working dijkstra
nihonium
2 years ago
parent
c7f29e2154
commit
74f5dbb620
@ -0,0 +1,65 @@
|
||||
module LeastReachableCity where
|
||||
|
||||
import Types
|
||||
import qualified Data.Map as Map
|
||||
import qualified Data.Set as Set
|
||||
|
||||
infinity :: Len
|
||||
infinity = 999999 :: Len
|
||||
|
||||
dijkstra :: Point -> Graph -> Distances
|
||||
dijkstra start graph = dijkstra' start graph visited_init to_visit_init distances_init where
|
||||
-- Helper
|
||||
dijkstra' :: Point -> Graph -> Vertices -> Vertices -> Distances -> Distances
|
||||
dijkstra' start graph visited to_visit distances = if Set.null to_visit
|
||||
then
|
||||
distances
|
||||
else
|
||||
dijkstra'
|
||||
(findMinNotVisited to_visit distances)
|
||||
graph
|
||||
(Set.insert start visited)
|
||||
(Set.union (Set.delete start to_visit) $ findNotVisitedNeighbours graph visited start)
|
||||
(updateDistances graph start distances)
|
||||
-- Other
|
||||
to_visit_init = (Set.insert start $ Set.empty :: Set.Set Point)
|
||||
distances_init = (infinityDistances start $ countVertices graph)
|
||||
visited_init = (Set.empty :: Set.Set Point)
|
||||
|
||||
updateDistances :: Graph -> Point -> Distances -> Distances
|
||||
updateDistances graph point distances = snd $ Map.foldrWithKey decideMin ((point, Map.findWithDefault (-1) point distances), Map.empty :: Distances) distances where
|
||||
decideMin :: Point -> Len -> ((Point, Len), Distances) -> ((Point, Len), Distances)
|
||||
decideMin p' l' ((p, l), dist) = if findDistance graph p p' + l < l' then
|
||||
((p, l), Map.insert p' (l + findDistance graph p p') dist) else
|
||||
((p, l), Map.insert p' l' dist)
|
||||
|
||||
findDistance :: Graph -> Point -> Point -> Len
|
||||
findDistance ((Node (a, b, len)) : graph) p p' = if ((a == p) && (b == p') || (b == p) && (a == p')) then len else findDistance graph p p'
|
||||
findDistance _ _ _ = infinity
|
||||
|
||||
findMinNotVisited :: Vertices -> Distances -> Point
|
||||
findMinNotVisited to_visit distances = fst $ Set.foldl (\(p, l) p' -> case Map.lookup p' distances of
|
||||
(Just l') -> if l' < l then
|
||||
(p', l')
|
||||
else (p,l))
|
||||
(-1, maxBound) to_visit
|
||||
|
||||
infinityDistances :: Point -> Int -> Distances
|
||||
infinityDistances point n = Map.fromList $ (point, 0) : [(x, infinity) | x <- [1..n], x /= point]
|
||||
|
||||
countVertices :: Graph -> Int
|
||||
countVertices graph = snd $ foldl f (Set.empty :: Set.Set Point, 0) graph where
|
||||
f :: (Vertices, Int) -> Node -> (Vertices, Int)
|
||||
f (vertices, n) (Node (a, b, _)) =
|
||||
let aIsNotMember = not $ Set.member a vertices
|
||||
bIsNotMember = not $ Set.member b vertices in if (aIsNotMember && bIsNotMember) then (Set.insert a $ Set.insert b vertices, n + 2)
|
||||
else if (aIsNotMember) then (Set.insert a vertices, n + 1)
|
||||
else if (bIsNotMember) then (Set.insert b vertices, n + 1)
|
||||
else (vertices, n)
|
||||
|
||||
findNotVisitedNeighbours :: Graph -> Vertices -> Point -> Vertices
|
||||
findNotVisitedNeighbours graph visited point = foldl f (Set.empty :: Vertices) graph where
|
||||
f :: Vertices -> Node -> Vertices
|
||||
f vertices (Node (a, b, _)) = if ((a == point) && (not $ Set.member b visited)) then Set.insert b vertices
|
||||
else if ((b == point) && (not $ Set.member a visited)) then Set.insert a vertices
|
||||
else vertices
|
||||
@ -0,0 +1,13 @@
|
||||
module Types where
|
||||
|
||||
import qualified Data.Map as Map
|
||||
import qualified Data.Set as Set
|
||||
|
||||
type Point = Int
|
||||
type Len = Int
|
||||
|
||||
data Node = Node (Point, Point, Len) deriving Show
|
||||
type Graph = [Node]
|
||||
|
||||
type Distances = Map.Map Point Len
|
||||
type Vertices = Set.Set Point
|
||||
@ -0,0 +1,51 @@
|
||||
module Main where
|
||||
|
||||
import System.IO
|
||||
import System.Environment
|
||||
import System.Directory
|
||||
import qualified Data.Map as Map
|
||||
import qualified Data.Set as Set
|
||||
|
||||
import LeastReachableCity
|
||||
import Types
|
||||
|
||||
{- format of input file is:
|
||||
- mileage
|
||||
- from to len
|
||||
- from to len
|
||||
- ...
|
||||
- where "from" and "to" are numbers of graph vertices, "len" is distance between them
|
||||
- -}
|
||||
main :: IO()
|
||||
main = do
|
||||
argv <- getArgs
|
||||
|
||||
filename <- if not $ null argv then do
|
||||
putStrLn $ "Trying to read file " ++ "\"" ++ head argv ++ "\""
|
||||
head <$> getArgs
|
||||
else do
|
||||
error "Not enough arguments,\nusage: main [filename]"
|
||||
|
||||
content <- readFile filename
|
||||
let mileage = read $ head $ lines content :: Len
|
||||
|
||||
let graph = readGraph $ tail content
|
||||
--let dist = findNeighbours 1 graph
|
||||
--print $ findNotVisitedNeighbours graph (Set.fromList [1,3]) 2
|
||||
print $ dijkstra 1 graph
|
||||
--print $ updateDistances graph 2 (Map.fromList [(1, 100), (2, 1), (3, 200)])
|
||||
--print $ infinityDistances 1 4
|
||||
--print $ findMinNotVisited (Set.fromList [1, 2, 3] :: Set.Set Int) (Map.fromList [(1, 123), (2, 114), (3, 115)])
|
||||
|
||||
{- For parsing graph using content of the file -}
|
||||
parseStrNode :: [String] -> Node
|
||||
parseStrNode [a, b, c] = Node (p a, p b, l c) where
|
||||
p x = read x :: Point
|
||||
l x = read x :: Len
|
||||
|
||||
readGraph :: String -> Graph
|
||||
readGraph content = parse lst where
|
||||
parse (x:xs) = if length ws == 3 then (parseStrNode ws) : (parse xs) else parse xs where
|
||||
ws = words x
|
||||
parse _ = []
|
||||
lst = lines content
|
||||
Reference in New Issue