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{-# LANGUAGE CPP, MagicHash, BangPatterns #-}
import Data.Char
import Data.Array
import GHC.Exts
import System.IO
import System.IO.Unsafe
import Debug.Trace

import Control.Applicative (Applicative(..))
import Control.Monad (liftM, ap)

-- parser produced by Happy Version 1.16

data HappyAbsSyn
	= HappyTerminal Token
	| HappyErrorToken Int
	| HappyAbsSyn4 (Exp)
	| HappyAbsSyn5 (Exp1)
	| HappyAbsSyn6 (Term)
	| HappyAbsSyn7 (Factor)

happyActOffsets :: HappyAddr
happyActOffsets = HappyA# "\x01\x00\x25\x00\x1e\x00\x1b\x00\x1d\x00\x18\x00\x00\x00\x00\x00\x00\x00\x01\x00\xf8\xff\x03\x00\x03\x00\x03\x00\x03\x00\x20\x00\x01\x00\x18\x00\x18\x00\x00\x00\x00\x00\x00\x00\x0a\x00\x01\x00\x00\x00\x00\x00"#

happyGotoOffsets :: HappyAddr
happyGotoOffsets = HappyA# "\x1a\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x16\x00\x00\x00\x07\x00\xfe\xff\x1c\x00\x06\x00\x00\x00\x12\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x0e\x00\x00\x00\x00\x00"#

happyDefActions :: HappyAddr
happyDefActions = HappyA# "\x00\x00\x00\x00\x00\x00\x00\x00\xfd\xff\xfa\xff\xf7\xff\xf6\xff\xf5\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xfb\xff\xfc\xff\xf8\xff\xf9\xff\xf4\xff\x00\x00\x00\x00\xfe\xff"#

happyCheck :: HappyAddr
happyCheck = HappyA# "\xff\xff\x03\x00\x01\x00\x0b\x00\x03\x00\x04\x00\x03\x00\x04\x00\x02\x00\x03\x00\x03\x00\x0a\x00\x02\x00\x0a\x00\x00\x00\x01\x00\x02\x00\x03\x00\x00\x00\x01\x00\x02\x00\x03\x00\x00\x00\x01\x00\x02\x00\x03\x00\x00\x00\x01\x00\x02\x00\x03\x00\x02\x00\x03\x00\x08\x00\x09\x00\x04\x00\x06\x00\x07\x00\x05\x00\x01\x00\x0c\x00\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff"#

happyTable :: HappyAddr
happyTable = HappyA# "\x00\x00\x13\x00\x03\x00\x16\x00\x08\x00\x09\x00\x08\x00\x09\x00\x11\x00\x06\x00\x14\x00\x0a\x00\x18\x00\x0a\x00\x18\x00\x04\x00\x05\x00\x06\x00\x16\x00\x04\x00\x05\x00\x06\x00\x0a\x00\x04\x00\x05\x00\x06\x00\x03\x00\x04\x00\x05\x00\x06\x00\x12\x00\x06\x00\x0c\x00\x0d\x00\x10\x00\x0e\x00\x0f\x00\x11\x00\x03\x00\xff\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"#

happyReduceArr = array (1, 11) [
	(1 , happyReduce_1),
	(2 , happyReduce_2),
	(3 , happyReduce_3),
	(4 , happyReduce_4),
	(5 , happyReduce_5),
	(6 , happyReduce_6),
	(7 , happyReduce_7),
	(8 , happyReduce_8),
	(9 , happyReduce_9),
	(10 , happyReduce_10),
	(11 , happyReduce_11)
	]

happy_n_terms = 13 :: Int
happy_n_nonterms = 4 :: Int

happyReduce_1 = happyReduce 6# 0# happyReduction_1
happyReduction_1 ((HappyAbsSyn4  happy_var_6) `HappyStk`
	_ `HappyStk`
	(HappyAbsSyn4  happy_var_4) `HappyStk`
	_ `HappyStk`
	(HappyTerminal (TokenVar happy_var_2)) `HappyStk`
	_ `HappyStk`
	happyRest)
	 = HappyAbsSyn4
		 (Let happy_var_2 happy_var_4 happy_var_6
	) `HappyStk` happyRest

happyReduce_2 = happySpecReduce_1  0# happyReduction_2
happyReduction_2 (HappyAbsSyn5  happy_var_1)
	 =  HappyAbsSyn4
		 (Exp1 happy_var_1
	)
happyReduction_2 _  = notHappyAtAll

happyReduce_3 = happySpecReduce_3  1# happyReduction_3
happyReduction_3 (HappyAbsSyn6  happy_var_3)
	_
	(HappyAbsSyn5  happy_var_1)
	 =  HappyAbsSyn5
		 (Plus happy_var_1 happy_var_3
	)
happyReduction_3 _ _ _  = notHappyAtAll

happyReduce_4 = happySpecReduce_3  1# happyReduction_4
happyReduction_4 (HappyAbsSyn6  happy_var_3)
	_
	(HappyAbsSyn5  happy_var_1)
	 =  HappyAbsSyn5
		 (Minus happy_var_1 happy_var_3
	)
happyReduction_4 _ _ _  = notHappyAtAll

happyReduce_5 = happySpecReduce_1  1# happyReduction_5
happyReduction_5 (HappyAbsSyn6  happy_var_1)
	 =  HappyAbsSyn5
		 (Term happy_var_1
	)
happyReduction_5 _  = notHappyAtAll

happyReduce_6 = happySpecReduce_3  2# happyReduction_6
happyReduction_6 (HappyAbsSyn7  happy_var_3)
	_
	(HappyAbsSyn6  happy_var_1)
	 =  HappyAbsSyn6
		 (Times happy_var_1 happy_var_3
	)
happyReduction_6 _ _ _  = notHappyAtAll

happyReduce_7 = happySpecReduce_3  2# happyReduction_7
happyReduction_7 (HappyAbsSyn7  happy_var_3)
	_
	(HappyAbsSyn6  happy_var_1)
	 =  HappyAbsSyn6
		 (Div happy_var_1 happy_var_3
	)
happyReduction_7 _ _ _  = notHappyAtAll

happyReduce_8 = happySpecReduce_1  2# happyReduction_8
happyReduction_8 (HappyAbsSyn7  happy_var_1)
	 =  HappyAbsSyn6
		 (Factor happy_var_1
	)
happyReduction_8 _  = notHappyAtAll

happyReduce_9 = happySpecReduce_1  3# happyReduction_9
happyReduction_9 (HappyTerminal (TokenInt happy_var_1))
	 =  HappyAbsSyn7
		 (Int happy_var_1
	)
happyReduction_9 _  = notHappyAtAll

happyReduce_10 = happySpecReduce_1  3# happyReduction_10
happyReduction_10 (HappyTerminal (TokenVar happy_var_1))
	 =  HappyAbsSyn7
		 (Var happy_var_1
	)
happyReduction_10 _  = notHappyAtAll

happyReduce_11 = happySpecReduce_3  3# happyReduction_11
happyReduction_11 _
	(HappyAbsSyn4  happy_var_2)
	_
	 =  HappyAbsSyn7
		 (Brack happy_var_2
	)
happyReduction_11 _ _ _  = notHappyAtAll

happyNewToken action sts stk [] =
	happyDoAction 12# notHappyAtAll action sts stk []

happyNewToken action sts stk (tk:tks) =
	let cont i = happyDoAction i tk action sts stk tks in
	case tk of {
	TokenLet -> cont 1#;
	TokenIn -> cont 2#;
	TokenInt happy_dollar_dollar -> cont 3#;
	TokenVar happy_dollar_dollar -> cont 4#;
	TokenEq -> cont 5#;
	TokenPlus -> cont 6#;
	TokenMinus -> cont 7#;
	TokenTimes -> cont 8#;
	TokenDiv -> cont 9#;
	TokenOB -> cont 10#;
	TokenCB -> cont 11#;
	_ -> happyError' (tk:tks)
	}

happyError_ tk tks = happyError' (tk:tks)

newtype HappyIdentity a = HappyIdentity a
happyIdentity = HappyIdentity
happyRunIdentity (HappyIdentity a) = a

instance Functor HappyIdentity where
    fmap = liftM

instance Applicative HappyIdentity where
    pure = HappyIdentity
    (<*>) = ap

instance Monad HappyIdentity where
    (HappyIdentity p) >>= q = q p


happyThen :: () => HappyIdentity a -> (a -> HappyIdentity b) -> HappyIdentity b
happyThen = (>>=)
happyReturn :: () => a -> HappyIdentity a
happyReturn = (return)
happyThen1 m k tks = (>>=) m (\a -> k a tks)
happyReturn1 :: () => a -> b -> HappyIdentity a
happyReturn1 = \a tks -> (return) a
happyError' :: () => [Token] -> HappyIdentity a
happyError' = HappyIdentity . happyError

calc tks = happyRunIdentity happySomeParser where
  happySomeParser = happyThen (happyParse 0# tks) (\x -> case x of {HappyAbsSyn4 z -> happyReturn z; _other -> notHappyAtAll })

happySeq = happyDontSeq


happyError tks = error "Parse error"



data Exp  = Let String Exp Exp | Exp1 Exp1
data Exp1 = Plus Exp1 Term | Minus Exp1 Term | Term Term
data Term = Times Term Factor | Div Term Factor | Factor Factor
data Factor = Int Int | Var String | Brack Exp



data Token
	= TokenLet
	| TokenIn
	| TokenInt Int
	| TokenVar String
	| TokenEq
	| TokenPlus
	| TokenMinus
	| TokenTimes
	| TokenDiv
	| TokenOB
	| TokenCB



lexer :: String -> [Token]
lexer [] = []
lexer (c:cs)
	| isSpace c = lexer cs
	| isAlpha c = lexVar (c:cs)
	| isDigit c = lexNum (c:cs)
lexer ('=':cs) = TokenEq : lexer cs
lexer ('+':cs) = TokenPlus : lexer cs
lexer ('-':cs) = TokenMinus : lexer cs
lexer ('*':cs) = TokenTimes : lexer cs
lexer ('/':cs) = TokenDiv : lexer cs
lexer ('(':cs) = TokenOB : lexer cs
lexer (')':cs) = TokenCB : lexer cs

lexNum cs = TokenInt (read num) : lexer rest
	where (num,rest) = span isDigit cs

lexVar cs =
   case span isAlpha cs of
	("let",rest) -> TokenLet : lexer rest
	("in",rest)  -> TokenIn : lexer rest
	(var,rest)   -> TokenVar var : lexer rest




runCalc :: String -> Exp
runCalc = calc . lexer



main = case runCalc "1 + 2 + 3" of {
	(Exp1 (Plus (Plus (Term (Factor (Int 1))) (Factor (Int 2))) (Factor (Int 3))))  ->
	case runCalc "1 * 2 + 3" of {
	(Exp1 (Plus (Term (Times (Factor (Int 1)) (Int 2))) (Factor (Int 3)))) ->
	case runCalc "1 + 2 * 3" of {
	(Exp1 (Plus (Term (Factor (Int 1))) (Times (Factor (Int 2)) (Int 3)))) ->
	case runCalc "let x = 2 in x * (x - 2)" of {
	(Let "x" (Exp1 (Term (Factor (Int 2)))) (Exp1 (Term (Times (Factor (Var "x")) (Brack (Exp1 (Minus (Term (Factor (Var "x"))) (Factor (Int 2))))))))) -> print "Test works\n";
	_ -> quit } ; _ -> quit } ; _ -> quit } ; _ -> quit }
quit = print "Test failed\n"
{-# LINE 1 "GenericTemplate.hs" #-}
{-# LINE 1 "<built-in>" #-}
{-# LINE 1 "<command line>" #-}
{-# LINE 1 "GenericTemplate.hs" #-}
-- Id: GenericTemplate.hs,v 1.26 2005/01/14 14:47:22 simonmar Exp

{-# LINE 28 "GenericTemplate.hs" #-}


data Happy_IntList = HappyCons Int# Happy_IntList





{-# LINE 49 "GenericTemplate.hs" #-}

{-# LINE 59 "GenericTemplate.hs" #-}



happyTrace string expr = unsafePerformIO $ do
    hPutStr stderr string
    return expr




infixr 9 `HappyStk`
data HappyStk a = HappyStk a (HappyStk a)

-----------------------------------------------------------------------------
-- starting the parse

happyParse start_state = happyNewToken start_state notHappyAtAll notHappyAtAll

-----------------------------------------------------------------------------
-- Accepting the parse

-- If the current token is 0#, it means we've just accepted a partial
-- parse (a %partial parser).  We must ignore the saved token on the top of
-- the stack in this case.
happyAccept 0# tk st sts (_ `HappyStk` ans `HappyStk` _) =
	happyReturn1 ans
happyAccept j tk st sts (HappyStk ans _) =
	(happyTcHack j (happyTcHack st)) (happyReturn1 ans)

-----------------------------------------------------------------------------
-- Arrays only: do the next action



happyDoAction i tk st
	= (happyTrace ("state: " ++ show (I# (st)) ++  		      ",\ttoken: " ++ show (I# (i)) ++ 		      ",\taction: ")) $


	  case action of
		0#		  -> (happyTrace ("fail.\n")) $
				     happyFail i tk st
		-1# 	  -> (happyTrace ("accept.\n")) $
				     happyAccept i tk st
		n | isTrue# (n <# (0# :: Int#)) -> (happyTrace ("reduce (rule " ++ show rule 						 ++ ")")) $

				     (happyReduceArr ! rule) i tk st
				     where rule = (I# ((negateInt# ((n +# (1# :: Int#))))))
		n		  -> (happyTrace ("shift, enter state " 						 ++ show (I# (new_state)) 						 ++ "\n")) $


				     happyShift new_state i tk st
				     where new_state = (n -# (1# :: Int#))
   where off    = indexShortOffAddr happyActOffsets st
	 off_i  = (off +# i)
	 check  = if isTrue# (off_i >=# (0# :: Int#))
			then isTrue# (indexShortOffAddr happyCheck off_i ==#  i)
			else False
 	 action | check     = indexShortOffAddr happyTable off_i
		| otherwise = indexShortOffAddr happyDefActions st

{-# LINE 127 "GenericTemplate.hs" #-}


indexShortOffAddr (HappyA# arr) off =
	narrow16Int# i
  where
	i = word2Int# ((high `uncheckedShiftL#` 8#) `or#` low)
	high = int2Word# (ord# (indexCharOffAddr# arr (off' +# 1#)))
	low  = int2Word# (ord# (indexCharOffAddr# arr off'))
	off' = off *# 2#





data HappyAddr = HappyA# Addr#




-----------------------------------------------------------------------------
-- HappyState data type (not arrays)

{-# LINE 170 "GenericTemplate.hs" #-}

-----------------------------------------------------------------------------
-- Shifting a token

happyShift new_state 0# tk st sts stk@(x `HappyStk` _) =
     let i = (case x of { HappyErrorToken (I# (i)) -> i }) in
--     trace "shifting the error token" $
     happyDoAction i tk new_state (HappyCons (st) (sts)) (stk)

happyShift new_state i tk st sts stk =
     happyNewToken new_state (HappyCons (st) (sts)) ((HappyTerminal (tk))`HappyStk`stk)

-- happyReduce is specialised for the common cases.

happySpecReduce_0 i fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happySpecReduce_0 nt fn j tk st@((action)) sts stk
     = happyGoto nt j tk st (HappyCons (st) (sts)) (fn `HappyStk` stk)

happySpecReduce_1 i fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happySpecReduce_1 nt fn j tk _ sts@((HappyCons (st@(action)) (_))) (v1`HappyStk`stk')
     = let r = fn v1 in
       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))

happySpecReduce_2 i fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happySpecReduce_2 nt fn j tk _ (HappyCons (_) (sts@((HappyCons (st@(action)) (_))))) (v1`HappyStk`v2`HappyStk`stk')
     = let r = fn v1 v2 in
       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))

happySpecReduce_3 i fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happySpecReduce_3 nt fn j tk _ (HappyCons (_) ((HappyCons (_) (sts@((HappyCons (st@(action)) (_))))))) (v1`HappyStk`v2`HappyStk`v3`HappyStk`stk')
     = let r = fn v1 v2 v3 in
       happySeq r (happyGoto nt j tk st sts (r `HappyStk` stk'))

happyReduce k i fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happyReduce k nt fn j tk st sts stk
     = case happyDrop (k -# (1# :: Int#)) sts of
	 !sts1@((HappyCons (st1@(action)) (_))) ->
        	let r = fn stk in  -- it doesn't hurt to always seq here...
       		happyDoSeq r (happyGoto nt j tk st1 sts1 r)

happyMonadReduce k nt fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happyMonadReduce k nt fn j tk st sts stk =
        happyThen1 (fn stk tk) (\r -> happyGoto nt j tk st1 sts1 (r `HappyStk` drop_stk))
       where !sts1@((HappyCons (st1@(action)) (_))) = happyDrop k (HappyCons (st) (sts))
             drop_stk = happyDropStk k stk

happyMonad2Reduce k nt fn 0# tk st sts stk
     = happyFail 0# tk st sts stk
happyMonad2Reduce k nt fn j tk st sts stk =
       happyThen1 (fn stk tk) (\r -> happyNewToken new_state sts1 (r `HappyStk` drop_stk))
       where !sts1@((HappyCons (st1@(action)) (_))) = happyDrop k (HappyCons (st) (sts))
             drop_stk = happyDropStk k stk

             off    = indexShortOffAddr happyGotoOffsets st1
             off_i  = (off +# nt)
             new_state = indexShortOffAddr happyTable off_i




happyDrop 0# l = l
happyDrop n (HappyCons (_) (t)) = happyDrop (n -# (1# :: Int#)) t

happyDropStk 0# l = l
happyDropStk n (x `HappyStk` xs) = happyDropStk (n -# (1#::Int#)) xs

-----------------------------------------------------------------------------
-- Moving to a new state after a reduction


happyGoto nt j tk st =
   (happyTrace (", goto state " ++ show (I# (new_state)) ++ "\n")) $
   happyDoAction j tk new_state
   where off    = indexShortOffAddr happyGotoOffsets st
	 off_i  = (off +# nt)
 	 new_state = indexShortOffAddr happyTable off_i




-----------------------------------------------------------------------------
-- Error recovery (0# is the error token)

-- parse error if we are in recovery and we fail again
happyFail  0# tk old_st _ stk =
--	trace "failing" $
    	happyError_ tk

{-  We don't need state discarding for our restricted implementation of
    "error".  In fact, it can cause some bogus parses, so I've disabled it
    for now --SDM

-- discard a state
happyFail  0# tk old_st (HappyCons ((action)) (sts))
						(saved_tok `HappyStk` _ `HappyStk` stk) =
--	trace ("discarding state, depth " ++ show (length stk))  $
	happyDoAction 0# tk action sts ((saved_tok`HappyStk`stk))
-}

-- Enter error recovery: generate an error token,
--                       save the old token and carry on.
happyFail  i tk (action) sts stk =
--      trace "entering error recovery" $
	happyDoAction 0# tk action sts ( (HappyErrorToken (I# (i))) `HappyStk` stk)

-- Internal happy errors:

notHappyAtAll = error "Internal Happy error\n"

-----------------------------------------------------------------------------
-- Hack to get the typechecker to accept our action functions


happyTcHack :: Int# -> a -> a
happyTcHack x y = y
{-# INLINE happyTcHack #-}


-----------------------------------------------------------------------------
-- Seq-ing.  If the --strict flag is given, then Happy emits
--	happySeq = happyDoSeq
-- otherwise it emits
-- 	happySeq = happyDontSeq

happyDoSeq, happyDontSeq :: a -> b -> b
happyDoSeq   a b = a `seq` b
happyDontSeq a b = b

-----------------------------------------------------------------------------
-- Don't inline any functions from the template.  GHC has a nasty habit
-- of deciding to inline happyGoto everywhere, which increases the size of
-- the generated parser quite a bit.


{-# NOINLINE happyDoAction #-}
{-# NOINLINE happyTable #-}
{-# NOINLINE happyCheck #-}
{-# NOINLINE happyActOffsets #-}
{-# NOINLINE happyGotoOffsets #-}
{-# NOINLINE happyDefActions #-}

{-# NOINLINE happyShift #-}
{-# NOINLINE happySpecReduce_0 #-}
{-# NOINLINE happySpecReduce_1 #-}
{-# NOINLINE happySpecReduce_2 #-}
{-# NOINLINE happySpecReduce_3 #-}
{-# NOINLINE happyReduce #-}
{-# NOINLINE happyMonadReduce #-}
{-# NOINLINE happyGoto #-}
{-# NOINLINE happyFail #-}

-- end of Happy Template.