{-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE TypeSynonymInstances #-} {-# LANGUAGE FlexibleInstances #-} module Object where import Affection as A import Control.Monad (when) import Data.Ecstasy import Data.Maybe import Linear import Types instance ObjectAction ObjType ObjState where objectAction dt t@ObjCopier s@"copying" ent = do emap (anEnt ent) $ do mtime <- queryMaybe objStateTime case mtime of Nothing -> do liftIO $ logIO Debug ("Copier " ++ show ent ++ ": copying!") return unchanged { objStateTime = Set (actionTime t s) , objState = Set "copying" } Just ttl -> do return unchanged { objStateTime = Set (ttl - dt) } [trans] <- efor (anEnt ent) $ do mttl <- queryMaybe objStateTime case mttl of Nothing -> return False Just ttl -> return (ttl < 0) when trans (setEntity ent =<< objectTransition t s False ent) objectAction dt t@ObjComputer s@"hack" ent = do [vel] <- efor allEnts $ do with player with vel query vel emap (anEnt ent) $ do mtime <- queryMaybe objStateTime case mtime of Nothing -> do liftIO $ logIO Debug ("Computer " ++ show ent ++ ": hacking!") return unchanged { objStateTime = Set (actionTime t s) } Just ttl -> do return unchanged { objStateTime = Set (ttl - dt) } [trans] <- efor (anEnt ent) $ do mttl <- queryMaybe objStateTime case mttl of Nothing -> return Nothing Just ttl -> do if (ttl < 0) || vel `dot` vel > 0 then do tpa <- query objPlayerActivated return (Just tpa) else return Nothing maybe (return ()) (\tpa -> setEntity ent =<< objectTransition t s tpa ent) trans objectAction _ _ _ _ = return () objectTransition ObjCopier "idle" playerActivated ent = do [e] <- efor (anEnt ent) $ do let nstat = AnimState (AnimId "copier" "copy" N) 0 0 return unchanged { objState = Set "copying" , objPlayerActivated = Set playerActivated , anim = Set nstat } return e objectTransition ObjCopier "copying" _ ent = do [e] <- efor (anEnt ent) $ do ttl <- query objStateTime if ttl < 0 then do let nstat = AnimState (AnimId "copier" "open" N) 0 0 return unchanged { anim = Set nstat , objState = Set "idle" , objStateTime = Unset , objPlayerActivated = Unset } else return unchanged return e objectTransition ObjComputer "off" pa ent = do [e] <- efor (anEnt ent) $ do solved <- queryMaybe objSolved if pa && not (fromMaybe False solved) then do let nstat = AnimState (AnimId "computer" "hack" N) 0 0 return unchanged { anim = Set nstat , objState = Set "hack" , objPlayerActivated = Set True } else return unchanged return e objectTransition ObjComputer "hack" _ ent = do [e] <- efor (anEnt ent) $ do let nstat = AnimState (AnimId "computer" "off" N) 0 0 ost <- query objStateTime return unchanged { anim = Set nstat , objState = Set "off" , objPlayerActivated = Unset , objStateTime = Unset , objSolved = Set (ost < 0) } return e objectTransition _ _ _ _ = return unchanged instance ActionTime ObjType ObjState where actionTime ObjCopier "copying" = 5 actionTime ObjComputer "off" = 0 actionTime ObjComputer "hack" = 20 actionTime o s = A.log Error (show o ++ ": " ++ s ++ ": has not time") 0