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DAG tree view model builder, based on (V, E) and user choices

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fr33domlover 2016-08-03 23:09:42 +00:00
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src/Data/Graph/DirectedAcyclic/View/Tree.hs Normal file
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{- This file is part of Vervis.
-
- Written in 2016 by fr33domlover <fr33domlover@riseup.net>.
-
- Copying is an act of love. Please copy, reuse and share.
-
- The author(s) have dedicated all copyright and related and neighboring
- rights to this software to the public domain worldwide. This software is
- distributed without any warranty.
-
- You should have received a copy of the CC0 Public Domain Dedication along
- with this software. If not, see
- <http://creativecommons.org/publicdomain/zero/1.0/>.
-}
-- | An interactive tree view model for acyclic directed graphs.
module Data.Graph.DirectedAcyclic.View.Tree
( DagViewTree (..)
, dagViewTree
)
where
import Prelude
import Control.Arrow ((***))
import Data.Function (on)
import Data.HashMap.Lazy (HashMap)
import Data.HashSet (HashSet)
import Data.List (groupBy, sortOn)
import Data.Monoid (Endo (..))
import qualified Data.HashMap.Lazy as M
import qualified Data.HashSet as S
type Graph a b = HashMap Int (a, [(Int, b)])
data DagViewTree a b = FullNode a [DagViewTree a b] | LinkNode b
-- | Update the map according to a choice of a full parent for a given child.
-- Also specifies whether the choice was sucessfully applied.
chooseParent
:: Int
-> Int
-> HashMap Int [(Int, Bool)]
-> Maybe (HashMap Int [(Int, Bool)])
chooseParent c p h =
case M.lookup c h of
Nothing -> Nothing
Just l ->
case break ((== p) . fst) l of
(_, []) -> Nothing
(before, (_ : after)) ->
let clear = map $ id *** const False
l' = clear before ++ (p, True) : clear after
in Just $ M.insert c l' h
-- | Like 'group' but specific to pairs, and collects the 'snd' of items with
-- the same 'fst' into lists.
--
-- >>> groupSnd [(1,1), (1,2), (3,3), (3,4), (3,5), (6,6)]
-- [(1, [1,2]), (3, [3,4,5]), (6, [6])]
groupSnd :: Eq a => [(a, b)] -> [(a, [b])]
groupSnd =
let collect [] = error "groupSnd: groupBy returned null element"
collect ((x, y) : l) = (x, y : map snd l)
in map collect . groupBy ((==) `on` fst)
-- | Pair the first item with 'True' and the rest with 'False'.
markFst :: [a] -> [(a, Bool)]
markFst [] = []
markFst (x:xs) = (x, True) : map (, False) xs
labeledDeps :: HashMap Int [(Int, b)] -> [(Int, Int, b)]
labeledDeps =
let mk c (p, full) = (c, p, full)
in concatMap (\ (c, ps) -> map (mk c) ps) . M.toList
edgeView
:: HashMap Int Int
-- ^ Full parent user choices
-> (Int, Int, Bool)
-- ^ Child, parent, and whether the parent is full
-> Maybe (HashMap Int Int)
-- ^ New edge label. For a full edge, 'Nothing'. For a link edge, 'Just' an
-- updated choice map that chooses this edge as the new full edge for the
-- child.
edgeView _ (_, _, False) = Nothing
edgeView choices (child, parent, True) = Just $ M.insert child parent choices
reverseEdge :: (Int, Int, a) -> (Int, Int, a)
reverseEdge (x, y, l) = (y, x, l)
-- | Given labeled nodes and labeled edges, prepare a hashmap.
mkGraph :: HashMap Int a -> [(Int, Int, b)] -> Graph a b
mkGraph nodeMap edges =
let pair23 (x, y, z) = (x, (y, z))
edgeMap = M.fromList $ groupSnd $ sortOn fst $ map pair23 edges
addEdges n nl = (nl, M.lookupDefault [] n edgeMap)
in M.mapWithKey addEdges nodeMap
-- | Turn 'HashMap' into a 'HashSet' of its keys.
keySet :: HashMap k v -> HashSet k
keySet = S.fromMap . M.map (const ())
buildTree :: [(Int, Maybe b)] -> Graph a (Maybe b) -> [DagViewTree a (a, b)]
buildTree nodes graph = go nodes
where
go [] = []
go ((n, full) : ps) =
case M.lookup n graph of
Nothing -> go ps
Just c ->
case full of
Nothing ->
let ts = go $ snd c
ts' = go ps
in FullNode (fst c) ts : ts'
Just info ->
let ts = go ps
in LinkNode (fst c, info) : ts
dagViewTree
:: [(Int, a)]
-- ^ Nodes: Numbers and details
-> [(Int, Int)]
-- ^ Edges: Child-parent pairs
-> [(Int, Int)]
-- ^ Full parent choices as child-parent pairs. This is whatever user input
-- has been received, even if it includes duplicates or nonexistent node
-- numbers. So just pass the user input directly here.
-> [DagViewTree a (a, HashMap Int Int)]
dagViewTree nodes deps choices =
let choose ns@(c, p) acc@(h, l) =
case chooseParent c p h of
Nothing -> acc
Just h' -> (h', ns : l)
-- Function that applies all user choices
updateChoices = mconcat $ map (Endo . choose) choices
-- Dependency map with default full parents
dmapDef = M.fromList $ map (id *** markFst) $ groupSnd deps
-- Dep map with user choices applied, and list of choices that were
-- actually valid and successfully applied
(dmapUpd, params) = appEndo updateChoices (dmapDef, [])
-- Turn dep map back into a list
depList = labeledDeps dmapUpd
-- Turn valid choice list into a map
choiceMap = M.fromList params
-- Attach info to each link dep required for turning a full dep, and
-- reverse the deps to get actual DAG edges in parent-child order
attachEdgeView m d@(c, p, _) = (c, p, edgeView m d)
edgeList = map (reverseEdge . attachEdgeView choiceMap) depList
-- Turn node list into a map
nodeMap = M.fromList nodes
-- Attach labeled children to each node using the edge list
graph = mkGraph nodeMap edgeList
-- The tree's top level contains the nodes which have no parents
orphanSet = keySet nodeMap `S.difference` keySet dmapDef
orphanList = map (, Nothing) $ S.toList orphanSet
in buildTree orphanList graph

1
vervis.cabal
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@ -53,6 +53,7 @@ library
Data.EventTime.Local Data.EventTime.Local
Data.Functor.Local Data.Functor.Local
Data.Git.Local Data.Git.Local
Data.Graph.DirectedAcyclic.View.Tree
Data.Graph.Inductive.Query.Cycle Data.Graph.Inductive.Query.Cycle
Data.Graph.Inductive.Query.Layer Data.Graph.Inductive.Query.Layer
Data.Graph.Inductive.Query.Path Data.Graph.Inductive.Query.Path