fix segfault on HH-gear being 0 (e.g. after drowning) in cursor/target selection mode, thanks "ivze" for the heads-up!
module RoomsAndClients(
RoomIndex(),
ClientIndex(),
MRoomsAndClients(),
IRoomsAndClients(),
newRoomsAndClients,
addRoom,
addClient,
removeRoom,
removeClient,
modifyRoom,
modifyClient,
lobbyId,
moveClientToLobby,
moveClientToRoom,
clientRoom,
clientRoomM,
client,
room,
client'sM,
clientsM,
roomClientsM,
withRoomsAndClients,
allRooms,
allClients,
clientRoom,
showRooms,
roomClients
) where
import Store
import Control.Monad
data Room r = Room {
roomClients' :: [ClientIndex],
room' :: r
}
data Client c = Client {
clientRoom' :: RoomIndex,
client' :: c
}
newtype RoomIndex = RoomIndex ElemIndex
deriving (Eq)
newtype ClientIndex = ClientIndex ElemIndex
deriving (Eq, Show, Read, Ord)
instance Show RoomIndex where
show (RoomIndex i) = 'r' : show i
unRoomIndex :: RoomIndex -> ElemIndex
unRoomIndex (RoomIndex r) = r
unClientIndex :: ClientIndex -> ElemIndex
unClientIndex (ClientIndex c) = c
newtype MRoomsAndClients r c = MRoomsAndClients (MStore (Room r), MStore (Client c))
newtype IRoomsAndClients r c = IRoomsAndClients (IStore (Room r), IStore (Client c))
lobbyId :: RoomIndex
lobbyId = RoomIndex firstIndex
newRoomsAndClients :: r -> IO (MRoomsAndClients r c)
newRoomsAndClients r = do
rooms <- newStore
clients <- newStore
let rnc = MRoomsAndClients (rooms, clients)
ri <- addRoom rnc r
when (ri /= lobbyId) $ error "Empty struct inserts not at firstIndex index"
return rnc
roomAddClient :: ClientIndex -> Room r -> Room r
roomAddClient cl room = room{roomClients' = cl : roomClients' room}
roomRemoveClient :: ClientIndex -> Room r -> Room r
roomRemoveClient cl room = room{roomClients' = filter (/= cl) $ roomClients' room}
addRoom :: MRoomsAndClients r c -> r -> IO RoomIndex
addRoom (MRoomsAndClients (rooms, _)) room = do
i <- addElem rooms (Room [] room)
return $ RoomIndex i
addClient :: MRoomsAndClients r c -> c -> IO ClientIndex
addClient (MRoomsAndClients (rooms, clients)) client = do
i <- addElem clients (Client lobbyId client)
modifyElem rooms (roomAddClient (ClientIndex i)) (unRoomIndex lobbyId)
return $ ClientIndex i
removeRoom :: MRoomsAndClients r c -> RoomIndex -> IO ()
removeRoom rnc@(MRoomsAndClients (rooms, _)) room@(RoomIndex ri)
| room == lobbyId = error "Cannot delete lobby"
| otherwise = do
clIds <- liftM roomClients' $ readElem rooms ri
forM_ clIds (moveClientToLobby rnc)
removeElem rooms ri
removeClient :: MRoomsAndClients r c -> ClientIndex -> IO ()
removeClient (MRoomsAndClients (rooms, clients)) cl@(ClientIndex ci) = do
RoomIndex ri <- liftM clientRoom' $ readElem clients ci
modifyElem rooms (roomRemoveClient cl) ri
removeElem clients ci
modifyRoom :: MRoomsAndClients r c -> (r -> r) -> RoomIndex -> IO ()
modifyRoom (MRoomsAndClients (rooms, _)) f (RoomIndex ri) = modifyElem rooms (\r -> r{room' = f $ room' r}) ri
modifyClient :: MRoomsAndClients r c -> (c -> c) -> ClientIndex -> IO ()
modifyClient (MRoomsAndClients (_, clients)) f (ClientIndex ci) = modifyElem clients (\c -> c{client' = f $ client' c}) ci
moveClientInRooms :: MRoomsAndClients r c -> RoomIndex -> RoomIndex -> ClientIndex -> IO ()
moveClientInRooms (MRoomsAndClients (rooms, clients)) (RoomIndex riFrom) rt@(RoomIndex riTo) cl@(ClientIndex ci) = do
modifyElem rooms (roomRemoveClient cl) riFrom
modifyElem rooms (roomAddClient cl) riTo
modifyElem clients (\c -> c{clientRoom' = rt}) ci
moveClientToLobby :: MRoomsAndClients r c -> ClientIndex -> IO ()
moveClientToLobby rnc ci = do
room <- clientRoomM rnc ci
moveClientInRooms rnc room lobbyId ci
moveClientToRoom :: MRoomsAndClients r c -> RoomIndex -> ClientIndex -> IO ()
moveClientToRoom rnc ri ci = moveClientInRooms rnc lobbyId ri ci
clientRoomM :: MRoomsAndClients r c -> ClientIndex -> IO RoomIndex
clientRoomM (MRoomsAndClients (_, clients)) (ClientIndex ci) = liftM clientRoom' (clients `readElem` ci)
client'sM :: MRoomsAndClients r c -> (c -> a) -> ClientIndex -> IO a
client'sM (MRoomsAndClients (_, clients)) f (ClientIndex ci) = liftM (f . client') (clients `readElem` ci)
clientsM :: MRoomsAndClients r c -> IO [c]
clientsM (MRoomsAndClients (_, clients)) = indicesM clients >>= mapM (\ci -> liftM client' $ readElem clients ci)
roomClientsM :: MRoomsAndClients r c -> RoomIndex -> IO [c]
roomClientsM (MRoomsAndClients (rooms, clients)) (RoomIndex ri) = liftM roomClients' (rooms `readElem` ri) >>= mapM (\(ClientIndex ci) -> liftM client' $ readElem clients ci)
withRoomsAndClients :: MRoomsAndClients r c -> (IRoomsAndClients r c -> a) -> IO a
withRoomsAndClients (MRoomsAndClients (rooms, clients)) f =
withIStore2 rooms clients (\r c -> f $ IRoomsAndClients (r, c))
----------------------------------------
----------- IRoomsAndClients -----------
showRooms :: (Show r, Show c) => IRoomsAndClients r c -> String
showRooms rnc@(IRoomsAndClients (rooms, clients)) = concatMap showRoom (allRooms rnc)
where
showRoom r = unlines $ ((show r) ++ ": " ++ (show $ room' $ rooms ! (unRoomIndex r))) : (map showClient (roomClients' $ rooms ! (unRoomIndex r)))
showClient c = " " ++ (show c) ++ ": " ++ (show $ client' $ clients ! (unClientIndex c))
allRooms :: IRoomsAndClients r c -> [RoomIndex]
allRooms (IRoomsAndClients (rooms, _)) = map RoomIndex $ indices rooms
allClients :: IRoomsAndClients r c -> [ClientIndex]
allClients (IRoomsAndClients (_, clients)) = map ClientIndex $ indices clients
clientRoom :: IRoomsAndClients r c -> ClientIndex -> RoomIndex
clientRoom (IRoomsAndClients (_, clients)) (ClientIndex ci) = clientRoom' (clients ! ci)
client :: IRoomsAndClients r c -> ClientIndex -> c
client (IRoomsAndClients (_, clients)) (ClientIndex ci) = client' (clients ! ci)
room :: IRoomsAndClients r c -> RoomIndex -> r
room (IRoomsAndClients (rooms, _)) (RoomIndex ri) = room' (rooms ! ri)
roomClients :: IRoomsAndClients r c -> RoomIndex -> [ClientIndex]
roomClients (IRoomsAndClients (rooms, _)) (RoomIndex ri) = roomClients' $ (rooms ! ri)