, Real b)
+ where
+ cdf (Bernoulli p) = boolBernoulliCDF p
+
+-$( replicateInstances ''Int integralTypes [d|
+- instance Distribution (Bernoulli b) Bool
+- => Distribution (Bernoulli b) Int
+- where
+- rvarT (Bernoulli p) = generalBernoulli 0 1 p
+- instance CDF (Bernoulli b) Bool
+- => CDF (Bernoulli b) Int
+- where
+- cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
+- |] )
+-
+-$( replicateInstances ''Float realFloatTypes [d|
+- instance Distribution (Bernoulli b) Bool
+- => Distribution (Bernoulli b) Float
+- where
+- rvarT (Bernoulli p) = generalBernoulli 0 1 p
+- instance CDF (Bernoulli b) Bool
+- => CDF (Bernoulli b) Float
+- where
+- cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
+- |] )
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Integer where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Integer where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Int where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Int where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Int8 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Int8 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Int16 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Int16 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Int32 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Int32 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Int64 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Int64 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Word where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Word where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Word8 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Word8 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Word16 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Word16 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Word32 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Word32 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Word64 where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Word64 where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Float where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Float where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
++instance Distribution (Bernoulli b) Bool => Distribution (Bernoulli b) Double where
++ rvarT (Bernoulli p) = generalBernoulli 0 1 p
++instance CDF (Bernoulli b) Bool => CDF (Bernoulli b) Double where
++ cdf (Bernoulli p) = generalBernoulliCDF (>=) 0 1 p
+
+ instance (Distribution (Bernoulli b) Bool, Integral a)
+ => Distribution (Bernoulli b) (Ratio a)
+diff --git a/random-fu/src/Data/Random/Distribution/Beta.hs b/random-fu/src/Data/Random/Distribution/Beta.hs
+index 754f388..e07b2c0 100644
+--- a/random-fu/src/Data/Random/Distribution/Beta.hs
++++ b/random-fu/src/Data/Random/Distribution/Beta.hs
+@@ -9,8 +9,6 @@
+
+ module Data.Random.Distribution.Beta where
+
+-import Data.Random.Internal.TH
+-
+ import Data.Random.RVar
+ import Data.Random.Distribution
+ import Data.Random.Distribution.Gamma
+@@ -57,7 +55,10 @@ instance PDF Beta Float
+ where
+ pdf (Beta a b) = realToFrac . exp . logBetaPdf (realToFrac a) (realToFrac b) . realToFrac
+
+-$( replicateInstances ''Float realFloatTypes [d|
+- instance Distribution Beta Float
+- where rvarT (Beta a b) = fractionalBeta a b
+- |])
++instance Distribution Beta Float
++ where
++ rvarT (Beta a b) = fractionalBeta a b
++
++instance Distribution Beta Double
++ where
++ rvarT (Beta a b) = fractionalBeta a b
+diff --git a/random-fu/src/Data/Random/Distribution/Binomial.hs b/random-fu/src/Data/Random/Distribution/Binomial.hs
+index 802a6c8..8495a77 100644
+--- a/random-fu/src/Data/Random/Distribution/Binomial.hs
++++ b/random-fu/src/Data/Random/Distribution/Binomial.hs
+@@ -9,13 +9,14 @@
+
+ module Data.Random.Distribution.Binomial where
+
+-import Data.Random.Internal.TH
+-
+ import Data.Random.RVar
+ import Data.Random.Distribution
+ import Data.Random.Distribution.Beta
+ import Data.Random.Distribution.Uniform
+
++import Data.Int
++import Data.Word
++
+ import Numeric.SpecFunctions ( stirlingError )
+ import Numeric.SpecFunctions.Extra ( bd0 )
+ import Numeric ( log1p )
+@@ -131,31 +132,95 @@ binomialT t p = rvarT (Binomial t p)
+
+ data Binomial b a = Binomial a b
+
+-$( replicateInstances ''Int integralTypes [d|
+- instance ( Floating b, Ord b
+- , Distribution Beta b
+- , Distribution StdUniform b
+- ) => Distribution (Binomial b) Int
+- where
+- rvarT (Binomial t p) = integralBinomial t p
+- instance ( Real b , Distribution (Binomial b) Int
+- ) => CDF (Binomial b) Int
+- where cdf (Binomial t p) = integralBinomialCDF t p
+- instance ( Real b , Distribution (Binomial b) Int
+- ) => PDF (Binomial b) Int
+- where pdf (Binomial t p) = integralBinomialPDF t p
+- logPdf (Binomial t p) = integralBinomialLogPdf t p
+- |])
+-
+-$( replicateInstances ''Float realFloatTypes [d|
+- instance Distribution (Binomial b) Integer
+- => Distribution (Binomial b) Float
+- where rvar (Binomial t p) = floatingBinomial t p
+- instance CDF (Binomial b) Integer
+- => CDF (Binomial b) Float
+- where cdf (Binomial t p) = floatingBinomialCDF t p
+- instance PDF (Binomial b) Integer
+- => PDF (Binomial b) Float
+- where pdf (Binomial t p) = floatingBinomialPDF t p
+- logPdf (Binomial t p) = floatingBinomialLogPDF t p
+- |])
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Integer where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Integer) => CDF (Binomial b) Integer where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Integer) => PDF (Binomial b) Integer where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Int where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Int) => CDF (Binomial b) Int where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Int) => PDF (Binomial b) Int where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Int8 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Int8) => CDF (Binomial b) Int8 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Int8) => PDF (Binomial b) Int8 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Int16 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Int16) => CDF (Binomial b) Int16 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Int16) => PDF (Binomial b) Int16 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Int32 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Int32) => CDF (Binomial b) Int32 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Int32) => PDF (Binomial b) Int32 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Int64 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Int64) => CDF (Binomial b) Int64 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Int64) => PDF (Binomial b) Int64 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Word where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Word) => CDF (Binomial b) Word where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Word) => PDF (Binomial b) Word where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Word8 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Word8) => CDF (Binomial b) Word8 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Word8) => PDF (Binomial b) Word8 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Word16 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Word16) => CDF (Binomial b) Word16 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Word16) => PDF (Binomial b) Word16 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Word32 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Word32) => CDF (Binomial b) Word32 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Word32) => PDF (Binomial b) Word32 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++instance (Floating b, Ord b, Distribution Beta b, Distribution StdUniform b) => Distribution (Binomial b) Word64 where
++ rvarT (Binomial t p) = integralBinomial t p
++instance (Real b, Distribution (Binomial b) Word64) => CDF (Binomial b) Word64 where
++ cdf (Binomial t p) = integralBinomialCDF t p
++instance (Real b, Distribution (Binomial b) Word64) => PDF (Binomial b) Word64 where
++ pdf (Binomial t p) = integralBinomialPDF t p
++ logPdf (Binomial t p) = integralBinomialLogPdf t p
++
++instance Distribution (Binomial b) Integer => Distribution (Binomial b) Float where
++ rvar (Binomial t p) = floatingBinomial t p
++instance CDF (Binomial b) Integer => CDF (Binomial b) Float where
++ cdf (Binomial t p) = floatingBinomialCDF t p
++instance PDF (Binomial b) Integer => PDF (Binomial b) Float where
++ pdf (Binomial t p) = floatingBinomialPDF t p
++ logPdf (Binomial t p) = floatingBinomialLogPDF t p
++instance Distribution (Binomial b) Integer => Distribution (Binomial b) Double where
++ rvar (Binomial t p) = floatingBinomial t p
++instance CDF (Binomial b) Integer => CDF (Binomial b) Double where
++ cdf (Binomial t p) = floatingBinomialCDF t p
++instance PDF (Binomial b) Integer => PDF (Binomial b) Double where
++ pdf (Binomial t p) = floatingBinomialPDF t p
++ logPdf (Binomial t p) = floatingBinomialLogPDF t p
+diff --git a/random-fu/src/Data/Random/Distribution/Categorical.hs b/random-fu/src/Data/Random/Distribution/Categorical.hs
+index 575a0a2..9980a4c 100644
+--- a/random-fu/src/Data/Random/Distribution/Categorical.hs
++++ b/random-fu/src/Data/Random/Distribution/Categorical.hs
+@@ -23,9 +23,7 @@ import Data.Random.Distribution.Uniform
+ import Control.Arrow
+ import Control.Monad
+ import Control.Monad.ST
+-import Data.Foldable (Foldable(foldMap))
+ import Data.STRef
+-import Data.Traversable (Traversable(traverse, sequenceA))
+
+ import Data.List
+ import Data.Function
+diff --git a/random-fu/src/Data/Random/Distribution/Poisson.hs b/random-fu/src/Data/Random/Distribution/Poisson.hs
+index 81bbec6..2613f49 100644
+--- a/random-fu/src/Data/Random/Distribution/Poisson.hs
++++ b/random-fu/src/Data/Random/Distribution/Poisson.hs
+@@ -8,8 +8,6 @@
+
+ module Data.Random.Distribution.Poisson where
+
+-import Data.Random.Internal.TH
+-
+ import Data.Random.RVar
+ import Data.Random.Distribution
+ import Data.Random.Distribution.Uniform
+@@ -18,6 +16,9 @@ import Data.Random.Distribution.Binomial
+
+ import Control.Monad
+
++import Data.Int
++import Data.Word
++
+ -- from Knuth, with interpretation help from gsl sources
+ integralPoisson :: (Integral a, RealFloat b, Distribution StdUniform b, Distribution (Erlang a) b, Distribution (Binomial b) a) => b -> RVarT m a
+ integralPoisson = psn 0
+@@ -87,24 +88,82 @@ poissonT mu = rvarT (Poisson mu)
+
+ newtype Poisson b a = Poisson b
+
+-$( replicateInstances ''Int integralTypes [d|
+- instance ( RealFloat b
+- , Distribution StdUniform b
+- , Distribution (Erlang Int) b
+- , Distribution (Binomial b) Int
+- ) => Distribution (Poisson b) Int where
+- rvarT (Poisson mu) = integralPoisson mu
+- instance (Real b, Distribution (Poisson b) Int) => CDF (Poisson b) Int where
+- cdf (Poisson mu) = integralPoissonCDF mu
+- instance (Real b, Distribution (Poisson b) Int) => PDF (Poisson b) Int where
+- pdf (Poisson mu) = integralPoissonPDF mu
+- |] )
+-
+-$( replicateInstances ''Float realFloatTypes [d|
+- instance (Distribution (Poisson b) Integer) => Distribution (Poisson b) Float where
+- rvarT (Poisson mu) = fractionalPoisson mu
+- instance (CDF (Poisson b) Integer) => CDF (Poisson b) Float where
+- cdf (Poisson mu) = fractionalPoissonCDF mu
+- instance (PDF (Poisson b) Integer) => PDF (Poisson b) Float where
+- pdf (Poisson mu) = fractionalPoissonPDF mu
+- |])
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Integer) b, Distribution (Binomial b) Integer) => Distribution (Poisson b) Integer where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Integer) => CDF (Poisson b) Integer where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Integer) => PDF (Poisson b) Integer where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Int) b, Distribution (Binomial b) Int) => Distribution (Poisson b) Int where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Int) => CDF (Poisson b) Int where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Int) => PDF (Poisson b) Int where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Int8) b, Distribution (Binomial b) Int8) => Distribution (Poisson b) Int8 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Int8) => CDF (Poisson b) Int8 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Int8) => PDF (Poisson b) Int8 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Int16) b, Distribution (Binomial b) Int16) => Distribution (Poisson b) Int16 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Int16) => CDF (Poisson b) Int16 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Int16) => PDF (Poisson b) Int16 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Int32) b, Distribution (Binomial b) Int32) => Distribution (Poisson b) Int32 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Int32) => CDF (Poisson b) Int32 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Int32) => PDF (Poisson b) Int32 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Int64) b, Distribution (Binomial b) Int64) => Distribution (Poisson b) Int64 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Int64) => CDF (Poisson b) Int64 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Int64) => PDF (Poisson b) Int64 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Word) b, Distribution (Binomial b) Word) => Distribution (Poisson b) Word where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Word) => CDF (Poisson b) Word where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Word) => PDF (Poisson b) Word where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Word8) b, Distribution (Binomial b) Word8) => Distribution (Poisson b) Word8 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Word8) => CDF (Poisson b) Word8 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Word8) => PDF (Poisson b) Word8 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Word16) b, Distribution (Binomial b) Word16) => Distribution (Poisson b) Word16 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Word16) => CDF (Poisson b) Word16 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Word16) => PDF (Poisson b) Word16 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Word32) b, Distribution (Binomial b) Word32) => Distribution (Poisson b) Word32 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Word32) => CDF (Poisson b) Word32 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Word32) => PDF (Poisson b) Word32 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++instance (RealFloat b, Distribution StdUniform b, Distribution (Erlang Word64) b, Distribution (Binomial b) Word64) => Distribution (Poisson b) Word64 where
++ rvarT (Poisson mu) = integralPoisson mu
++instance (Real b, Distribution (Poisson b) Word64) => CDF (Poisson b) Word64 where
++ cdf (Poisson mu) = integralPoissonCDF mu
++instance (Real b, Distribution (Poisson b) Word64) => PDF (Poisson b) Word64 where
++ pdf (Poisson mu) = integralPoissonPDF mu
++
++instance Distribution (Poisson b) Integer => Distribution (Poisson b) Float where
++ rvarT (Poisson mu) = fractionalPoisson mu
++instance CDF (Poisson b) Integer => CDF (Poisson b) Float where
++ cdf (Poisson mu) = fractionalPoissonCDF mu
++instance PDF (Poisson b) Integer => PDF (Poisson b) Float where
++ pdf (Poisson mu) = fractionalPoissonPDF mu
++instance Distribution (Poisson b) Integer => Distribution (Poisson b) Double where
++ rvarT (Poisson mu) = fractionalPoisson mu
++instance CDF (Poisson b) Integer => CDF (Poisson b) Double where
++ cdf (Poisson mu) = fractionalPoissonCDF mu
++instance PDF (Poisson b) Integer => PDF (Poisson b) Double where
++ pdf (Poisson mu) = fractionalPoissonPDF mu
+diff --git a/random-fu/src/Data/Random/Distribution/Uniform.hs b/random-fu/src/Data/Random/Distribution/Uniform.hs
+index a580fe8..74dd89a 100644
+--- a/random-fu/src/Data/Random/Distribution/Uniform.hs
++++ b/random-fu/src/Data/Random/Distribution/Uniform.hs
+@@ -37,7 +37,6 @@ module Data.Random.Distribution.Uniform
+ , enumUniformCDF
+ ) where
+
+-import Data.Random.Internal.TH
+ import Data.Random.Internal.Words
+ import Data.Random.Internal.Fixed
+
+@@ -284,10 +283,28 @@ data Uniform t =
+ -- (that is, 0 to 1 including 0 but not including 1).
+ data StdUniform t = StdUniform
+
+-$( replicateInstances ''Int integralTypes [d|
+- instance Distribution Uniform Int where rvarT (Uniform a b) = integralUniform a b
+- instance CDF Uniform Int where cdf (Uniform a b) = integralUniformCDF a b
+- |])
++instance Distribution Uniform Integer where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Integer where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Int where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Int where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Int8 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Int8 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Int16 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Int16 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Int32 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Int32 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Int64 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Int64 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Word where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Word where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Word8 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Word8 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Word16 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Word16 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Word32 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Word32 where cdf (Uniform a b) = integralUniformCDF a b
++instance Distribution Uniform Word64 where rvarT (Uniform a b) = integralUniform a b
++instance CDF Uniform Word64 where cdf (Uniform a b) = integralUniformCDF a b
+
+ instance Distribution StdUniform Word8 where rvarT _ = getRandomWord8
+ instance Distribution StdUniform Word16 where rvarT _ = getRandomWord16
+@@ -349,11 +366,13 @@ instance HasResolution r =>
+
+ instance Distribution Uniform () where rvarT (Uniform _ _) = return ()
+ instance CDF Uniform () where cdf (Uniform _ _) = return 1
+-$( replicateInstances ''Char [''Char, ''Bool, ''Ordering] [d|
+- instance Distribution Uniform Char where rvarT (Uniform a b) = enumUniform a b
+- instance CDF Uniform Char where cdf (Uniform a b) = enumUniformCDF a b
+
+- |])
++instance Distribution Uniform Char where rvarT (Uniform a b) = enumUniform a b
++instance CDF Uniform Char where cdf (Uniform a b) = enumUniformCDF a b
++instance Distribution Uniform Bool where rvarT (Uniform a b) = enumUniform a b
++instance CDF Uniform Bool where cdf (Uniform a b) = enumUniformCDF a b
++instance Distribution Uniform Ordering where rvarT (Uniform a b) = enumUniform a b
++instance CDF Uniform Ordering where cdf (Uniform a b) = enumUniformCDF a b
+
+ instance Distribution StdUniform () where rvarT ~StdUniform = return ()
+ instance CDF StdUniform () where cdf ~StdUniform = return 1
+diff --git a/random-fu/src/Data/Random/Internal/TH.hs b/random-fu/src/Data/Random/Internal/TH.hs
+deleted file mode 100644
+index 500b75b..0000000
+--- a/random-fu/src/Data/Random/Internal/TH.hs
++++ /dev/null
+@@ -1,78 +0,0 @@
+-{-# LANGUAGE
+- TemplateHaskell
+- #-}
+-
+--- |Template Haskell utility code to replicate instance declarations
+--- to cover large numbers of types. I'm doing that rather than using
+--- class contexts because most Distribution instances need to cover
+--- multiple classes (such as Enum, Integral and Fractional) and that
+--- can't be done easily because of overlap.
+---
+--- I experimented a bit with a convoluted type-level classification
+--- scheme, but I think this is simpler and easier to understand. It
+--- makes the haddock docs more cluttered because of the combinatorial
+--- explosion of instances, but overall I think it's just more sane than
+--- anything else I've come up with yet.
+-module Data.Random.Internal.TH
+- ( replicateInstances
+- , integralTypes, realFloatTypes
+- ) where
+-
+-import Data.Generics
+-import Language.Haskell.TH
+-
+-import Data.Word
+-import Data.Int
+-import Control.Monad
+-
+--- |Names of standard 'Integral' types
+-integralTypes :: [Name]
+-integralTypes =
+- [ ''Integer
+- , ''Int, ''Int8, ''Int16, ''Int32, ''Int64
+- , ''Word, ''Word8, ''Word16, ''Word32, ''Word64
+- ]
+-
+--- |Names of standard 'RealFloat' types
+-realFloatTypes :: [Name]
+-realFloatTypes =
+- [ ''Float, ''Double ]
+-
+--- @replaceName x y@ is a function that will
+--- replace @x@ with @y@ whenever it sees it. That is:
+---
+--- > replaceName x y x ==> y
+--- > replaceName x y z ==> z
+--- (@z /= x@)
+-replaceName :: Name -> Name -> Name -> Name
+-replaceName x y z
+- | x == z = y
+- | otherwise = z
+-
+--- | @replicateInstances standin types decls@ will take the template-haskell
+--- 'Dec's in @decls@ and substitute every instance of the 'Name' @standin@ with
+--- each 'Name' in @types@, producing one copy of the 'Dec's in @decls@ for every
+--- 'Name' in @types at .
+---
+--- For example, 'Data.Random.Distribution.Uniform' has the following bit of TH code:
+---
+--- @ $( replicateInstances ''Int integralTypes [d| @
+---
+--- @ instance Distribution Uniform Int where rvar (Uniform a b) = integralUniform a b @
+---
+--- @ instance CDF Uniform Int where cdf (Uniform a b) = integralUniformCDF a b @
+---
+--- @ |]) @
+---
+--- This code takes those 2 instance declarations and creates identical ones for
+--- every type named in 'integralTypes'.
+-replicateInstances :: (Monad m, Data t) => Name -> [Name] -> m [t] -> m [t]
+-replicateInstances standin types getDecls = liftM concat $ sequence
+- [ do
+- decls <- getDecls
+- sequence
+- [ everywhereM (mkM (return . replaceName standin t)) dec
+- | dec <- decls
+- ]
+- | t <- types
+- ]
+--
+2.32.0
+
+
+From 2d38294582ba211df6a5a2b7f7a2c5e71038b0e7 Mon Sep 17 00:00:00 2001
+From: funketh <theodor.k.funke at gmail.com>
+Date: Fri, 7 May 2021 12:10:40 +0200
+Subject: [PATCH 3/3] remove redundant TemplateHaskell LANGUAGE pragmas
+
+---
+ random-fu/src/Data/Random/Distribution/Bernoulli.hs | 3 +--
+ random-fu/src/Data/Random/Distribution/Beta.hs | 3 +--
+ random-fu/src/Data/Random/Distribution/Binomial.hs | 2 +-
+ random-fu/src/Data/Random/Distribution/Poisson.hs | 3 +--
+ 4 files changed, 4 insertions(+), 7 deletions(-)
+
+diff --git a/random-fu/src/Data/Random/Distribution/Bernoulli.hs b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+index c6a3c79..8d219e0 100644
+--- a/random-fu/src/Data/Random/Distribution/Bernoulli.hs
++++ b/random-fu/src/Data/Random/Distribution/Bernoulli.hs
+@@ -1,8 +1,7 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses,
+ FlexibleInstances, FlexibleContexts,
+- UndecidableInstances,
+- TemplateHaskell
++ UndecidableInstances
+ #-}
+
+ {-# OPTIONS_GHC -fno-warn-simplifiable-class-constraints #-}
+diff --git a/random-fu/src/Data/Random/Distribution/Beta.hs b/random-fu/src/Data/Random/Distribution/Beta.hs
+index e07b2c0..2e48258 100644
+--- a/random-fu/src/Data/Random/Distribution/Beta.hs
++++ b/random-fu/src/Data/Random/Distribution/Beta.hs
+@@ -1,8 +1,7 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses,
+ FlexibleInstances, FlexibleContexts,
+- UndecidableInstances,
+- TemplateHaskell
++ UndecidableInstances
+ #-}
+
+ {-# OPTIONS_GHC -fno-warn-simplifiable-class-constraints #-}
+diff --git a/random-fu/src/Data/Random/Distribution/Binomial.hs b/random-fu/src/Data/Random/Distribution/Binomial.hs
+index 8495a77..ff394b4 100644
+--- a/random-fu/src/Data/Random/Distribution/Binomial.hs
++++ b/random-fu/src/Data/Random/Distribution/Binomial.hs
+@@ -1,7 +1,7 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses,
+ FlexibleInstances, FlexibleContexts,
+- UndecidableInstances, TemplateHaskell,
++ UndecidableInstances,
+ BangPatterns
+ #-}
+
+diff --git a/random-fu/src/Data/Random/Distribution/Poisson.hs b/random-fu/src/Data/Random/Distribution/Poisson.hs
+index 2613f49..a7c2cb4 100644
+--- a/random-fu/src/Data/Random/Distribution/Poisson.hs
++++ b/random-fu/src/Data/Random/Distribution/Poisson.hs
+@@ -1,7 +1,6 @@
+ {-# LANGUAGE
+ MultiParamTypeClasses,
+- FlexibleInstances, FlexibleContexts, UndecidableInstances,
+- TemplateHaskell
++ FlexibleInstances, FlexibleContexts, UndecidableInstances
+ #-}
+
+ {-# OPTIONS_GHC -fno-warn-simplifiable-class-constraints #-}
+--
+2.32.0
+
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