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1 {-|
2 Module : Gargantext.Core.Viz.Graph.Tools
3 Description : Tools to build Graph
4 Copyright : (c) CNRS, 2017-Present
5 License : AGPL + CECILL v3
6 Maintainer : team@gargantext.org
7 Stability : experimental
8 Portability : POSIX
9
10 -}
11
12
13 module Gargantext.Core.Viz.Graph.Tools
14 where
15
16 import Debug.Trace (trace)
17 import Data.Graph.Clustering.Louvain.Utils (LouvainNode(..))
18 -- import Data.Graph.Clustering.Louvain (hLouvain, {-iLouvainMap-})
19 import Data.Graph.Clustering.Louvain.CplusPlus (cLouvain)
20 import Data.Map (Map)
21 import qualified Data.Set as Set
22 import Data.Text (Text)
23 import Gargantext.Prelude
24 import Gargantext.Core.Statistics
25 import Gargantext.Core.Viz.Graph
26 import Gargantext.Core.Viz.Graph.Bridgeness (bridgeness)
27 import Gargantext.Core.Viz.Graph.Distances (Distance(..), measure)
28 import Gargantext.Core.Viz.Graph.Index (createIndices, toIndex, map2mat, mat2map, Index)
29 import Gargantext.Core.Viz.Graph.IGraph (mkGraphUfromEdges)
30 import Gargantext.Core.Viz.Graph.Proxemy (confluence)
31 import GHC.Float (sin, cos)
32 import qualified IGraph as Igraph
33 import IGraph.Random -- (Gen(..))
34 import qualified IGraph.Algorithms.Layout as Layout
35 import qualified Data.Vector.Storable as Vec
36 import qualified Data.Map as Map
37 import qualified Data.List as List
38
39 type Threshold = Double
40
41
42 cooc2graph' :: Ord t => Distance
43 -> Double
44 -> Map (t, t) Int
45 -> Map (Index, Index) Double
46 cooc2graph' distance threshold myCooc = distanceMap
47 where
48 (ti, _) = createIndices myCooc
49 myCooc' = toIndex ti myCooc
50 matCooc = map2mat 0 (Map.size ti) $ Map.filter (> 1) myCooc'
51 distanceMat = measure distance matCooc
52 distanceMap = Map.filter (> threshold) $ mat2map distanceMat
53
54
55 cooc2graph :: Distance
56 -> Threshold
57 -> (Map (Text, Text) Int)
58 -> IO Graph
59 cooc2graph distance threshold myCooc = do
60 printDebug "cooc2graph" distance
61 let
62 (ti, _) = createIndices myCooc
63 myCooc' = toIndex ti myCooc
64 matCooc = map2mat 0 (Map.size ti)
65 $ Map.filterWithKey (\(a,b) _ -> a /= b)
66 $ Map.filter (> 1) myCooc'
67 distanceMat = measure distance matCooc
68 distanceMap = Map.filter (> threshold) $ mat2map distanceMat
69
70 nodesApprox :: Int
71 nodesApprox = n'
72 where
73 (as, bs) = List.unzip $ Map.keys distanceMap
74 n' = Set.size $ Set.fromList $ as <> bs
75 ClustersParams rivers level = clustersParams nodesApprox
76
77
78 partitions <- if (Map.size distanceMap > 0)
79 -- then iLouvainMap 100 10 distanceMap
80 -- then hLouvain distanceMap
81 then cLouvain level distanceMap
82 else panic "Text.Flow: DistanceMap is empty"
83
84 let
85 -- bridgeness' = distanceMap
86 bridgeness' = trace ("Rivers: " <> show rivers)
87 $ bridgeness rivers partitions distanceMap
88 confluence' = confluence (Map.keys bridgeness') 3 True False
89
90 pure $ data2graph (Map.toList ti) myCooc' bridgeness' confluence' partitions
91
92
93
94 data ClustersParams = ClustersParams { bridgness :: Double
95 , louvain :: Text
96 } deriving (Show)
97
98 clustersParams :: Int -> ClustersParams
99 clustersParams x = ClustersParams (fromIntegral x) "0.00000001" -- y
100 {- where
101 y | x < 100 = "0.000001"
102 | x < 350 = "0.000001"
103 | x < 500 = "0.000001"
104 | x < 1000 = "0.000001"
105 | otherwise = "1"
106 -}
107
108 ----------------------------------------------------------
109 -- | From data to Graph
110 data2graph :: [(Text, Int)]
111 -> Map (Int, Int) Int
112 -> Map (Int, Int) Double
113 -> Map (Int, Int) Double
114 -> [LouvainNode]
115 -> Graph
116 data2graph labels coocs bridge conf partitions = Graph nodes edges Nothing
117 where
118
119 community_id_by_node_id = Map.fromList [ (n, c) | LouvainNode n c <- partitions ]
120
121 nodes = map (setCoord ForceAtlas labels bridge)
122 [ (n, Node { node_size = maybe 0 identity (Map.lookup (n,n) coocs)
123 , node_type = Terms -- or Unknown
124 , node_id = cs (show n)
125 , node_label = l
126 , node_x_coord = 0
127 , node_y_coord = 0
128 , node_attributes =
129 Attributes { clust_default = maybe 0 identity
130 (Map.lookup n community_id_by_node_id) } }
131 )
132 | (l, n) <- labels
133 , Set.member n $ Set.fromList
134 $ List.concat
135 $ map (\((s,t),d) -> if d > 0 && s /=t then [s,t] else [])
136 $ Map.toList bridge
137 ]
138
139 edges = [ Edge { edge_source = cs (show s)
140 , edge_target = cs (show t)
141 , edge_weight = d
142 , edge_confluence = maybe 0 identity $ Map.lookup (s,t) conf
143 -- , edge_confluence = maybe (panic "E: data2graph edges") identity $ Map.lookup (s,t) conf
144 , edge_id = cs (show i) }
145 | (i, ((s,t), d)) <- zip ([0..]::[Integer]) (Map.toList bridge), s /= t, d > 0
146 ]
147
148
149 ------------------------------------------------------------------------
150
151 data Layout = KamadaKawai | ACP | ForceAtlas
152
153
154 setCoord' :: (Int -> (Double, Double)) -> (Int, Node) -> Node
155 setCoord' f (i,n) = n { node_x_coord = x, node_y_coord = y }
156 where
157 (x,y) = f i
158
159
160 -- | ACP
161 setCoord :: Ord a => Layout -> [(a, Int)] -> Map (Int, Int) Double -> (Int, Node) -> Node
162 setCoord l labels m (n,node) = node { node_x_coord = x
163 , node_y_coord = y
164 }
165 where
166 (x,y) = getCoord l labels m n
167
168
169 getCoord :: Ord a
170 => Layout
171 -> [(a, Int)]
172 -> Map (Int, Int) Double
173 -> Int
174 -> (Double, Double)
175 getCoord KamadaKawai _ _m _n = undefined -- layout m n
176
177 getCoord ForceAtlas _ _ n = (sin d, cos d)
178 where
179 d = fromIntegral n
180
181 getCoord ACP labels m n = to2d $ maybe (panic "Graph.Tools no coordinate") identity
182 $ Map.lookup n
183 $ pcaReduceTo (Dimension 2)
184 $ mapArray labels m
185 where
186 to2d :: Vec.Vector Double -> (Double, Double)
187 to2d v = (x',y')
188 where
189 ds = take 2 $ Vec.toList v
190 x' = head' "to2d" ds
191 y' = last' "to2d" ds
192
193 mapArray :: Ord a => [(a, Int)] -> Map (Int, Int) Double -> Map Int (Vec.Vector Double)
194 mapArray items m' = Map.fromList [ toVec n' ns m' | n' <- ns ]
195 where
196 ns = map snd items
197
198 toVec :: Int -> [Int] -> Map (Int,Int) Double -> (Int, Vec.Vector Double)
199 toVec n' ns' m' = (n', Vec.fromList $ map (\n'' -> maybe 0 identity $ Map.lookup (n',n'') m') ns')
200 ------------------------------------------------------------------------
201
202 -- | KamadaKawai Layout
203 -- TODO TEST: check labels, nodeId and coordinates
204 layout :: Map (Int, Int) Double -> Int -> Gen -> (Double, Double)
205 layout m n gen = maybe (panic "") identity $ Map.lookup n $ coord
206 where
207 coord :: (Map Int (Double,Double))
208 coord = Map.fromList $ List.zip (Igraph.nodes g) $ (Layout.layout g p gen)
209 --p = Layout.defaultLGL
210 p = Layout.kamadaKawai
211 g = mkGraphUfromEdges $ map fst $ List.filter (\e -> snd e > 0) $ Map.toList m
212