module GHC.Data.Graph.Ops
( addNode
, delNode
, getNode
, lookupNode
, modNode
, size
, union
, addConflict
, delConflict
, addConflicts
, addCoalesce
, delCoalesce
, addExclusion
, addExclusions
, addPreference
, coalesceNodes
, coalesceGraph
, freezeNode
, freezeOneInGraph
, freezeAllInGraph
, scanGraph
, setColor
, validateGraph
, slurpNodeConflictCount
)
where
import GHC.Prelude
import GHC.Data.Graph.Base
import GHC.Utils.Outputable
import GHC.Types.Unique
import GHC.Types.Unique.Set
import GHC.Types.Unique.FM
import Data.List hiding (union)
import Data.Maybe
lookupNode
:: Uniquable k
=> Graph k cls color
-> k -> Maybe (Node k cls color)
lookupNode graph k
= lookupUFM (graphMap graph) k
getNode
:: Uniquable k
=> Graph k cls color
-> k -> Node k cls color
getNode graph k
= case lookupUFM (graphMap graph) k of
Just node -> node
Nothing -> panic "ColorOps.getNode: not found"
addNode :: Uniquable k
=> k -> Node k cls color
-> Graph k cls color -> Graph k cls color
addNode k node graph
= let
map_conflict =
nonDetStrictFoldUniqSet
(adjustUFM_C (\n -> n { nodeConflicts =
addOneToUniqSet (nodeConflicts n) k}))
(graphMap graph)
(nodeConflicts node)
map_coalesce =
nonDetStrictFoldUniqSet
(adjustUFM_C (\n -> n { nodeCoalesce =
addOneToUniqSet (nodeCoalesce n) k}))
map_conflict
(nodeCoalesce node)
in graph
{ graphMap = addToUFM map_coalesce k node}
delNode :: (Uniquable k)
=> k -> Graph k cls color -> Maybe (Graph k cls color)
delNode k graph
| Just node <- lookupNode graph k
= let
graph1 = foldl' (\g k1 -> let Just g' = delConflict k1 k g in g') graph
$ nonDetEltsUniqSet (nodeConflicts node)
graph2 = foldl' (\g k1 -> let Just g' = delCoalesce k1 k g in g') graph1
$ nonDetEltsUniqSet (nodeCoalesce node)
graph3 = graphMapModify (\fm -> delFromUFM fm k) graph2
in Just graph3
| otherwise
= Nothing
modNode :: Uniquable k
=> (Node k cls color -> Node k cls color)
-> k -> Graph k cls color -> Maybe (Graph k cls color)
modNode f k graph
= case lookupNode graph k of
Just Node{}
-> Just
$ graphMapModify
(\fm -> let Just node = lookupUFM fm k
node' = f node
in addToUFM fm k node')
graph
Nothing -> Nothing
size :: Graph k cls color -> Int
size graph
= sizeUFM $ graphMap graph
union :: Graph k cls color -> Graph k cls color -> Graph k cls color
union graph1 graph2
= Graph
{ graphMap = plusUFM (graphMap graph1) (graphMap graph2) }
addConflict
:: Uniquable k
=> (k, cls) -> (k, cls)
-> Graph k cls color -> Graph k cls color
addConflict (u1, c1) (u2, c2)
= let addNeighbor u c u'
= adjustWithDefaultUFM
(\node -> node { nodeConflicts = addOneToUniqSet (nodeConflicts node) u' })
(newNode u c) { nodeConflicts = unitUniqSet u' }
u
in graphMapModify
( addNeighbor u1 c1 u2
. addNeighbor u2 c2 u1)
delConflict
:: Uniquable k
=> k -> k
-> Graph k cls color -> Maybe (Graph k cls color)
delConflict k1 k2
= modNode
(\node -> node { nodeConflicts = delOneFromUniqSet (nodeConflicts node) k2 })
k1
addConflicts
:: Uniquable k
=> UniqSet k -> (k -> cls)
-> Graph k cls color -> Graph k cls color
addConflicts conflicts getClass
| (u : []) <- nonDetEltsUniqSet conflicts
= graphMapModify
$ adjustWithDefaultUFM
id
(newNode u (getClass u))
u
| otherwise
= graphMapModify
$ \fm -> foldl' (\g u -> addConflictSet1 u getClass conflicts g) fm
$ nonDetEltsUniqSet conflicts
addConflictSet1 :: Uniquable k
=> k -> (k -> cls) -> UniqSet k
-> UniqFM k (Node k cls color)
-> UniqFM k (Node k cls color)
addConflictSet1 u getClass set
= case delOneFromUniqSet set u of
set' -> adjustWithDefaultUFM
(\node -> node { nodeConflicts = unionUniqSets set' (nodeConflicts node) } )
(newNode u (getClass u)) { nodeConflicts = set' }
u
addExclusion
:: (Uniquable k, Uniquable color)
=> k -> (k -> cls) -> color
-> Graph k cls color -> Graph k cls color
addExclusion u getClass color
= graphMapModify
$ adjustWithDefaultUFM
(\node -> node { nodeExclusions = addOneToUniqSet (nodeExclusions node) color })
(newNode u (getClass u)) { nodeExclusions = unitUniqSet color }
u
addExclusions
:: (Uniquable k, Uniquable color)
=> k -> (k -> cls) -> [color]
-> Graph k cls color -> Graph k cls color
addExclusions u getClass colors graph
= foldr (addExclusion u getClass) graph colors
addCoalesce
:: Uniquable k
=> (k, cls) -> (k, cls)
-> Graph k cls color -> Graph k cls color
addCoalesce (u1, c1) (u2, c2)
= let addCoalesce u c u'
= adjustWithDefaultUFM
(\node -> node { nodeCoalesce = addOneToUniqSet (nodeCoalesce node) u' })
(newNode u c) { nodeCoalesce = unitUniqSet u' }
u
in graphMapModify
( addCoalesce u1 c1 u2
. addCoalesce u2 c2 u1)
delCoalesce
:: Uniquable k
=> k -> k
-> Graph k cls color -> Maybe (Graph k cls color)
delCoalesce k1 k2
= modNode (\node -> node { nodeCoalesce = delOneFromUniqSet (nodeCoalesce node) k2 })
k1
addPreference
:: Uniquable k
=> (k, cls) -> color
-> Graph k cls color -> Graph k cls color
addPreference (u, c) color
= graphMapModify
$ adjustWithDefaultUFM
(\node -> node { nodePreference = color : (nodePreference node) })
(newNode u c) { nodePreference = [color] }
u
coalesceGraph
:: (Uniquable k, Ord k, Eq cls, Outputable k)
=> Bool
-> Triv k cls color
-> Graph k cls color
-> ( Graph k cls color
, [(k, k)])
coalesceGraph aggressive triv graph
= coalesceGraph' aggressive triv graph []
coalesceGraph'
:: (Uniquable k, Ord k, Eq cls, Outputable k)
=> Bool
-> Triv k cls color
-> Graph k cls color
-> [(k, k)]
-> ( Graph k cls color
, [(k, k)])
coalesceGraph' aggressive triv graph kkPairsAcc
= let
cNodes = filter (\node -> not $ isEmptyUniqSet (nodeCoalesce node))
$ nonDetEltsUFM $ graphMap graph
cList = [ (nodeId node1, k2)
| node1 <- cNodes
, k2 <- nonDetEltsUniqSet $ nodeCoalesce node1 ]
(graph', mPairs)
= mapAccumL (coalesceNodes aggressive triv) graph cList
in case catMaybes mPairs of
[] -> (graph', reverse kkPairsAcc)
pairs -> coalesceGraph' aggressive triv graph' (reverse pairs ++ kkPairsAcc)
coalesceNodes
:: (Uniquable k, Ord k, Eq cls)
=> Bool
-> Triv k cls color
-> Graph k cls color
-> (k, k)
-> (Graph k cls color, Maybe (k, k))
coalesceNodes aggressive triv graph (k1, k2)
| (kMin, kMax) <- if k1 < k2
then (k1, k2)
else (k2, k1)
, Just nMin <- lookupNode graph kMin
, Just nMax <- lookupNode graph kMax
, not $ elementOfUniqSet kMin (nodeConflicts nMax)
, not $ elementOfUniqSet kMax (nodeConflicts nMin)
, nodeId nMin /= nodeId nMax
= coalesceNodes_merge aggressive triv graph kMin kMax nMin nMax
| otherwise
= (graph, Nothing)
coalesceNodes_merge
:: (Uniquable k, Eq cls)
=> Bool
-> Triv k cls color
-> Graph k cls color
-> k -> k
-> Node k cls color
-> Node k cls color
-> (Graph k cls color, Maybe (k, k))
coalesceNodes_merge aggressive triv graph kMin kMax nMin nMax
| nodeClass nMin /= nodeClass nMax
= error "GHC.Data.Graph.Ops.coalesceNodes: can't coalesce nodes of different classes."
| not (isNothing (nodeColor nMin) && isNothing (nodeColor nMax))
= error "GHC.Data.Graph.Ops.coalesceNodes: can't coalesce colored nodes."
| otherwise
= let
node =
Node { nodeId = kMin
, nodeClass = nodeClass nMin
, nodeColor = Nothing
, nodeConflicts
= (unionUniqSets (nodeConflicts nMin) (nodeConflicts nMax))
`delOneFromUniqSet` kMin
`delOneFromUniqSet` kMax
, nodeExclusions = unionUniqSets (nodeExclusions nMin) (nodeExclusions nMax)
, nodePreference = nodePreference nMin ++ nodePreference nMax
, nodeCoalesce
= (unionUniqSets (nodeCoalesce nMin) (nodeCoalesce nMax))
`delOneFromUniqSet` kMin
`delOneFromUniqSet` kMax
}
in coalesceNodes_check aggressive triv graph kMin kMax node
coalesceNodes_check
:: Uniquable k
=> Bool
-> Triv k cls color
-> Graph k cls color
-> k -> k
-> Node k cls color
-> (Graph k cls color, Maybe (k, k))
coalesceNodes_check aggressive triv graph kMin kMax node
| not aggressive
, not $ triv (nodeClass node) (nodeConflicts node) (nodeExclusions node)
= (graph, Nothing)
| otherwise
= let
Just graph1 = delNode kMax graph
Just graph2 = delNode kMin graph1
graph3 = addNode kMin node graph2
in (graph3, Just (kMax, kMin))
freezeNode
:: Uniquable k
=> k
-> Graph k cls color
-> Graph k cls color
freezeNode k
= graphMapModify
$ \fm ->
let
Just node = lookupUFM fm k
node' = node
{ nodeCoalesce = emptyUniqSet }
fm1 = addToUFM fm k node'
freezeEdge k node
= if elementOfUniqSet k (nodeCoalesce node)
then node { nodeCoalesce = delOneFromUniqSet (nodeCoalesce node) k }
else node
fm2 = nonDetStrictFoldUniqSet (adjustUFM_C (freezeEdge k)) fm1
$ nodeCoalesce node
in fm2
freezeOneInGraph
:: (Uniquable k)
=> Graph k cls color
-> ( Graph k cls color
, Bool )
freezeOneInGraph graph
= let compareNodeDegree n1 n2
= compare (sizeUniqSet $ nodeConflicts n1) (sizeUniqSet $ nodeConflicts n2)
candidates
= sortBy compareNodeDegree
$ take 5
$ scanGraph (\node -> not $ isEmptyUniqSet (nodeCoalesce node)) graph
in case candidates of
[] -> (graph, False)
(n : _)
-> ( freezeNode (nodeId n) graph
, True)
freezeAllInGraph
:: (Uniquable k)
=> Graph k cls color
-> Graph k cls color
freezeAllInGraph graph
= foldr freezeNode graph
$ map nodeId
$ nonDetEltsUFM $ graphMap graph
scanGraph
:: (Node k cls color -> Bool)
-> Graph k cls color
-> [Node k cls color]
scanGraph match graph
= filter match $ nonDetEltsUFM $ graphMap graph
validateGraph
:: (Uniquable k, Outputable k, Eq color)
=> SDoc
-> Bool
-> Graph k cls color
-> Graph k cls color
validateGraph doc isColored graph
| edges <- unionManyUniqSets
( (map nodeConflicts $ nonDetEltsUFM $ graphMap graph)
++ (map nodeCoalesce $ nonDetEltsUFM $ graphMap graph))
, nodes <- mkUniqSet $ map nodeId $ nonDetEltsUFM $ graphMap graph
, badEdges <- minusUniqSet edges nodes
, not $ isEmptyUniqSet badEdges
= pprPanic "GHC.Data.Graph.Ops.validateGraph"
( text "Graph has edges that point to non-existent nodes"
$$ text " bad edges: " <> pprUFM (getUniqSet badEdges) (vcat . map ppr)
$$ doc )
| badNodes <- filter (not . (checkNode graph))
$ nonDetEltsUFM $ graphMap graph
, not $ null badNodes
= pprPanic "GHC.Data.Graph.Ops.validateGraph"
( text "Node has same color as one of it's conflicts"
$$ text " bad nodes: " <> hcat (map (ppr . nodeId) badNodes)
$$ doc)
| isColored
, badNodes <- filter (\n -> isNothing $ nodeColor n)
$ nonDetEltsUFM $ graphMap graph
, not $ null badNodes
= pprPanic "GHC.Data.Graph.Ops.validateGraph"
( text "Supposably colored graph has uncolored nodes."
$$ text " uncolored nodes: " <> hcat (map (ppr . nodeId) badNodes)
$$ doc )
| otherwise
= graph
checkNode
:: (Uniquable k, Eq color)
=> Graph k cls color
-> Node k cls color
-> Bool
checkNode graph node
| Just color <- nodeColor node
, Just neighbors <- sequence $ map (lookupNode graph)
$ nonDetEltsUniqSet $ nodeConflicts node
, neighbourColors <- catMaybes $ map nodeColor neighbors
, elem color neighbourColors
= False
| otherwise
= True
slurpNodeConflictCount
:: Graph k cls color
-> UniqFM Int (Int, Int)
slurpNodeConflictCount graph
= addListToUFM_C
(\(c1, n1) (_, n2) -> (c1, n1 + n2))
emptyUFM
$ map (\node
-> let count = sizeUniqSet $ nodeConflicts node
in (count, (count, 1)))
$ nonDetEltsUFM
$ graphMap graph
setColor
:: Uniquable k
=> k -> color
-> Graph k cls color -> Graph k cls color
setColor u color
= graphMapModify
$ adjustUFM_C
(\n -> n { nodeColor = Just color })
u
adjustWithDefaultUFM
:: Uniquable k
=> (a -> a) -> a -> k
-> UniqFM k a -> UniqFM k a
adjustWithDefaultUFM f def k map
= addToUFM_C
(\old _ -> f old)
map
k def
adjustUFM_C
:: Uniquable k
=> (a -> a)
-> k -> UniqFM k a -> UniqFM k a
adjustUFM_C f k map
= case lookupUFM map k of
Nothing -> map
Just a -> addToUFM map k (f a)