module Language.Lexer.Tlex.Machine.DFA ( DFA (..), DFAState (..), DFABuilder, DFABuilderContext, buildDFA, newStateNum, insertTrans, accept, initial, ) where import Language.Lexer.Tlex.Prelude import qualified Data.IntMap as IntMap import qualified Data.List as List import qualified Language.Lexer.Tlex.Data.EnumMap as EnumMap import qualified Language.Lexer.Tlex.Machine.Pattern as Pattern import qualified Language.Lexer.Tlex.Machine.State as MState data DFA a = DFA { DFA a -> EnumMap StartState StateNum dfaInitials :: EnumMap.EnumMap Pattern.StartState MState.StateNum , DFA a -> StateArray (DFAState a) dfaTrans :: MState.StateArray (DFAState a) } deriving (DFA a -> DFA a -> Bool (DFA a -> DFA a -> Bool) -> (DFA a -> DFA a -> Bool) -> Eq (DFA a) forall a. Eq a => DFA a -> DFA a -> Bool forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a /= :: DFA a -> DFA a -> Bool $c/= :: forall a. Eq a => DFA a -> DFA a -> Bool == :: DFA a -> DFA a -> Bool $c== :: forall a. Eq a => DFA a -> DFA a -> Bool Eq, Int -> DFA a -> ShowS [DFA a] -> ShowS DFA a -> String (Int -> DFA a -> ShowS) -> (DFA a -> String) -> ([DFA a] -> ShowS) -> Show (DFA a) forall a. Show a => Int -> DFA a -> ShowS forall a. Show a => [DFA a] -> ShowS forall a. Show a => DFA a -> String forall a. (Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a showList :: [DFA a] -> ShowS $cshowList :: forall a. Show a => [DFA a] -> ShowS show :: DFA a -> String $cshow :: forall a. Show a => DFA a -> String showsPrec :: Int -> DFA a -> ShowS $cshowsPrec :: forall a. Show a => Int -> DFA a -> ShowS Show, a -> DFA b -> DFA a (a -> b) -> DFA a -> DFA b (forall a b. (a -> b) -> DFA a -> DFA b) -> (forall a b. a -> DFA b -> DFA a) -> Functor DFA forall a b. a -> DFA b -> DFA a forall a b. (a -> b) -> DFA a -> DFA b forall (f :: * -> *). (forall a b. (a -> b) -> f a -> f b) -> (forall a b. a -> f b -> f a) -> Functor f <$ :: a -> DFA b -> DFA a $c<$ :: forall a b. a -> DFA b -> DFA a fmap :: (a -> b) -> DFA a -> DFA b $cfmap :: forall a b. (a -> b) -> DFA a -> DFA b Functor) data DFAState a = DState { DFAState a -> [Accept a] dstAccepts :: [Pattern.Accept a] , DFAState a -> IntMap StateNum dstTrans :: IntMap.IntMap MState.StateNum , DFAState a -> Maybe StateNum dstOtherTrans :: Maybe MState.StateNum } deriving (DFAState a -> DFAState a -> Bool (DFAState a -> DFAState a -> Bool) -> (DFAState a -> DFAState a -> Bool) -> Eq (DFAState a) forall a. Eq a => DFAState a -> DFAState a -> Bool forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a /= :: DFAState a -> DFAState a -> Bool $c/= :: forall a. Eq a => DFAState a -> DFAState a -> Bool == :: DFAState a -> DFAState a -> Bool $c== :: forall a. Eq a => DFAState a -> DFAState a -> Bool Eq, Int -> DFAState a -> ShowS [DFAState a] -> ShowS DFAState a -> String (Int -> DFAState a -> ShowS) -> (DFAState a -> String) -> ([DFAState a] -> ShowS) -> Show (DFAState a) forall a. Show a => Int -> DFAState a -> ShowS forall a. Show a => [DFAState a] -> ShowS forall a. Show a => DFAState a -> String forall a. (Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a showList :: [DFAState a] -> ShowS $cshowList :: forall a. Show a => [DFAState a] -> ShowS show :: DFAState a -> String $cshow :: forall a. Show a => DFAState a -> String showsPrec :: Int -> DFAState a -> ShowS $cshowsPrec :: forall a. Show a => Int -> DFAState a -> ShowS Show, a -> DFAState b -> DFAState a (a -> b) -> DFAState a -> DFAState b (forall a b. (a -> b) -> DFAState a -> DFAState b) -> (forall a b. a -> DFAState b -> DFAState a) -> Functor DFAState forall a b. a -> DFAState b -> DFAState a forall a b. (a -> b) -> DFAState a -> DFAState b forall (f :: * -> *). (forall a b. (a -> b) -> f a -> f b) -> (forall a b. a -> f b -> f a) -> Functor f <$ :: a -> DFAState b -> DFAState a $c<$ :: forall a b. a -> DFAState b -> DFAState a fmap :: (a -> b) -> DFAState a -> DFAState b $cfmap :: forall a b. (a -> b) -> DFAState a -> DFAState b Functor) data DFABuilderContext m = DFABuilderContext { DFABuilderContext m -> EnumMap StartState StateNum dfaBCtxInitials :: EnumMap.EnumMap Pattern.StartState MState.StateNum , DFABuilderContext m -> StateNum dfaBCtxNextStateNum :: MState.StateNum , DFABuilderContext m -> StateMap (DFAState m) dfaBCtxStateMap :: MState.StateMap (DFAState m) } deriving (DFABuilderContext m -> DFABuilderContext m -> Bool (DFABuilderContext m -> DFABuilderContext m -> Bool) -> (DFABuilderContext m -> DFABuilderContext m -> Bool) -> Eq (DFABuilderContext m) forall m. Eq m => DFABuilderContext m -> DFABuilderContext m -> Bool forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a /= :: DFABuilderContext m -> DFABuilderContext m -> Bool $c/= :: forall m. Eq m => DFABuilderContext m -> DFABuilderContext m -> Bool == :: DFABuilderContext m -> DFABuilderContext m -> Bool $c== :: forall m. Eq m => DFABuilderContext m -> DFABuilderContext m -> Bool Eq, Int -> DFABuilderContext m -> ShowS [DFABuilderContext m] -> ShowS DFABuilderContext m -> String (Int -> DFABuilderContext m -> ShowS) -> (DFABuilderContext m -> String) -> ([DFABuilderContext m] -> ShowS) -> Show (DFABuilderContext m) forall m. Show m => Int -> DFABuilderContext m -> ShowS forall m. Show m => [DFABuilderContext m] -> ShowS forall m. Show m => DFABuilderContext m -> String forall a. (Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a showList :: [DFABuilderContext m] -> ShowS $cshowList :: forall m. Show m => [DFABuilderContext m] -> ShowS show :: DFABuilderContext m -> String $cshow :: forall m. Show m => DFABuilderContext m -> String showsPrec :: Int -> DFABuilderContext m -> ShowS $cshowsPrec :: forall m. Show m => Int -> DFABuilderContext m -> ShowS Show, a -> DFABuilderContext b -> DFABuilderContext a (a -> b) -> DFABuilderContext a -> DFABuilderContext b (forall a b. (a -> b) -> DFABuilderContext a -> DFABuilderContext b) -> (forall a b. a -> DFABuilderContext b -> DFABuilderContext a) -> Functor DFABuilderContext forall a b. a -> DFABuilderContext b -> DFABuilderContext a forall a b. (a -> b) -> DFABuilderContext a -> DFABuilderContext b forall (f :: * -> *). (forall a b. (a -> b) -> f a -> f b) -> (forall a b. a -> f b -> f a) -> Functor f <$ :: a -> DFABuilderContext b -> DFABuilderContext a $c<$ :: forall a b. a -> DFABuilderContext b -> DFABuilderContext a fmap :: (a -> b) -> DFABuilderContext a -> DFABuilderContext b $cfmap :: forall a b. (a -> b) -> DFABuilderContext a -> DFABuilderContext b Functor) type DFABuilder m = State (DFABuilderContext m) buildDFA :: DFABuilder m () -> DFA m buildDFA :: DFABuilder m () -> DFA m buildDFA DFABuilder m () builder = let bctx :: DFABuilderContext m bctx = DFABuilder m () -> DFABuilderContext m -> DFABuilderContext m forall s a. State s a -> s -> s execState DFABuilder m () builder DFABuilderContext m forall m. DFABuilderContext m initialBCtx arr :: StateArray (DFAState m) arr = StateNum -> StateMap (DFAState m) -> StateArray (DFAState m) forall a. StateNum -> StateMap a -> StateArray a MState.totalStateMapToArray do DFABuilderContext m -> StateNum forall m. DFABuilderContext m -> StateNum dfaBCtxNextStateNum DFABuilderContext m bctx do DFABuilderContext m -> StateMap (DFAState m) forall m. DFABuilderContext m -> StateMap (DFAState m) dfaBCtxStateMap DFABuilderContext m bctx in DFA :: forall a. EnumMap StartState StateNum -> StateArray (DFAState a) -> DFA a DFA { $sel:dfaInitials:DFA :: EnumMap StartState StateNum dfaInitials = DFABuilderContext m -> EnumMap StartState StateNum forall m. DFABuilderContext m -> EnumMap StartState StateNum dfaBCtxInitials DFABuilderContext m bctx , $sel:dfaTrans:DFA :: StateArray (DFAState m) dfaTrans = StateArray (DFAState m) arr } where initialBCtx :: DFABuilderContext m initialBCtx = DFABuilderContext :: forall m. EnumMap StartState StateNum -> StateNum -> StateMap (DFAState m) -> DFABuilderContext m DFABuilderContext { $sel:dfaBCtxInitials:DFABuilderContext :: EnumMap StartState StateNum dfaBCtxInitials = EnumMap StartState StateNum forall k a. Enum k => EnumMap k a EnumMap.empty , $sel:dfaBCtxNextStateNum:DFABuilderContext :: StateNum dfaBCtxNextStateNum = StateNum MState.initialStateNum , $sel:dfaBCtxStateMap:DFABuilderContext :: StateMap (DFAState m) dfaBCtxStateMap = StateMap (DFAState m) forall a. StateMap a MState.emptyMap } newStateNum :: DFABuilder m MState.StateNum newStateNum :: DFABuilder m StateNum newStateNum = do DFABuilderContext m ctx0 <- StateT (DFABuilderContext m) Identity (DFABuilderContext m) forall (m :: * -> *) s. Monad m => StateT s m s get let nextStateNum :: StateNum nextStateNum = DFABuilderContext m -> StateNum forall m. DFABuilderContext m -> StateNum dfaBCtxNextStateNum DFABuilderContext m ctx0 DFABuilderContext m -> StateT (DFABuilderContext m) Identity () forall (m :: * -> *) s. Monad m => s -> StateT s m () put do DFABuilderContext m ctx0 { $sel:dfaBCtxNextStateNum:DFABuilderContext :: StateNum dfaBCtxNextStateNum = StateNum -> StateNum forall a. Enum a => a -> a succ StateNum nextStateNum } StateNum -> DFABuilder m StateNum forall (f :: * -> *) a. Applicative f => a -> f a pure StateNum nextStateNum insertTrans :: MState.StateNum -> DFAState m -> DFABuilder m () insertTrans :: StateNum -> DFAState m -> DFABuilder m () insertTrans StateNum sf DFAState m st = (DFABuilderContext m -> DFABuilderContext m) -> DFABuilder m () forall (m :: * -> *) s. Monad m => (s -> s) -> StateT s m () modify' \ctx0 :: DFABuilderContext m ctx0@DFABuilderContext{ StateMap (DFAState m) dfaBCtxStateMap :: StateMap (DFAState m) $sel:dfaBCtxStateMap:DFABuilderContext :: forall m. DFABuilderContext m -> StateMap (DFAState m) dfaBCtxStateMap } -> DFABuilderContext m ctx0 { $sel:dfaBCtxStateMap:DFABuilderContext :: StateMap (DFAState m) dfaBCtxStateMap = StateMap (DFAState m) -> StateMap (DFAState m) addCondTrans StateMap (DFAState m) dfaBCtxStateMap } where addCondTrans :: StateMap (DFAState m) -> StateMap (DFAState m) addCondTrans StateMap (DFAState m) n = StateNum -> DFAState m -> StateMap (DFAState m) -> StateMap (DFAState m) forall a. StateNum -> a -> StateMap a -> StateMap a MState.insertMap StateNum sf DFAState m st StateMap (DFAState m) n accept :: MState.StateNum -> Pattern.Accept m -> DFABuilder m () accept :: StateNum -> Accept m -> DFABuilder m () accept StateNum s Accept m x = (DFABuilderContext m -> DFABuilderContext m) -> DFABuilder m () forall (m :: * -> *) s. Monad m => (s -> s) -> StateT s m () modify' \ctx0 :: DFABuilderContext m ctx0@DFABuilderContext{ StateMap (DFAState m) dfaBCtxStateMap :: StateMap (DFAState m) $sel:dfaBCtxStateMap:DFABuilderContext :: forall m. DFABuilderContext m -> StateMap (DFAState m) dfaBCtxStateMap } -> DFABuilderContext m ctx0 { $sel:dfaBCtxStateMap:DFABuilderContext :: StateMap (DFAState m) dfaBCtxStateMap = StateMap (DFAState m) -> StateMap (DFAState m) addAccept StateMap (DFAState m) dfaBCtxStateMap } where addAccept :: StateMap (DFAState m) -> StateMap (DFAState m) addAccept StateMap (DFAState m) n = StateNum -> DFAState m -> (DFAState m -> DFAState m) -> StateMap (DFAState m) -> StateMap (DFAState m) forall a. StateNum -> a -> (a -> a) -> StateMap a -> StateMap a MState.insertOrUpdateMap StateNum s do DState :: forall a. [Accept a] -> IntMap StateNum -> Maybe StateNum -> DFAState a DState { $sel:dstAccepts:DState :: [Accept m] dstAccepts = [Accept m x] , $sel:dstTrans:DState :: IntMap StateNum dstTrans = IntMap StateNum forall a. IntMap a IntMap.empty , $sel:dstOtherTrans:DState :: Maybe StateNum dstOtherTrans = Maybe StateNum forall a. Maybe a Nothing } do \ds :: DFAState m ds@DState { [Accept m] dstAccepts :: [Accept m] $sel:dstAccepts:DState :: forall a. DFAState a -> [Accept a] dstAccepts } -> DFAState m ds { $sel:dstAccepts:DState :: [Accept m] dstAccepts = (Accept m -> Accept m -> Ordering) -> Accept m -> [Accept m] -> [Accept m] forall a. (a -> a -> Ordering) -> a -> [a] -> [a] List.insertBy Accept m -> Accept m -> Ordering forall a. Accept a -> Accept a -> Ordering Pattern.compareAcceptsByPriority Accept m x [Accept m] dstAccepts } do StateMap (DFAState m) n initial :: MState.StateNum -> Pattern.StartState -> DFABuilder m () initial :: StateNum -> StartState -> DFABuilder m () initial StateNum s StartState x = (DFABuilderContext m -> DFABuilderContext m) -> DFABuilder m () forall (m :: * -> *) s. Monad m => (s -> s) -> StateT s m () modify' \ctx0 :: DFABuilderContext m ctx0@DFABuilderContext{ EnumMap StartState StateNum dfaBCtxInitials :: EnumMap StartState StateNum $sel:dfaBCtxInitials:DFABuilderContext :: forall m. DFABuilderContext m -> EnumMap StartState StateNum dfaBCtxInitials } -> DFABuilderContext m ctx0 { $sel:dfaBCtxInitials:DFABuilderContext :: EnumMap StartState StateNum dfaBCtxInitials = StartState -> StateNum -> EnumMap StartState StateNum -> EnumMap StartState StateNum forall k a. Enum k => k -> a -> EnumMap k a -> EnumMap k a EnumMap.insert StartState x StateNum s EnumMap StartState StateNum dfaBCtxInitials }