Implement solution in Haskell as depth-first-search
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{-
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Keys and Rooms
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Instructions:
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There are n rooms labelled from 0 to n - 1 and all the rooms are locked except for room 0. Your goal is to visit all the rooms. However, you cannot enter a locked room without having its key.
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When you visit a room, you may find a set of distinct keys in it. Each key has a number on it, denoting which room it unlocks, and you can take all of them with you to unlock the other rooms.
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Given an array rooms where rooms[i] is the set of keys that you can obtain if you visited room i, return true if you can visit all the rooms, or false otherwise.
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Constraints:
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n == rooms.length
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2 <= n <= 1000
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0 <= rooms[i].length <= 1000
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1 <= sum(rooms[i].length) <= 3000
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0 <= rooms[i][j] < n
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All the values of rooms[i] are unique.
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-}
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module Main where
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import Data.List (genericIndex, genericLength)
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input1Rooms :: [[Integer]]
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input1Rooms = [[1],[2],[3],[]]
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input2Rooms :: [[Integer]]
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input2Rooms = [[1,3],[3,0,1],[2],[0]]
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main :: IO ()
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main = do
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print $ "Example 1 is: " <> show (canVisitAll input1Rooms)
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print $ "Example 2 is: " <> show (canVisitAll input2Rooms)
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canVisitAll :: [[Integer]] -> Bool
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canVisitAll rooms = [0..l] == dfs rooms 0 []
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where
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l = l' rooms - 1
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dfs :: [[Integer]] -> Integer -> [Integer] -> [Integer]
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dfs graph current visited =
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foldl (\visited next ->
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if next `elem` visited
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then visited
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else dfs graph next visited)
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(visited ++ [current])
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(graph !!! current)
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l' :: [a] -> Integer
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l' = genericLength
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(!!!) :: [a] -> Integer -> a
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(!!!) = genericIndex
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