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@ -1,15 +1,25 @@
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module LeastReachableCity where
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module LeastReachableCity(dijkstra, leastReachableCity) where
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import Types
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import qualified Data.Map as Map
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import qualified Data.Set as Set
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-- Well, it's just a magic number, because it's too much hassle to implement type like "Len val | Infinity"
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-- TODO: get graph radius and use this number as infinity
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infinity :: Len
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infinity = 999999 :: Len
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leastReachableCity :: Graph -> Len -> (Point, Int)
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leastReachableCity graph mileage = foldl (\(p, n) (p', n') ->
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if n' < n then (p',n')
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else (p, n))
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(-1, infinity) [(city, countReachableCities $ dijkstra city graph) | city <- Set.toList $ fst $ countVertices graph] where
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countReachableCities :: Distances -> Int
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countReachableCities distances = Map.foldl (\n val -> if (val <= mileage) && (val /= 0) then n + 1 else n) 0 distances
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dijkstra :: Point -> Graph -> Distances
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dijkstra start graph = dijkstra' start graph visited_init to_visit_init distances_init where
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-- Helper
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-- Helper (so we don' need to call dijkstra initializing empty visited, to_visit etc)
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dijkstra' :: Point -> Graph -> Vertices -> Vertices -> Distances -> Distances
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dijkstra' start graph visited to_visit distances = if Set.null to_visit
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then
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@ -22,9 +32,9 @@ dijkstra start graph = dijkstra' start graph visited_init to_visit_init distance
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(Set.union (Set.delete start to_visit) $ findNotVisitedNeighbours graph visited start)
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(updateDistances graph start distances)
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-- Other
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to_visit_init = (Set.insert start $ Set.empty :: Set.Set Point)
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distances_init = (infinityDistances start $ countVertices graph)
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visited_init = (Set.empty :: Set.Set Point)
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to_visit_init = (Set.insert start $ Set.empty :: Vertices)
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distances_init = (infinityDistances start $ snd $ countVertices graph)
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visited_init = (Set.empty :: Vertices)
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updateDistances :: Graph -> Point -> Distances -> Distances
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updateDistances graph point distances = snd $ Map.foldrWithKey decideMin ((point, Map.findWithDefault (-1) point distances), Map.empty :: Distances) distances where
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@ -42,13 +52,13 @@ findMinNotVisited to_visit distances = fst $ Set.foldl (\(p, l) p' -> case Map.l
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(Just l') -> if l' < l then
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(p', l')
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else (p,l))
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(-1, maxBound) to_visit
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(-1, infinity) to_visit
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infinityDistances :: Point -> Int -> Distances
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infinityDistances point n = Map.fromList $ (point, 0) : [(x, infinity) | x <- [1..n], x /= point]
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countVertices :: Graph -> Int
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countVertices graph = snd $ foldl f (Set.empty :: Set.Set Point, 0) graph where
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countVertices :: Graph -> (Vertices, Int)
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countVertices graph = foldl f (Set.empty :: Vertices, 0) graph where
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f :: (Vertices, Int) -> Node -> (Vertices, Int)
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f (vertices, n) (Node (a, b, _)) =
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let aIsNotMember = not $ Set.member a vertices
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nihonium
2 years ago