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1 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
2 {-# LANGUAGE TypeFamilies #-} -- NOTE: for IsList
3 module Majority.Merit where
4
5 import Data.Eq (Eq(..))
6 import Data.Foldable (Foldable, foldr)
7 import Data.Function (($), (.))
8 import Data.Functor (Functor, (<$>), (<$))
9 import Data.Hashable (Hashable)
10 import Data.List as List
11 import Data.Map.Strict (Map)
12 import Data.Ord (Ord(..))
13 import Data.Ratio ((%), Rational, denominator)
14 import Data.Semigroup (Semigroup(..))
15 import Data.Set (Set)
16 import Data.Tuple (curry)
17 import GHC.Exts (IsList(..))
18 import Prelude (Bounded(..), Enum(..), Num(..), Integer, error, lcm)
19 import Text.Show (Show(..))
20 import qualified Data.HashMap.Strict as HM
21 import qualified Data.HashSet as HS
22 import qualified Data.Map.Strict as Map
23 import qualified Data.Set as Set
24
25 -- * Type 'Choices'
26 type Choices = HS.HashSet
27
28 -- | Return a set of 'Choices' by enumerating the alternatives of its type. Useful on sum types.
29 choices :: (Bounded choice , Enum choice , Eq choice, Hashable choice) => Choices choice
30 choices = HS.fromList $ enumFrom minBound
31
32 -- * Type 'Grades'
33 -- | How many 'grade's should be used?
34 -- A greater number of 'grade's permits a finer distinction but demands
35 -- a higher degree of expertise and discernment.
36 -- The optimal number is the highest number of 'grade's that constitutes a common language,
37 -- that is, that allows 'Judges' to make absolute judgments.
38 -- Too little 'grade's may lead too often to ties.
39 --
40 -- Note, however, that if the inputs or grades depend on the set of 'choice's,
41 -- i.e. if judges change their grades when 'choice's are added or dropped,
42 -- then the Arrow paradox cannot be avoided.
43 -- To avoid this the scale of grades must be fixed and absolute
44 -- so that more or fewer 'choice's does not change
45 -- the inputs or messages of other 'choice's.
46 type Grades = Set
47
48 grades :: [grade] -> Grades (Ranked grade)
49 grades = Set.fromList . zipRank
50
51 -- * Type 'Ranked'
52 -- | Helper type to rank data without a good 'Ord' instance.
53 newtype Ranked a = Ranked (G, a)
54 deriving (Show,Functor)
55 instance Eq (Ranked a) where
56 Ranked (x,_) == Ranked (y,_) = x==y
57 instance Ord (Ranked a) where
58 Ranked (x,_) `compare` Ranked (y,_) = x`compare`y
59
60 -- | @'zipRank' xs@ returns a list with the items of 'xs' wrapped
61 -- so that they are 'compare'able according to their position into 'xs'.
62 zipRank :: [a] -> [Ranked a]
63 zipRank = List.zipWith (curry Ranked) [0..]
64
65 rankKey :: [(k, a)] -> [(Ranked k, a)]
66 rankKey = List.zipWith (\i (k,a) -> (Ranked (i,k),a)) [0..]
67
68 -- ** Type 'G'
69 -- | Rank of a grade.
70 type G = Integer
71
72 rank :: Ranked a -> G
73 rank (Ranked (r, _x)) = r
74
75 unRank :: Ranked a -> a
76 unRank (Ranked (_r, x)) = x
77
78 -- | Return the 'Set' enumerating the alternatives
79 -- of its type parameter. Useful on sum types.
80 enum :: (Bounded a, Enum a, Ord a) => Set a
81 enum = Set.fromList $ enumFrom minBound
82
83 -- * Type 'Judges'
84 -- | Map each 'judge' to its default 'grade'
85 -- (usually the same for all 'judge's but not necessarily).
86 --
87 -- For instance, when a 'judge' gives no 'grade' or has “no opinion”,
88 -- this default grade could mean that the 'judge' chooses “To Reject” the 'choice':
89 -- the rationale being that a 'judge' having “no opinion”
90 -- concerning a 'choice' has not even taken the time to evaluate it
91 -- and thus has implicitly rejected it.
92 type Judges = HM.HashMap
93
94 judges ::
95 Eq judge =>
96 Hashable judge =>
97 [judge] -> grade -> Judges judge grade
98 judges js dg = HM.fromList $ (\j -> (j, dg)) <$> js
99
100 -- * Type 'Opinions'
101 -- | Profile of opinions of some 'judge's about a single 'choice'.
102 type Opinions judge grade = HM.HashMap judge (Distribution grade)
103
104 -- | @(ok, ko) = 'opinions' js os@ returns:
105 --
106 -- * in 'ok' the opinions of the 'judge's 'js' updated by those in 'os',
107 -- * in 'ko' the opinions of 'judge's not in 'js'.
108 opinions ::
109 Eq judge =>
110 Hashable judge =>
111 Judges judge grade ->
112 Opinions judge grade ->
113 ( Opinions judge grade
114 , HS.HashSet judge )
115 opinions js os =
116 ( HM.union os $ singleGrade <$> js
117 , HS.fromMap $ (() <$) $ os`HM.difference`js )
118
119 -- ** Type 'Distribution'
120 -- | Usually, a 'judge' gives a 'singleGrade' to a given 'choice'.
121 -- However, when applying the Majority Judgment to a 'Tree' of 'Section's,
122 -- what a 'judge' gives to a parent 'Section'
123 -- is composed by the 'grade's he or she has given
124 -- to the sub-'Section's, and those can be different.
125 -- In that case, each 'grade' given to a sub-'Section' contributes to a 'Share'
126 -- of the parent 'Section' which therefore is not necessarily a 'singleGrade',
127 -- but more generally a 'Distribution' of 'grade's.
128 -- And the sub-'Section's can actually themselves have sub-'Section's,
129 -- hence not being given a 'grade', but a 'Distribution' of 'grade's too.
130 type Distribution grade = Map grade Share
131
132 singleGrade :: grade -> Distribution grade
133 singleGrade = (`Map.singleton` 1)
134
135 -- *** Type 'Share'
136 -- | Usually a 'judge' attributes a 'singleGrade' to a given 'choice',
137 -- and then the 'Share' of this 'grade' is 1.
138 -- However, when introducing vote colleges (giving more power to some 'judge's),
139 -- or when introducing 'Section's (decomposing a judgment into several sub-judgments),
140 -- it becomes possible that only a percentage of 'grade'
141 -- is attributed by a 'judge' to a given 'choice'.
142 -- This is what a 'Share' is used for.
143 type Share = Rational
144 -- FIXME: newtype checking >= 0
145
146 -- ** Type 'OpinionsByChoice'
147 -- | Profile of opinions of some 'Judges' about some 'choice's.
148 type OpinionsByChoice choice judge grade = HM.HashMap choice (Opinions judge grade)
149
150 opinionsByChoice ::
151 Eq choice =>
152 Hashable choice =>
153 [(choice, Opinions judge grade)] ->
154 OpinionsByChoice choice judge grade
155 opinionsByChoice = HM.fromList
156
157 -- * Type 'Merit'
158 -- | Profile of merit about a single 'choice'.
159 newtype Merit grade = Merit { unMerit :: Map grade Share }
160 deriving (Eq, Show)
161 instance Ord grade => Semigroup (Merit grade) where
162 Merit x <> Merit y = Merit (Map.unionWith (+) x y)
163 instance (Ord grade, Show grade) => IsList (Merit grade) where
164 type Item (Merit grade) = (grade, Share)
165 fromList = Merit . Map.fromListWithKey
166 (\g _x _y -> error $ "duplicate grade in merit: " <> show g)
167 toList (Merit cs) = toList cs
168
169 -- | @merit os@ returns the 'Merit' given by opinions 'os'
170 merit ::
171 Ord grade =>
172 Foldable opinions =>
173 opinions (Distribution grade) ->
174 Merit grade
175 merit = foldr insertOpinion (Merit Map.empty)
176 -- TODO: maybe count by making g passes
177 where
178 insertOpinion dist (Merit m) =
179 Merit $
180 Map.foldlWithKey
181 (\acc g s -> Map.insertWith (+) g s acc)
182 m dist
183
184 meritFromList ::
185 Ord grade =>
186 Foldable opinions =>
187 Functor opinions =>
188 opinions grade ->
189 Merit grade
190 meritFromList = merit . (singleGrade <$>)
191
192 -- | 'normalizeMerit m' multiply all 'Share's
193 -- by their least common denominator
194 -- to get integral 'Share's.
195 normalizeMerit :: Merit grade -> Merit grade
196 normalizeMerit (Merit ms) = Merit $ (lcm' *) <$> ms
197 where lcm' = foldr lcm 1 (denominator <$> ms) % 1
198
199 -- ** Type 'MeritByChoice'
200 -- | Profile of merit about some 'choice's.
201 newtype MeritByChoice choice grade
202 = MeritByChoice { unMeritByChoice :: HM.HashMap choice (Merit grade) }
203 deriving (Eq, Show)
204 instance (Eq choice, Hashable choice, Ord grade) => Semigroup (MeritByChoice choice grade) where
205 MeritByChoice x <> MeritByChoice y = MeritByChoice (HM.unionWith (<>) x y)
206 instance (Eq choice, Hashable choice, Show choice) => IsList (MeritByChoice choice grade) where
207 type Item (MeritByChoice choice grade) = (choice, Merit grade)
208 fromList = MeritByChoice . HM.fromListWith
209 (\_x _y -> error $ "duplicate choice in merits")
210 toList (MeritByChoice cs) = toList cs
211
212 -- | @meritByChoice gs cs os@ returns the 'Merit's
213 -- given to 'choice's 'cs' by opinions 'os' from the 'Judges' 'js' on the 'Grades' 'gs'.
214 meritByChoice ::
215 (Ord grade, Eq choice, Hashable choice) =>
216 OpinionsByChoice choice judge grade ->
217 MeritByChoice choice grade
218 meritByChoice os = MeritByChoice $ merit <$> os