{-# OPTIONS_GHC -w #-}
{-# OPTIONS -XMagicHash -XBangPatterns -XTypeSynonymInstances -XFlexibleInstances -cpp #-}
#if __GLASGOW_HASKELL__ >= 710
{-# OPTIONS_GHC -XPartialTypeSignatures #-}
#endif
module Language.Fortran.Parser.Fortran90 ( statementParser
                                         , functionParser
                                         , fortran90Parser
                                         , fortran90ParserWithModFiles
                                         ) where

import Prelude hiding (EQ,LT,GT) -- Same constructors exist in the AST
import Control.Monad.State (get)
import Data.Maybe (fromMaybe)
import Data.Either (partitionEithers)
import qualified Data.ByteString.Char8 as B

import Control.Monad.State
#ifdef DEBUG
import Data.Data (toConstr)
#endif

import Language.Fortran.Util.Position
import Language.Fortran.Util.ModFile
import Language.Fortran.ParserMonad
import Language.Fortran.Lexer.FreeForm
import Language.Fortran.AST
import Language.Fortran.Transformer

import Debug.Trace
import qualified Data.Array as Happy_Data_Array
import qualified Data.Bits as Bits
import qualified GHC.Exts as Happy_GHC_Exts
import Control.Applicative(Applicative(..))
import Control.Monad (ap)

-- parser produced by Happy Version 1.20.0

newtype HappyAbsSyn  = HappyAbsSyn HappyAny
#if __GLASGOW_HASKELL__ >= 607
type HappyAny = Happy_GHC_Exts.Any
#else
type HappyAny = forall a . a
#endif
newtype HappyWrap6 = HappyWrap6 (ProgramFile A0)
happyIn6 :: (ProgramFile A0) -> (HappyAbsSyn )
happyIn6 :: ProgramFile A0 -> HappyAbsSyn
happyIn6 ProgramFile A0
x = HappyWrap6 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ProgramFile A0 -> HappyWrap6
HappyWrap6 ProgramFile A0
x)
{-# INLINE happyIn6 #-}
happyOut6 :: (HappyAbsSyn ) -> HappyWrap6
happyOut6 :: HappyAbsSyn -> HappyWrap6
happyOut6 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap6
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut6 #-}
newtype HappyWrap7 = HappyWrap7 (ProgramFile A0)
happyIn7 :: (ProgramFile A0) -> (HappyAbsSyn )
happyIn7 :: ProgramFile A0 -> HappyAbsSyn
happyIn7 ProgramFile A0
x = HappyWrap7 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ProgramFile A0 -> HappyWrap7
HappyWrap7 ProgramFile A0
x)
{-# INLINE happyIn7 #-}
happyOut7 :: (HappyAbsSyn ) -> HappyWrap7
happyOut7 :: HappyAbsSyn -> HappyWrap7
happyOut7 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap7
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut7 #-}
newtype HappyWrap8 = HappyWrap8 ([ ProgramUnit A0 ])
happyIn8 :: ([ ProgramUnit A0 ]) -> (HappyAbsSyn )
happyIn8 :: [ProgramUnit A0] -> HappyAbsSyn
happyIn8 [ProgramUnit A0]
x = HappyWrap8 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([ProgramUnit A0] -> HappyWrap8
HappyWrap8 [ProgramUnit A0]
x)
{-# INLINE happyIn8 #-}
happyOut8 :: (HappyAbsSyn ) -> HappyWrap8
happyOut8 :: HappyAbsSyn -> HappyWrap8
happyOut8 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap8
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut8 #-}
newtype HappyWrap9 = HappyWrap9 (ProgramUnit A0)
happyIn9 :: (ProgramUnit A0) -> (HappyAbsSyn )
happyIn9 :: ProgramUnit A0 -> HappyAbsSyn
happyIn9 ProgramUnit A0
x = HappyWrap9 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ProgramUnit A0 -> HappyWrap9
HappyWrap9 ProgramUnit A0
x)
{-# INLINE happyIn9 #-}
happyOut9 :: (HappyAbsSyn ) -> HappyWrap9
happyOut9 :: HappyAbsSyn -> HappyWrap9
happyOut9 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap9
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut9 #-}
newtype HappyWrap10 = HappyWrap10 (Maybe [ ProgramUnit A0 ])
happyIn10 :: (Maybe [ ProgramUnit A0 ]) -> (HappyAbsSyn )
happyIn10 :: Maybe [ProgramUnit A0] -> HappyAbsSyn
happyIn10 Maybe [ProgramUnit A0]
x = HappyWrap10 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe [ProgramUnit A0] -> HappyWrap10
HappyWrap10 Maybe [ProgramUnit A0]
x)
{-# INLINE happyIn10 #-}
happyOut10 :: (HappyAbsSyn ) -> HappyWrap10
happyOut10 :: HappyAbsSyn -> HappyWrap10
happyOut10 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap10
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut10 #-}
newtype HappyWrap11 = HappyWrap11 ([ ProgramUnit A0 ])
happyIn11 :: ([ ProgramUnit A0 ]) -> (HappyAbsSyn )
happyIn11 :: [ProgramUnit A0] -> HappyAbsSyn
happyIn11 [ProgramUnit A0]
x = HappyWrap11 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([ProgramUnit A0] -> HappyWrap11
HappyWrap11 [ProgramUnit A0]
x)
{-# INLINE happyIn11 #-}
happyOut11 :: (HappyAbsSyn ) -> HappyWrap11
happyOut11 :: HappyAbsSyn -> HappyWrap11
happyOut11 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap11
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut11 #-}
newtype HappyWrap12 = HappyWrap12 (ProgramUnit A0)
happyIn12 :: (ProgramUnit A0) -> (HappyAbsSyn )
happyIn12 :: ProgramUnit A0 -> HappyAbsSyn
happyIn12 ProgramUnit A0
x = HappyWrap12 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ProgramUnit A0 -> HappyWrap12
HappyWrap12 ProgramUnit A0
x)
{-# INLINE happyIn12 #-}
happyOut12 :: (HappyAbsSyn ) -> HappyWrap12
happyOut12 :: HappyAbsSyn -> HappyWrap12
happyOut12 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap12
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut12 #-}
newtype HappyWrap13 = HappyWrap13 ([Either (Prefix A0) (TypeSpec A0)])
happyIn13 :: ([Either (Prefix A0) (TypeSpec A0)]) -> (HappyAbsSyn )
happyIn13 :: [Either (Prefix A0) (TypeSpec A0)] -> HappyAbsSyn
happyIn13 [Either (Prefix A0) (TypeSpec A0)]
x = HappyWrap13 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Either (Prefix A0) (TypeSpec A0)] -> HappyWrap13
HappyWrap13 [Either (Prefix A0) (TypeSpec A0)]
x)
{-# INLINE happyIn13 #-}
happyOut13 :: (HappyAbsSyn ) -> HappyWrap13
happyOut13 :: HappyAbsSyn -> HappyWrap13
happyOut13 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap13
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut13 #-}
newtype HappyWrap14 = HappyWrap14 (Either (Prefix A0) (TypeSpec A0))
happyIn14 :: (Either (Prefix A0) (TypeSpec A0)) -> (HappyAbsSyn )
happyIn14 :: Either (Prefix A0) (TypeSpec A0) -> HappyAbsSyn
happyIn14 Either (Prefix A0) (TypeSpec A0)
x = HappyWrap14 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Either (Prefix A0) (TypeSpec A0) -> HappyWrap14
HappyWrap14 Either (Prefix A0) (TypeSpec A0)
x)
{-# INLINE happyIn14 #-}
happyOut14 :: (HappyAbsSyn ) -> HappyWrap14
happyOut14 :: HappyAbsSyn -> HappyWrap14
happyOut14 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap14
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut14 #-}
newtype HappyWrap15 = HappyWrap15 (Expression A0)
happyIn15 :: (Expression A0) -> (HappyAbsSyn )
happyIn15 :: Expression A0 -> HappyAbsSyn
happyIn15 Expression A0
x = HappyWrap15 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap15
HappyWrap15 Expression A0
x)
{-# INLINE happyIn15 #-}
happyOut15 :: (HappyAbsSyn ) -> HappyWrap15
happyOut15 :: HappyAbsSyn -> HappyWrap15
happyOut15 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap15
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut15 #-}
newtype HappyWrap16 = HappyWrap16 (Maybe (Expression A0))
happyIn16 :: (Maybe (Expression A0)) -> (HappyAbsSyn )
happyIn16 :: Maybe (Expression A0) -> HappyAbsSyn
happyIn16 Maybe (Expression A0)
x = HappyWrap16 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (Expression A0) -> HappyWrap16
HappyWrap16 Maybe (Expression A0)
x)
{-# INLINE happyIn16 #-}
happyOut16 :: (HappyAbsSyn ) -> HappyWrap16
happyOut16 :: HappyAbsSyn -> HappyWrap16
happyOut16 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap16
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut16 #-}
newtype HappyWrap17 = HappyWrap17 (Maybe (AList Expression A0))
happyIn17 :: (Maybe (AList Expression A0)) -> (HappyAbsSyn )
happyIn17 :: Maybe (AList Expression A0) -> HappyAbsSyn
happyIn17 Maybe (AList Expression A0)
x = HappyWrap17 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (AList Expression A0) -> HappyWrap17
HappyWrap17 Maybe (AList Expression A0)
x)
{-# INLINE happyIn17 #-}
happyOut17 :: (HappyAbsSyn ) -> HappyWrap17
happyOut17 :: HappyAbsSyn -> HappyWrap17
happyOut17 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap17
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut17 #-}
newtype HappyWrap18 = HappyWrap18 (Token)
happyIn18 :: (Token) -> (HappyAbsSyn )
happyIn18 :: Token -> HappyAbsSyn
happyIn18 Token
x = HappyWrap18 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap18
HappyWrap18 Token
x)
{-# INLINE happyIn18 #-}
happyOut18 :: (HappyAbsSyn ) -> HappyWrap18
happyOut18 :: HappyAbsSyn -> HappyWrap18
happyOut18 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap18
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut18 #-}
newtype HappyWrap19 = HappyWrap19 (Token)
happyIn19 :: (Token) -> (HappyAbsSyn )
happyIn19 :: Token -> HappyAbsSyn
happyIn19 Token
x = HappyWrap19 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap19
HappyWrap19 Token
x)
{-# INLINE happyIn19 #-}
happyOut19 :: (HappyAbsSyn ) -> HappyWrap19
happyOut19 :: HappyAbsSyn -> HappyWrap19
happyOut19 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap19
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut19 #-}
newtype HappyWrap20 = HappyWrap20 (Token)
happyIn20 :: (Token) -> (HappyAbsSyn )
happyIn20 :: Token -> HappyAbsSyn
happyIn20 Token
x = HappyWrap20 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap20
HappyWrap20 Token
x)
{-# INLINE happyIn20 #-}
happyOut20 :: (HappyAbsSyn ) -> HappyWrap20
happyOut20 :: HappyAbsSyn -> HappyWrap20
happyOut20 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap20
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut20 #-}
newtype HappyWrap21 = HappyWrap21 (Token)
happyIn21 :: (Token) -> (HappyAbsSyn )
happyIn21 :: Token -> HappyAbsSyn
happyIn21 Token
x = HappyWrap21 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap21
HappyWrap21 Token
x)
{-# INLINE happyIn21 #-}
happyOut21 :: (HappyAbsSyn ) -> HappyWrap21
happyOut21 :: HappyAbsSyn -> HappyWrap21
happyOut21 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap21
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut21 #-}
newtype HappyWrap22 = HappyWrap22 (Token)
happyIn22 :: (Token) -> (HappyAbsSyn )
happyIn22 :: Token -> HappyAbsSyn
happyIn22 Token
x = HappyWrap22 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap22
HappyWrap22 Token
x)
{-# INLINE happyIn22 #-}
happyOut22 :: (HappyAbsSyn ) -> HappyWrap22
happyOut22 :: HappyAbsSyn -> HappyWrap22
happyOut22 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap22
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut22 #-}
newtype HappyWrap23 = HappyWrap23 (Token)
happyIn23 :: (Token) -> (HappyAbsSyn )
happyIn23 :: Token -> HappyAbsSyn
happyIn23 Token
x = HappyWrap23 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap23
HappyWrap23 Token
x)
{-# INLINE happyIn23 #-}
happyOut23 :: (HappyAbsSyn ) -> HappyWrap23
happyOut23 :: HappyAbsSyn -> HappyWrap23
happyOut23 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap23
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut23 #-}
newtype HappyWrap24 = HappyWrap24 (Name)
happyIn24 :: (Name) -> (HappyAbsSyn )
happyIn24 :: Name -> HappyAbsSyn
happyIn24 Name
x = HappyWrap24 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Name -> HappyWrap24
HappyWrap24 Name
x)
{-# INLINE happyIn24 #-}
happyOut24 :: (HappyAbsSyn ) -> HappyWrap24
happyOut24 :: HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap24
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut24 #-}
newtype HappyWrap25 = HappyWrap25 ([ Block A0 ])
happyIn25 :: ([ Block A0 ]) -> (HappyAbsSyn )
happyIn25 :: [Block A0] -> HappyAbsSyn
happyIn25 [Block A0]
x = HappyWrap25 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Block A0] -> HappyWrap25
HappyWrap25 [Block A0]
x)
{-# INLINE happyIn25 #-}
happyOut25 :: (HappyAbsSyn ) -> HappyWrap25
happyOut25 :: HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap25
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut25 #-}
newtype HappyWrap26 = HappyWrap26 (Block A0)
happyIn26 :: (Block A0) -> (HappyAbsSyn )
happyIn26 :: Block A0 -> HappyAbsSyn
happyIn26 Block A0
x = HappyWrap26 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Block A0 -> HappyWrap26
HappyWrap26 Block A0
x)
{-# INLINE happyIn26 #-}
happyOut26 :: (HappyAbsSyn ) -> HappyWrap26
happyOut26 :: HappyAbsSyn -> HappyWrap26
happyOut26 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap26
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut26 #-}
newtype HappyWrap27 = HappyWrap27 (Maybe (Expression A0))
happyIn27 :: (Maybe (Expression A0)) -> (HappyAbsSyn )
happyIn27 :: Maybe (Expression A0) -> HappyAbsSyn
happyIn27 Maybe (Expression A0)
x = HappyWrap27 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (Expression A0) -> HappyWrap27
HappyWrap27 Maybe (Expression A0)
x)
{-# INLINE happyIn27 #-}
happyOut27 :: (HappyAbsSyn ) -> HappyWrap27
happyOut27 :: HappyAbsSyn -> HappyWrap27
happyOut27 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap27
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut27 #-}
newtype HappyWrap28 = HappyWrap28 (Maybe Token)
happyIn28 :: (Maybe Token) -> (HappyAbsSyn )
happyIn28 :: Maybe Token -> HappyAbsSyn
happyIn28 Maybe Token
x = HappyWrap28 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe Token -> HappyWrap28
HappyWrap28 Maybe Token
x)
{-# INLINE happyIn28 #-}
happyOut28 :: (HappyAbsSyn ) -> HappyWrap28
happyOut28 :: HappyAbsSyn -> HappyWrap28
happyOut28 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap28
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut28 #-}
newtype HappyWrap29 = HappyWrap29 ([ ProgramUnit A0 ])
happyIn29 :: ([ ProgramUnit A0 ]) -> (HappyAbsSyn )
happyIn29 :: [ProgramUnit A0] -> HappyAbsSyn
happyIn29 [ProgramUnit A0]
x = HappyWrap29 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([ProgramUnit A0] -> HappyWrap29
HappyWrap29 [ProgramUnit A0]
x)
{-# INLINE happyIn29 #-}
happyOut29 :: (HappyAbsSyn ) -> HappyWrap29
happyOut29 :: HappyAbsSyn -> HappyWrap29
happyOut29 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap29
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut29 #-}
newtype HappyWrap30 = HappyWrap30 ([ Block A0 ])
happyIn30 :: ([ Block A0 ]) -> (HappyAbsSyn )
happyIn30 :: [Block A0] -> HappyAbsSyn
happyIn30 [Block A0]
x = HappyWrap30 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Block A0] -> HappyWrap30
HappyWrap30 [Block A0]
x)
{-# INLINE happyIn30 #-}
happyOut30 :: (HappyAbsSyn ) -> HappyWrap30
happyOut30 :: HappyAbsSyn -> HappyWrap30
happyOut30 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap30
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut30 #-}
newtype HappyWrap31 = HappyWrap31 (Block A0)
happyIn31 :: (Block A0) -> (HappyAbsSyn )
happyIn31 :: Block A0 -> HappyAbsSyn
happyIn31 Block A0
x = HappyWrap31 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Block A0 -> HappyWrap31
HappyWrap31 Block A0
x)
{-# INLINE happyIn31 #-}
happyOut31 :: (HappyAbsSyn ) -> HappyWrap31
happyOut31 :: HappyAbsSyn -> HappyWrap31
happyOut31 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap31
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut31 #-}
newtype HappyWrap32 = HappyWrap32 (Block A0)
happyIn32 :: (Block A0) -> (HappyAbsSyn )
happyIn32 :: Block A0 -> HappyAbsSyn
happyIn32 Block A0
x = HappyWrap32 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Block A0 -> HappyWrap32
HappyWrap32 Block A0
x)
{-# INLINE happyIn32 #-}
happyOut32 :: (HappyAbsSyn ) -> HappyWrap32
happyOut32 :: HappyAbsSyn -> HappyWrap32
happyOut32 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap32
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut32 #-}
newtype HappyWrap33 = HappyWrap33 (Maybe Token)
happyIn33 :: (Maybe Token) -> (HappyAbsSyn )
happyIn33 :: Maybe Token -> HappyAbsSyn
happyIn33 Maybe Token
x = HappyWrap33 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe Token -> HappyWrap33
HappyWrap33 Maybe Token
x)
{-# INLINE happyIn33 #-}
happyOut33 :: (HappyAbsSyn ) -> HappyWrap33
happyOut33 :: HappyAbsSyn -> HappyWrap33
happyOut33 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap33
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut33 #-}
newtype HappyWrap34 = HappyWrap34 (Token)
happyIn34 :: (Token) -> (HappyAbsSyn )
happyIn34 :: Token -> HappyAbsSyn
happyIn34 Token
x = HappyWrap34 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Token -> HappyWrap34
HappyWrap34 Token
x)
{-# INLINE happyIn34 #-}
happyOut34 :: (HappyAbsSyn ) -> HappyWrap34
happyOut34 :: HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap34
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut34 #-}
newtype HappyWrap35 = HappyWrap35 (Statement A0)
happyIn35 :: (Statement A0) -> (HappyAbsSyn )
happyIn35 :: Statement A0 -> HappyAbsSyn
happyIn35 Statement A0
x = HappyWrap35 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Statement A0 -> HappyWrap35
HappyWrap35 Statement A0
x)
{-# INLINE happyIn35 #-}
happyOut35 :: (HappyAbsSyn ) -> HappyWrap35
happyOut35 :: HappyAbsSyn -> HappyWrap35
happyOut35 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap35
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut35 #-}
newtype HappyWrap36 = HappyWrap36 (Statement A0)
happyIn36 :: (Statement A0) -> (HappyAbsSyn )
happyIn36 :: Statement A0 -> HappyAbsSyn
happyIn36 Statement A0
x = HappyWrap36 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Statement A0 -> HappyWrap36
HappyWrap36 Statement A0
x)
{-# INLINE happyIn36 #-}
happyOut36 :: (HappyAbsSyn ) -> HappyWrap36
happyOut36 :: HappyAbsSyn -> HappyWrap36
happyOut36 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap36
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut36 #-}
newtype HappyWrap37 = HappyWrap37 (Statement A0)
happyIn37 :: (Statement A0) -> (HappyAbsSyn )
happyIn37 :: Statement A0 -> HappyAbsSyn
happyIn37 Statement A0
x = HappyWrap37 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Statement A0 -> HappyWrap37
HappyWrap37 Statement A0
x)
{-# INLINE happyIn37 #-}
happyOut37 :: (HappyAbsSyn ) -> HappyWrap37
happyOut37 :: HappyAbsSyn -> HappyWrap37
happyOut37 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap37
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut37 #-}
newtype HappyWrap38 = HappyWrap38 (Statement A0)
happyIn38 :: (Statement A0) -> (HappyAbsSyn )
happyIn38 :: Statement A0 -> HappyAbsSyn
happyIn38 Statement A0
x = HappyWrap38 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Statement A0 -> HappyWrap38
HappyWrap38 Statement A0
x)
{-# INLINE happyIn38 #-}
happyOut38 :: (HappyAbsSyn ) -> HappyWrap38
happyOut38 :: HappyAbsSyn -> HappyWrap38
happyOut38 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap38
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut38 #-}
newtype HappyWrap39 = HappyWrap39 ([ Argument A0 ])
happyIn39 :: ([ Argument A0 ]) -> (HappyAbsSyn )
happyIn39 :: [Argument A0] -> HappyAbsSyn
happyIn39 [Argument A0]
x = HappyWrap39 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Argument A0] -> HappyWrap39
HappyWrap39 [Argument A0]
x)
{-# INLINE happyIn39 #-}
happyOut39 :: (HappyAbsSyn ) -> HappyWrap39
happyOut39 :: HappyAbsSyn -> HappyWrap39
happyOut39 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap39
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut39 #-}
newtype HappyWrap40 = HappyWrap40 (Argument A0)
happyIn40 :: (Argument A0) -> (HappyAbsSyn )
happyIn40 :: Argument A0 -> HappyAbsSyn
happyIn40 Argument A0
x = HappyWrap40 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Argument A0 -> HappyWrap40
HappyWrap40 Argument A0
x)
{-# INLINE happyIn40 #-}
happyOut40 :: (HappyAbsSyn ) -> HappyWrap40
happyOut40 :: HappyAbsSyn -> HappyWrap40
happyOut40 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap40
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut40 #-}
newtype HappyWrap41 = HappyWrap41 (Maybe (AList Use A0))
happyIn41 :: (Maybe (AList Use A0)) -> (HappyAbsSyn )
happyIn41 :: Maybe (AList Use A0) -> HappyAbsSyn
happyIn41 Maybe (AList Use A0)
x = HappyWrap41 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (AList Use A0) -> HappyWrap41
HappyWrap41 Maybe (AList Use A0)
x)
{-# INLINE happyIn41 #-}
happyOut41 :: (HappyAbsSyn ) -> HappyWrap41
happyOut41 :: HappyAbsSyn -> HappyWrap41
happyOut41 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap41
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut41 #-}
newtype HappyWrap42 = HappyWrap42 ([ Use A0 ])
happyIn42 :: ([ Use A0 ]) -> (HappyAbsSyn )
happyIn42 :: [Use A0] -> HappyAbsSyn
happyIn42 [Use A0]
x = HappyWrap42 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Use A0] -> HappyWrap42
HappyWrap42 [Use A0]
x)
{-# INLINE happyIn42 #-}
happyOut42 :: (HappyAbsSyn ) -> HappyWrap42
happyOut42 :: HappyAbsSyn -> HappyWrap42
happyOut42 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap42
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut42 #-}
newtype HappyWrap43 = HappyWrap43 (Use A0)
happyIn43 :: (Use A0) -> (HappyAbsSyn )
happyIn43 :: Use A0 -> HappyAbsSyn
happyIn43 Use A0
x = HappyWrap43 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Use A0 -> HappyWrap43
HappyWrap43 Use A0
x)
{-# INLINE happyIn43 #-}
happyOut43 :: (HappyAbsSyn ) -> HappyWrap43
happyOut43 :: HappyAbsSyn -> HappyWrap43
happyOut43 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap43
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut43 #-}
newtype HappyWrap44 = HappyWrap44 (())
happyIn44 :: (()) -> (HappyAbsSyn )
happyIn44 :: A0 -> HappyAbsSyn
happyIn44 A0
x = HappyWrap44 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap44
HappyWrap44 A0
x)
{-# INLINE happyIn44 #-}
happyOut44 :: (HappyAbsSyn ) -> HappyWrap44
happyOut44 :: HappyAbsSyn -> HappyWrap44
happyOut44 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap44
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut44 #-}
newtype HappyWrap45 = HappyWrap45 (Expression A0)
happyIn45 :: (Expression A0) -> (HappyAbsSyn )
happyIn45 :: Expression A0 -> HappyAbsSyn
happyIn45 Expression A0
x = HappyWrap45 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap45
HappyWrap45 Expression A0
x)
{-# INLINE happyIn45 #-}
happyOut45 :: (HappyAbsSyn ) -> HappyWrap45
happyOut45 :: HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap45
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut45 #-}
newtype HappyWrap46 = HappyWrap46 (Expression A0)
happyIn46 :: (Expression A0) -> (HappyAbsSyn )
happyIn46 :: Expression A0 -> HappyAbsSyn
happyIn46 Expression A0
x = HappyWrap46 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap46
HappyWrap46 Expression A0
x)
{-# INLINE happyIn46 #-}
happyOut46 :: (HappyAbsSyn ) -> HappyWrap46
happyOut46 :: HappyAbsSyn -> HappyWrap46
happyOut46 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap46
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut46 #-}
newtype HappyWrap47 = HappyWrap47 (AList ControlPair A0)
happyIn47 :: (AList ControlPair A0) -> (HappyAbsSyn )
happyIn47 :: AList ControlPair A0 -> HappyAbsSyn
happyIn47 AList ControlPair A0
x = HappyWrap47 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (AList ControlPair A0 -> HappyWrap47
HappyWrap47 AList ControlPair A0
x)
{-# INLINE happyIn47 #-}
happyOut47 :: (HappyAbsSyn ) -> HappyWrap47
happyOut47 :: HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap47
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut47 #-}
newtype HappyWrap48 = HappyWrap48 ([ ControlPair A0 ])
happyIn48 :: ([ ControlPair A0 ]) -> (HappyAbsSyn )
happyIn48 :: [ControlPair A0] -> HappyAbsSyn
happyIn48 [ControlPair A0]
x = HappyWrap48 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([ControlPair A0] -> HappyWrap48
HappyWrap48 [ControlPair A0]
x)
{-# INLINE happyIn48 #-}
happyOut48 :: (HappyAbsSyn ) -> HappyWrap48
happyOut48 :: HappyAbsSyn -> HappyWrap48
happyOut48 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap48
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut48 #-}
newtype HappyWrap49 = HappyWrap49 (ControlPair A0)
happyIn49 :: (ControlPair A0) -> (HappyAbsSyn )
happyIn49 :: ControlPair A0 -> HappyAbsSyn
happyIn49 ControlPair A0
x = HappyWrap49 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ControlPair A0 -> HappyWrap49
HappyWrap49 ControlPair A0
x)
{-# INLINE happyIn49 #-}
happyOut49 :: (HappyAbsSyn ) -> HappyWrap49
happyOut49 :: HappyAbsSyn -> HappyWrap49
happyOut49 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap49
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut49 #-}
newtype HappyWrap50 = HappyWrap50 (Expression A0)
happyIn50 :: (Expression A0) -> (HappyAbsSyn )
happyIn50 :: Expression A0 -> HappyAbsSyn
happyIn50 Expression A0
x = HappyWrap50 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap50
HappyWrap50 Expression A0
x)
{-# INLINE happyIn50 #-}
happyOut50 :: (HappyAbsSyn ) -> HappyWrap50
happyOut50 :: HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap50
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut50 #-}
newtype HappyWrap51 = HappyWrap51 (Expression A0)
happyIn51 :: (Expression A0) -> (HappyAbsSyn )
happyIn51 :: Expression A0 -> HappyAbsSyn
happyIn51 Expression A0
x = HappyWrap51 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap51
HappyWrap51 Expression A0
x)
{-# INLINE happyIn51 #-}
happyOut51 :: (HappyAbsSyn ) -> HappyWrap51
happyOut51 :: HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap51
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut51 #-}
newtype HappyWrap52 = HappyWrap52 (Maybe (AList AllocOpt A0))
happyIn52 :: (Maybe (AList AllocOpt A0)) -> (HappyAbsSyn )
happyIn52 :: Maybe (AList AllocOpt A0) -> HappyAbsSyn
happyIn52 Maybe (AList AllocOpt A0)
x = HappyWrap52 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (AList AllocOpt A0) -> HappyWrap52
HappyWrap52 Maybe (AList AllocOpt A0)
x)
{-# INLINE happyIn52 #-}
happyOut52 :: (HappyAbsSyn ) -> HappyWrap52
happyOut52 :: HappyAbsSyn -> HappyWrap52
happyOut52 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap52
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut52 #-}
newtype HappyWrap53 = HappyWrap53 ([ Expression A0 ])
happyIn53 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn53 :: [Expression A0] -> HappyAbsSyn
happyIn53 [Expression A0]
x = HappyWrap53 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap53
HappyWrap53 [Expression A0]
x)
{-# INLINE happyIn53 #-}
happyOut53 :: (HappyAbsSyn ) -> HappyWrap53
happyOut53 :: HappyAbsSyn -> HappyWrap53
happyOut53 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap53
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut53 #-}
newtype HappyWrap54 = HappyWrap54 (Expression A0)
happyIn54 :: (Expression A0) -> (HappyAbsSyn )
happyIn54 :: Expression A0 -> HappyAbsSyn
happyIn54 Expression A0
x = HappyWrap54 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap54
HappyWrap54 Expression A0
x)
{-# INLINE happyIn54 #-}
happyOut54 :: (HappyAbsSyn ) -> HappyWrap54
happyOut54 :: HappyAbsSyn -> HappyWrap54
happyOut54 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap54
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut54 #-}
newtype HappyWrap55 = HappyWrap55 ([ Expression A0 ])
happyIn55 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn55 :: [Expression A0] -> HappyAbsSyn
happyIn55 [Expression A0]
x = HappyWrap55 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap55
HappyWrap55 [Expression A0]
x)
{-# INLINE happyIn55 #-}
happyOut55 :: (HappyAbsSyn ) -> HappyWrap55
happyOut55 :: HappyAbsSyn -> HappyWrap55
happyOut55 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap55
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut55 #-}
newtype HappyWrap56 = HappyWrap56 ([ CommonGroup A0 ])
happyIn56 :: ([ CommonGroup A0 ]) -> (HappyAbsSyn )
happyIn56 :: [CommonGroup A0] -> HappyAbsSyn
happyIn56 [CommonGroup A0]
x = HappyWrap56 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([CommonGroup A0] -> HappyWrap56
HappyWrap56 [CommonGroup A0]
x)
{-# INLINE happyIn56 #-}
happyOut56 :: (HappyAbsSyn ) -> HappyWrap56
happyOut56 :: HappyAbsSyn -> HappyWrap56
happyOut56 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap56
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut56 #-}
newtype HappyWrap57 = HappyWrap57 (CommonGroup A0)
happyIn57 :: (CommonGroup A0) -> (HappyAbsSyn )
happyIn57 :: CommonGroup A0 -> HappyAbsSyn
happyIn57 CommonGroup A0
x = HappyWrap57 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (CommonGroup A0 -> HappyWrap57
HappyWrap57 CommonGroup A0
x)
{-# INLINE happyIn57 #-}
happyOut57 :: (HappyAbsSyn ) -> HappyWrap57
happyOut57 :: HappyAbsSyn -> HappyWrap57
happyOut57 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap57
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut57 #-}
newtype HappyWrap58 = HappyWrap58 (CommonGroup A0)
happyIn58 :: (CommonGroup A0) -> (HappyAbsSyn )
happyIn58 :: CommonGroup A0 -> HappyAbsSyn
happyIn58 CommonGroup A0
x = HappyWrap58 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (CommonGroup A0 -> HappyWrap58
HappyWrap58 CommonGroup A0
x)
{-# INLINE happyIn58 #-}
happyOut58 :: (HappyAbsSyn ) -> HappyWrap58
happyOut58 :: HappyAbsSyn -> HappyWrap58
happyOut58 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap58
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut58 #-}
newtype HappyWrap59 = HappyWrap59 ([ AList Expression A0 ])
happyIn59 :: ([ AList Expression A0 ]) -> (HappyAbsSyn )
happyIn59 :: [AList Expression A0] -> HappyAbsSyn
happyIn59 [AList Expression A0]
x = HappyWrap59 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([AList Expression A0] -> HappyWrap59
HappyWrap59 [AList Expression A0]
x)
{-# INLINE happyIn59 #-}
happyOut59 :: (HappyAbsSyn ) -> HappyWrap59
happyOut59 :: HappyAbsSyn -> HappyWrap59
happyOut59 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap59
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut59 #-}
newtype HappyWrap60 = HappyWrap60 ([ Namelist A0 ])
happyIn60 :: ([ Namelist A0 ]) -> (HappyAbsSyn )
happyIn60 :: [Namelist A0] -> HappyAbsSyn
happyIn60 [Namelist A0]
x = HappyWrap60 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Namelist A0] -> HappyWrap60
HappyWrap60 [Namelist A0]
x)
{-# INLINE happyIn60 #-}
happyOut60 :: (HappyAbsSyn ) -> HappyWrap60
happyOut60 :: HappyAbsSyn -> HappyWrap60
happyOut60 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap60
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut60 #-}
newtype HappyWrap61 = HappyWrap61 (Namelist A0)
happyIn61 :: (Namelist A0) -> (HappyAbsSyn )
happyIn61 :: Namelist A0 -> HappyAbsSyn
happyIn61 Namelist A0
x = HappyWrap61 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Namelist A0 -> HappyWrap61
HappyWrap61 Namelist A0
x)
{-# INLINE happyIn61 #-}
happyOut61 :: (HappyAbsSyn ) -> HappyWrap61
happyOut61 :: HappyAbsSyn -> HappyWrap61
happyOut61 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap61
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut61 #-}
newtype HappyWrap62 = HappyWrap62 (Maybe (AList Expression A0))
happyIn62 :: (Maybe (AList Expression A0)) -> (HappyAbsSyn )
happyIn62 :: Maybe (AList Expression A0) -> HappyAbsSyn
happyIn62 Maybe (AList Expression A0)
x = HappyWrap62 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (AList Expression A0) -> HappyWrap62
HappyWrap62 Maybe (AList Expression A0)
x)
{-# INLINE happyIn62 #-}
happyOut62 :: (HappyAbsSyn ) -> HappyWrap62
happyOut62 :: HappyAbsSyn -> HappyWrap62
happyOut62 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap62
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut62 #-}
newtype HappyWrap63 = HappyWrap63 ([ Expression A0 ])
happyIn63 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn63 :: [Expression A0] -> HappyAbsSyn
happyIn63 [Expression A0]
x = HappyWrap63 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap63
HappyWrap63 [Expression A0]
x)
{-# INLINE happyIn63 #-}
happyOut63 :: (HappyAbsSyn ) -> HappyWrap63
happyOut63 :: HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap63
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut63 #-}
newtype HappyWrap64 = HappyWrap64 ([ ImpList A0 ])
happyIn64 :: ([ ImpList A0 ]) -> (HappyAbsSyn )
happyIn64 :: [ImpList A0] -> HappyAbsSyn
happyIn64 [ImpList A0]
x = HappyWrap64 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([ImpList A0] -> HappyWrap64
HappyWrap64 [ImpList A0]
x)
{-# INLINE happyIn64 #-}
happyOut64 :: (HappyAbsSyn ) -> HappyWrap64
happyOut64 :: HappyAbsSyn -> HappyWrap64
happyOut64 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap64
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut64 #-}
newtype HappyWrap65 = HappyWrap65 (ImpList A0)
happyIn65 :: (ImpList A0) -> (HappyAbsSyn )
happyIn65 :: ImpList A0 -> HappyAbsSyn
happyIn65 ImpList A0
x = HappyWrap65 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ImpList A0 -> HappyWrap65
HappyWrap65 ImpList A0
x)
{-# INLINE happyIn65 #-}
happyOut65 :: (HappyAbsSyn ) -> HappyWrap65
happyOut65 :: HappyAbsSyn -> HappyWrap65
happyOut65 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap65
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut65 #-}
newtype HappyWrap66 = HappyWrap66 (AList ImpElement A0)
happyIn66 :: (AList ImpElement A0) -> (HappyAbsSyn )
happyIn66 :: AList ImpElement A0 -> HappyAbsSyn
happyIn66 AList ImpElement A0
x = HappyWrap66 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (AList ImpElement A0 -> HappyWrap66
HappyWrap66 AList ImpElement A0
x)
{-# INLINE happyIn66 #-}
happyOut66 :: (HappyAbsSyn ) -> HappyWrap66
happyOut66 :: HappyAbsSyn -> HappyWrap66
happyOut66 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap66
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut66 #-}
newtype HappyWrap67 = HappyWrap67 (ImpElement A0)
happyIn67 :: (ImpElement A0) -> (HappyAbsSyn )
happyIn67 :: ImpElement A0 -> HappyAbsSyn
happyIn67 ImpElement A0
x = HappyWrap67 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (ImpElement A0 -> HappyWrap67
HappyWrap67 ImpElement A0
x)
{-# INLINE happyIn67 #-}
happyOut67 :: (HappyAbsSyn ) -> HappyWrap67
happyOut67 :: HappyAbsSyn -> HappyWrap67
happyOut67 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap67
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut67 #-}
newtype HappyWrap68 = HappyWrap68 ([ Declarator A0 ])
happyIn68 :: ([ Declarator A0 ]) -> (HappyAbsSyn )
happyIn68 :: [Declarator A0] -> HappyAbsSyn
happyIn68 [Declarator A0]
x = HappyWrap68 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Declarator A0] -> HappyWrap68
HappyWrap68 [Declarator A0]
x)
{-# INLINE happyIn68 #-}
happyOut68 :: (HappyAbsSyn ) -> HappyWrap68
happyOut68 :: HappyAbsSyn -> HappyWrap68
happyOut68 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap68
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut68 #-}
newtype HappyWrap69 = HappyWrap69 (Declarator A0)
happyIn69 :: (Declarator A0) -> (HappyAbsSyn )
happyIn69 :: Declarator A0 -> HappyAbsSyn
happyIn69 Declarator A0
x = HappyWrap69 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Declarator A0 -> HappyWrap69
HappyWrap69 Declarator A0
x)
{-# INLINE happyIn69 #-}
happyOut69 :: (HappyAbsSyn ) -> HappyWrap69
happyOut69 :: HappyAbsSyn -> HappyWrap69
happyOut69 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap69
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut69 #-}
newtype HappyWrap70 = HappyWrap70 (Statement A0)
happyIn70 :: (Statement A0) -> (HappyAbsSyn )
happyIn70 :: Statement A0 -> HappyAbsSyn
happyIn70 Statement A0
x = HappyWrap70 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Statement A0 -> HappyWrap70
HappyWrap70 Statement A0
x)
{-# INLINE happyIn70 #-}
happyOut70 :: (HappyAbsSyn ) -> HappyWrap70
happyOut70 :: HappyAbsSyn -> HappyWrap70
happyOut70 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap70
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut70 #-}
newtype HappyWrap71 = HappyWrap71 ([ Attribute A0 ])
happyIn71 :: ([ Attribute A0 ]) -> (HappyAbsSyn )
happyIn71 :: [Attribute A0] -> HappyAbsSyn
happyIn71 [Attribute A0]
x = HappyWrap71 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Attribute A0] -> HappyWrap71
HappyWrap71 [Attribute A0]
x)
{-# INLINE happyIn71 #-}
happyOut71 :: (HappyAbsSyn ) -> HappyWrap71
happyOut71 :: HappyAbsSyn -> HappyWrap71
happyOut71 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap71
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut71 #-}
newtype HappyWrap72 = HappyWrap72 (Attribute A0)
happyIn72 :: (Attribute A0) -> (HappyAbsSyn )
happyIn72 :: Attribute A0 -> HappyAbsSyn
happyIn72 Attribute A0
x = HappyWrap72 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Attribute A0 -> HappyWrap72
HappyWrap72 Attribute A0
x)
{-# INLINE happyIn72 #-}
happyOut72 :: (HappyAbsSyn ) -> HappyWrap72
happyOut72 :: HappyAbsSyn -> HappyWrap72
happyOut72 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap72
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut72 #-}
newtype HappyWrap73 = HappyWrap73 (Intent)
happyIn73 :: (Intent) -> (HappyAbsSyn )
happyIn73 :: Intent -> HappyAbsSyn
happyIn73 Intent
x = HappyWrap73 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Intent -> HappyWrap73
HappyWrap73 Intent
x)
{-# INLINE happyIn73 #-}
happyOut73 :: (HappyAbsSyn ) -> HappyWrap73
happyOut73 :: HappyAbsSyn -> HappyWrap73
happyOut73 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap73
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut73 #-}
newtype HappyWrap74 = HappyWrap74 ([ DataGroup A0 ])
happyIn74 :: ([ DataGroup A0 ]) -> (HappyAbsSyn )
happyIn74 :: [DataGroup A0] -> HappyAbsSyn
happyIn74 [DataGroup A0]
x = HappyWrap74 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([DataGroup A0] -> HappyWrap74
HappyWrap74 [DataGroup A0]
x)
{-# INLINE happyIn74 #-}
happyOut74 :: (HappyAbsSyn ) -> HappyWrap74
happyOut74 :: HappyAbsSyn -> HappyWrap74
happyOut74 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap74
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut74 #-}
newtype HappyWrap75 = HappyWrap75 (())
happyIn75 :: (()) -> (HappyAbsSyn )
happyIn75 :: A0 -> HappyAbsSyn
happyIn75 A0
x = HappyWrap75 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap75
HappyWrap75 A0
x)
{-# INLINE happyIn75 #-}
happyOut75 :: (HappyAbsSyn ) -> HappyWrap75
happyOut75 :: HappyAbsSyn -> HappyWrap75
happyOut75 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap75
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut75 #-}
newtype HappyWrap76 = HappyWrap76 ([ Expression A0 ])
happyIn76 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn76 :: [Expression A0] -> HappyAbsSyn
happyIn76 [Expression A0]
x = HappyWrap76 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap76
HappyWrap76 [Expression A0]
x)
{-# INLINE happyIn76 #-}
happyOut76 :: (HappyAbsSyn ) -> HappyWrap76
happyOut76 :: HappyAbsSyn -> HappyWrap76
happyOut76 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap76
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut76 #-}
newtype HappyWrap77 = HappyWrap77 (Expression A0)
happyIn77 :: (Expression A0) -> (HappyAbsSyn )
happyIn77 :: Expression A0 -> HappyAbsSyn
happyIn77 Expression A0
x = HappyWrap77 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap77
HappyWrap77 Expression A0
x)
{-# INLINE happyIn77 #-}
happyOut77 :: (HappyAbsSyn ) -> HappyWrap77
happyOut77 :: HappyAbsSyn -> HappyWrap77
happyOut77 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap77
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut77 #-}
newtype HappyWrap78 = HappyWrap78 ([ Expression A0 ])
happyIn78 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn78 :: [Expression A0] -> HappyAbsSyn
happyIn78 [Expression A0]
x = HappyWrap78 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap78
HappyWrap78 [Expression A0]
x)
{-# INLINE happyIn78 #-}
happyOut78 :: (HappyAbsSyn ) -> HappyWrap78
happyOut78 :: HappyAbsSyn -> HappyWrap78
happyOut78 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap78
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut78 #-}
newtype HappyWrap79 = HappyWrap79 (Expression A0)
happyIn79 :: (Expression A0) -> (HappyAbsSyn )
happyIn79 :: Expression A0 -> HappyAbsSyn
happyIn79 Expression A0
x = HappyWrap79 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap79
HappyWrap79 Expression A0
x)
{-# INLINE happyIn79 #-}
happyOut79 :: (HappyAbsSyn ) -> HappyWrap79
happyOut79 :: HappyAbsSyn -> HappyWrap79
happyOut79 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap79
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut79 #-}
newtype HappyWrap80 = HappyWrap80 (Expression A0)
happyIn80 :: (Expression A0) -> (HappyAbsSyn )
happyIn80 :: Expression A0 -> HappyAbsSyn
happyIn80 Expression A0
x = HappyWrap80 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap80
HappyWrap80 Expression A0
x)
{-# INLINE happyIn80 #-}
happyOut80 :: (HappyAbsSyn ) -> HappyWrap80
happyOut80 :: HappyAbsSyn -> HappyWrap80
happyOut80 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap80
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut80 #-}
newtype HappyWrap81 = HappyWrap81 ([ Declarator A0 ])
happyIn81 :: ([ Declarator A0 ]) -> (HappyAbsSyn )
happyIn81 :: [Declarator A0] -> HappyAbsSyn
happyIn81 [Declarator A0]
x = HappyWrap81 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Declarator A0] -> HappyWrap81
HappyWrap81 [Declarator A0]
x)
{-# INLINE happyIn81 #-}
happyOut81 :: (HappyAbsSyn ) -> HappyWrap81
happyOut81 :: HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap81
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut81 #-}
newtype HappyWrap82 = HappyWrap82 (Declarator A0)
happyIn82 :: (Declarator A0) -> (HappyAbsSyn )
happyIn82 :: Declarator A0 -> HappyAbsSyn
happyIn82 Declarator A0
x = HappyWrap82 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Declarator A0 -> HappyWrap82
HappyWrap82 Declarator A0
x)
{-# INLINE happyIn82 #-}
happyOut82 :: (HappyAbsSyn ) -> HappyWrap82
happyOut82 :: HappyAbsSyn -> HappyWrap82
happyOut82 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap82
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut82 #-}
newtype HappyWrap83 = HappyWrap83 (Declarator A0)
happyIn83 :: (Declarator A0) -> (HappyAbsSyn )
happyIn83 :: Declarator A0 -> HappyAbsSyn
happyIn83 Declarator A0
x = HappyWrap83 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Declarator A0 -> HappyWrap83
HappyWrap83 Declarator A0
x)
{-# INLINE happyIn83 #-}
happyOut83 :: (HappyAbsSyn ) -> HappyWrap83
happyOut83 :: HappyAbsSyn -> HappyWrap83
happyOut83 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap83
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut83 #-}
newtype HappyWrap84 = HappyWrap84 (AList DimensionDeclarator A0)
happyIn84 :: (AList DimensionDeclarator A0) -> (HappyAbsSyn )
happyIn84 :: AList DimensionDeclarator A0 -> HappyAbsSyn
happyIn84 AList DimensionDeclarator A0
x = HappyWrap84 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (AList DimensionDeclarator A0 -> HappyWrap84
HappyWrap84 AList DimensionDeclarator A0
x)
{-# INLINE happyIn84 #-}
happyOut84 :: (HappyAbsSyn ) -> HappyWrap84
happyOut84 :: HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap84
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut84 #-}
newtype HappyWrap85 = HappyWrap85 (DimensionDeclarator A0)
happyIn85 :: (DimensionDeclarator A0) -> (HappyAbsSyn )
happyIn85 :: DimensionDeclarator A0 -> HappyAbsSyn
happyIn85 DimensionDeclarator A0
x = HappyWrap85 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (DimensionDeclarator A0 -> HappyWrap85
HappyWrap85 DimensionDeclarator A0
x)
{-# INLINE happyIn85 #-}
happyOut85 :: (HappyAbsSyn ) -> HappyWrap85
happyOut85 :: HappyAbsSyn -> HappyWrap85
happyOut85 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap85
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut85 #-}
newtype HappyWrap86 = HappyWrap86 (TypeSpec A0)
happyIn86 :: (TypeSpec A0) -> (HappyAbsSyn )
happyIn86 :: TypeSpec A0 -> HappyAbsSyn
happyIn86 TypeSpec A0
x = HappyWrap86 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (TypeSpec A0 -> HappyWrap86
HappyWrap86 TypeSpec A0
x)
{-# INLINE happyIn86 #-}
happyOut86 :: (HappyAbsSyn ) -> HappyWrap86
happyOut86 :: HappyAbsSyn -> HappyWrap86
happyOut86 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap86
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut86 #-}
newtype HappyWrap87 = HappyWrap87 (Maybe (Selector A0))
happyIn87 :: (Maybe (Selector A0)) -> (HappyAbsSyn )
happyIn87 :: Maybe (Selector A0) -> HappyAbsSyn
happyIn87 Maybe (Selector A0)
x = HappyWrap87 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (Selector A0) -> HappyWrap87
HappyWrap87 Maybe (Selector A0)
x)
{-# INLINE happyIn87 #-}
happyOut87 :: (HappyAbsSyn ) -> HappyWrap87
happyOut87 :: HappyAbsSyn -> HappyWrap87
happyOut87 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap87
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut87 #-}
newtype HappyWrap88 = HappyWrap88 (Maybe (Selector A0))
happyIn88 :: (Maybe (Selector A0)) -> (HappyAbsSyn )
happyIn88 :: Maybe (Selector A0) -> HappyAbsSyn
happyIn88 Maybe (Selector A0)
x = HappyWrap88 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Maybe (Selector A0) -> HappyWrap88
HappyWrap88 Maybe (Selector A0)
x)
{-# INLINE happyIn88 #-}
happyOut88 :: (HappyAbsSyn ) -> HappyWrap88
happyOut88 :: HappyAbsSyn -> HappyWrap88
happyOut88 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap88
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut88 #-}
newtype HappyWrap89 = HappyWrap89 (Expression A0)
happyIn89 :: (Expression A0) -> (HappyAbsSyn )
happyIn89 :: Expression A0 -> HappyAbsSyn
happyIn89 Expression A0
x = HappyWrap89 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap89
HappyWrap89 Expression A0
x)
{-# INLINE happyIn89 #-}
happyOut89 :: (HappyAbsSyn ) -> HappyWrap89
happyOut89 :: HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap89
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut89 #-}
newtype HappyWrap90 = HappyWrap90 (Expression A0)
happyIn90 :: (Expression A0) -> (HappyAbsSyn )
happyIn90 :: Expression A0 -> HappyAbsSyn
happyIn90 Expression A0
x = HappyWrap90 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap90
HappyWrap90 Expression A0
x)
{-# INLINE happyIn90 #-}
happyOut90 :: (HappyAbsSyn ) -> HappyWrap90
happyOut90 :: HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap90
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut90 #-}
newtype HappyWrap91 = HappyWrap91 ([ Expression A0 ])
happyIn91 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn91 :: [Expression A0] -> HappyAbsSyn
happyIn91 [Expression A0]
x = HappyWrap91 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap91
HappyWrap91 [Expression A0]
x)
{-# INLINE happyIn91 #-}
happyOut91 :: (HappyAbsSyn ) -> HappyWrap91
happyOut91 :: HappyAbsSyn -> HappyWrap91
happyOut91 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap91
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut91 #-}
newtype HappyWrap92 = HappyWrap92 (Expression A0)
happyIn92 :: (Expression A0) -> (HappyAbsSyn )
happyIn92 :: Expression A0 -> HappyAbsSyn
happyIn92 Expression A0
x = HappyWrap92 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap92
HappyWrap92 Expression A0
x)
{-# INLINE happyIn92 #-}
happyOut92 :: (HappyAbsSyn ) -> HappyWrap92
happyOut92 :: HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap92
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut92 #-}
newtype HappyWrap93 = HappyWrap93 ([ Expression A0 ])
happyIn93 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn93 :: [Expression A0] -> HappyAbsSyn
happyIn93 [Expression A0]
x = HappyWrap93 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap93
HappyWrap93 [Expression A0]
x)
{-# INLINE happyIn93 #-}
happyOut93 :: (HappyAbsSyn ) -> HappyWrap93
happyOut93 :: HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap93
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut93 #-}
newtype HappyWrap94 = HappyWrap94 (Expression A0)
happyIn94 :: (Expression A0) -> (HappyAbsSyn )
happyIn94 :: Expression A0 -> HappyAbsSyn
happyIn94 Expression A0
x = HappyWrap94 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap94
HappyWrap94 Expression A0
x)
{-# INLINE happyIn94 #-}
happyOut94 :: (HappyAbsSyn ) -> HappyWrap94
happyOut94 :: HappyAbsSyn -> HappyWrap94
happyOut94 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap94
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut94 #-}
newtype HappyWrap95 = HappyWrap95 ([ Index A0 ])
happyIn95 :: ([ Index A0 ]) -> (HappyAbsSyn )
happyIn95 :: [Index A0] -> HappyAbsSyn
happyIn95 [Index A0]
x = HappyWrap95 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Index A0] -> HappyWrap95
HappyWrap95 [Index A0]
x)
{-# INLINE happyIn95 #-}
happyOut95 :: (HappyAbsSyn ) -> HappyWrap95
happyOut95 :: HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap95
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut95 #-}
newtype HappyWrap96 = HappyWrap96 (Index A0)
happyIn96 :: (Index A0) -> (HappyAbsSyn )
happyIn96 :: Index A0 -> HappyAbsSyn
happyIn96 Index A0
x = HappyWrap96 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Index A0 -> HappyWrap96
HappyWrap96 Index A0
x)
{-# INLINE happyIn96 #-}
happyOut96 :: (HappyAbsSyn ) -> HappyWrap96
happyOut96 :: HappyAbsSyn -> HappyWrap96
happyOut96 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap96
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut96 #-}
newtype HappyWrap97 = HappyWrap97 (Index A0)
happyIn97 :: (Index A0) -> (HappyAbsSyn )
happyIn97 :: Index A0 -> HappyAbsSyn
happyIn97 Index A0
x = HappyWrap97 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Index A0 -> HappyWrap97
HappyWrap97 Index A0
x)
{-# INLINE happyIn97 #-}
happyOut97 :: (HappyAbsSyn ) -> HappyWrap97
happyOut97 :: HappyAbsSyn -> HappyWrap97
happyOut97 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap97
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut97 #-}
newtype HappyWrap98 = HappyWrap98 (DoSpecification A0)
happyIn98 :: (DoSpecification A0) -> (HappyAbsSyn )
happyIn98 :: DoSpecification A0 -> HappyAbsSyn
happyIn98 DoSpecification A0
x = HappyWrap98 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (DoSpecification A0 -> HappyWrap98
HappyWrap98 DoSpecification A0
x)
{-# INLINE happyIn98 #-}
happyOut98 :: (HappyAbsSyn ) -> HappyWrap98
happyOut98 :: HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap98
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut98 #-}
newtype HappyWrap99 = HappyWrap99 (Expression A0)
happyIn99 :: (Expression A0) -> (HappyAbsSyn )
happyIn99 :: Expression A0 -> HappyAbsSyn
happyIn99 Expression A0
x = HappyWrap99 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap99
HappyWrap99 Expression A0
x)
{-# INLINE happyIn99 #-}
happyOut99 :: (HappyAbsSyn ) -> HappyWrap99
happyOut99 :: HappyAbsSyn -> HappyWrap99
happyOut99 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap99
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut99 #-}
newtype HappyWrap100 = HappyWrap100 ([ Expression A0 ])
happyIn100 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn100 :: [Expression A0] -> HappyAbsSyn
happyIn100 [Expression A0]
x = HappyWrap100 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap100
HappyWrap100 [Expression A0]
x)
{-# INLINE happyIn100 #-}
happyOut100 :: (HappyAbsSyn ) -> HappyWrap100
happyOut100 :: HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap100
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut100 #-}
newtype HappyWrap101 = HappyWrap101 ((SrcSpan, UnaryOp))
happyIn101 :: ((SrcSpan, UnaryOp)) -> (HappyAbsSyn )
happyIn101 :: (SrcSpan, UnaryOp) -> HappyAbsSyn
happyIn101 (SrcSpan, UnaryOp)
x = HappyWrap101 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ((SrcSpan, UnaryOp) -> HappyWrap101
HappyWrap101 (SrcSpan, UnaryOp)
x)
{-# INLINE happyIn101 #-}
happyOut101 :: (HappyAbsSyn ) -> HappyWrap101
happyOut101 :: HappyAbsSyn -> HappyWrap101
happyOut101 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap101
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut101 #-}
newtype HappyWrap102 = HappyWrap102 (BinaryOp)
happyIn102 :: (BinaryOp) -> (HappyAbsSyn )
happyIn102 :: BinaryOp -> HappyAbsSyn
happyIn102 BinaryOp
x = HappyWrap102 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (BinaryOp -> HappyWrap102
HappyWrap102 BinaryOp
x)
{-# INLINE happyIn102 #-}
happyOut102 :: (HappyAbsSyn ) -> HappyWrap102
happyOut102 :: HappyAbsSyn -> HappyWrap102
happyOut102 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap102
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut102 #-}
newtype HappyWrap103 = HappyWrap103 (Expression A0)
happyIn103 :: (Expression A0) -> (HappyAbsSyn )
happyIn103 :: Expression A0 -> HappyAbsSyn
happyIn103 Expression A0
x = HappyWrap103 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap103
HappyWrap103 Expression A0
x)
{-# INLINE happyIn103 #-}
happyOut103 :: (HappyAbsSyn ) -> HappyWrap103
happyOut103 :: HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap103
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut103 #-}
newtype HappyWrap104 = HappyWrap104 (Expression A0)
happyIn104 :: (Expression A0) -> (HappyAbsSyn )
happyIn104 :: Expression A0 -> HappyAbsSyn
happyIn104 Expression A0
x = HappyWrap104 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap104
HappyWrap104 Expression A0
x)
{-# INLINE happyIn104 #-}
happyOut104 :: (HappyAbsSyn ) -> HappyWrap104
happyOut104 :: HappyAbsSyn -> HappyWrap104
happyOut104 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap104
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut104 #-}
newtype HappyWrap105 = HappyWrap105 ([ Expression A0 ])
happyIn105 :: ([ Expression A0 ]) -> (HappyAbsSyn )
happyIn105 :: [Expression A0] -> HappyAbsSyn
happyIn105 [Expression A0]
x = HappyWrap105 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# ([Expression A0] -> HappyWrap105
HappyWrap105 [Expression A0]
x)
{-# INLINE happyIn105 #-}
happyOut105 :: (HappyAbsSyn ) -> HappyWrap105
happyOut105 :: HappyAbsSyn -> HappyWrap105
happyOut105 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap105
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut105 #-}
newtype HappyWrap106 = HappyWrap106 (Expression A0)
happyIn106 :: (Expression A0) -> (HappyAbsSyn )
happyIn106 :: Expression A0 -> HappyAbsSyn
happyIn106 Expression A0
x = HappyWrap106 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap106
HappyWrap106 Expression A0
x)
{-# INLINE happyIn106 #-}
happyOut106 :: (HappyAbsSyn ) -> HappyWrap106
happyOut106 :: HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap106
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut106 #-}
newtype HappyWrap107 = HappyWrap107 (Expression A0)
happyIn107 :: (Expression A0) -> (HappyAbsSyn )
happyIn107 :: Expression A0 -> HappyAbsSyn
happyIn107 Expression A0
x = HappyWrap107 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap107
HappyWrap107 Expression A0
x)
{-# INLINE happyIn107 #-}
happyOut107 :: (HappyAbsSyn ) -> HappyWrap107
happyOut107 :: HappyAbsSyn -> HappyWrap107
happyOut107 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap107
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut107 #-}
newtype HappyWrap108 = HappyWrap108 (Expression A0)
happyIn108 :: (Expression A0) -> (HappyAbsSyn )
happyIn108 :: Expression A0 -> HappyAbsSyn
happyIn108 Expression A0
x = HappyWrap108 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap108
HappyWrap108 Expression A0
x)
{-# INLINE happyIn108 #-}
happyOut108 :: (HappyAbsSyn ) -> HappyWrap108
happyOut108 :: HappyAbsSyn -> HappyWrap108
happyOut108 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap108
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut108 #-}
newtype HappyWrap109 = HappyWrap109 (Expression A0)
happyIn109 :: (Expression A0) -> (HappyAbsSyn )
happyIn109 :: Expression A0 -> HappyAbsSyn
happyIn109 Expression A0
x = HappyWrap109 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (Expression A0 -> HappyWrap109
HappyWrap109 Expression A0
x)
{-# INLINE happyIn109 #-}
happyOut109 :: (HappyAbsSyn ) -> HappyWrap109
happyOut109 :: HappyAbsSyn -> HappyWrap109
happyOut109 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap109
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut109 #-}
newtype HappyWrap110 = HappyWrap110 (())
happyIn110 :: (()) -> (HappyAbsSyn )
happyIn110 :: A0 -> HappyAbsSyn
happyIn110 A0
x = HappyWrap110 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap110
HappyWrap110 A0
x)
{-# INLINE happyIn110 #-}
happyOut110 :: (HappyAbsSyn ) -> HappyWrap110
happyOut110 :: HappyAbsSyn -> HappyWrap110
happyOut110 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap110
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut110 #-}
newtype HappyWrap111 = HappyWrap111 (())
happyIn111 :: (()) -> (HappyAbsSyn )
happyIn111 :: A0 -> HappyAbsSyn
happyIn111 A0
x = HappyWrap111 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap111
HappyWrap111 A0
x)
{-# INLINE happyIn111 #-}
happyOut111 :: (HappyAbsSyn ) -> HappyWrap111
happyOut111 :: HappyAbsSyn -> HappyWrap111
happyOut111 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap111
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut111 #-}
newtype HappyWrap112 = HappyWrap112 (())
happyIn112 :: (()) -> (HappyAbsSyn )
happyIn112 :: A0 -> HappyAbsSyn
happyIn112 A0
x = HappyWrap112 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap112
HappyWrap112 A0
x)
{-# INLINE happyIn112 #-}
happyOut112 :: (HappyAbsSyn ) -> HappyWrap112
happyOut112 :: HappyAbsSyn -> HappyWrap112
happyOut112 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap112
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut112 #-}
newtype HappyWrap113 = HappyWrap113 (())
happyIn113 :: (()) -> (HappyAbsSyn )
happyIn113 :: A0 -> HappyAbsSyn
happyIn113 A0
x = HappyWrap113 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap113
HappyWrap113 A0
x)
{-# INLINE happyIn113 #-}
happyOut113 :: (HappyAbsSyn ) -> HappyWrap113
happyOut113 :: HappyAbsSyn -> HappyWrap113
happyOut113 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap113
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut113 #-}
newtype HappyWrap114 = HappyWrap114 (())
happyIn114 :: (()) -> (HappyAbsSyn )
happyIn114 :: A0 -> HappyAbsSyn
happyIn114 A0
x = HappyWrap114 -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# (A0 -> HappyWrap114
HappyWrap114 A0
x)
{-# INLINE happyIn114 #-}
happyOut114 :: (HappyAbsSyn ) -> HappyWrap114
happyOut114 :: HappyAbsSyn -> HappyWrap114
happyOut114 HappyAbsSyn
x = HappyAbsSyn -> HappyWrap114
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOut114 #-}
happyInTok :: (Token) -> (HappyAbsSyn )
happyInTok :: Token -> HappyAbsSyn
happyInTok Token
x = Token -> HappyAbsSyn
Happy_GHC_Exts.unsafeCoerce# Token
x
{-# INLINE happyInTok #-}
happyOutTok :: (HappyAbsSyn ) -> (Token)
happyOutTok :: HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
x = HappyAbsSyn -> Token
Happy_GHC_Exts.unsafeCoerce# HappyAbsSyn
x
{-# INLINE happyOutTok #-}


happyExpList :: HappyAddr
happyExpList :: HappyAddr
happyExpList = Addr# -> HappyAddr
HappyA# Addr#
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{-# NOINLINE happyExpListPerState #-}
happyExpListPerState :: Int -> [Name]
happyExpListPerState Int
st =
    [Name]
token_strs_expected
  where token_strs :: [Name]
token_strs = [Name
"error",Name
"%dummy",Name
"%start_programParser",Name
"%start_functionParser",Name
"%start_statementParser",Name
"PROGRAM",Name
"PROGRAM_INNER",Name
"PROGRAM_UNITS",Name
"PROGRAM_UNIT",Name
"MAYBE_SUBPROGRAM_UNITS",Name
"SUBPROGRAM_UNITS",Name
"SUBPROGRAM_UNIT",Name
"PREFIXES",Name
"PREFIX",Name
"RESULT",Name
"MAYBE_RESULT",Name
"MAYBE_ARGUMENTS",Name
"PROGRAM_END",Name
"MODULE_END",Name
"FUNCTION_END",Name
"SUBROUTINE_END",Name
"BLOCK_DATA_END",Name
"INTERFACE_END",Name
"NAME",Name
"BLOCKS",Name
"BLOCK",Name
"MAYBE_EXPRESSION",Name
"MAYBE_COMMENT",Name
"SUBPROGRAM_UNITS2",Name
"MODULE_PROCEDURES",Name
"MODULE_PROCEDURE",Name
"COMMENT_BLOCK",Name
"MAYBE_NEWLINE",Name
"NEWLINE",Name
"STATEMENT",Name
"EXPRESSION_ASSIGNMENT_STATEMENT",Name
"NONEXECUTABLE_STATEMENT",Name
"EXECUTABLE_STATEMENT",Name
"ARGUMENTS",Name
"ARGUMENT",Name
"MAYBE_RENAME_LIST",Name
"RENAME_LIST",Name
"RENAME",Name
"MAYBE_DCOLON",Name
"FORMAT_ID",Name
"UNIT",Name
"CILIST",Name
"CILIST_PAIRS",Name
"CILIST_PAIR",Name
"CILIST_ELEMENT",Name
"CI_EXPRESSION",Name
"MAYBE_ALLOC_OPT_LIST",Name
"IN_IOLIST",Name
"IN_IO_ELEMENT",Name
"OUT_IOLIST",Name
"COMMON_GROUPS",Name
"COMMON_GROUP",Name
"INIT_COMMON_GROUP",Name
"EQUIVALENCE_GROUPS",Name
"NAMELISTS",Name
"NAMELIST",Name
"MAYBE_VARIABLES",Name
"VARIABLES",Name
"IMP_LISTS",Name
"IMP_LIST",Name
"IMP_ELEMENTS",Name
"IMP_ELEMENT",Name
"PARAMETER_ASSIGNMENTS",Name
"PARAMETER_ASSIGNMENT",Name
"DECLARATION_STATEMENT",Name
"ATTRIBUTE_LIST",Name
"ATTRIBUTE_SPEC",Name
"INTENT_CHOICE",Name
"DATA_GROUPS",Name
"MAYBE_COMMA",Name
"DATA_LIST",Name
"DATA_ELEMENT",Name
"SAVE_ARGS",Name
"SAVE_ARG",Name
"COMMON_NAME",Name
"DECLARATOR_LIST",Name
"INITIALISED_DECLARATOR",Name
"DECLARATOR",Name
"DIMENSION_DECLARATORS",Name
"DIMENSION_DECLARATOR",Name
"TYPE_SPEC",Name
"KIND_SELECTOR",Name
"CHAR_SELECTOR",Name
"LEN_EXPRESSION",Name
"EXPRESSION",Name
"DATA_REFS",Name
"DATA_REF",Name
"PART_REFS",Name
"PART_REF",Name
"INDICIES",Name
"INDEX",Name
"RANGE",Name
"DO_SPECIFICATION",Name
"IMPLIED_DO",Name
"EXPRESSION_LIST",Name
"ARITHMETIC_SIGN",Name
"RELATIONAL_OPERATOR",Name
"VARIABLE",Name
"NUMERIC_LITERAL",Name
"INTEGERS",Name
"INTEGER_LITERAL",Name
"REAL_LITERAL",Name
"LOGICAL_LITERAL",Name
"STRING",Name
"cDATA",Name
"cIMPLICIT",Name
"cNAMELIST",Name
"cCOMMON",Name
"cPOP",Name
"id",Name
"comment",Name
"string",Name
"int",Name
"float",Name
"boz",Name
"','",Name
"',2'",Name
"';'",Name
"':'",Name
"'::'",Name
"'='",Name
"'=>'",Name
"'%'",Name
"'('",Name
"'(2'",Name
"')'",Name
"'(/'",Name
"'/)'",Name
"opCustom",Name
"'**'",Name
"'+'",Name
"'-'",Name
"'*'",Name
"'/'",Name
"slash",Name
"or",Name
"and",Name
"not",Name
"eqv",Name
"neqv",Name
"'<'",Name
"'<='",Name
"'=='",Name
"'!='",Name
"'>'",Name
"'>='",Name
"bool",Name
"program",Name
"endProgram",Name
"function",Name
"endFunction",Name
"result",Name
"recursive",Name
"subroutine",Name
"endSubroutine",Name
"blockData",Name
"endBlockData",Name
"module",Name
"endModule",Name
"contains",Name
"use",Name
"only",Name
"interface",Name
"endInterface",Name
"moduleProcedure",Name
"assignment",Name
"operator",Name
"call",Name
"return",Name
"entry",Name
"include",Name
"public",Name
"private",Name
"parameter",Name
"allocatable",Name
"dimension",Name
"external",Name
"intent",Name
"intrinsic",Name
"optional",Name
"pointer",Name
"save",Name
"target",Name
"in",Name
"out",Name
"inout",Name
"data",Name
"namelist",Name
"implicit",Name
"equivalence",Name
"common",Name
"allocate",Name
"stat",Name
"deallocate",Name
"nullify",Name
"none",Name
"goto",Name
"assign",Name
"to",Name
"continue",Name
"stop",Name
"pause",Name
"do",Name
"enddo",Name
"while",Name
"if",Name
"then",Name
"else",Name
"elsif",Name
"endif",Name
"case",Name
"selectcase",Name
"endselect",Name
"default",Name
"cycle",Name
"exit",Name
"where",Name
"elsewhere",Name
"endwhere",Name
"type",Name
"endType",Name
"sequence",Name
"kind",Name
"len",Name
"integer",Name
"real",Name
"doublePrecision",Name
"logical",Name
"character",Name
"complex",Name
"open",Name
"close",Name
"read",Name
"write",Name
"print",Name
"backspace",Name
"rewind",Name
"inquire",Name
"endfile",Name
"format",Name
"blob",Name
"end",Name
"newline",Name
"%eof"]
        bit_start :: Int
bit_start = Int
st Int -> Int -> Int
forall a. Num a => a -> a -> a
Prelude.* Int
249
        bit_end :: Int
bit_end = (Int
st Int -> Int -> Int
forall a. Num a => a -> a -> a
Prelude.+ Int
1) Int -> Int -> Int
forall a. Num a => a -> a -> a
Prelude.* Int
249
        read_bit :: Int -> Bool
read_bit = HappyAddr -> Int -> Bool
readArrayBit HappyAddr
happyExpList
        bits :: [Bool]
bits = (Int -> Bool) -> [Int] -> [Bool]
forall a b. (a -> b) -> [a] -> [b]
Prelude.map Int -> Bool
read_bit [Int
bit_start..Int
bit_end Int -> Int -> Int
forall a. Num a => a -> a -> a
Prelude.- Int
1]
        bits_indexed :: [(Bool, Int)]
bits_indexed = [Bool] -> [Int] -> [(Bool, Int)]
forall a b. [a] -> [b] -> [(a, b)]
Prelude.zip [Bool]
bits [Int
0..Int
248]
        token_strs_expected :: [Name]
token_strs_expected = ((Bool, Int) -> [Name]) -> [(Bool, Int)] -> [Name]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
Prelude.concatMap (Bool, Int) -> [Name]
f [(Bool, Int)]
bits_indexed
        f :: (Bool, Int) -> [Name]
f (Bool
Prelude.False, Int
_) = []
        f (Bool
Prelude.True, Int
nr) = [[Name]
token_strs [Name] -> Int -> Name
forall a. [a] -> Int -> a
Prelude.!! Int
nr]

happyActOffsets :: HappyAddr
happyActOffsets :: HappyAddr
happyActOffsets = Addr# -> HappyAddr
HappyA# Addr#
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happyGotoOffsets :: HappyAddr
happyGotoOffsets :: HappyAddr
happyGotoOffsets = Addr# -> HappyAddr
HappyA# Addr#
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happyAdjustOffset :: Happy_GHC_Exts.Int# -> Happy_GHC_Exts.Int#
happyAdjustOffset :: Int# -> Int#
happyAdjustOffset Int#
off = Int#
off

happyDefActions :: HappyAddr
happyDefActions :: HappyAddr
happyDefActions = Addr# -> HappyAddr
HappyA# Addr#
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happyCheck :: HappyAddr
happyCheck :: HappyAddr
happyCheck = Addr# -> HappyAddr
HappyA# Addr#
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happyTable :: HappyAddr
happyTable :: HappyAddr
happyTable = Addr# -> HappyAddr
HappyA# Addr#
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happyReduceArr :: Array
  Int
  (Int#
   -> Token
   -> Int#
   -> Happy_IntList
   -> HappyStk HappyAbsSyn
   -> LexAction HappyAbsSyn)
happyReduceArr = (Int, Int)
-> [(Int,
     Int#
     -> Token
     -> Int#
     -> Happy_IntList
     -> HappyStk HappyAbsSyn
     -> LexAction HappyAbsSyn)]
-> Array
     Int
     (Int#
      -> Token
      -> Int#
      -> Happy_IntList
      -> HappyStk HappyAbsSyn
      -> LexAction HappyAbsSyn)
forall i e. Ix i => (i, i) -> [(i, e)] -> Array i e
Happy_Data_Array.array (Int
3, Int
421) [
	(Int
3 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_3),
	(Int
4 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_4),
	(Int
5 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_5),
	(Int
6 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_6),
	(Int
7 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_7),
	(Int
8 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_8),
	(Int
9 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_9),
	(Int
10 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_10),
	(Int
11 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_11),
	(Int
12 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_12),
	(Int
13 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_13),
	(Int
14 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_14),
	(Int
15 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_15),
	(Int
16 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_16),
	(Int
17 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_17),
	(Int
18 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_18),
	(Int
19 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_19),
	(Int
20 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_20),
	(Int
21 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_21),
	(Int
22 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_22),
	(Int
23 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_23),
	(Int
24 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_24),
	(Int
25 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_25),
	(Int
26 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_26),
	(Int
27 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_27),
	(Int
28 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_28),
	(Int
29 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_29),
	(Int
30 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_30),
	(Int
31 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_31),
	(Int
32 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_32),
	(Int
33 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_33),
	(Int
34 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_34),
	(Int
35 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_35),
	(Int
36 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_36),
	(Int
37 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_37),
	(Int
38 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_38),
	(Int
39 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_39),
	(Int
40 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_40),
	(Int
41 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_41),
	(Int
42 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_42),
	(Int
43 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_43),
	(Int
44 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_44),
	(Int
45 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_45),
	(Int
46 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_46),
	(Int
47 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_47),
	(Int
48 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_48),
	(Int
49 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_49),
	(Int
50 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_50),
	(Int
51 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_51),
	(Int
52 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_52),
	(Int
53 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_53),
	(Int
54 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_54),
	(Int
55 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_55),
	(Int
56 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_56),
	(Int
57 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_57),
	(Int
58 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_58),
	(Int
59 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_59),
	(Int
60 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_60),
	(Int
61 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_61),
	(Int
62 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_62),
	(Int
63 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_63),
	(Int
64 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_64),
	(Int
65 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_65),
	(Int
66 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_66),
	(Int
67 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_67),
	(Int
68 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_68),
	(Int
69 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_69),
	(Int
70 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_70),
	(Int
71 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_71),
	(Int
72 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_72),
	(Int
73 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_73),
	(Int
74 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_74),
	(Int
75 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_75),
	(Int
76 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_76),
	(Int
77 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_77),
	(Int
78 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_78),
	(Int
79 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_79),
	(Int
80 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_80),
	(Int
81 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_81),
	(Int
82 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_82),
	(Int
83 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_83),
	(Int
84 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_84),
	(Int
85 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_85),
	(Int
86 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_86),
	(Int
87 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_87),
	(Int
88 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_88),
	(Int
89 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_89),
	(Int
90 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_90),
	(Int
91 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_91),
	(Int
92 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_92),
	(Int
93 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_93),
	(Int
94 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_94),
	(Int
95 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_95),
	(Int
96 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_96),
	(Int
97 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_97),
	(Int
98 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_98),
	(Int
99 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_99),
	(Int
100 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_100),
	(Int
101 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_101),
	(Int
102 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_102),
	(Int
103 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_103),
	(Int
104 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_104),
	(Int
105 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_105),
	(Int
106 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_106),
	(Int
107 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_107),
	(Int
108 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_108),
	(Int
109 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_109),
	(Int
110 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_110),
	(Int
111 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_111),
	(Int
112 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_112),
	(Int
113 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_113),
	(Int
114 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_114),
	(Int
115 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_115),
	(Int
116 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_116),
	(Int
117 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_117),
	(Int
118 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_118),
	(Int
119 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_119),
	(Int
120 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_120),
	(Int
121 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_121),
	(Int
122 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_122),
	(Int
123 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_123),
	(Int
124 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_124),
	(Int
125 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_125),
	(Int
126 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_126),
	(Int
127 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_127),
	(Int
128 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_128),
	(Int
129 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_129),
	(Int
130 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_130),
	(Int
131 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_131),
	(Int
132 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_132),
	(Int
133 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_133),
	(Int
134 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_134),
	(Int
135 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_135),
	(Int
136 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_136),
	(Int
137 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_137),
	(Int
138 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_138),
	(Int
139 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_139),
	(Int
140 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_140),
	(Int
141 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_141),
	(Int
142 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_142),
	(Int
143 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_143),
	(Int
144 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_144),
	(Int
145 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_145),
	(Int
146 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_146),
	(Int
147 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_147),
	(Int
148 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_148),
	(Int
149 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_149),
	(Int
150 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_150),
	(Int
151 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_151),
	(Int
152 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_152),
	(Int
153 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_153),
	(Int
154 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_154),
	(Int
155 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_155),
	(Int
156 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_156),
	(Int
157 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_157),
	(Int
158 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_158),
	(Int
159 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_159),
	(Int
160 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_160),
	(Int
161 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_161),
	(Int
162 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_162),
	(Int
163 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_163),
	(Int
164 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_164),
	(Int
165 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_165),
	(Int
166 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_166),
	(Int
167 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_167),
	(Int
168 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_168),
	(Int
169 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_169),
	(Int
170 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_170),
	(Int
171 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_171),
	(Int
172 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_172),
	(Int
173 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_173),
	(Int
174 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_174),
	(Int
175 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_175),
	(Int
176 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_176),
	(Int
177 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_177),
	(Int
178 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_178),
	(Int
179 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_179),
	(Int
180 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_180),
	(Int
181 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_181),
	(Int
182 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_182),
	(Int
183 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_183),
	(Int
184 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_184),
	(Int
185 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_185),
	(Int
186 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_186),
	(Int
187 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_187),
	(Int
188 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_188),
	(Int
189 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_189),
	(Int
190 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_190),
	(Int
191 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_191),
	(Int
192 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_192),
	(Int
193 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_193),
	(Int
194 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_194),
	(Int
195 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_195),
	(Int
196 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_196),
	(Int
197 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_197),
	(Int
198 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_198),
	(Int
199 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_199),
	(Int
200 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_200),
	(Int
201 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_201),
	(Int
202 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_202),
	(Int
203 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_203),
	(Int
204 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_204),
	(Int
205 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_205),
	(Int
206 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_206),
	(Int
207 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_207),
	(Int
208 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_208),
	(Int
209 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_209),
	(Int
210 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_210),
	(Int
211 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_211),
	(Int
212 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_212),
	(Int
213 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_213),
	(Int
214 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_214),
	(Int
215 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_215),
	(Int
216 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_216),
	(Int
217 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_217),
	(Int
218 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_218),
	(Int
219 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_219),
	(Int
220 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_220),
	(Int
221 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_221),
	(Int
222 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_222),
	(Int
223 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_223),
	(Int
224 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_224),
	(Int
225 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_225),
	(Int
226 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_226),
	(Int
227 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_227),
	(Int
228 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_228),
	(Int
229 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_229),
	(Int
230 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_230),
	(Int
231 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_231),
	(Int
232 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_232),
	(Int
233 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_233),
	(Int
234 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_234),
	(Int
235 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_235),
	(Int
236 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_236),
	(Int
237 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_237),
	(Int
238 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_238),
	(Int
239 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_239),
	(Int
240 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_240),
	(Int
241 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_241),
	(Int
242 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_242),
	(Int
243 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_243),
	(Int
244 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_244),
	(Int
245 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_245),
	(Int
246 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_246),
	(Int
247 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_247),
	(Int
248 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_248),
	(Int
249 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_249),
	(Int
250 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_250),
	(Int
251 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_251),
	(Int
252 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_252),
	(Int
253 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_253),
	(Int
254 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_254),
	(Int
255 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_255),
	(Int
256 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_256),
	(Int
257 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_257),
	(Int
258 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_258),
	(Int
259 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_259),
	(Int
260 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_260),
	(Int
261 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_261),
	(Int
262 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_262),
	(Int
263 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_263),
	(Int
264 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_264),
	(Int
265 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_265),
	(Int
266 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_266),
	(Int
267 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_267),
	(Int
268 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_268),
	(Int
269 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_269),
	(Int
270 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_270),
	(Int
271 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_271),
	(Int
272 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_272),
	(Int
273 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_273),
	(Int
274 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_274),
	(Int
275 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_275),
	(Int
276 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_276),
	(Int
277 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_277),
	(Int
278 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_278),
	(Int
279 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_279),
	(Int
280 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_280),
	(Int
281 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_281),
	(Int
282 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_282),
	(Int
283 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_283),
	(Int
284 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_284),
	(Int
285 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_285),
	(Int
286 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_286),
	(Int
287 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_287),
	(Int
288 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_288),
	(Int
289 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_289),
	(Int
290 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_290),
	(Int
291 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_291),
	(Int
292 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_292),
	(Int
293 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_293),
	(Int
294 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_294),
	(Int
295 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_295),
	(Int
296 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_296),
	(Int
297 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_297),
	(Int
298 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_298),
	(Int
299 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_299),
	(Int
300 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_300),
	(Int
301 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_301),
	(Int
302 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_302),
	(Int
303 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_303),
	(Int
304 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_304),
	(Int
305 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_305),
	(Int
306 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_306),
	(Int
307 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_307),
	(Int
308 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_308),
	(Int
309 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_309),
	(Int
310 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_310),
	(Int
311 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_311),
	(Int
312 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_312),
	(Int
313 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_313),
	(Int
314 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_314),
	(Int
315 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_315),
	(Int
316 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_316),
	(Int
317 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_317),
	(Int
318 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_318),
	(Int
319 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_319),
	(Int
320 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_320),
	(Int
321 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_321),
	(Int
322 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_322),
	(Int
323 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_323),
	(Int
324 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_324),
	(Int
325 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_325),
	(Int
326 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_326),
	(Int
327 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_327),
	(Int
328 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_328),
	(Int
329 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_329),
	(Int
330 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_330),
	(Int
331 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_331),
	(Int
332 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_332),
	(Int
333 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_333),
	(Int
334 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_334),
	(Int
335 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_335),
	(Int
336 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_336),
	(Int
337 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_337),
	(Int
338 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_338),
	(Int
339 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_339),
	(Int
340 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_340),
	(Int
341 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_341),
	(Int
342 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_342),
	(Int
343 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_343),
	(Int
344 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_344),
	(Int
345 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_345),
	(Int
346 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_346),
	(Int
347 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_347),
	(Int
348 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_348),
	(Int
349 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_349),
	(Int
350 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_350),
	(Int
351 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_351),
	(Int
352 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_352),
	(Int
353 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_353),
	(Int
354 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_354),
	(Int
355 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_355),
	(Int
356 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_356),
	(Int
357 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_357),
	(Int
358 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_358),
	(Int
359 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_359),
	(Int
360 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_360),
	(Int
361 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_361),
	(Int
362 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_362),
	(Int
363 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_363),
	(Int
364 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_364),
	(Int
365 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_365),
	(Int
366 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_366),
	(Int
367 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_367),
	(Int
368 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_368),
	(Int
369 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_369),
	(Int
370 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_370),
	(Int
371 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_371),
	(Int
372 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_372),
	(Int
373 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_373),
	(Int
374 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_374),
	(Int
375 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_375),
	(Int
376 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_376),
	(Int
377 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_377),
	(Int
378 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_378),
	(Int
379 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_379),
	(Int
380 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_380),
	(Int
381 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_381),
	(Int
382 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_382),
	(Int
383 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_383),
	(Int
384 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_384),
	(Int
385 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_385),
	(Int
386 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_386),
	(Int
387 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_387),
	(Int
388 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_388),
	(Int
389 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_389),
	(Int
390 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_390),
	(Int
391 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_391),
	(Int
392 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_392),
	(Int
393 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_393),
	(Int
394 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_394),
	(Int
395 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_395),
	(Int
396 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_396),
	(Int
397 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_397),
	(Int
398 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_398),
	(Int
399 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_399),
	(Int
400 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_400),
	(Int
401 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_401),
	(Int
402 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_402),
	(Int
403 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_403),
	(Int
404 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_404),
	(Int
405 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_405),
	(Int
406 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_406),
	(Int
407 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_407),
	(Int
408 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_408),
	(Int
409 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_409),
	(Int
410 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_410),
	(Int
411 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_411),
	(Int
412 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_412),
	(Int
413 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_413),
	(Int
414 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_414),
	(Int
415 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_415),
	(Int
416 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_416),
	(Int
417 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_417),
	(Int
418 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_418),
	(Int
419 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_419),
	(Int
420 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_420),
	(Int
421 , Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_421)
	]

happy_n_terms :: Int
happy_n_terms = Int
136 :: Prelude.Int
happy_n_nonterms :: Int
happy_n_nonterms = Int
109 :: Prelude.Int

happyReduce_3 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_3 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_3 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
0# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_3
happyReduction_3 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_3 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap7
happyOut7 HappyAbsSyn
happy_x_2 of { (HappyWrap7 ProgramFile A0
happy_var_2) -> 
	ProgramFile A0 -> HappyAbsSyn
happyIn6
		 (ProgramFile A0
happy_var_2
	)}

happyReduce_4 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_4 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_4 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
0# HappyAbsSyn -> HappyAbsSyn
happyReduction_4
happyReduction_4 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_4 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap7
happyOut7 HappyAbsSyn
happy_x_1 of { (HappyWrap7 ProgramFile A0
happy_var_1) -> 
	ProgramFile A0 -> HappyAbsSyn
happyIn6
		 (ProgramFile A0
happy_var_1
	)}

happyReduce_5 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_5 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_5 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
1# HappyAbsSyn -> HappyAbsSyn
happyReduction_5
happyReduction_5 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_5 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap8
happyOut8 HappyAbsSyn
happy_x_1 of { (HappyWrap8 [ProgramUnit A0]
happy_var_1) -> 
	ProgramFile A0 -> HappyAbsSyn
happyIn7
		 (MetaInfo -> [ProgramUnit A0] -> ProgramFile A0
forall a. MetaInfo -> [ProgramUnit a] -> ProgramFile a
ProgramFile (MetaInfo :: FortranVersion -> Name -> MetaInfo
MetaInfo { miVersion :: FortranVersion
miVersion = FortranVersion
Fortran90, miFilename :: Name
miFilename = Name
"" }) ([ProgramUnit A0] -> [ProgramUnit A0]
forall a. [a] -> [a]
reverse [ProgramUnit A0]
happy_var_1)
	)}

happyReduce_6 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_6 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_6 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
1# HappyAbsSyn
happyReduction_6
happyReduction_6 :: HappyAbsSyn
happyReduction_6  =  ProgramFile A0 -> HappyAbsSyn
happyIn7
		 (MetaInfo -> [ProgramUnit A0] -> ProgramFile A0
forall a. MetaInfo -> [ProgramUnit a] -> ProgramFile a
ProgramFile (MetaInfo :: FortranVersion -> Name -> MetaInfo
MetaInfo { miVersion :: FortranVersion
miVersion = FortranVersion
Fortran90, miFilename :: Name
miFilename = Name
"" }) []
	)

happyReduce_7 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_7 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_7 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
2# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_7
happyReduction_7 :: p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_7 p
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap8
happyOut8 HappyAbsSyn
happy_x_1 of { (HappyWrap8 [ProgramUnit A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap9
happyOut9 HappyAbsSyn
happy_x_2 of { (HappyWrap9 ProgramUnit A0
happy_var_2) -> 
	[ProgramUnit A0] -> HappyAbsSyn
happyIn8
		 (ProgramUnit A0
happy_var_2 ProgramUnit A0 -> [ProgramUnit A0] -> [ProgramUnit A0]
forall k1. k1 -> [k1] -> [k1]
: [ProgramUnit A0]
happy_var_1
	)}}

happyReduce_8 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_8 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_8 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
2# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_8
happyReduction_8 :: p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_8 p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap9
happyOut9 HappyAbsSyn
happy_x_1 of { (HappyWrap9 ProgramUnit A0
happy_var_1) -> 
	[ProgramUnit A0] -> HappyAbsSyn
happyIn8
		 ([ ProgramUnit A0
happy_var_1 ]
	)}

happyReduce_9 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_9 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_9 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
6# Int#
3# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_9
happyReduction_9 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_9 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ProgramUnit A0)
-> (ProgramUnit A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
happy_x_2 of { (HappyWrap24 Name
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_4 of { (HappyWrap25 [Block A0]
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap10
happyOut10 HappyAbsSyn
happy_x_5 of { (HappyWrap10 Maybe [ProgramUnit A0]
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap18
happyOut18 HappyAbsSyn
happy_x_6 of { (HappyWrap18 Token
happy_var_6) -> 
	( do { Token -> Name -> Parse AlexInput Token A0
unitNameCheck Token
happy_var_6 Name
happy_var_2;
          ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ProgramUnit A0 -> LexAction (ProgramUnit A0))
-> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe Name
-> [Block A0]
-> Maybe [ProgramUnit A0]
-> ProgramUnit A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> [Block a]
-> Maybe [ProgramUnit a]
-> ProgramUnit a
PUMain () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_6) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
happy_var_2) ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_4) Maybe [ProgramUnit A0]
happy_var_5 })}}}}})
	) (\ProgramUnit A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ProgramUnit A0 -> HappyAbsSyn
happyIn9 ProgramUnit A0
r))

happyReduce_10 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_10 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_10 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
6# Int#
3# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_10
happyReduction_10 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_10 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ProgramUnit A0)
-> (ProgramUnit A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
happy_x_2 of { (HappyWrap24 Name
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_4 of { (HappyWrap25 [Block A0]
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap10
happyOut10 HappyAbsSyn
happy_x_5 of { (HappyWrap10 Maybe [ProgramUnit A0]
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap19
happyOut19 HappyAbsSyn
happy_x_6 of { (HappyWrap19 Token
happy_var_6) -> 
	( do { Token -> Name -> Parse AlexInput Token A0
unitNameCheck Token
happy_var_6 Name
happy_var_2;
          ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ProgramUnit A0 -> LexAction (ProgramUnit A0))
-> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Name
-> [Block A0]
-> Maybe [ProgramUnit A0]
-> ProgramUnit A0
forall a.
a
-> SrcSpan
-> Name
-> [Block a]
-> Maybe [ProgramUnit a]
-> ProgramUnit a
PUModule () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_6) Name
happy_var_2 ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_4) Maybe [ProgramUnit A0]
happy_var_5 })}}}}})
	) (\ProgramUnit A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ProgramUnit A0 -> HappyAbsSyn
happyIn9 ProgramUnit A0
r))

happyReduce_11 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_11 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_11 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
3# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_11
happyReduction_11 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_11 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_3 of { (HappyWrap25 [Block A0]
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap22
happyOut22 HappyAbsSyn
happy_x_4 of { (HappyWrap22 Token
happy_var_4) -> 
	ProgramUnit A0 -> HappyAbsSyn
happyIn9
		 (A0 -> SrcSpan -> Maybe Name -> [Block A0] -> ProgramUnit A0
forall a. a -> SrcSpan -> Maybe Name -> [Block a] -> ProgramUnit a
PUBlockData () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_12 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_12 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_12 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
5# Int#
3# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_12
happyReduction_12 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_12 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ProgramUnit A0)
-> (ProgramUnit A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
happy_x_2 of { (HappyWrap24 Name
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_4 of { (HappyWrap25 [Block A0]
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap22
happyOut22 HappyAbsSyn
happy_x_5 of { (HappyWrap22 Token
happy_var_5) -> 
	( do { Token -> Name -> Parse AlexInput Token A0
unitNameCheck Token
happy_var_5 Name
happy_var_2;
          ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ProgramUnit A0 -> LexAction (ProgramUnit A0))
-> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a b. (a -> b) -> a -> b
$ A0 -> SrcSpan -> Maybe Name -> [Block A0] -> ProgramUnit A0
forall a. a -> SrcSpan -> Maybe Name -> [Block a] -> ProgramUnit a
PUBlockData () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
happy_var_2) ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_4) })}}}})
	) (\ProgramUnit A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ProgramUnit A0 -> HappyAbsSyn
happyIn9 ProgramUnit A0
r))

happyReduce_13 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_13 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_13 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
3# HappyAbsSyn -> HappyAbsSyn
happyReduction_13
happyReduction_13 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_13 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap12
happyOut12 HappyAbsSyn
happy_x_1 of { (HappyWrap12 ProgramUnit A0
happy_var_1) -> 
	ProgramUnit A0 -> HappyAbsSyn
happyIn9
		 (ProgramUnit A0
happy_var_1
	)}

happyReduce_14 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_14 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_14 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
4# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p p. HappyAbsSyn -> p -> p -> HappyAbsSyn
happyReduction_14
happyReduction_14 :: HappyAbsSyn -> p -> p -> HappyAbsSyn
happyReduction_14 HappyAbsSyn
happy_x_3
	p
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap11
happyOut11 HappyAbsSyn
happy_x_3 of { (HappyWrap11 [ProgramUnit A0]
happy_var_3) -> 
	Maybe [ProgramUnit A0] -> HappyAbsSyn
happyIn10
		 ([ProgramUnit A0] -> Maybe [ProgramUnit A0]
forall k1. k1 -> Maybe k1
Just ([ProgramUnit A0] -> Maybe [ProgramUnit A0])
-> [ProgramUnit A0] -> Maybe [ProgramUnit A0]
forall a b. (a -> b) -> a -> b
$ [ProgramUnit A0] -> [ProgramUnit A0]
forall a. [a] -> [a]
reverse [ProgramUnit A0]
happy_var_3
	)}

happyReduce_15 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_15 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_15 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
4# HappyAbsSyn
happyReduction_15
happyReduction_15 :: HappyAbsSyn
happyReduction_15  =  Maybe [ProgramUnit A0] -> HappyAbsSyn
happyIn10
		 (Maybe [ProgramUnit A0]
forall k1. Maybe k1
Nothing
	)

happyReduce_16 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_16 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_16 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
5# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_16
happyReduction_16 :: p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_16 p
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap11
happyOut11 HappyAbsSyn
happy_x_1 of { (HappyWrap11 [ProgramUnit A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap12
happyOut12 HappyAbsSyn
happy_x_2 of { (HappyWrap12 ProgramUnit A0
happy_var_2) -> 
	[ProgramUnit A0] -> HappyAbsSyn
happyIn11
		 (ProgramUnit A0
happy_var_2 ProgramUnit A0 -> [ProgramUnit A0] -> [ProgramUnit A0]
forall k1. k1 -> [k1] -> [k1]
: [ProgramUnit A0]
happy_var_1
	)}}

happyReduce_17 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_17 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_17 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
5# HappyAbsSyn
happyReduction_17
happyReduction_17 :: HappyAbsSyn
happyReduction_17  =  [ProgramUnit A0] -> HappyAbsSyn
happyIn11
		 ([ ]
	)

happyReduce_18 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_18 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_18 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
10# Int#
6# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_18
happyReduction_18 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_18 (HappyAbsSyn
happy_x_10 `HappyStk`
	HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ProgramUnit A0)
-> (ProgramUnit A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> HappyWrap13
happyOut13 HappyAbsSyn
happy_x_1 of { (HappyWrap13 [Either (Prefix A0) (TypeSpec A0)]
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	case HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
happy_x_3 of { (HappyWrap24 Name
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap17
happyOut17 HappyAbsSyn
happy_x_4 of { (HappyWrap17 Maybe (AList Expression A0)
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap16
happyOut16 HappyAbsSyn
happy_x_5 of { (HappyWrap16 Maybe (Expression A0)
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_8 of { (HappyWrap25 [Block A0]
happy_var_8) -> 
	case HappyAbsSyn -> HappyWrap10
happyOut10 HappyAbsSyn
happy_x_9 of { (HappyWrap10 Maybe [ProgramUnit A0]
happy_var_9) -> 
	case HappyAbsSyn -> HappyWrap20
happyOut20 HappyAbsSyn
happy_x_10 of { (HappyWrap20 Token
happy_var_10) -> 
	( do { Token -> Name -> Parse AlexInput Token A0
unitNameCheck Token
happy_var_10 Name
happy_var_3;
          let (Maybe (AList Prefix A0)
pfxs, Maybe (TypeSpec A0)
typeSpec) = case [Either (Prefix A0) (TypeSpec A0)] -> ([Prefix A0], [TypeSpec A0])
forall a b. [Either a b] -> ([a], [b])
partitionEithers [Either (Prefix A0) (TypeSpec A0)]
happy_var_1 of
                                   { ([Prefix A0]
ps, TypeSpec A0
t:[TypeSpec A0]
_) -> ([Prefix A0] -> Maybe (AList Prefix A0)
forall (t :: * -> *).
Spanned (t A0) =>
[t A0] -> Maybe (AList t A0)
fromReverseList' [Prefix A0]
ps, TypeSpec A0 -> Maybe (TypeSpec A0)
forall k1. k1 -> Maybe k1
Just TypeSpec A0
t)
                                   ; ([Prefix A0]
ps, [])  -> ([Prefix A0] -> Maybe (AList Prefix A0)
forall (t :: * -> *).
Spanned (t A0) =>
[t A0] -> Maybe (AList t A0)
fromReverseList' [Prefix A0]
ps, Maybe (TypeSpec A0)
forall k1. Maybe k1
Nothing) } in
          let sfx :: Suffixes a
sfx = Suffixes a
forall a. Suffixes a
emptySuffixes in
          let ss :: SrcSpan
ss = if [Either (Prefix A0) (TypeSpec A0)] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [Either (Prefix A0) (TypeSpec A0)]
happy_var_1 then Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_2 Token
happy_var_10 else [Either (Prefix A0) (TypeSpec A0)] -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan ([Either (Prefix A0) (TypeSpec A0)]
-> [Either (Prefix A0) (TypeSpec A0)]
forall a. [a] -> [a]
reverse [Either (Prefix A0) (TypeSpec A0)]
happy_var_1) Token
happy_var_10 in
          ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ProgramUnit A0 -> LexAction (ProgramUnit A0))
-> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (TypeSpec A0)
-> PrefixSuffix A0
-> Name
-> Maybe (AList Expression A0)
-> Maybe (Expression A0)
-> [Block A0]
-> Maybe [ProgramUnit A0]
-> ProgramUnit A0
forall a.
a
-> SrcSpan
-> Maybe (TypeSpec a)
-> PrefixSuffix a
-> Name
-> Maybe (AList Expression a)
-> Maybe (Expression a)
-> [Block a]
-> Maybe [ProgramUnit a]
-> ProgramUnit a
PUFunction () SrcSpan
ss Maybe (TypeSpec A0)
typeSpec (Maybe (AList Prefix A0)
pfxs, Suffixes A0
forall a. Suffixes a
sfx) Name
happy_var_3 Maybe (AList Expression A0)
happy_var_4 Maybe (Expression A0)
happy_var_5 ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_8) Maybe [ProgramUnit A0]
happy_var_9 })}}}}}}}})
	) (\ProgramUnit A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ProgramUnit A0 -> HappyAbsSyn
happyIn12 ProgramUnit A0
r))

happyReduce_19 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_19 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_19 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
9# Int#
6# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_19
happyReduction_19 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_19 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ProgramUnit A0)
-> (ProgramUnit A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> HappyWrap13
happyOut13 HappyAbsSyn
happy_x_1 of { (HappyWrap13 [Either (Prefix A0) (TypeSpec A0)]
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	case HappyAbsSyn -> HappyWrap24
happyOut24 HappyAbsSyn
happy_x_3 of { (HappyWrap24 Name
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap17
happyOut17 HappyAbsSyn
happy_x_4 of { (HappyWrap17 Maybe (AList Expression A0)
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_7 of { (HappyWrap25 [Block A0]
happy_var_7) -> 
	case HappyAbsSyn -> HappyWrap10
happyOut10 HappyAbsSyn
happy_x_8 of { (HappyWrap10 Maybe [ProgramUnit A0]
happy_var_8) -> 
	case HappyAbsSyn -> HappyWrap21
happyOut21 HappyAbsSyn
happy_x_9 of { (HappyWrap21 Token
happy_var_9) -> 
	( do { Token -> Name -> Parse AlexInput Token A0
unitNameCheck Token
happy_var_9 Name
happy_var_3;
          (Maybe (AList Prefix A0)
pfxs, Maybe Any
typeSpec) <- case [Either (Prefix A0) (TypeSpec A0)] -> ([Prefix A0], [TypeSpec A0])
forall a b. [Either a b] -> ([a], [b])
partitionEithers [Either (Prefix A0) (TypeSpec A0)]
happy_var_1 of
                                { ([Prefix A0]
ps, TypeSpec A0
t:[TypeSpec A0]
_) -> Name -> Parse AlexInput Token (Maybe (AList Prefix A0), Maybe Any)
forall (m :: * -> *) a. MonadFail m => Name -> m a
fail Name
"Subroutines cannot have return types."
                                ; ([Prefix A0]
ps, [])  -> (Maybe (AList Prefix A0), Maybe Any)
-> Parse AlexInput Token (Maybe (AList Prefix A0), Maybe Any)
forall (m :: * -> *) a. Monad m => a -> m a
return ([Prefix A0] -> Maybe (AList Prefix A0)
forall (t :: * -> *).
Spanned (t A0) =>
[t A0] -> Maybe (AList t A0)
fromReverseList' [Prefix A0]
ps, Maybe Any
forall k1. Maybe k1
Nothing) };
          let sfx :: Suffixes a
sfx = Suffixes a
forall a. Suffixes a
emptySuffixes in
          let ss :: SrcSpan
ss = if [Either (Prefix A0) (TypeSpec A0)] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [Either (Prefix A0) (TypeSpec A0)]
happy_var_1 then Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_2 Token
happy_var_9 else [Either (Prefix A0) (TypeSpec A0)] -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan ([Either (Prefix A0) (TypeSpec A0)]
-> [Either (Prefix A0) (TypeSpec A0)]
forall a. [a] -> [a]
reverse [Either (Prefix A0) (TypeSpec A0)]
happy_var_1) Token
happy_var_9 in
          ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ProgramUnit A0 -> LexAction (ProgramUnit A0))
-> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> PrefixSuffix A0
-> Name
-> Maybe (AList Expression A0)
-> [Block A0]
-> Maybe [ProgramUnit A0]
-> ProgramUnit A0
forall a.
a
-> SrcSpan
-> PrefixSuffix a
-> Name
-> Maybe (AList Expression a)
-> [Block a]
-> Maybe [ProgramUnit a]
-> ProgramUnit a
PUSubroutine () SrcSpan
ss (Maybe (AList Prefix A0)
pfxs, Suffixes A0
forall a. Suffixes a
sfx) Name
happy_var_3 Maybe (AList Expression A0)
happy_var_4 ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_7) Maybe [ProgramUnit A0]
happy_var_8 })}}}}}}})
	) (\ProgramUnit A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ProgramUnit A0 -> HappyAbsSyn
happyIn12 ProgramUnit A0
r))

happyReduce_20 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_20 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_20 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
6# HappyAbsSyn -> HappyAbsSyn
happyReduction_20
happyReduction_20 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_20 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	ProgramUnit A0 -> HappyAbsSyn
happyIn12
		 (let (TComment SrcSpan
s Name
c) = Token
happy_var_1 in A0 -> SrcSpan -> Comment A0 -> ProgramUnit A0
forall a. a -> SrcSpan -> Comment a -> ProgramUnit a
PUComment () SrcSpan
s (Name -> Comment A0
forall a. Name -> Comment a
Comment Name
c)
	)}

happyReduce_21 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_21 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_21 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
7# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_21
happyReduction_21 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_21 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap13
happyOut13 HappyAbsSyn
happy_x_1 of { (HappyWrap13 [Either (Prefix A0) (TypeSpec A0)]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap14
happyOut14 HappyAbsSyn
happy_x_2 of { (HappyWrap14 Either (Prefix A0) (TypeSpec A0)
happy_var_2) -> 
	[Either (Prefix A0) (TypeSpec A0)] -> HappyAbsSyn
happyIn13
		 (Either (Prefix A0) (TypeSpec A0)
happy_var_2Either (Prefix A0) (TypeSpec A0)
-> [Either (Prefix A0) (TypeSpec A0)]
-> [Either (Prefix A0) (TypeSpec A0)]
forall k1. k1 -> [k1] -> [k1]
:[Either (Prefix A0) (TypeSpec A0)]
happy_var_1
	)}}

happyReduce_22 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_22 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_22 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
7# HappyAbsSyn
happyReduction_22
happyReduction_22 :: HappyAbsSyn
happyReduction_22  =  [Either (Prefix A0) (TypeSpec A0)] -> HappyAbsSyn
happyIn13
		 ([]
	)

happyReduce_23 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_23 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_23 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
8# HappyAbsSyn -> HappyAbsSyn
happyReduction_23
happyReduction_23 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_23 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Either (Prefix A0) (TypeSpec A0) -> HappyAbsSyn
happyIn14
		 (Prefix A0 -> Either (Prefix A0) (TypeSpec A0)
forall a b. a -> Either a b
Left (Prefix A0 -> Either (Prefix A0) (TypeSpec A0))
-> Prefix A0 -> Either (Prefix A0) (TypeSpec A0)
forall a b. (a -> b) -> a -> b
$ A0 -> SrcSpan -> Prefix A0
forall a. a -> SrcSpan -> Prefix a
PfxRecursive () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_24 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_24 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_24 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
8# HappyAbsSyn -> HappyAbsSyn
happyReduction_24
happyReduction_24 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_24 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap86
happyOut86 HappyAbsSyn
happy_x_1 of { (HappyWrap86 TypeSpec A0
happy_var_1) -> 
	Either (Prefix A0) (TypeSpec A0) -> HappyAbsSyn
happyIn14
		 (TypeSpec A0 -> Either (Prefix A0) (TypeSpec A0)
forall a b. b -> Either a b
Right TypeSpec A0
happy_var_1
	)}

happyReduce_25 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_25 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_25 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
9# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_25
happyReduction_25 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_25 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_3 of { (HappyWrap103 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn15
		 (Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}

happyReduce_26 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_26 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_26 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
10# HappyAbsSyn -> HappyAbsSyn
happyReduction_26
happyReduction_26 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_26 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap15
happyOut15 HappyAbsSyn
happy_x_1 of { (HappyWrap15 Expression A0
happy_var_1) -> 
	Maybe (Expression A0) -> HappyAbsSyn
happyIn16
		 (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1
	)}

happyReduce_27 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_27 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_27 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
10# HappyAbsSyn
happyReduction_27
happyReduction_27 :: HappyAbsSyn
happyReduction_27  =  Maybe (Expression A0) -> HappyAbsSyn
happyIn16
		 (Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_28 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_28 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_28 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
11# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p p. p -> HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_28
happyReduction_28 :: p -> HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_28 p
happy_x_3
	HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap62
happyOut62 HappyAbsSyn
happy_x_2 of { (HappyWrap62 Maybe (AList Expression A0)
happy_var_2) -> 
	Maybe (AList Expression A0) -> HappyAbsSyn
happyIn17
		 (Maybe (AList Expression A0)
happy_var_2
	)}

happyReduce_29 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_29 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_29 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
11# HappyAbsSyn
happyReduction_29
happyReduction_29 :: HappyAbsSyn
happyReduction_29  =  Maybe (AList Expression A0) -> HappyAbsSyn
happyIn17
		 (Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_30 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_30 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_30 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
12# HappyAbsSyn -> HappyAbsSyn
happyReduction_30
happyReduction_30 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_30 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn18
		 (Token
happy_var_1
	)}

happyReduce_31 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_31 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_31 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
12# HappyAbsSyn -> HappyAbsSyn
happyReduction_31
happyReduction_31 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_31 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn18
		 (Token
happy_var_1
	)}

happyReduce_32 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_32 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_32 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
12# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_32
happyReduction_32 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_32 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn18
		 (Token
happy_var_2
	)}

happyReduce_33 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_33 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_33 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
13# HappyAbsSyn -> HappyAbsSyn
happyReduction_33
happyReduction_33 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_33 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn19
		 (Token
happy_var_1
	)}

happyReduce_34 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_34 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_34 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
13# HappyAbsSyn -> HappyAbsSyn
happyReduction_34
happyReduction_34 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_34 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn19
		 (Token
happy_var_1
	)}

happyReduce_35 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_35 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_35 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
13# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_35
happyReduction_35 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_35 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn19
		 (Token
happy_var_2
	)}

happyReduce_36 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_36 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_36 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
14# HappyAbsSyn -> HappyAbsSyn
happyReduction_36
happyReduction_36 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_36 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn20
		 (Token
happy_var_1
	)}

happyReduce_37 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_37 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_37 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
14# HappyAbsSyn -> HappyAbsSyn
happyReduction_37
happyReduction_37 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_37 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn20
		 (Token
happy_var_1
	)}

happyReduce_38 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_38 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_38 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
14# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_38
happyReduction_38 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_38 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn20
		 (Token
happy_var_2
	)}

happyReduce_39 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_39 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_39 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
15# HappyAbsSyn -> HappyAbsSyn
happyReduction_39
happyReduction_39 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_39 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn21
		 (Token
happy_var_1
	)}

happyReduce_40 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_40 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_40 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
15# HappyAbsSyn -> HappyAbsSyn
happyReduction_40
happyReduction_40 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_40 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn21
		 (Token
happy_var_1
	)}

happyReduce_41 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_41 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_41 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
15# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_41
happyReduction_41 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_41 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn21
		 (Token
happy_var_2
	)}

happyReduce_42 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_42 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_42 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
16# HappyAbsSyn -> HappyAbsSyn
happyReduction_42
happyReduction_42 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_42 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn22
		 (Token
happy_var_1
	)}

happyReduce_43 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_43 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_43 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
16# HappyAbsSyn -> HappyAbsSyn
happyReduction_43
happyReduction_43 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_43 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn22
		 (Token
happy_var_1
	)}

happyReduce_44 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_44 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_44 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
16# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_44
happyReduction_44 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_44 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn22
		 (Token
happy_var_2
	)}

happyReduce_45 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_45 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_45 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
17# HappyAbsSyn -> HappyAbsSyn
happyReduction_45
happyReduction_45 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_45 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn23
		 (Token
happy_var_1
	)}

happyReduce_46 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_46 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_46 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
17# HappyAbsSyn -> HappyAbsSyn
happyReduction_46
happyReduction_46 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_46 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn23
		 (Token
happy_var_1
	)}

happyReduce_47 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_47 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_47 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
17# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_47
happyReduction_47 :: HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_47 HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Token -> HappyAbsSyn
happyIn23
		 (Token
happy_var_2
	)}

happyReduce_48 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_48 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_48 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
18# HappyAbsSyn -> HappyAbsSyn
happyReduction_48
happyReduction_48 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_48 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Name -> HappyAbsSyn
happyIn24
		 (let (TId SrcSpan
_ Name
name) = Token
happy_var_1 in Name
name
	)}

happyReduce_49 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_49 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_49 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
19# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_49
happyReduction_49 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_49 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap25
happyOut25 HappyAbsSyn
happy_x_1 of { (HappyWrap25 [Block A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap26
happyOut26 HappyAbsSyn
happy_x_2 of { (HappyWrap26 Block A0
happy_var_2) -> 
	[Block A0] -> HappyAbsSyn
happyIn25
		 (Block A0
happy_var_2 Block A0 -> [Block A0] -> [Block A0]
forall k1. k1 -> [k1] -> [k1]
: [Block A0]
happy_var_1
	)}}

happyReduce_50 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_50 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_50 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
19# HappyAbsSyn
happyReduction_50
happyReduction_50 :: HappyAbsSyn
happyReduction_50  =  [Block A0] -> HappyAbsSyn
happyIn25
		 ([ ]
	)

happyReduce_51 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_51 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_51 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
20# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_51
happyReduction_51 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_51 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap35
happyOut35 HappyAbsSyn
happy_x_2 of { (HappyWrap35 Statement A0
happy_var_2) -> 
	Block A0 -> HappyAbsSyn
happyIn26
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0 -> Block A0
forall a.
a -> SrcSpan -> Maybe (Expression a) -> Statement a -> Block a
BlStatement () (Expression A0 -> Statement A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Statement A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) Statement A0
happy_var_2
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_52 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_52 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_52 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
20# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p p. p -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_52
happyReduction_52 :: p -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_52 p
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap35
happyOut35 HappyAbsSyn
happy_x_1 of { (HappyWrap35 Statement A0
happy_var_1) -> 
	Block A0 -> HappyAbsSyn
happyIn26
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0 -> Block A0
forall a.
a -> SrcSpan -> Maybe (Expression a) -> Statement a -> Block a
BlStatement () (Statement A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Statement A0
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Statement A0
happy_var_1
	)}

happyReduce_53 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_53 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_53 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
9# Int#
20# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_53
happyReduction_53 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_53 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap27
happyOut27 HappyAbsSyn
happy_x_2 of { (HappyWrap27 Maybe (Expression A0)
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap29
happyOut29 HappyAbsSyn
happy_x_5 of { (HappyWrap29 [ProgramUnit A0]
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap30
happyOut30 HappyAbsSyn
happy_x_6 of { (HappyWrap30 [Block A0]
happy_var_6) -> 
	case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_9 of { (HappyWrap34 Token
happy_var_9) -> 
	Block A0 -> HappyAbsSyn
happyIn26
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Bool
-> [ProgramUnit A0]
-> [Block A0]
-> Block A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Bool
-> [ProgramUnit a]
-> [Block a]
-> Block a
BlInterface () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_9) Maybe (Expression A0)
happy_var_2 Bool
False ([ProgramUnit A0] -> [ProgramUnit A0]
forall a. [a] -> [a]
reverse [ProgramUnit A0]
happy_var_5) ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_6)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_54 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_54 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_54 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
8# Int#
20# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_54
happyReduction_54 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_54 (HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap27
happyOut27 HappyAbsSyn
happy_x_2 of { (HappyWrap27 Maybe (Expression A0)
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap30
happyOut30 HappyAbsSyn
happy_x_5 of { (HappyWrap30 [Block A0]
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_8 of { (HappyWrap34 Token
happy_var_8) -> 
	Block A0 -> HappyAbsSyn
happyIn26
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Bool
-> [ProgramUnit A0]
-> [Block A0]
-> Block A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Bool
-> [ProgramUnit a]
-> [Block a]
-> Block a
BlInterface () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_8) Maybe (Expression A0)
happy_var_2 Bool
False [ ] ([Block A0] -> [Block A0]
forall a. [a] -> [a]
reverse [Block A0]
happy_var_5)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_55 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_55 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_55 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
20# HappyAbsSyn -> HappyAbsSyn
happyReduction_55
happyReduction_55 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_55 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap32
happyOut32 HappyAbsSyn
happy_x_1 of { (HappyWrap32 Block A0
happy_var_1) -> 
	Block A0 -> HappyAbsSyn
happyIn26
		 (Block A0
happy_var_1
	)}

happyReduce_56 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_56 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_56 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
21# HappyAbsSyn -> HappyAbsSyn
happyReduction_56
happyReduction_56 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_56 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	Maybe (Expression A0) -> HappyAbsSyn
happyIn27
		 (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1
	)}

happyReduce_57 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_57 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_57 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
21# HappyAbsSyn
happyReduction_57
happyReduction_57 :: HappyAbsSyn
happyReduction_57  =  Maybe (Expression A0) -> HappyAbsSyn
happyIn27
		 (Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_58 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_58 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_58 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
22# HappyAbsSyn -> HappyAbsSyn
happyReduction_58
happyReduction_58 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_58 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Maybe Token -> HappyAbsSyn
happyIn28
		 (Token -> Maybe Token
forall k1. k1 -> Maybe k1
Just Token
happy_var_1
	)}

happyReduce_59 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_59 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_59 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
22# HappyAbsSyn
happyReduction_59
happyReduction_59 :: HappyAbsSyn
happyReduction_59  =  Maybe Token -> HappyAbsSyn
happyIn28
		 (Maybe Token
forall k1. Maybe k1
Nothing
	)

happyReduce_60 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_60 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_60 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
23# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_60
happyReduction_60 :: p -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_60 p
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap11
happyOut11 HappyAbsSyn
happy_x_1 of { (HappyWrap11 [ProgramUnit A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap12
happyOut12 HappyAbsSyn
happy_x_2 of { (HappyWrap12 ProgramUnit A0
happy_var_2) -> 
	[ProgramUnit A0] -> HappyAbsSyn
happyIn29
		 (ProgramUnit A0
happy_var_2 ProgramUnit A0 -> [ProgramUnit A0] -> [ProgramUnit A0]
forall k1. k1 -> [k1] -> [k1]
: [ProgramUnit A0]
happy_var_1
	)}}

happyReduce_61 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_61 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_61 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
24# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_61
happyReduction_61 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_61 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap30
happyOut30 HappyAbsSyn
happy_x_1 of { (HappyWrap30 [Block A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap31
happyOut31 HappyAbsSyn
happy_x_2 of { (HappyWrap31 Block A0
happy_var_2) -> 
	[Block A0] -> HappyAbsSyn
happyIn30
		 (Block A0
happy_var_2 Block A0 -> [Block A0] -> [Block A0]
forall k1. k1 -> [k1] -> [k1]
: [Block A0]
happy_var_1
	)}}

happyReduce_62 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_62 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_62 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
24# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_62
happyReduction_62 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_62 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap30
happyOut30 HappyAbsSyn
happy_x_1 of { (HappyWrap30 [Block A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap31
happyOut31 HappyAbsSyn
happy_x_2 of { (HappyWrap31 Block A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap32
happyOut32 HappyAbsSyn
happy_x_3 of { (HappyWrap32 Block A0
happy_var_3) -> 
	[Block A0] -> HappyAbsSyn
happyIn30
		 (Block A0
happy_var_3 Block A0 -> [Block A0] -> [Block A0]
forall k1. k1 -> [k1] -> [k1]
: Block A0
happy_var_2 Block A0 -> [Block A0] -> [Block A0]
forall k1. k1 -> [k1] -> [k1]
: [Block A0]
happy_var_1
	)}}}

happyReduce_63 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_63 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_63 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
24# HappyAbsSyn
happyReduction_63
happyReduction_63 :: HappyAbsSyn
happyReduction_63  =  [Block A0] -> HappyAbsSyn
happyIn30
		 ([ ]
	)

happyReduce_64 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_64 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_64 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
25# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_64
happyReduction_64 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_64 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_2 of { (HappyWrap63 [Expression A0]
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_4 of { (HappyWrap34 Token
happy_var_4) -> 
	Block A0 -> HappyAbsSyn
happyIn31
		 (let { al :: AList Expression A0
al = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2;
          st :: Statement A0
st = A0 -> SrcSpan -> AList Expression A0 -> Statement A0
forall a. a -> SrcSpan -> AList Expression a -> Statement a
StModuleProcedure () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
al) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2) }
    in A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0 -> Block A0
forall a.
a -> SrcSpan -> Maybe (Expression a) -> Statement a -> Block a
BlStatement () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Statement A0
st
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_65 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_65 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_65 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
26# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_65
happyReduction_65 :: p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_65 p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Block A0 -> HappyAbsSyn
happyIn32
		 (let (TComment SrcSpan
s Name
c) = Token
happy_var_1 in A0 -> SrcSpan -> Comment A0 -> Block A0
forall a. a -> SrcSpan -> Comment a -> Block a
BlComment () SrcSpan
s (Name -> Comment A0
forall a. Name -> Comment a
Comment Name
c)
	)}

happyReduce_66 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_66 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_66 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
27# HappyAbsSyn -> HappyAbsSyn
happyReduction_66
happyReduction_66 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_66 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_1 of { (HappyWrap34 Token
happy_var_1) -> 
	Maybe Token -> HappyAbsSyn
happyIn33
		 (Token -> Maybe Token
forall k1. k1 -> Maybe k1
Just Token
happy_var_1
	)}

happyReduce_67 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_67 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_67 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
27# HappyAbsSyn
happyReduction_67
happyReduction_67 :: HappyAbsSyn
happyReduction_67  =  Maybe Token -> HappyAbsSyn
happyIn33
		 (Maybe Token
forall k1. Maybe k1
Nothing
	)

happyReduce_68 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_68 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_68 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
28# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_68
happyReduction_68 :: p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_68 p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_1 of { (HappyWrap34 Token
happy_var_1) -> 
	Token -> HappyAbsSyn
happyIn34
		 (Token
happy_var_1
	)}

happyReduce_69 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_69 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_69 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
28# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_69
happyReduction_69 :: p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_69 p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap34
happyOut34 HappyAbsSyn
happy_x_1 of { (HappyWrap34 Token
happy_var_1) -> 
	Token -> HappyAbsSyn
happyIn34
		 (Token
happy_var_1
	)}

happyReduce_70 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_70 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_70 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
28# HappyAbsSyn -> HappyAbsSyn
happyReduction_70
happyReduction_70 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_70 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn34
		 (Token
happy_var_1
	)}

happyReduce_71 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_71 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_71 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
28# HappyAbsSyn -> HappyAbsSyn
happyReduction_71
happyReduction_71 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_71 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Token -> HappyAbsSyn
happyIn34
		 (Token
happy_var_1
	)}

happyReduce_72 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_72 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_72 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
29# HappyAbsSyn -> HappyAbsSyn
happyReduction_72
happyReduction_72 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_72 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap37
happyOut37 HappyAbsSyn
happy_x_1 of { (HappyWrap37 Statement A0
happy_var_1) -> 
	Statement A0 -> HappyAbsSyn
happyIn35
		 (Statement A0
happy_var_1
	)}

happyReduce_73 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_73 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_73 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
29# HappyAbsSyn -> HappyAbsSyn
happyReduction_73
happyReduction_73 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_73 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap38
happyOut38 HappyAbsSyn
happy_x_1 of { (HappyWrap38 Statement A0
happy_var_1) -> 
	Statement A0 -> HappyAbsSyn
happyIn35
		 (Statement A0
happy_var_1
	)}

happyReduce_74 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_74 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_74 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
30# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_74
happyReduction_74 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_74 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn36
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0 -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Expression a -> Statement a
StExpressionAssign () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_75 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_75 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_75 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_75
happyReduction_75 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_75 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap70
happyOut70 HappyAbsSyn
happy_x_1 of { (HappyWrap70 Statement A0
happy_var_1) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (Statement A0
happy_var_1
	)}

happyReduce_76 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_76 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_76 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_76
happyReduction_76 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_76 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap73
happyOut73 HappyAbsSyn
happy_x_3 of { (HappyWrap73 Intent
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_6 of { (HappyWrap100 [Expression A0]
happy_var_6) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let expAList :: AList Expression A0
expAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_6
    in A0 -> SrcSpan -> Intent -> AList Expression A0 -> Statement A0
forall a.
a -> SrcSpan -> Intent -> AList Expression a -> Statement a
StIntent () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
expAList) Intent
happy_var_3 AList Expression A0
expAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_77 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_77 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_77 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_77
happyReduction_77 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_77 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_3 of { (HappyWrap100 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let expAList :: AList Expression A0
expAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0 -> SrcSpan -> AList Expression A0 -> Statement A0
forall a. a -> SrcSpan -> AList Expression a -> Statement a
StOptional () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
expAList) AList Expression A0
expAList
	)}}

happyReduce_78 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_78 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_78 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_78
happyReduction_78 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_78 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_3 of { (HappyWrap100 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let expAList :: AList Expression A0
expAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StPublic () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
expAList) (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
expAList)
	)}}

happyReduce_79 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_79 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_79 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_79
happyReduction_79 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_79 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StPublic () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_80 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_80 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_80 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_80
happyReduction_80 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_80 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_3 of { (HappyWrap100 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let expAList :: AList Expression A0
expAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StPrivate () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
expAList) (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
expAList)
	)}}

happyReduce_81 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_81 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_81 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_81
happyReduction_81 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_81 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StPrivate () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_82 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_82 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_82 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_82
happyReduction_82 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_82 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap78
happyOut78 HappyAbsSyn
happy_x_3 of { (HappyWrap78 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let saveAList :: AList Expression A0
saveAList = ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3)
    in A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StSave () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
saveAList) (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
saveAList)
	)}}

happyReduce_83 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_83 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_83 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_83
happyReduction_83 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_83 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Maybe (AList Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList Expression a) -> Statement a
StSave () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_84 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_84 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_84 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_84
happyReduction_84 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_84 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_3 of { (HappyWrap81 [Declarator A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_3
    in A0 -> SrcSpan -> AList Declarator A0 -> Statement A0
forall a. a -> SrcSpan -> AList Declarator a -> Statement a
StDimension () (Token -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Declarator A0
declAList) AList Declarator A0
declAList
	)}}

happyReduce_85 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_85 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_85 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_85
happyReduction_85 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_85 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_3 of { (HappyWrap81 [Declarator A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_3
    in A0 -> SrcSpan -> AList Declarator A0 -> Statement A0
forall a. a -> SrcSpan -> AList Declarator a -> Statement a
StAllocatable () (Token -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Declarator A0
declAList) AList Declarator A0
declAList
	)}}

happyReduce_86 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_86 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_86 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_86
happyReduction_86 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_86 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_3 of { (HappyWrap81 [Declarator A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_3
    in A0 -> SrcSpan -> AList Declarator A0 -> Statement A0
forall a. a -> SrcSpan -> AList Declarator a -> Statement a
StPointer () (Token -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Declarator A0
declAList) AList Declarator A0
declAList
	)}}

happyReduce_87 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_87 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_87 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_87
happyReduction_87 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_87 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_3 of { (HappyWrap81 [Declarator A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_3
    in A0 -> SrcSpan -> AList Declarator A0 -> Statement A0
forall a. a -> SrcSpan -> AList Declarator a -> Statement a
StTarget () (Token -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Declarator A0
declAList) AList Declarator A0
declAList
	)}}

happyReduce_88 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_88 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_88 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_88
happyReduction_88 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_88 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap74
happyOut74 HappyAbsSyn
happy_x_3 of { (HappyWrap74 [DataGroup A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let dataAList :: AList DataGroup A0
dataAList = [DataGroup A0] -> AList DataGroup A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [DataGroup A0]
happy_var_3
    in A0 -> SrcSpan -> AList DataGroup A0 -> Statement A0
forall a. a -> SrcSpan -> AList DataGroup a -> Statement a
StData () (Token -> AList DataGroup A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList DataGroup A0
dataAList) AList DataGroup A0
dataAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_89 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_89 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_89 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_89
happyReduction_89 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_89 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap68
happyOut68 HappyAbsSyn
happy_x_3 of { (HappyWrap68 [Declarator A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_3
    in A0 -> SrcSpan -> AList Declarator A0 -> Statement A0
forall a. a -> SrcSpan -> AList Declarator a -> Statement a
StParameter () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) AList Declarator A0
declAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_90 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_90 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_90 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_90
happyReduction_90 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_90 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Maybe (AList ImpList A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList ImpList a) -> Statement a
StImplicit () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_2) Maybe (AList ImpList A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_91 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_91 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_91 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_91
happyReduction_91 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_91 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap64
happyOut64 HappyAbsSyn
happy_x_3 of { (HappyWrap64 [ImpList A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let impAList :: AList ImpList A0
impAList = [ImpList A0] -> AList ImpList A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [ImpList A0]
happy_var_3
    in A0 -> SrcSpan -> Maybe (AList ImpList A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (AList ImpList a) -> Statement a
StImplicit () (Token -> AList ImpList A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ImpList A0
impAList) (Maybe (AList ImpList A0) -> Statement A0)
-> Maybe (AList ImpList A0) -> Statement A0
forall a b. (a -> b) -> a -> b
$ AList ImpList A0 -> Maybe (AList ImpList A0)
forall k1. k1 -> Maybe k1
Just (AList ImpList A0 -> Maybe (AList ImpList A0))
-> AList ImpList A0 -> Maybe (AList ImpList A0)
forall a b. (a -> b) -> a -> b
$ AList ImpList A0
impAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_92 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_92 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_92 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_92
happyReduction_92 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_92 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap60
happyOut60 HappyAbsSyn
happy_x_3 of { (HappyWrap60 [Namelist A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let nameALists :: AList Namelist A0
nameALists = [Namelist A0] -> AList Namelist A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Namelist A0]
happy_var_3
    in A0 -> SrcSpan -> AList Namelist A0 -> Statement A0
forall a. a -> SrcSpan -> AList Namelist a -> Statement a
StNamelist () (Token -> AList Namelist A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Namelist A0
nameALists) AList Namelist A0
nameALists
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_93 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_93 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_93 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_93
happyReduction_93 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_93 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap59
happyOut59 HappyAbsSyn
happy_x_2 of { (HappyWrap59 [AList Expression A0]
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let eqALists :: AList (AList Expression) A0
eqALists = [AList Expression A0] -> AList (AList Expression) A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [AList Expression A0]
happy_var_2
    in A0 -> SrcSpan -> AList (AList Expression) A0 -> Statement A0
forall a. a -> SrcSpan -> AList (AList Expression) a -> Statement a
StEquivalence () (Token -> AList (AList Expression) A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList (AList Expression) A0
eqALists) AList (AList Expression) A0
eqALists
	)}}

happyReduce_94 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_94 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_94 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_94
happyReduction_94 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_94 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap56
happyOut56 HappyAbsSyn
happy_x_3 of { (HappyWrap56 [CommonGroup A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let commonAList :: AList CommonGroup A0
commonAList = [CommonGroup A0] -> AList CommonGroup A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [CommonGroup A0]
happy_var_3
    in A0 -> SrcSpan -> AList CommonGroup A0 -> Statement A0
forall a. a -> SrcSpan -> AList CommonGroup a -> Statement a
StCommon () (Token -> AList CommonGroup A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList CommonGroup A0
commonAList) AList CommonGroup A0
commonAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_95 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_95 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_95 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_95
happyReduction_95 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_95 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_3 of { (HappyWrap63 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0 -> SrcSpan -> AList Expression A0 -> Statement A0
forall a. a -> SrcSpan -> AList Expression a -> Statement a
StExternal () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) AList Expression A0
alist
	)}}

happyReduce_96 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_96 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_96 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_96
happyReduction_96 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_96 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_3 of { (HappyWrap63 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0 -> SrcSpan -> AList Expression A0 -> Statement A0
forall a. a -> SrcSpan -> AList Expression a -> Statement a
StIntrinsic () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) AList Expression A0
alist
	)}}

happyReduce_97 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_97 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_97 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_97
happyReduction_97 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_97 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use a)
-> Statement a
StUse () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2 Maybe ModuleNature
forall k1. Maybe k1
Nothing Only
Permissive Maybe (AList Use A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_98 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_98 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_98 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_98
happyReduction_98 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_98 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap42
happyOut42 HappyAbsSyn
happy_x_4 of { (HappyWrap42 [Use A0]
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let alist :: AList Use A0
alist = [Use A0] -> AList Use A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Use A0]
happy_var_4
    in A0
-> SrcSpan
-> Expression A0
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use a)
-> Statement a
StUse () (Token -> AList Use A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Use A0
alist) Expression A0
happy_var_2 Maybe ModuleNature
forall k1. Maybe k1
Nothing Only
Permissive (AList Use A0 -> Maybe (AList Use A0)
forall k1. k1 -> Maybe k1
Just AList Use A0
alist)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_99 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_99 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_99 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_99
happyReduction_99 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_99 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	case HappyAbsSyn -> HappyWrap41
happyOut41 HappyAbsSyn
happy_x_6 of { (HappyWrap41 Maybe (AList Use A0)
happy_var_6) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe ModuleNature
-> Only
-> Maybe (AList Use a)
-> Statement a
StUse () (Token -> (Token, Maybe (AList Use A0)) -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 (Token
happy_var_5, Maybe (AList Use A0)
happy_var_6)) Expression A0
happy_var_2 Maybe ModuleNature
forall k1. Maybe k1
Nothing Only
Exclusive Maybe (AList Use A0)
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_100 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_100 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_100 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_100
happyReduction_100 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_100 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap16
happyOut16 HappyAbsSyn
happy_x_3 of { (HappyWrap16 Maybe (Expression A0)
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Maybe (Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Maybe (Expression a)
-> Statement a
StEntry () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 (SrcSpan -> SrcSpan) -> SrcSpan -> SrcSpan
forall a b. (a -> b) -> a -> b
$ SrcSpan
-> (Expression A0 -> SrcSpan) -> Maybe (Expression A0) -> SrcSpan
forall b a. b -> (a -> b) -> Maybe a -> b
maybe (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Maybe (Expression A0)
happy_var_3) Expression A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
happy_var_3
	)}}}

happyReduce_101 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_101 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_101 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_101
happyReduction_101 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_101 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	case HappyAbsSyn -> HappyWrap16
happyOut16 HappyAbsSyn
happy_x_5 of { (HappyWrap16 Maybe (Expression A0)
happy_var_5) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Maybe (Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Maybe (Expression a)
-> Statement a
StEntry () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 (SrcSpan -> SrcSpan) -> SrcSpan -> SrcSpan
forall a b. (a -> b) -> a -> b
$ SrcSpan
-> (Expression A0 -> SrcSpan) -> Maybe (Expression A0) -> SrcSpan
forall b a. b -> (a -> b) -> Maybe a -> b
maybe (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_4) Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Maybe (Expression A0)
happy_var_5) Expression A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
happy_var_5
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_102 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_102 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_102 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_102
happyReduction_102 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_102 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_4 of { (HappyWrap63 [Expression A0]
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	case HappyAbsSyn -> HappyWrap16
happyOut16 HappyAbsSyn
happy_x_6 of { (HappyWrap16 Maybe (Expression A0)
happy_var_6) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Maybe (Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Maybe (Expression a)
-> Statement a
StEntry () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 (SrcSpan -> SrcSpan) -> SrcSpan -> SrcSpan
forall a b. (a -> b) -> a -> b
$ SrcSpan
-> (Expression A0 -> SrcSpan) -> Maybe (Expression A0) -> SrcSpan
forall b a. b -> (a -> b) -> Maybe a -> b
maybe (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_5) Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Maybe (Expression A0)
happy_var_6) Expression A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just (AList Expression A0 -> Maybe (AList Expression A0))
-> AList Expression A0 -> Maybe (AList Expression A0)
forall a b. (a -> b) -> a -> b
$ [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_4) Maybe (Expression A0)
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_103 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_103 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_103 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_103
happyReduction_103 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_103 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Statement A0
forall a. a -> SrcSpan -> Statement a
StSequence () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_104 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_104 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_104 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
31# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_104
happyReduction_104 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_104 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap71
happyOut71 HappyAbsSyn
happy_x_2 of { (HappyWrap71 [Attribute A0]
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let { TId SrcSpan
span Name
id = Token
happy_var_4;
          alist :: Maybe (AList Attribute A0)
alist = if [Attribute A0] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [Attribute A0]
happy_var_2 then Maybe (AList Attribute A0)
forall k1. Maybe k1
Nothing else (AList Attribute A0 -> Maybe (AList Attribute A0)
forall k1. k1 -> Maybe k1
Just (AList Attribute A0 -> Maybe (AList Attribute A0))
-> ([Attribute A0] -> AList Attribute A0)
-> [Attribute A0]
-> Maybe (AList Attribute A0)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [Attribute A0] -> AList Attribute A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList) [Attribute A0]
happy_var_2 }
    in A0 -> SrcSpan -> Maybe (AList Attribute A0) -> Name -> Statement A0
forall a.
a -> SrcSpan -> Maybe (AList Attribute a) -> Name -> Statement a
StType () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
span) Maybe (AList Attribute A0)
alist Name
id
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_105 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_105 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_105 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_105
happyReduction_105 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_105 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let TId SrcSpan
span Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe (AList Attribute A0) -> Name -> Statement A0
forall a.
a -> SrcSpan -> Maybe (AList Attribute a) -> Name -> Statement a
StType () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
span) Maybe (AList Attribute A0)
forall k1. Maybe k1
Nothing Name
id
	)}}

happyReduce_106 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_106 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_106 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
31# HappyAbsSyn -> HappyAbsSyn
happyReduction_106
happyReduction_106 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_106 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndType () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_107 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_107 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_107 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_107
happyReduction_107 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_107 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let TId SrcSpan
span Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndType () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
span) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id)
	)}}

happyReduce_108 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_108 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_108 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_108
happyReduction_108 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_108 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap109
happyOut109 HappyAbsSyn
happy_x_2 of { (HappyWrap109 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (A0 -> SrcSpan -> Expression A0 -> Maybe [Block A0] -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Maybe [Block a] -> Statement a
StInclude () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2 Maybe [Block A0]
forall k1. Maybe k1
Nothing
	)}}

happyReduce_109 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_109 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_109 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
31# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_109
happyReduction_109 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_109 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn37
		 (let TBlob SrcSpan
s Name
blob = Token
happy_var_2 in A0 -> SrcSpan -> Name -> Statement A0
forall a. a -> SrcSpan -> Name -> Statement a
StFormatBogus () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) Name
blob
	)}}

happyReduce_110 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_110 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_110 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_110
happyReduction_110 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_110 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap91
happyOut91 HappyAbsSyn
happy_x_3 of { (HappyWrap91 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap52
happyOut52 HappyAbsSyn
happy_x_4 of { (HappyWrap52 Maybe (AList AllocOpt A0)
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe (TypeSpec A0)
-> AList Expression A0
-> Maybe (AList AllocOpt A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe (TypeSpec a)
-> AList Expression a
-> Maybe (AList AllocOpt a)
-> Statement a
StAllocate () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe (TypeSpec A0)
forall k1. Maybe k1
Nothing ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3) Maybe (AList AllocOpt A0)
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_111 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_111 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_111 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_111
happyReduction_111 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_111 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap91
happyOut91 HappyAbsSyn
happy_x_3 of { (HappyWrap91 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList Expression A0 -> Statement A0
forall a. a -> SrcSpan -> AList Expression a -> Statement a
StNullify () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_112 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_112 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_112 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_112
happyReduction_112 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_112 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap91
happyOut91 HappyAbsSyn
happy_x_3 of { (HappyWrap91 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap52
happyOut52 HappyAbsSyn
happy_x_4 of { (HappyWrap52 Maybe (AList AllocOpt A0)
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> AList Expression A0
-> Maybe (AList AllocOpt A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> Maybe (AList AllocOpt a)
-> Statement a
StDeallocate () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3) Maybe (AList AllocOpt A0)
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_113 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_113 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_113 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_113
happyReduction_113 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_113 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap36
happyOut36 HappyAbsSyn
happy_x_1 of { (HappyWrap36 Statement A0
happy_var_1) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (Statement A0
happy_var_1
	)}

happyReduce_114 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_114 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_114 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_114
happyReduction_114 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_114 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0 -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Expression a -> Statement a
StPointerAssign () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_115 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_115 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_115 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_115
happyReduction_115 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_115 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap36
happyOut36 HappyAbsSyn
happy_x_5 of { (HappyWrap36 Statement A0
happy_var_5) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0 -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Statement a -> Statement a
StWhere () (Token -> Statement A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Statement A0
happy_var_5) Expression A0
happy_var_3 Statement A0
happy_var_5
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_116 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_116 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_116 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_116
happyReduction_116 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_116 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StWhereConstruct () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_117 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_117 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_117 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_117
happyReduction_117 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_117 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan -> Maybe Name -> Maybe (Expression A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (Expression a) -> Statement a
StElsewhere () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_118 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_118 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_118 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_118
happyReduction_118 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_118 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan -> Maybe Name -> Maybe (Expression A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (Expression a) -> Statement a
StElsewhere () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_119 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_119 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_119 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_119
happyReduction_119 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_119 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndWhere () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_120 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_120 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_120 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
9# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_120
happyReduction_120 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_120 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_5 of { (HappyWrap106 Expression A0
happy_var_5) -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_7 of { (HappyWrap106 Expression A0
happy_var_7) -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_9 of { (HappyWrap106 Expression A0
happy_var_9) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Expression A0
-> Expression A0
-> Expression A0
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Expression a
-> Expression a
-> Expression a
-> Statement a
StIfArithmetic () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_9) Expression A0
happy_var_3 Expression A0
happy_var_5 Expression A0
happy_var_7 Expression A0
happy_var_9
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_121 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_121 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_121 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_121
happyReduction_121 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_121 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StIfThen () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_122 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_122 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_122 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_122
happyReduction_122 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_122 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_5 of { (HappyWrap90 Expression A0
happy_var_5) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_1 in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StIfThen () (SrcSpan -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Token
happy_var_7) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Expression A0
happy_var_5
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_123 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_123 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_123 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_123
happyReduction_123 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_123 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StElsif () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_124 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_124 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_124 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_124
happyReduction_124 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_124 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_6 of { Token
happy_var_6 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_6 in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StElsif () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_125 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_125 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_125 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_125
happyReduction_125 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_125 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StElse () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_126 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_126 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_126 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_126
happyReduction_126 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_126 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StElse () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id)
	)}}

happyReduce_127 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_127 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_127 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_127
happyReduction_127 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_127 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndif () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_128 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_128 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_128 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_128
happyReduction_128 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_128 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndif () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id)
	)}}

happyReduce_129 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_129 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_129 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_129
happyReduction_129 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_129 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Maybe (DoSpecification A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Maybe (DoSpecification a)
-> Statement a
StDo () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (DoSpecification A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_130 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_130 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_130 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_130
happyReduction_130 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_130 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_1
    in A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Maybe (DoSpecification A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Maybe (DoSpecification a)
-> Statement a
StDo () (SrcSpan -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Token
happy_var_3) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (DoSpecification A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_131 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_131 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_131 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_131
happyReduction_131 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_131 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_2 of { (HappyWrap106 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_4 of { (HappyWrap98 DoSpecification A0
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Maybe (DoSpecification A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Maybe (DoSpecification a)
-> Statement a
StDo () (Token -> DoSpecification A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 DoSpecification A0
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) (DoSpecification A0 -> Maybe (DoSpecification A0)
forall k1. k1 -> Maybe k1
Just DoSpecification A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_132 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_132 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_132 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_132
happyReduction_132 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_132 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_2 of { (HappyWrap98 DoSpecification A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Maybe (DoSpecification A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Maybe (DoSpecification a)
-> Statement a
StDo () (Token -> DoSpecification A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 DoSpecification A0
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing (DoSpecification A0 -> Maybe (DoSpecification A0)
forall k1. k1 -> Maybe k1
Just DoSpecification A0
happy_var_2)
	)}}

happyReduce_133 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_133 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_133 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_133
happyReduction_133 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_133 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_4 of { (HappyWrap98 DoSpecification A0
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_1
    in A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Maybe (DoSpecification A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Maybe (DoSpecification a)
-> Statement a
StDo () (SrcSpan -> DoSpecification A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s DoSpecification A0
happy_var_4) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (DoSpecification A0 -> Maybe (DoSpecification A0)
forall k1. k1 -> Maybe k1
Just DoSpecification A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_134 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_134 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_134 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_134
happyReduction_134 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_134 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_2 of { (HappyWrap106 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_6 of { (HappyWrap90 Expression A0
happy_var_6) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Expression A0
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Expression a
-> Statement a
StDoWhile () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_7) Maybe Name
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) Expression A0
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_135 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_135 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_135 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_135
happyReduction_135 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_135 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Expression A0
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Expression a
-> Statement a
StDoWhile () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe Name
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing Expression A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_136 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_136 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_136 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_136
happyReduction_136 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_136 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_6 of { (HappyWrap90 Expression A0
happy_var_6) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_1
    in A0
-> SrcSpan
-> Maybe Name
-> Maybe (Expression A0)
-> Expression A0
-> Statement A0
forall a.
a
-> SrcSpan
-> Maybe Name
-> Maybe (Expression a)
-> Expression a
-> Statement a
StDoWhile () (SrcSpan -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Token
happy_var_7) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Expression A0
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_137 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_137 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_137 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_137
happyReduction_137 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_137 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEnddo () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_138 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_138 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_138 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_138
happyReduction_138 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_138 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEnddo () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id)
	)}}

happyReduce_139 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_139 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_139 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_139
happyReduction_139 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_139 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StCycle () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_140 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_140 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_140 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_140
happyReduction_140 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_140 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StCycle () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_141 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_141 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_141 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_141
happyReduction_141 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_141 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StExit () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_142 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_142 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_142 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_142
happyReduction_142 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_142 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StExit () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_143 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_143 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_143 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_143
happyReduction_143 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_143 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_2 of { (HappyWrap106 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Expression a -> Statement a
StGotoUnconditional () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_144 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_144 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_144 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_144
happyReduction_144 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_144 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Expression a -> Statement a
StGotoUnconditional () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_145 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_145 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_145 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_145
happyReduction_145 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_145 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap105
happyOut105 HappyAbsSyn
happy_x_5 of { (HappyWrap105 [Expression A0]
happy_var_5) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_6 of { Token
happy_var_6 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Statement a
StGotoAssigned () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_6) Expression A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_5))
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_146 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_146 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_146 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_146
happyReduction_146 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_146 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap105
happyOut105 HappyAbsSyn
happy_x_3 of { (HappyWrap105 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_6 of { (HappyWrap90 Expression A0
happy_var_6) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan -> AList Expression A0 -> Expression A0 -> Statement A0
forall a.
a -> SrcSpan -> AList Expression a -> Expression a -> Statement a
StGotoComputed () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_6) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3) Expression A0
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_147 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_147 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_147 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_147
happyReduction_147 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_147 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_2 of { (HappyWrap106 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_4 of { (HappyWrap103 Expression A0
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0 -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Expression a -> Statement a
StLabelAssign () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_4) Expression A0
happy_var_2 Expression A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_148 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_148 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_148 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_148
happyReduction_148 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_148 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Statement A0
forall a. a -> SrcSpan -> Statement a
StContinue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_149 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_149 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_149 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_149
happyReduction_149 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_149 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StStop () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_150 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_150 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_150 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_150
happyReduction_150 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_150 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StStop () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_151 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_151 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_151 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_151
happyReduction_151 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_151 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StPause () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_152 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_152 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_152 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_152
happyReduction_152 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_152 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StPause () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_153 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_153 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_153 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_153
happyReduction_153 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_153 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StSelectCase () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_154 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_154 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_154 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_154
happyReduction_154 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_154 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_5 of { (HappyWrap90 Expression A0
happy_var_5) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_6 of { Token
happy_var_6 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_1 in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Statement a
StSelectCase () (SrcSpan -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Token
happy_var_6) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Expression A0
happy_var_5
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_155 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_155 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_155 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_155
happyReduction_155 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_155 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan -> Maybe Name -> Maybe (AList Index A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (AList Index a) -> Statement a
StCase () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Maybe (AList Index A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_156 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_156 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_156 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_156
happyReduction_156 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_156 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_3 in A0
-> SrcSpan -> Maybe Name -> Maybe (AList Index A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (AList Index a) -> Statement a
StCase () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Maybe (AList Index A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_157 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_157 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_157 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_157
happyReduction_157 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_157 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_3 of { (HappyWrap95 [Index A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan -> Maybe Name -> Maybe (AList Index A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (AList Index a) -> Statement a
StCase () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing (AList Index A0 -> Maybe (AList Index A0)
forall k1. k1 -> Maybe k1
Just (AList Index A0 -> Maybe (AList Index A0))
-> AList Index A0 -> Maybe (AList Index A0)
forall a b. (a -> b) -> a -> b
$ [Index A0] -> AList Index A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Index A0]
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_158 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_158 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_158 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_158
happyReduction_158 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_158 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_3 of { (HappyWrap95 [Index A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_5
    in A0
-> SrcSpan -> Maybe Name -> Maybe (AList Index A0) -> Statement A0
forall a.
a -> SrcSpan -> Maybe Name -> Maybe (AList Index a) -> Statement a
StCase () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) (AList Index A0 -> Maybe (AList Index A0)
forall k1. k1 -> Maybe k1
Just (AList Index A0 -> Maybe (AList Index A0))
-> AList Index A0 -> Maybe (AList Index A0)
forall a b. (a -> b) -> a -> b
$ [Index A0] -> AList Index A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Index A0]
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_159 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_159 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_159 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_159
happyReduction_159 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_159 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndcase () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing
	)}

happyReduce_160 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_160 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_160 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_160
happyReduction_160 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_160 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let TId SrcSpan
s Name
id = Token
happy_var_2 in A0 -> SrcSpan -> Maybe Name -> Statement A0
forall a. a -> SrcSpan -> Maybe Name -> Statement a
StEndcase () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id)
	)}}

happyReduce_161 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_161 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_161 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_161
happyReduction_161 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_161 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap38
happyOut38 HappyAbsSyn
happy_x_5 of { (HappyWrap38 Statement A0
happy_var_5) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0 -> Statement A0
forall a.
a -> SrcSpan -> Expression a -> Statement a -> Statement a
StIfLogical () (Token -> Statement A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Statement A0
happy_var_5) Expression A0
happy_var_3 Statement A0
happy_var_5
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_162 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_162 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_162 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_162
happyReduction_162 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_162 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap53
happyOut53 HappyAbsSyn
happy_x_3 of { (HappyWrap53 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0
-> SrcSpan
-> AList ControlPair A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> AList ControlPair a
-> Maybe (AList Expression a)
-> Statement a
StRead () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) AList ControlPair A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
alist)
	)}}}

happyReduce_163 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_163 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_163 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_163
happyReduction_163 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_163 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> AList ControlPair A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> AList ControlPair a
-> Maybe (AList Expression a)
-> Statement a
StRead () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_164 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_164 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_164 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_164
happyReduction_164 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_164 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_2 of { (HappyWrap45 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap53
happyOut53 HappyAbsSyn
happy_x_4 of { (HappyWrap53 [Expression A0]
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_4
    in A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Statement a
StRead2 () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) Expression A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
alist)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_165 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_165 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_165 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_165
happyReduction_165 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_165 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_2 of { (HappyWrap45 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Statement a
StRead2 () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_166 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_166 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_166 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_166
happyReduction_166 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_166 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap55
happyOut55 HappyAbsSyn
happy_x_3 of { (HappyWrap55 [Expression A0]
happy_var_3) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0
-> SrcSpan
-> AList ControlPair A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> AList ControlPair a
-> Maybe (AList Expression a)
-> Statement a
StWrite () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) AList ControlPair A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
alist)
	)}}}

happyReduce_167 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_167 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_167 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_167
happyReduction_167 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_167 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> AList ControlPair A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> AList ControlPair a
-> Maybe (AList Expression a)
-> Statement a
StWrite () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_168 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_168 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_168 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_168
happyReduction_168 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_168 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_2 of { (HappyWrap45 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap55
happyOut55 HappyAbsSyn
happy_x_4 of { (HappyWrap55 [Expression A0]
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_4
    in A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Statement a
StPrint () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) Expression A0
happy_var_2 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just AList Expression A0
alist)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_169 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_169 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_169 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_169
happyReduction_169 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_169 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_2 of { (HappyWrap45 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Expression A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Expression a)
-> Statement a
StPrint () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2 Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_170 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_170 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_170 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_170
happyReduction_170 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_170 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StOpen () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_171 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_171 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_171 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_171
happyReduction_171 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_171 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StClose () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_172 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_172 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_172 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_172
happyReduction_172 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_172 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StInquire () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_173 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_173 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_173 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_173
happyReduction_173 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_173 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StRewind () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_174 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_174 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_174 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_174
happyReduction_174 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_174 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap46
happyOut46 HappyAbsSyn
happy_x_2 of { (HappyWrap46 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Expression a -> Statement a
StRewind2 () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_175 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_175 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_175 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_175
happyReduction_175 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_175 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StEndfile () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_176 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_176 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_176 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_176
happyReduction_176 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_176 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap46
happyOut46 HappyAbsSyn
happy_x_2 of { (HappyWrap46 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Expression a -> Statement a
StEndfile2 () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_177 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_177 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_177 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_177
happyReduction_177 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_177 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap47
happyOut47 HappyAbsSyn
happy_x_2 of { (HappyWrap47 AList ControlPair A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> AList ControlPair A0 -> Statement A0
forall a. a -> SrcSpan -> AList ControlPair a -> Statement a
StBackspace () (Token -> AList ControlPair A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList ControlPair A0
happy_var_2) AList ControlPair A0
happy_var_2
	)}}

happyReduce_178 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_178 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_178 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_178
happyReduction_178 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_178 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap46
happyOut46 HappyAbsSyn
happy_x_2 of { (HappyWrap46 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Expression A0 -> Statement A0
forall a. a -> SrcSpan -> Expression a -> Statement a
StBackspace2 () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_179 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_179 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_179 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_179
happyReduction_179 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_179 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Argument A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Argument a)
-> Statement a
StCall () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2 Maybe (AList Argument A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_180 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_180 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_180 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_180
happyReduction_180 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_180 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Argument A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Argument a)
-> Statement a
StCall () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Expression A0
happy_var_2 Maybe (AList Argument A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_181 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_181 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_181 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
32# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_181
happyReduction_181 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_181 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap39
happyOut39 HappyAbsSyn
happy_x_4 of { (HappyWrap39 [Argument A0]
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (let alist :: AList Argument A0
alist = [Argument A0] -> AList Argument A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Argument A0]
happy_var_4
    in A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Argument A0)
-> Statement A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Argument a)
-> Statement a
StCall () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Expression A0
happy_var_2 (AList Argument A0 -> Maybe (AList Argument A0)
forall k1. k1 -> Maybe k1
Just AList Argument A0
alist)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_182 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_182 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_182 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
32# HappyAbsSyn -> HappyAbsSyn
happyReduction_182
happyReduction_182 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_182 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StReturn () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_183 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_183 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_183 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
32# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_183
happyReduction_183 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_183 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn38
		 (A0 -> SrcSpan -> Maybe (Expression A0) -> Statement A0
forall a. a -> SrcSpan -> Maybe (Expression a) -> Statement a
StReturn () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_184 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_184 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_184 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
33# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_184
happyReduction_184 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_184 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap39
happyOut39 HappyAbsSyn
happy_x_1 of { (HappyWrap39 [Argument A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap40
happyOut40 HappyAbsSyn
happy_x_3 of { (HappyWrap40 Argument A0
happy_var_3) -> 
	[Argument A0] -> HappyAbsSyn
happyIn39
		 (Argument A0
happy_var_3 Argument A0 -> [Argument A0] -> [Argument A0]
forall k1. k1 -> [k1] -> [k1]
: [Argument A0]
happy_var_1
	)}}

happyReduce_185 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_185 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_185 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
33# HappyAbsSyn -> HappyAbsSyn
happyReduction_185
happyReduction_185 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_185 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap40
happyOut40 HappyAbsSyn
happy_x_1 of { (HappyWrap40 Argument A0
happy_var_1) -> 
	[Argument A0] -> HappyAbsSyn
happyIn39
		 ([ Argument A0
happy_var_1 ]
	)}

happyReduce_186 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_186 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_186 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
34# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_186
happyReduction_186 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_186 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Argument A0 -> HappyAbsSyn
happyIn40
		 (let TId SrcSpan
span Name
keyword = Token
happy_var_1
    in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Argument A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Argument a
Argument () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
span Expression A0
happy_var_3) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
keyword) Expression A0
happy_var_3
	)}}

happyReduce_187 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_187 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_187 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
34# HappyAbsSyn -> HappyAbsSyn
happyReduction_187
happyReduction_187 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_187 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	Argument A0 -> HappyAbsSyn
happyIn40
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Argument A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Argument a
Argument () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_1
	)}

happyReduce_188 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_188 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_188 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
35# HappyAbsSyn -> HappyAbsSyn
happyReduction_188
happyReduction_188 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_188 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap42
happyOut42 HappyAbsSyn
happy_x_1 of { (HappyWrap42 [Use A0]
happy_var_1) -> 
	Maybe (AList Use A0) -> HappyAbsSyn
happyIn41
		 (AList Use A0 -> Maybe (AList Use A0)
forall k1. k1 -> Maybe k1
Just (AList Use A0 -> Maybe (AList Use A0))
-> AList Use A0 -> Maybe (AList Use A0)
forall a b. (a -> b) -> a -> b
$ [Use A0] -> AList Use A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Use A0]
happy_var_1
	)}

happyReduce_189 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_189 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_189 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
35# HappyAbsSyn
happyReduction_189
happyReduction_189 :: HappyAbsSyn
happyReduction_189  =  Maybe (AList Use A0) -> HappyAbsSyn
happyIn41
		 (Maybe (AList Use A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_190 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_190 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_190 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
36# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_190
happyReduction_190 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_190 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap42
happyOut42 HappyAbsSyn
happy_x_1 of { (HappyWrap42 [Use A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap43
happyOut43 HappyAbsSyn
happy_x_3 of { (HappyWrap43 Use A0
happy_var_3) -> 
	[Use A0] -> HappyAbsSyn
happyIn42
		 (Use A0
happy_var_3 Use A0 -> [Use A0] -> [Use A0]
forall k1. k1 -> [k1] -> [k1]
: [Use A0]
happy_var_1
	)}}

happyReduce_191 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_191 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_191 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
36# HappyAbsSyn -> HappyAbsSyn
happyReduction_191
happyReduction_191 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_191 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap43
happyOut43 HappyAbsSyn
happy_x_1 of { (HappyWrap43 Use A0
happy_var_1) -> 
	[Use A0] -> HappyAbsSyn
happyIn42
		 ([ Use A0
happy_var_1 ]
	)}

happyReduce_192 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_192 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_192 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
37# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_192
happyReduction_192 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_192 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_3 of { (HappyWrap103 Expression A0
happy_var_3) -> 
	Use A0 -> HappyAbsSyn
happyIn43
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0 -> Use A0
forall a. a -> SrcSpan -> Expression a -> Expression a -> Use a
UseRename () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_193 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_193 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_193 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
37# HappyAbsSyn -> HappyAbsSyn
happyReduction_193
happyReduction_193 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_193 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	Use A0 -> HappyAbsSyn
happyIn43
		 (A0 -> SrcSpan -> Expression A0 -> Use A0
forall a. a -> SrcSpan -> Expression a -> Use a
UseID () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_1) Expression A0
happy_var_1
	)}

happyReduce_194 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_194 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_194 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
37# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_194
happyReduction_194 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_194 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Use A0 -> HappyAbsSyn
happyIn43
		 (let TOpCustom SrcSpan
ss Name
op = Token
happy_var_3
    in A0 -> SrcSpan -> Expression A0 -> Use A0
forall a. a -> SrcSpan -> Expression a -> Use a
UseID () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
ss (Name -> Value A0
forall a. Name -> Value a
ValOperator Name
op))
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_195 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_195 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_195 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
37# HappyAbsSyn -> HappyAbsSyn
happyReduction_195
happyReduction_195 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_195 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Use A0 -> HappyAbsSyn
happyIn43
		 (A0 -> SrcSpan -> Expression A0 -> Use A0
forall a. a -> SrcSpan -> Expression a -> Use a
UseID () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValAssignment)
	)}

happyReduce_196 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_196 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_196 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
38# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_196
happyReduction_196 :: p -> HappyAbsSyn
happyReduction_196 p
happy_x_1
	 =  A0 -> HappyAbsSyn
happyIn44
		 (()
	)

happyReduce_197 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_197 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_197 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
38# HappyAbsSyn
happyReduction_197
happyReduction_197 :: HappyAbsSyn
happyReduction_197  =  A0 -> HappyAbsSyn
happyIn44
		 (()
	)

happyReduce_198 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_198 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_198 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
39# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_198
happyReduction_198 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_198 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_1 of { (HappyWrap45 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_4 of { (HappyWrap45 Expression A0
happy_var_4) -> 
	Expression A0 -> HappyAbsSyn
happyIn45
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_4) BinaryOp
Concatenation Expression A0
happy_var_1 Expression A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_199 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_199 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_199 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
39# HappyAbsSyn -> HappyAbsSyn
happyReduction_199
happyReduction_199 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_199 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn45
		 (Expression A0
happy_var_1
	)}

happyReduce_200 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_200 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_200 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
39# HappyAbsSyn -> HappyAbsSyn
happyReduction_200
happyReduction_200 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_200 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap109
happyOut109 HappyAbsSyn
happy_x_1 of { (HappyWrap109 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn45
		 (Expression A0
happy_var_1
	)}

happyReduce_201 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_201 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_201 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
39# HappyAbsSyn -> HappyAbsSyn
happyReduction_201
happyReduction_201 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_201 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn45
		 (Expression A0
happy_var_1
	)}

happyReduce_202 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_202 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_202 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
39# HappyAbsSyn -> HappyAbsSyn
happyReduction_202
happyReduction_202 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_202 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn45
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValStar
	)}

happyReduce_203 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_203 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_203 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
40# HappyAbsSyn -> HappyAbsSyn
happyReduction_203
happyReduction_203 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_203 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn46
		 (Expression A0
happy_var_1
	)}

happyReduce_204 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_204 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_204 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
40# HappyAbsSyn -> HappyAbsSyn
happyReduction_204
happyReduction_204 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_204 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn46
		 (Expression A0
happy_var_1
	)}

happyReduce_205 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_205 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_205 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
40# HappyAbsSyn -> HappyAbsSyn
happyReduction_205
happyReduction_205 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_205 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn46
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValStar
	)}

happyReduce_206 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_206 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_206 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
41# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_206
happyReduction_206 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_206 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
happy_x_2 of { (HappyWrap50 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_4 of { (HappyWrap45 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap48
happyOut48 HappyAbsSyn
happy_x_6 of { (HappyWrap48 [ControlPair A0]
happy_var_6) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	AList ControlPair A0 -> HappyAbsSyn
happyIn47
		 (let { cp1 :: ControlPair A0
cp1 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_2;
          cp2 :: ControlPair A0
cp2 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_4;
          tail :: AList ControlPair A0
tail = [ControlPair A0] -> AList ControlPair A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [ControlPair A0]
happy_var_6 }
    in SrcSpan -> AList ControlPair A0 -> AList ControlPair A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_7) (AList ControlPair A0 -> AList ControlPair A0)
-> AList ControlPair A0 -> AList ControlPair A0
forall a b. (a -> b) -> a -> b
$ ControlPair A0
cp1 ControlPair A0 -> AList ControlPair A0 -> AList ControlPair A0
forall (t :: * -> *) a. t a -> AList t a -> AList t a
`aCons` ControlPair A0
cp2 ControlPair A0 -> AList ControlPair A0 -> AList ControlPair A0
forall (t :: * -> *) a. t a -> AList t a -> AList t a
`aCons` AList ControlPair A0
tail
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_207 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_207 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_207 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
41# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_207
happyReduction_207 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_207 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
happy_x_2 of { (HappyWrap50 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap45
happyOut45 HappyAbsSyn
happy_x_4 of { (HappyWrap45 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	AList ControlPair A0 -> HappyAbsSyn
happyIn47
		 (let { cp1 :: ControlPair A0
cp1 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_2;
          cp2 :: ControlPair A0
cp2 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_4) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_4 }
    in A0 -> SrcSpan -> [ControlPair A0] -> AList ControlPair A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) [ ControlPair A0
cp1,  ControlPair A0
cp2 ]
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_208 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_208 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_208 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
41# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_208
happyReduction_208 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_208 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
happy_x_2 of { (HappyWrap50 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap48
happyOut48 HappyAbsSyn
happy_x_4 of { (HappyWrap48 [ControlPair A0]
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	AList ControlPair A0 -> HappyAbsSyn
happyIn47
		 (let { cp1 :: ControlPair A0
cp1 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_2;
          tail :: AList ControlPair A0
tail = [ControlPair A0] -> AList ControlPair A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [ControlPair A0]
happy_var_4 }
    in SrcSpan -> AList ControlPair A0 -> AList ControlPair A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) (AList ControlPair A0 -> AList ControlPair A0)
-> AList ControlPair A0 -> AList ControlPair A0
forall a b. (a -> b) -> a -> b
$ ControlPair A0
cp1 ControlPair A0 -> AList ControlPair A0 -> AList ControlPair A0
forall (t :: * -> *) a. t a -> AList t a -> AList t a
`aCons` AList ControlPair A0
tail
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_209 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_209 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_209 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
41# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_209
happyReduction_209 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_209 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
happy_x_2 of { (HappyWrap50 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	AList ControlPair A0 -> HappyAbsSyn
happyIn47
		 (let cp1 :: ControlPair A0
cp1 = A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_2
    in A0 -> SrcSpan -> [ControlPair A0] -> AList ControlPair A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) [ ControlPair A0
cp1 ]
	)}}}

happyReduce_210 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_210 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_210 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
41# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p p. p -> HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_210
happyReduction_210 :: p -> HappyAbsSyn -> p -> HappyAbsSyn
happyReduction_210 p
happy_x_3
	HappyAbsSyn
happy_x_2
	p
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap48
happyOut48 HappyAbsSyn
happy_x_2 of { (HappyWrap48 [ControlPair A0]
happy_var_2) -> 
	AList ControlPair A0 -> HappyAbsSyn
happyIn47
		 ([ControlPair A0] -> AList ControlPair A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [ControlPair A0]
happy_var_2
	)}

happyReduce_211 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_211 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_211 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
42# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_211
happyReduction_211 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_211 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap48
happyOut48 HappyAbsSyn
happy_x_1 of { (HappyWrap48 [ControlPair A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap49
happyOut49 HappyAbsSyn
happy_x_3 of { (HappyWrap49 ControlPair A0
happy_var_3) -> 
	[ControlPair A0] -> HappyAbsSyn
happyIn48
		 (ControlPair A0
happy_var_3 ControlPair A0 -> [ControlPair A0] -> [ControlPair A0]
forall k1. k1 -> [k1] -> [k1]
: [ControlPair A0]
happy_var_1
	)}}

happyReduce_212 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_212 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_212 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
42# HappyAbsSyn -> HappyAbsSyn
happyReduction_212
happyReduction_212 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_212 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap49
happyOut49 HappyAbsSyn
happy_x_1 of { (HappyWrap49 ControlPair A0
happy_var_1) -> 
	[ControlPair A0] -> HappyAbsSyn
happyIn48
		 ([ ControlPair A0
happy_var_1 ]
	)}

happyReduce_213 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_213 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_213 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
43# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_213
happyReduction_213 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_213 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap50
happyOut50 HappyAbsSyn
happy_x_3 of { (HappyWrap50 Expression A0
happy_var_3) -> 
	ControlPair A0 -> HappyAbsSyn
happyIn49
		 (let (TId SrcSpan
s Name
id) = Token
happy_var_1 in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> ControlPair A0
forall a.
a -> SrcSpan -> Maybe Name -> Expression a -> ControlPair a
ControlPair () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Expression A0
happy_var_3) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Expression A0
happy_var_3
	)}}

happyReduce_214 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_214 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_214 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
44# HappyAbsSyn -> HappyAbsSyn
happyReduction_214
happyReduction_214 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_214 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn50
		 (Expression A0
happy_var_1
	)}

happyReduce_215 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_215 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_215 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
44# HappyAbsSyn -> HappyAbsSyn
happyReduction_215
happyReduction_215 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_215 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn50
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValStar
	)}

happyReduce_216 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_216 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_216 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_216
happyReduction_216 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_216 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Addition Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_217 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_217 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_217 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_217
happyReduction_217 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_217 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Subtraction Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_218 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_218 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_218 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_218
happyReduction_218 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_218 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Multiplication Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_219 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_219 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_219 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_219
happyReduction_219 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_219 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Division Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_220 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_220 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_220 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_220
happyReduction_220 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_220 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Exponentiation Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_221 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_221 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_221 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
45# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_221
happyReduction_221 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_221 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_4 of { (HappyWrap51 Expression A0
happy_var_4) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_4) BinaryOp
Concatenation Expression A0
happy_var_1 Expression A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_222 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_222 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_222 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_222
happyReduction_222 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_222 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap101
happyOut101 HappyAbsSyn
happy_x_1 of { (HappyWrap101 (SrcSpan, UnaryOp)
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_2 of { (HappyWrap51 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan ((SrcSpan, UnaryOp) -> SrcSpan
forall a b. (a, b) -> a
fst (SrcSpan, UnaryOp)
happy_var_1) Expression A0
happy_var_2) ((SrcSpan, UnaryOp) -> UnaryOp
forall a b. (a, b) -> b
snd (SrcSpan, UnaryOp)
happy_var_1) Expression A0
happy_var_2
	)}}

happyReduce_223 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_223 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_223 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_223
happyReduction_223 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_223 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Or Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_224 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_224 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_224 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_224
happyReduction_224 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_224 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
And Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_225 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_225 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_225 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_225
happyReduction_225 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_225 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_2 of { (HappyWrap51 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) UnaryOp
Not Expression A0
happy_var_2
	)}}

happyReduce_226 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_226 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_226 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_226
happyReduction_226 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_226 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Equivalent Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_227 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_227 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_227 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_227
happyReduction_227 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_227 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
NotEquivalent Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_228 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_228 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_228 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_228
happyReduction_228 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_228 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap102
happyOut102 HappyAbsSyn
happy_x_2 of { (HappyWrap102 BinaryOp
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
happy_var_2 Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}}

happyReduce_229 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_229 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_229 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_229
happyReduction_229 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_229 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_2 of { (HappyWrap51 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (let TOpCustom SrcSpan
span Name
str = Token
happy_var_1
    in A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
span Expression A0
happy_var_2) (Name -> UnaryOp
UnCustom Name
str) Expression A0
happy_var_2
	)}}

happyReduce_230 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_230 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_230 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_230
happyReduction_230 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_230 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_1 of { (HappyWrap51 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_3 of { (HappyWrap51 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (let TOpCustom SrcSpan
_ Name
str = Token
happy_var_2
    in A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) (Name -> BinaryOp
BinCustom Name
str) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}}

happyReduce_231 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_231 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_231 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
45# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_231
happyReduction_231 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_231 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap51
happyOut51 HappyAbsSyn
happy_x_2 of { (HappyWrap51 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (SrcSpan -> Expression A0 -> Expression A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) Expression A0
happy_var_2
	)}}}

happyReduce_232 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_232 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_232 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
45# HappyAbsSyn -> HappyAbsSyn
happyReduction_232
happyReduction_232 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_232 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (Expression A0
happy_var_1
	)}

happyReduce_233 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_233 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_233 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
45# HappyAbsSyn -> HappyAbsSyn
happyReduction_233
happyReduction_233 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_233 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap108
happyOut108 HappyAbsSyn
happy_x_1 of { (HappyWrap108 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (Expression A0
happy_var_1
	)}

happyReduce_234 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_234 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_234 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
45# HappyAbsSyn -> HappyAbsSyn
happyReduction_234
happyReduction_234 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_234 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap109
happyOut109 HappyAbsSyn
happy_x_1 of { (HappyWrap109 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (Expression A0
happy_var_1
	)}

happyReduce_235 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_235 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_235 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
45# HappyAbsSyn -> HappyAbsSyn
happyReduction_235
happyReduction_235 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_235 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn51
		 (Expression A0
happy_var_1
	)}

happyReduce_236 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_236 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_236 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
46# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_236
happyReduction_236 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_236 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	Maybe (AList AllocOpt A0) -> HappyAbsSyn
happyIn52
		 (AList AllocOpt A0 -> Maybe (AList AllocOpt A0)
forall k1. k1 -> Maybe k1
Just ([AllocOpt A0] -> AList AllocOpt A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [A0 -> SrcSpan -> Expression A0 -> AllocOpt A0
forall a. a -> SrcSpan -> Expression a -> AllocOpt a
AOStat () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_2 Expression A0
happy_var_4) Expression A0
happy_var_4])
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_237 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_237 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_237 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
46# HappyAbsSyn
happyReduction_237
happyReduction_237 :: HappyAbsSyn
happyReduction_237  =  Maybe (AList AllocOpt A0) -> HappyAbsSyn
happyIn52
		 (Maybe (AList AllocOpt A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_238 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_238 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_238 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
47# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_238
happyReduction_238 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_238 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap53
happyOut53 HappyAbsSyn
happy_x_1 of { (HappyWrap53 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap54
happyOut54 HappyAbsSyn
happy_x_3 of { (HappyWrap54 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn53
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_239 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_239 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_239 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
47# HappyAbsSyn -> HappyAbsSyn
happyReduction_239
happyReduction_239 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_239 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap54
happyOut54 HappyAbsSyn
happy_x_1 of { (HappyWrap54 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn53
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_240 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_240 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_240 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
48# HappyAbsSyn -> HappyAbsSyn
happyReduction_240
happyReduction_240 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_240 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn54
		 (Expression A0
happy_var_1
	)}

happyReduce_241 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_241 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_241 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
48# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_241
happyReduction_241 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_241 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap53
happyOut53 HappyAbsSyn
happy_x_2 of { (HappyWrap53 [Expression A0]
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_4 of { (HappyWrap98 DoSpecification A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Expression A0 -> HappyAbsSyn
happyIn54
		 (A0
-> SrcSpan
-> AList Expression A0
-> DoSpecification A0
-> Expression A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> DoSpecification a
-> Expression a
ExpImpliedDo () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2) DoSpecification A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_242 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_242 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_242 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
49# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_242
happyReduction_242 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_242 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap55
happyOut55 HappyAbsSyn
happy_x_1 of { (HappyWrap55 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn55
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_243 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_243 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_243 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
49# HappyAbsSyn -> HappyAbsSyn
happyReduction_243
happyReduction_243 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_243 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn55
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_244 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_244 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_244 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
50# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_244
happyReduction_244 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_244 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap56
happyOut56 HappyAbsSyn
happy_x_1 of { (HappyWrap56 [CommonGroup A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap57
happyOut57 HappyAbsSyn
happy_x_2 of { (HappyWrap57 CommonGroup A0
happy_var_2) -> 
	[CommonGroup A0] -> HappyAbsSyn
happyIn56
		 (CommonGroup A0
happy_var_2 CommonGroup A0 -> [CommonGroup A0] -> [CommonGroup A0]
forall k1. k1 -> [k1] -> [k1]
: [CommonGroup A0]
happy_var_1
	)}}

happyReduce_245 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_245 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_245 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
50# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_245
happyReduction_245 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_245 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap56
happyOut56 HappyAbsSyn
happy_x_1 of { (HappyWrap56 [CommonGroup A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap57
happyOut57 HappyAbsSyn
happy_x_3 of { (HappyWrap57 CommonGroup A0
happy_var_3) -> 
	[CommonGroup A0] -> HappyAbsSyn
happyIn56
		 (CommonGroup A0
happy_var_3 CommonGroup A0 -> [CommonGroup A0] -> [CommonGroup A0]
forall k1. k1 -> [k1] -> [k1]
: [CommonGroup A0]
happy_var_1
	)}}

happyReduce_246 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_246 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_246 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
50# HappyAbsSyn -> HappyAbsSyn
happyReduction_246
happyReduction_246 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_246 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap58
happyOut58 HappyAbsSyn
happy_x_1 of { (HappyWrap58 CommonGroup A0
happy_var_1) -> 
	[CommonGroup A0] -> HappyAbsSyn
happyIn56
		 ([ CommonGroup A0
happy_var_1 ]
	)}

happyReduce_247 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_247 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_247 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
51# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_247
happyReduction_247 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_247 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap80
happyOut80 HappyAbsSyn
happy_x_1 of { (HappyWrap80 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_2 of { (HappyWrap93 [Expression A0]
happy_var_2) -> 
	CommonGroup A0 -> HappyAbsSyn
happyIn57
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> AList Expression A0
-> CommonGroup A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> AList Expression a
-> CommonGroup a
CommonGroup () (Expression A0 -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 AList Expression A0
alist) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) AList Expression A0
alist
	)}}

happyReduce_248 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_248 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_248 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
51# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_248
happyReduction_248 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_248 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_3 of { (HappyWrap93 [Expression A0]
happy_var_3) -> 
	CommonGroup A0 -> HappyAbsSyn
happyIn57
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> AList Expression A0
-> CommonGroup A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> AList Expression a
-> CommonGroup a
CommonGroup () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) Maybe (Expression A0)
forall k1. Maybe k1
Nothing AList Expression A0
alist
	)}}

happyReduce_249 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_249 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_249 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
52# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_249
happyReduction_249 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_249 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap80
happyOut80 HappyAbsSyn
happy_x_1 of { (HappyWrap80 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_2 of { (HappyWrap93 [Expression A0]
happy_var_2) -> 
	CommonGroup A0 -> HappyAbsSyn
happyIn58
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> AList Expression A0
-> CommonGroup A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> AList Expression a
-> CommonGroup a
CommonGroup () (Expression A0 -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 AList Expression A0
alist) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) AList Expression A0
alist
	)}}

happyReduce_250 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_250 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_250 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
52# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_250
happyReduction_250 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_250 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_3 of { (HappyWrap93 [Expression A0]
happy_var_3) -> 
	CommonGroup A0 -> HappyAbsSyn
happyIn58
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> AList Expression A0
-> CommonGroup A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> AList Expression a
-> CommonGroup a
CommonGroup () (Token -> AList Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 AList Expression A0
alist) Maybe (Expression A0)
forall k1. Maybe k1
Nothing AList Expression A0
alist
	)}}

happyReduce_251 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_251 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_251 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
52# HappyAbsSyn -> HappyAbsSyn
happyReduction_251
happyReduction_251 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_251 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_1 of { (HappyWrap93 [Expression A0]
happy_var_1) -> 
	CommonGroup A0 -> HappyAbsSyn
happyIn58
		 (let alist :: AList Expression A0
alist = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_1
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> AList Expression A0
-> CommonGroup A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> AList Expression a
-> CommonGroup a
CommonGroup () (AList Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan AList Expression A0
alist) Maybe (Expression A0)
forall k1. Maybe k1
Nothing AList Expression A0
alist
	)}

happyReduce_252 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_252 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_252 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
53# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_252
happyReduction_252 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_252 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap59
happyOut59 HappyAbsSyn
happy_x_1 of { (HappyWrap59 [AList Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_4 of { (HappyWrap93 [Expression A0]
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	[AList Expression A0] -> HappyAbsSyn
happyIn59
		 (SrcSpan -> AList Expression A0 -> AList Expression A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_3 Token
happy_var_5) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_4) AList Expression A0
-> [AList Expression A0] -> [AList Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [AList Expression A0]
happy_var_1
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_253 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_253 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_253 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
53# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_253
happyReduction_253 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_253 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_2 of { (HappyWrap93 [Expression A0]
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	[AList Expression A0] -> HappyAbsSyn
happyIn59
		 ([ SrcSpan -> AList Expression A0 -> AList Expression A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2) ]
	)}}}

happyReduce_254 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_254 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_254 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
54# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_254
happyReduction_254 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_254 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap60
happyOut60 HappyAbsSyn
happy_x_1 of { (HappyWrap60 [Namelist A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap61
happyOut61 HappyAbsSyn
happy_x_2 of { (HappyWrap61 Namelist A0
happy_var_2) -> 
	[Namelist A0] -> HappyAbsSyn
happyIn60
		 (Namelist A0
happy_var_2 Namelist A0 -> [Namelist A0] -> [Namelist A0]
forall k1. k1 -> [k1] -> [k1]
: [Namelist A0]
happy_var_1
	)}}

happyReduce_255 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_255 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_255 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
54# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_255
happyReduction_255 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_255 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap60
happyOut60 HappyAbsSyn
happy_x_1 of { (HappyWrap60 [Namelist A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap61
happyOut61 HappyAbsSyn
happy_x_3 of { (HappyWrap61 Namelist A0
happy_var_3) -> 
	[Namelist A0] -> HappyAbsSyn
happyIn60
		 (Namelist A0
happy_var_3 Namelist A0 -> [Namelist A0] -> [Namelist A0]
forall k1. k1 -> [k1] -> [k1]
: [Namelist A0]
happy_var_1
	)}}

happyReduce_256 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_256 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_256 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
54# HappyAbsSyn -> HappyAbsSyn
happyReduction_256
happyReduction_256 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_256 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap61
happyOut61 HappyAbsSyn
happy_x_1 of { (HappyWrap61 Namelist A0
happy_var_1) -> 
	[Namelist A0] -> HappyAbsSyn
happyIn60
		 ([ Namelist A0
happy_var_1 ]
	)}

happyReduce_257 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_257 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_257 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
55# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_257
happyReduction_257 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_257 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_4 of { (HappyWrap63 [Expression A0]
happy_var_4) -> 
	Namelist A0 -> HappyAbsSyn
happyIn61
		 (A0
-> SrcSpan -> Expression A0 -> AList Expression A0 -> Namelist A0
forall a.
a -> SrcSpan -> Expression a -> AList Expression a -> Namelist a
Namelist () (Token -> [Expression A0] -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 [Expression A0]
happy_var_4) Expression A0
happy_var_2 (AList Expression A0 -> Namelist A0)
-> AList Expression A0 -> Namelist A0
forall a b. (a -> b) -> a -> b
$ [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_258 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_258 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_258 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
56# HappyAbsSyn -> HappyAbsSyn
happyReduction_258
happyReduction_258 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_258 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_1 of { (HappyWrap63 [Expression A0]
happy_var_1) -> 
	Maybe (AList Expression A0) -> HappyAbsSyn
happyIn62
		 (AList Expression A0 -> Maybe (AList Expression A0)
forall k1. k1 -> Maybe k1
Just (AList Expression A0 -> Maybe (AList Expression A0))
-> AList Expression A0 -> Maybe (AList Expression A0)
forall a b. (a -> b) -> a -> b
$ [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_1
	)}

happyReduce_259 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_259 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_259 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
56# HappyAbsSyn
happyReduction_259
happyReduction_259 :: HappyAbsSyn
happyReduction_259  =  Maybe (AList Expression A0) -> HappyAbsSyn
happyIn62
		 (Maybe (AList Expression A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_260 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_260 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_260 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
57# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_260
happyReduction_260 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_260 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap63
happyOut63 HappyAbsSyn
happy_x_1 of { (HappyWrap63 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_3 of { (HappyWrap103 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn63
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_261 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_261 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_261 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
57# HappyAbsSyn -> HappyAbsSyn
happyReduction_261
happyReduction_261 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_261 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn63
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_262 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_262 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_262 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
58# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_262
happyReduction_262 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_262 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap64
happyOut64 HappyAbsSyn
happy_x_1 of { (HappyWrap64 [ImpList A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap65
happyOut65 HappyAbsSyn
happy_x_3 of { (HappyWrap65 ImpList A0
happy_var_3) -> 
	[ImpList A0] -> HappyAbsSyn
happyIn64
		 (ImpList A0
happy_var_3 ImpList A0 -> [ImpList A0] -> [ImpList A0]
forall k1. k1 -> [k1] -> [k1]
: [ImpList A0]
happy_var_1
	)}}

happyReduce_263 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_263 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_263 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
58# HappyAbsSyn -> HappyAbsSyn
happyReduction_263
happyReduction_263 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_263 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap65
happyOut65 HappyAbsSyn
happy_x_1 of { (HappyWrap65 ImpList A0
happy_var_1) -> 
	[ImpList A0] -> HappyAbsSyn
happyIn64
		 ([ ImpList A0
happy_var_1 ]
	)}

happyReduce_264 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_264 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_264 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
59# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_264
happyReduction_264 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_264 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap86
happyOut86 HappyAbsSyn
happy_x_1 of { (HappyWrap86 TypeSpec A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap66
happyOut66 HappyAbsSyn
happy_x_3 of { (HappyWrap66 AList ImpElement A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	ImpList A0 -> HappyAbsSyn
happyIn65
		 (A0 -> SrcSpan -> TypeSpec A0 -> AList ImpElement A0 -> ImpList A0
forall a.
a -> SrcSpan -> TypeSpec a -> AList ImpElement a -> ImpList a
ImpList () (TypeSpec A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan TypeSpec A0
happy_var_1 Token
happy_var_4) TypeSpec A0
happy_var_1 (AList ImpElement A0 -> AList ImpElement A0
forall (t :: * -> *) a. AList t a -> AList t a
aReverse AList ImpElement A0
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_265 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_265 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_265 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
60# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_265
happyReduction_265 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_265 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap66
happyOut66 HappyAbsSyn
happy_x_1 of { (HappyWrap66 AList ImpElement A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap67
happyOut67 HappyAbsSyn
happy_x_3 of { (HappyWrap67 ImpElement A0
happy_var_3) -> 
	AList ImpElement A0 -> HappyAbsSyn
happyIn66
		 (SrcSpan -> AList ImpElement A0 -> AList ImpElement A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (AList ImpElement A0 -> ImpElement A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan AList ImpElement A0
happy_var_1 ImpElement A0
happy_var_3) (AList ImpElement A0 -> AList ImpElement A0)
-> AList ImpElement A0 -> AList ImpElement A0
forall a b. (a -> b) -> a -> b
$ ImpElement A0
happy_var_3 ImpElement A0 -> AList ImpElement A0 -> AList ImpElement A0
forall (t :: * -> *) a. t a -> AList t a -> AList t a
`aCons` AList ImpElement A0
happy_var_1
	)}}

happyReduce_266 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_266 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_266 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
60# HappyAbsSyn -> HappyAbsSyn
happyReduction_266
happyReduction_266 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_266 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap67
happyOut67 HappyAbsSyn
happy_x_1 of { (HappyWrap67 ImpElement A0
happy_var_1) -> 
	AList ImpElement A0 -> HappyAbsSyn
happyIn66
		 (A0 -> SrcSpan -> [ImpElement A0] -> AList ImpElement A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (ImpElement A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan ImpElement A0
happy_var_1) [ ImpElement A0
happy_var_1 ]
	)}

happyReduce_267 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_267 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_267 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
1# Int#
61# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_267
happyReduction_267 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_267 (HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ImpElement A0)
-> (ImpElement A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	( do
      let (TId SrcSpan
s Name
id) = Token
happy_var_1
      if Name -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length Name
id Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
/= Int
1
      then Name -> LexAction (ImpElement A0)
forall (m :: * -> *) a. MonadFail m => Name -> m a
fail Name
"Implicit argument must be a character."
      else ImpElement A0 -> LexAction (ImpElement A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ImpElement A0 -> LexAction (ImpElement A0))
-> ImpElement A0 -> LexAction (ImpElement A0)
forall a b. (a -> b) -> a -> b
$ A0 -> SrcSpan -> Name -> ImpElement A0
forall a. a -> SrcSpan -> Name -> ImpElement a
ImpCharacter () SrcSpan
s Name
id)})
	) (\ImpElement A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ImpElement A0 -> HappyAbsSyn
happyIn67 ImpElement A0
r))

happyReduce_268 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_268 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_268 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
3# Int#
61# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p. HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_268
happyReduction_268 :: HappyStk HappyAbsSyn -> p -> LexAction HappyAbsSyn
happyReduction_268 (HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest) p
tk
	 = LexAction (ImpElement A0)
-> (ImpElement A0 -> LexAction HappyAbsSyn)
-> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	( do
             let (TId SrcSpan
_ Name
id1) = Token
happy_var_1
             let (TId SrcSpan
_ Name
id2) = Token
happy_var_3
             if Name -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length Name
id1 Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
/= Int
1 Bool -> Bool -> Bool
|| Name -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length Name
id2 Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
/= Int
1
             then Name -> LexAction (ImpElement A0)
forall (m :: * -> *) a. MonadFail m => Name -> m a
fail Name
"Implicit argument must be a character."
             else ImpElement A0 -> LexAction (ImpElement A0)
forall (m :: * -> *) a. Monad m => a -> m a
return (ImpElement A0 -> LexAction (ImpElement A0))
-> ImpElement A0 -> LexAction (ImpElement A0)
forall a b. (a -> b) -> a -> b
$ A0 -> SrcSpan -> Name -> Name -> ImpElement A0
forall a. a -> SrcSpan -> Name -> Name -> ImpElement a
ImpRange () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) Name
id1 Name
id2)}})
	) (\ImpElement A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (ImpElement A0 -> HappyAbsSyn
happyIn67 ImpElement A0
r))

happyReduce_269 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_269 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_269 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
62# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_269
happyReduction_269 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_269 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap68
happyOut68 HappyAbsSyn
happy_x_1 of { (HappyWrap68 [Declarator A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap69
happyOut69 HappyAbsSyn
happy_x_3 of { (HappyWrap69 Declarator A0
happy_var_3) -> 
	[Declarator A0] -> HappyAbsSyn
happyIn68
		 (Declarator A0
happy_var_3 Declarator A0 -> [Declarator A0] -> [Declarator A0]
forall k1. k1 -> [k1] -> [k1]
: [Declarator A0]
happy_var_1
	)}}

happyReduce_270 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_270 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_270 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
62# HappyAbsSyn -> HappyAbsSyn
happyReduction_270
happyReduction_270 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_270 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap69
happyOut69 HappyAbsSyn
happy_x_1 of { (HappyWrap69 Declarator A0
happy_var_1) -> 
	[Declarator A0] -> HappyAbsSyn
happyIn68
		 ([ Declarator A0
happy_var_1 ]
	)}

happyReduce_271 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_271 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_271 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
63# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_271
happyReduction_271 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_271 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Declarator A0 -> HappyAbsSyn
happyIn69
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclVariable () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3)
	)}}

happyReduce_272 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_272 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_272 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
64# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_272
happyReduction_272 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_272 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap86
happyOut86 HappyAbsSyn
happy_x_1 of { (HappyWrap86 TypeSpec A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap71
happyOut71 HappyAbsSyn
happy_x_2 of { (HappyWrap71 [Attribute A0]
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_4 of { (HappyWrap81 [Declarator A0]
happy_var_4) -> 
	Statement A0 -> HappyAbsSyn
happyIn70
		 (let { mAttrAList :: Maybe (AList Attribute A0)
mAttrAList = if [Attribute A0] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [Attribute A0]
happy_var_2 then Maybe (AList Attribute A0)
forall k1. Maybe k1
Nothing else AList Attribute A0 -> Maybe (AList Attribute A0)
forall k1. k1 -> Maybe k1
Just (AList Attribute A0 -> Maybe (AList Attribute A0))
-> AList Attribute A0 -> Maybe (AList Attribute A0)
forall a b. (a -> b) -> a -> b
$ [Attribute A0] -> AList Attribute A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Attribute A0]
happy_var_2;
          declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_4 }
    in A0
-> SrcSpan
-> TypeSpec A0
-> Maybe (AList Attribute A0)
-> AList Declarator A0
-> Statement A0
forall a.
a
-> SrcSpan
-> TypeSpec a
-> Maybe (AList Attribute a)
-> AList Declarator a
-> Statement a
StDeclaration () (TypeSpec A0 -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan TypeSpec A0
happy_var_1 AList Declarator A0
declAList) TypeSpec A0
happy_var_1 Maybe (AList Attribute A0)
mAttrAList AList Declarator A0
declAList
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_273 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_273 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_273 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
64# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_273
happyReduction_273 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_273 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap86
happyOut86 HappyAbsSyn
happy_x_1 of { (HappyWrap86 TypeSpec A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_2 of { (HappyWrap81 [Declarator A0]
happy_var_2) -> 
	Statement A0 -> HappyAbsSyn
happyIn70
		 (let { declAList :: AList Declarator A0
declAList = [Declarator A0] -> AList Declarator A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Declarator A0]
happy_var_2 }
    in A0
-> SrcSpan
-> TypeSpec A0
-> Maybe (AList Attribute A0)
-> AList Declarator A0
-> Statement A0
forall a.
a
-> SrcSpan
-> TypeSpec a
-> Maybe (AList Attribute a)
-> AList Declarator a
-> Statement a
StDeclaration () (TypeSpec A0 -> AList Declarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan TypeSpec A0
happy_var_1 AList Declarator A0
declAList) TypeSpec A0
happy_var_1 Maybe (AList Attribute A0)
forall k1. Maybe k1
Nothing AList Declarator A0
declAList
	)}}

happyReduce_274 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_274 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_274 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
65# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_274
happyReduction_274 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_274 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap71
happyOut71 HappyAbsSyn
happy_x_1 of { (HappyWrap71 [Attribute A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap72
happyOut72 HappyAbsSyn
happy_x_3 of { (HappyWrap72 Attribute A0
happy_var_3) -> 
	[Attribute A0] -> HappyAbsSyn
happyIn71
		 (Attribute A0
happy_var_3 Attribute A0 -> [Attribute A0] -> [Attribute A0]
forall k1. k1 -> [k1] -> [k1]
: [Attribute A0]
happy_var_1
	)}}

happyReduce_275 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_275 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_275 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
65# HappyAbsSyn
happyReduction_275
happyReduction_275 :: HappyAbsSyn
happyReduction_275  =  [Attribute A0] -> HappyAbsSyn
happyIn71
		 ([ ]
	)

happyReduce_276 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_276 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_276 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_276
happyReduction_276 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_276 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrPublic () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_277 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_277 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_277 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_277
happyReduction_277 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_277 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrPrivate () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_278 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_278 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_278 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_278
happyReduction_278 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_278 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrAllocatable () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_279 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_279 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_279 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
66# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_279
happyReduction_279 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_279 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
happy_x_3 of { (HappyWrap84 AList DimensionDeclarator A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> AList DimensionDeclarator A0 -> Attribute A0
forall a.
a -> SrcSpan -> AList DimensionDeclarator a -> Attribute a
AttrDimension () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) (AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall (t :: * -> *) a. AList t a -> AList t a
aReverse AList DimensionDeclarator A0
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_280 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_280 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_280 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_280
happyReduction_280 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_280 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrExternal () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_281 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_281 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_281 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
66# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_281
happyReduction_281 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_281 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap73
happyOut73 HappyAbsSyn
happy_x_3 of { (HappyWrap73 Intent
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Intent -> Attribute A0
forall a. a -> SrcSpan -> Intent -> Attribute a
AttrIntent () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) Intent
happy_var_3
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_282 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_282 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_282 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_282
happyReduction_282 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_282 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrIntrinsic () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_283 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_283 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_283 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_283
happyReduction_283 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_283 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrOptional () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_284 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_284 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_284 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_284
happyReduction_284 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_284 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrPointer () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_285 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_285 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_285 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_285
happyReduction_285 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_285 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrParameter () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_286 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_286 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_286 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_286
happyReduction_286 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_286 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrSave () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_287 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_287 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_287 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
66# HappyAbsSyn -> HappyAbsSyn
happyReduction_287
happyReduction_287 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_287 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Attribute A0 -> HappyAbsSyn
happyIn72
		 (A0 -> SrcSpan -> Attribute A0
forall a. a -> SrcSpan -> Attribute a
AttrTarget () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1)
	)}

happyReduce_288 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_288 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_288 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
67# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_288
happyReduction_288 :: p -> HappyAbsSyn
happyReduction_288 p
happy_x_1
	 =  Intent -> HappyAbsSyn
happyIn73
		 (Intent
In
	)

happyReduce_289 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_289 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_289 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
67# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_289
happyReduction_289 :: p -> HappyAbsSyn
happyReduction_289 p
happy_x_1
	 =  Intent -> HappyAbsSyn
happyIn73
		 (Intent
Out
	)

happyReduce_290 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_290 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_290 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
67# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_290
happyReduction_290 :: p -> HappyAbsSyn
happyReduction_290 p
happy_x_1
	 =  Intent -> HappyAbsSyn
happyIn73
		 (Intent
InOut
	)

happyReduce_291 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_291 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_291 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
68# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_291
happyReduction_291 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_291 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap74
happyOut74 HappyAbsSyn
happy_x_1 of { (HappyWrap74 [DataGroup A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap76
happyOut76 HappyAbsSyn
happy_x_3 of { (HappyWrap76 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_5 of { (HappyWrap100 [Expression A0]
happy_var_5) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_6 of { Token
happy_var_6 -> 
	[DataGroup A0] -> HappyAbsSyn
happyIn74
		 (let { nameAList :: AList Expression A0
nameAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3;
          dataAList :: AList Expression A0
dataAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_5 }
    in A0
-> SrcSpan
-> AList Expression A0
-> AList Expression A0
-> DataGroup A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> AList Expression a
-> DataGroup a
DataGroup () (AList Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan AList Expression A0
nameAList Token
happy_var_6) AList Expression A0
nameAList AList Expression A0
dataAList DataGroup A0 -> [DataGroup A0] -> [DataGroup A0]
forall k1. k1 -> [k1] -> [k1]
: [DataGroup A0]
happy_var_1
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_292 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_292 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_292 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
68# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_292
happyReduction_292 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_292 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap76
happyOut76 HappyAbsSyn
happy_x_1 of { (HappyWrap76 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_3 of { (HappyWrap100 [Expression A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	[DataGroup A0] -> HappyAbsSyn
happyIn74
		 (let { nameAList :: AList Expression A0
nameAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_1;
          dataAList :: AList Expression A0
dataAList = [Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_3 }
    in [ A0
-> SrcSpan
-> AList Expression A0
-> AList Expression A0
-> DataGroup A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> AList Expression a
-> DataGroup a
DataGroup () (AList Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan AList Expression A0
nameAList Token
happy_var_4) AList Expression A0
nameAList AList Expression A0
dataAList ]
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_293 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_293 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_293 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
69# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_293
happyReduction_293 :: p -> HappyAbsSyn
happyReduction_293 p
happy_x_1
	 =  A0 -> HappyAbsSyn
happyIn75
		 (()
	)

happyReduce_294 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_294 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_294 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
69# HappyAbsSyn
happyReduction_294
happyReduction_294 :: HappyAbsSyn
happyReduction_294  =  A0 -> HappyAbsSyn
happyIn75
		 (()
	)

happyReduce_295 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_295 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_295 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
70# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_295
happyReduction_295 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_295 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap76
happyOut76 HappyAbsSyn
happy_x_1 of { (HappyWrap76 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap77
happyOut77 HappyAbsSyn
happy_x_3 of { (HappyWrap77 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn76
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_296 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_296 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_296 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
70# HappyAbsSyn -> HappyAbsSyn
happyReduction_296
happyReduction_296 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_296 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap77
happyOut77 HappyAbsSyn
happy_x_1 of { (HappyWrap77 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn76
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_297 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_297 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_297 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
71# HappyAbsSyn -> HappyAbsSyn
happyReduction_297
happyReduction_297 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_297 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn77
		 (Expression A0
happy_var_1
	)}

happyReduce_298 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_298 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_298 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
71# HappyAbsSyn -> HappyAbsSyn
happyReduction_298
happyReduction_298 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_298 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap99
happyOut99 HappyAbsSyn
happy_x_1 of { (HappyWrap99 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn77
		 (Expression A0
happy_var_1
	)}

happyReduce_299 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_299 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_299 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
72# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_299
happyReduction_299 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_299 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap78
happyOut78 HappyAbsSyn
happy_x_1 of { (HappyWrap78 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap79
happyOut79 HappyAbsSyn
happy_x_3 of { (HappyWrap79 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn78
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_300 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_300 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_300 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
72# HappyAbsSyn -> HappyAbsSyn
happyReduction_300
happyReduction_300 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_300 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap79
happyOut79 HappyAbsSyn
happy_x_1 of { (HappyWrap79 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn78
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_301 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_301 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_301 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
73# HappyAbsSyn -> HappyAbsSyn
happyReduction_301
happyReduction_301 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_301 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap80
happyOut80 HappyAbsSyn
happy_x_1 of { (HappyWrap80 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn79
		 (Expression A0
happy_var_1
	)}

happyReduce_302 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_302 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_302 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
73# HappyAbsSyn -> HappyAbsSyn
happyReduction_302
happyReduction_302 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_302 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn79
		 (Expression A0
happy_var_1
	)}

happyReduce_303 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_303 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_303 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
74# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_303
happyReduction_303 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_303 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_2 of { (HappyWrap103 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Expression A0 -> HappyAbsSyn
happyIn80
		 (SrcSpan -> Expression A0 -> Expression A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) Expression A0
happy_var_2
	)}}}

happyReduce_304 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_304 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_304 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
75# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_304
happyReduction_304 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_304 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap81
happyOut81 HappyAbsSyn
happy_x_1 of { (HappyWrap81 [Declarator A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap82
happyOut82 HappyAbsSyn
happy_x_3 of { (HappyWrap82 Declarator A0
happy_var_3) -> 
	[Declarator A0] -> HappyAbsSyn
happyIn81
		 (Declarator A0
happy_var_3 Declarator A0 -> [Declarator A0] -> [Declarator A0]
forall k1. k1 -> [k1] -> [k1]
: [Declarator A0]
happy_var_1
	)}}

happyReduce_305 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_305 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_305 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
75# HappyAbsSyn -> HappyAbsSyn
happyReduction_305
happyReduction_305 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_305 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap82
happyOut82 HappyAbsSyn
happy_x_1 of { (HappyWrap82 Declarator A0
happy_var_1) -> 
	[Declarator A0] -> HappyAbsSyn
happyIn81
		 ([ Declarator A0
happy_var_1 ]
	)}

happyReduce_306 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_306 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_306 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
76# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_306
happyReduction_306 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_306 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap83
happyOut83 HappyAbsSyn
happy_x_1 of { (HappyWrap83 Declarator A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Declarator A0 -> HappyAbsSyn
happyIn82
		 (Declarator A0 -> Expression A0 -> Declarator A0
forall a. Declarator a -> Expression a -> Declarator a
setInitialisation Declarator A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_307 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_307 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_307 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
76# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_307
happyReduction_307 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_307 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap83
happyOut83 HappyAbsSyn
happy_x_1 of { (HappyWrap83 Declarator A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Declarator A0 -> HappyAbsSyn
happyIn82
		 (Declarator A0 -> Expression A0 -> Declarator A0
forall a. Declarator a -> Expression a -> Declarator a
setInitialisation Declarator A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_308 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_308 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_308 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
76# HappyAbsSyn -> HappyAbsSyn
happyReduction_308
happyReduction_308 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_308 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap83
happyOut83 HappyAbsSyn
happy_x_1 of { (HappyWrap83 Declarator A0
happy_var_1) -> 
	Declarator A0 -> HappyAbsSyn
happyIn82
		 (Declarator A0
happy_var_1
	)}

happyReduce_309 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_309 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_309 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
77# HappyAbsSyn -> HappyAbsSyn
happyReduction_309
happyReduction_309 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_309 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclVariable () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_1) Expression A0
happy_var_1 Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_310 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_310 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_310 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
77# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_310
happyReduction_310 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_310 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclVariable () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_311 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_311 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_311 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
77# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_311
happyReduction_311 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_311 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (let star :: Expression A0
star = A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_4) Value A0
forall a. Value a
ValStar
    in A0
-> SrcSpan
-> Expression A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclVariable () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_5) Expression A0
happy_var_1 (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
star) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_312 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_312 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_312 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
77# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_312
happyReduction_312 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_312 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
happy_x_3 of { (HappyWrap84 AList DimensionDeclarator A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (A0
-> SrcSpan
-> Expression A0
-> AList DimensionDeclarator A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> AList DimensionDeclarator a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclArray () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_4) Expression A0
happy_var_1 (AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall (t :: * -> *) a. AList t a -> AList t a
aReverse AList DimensionDeclarator A0
happy_var_3) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_313 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_313 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_313 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
6# Int#
77# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_313
happyReduction_313 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_313 (HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
happy_x_3 of { (HappyWrap84 AList DimensionDeclarator A0
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_6 of { (HappyWrap90 Expression A0
happy_var_6) -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (A0
-> SrcSpan
-> Expression A0
-> AList DimensionDeclarator A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> AList DimensionDeclarator a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclArray () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_6) Expression A0
happy_var_1 (AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall (t :: * -> *) a. AList t a -> AList t a
aReverse AList DimensionDeclarator A0
happy_var_3) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_6) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_314 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_314 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_314 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
8# Int#
77# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_314
happyReduction_314 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_314 (HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
happy_x_3 of { (HappyWrap84 AList DimensionDeclarator A0
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_8 of { Token
happy_var_8 -> 
	Declarator A0 -> HappyAbsSyn
happyIn83
		 (let star :: Expression A0
star = A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_7) Value A0
forall a. Value a
ValStar
    in A0
-> SrcSpan
-> Expression A0
-> AList DimensionDeclarator A0
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Declarator A0
forall a.
a
-> SrcSpan
-> Expression a
-> AList DimensionDeclarator a
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Declarator a
DeclArray () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_8) Expression A0
happy_var_1 (AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall (t :: * -> *) a. AList t a -> AList t a
aReverse AList DimensionDeclarator A0
happy_var_3) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
star) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_315 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_315 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_315 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
78# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_315
happyReduction_315 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_315 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap84
happyOut84 HappyAbsSyn
happy_x_1 of { (HappyWrap84 AList DimensionDeclarator A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap85
happyOut85 HappyAbsSyn
happy_x_3 of { (HappyWrap85 DimensionDeclarator A0
happy_var_3) -> 
	AList DimensionDeclarator A0 -> HappyAbsSyn
happyIn84
		 (SrcSpan
-> AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (AList DimensionDeclarator A0 -> DimensionDeclarator A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan AList DimensionDeclarator A0
happy_var_1 DimensionDeclarator A0
happy_var_3) (AList DimensionDeclarator A0 -> AList DimensionDeclarator A0)
-> AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall a b. (a -> b) -> a -> b
$ DimensionDeclarator A0
happy_var_3 DimensionDeclarator A0
-> AList DimensionDeclarator A0 -> AList DimensionDeclarator A0
forall (t :: * -> *) a. t a -> AList t a -> AList t a
`aCons` AList DimensionDeclarator A0
happy_var_1
	)}}

happyReduce_316 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_316 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_316 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
78# HappyAbsSyn -> HappyAbsSyn
happyReduction_316
happyReduction_316 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_316 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap85
happyOut85 HappyAbsSyn
happy_x_1 of { (HappyWrap85 DimensionDeclarator A0
happy_var_1) -> 
	AList DimensionDeclarator A0 -> HappyAbsSyn
happyIn84
		 (A0
-> SrcSpan
-> [DimensionDeclarator A0]
-> AList DimensionDeclarator A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (DimensionDeclarator A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan DimensionDeclarator A0
happy_var_1) [ DimensionDeclarator A0
happy_var_1 ]
	)}

happyReduce_317 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_317 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_317 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
79# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_317
happyReduction_317 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_317 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3)
	)}}

happyReduce_318 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_318 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_318 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
79# HappyAbsSyn -> HappyAbsSyn
happyReduction_318
happyReduction_318 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_318 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1)
	)}

happyReduce_319 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_319 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_319 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
79# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_319
happyReduction_319 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_319 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_320 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_320 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_320 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
79# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_320
happyReduction_320 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_320 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (let { span :: SrcSpan
span = Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_3;
          star :: Expression A0
star = A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
span Value A0
forall a. Value a
ValStar }
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () (Expression A0 -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 SrcSpan
span) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
star)
	)}}

happyReduce_321 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_321 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_321 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
79# HappyAbsSyn -> HappyAbsSyn
happyReduction_321
happyReduction_321 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_321 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (let { span :: SrcSpan
span = Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1;
          star :: Expression A0
star = A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
span Value A0
forall a. Value a
ValStar }
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () SrcSpan
span Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
star)
	)}

happyReduce_322 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_322 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_322 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
79# HappyAbsSyn -> HappyAbsSyn
happyReduction_322
happyReduction_322 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_322 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	DimensionDeclarator A0 -> HappyAbsSyn
happyIn85
		 (let span :: SrcSpan
span = Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> DimensionDeclarator A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> DimensionDeclarator a
DimensionDeclarator () SrcSpan
span Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_323 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_323 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_323 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
80# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_323
happyReduction_323 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_323 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap87
happyOut87 HappyAbsSyn
happy_x_2 of { (HappyWrap87 Maybe (Selector A0)
happy_var_2) -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () ((Token, Maybe (Selector A0)) -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan (Token
happy_var_1, Maybe (Selector A0)
happy_var_2)) BaseType
TypeInteger Maybe (Selector A0)
happy_var_2
	)}}

happyReduce_324 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_324 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_324 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
80# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_324
happyReduction_324 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_324 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap87
happyOut87 HappyAbsSyn
happy_x_2 of { (HappyWrap87 Maybe (Selector A0)
happy_var_2) -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () ((Token, Maybe (Selector A0)) -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan (Token
happy_var_1, Maybe (Selector A0)
happy_var_2)) BaseType
TypeReal Maybe (Selector A0)
happy_var_2
	)}}

happyReduce_325 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_325 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_325 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
80# HappyAbsSyn -> HappyAbsSyn
happyReduction_325
happyReduction_325 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_325 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) BaseType
TypeDoublePrecision Maybe (Selector A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_326 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_326 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_326 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
80# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_326
happyReduction_326 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_326 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap87
happyOut87 HappyAbsSyn
happy_x_2 of { (HappyWrap87 Maybe (Selector A0)
happy_var_2) -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () ((Token, Maybe (Selector A0)) -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan (Token
happy_var_1, Maybe (Selector A0)
happy_var_2)) BaseType
TypeComplex Maybe (Selector A0)
happy_var_2
	)}}

happyReduce_327 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_327 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_327 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
80# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_327
happyReduction_327 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_327 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap88
happyOut88 HappyAbsSyn
happy_x_2 of { (HappyWrap88 Maybe (Selector A0)
happy_var_2) -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () ((Token, Maybe (Selector A0)) -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan (Token
happy_var_1, Maybe (Selector A0)
happy_var_2)) ((Maybe CharacterLen -> Maybe Name -> BaseType)
-> (Maybe CharacterLen, Maybe Name) -> BaseType
forall a b c. (a -> b -> c) -> (a, b) -> c
uncurry Maybe CharacterLen -> Maybe Name -> BaseType
TypeCharacter ((Maybe CharacterLen, Maybe Name) -> BaseType)
-> (Maybe CharacterLen, Maybe Name) -> BaseType
forall a b. (a -> b) -> a -> b
$ Maybe (Selector A0) -> (Maybe CharacterLen, Maybe Name)
forall a. Maybe (Selector a) -> (Maybe CharacterLen, Maybe Name)
charLenSelector Maybe (Selector A0)
happy_var_2) Maybe (Selector A0)
happy_var_2
	)}}

happyReduce_328 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_328 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_328 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
80# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_328
happyReduction_328 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_328 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap87
happyOut87 HappyAbsSyn
happy_x_2 of { (HappyWrap87 Maybe (Selector A0)
happy_var_2) -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () ((Token, Maybe (Selector A0)) -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan (Token
happy_var_1, Maybe (Selector A0)
happy_var_2)) BaseType
TypeLogical Maybe (Selector A0)
happy_var_2
	)}}

happyReduce_329 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_329 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_329 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
80# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_329
happyReduction_329 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_329 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	TypeSpec A0 -> HappyAbsSyn
happyIn86
		 (let TId SrcSpan
_ Name
id = Token
happy_var_3
    in A0 -> SrcSpan -> BaseType -> Maybe (Selector A0) -> TypeSpec A0
forall a.
a -> SrcSpan -> BaseType -> Maybe (Selector a) -> TypeSpec a
TypeSpec () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) (Name -> BaseType
TypeCustom Name
id) Maybe (Selector A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_330 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_330 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_330 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
81# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_330
happyReduction_330 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_330 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn87
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}}

happyReduce_331 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_331 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_331 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
81# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_331
happyReduction_331 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_331 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn87
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_332 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_332 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_332 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
81# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_332
happyReduction_332 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_332 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn87
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2)
	)}}

happyReduce_333 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_333 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_333 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
81# HappyAbsSyn
happyReduction_333
happyReduction_333 :: HappyAbsSyn
happyReduction_333  =  Maybe (Selector A0) -> HappyAbsSyn
happyIn87
		 (Maybe (Selector A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_334 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_334 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_334 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
82# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_334
happyReduction_334 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_334 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_335 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_335 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_335 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_335
happyReduction_335 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_335 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (let star :: Expression A0
star = A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_3) Value A0
forall a. Value a
ValStar
    in Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
star) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_336 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_336 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_336 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
82# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_336
happyReduction_336 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_336 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_2 of { (HappyWrap89 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}}

happyReduce_337 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_337 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_337 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_337
happyReduction_337 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_337 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_4 of { (HappyWrap89 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_338 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_338 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_338 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_338
happyReduction_338 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_338 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_339 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_339 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_339 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_339
happyReduction_339 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_339 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_2 of { (HappyWrap89 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_340 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_340 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_340 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_340
happyReduction_340 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_340 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_2 of { (HappyWrap89 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_6 of { (HappyWrap90 Expression A0
happy_var_6) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_7) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_6)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_341 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_341 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_341 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
9# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_341
happyReduction_341 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_341 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_4 of { (HappyWrap89 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_8 of { (HappyWrap90 Expression A0
happy_var_8) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_9 of { Token
happy_var_9 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_9) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_8)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_342 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_342 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_342 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
9# Int#
82# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_342
happyReduction_342 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_342 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap89
happyOut89 HappyAbsSyn
happy_x_8 of { (HappyWrap89 Expression A0
happy_var_8) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_9 of { Token
happy_var_9 -> 
	Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Selector A0 -> Maybe (Selector A0)
forall k1. k1 -> Maybe k1
Just (Selector A0 -> Maybe (Selector A0))
-> Selector A0 -> Maybe (Selector A0)
forall a b. (a -> b) -> a -> b
$ A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Selector A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Selector a
Selector () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_9) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_8) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_343 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_343 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_343 = Int#
-> HappyAbsSyn
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_0  Int#
82# HappyAbsSyn
happyReduction_343
happyReduction_343 :: HappyAbsSyn
happyReduction_343  =  Maybe (Selector A0) -> HappyAbsSyn
happyIn88
		 (Maybe (Selector A0)
forall k1. Maybe k1
Nothing
	)

happyReduce_344 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_344 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_344 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
83# HappyAbsSyn -> HappyAbsSyn
happyReduction_344
happyReduction_344 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_344 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn89
		 (Expression A0
happy_var_1
	)}

happyReduce_345 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_345 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_345 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
83# HappyAbsSyn -> HappyAbsSyn
happyReduction_345
happyReduction_345 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_345 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn89
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValStar
	)}

happyReduce_346 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_346 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_346 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_346
happyReduction_346 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_346 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Addition Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_347 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_347 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_347 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_347
happyReduction_347 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_347 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Subtraction Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_348 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_348 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_348 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_348
happyReduction_348 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_348 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Multiplication Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_349 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_349 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_349 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_349
happyReduction_349 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_349 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Division Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_350 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_350 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_350 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_350
happyReduction_350 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_350 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Exponentiation Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_351 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_351 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_351 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
84# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_351
happyReduction_351 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_351 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_4) BinaryOp
Concatenation Expression A0
happy_var_1 Expression A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}

happyReduce_352 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_352 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_352 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_352
happyReduction_352 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_352 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap101
happyOut101 HappyAbsSyn
happy_x_1 of { (HappyWrap101 (SrcSpan, UnaryOp)
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan ((SrcSpan, UnaryOp) -> SrcSpan
forall a b. (a, b) -> a
fst (SrcSpan, UnaryOp)
happy_var_1) Expression A0
happy_var_2) ((SrcSpan, UnaryOp) -> UnaryOp
forall a b. (a, b) -> b
snd (SrcSpan, UnaryOp)
happy_var_1) Expression A0
happy_var_2
	)}}

happyReduce_353 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_353 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_353 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_353
happyReduction_353 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_353 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Or Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_354 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_354 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_354 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_354
happyReduction_354 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_354 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
And Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_355 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_355 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_355 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_355
happyReduction_355 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_355 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) UnaryOp
Not Expression A0
happy_var_2
	)}}

happyReduce_356 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_356 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_356 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_356
happyReduction_356 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_356 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
Equivalent Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_357 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_357 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_357 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_357
happyReduction_357 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_357 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
NotEquivalent Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_358 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_358 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_358 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_358
happyReduction_358 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_358 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap102
happyOut102 HappyAbsSyn
happy_x_2 of { (HappyWrap102 BinaryOp
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) BinaryOp
happy_var_2 Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}}

happyReduce_359 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_359 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_359 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_359
happyReduction_359 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_359 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (let TOpCustom SrcSpan
span Name
str = Token
happy_var_1
    in A0 -> SrcSpan -> UnaryOp -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> UnaryOp -> Expression a -> Expression a
ExpUnary () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
span Expression A0
happy_var_2) (Name -> UnaryOp
UnCustom Name
str) Expression A0
happy_var_2
	)}}

happyReduce_360 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_360 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_360 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_360
happyReduction_360 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_360 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (let TOpCustom SrcSpan
_ Name
str = Token
happy_var_2
    in A0
-> SrcSpan
-> BinaryOp
-> Expression A0
-> Expression A0
-> Expression A0
forall a.
a
-> SrcSpan
-> BinaryOp
-> Expression a
-> Expression a
-> Expression a
ExpBinary () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) (Name -> BinaryOp
BinCustom Name
str) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}}

happyReduce_361 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_361 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_361 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_361
happyReduction_361 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_361 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (SrcSpan -> Expression A0 -> Expression A0
forall a. Spanned a => SrcSpan -> a -> a
setSpan (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) Expression A0
happy_var_2
	)}}}

happyReduce_362 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_362 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_362 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_362
happyReduction_362 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_362 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap104
happyOut104 HappyAbsSyn
happy_x_1 of { (HappyWrap104 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (Expression A0
happy_var_1
	)}

happyReduce_363 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_363 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_363 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
84# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_363
happyReduction_363 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_363 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) (Expression A0 -> Expression A0 -> Value A0
forall a. Expression a -> Expression a -> Value a
ValComplex Expression A0
happy_var_2 Expression A0
happy_var_4)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_364 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_364 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_364 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_364
happyReduction_364 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_364 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap108
happyOut108 HappyAbsSyn
happy_x_1 of { (HappyWrap108 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (Expression A0
happy_var_1
	)}

happyReduce_365 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_365 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_365 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_365
happyReduction_365 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_365 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap109
happyOut109 HappyAbsSyn
happy_x_1 of { (HappyWrap109 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (Expression A0
happy_var_1
	)}

happyReduce_366 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_366 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_366 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_366
happyReduction_366 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_366 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (Expression A0
happy_var_1
	)}

happyReduce_367 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_367 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_367 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_367
happyReduction_367 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_367 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap99
happyOut99 HappyAbsSyn
happy_x_1 of { (HappyWrap99 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (Expression A0
happy_var_1
	)}

happyReduce_368 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_368 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_368 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_368
happyReduction_368 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_368 HappyAbsSyn
happy_x_3
	HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_2 of { (HappyWrap100 [Expression A0]
happy_var_2) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> AList Expression A0 -> Expression A0
forall a. a -> SrcSpan -> AList Expression a -> Expression a
ExpInitialisation () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_3) ([Expression A0] -> AList Expression A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Expression A0]
happy_var_2)
	)}}}

happyReduce_369 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_369 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_369 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
84# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_369
happyReduction_369 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_369 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (let TOpCustom SrcSpan
_ Name
op = Token
happy_var_3
    in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_4) (Name -> Value A0
forall a. Name -> Value a
ValOperator Name
op)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_370 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_370 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_370 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
84# HappyAbsSyn -> HappyAbsSyn
happyReduction_370
happyReduction_370 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_370 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Value A0
forall a. Value a
ValAssignment
	)}

happyReduce_371 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_371 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_371 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
84# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_371
happyReduction_371 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_371 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_2 of { (HappyWrap106 Expression A0
happy_var_2) -> 
	Expression A0 -> HappyAbsSyn
happyIn90
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0
forall a. a -> SrcSpan -> Expression a -> Expression a
ExpReturnSpec () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Expression A0
happy_var_2
	)}}

happyReduce_372 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_372 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_372 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
85# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_372
happyReduction_372 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_372 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap91
happyOut91 HappyAbsSyn
happy_x_1 of { (HappyWrap91 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_3 of { (HappyWrap92 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn91
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_373 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_373 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_373 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
85# HappyAbsSyn -> HappyAbsSyn
happyReduction_373
happyReduction_373 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_373 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn91
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_374 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_374 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_374 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
86# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_374
happyReduction_374 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_374 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap92
happyOut92 HappyAbsSyn
happy_x_1 of { (HappyWrap92 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap94
happyOut94 HappyAbsSyn
happy_x_3 of { (HappyWrap94 Expression A0
happy_var_3) -> 
	Expression A0 -> HappyAbsSyn
happyIn92
		 (A0 -> SrcSpan -> Expression A0 -> Expression A0 -> Expression A0
forall a.
a -> SrcSpan -> Expression a -> Expression a -> Expression a
ExpDataRef () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) Expression A0
happy_var_1 Expression A0
happy_var_3
	)}}

happyReduce_375 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_375 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_375 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
86# HappyAbsSyn -> HappyAbsSyn
happyReduction_375
happyReduction_375 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_375 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap94
happyOut94 HappyAbsSyn
happy_x_1 of { (HappyWrap94 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn92
		 (Expression A0
happy_var_1
	)}

happyReduce_376 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_376 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_376 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
87# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_376
happyReduction_376 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_376 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap93
happyOut93 HappyAbsSyn
happy_x_1 of { (HappyWrap93 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap94
happyOut94 HappyAbsSyn
happy_x_3 of { (HappyWrap94 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn93
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_377 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_377 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_377 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
87# HappyAbsSyn -> HappyAbsSyn
happyReduction_377
happyReduction_377 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_377 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap94
happyOut94 HappyAbsSyn
happy_x_1 of { (HappyWrap94 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn93
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_378 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_378 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_378 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
88# HappyAbsSyn -> HappyAbsSyn
happyReduction_378
happyReduction_378 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_378 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn94
		 (Expression A0
happy_var_1
	)}

happyReduce_379 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_379 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_379 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
88# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_379
happyReduction_379 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_379 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_3 of { Token
happy_var_3 -> 
	Expression A0 -> HappyAbsSyn
happyIn94
		 (A0
-> SrcSpan
-> Expression A0
-> Maybe (AList Argument A0)
-> Expression A0
forall a.
a
-> SrcSpan
-> Expression a
-> Maybe (AList Argument a)
-> Expression a
ExpFunctionCall () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_3) Expression A0
happy_var_1 Maybe (AList Argument A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_380 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_380 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_380 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
4# Int#
88# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_380
happyReduction_380 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_380 (HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_3 of { (HappyWrap95 [Index A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	Expression A0 -> HappyAbsSyn
happyIn94
		 (A0 -> SrcSpan -> Expression A0 -> AList Index A0 -> Expression A0
forall a.
a -> SrcSpan -> Expression a -> AList Index a -> Expression a
ExpSubscript () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_4) Expression A0
happy_var_1 ([Index A0] -> AList Index A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Index A0]
happy_var_3)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_381 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_381 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_381 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
88# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_381
happyReduction_381 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_381 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap103
happyOut103 HappyAbsSyn
happy_x_1 of { (HappyWrap103 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_3 of { (HappyWrap95 [Index A0]
happy_var_3) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_4 of { Token
happy_var_4 -> 
	case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_6 of { (HappyWrap95 [Index A0]
happy_var_6) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_7 of { Token
happy_var_7 -> 
	Expression A0 -> HappyAbsSyn
happyIn94
		 (let innerSub :: Expression A0
innerSub = A0 -> SrcSpan -> Expression A0 -> AList Index A0 -> Expression A0
forall a.
a -> SrcSpan -> Expression a -> AList Index a -> Expression a
ExpSubscript () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_4) Expression A0
happy_var_1 ([Index A0] -> AList Index A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Index A0]
happy_var_3)
    in A0 -> SrcSpan -> Expression A0 -> AList Index A0 -> Expression A0
forall a.
a -> SrcSpan -> Expression a -> AList Index a -> Expression a
ExpSubscript () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_7) Expression A0
innerSub ([Index A0] -> AList Index A0
forall (t :: * -> *). Spanned (t A0) => [t A0] -> AList t A0
fromReverseList [Index A0]
happy_var_6)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_382 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_382 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_382 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
89# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_382
happyReduction_382 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_382 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap95
happyOut95 HappyAbsSyn
happy_x_1 of { (HappyWrap95 [Index A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap96
happyOut96 HappyAbsSyn
happy_x_3 of { (HappyWrap96 Index A0
happy_var_3) -> 
	[Index A0] -> HappyAbsSyn
happyIn95
		 (Index A0
happy_var_3 Index A0 -> [Index A0] -> [Index A0]
forall k1. k1 -> [k1] -> [k1]
: [Index A0]
happy_var_1
	)}}

happyReduce_383 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_383 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_383 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
89# HappyAbsSyn -> HappyAbsSyn
happyReduction_383
happyReduction_383 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_383 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap96
happyOut96 HappyAbsSyn
happy_x_1 of { (HappyWrap96 Index A0
happy_var_1) -> 
	[Index A0] -> HappyAbsSyn
happyIn95
		 ([ Index A0
happy_var_1 ]
	)}

happyReduce_384 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_384 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_384 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
90# HappyAbsSyn -> HappyAbsSyn
happyReduction_384
happyReduction_384 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_384 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap97
happyOut97 HappyAbsSyn
happy_x_1 of { (HappyWrap97 Index A0
happy_var_1) -> 
	Index A0 -> HappyAbsSyn
happyIn96
		 (Index A0
happy_var_1
	)}

happyReduce_385 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_385 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_385 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
90# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_385
happyReduction_385 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_385 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap97
happyOut97 HappyAbsSyn
happy_x_1 of { (HappyWrap97 Index A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Index A0 -> HappyAbsSyn
happyIn96
		 (let IxRange () SrcSpan
s Maybe (Expression A0)
lower Maybe (Expression A0)
upper Maybe (Expression A0)
_ = Index A0
happy_var_1
    in A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Index A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Index a
IxRange () (SrcSpan -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan SrcSpan
s Expression A0
happy_var_3) Maybe (Expression A0)
lower Maybe (Expression A0)
upper (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3)
	)}}

happyReduce_386 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_386 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_386 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
90# HappyAbsSyn -> HappyAbsSyn
happyReduction_386
happyReduction_386 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_386 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	Index A0 -> HappyAbsSyn
happyIn96
		 (A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Index A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Index a
IxSingle () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_1) Maybe Name
forall k1. Maybe k1
Nothing Expression A0
happy_var_1
	)}

happyReduce_387 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_387 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_387 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
90# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_387
happyReduction_387 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_387 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Index A0 -> HappyAbsSyn
happyIn96
		 (let TId SrcSpan
s Name
id = Token
happy_var_1 in A0 -> SrcSpan -> Maybe Name -> Expression A0 -> Index A0
forall a. a -> SrcSpan -> Maybe Name -> Expression a -> Index a
IxSingle () (Token -> SrcSpan -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 SrcSpan
s) (Name -> Maybe Name
forall k1. k1 -> Maybe k1
Just Name
id) Expression A0
happy_var_3
	)}}

happyReduce_388 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_388 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_388 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
91# HappyAbsSyn -> HappyAbsSyn
happyReduction_388
happyReduction_388 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_388 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Index A0 -> HappyAbsSyn
happyIn97
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Index A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Index a
IxRange () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}

happyReduce_389 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_389 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_389 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
91# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_389
happyReduction_389 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_389 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	Index A0 -> HappyAbsSyn
happyIn97
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Index A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Index a
IxRange () (Token -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Expression A0
happy_var_2) Maybe (Expression A0)
forall k1. Maybe k1
Nothing (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_2) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_390 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_390 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_390 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_2  Int#
91# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_390
happyReduction_390 :: HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
happyReduction_390 HappyAbsSyn
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_2 of { Token
happy_var_2 -> 
	Index A0 -> HappyAbsSyn
happyIn97
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Index A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Index a
IxRange () (Expression A0 -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Token
happy_var_2) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) Maybe (Expression A0)
forall k1. Maybe k1
Nothing Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_391 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_391 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_391 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
91# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_391
happyReduction_391 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_391 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	Index A0 -> HappyAbsSyn
happyIn97
		 (A0
-> SrcSpan
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Maybe (Expression A0)
-> Index A0
forall a.
a
-> SrcSpan
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Maybe (Expression a)
-> Index a
IxRange () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_1 Expression A0
happy_var_3) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_1) (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_3) Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_392 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_392 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_392 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
92# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_392
happyReduction_392 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_392 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> HappyWrap36
happyOut36 HappyAbsSyn
happy_x_1 of { (HappyWrap36 Statement A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_5 of { (HappyWrap90 Expression A0
happy_var_5) -> 
	DoSpecification A0 -> HappyAbsSyn
happyIn98
		 (A0
-> SrcSpan
-> Statement A0
-> Expression A0
-> Maybe (Expression A0)
-> DoSpecification A0
forall a.
a
-> SrcSpan
-> Statement a
-> Expression a
-> Maybe (Expression a)
-> DoSpecification a
DoSpecification () (Statement A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Statement A0
happy_var_1 Expression A0
happy_var_5) Statement A0
happy_var_1 Expression A0
happy_var_3 (Expression A0 -> Maybe (Expression A0)
forall k1. k1 -> Maybe k1
Just Expression A0
happy_var_5)
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}

happyReduce_393 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_393 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_393 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
92# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_393
happyReduction_393 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_393 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap36
happyOut36 HappyAbsSyn
happy_x_1 of { (HappyWrap36 Statement A0
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	DoSpecification A0 -> HappyAbsSyn
happyIn98
		 (A0
-> SrcSpan
-> Statement A0
-> Expression A0
-> Maybe (Expression A0)
-> DoSpecification A0
forall a.
a
-> SrcSpan
-> Statement a
-> Expression a
-> Maybe (Expression a)
-> DoSpecification a
DoSpecification () (Statement A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Statement A0
happy_var_1 Expression A0
happy_var_3) Statement A0
happy_var_1 Expression A0
happy_var_3 Maybe (Expression A0)
forall k1. Maybe k1
Nothing
	)}}

happyReduce_394 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_394 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_394 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
5# Int#
93# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_394
happyReduction_394 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_394 (HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_4 of { (HappyWrap98 DoSpecification A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	Expression A0 -> HappyAbsSyn
happyIn99
		 (let expList :: AList Expression A0
expList = A0 -> SrcSpan -> [Expression A0] -> AList Expression A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (Expression A0 -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Expression A0
happy_var_2) [ Expression A0
happy_var_2 ]
    in A0
-> SrcSpan
-> AList Expression A0
-> DoSpecification A0
-> Expression A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> DoSpecification a
-> Expression a
ExpImpliedDo () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) AList Expression A0
expList DoSpecification A0
happy_var_4
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}

happyReduce_395 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_395 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_395 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
7# Int#
93# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_395
happyReduction_395 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_395 (HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_5 of { Token
happy_var_5 -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_6 of { (HappyWrap98 DoSpecification A0
happy_var_6) -> 
	Expression A0 -> HappyAbsSyn
happyIn99
		 (let expList :: AList Expression A0
expList = A0 -> SrcSpan -> [Expression A0] -> AList Expression A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (Expression A0 -> Expression A0 -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_2 Expression A0
happy_var_4) [ Expression A0
happy_var_2, Expression A0
happy_var_4 ]
    in A0
-> SrcSpan
-> AList Expression A0
-> DoSpecification A0
-> Expression A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> DoSpecification a
-> Expression a
ExpImpliedDo () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_5) AList Expression A0
expList DoSpecification A0
happy_var_6
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}

happyReduce_396 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_396 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_396 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce Int#
9# Int#
93# HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_396
happyReduction_396 :: HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
happyReduction_396 (HappyAbsSyn
happy_x_9 `HappyStk`
	HappyAbsSyn
happy_x_8 `HappyStk`
	HappyAbsSyn
happy_x_7 `HappyStk`
	HappyAbsSyn
happy_x_6 `HappyStk`
	HappyAbsSyn
happy_x_5 `HappyStk`
	HappyAbsSyn
happy_x_4 `HappyStk`
	HappyAbsSyn
happy_x_3 `HappyStk`
	HappyAbsSyn
happy_x_2 `HappyStk`
	HappyAbsSyn
happy_x_1 `HappyStk`
	HappyStk HappyAbsSyn
happyRest)
	 = case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_2 of { (HappyWrap90 Expression A0
happy_var_2) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_4 of { (HappyWrap90 Expression A0
happy_var_4) -> 
	case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_6 of { (HappyWrap100 [Expression A0]
happy_var_6) -> 
	case HappyAbsSyn -> HappyWrap98
happyOut98 HappyAbsSyn
happy_x_8 of { (HappyWrap98 DoSpecification A0
happy_var_8) -> 
	case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_9 of { Token
happy_var_9 -> 
	Expression A0 -> HappyAbsSyn
happyIn99
		 (let { exps :: [Expression A0]
exps =  [Expression A0] -> [Expression A0]
forall a. [a] -> [a]
reverse [Expression A0]
happy_var_6;
          expList :: AList Expression A0
expList = A0 -> SrcSpan -> [Expression A0] -> AList Expression A0
forall (t :: * -> *) a. a -> SrcSpan -> [t a] -> AList t a
AList () (Expression A0 -> [Expression A0] -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Expression A0
happy_var_2 [Expression A0]
exps) (Expression A0
happy_var_2 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: Expression A0
happy_var_4 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0] -> [Expression A0]
forall a. [a] -> [a]
reverse [Expression A0]
happy_var_6) }
    in A0
-> SrcSpan
-> AList Expression A0
-> DoSpecification A0
-> Expression A0
forall a.
a
-> SrcSpan
-> AList Expression a
-> DoSpecification a
-> Expression a
ExpImpliedDo () (Token -> Token -> SrcSpan
forall a b. SpannedPair a b => a -> b -> SrcSpan
getTransSpan Token
happy_var_1 Token
happy_var_9) AList Expression A0
expList DoSpecification A0
happy_var_8
	) HappyAbsSyn -> HappyStk HappyAbsSyn -> HappyStk HappyAbsSyn
forall a. a -> HappyStk a -> HappyStk a
`HappyStk` HappyStk HappyAbsSyn
happyRest}}}}}}

happyReduce_397 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_397 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_397 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
94# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_397
happyReduction_397 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_397 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap100
happyOut100 HappyAbsSyn
happy_x_1 of { (HappyWrap100 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_3 of { (HappyWrap90 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn100
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_398 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_398 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_398 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
94# HappyAbsSyn -> HappyAbsSyn
happyReduction_398
happyReduction_398 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_398 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap90
happyOut90 HappyAbsSyn
happy_x_1 of { (HappyWrap90 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn100
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_399 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_399 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_399 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
95# HappyAbsSyn -> HappyAbsSyn
happyReduction_399
happyReduction_399 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_399 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	(SrcSpan, UnaryOp) -> HappyAbsSyn
happyIn101
		 ((Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1, UnaryOp
Minus)
	)}

happyReduce_400 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_400 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_400 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
95# HappyAbsSyn -> HappyAbsSyn
happyReduction_400
happyReduction_400 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_400 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	(SrcSpan, UnaryOp) -> HappyAbsSyn
happyIn101
		 ((Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1, UnaryOp
Plus)
	)}

happyReduce_401 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_401 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_401 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_401
happyReduction_401 :: p -> HappyAbsSyn
happyReduction_401 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
EQ
	)

happyReduce_402 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_402 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_402 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_402
happyReduction_402 :: p -> HappyAbsSyn
happyReduction_402 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
NE
	)

happyReduce_403 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_403 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_403 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_403
happyReduction_403 :: p -> HappyAbsSyn
happyReduction_403 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
GT
	)

happyReduce_404 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_404 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_404 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_404
happyReduction_404 :: p -> HappyAbsSyn
happyReduction_404 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
GTE
	)

happyReduce_405 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_405 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_405 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_405
happyReduction_405 :: p -> HappyAbsSyn
happyReduction_405 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
LT
	)

happyReduce_406 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_406 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_406 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
96# HappyAbsSyn -> HappyAbsSyn
forall p. p -> HappyAbsSyn
happyReduction_406
happyReduction_406 :: p -> HappyAbsSyn
happyReduction_406 p
happy_x_1
	 =  BinaryOp -> HappyAbsSyn
happyIn102
		 (BinaryOp
LTE
	)

happyReduce_407 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_407 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_407 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
97# HappyAbsSyn -> HappyAbsSyn
happyReduction_407
happyReduction_407 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_407 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn103
		 (A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () (Token -> SrcSpan
forall a. Spanned a => a -> SrcSpan
getSpan Token
happy_var_1) (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ let (TId SrcSpan
_ Name
s) = Token
happy_var_1 in Name -> Value A0
forall a. Name -> Value a
ValVariable Name
s
	)}

happyReduce_408 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_408 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_408 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
98# HappyAbsSyn -> HappyAbsSyn
happyReduction_408
happyReduction_408 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_408 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn104
		 (Expression A0
happy_var_1
	)}

happyReduce_409 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_409 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_409 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
98# HappyAbsSyn -> HappyAbsSyn
happyReduction_409
happyReduction_409 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_409 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap107
happyOut107 HappyAbsSyn
happy_x_1 of { (HappyWrap107 Expression A0
happy_var_1) -> 
	Expression A0 -> HappyAbsSyn
happyIn104
		 (Expression A0
happy_var_1
	)}

happyReduce_410 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_410 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_410 = Int#
-> (HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_3  Int#
99# HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn -> HappyAbsSyn
forall p. HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_410
happyReduction_410 :: HappyAbsSyn -> p -> HappyAbsSyn -> HappyAbsSyn
happyReduction_410 HappyAbsSyn
happy_x_3
	p
happy_x_2
	HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap105
happyOut105 HappyAbsSyn
happy_x_1 of { (HappyWrap105 [Expression A0]
happy_var_1) -> 
	case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_3 of { (HappyWrap106 Expression A0
happy_var_3) -> 
	[Expression A0] -> HappyAbsSyn
happyIn105
		 (Expression A0
happy_var_3 Expression A0 -> [Expression A0] -> [Expression A0]
forall k1. k1 -> [k1] -> [k1]
: [Expression A0]
happy_var_1
	)}}

happyReduce_411 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_411 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_411 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
99# HappyAbsSyn -> HappyAbsSyn
happyReduction_411
happyReduction_411 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_411 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> HappyWrap106
happyOut106 HappyAbsSyn
happy_x_1 of { (HappyWrap106 Expression A0
happy_var_1) -> 
	[Expression A0] -> HappyAbsSyn
happyIn105
		 ([ Expression A0
happy_var_1 ]
	)}

happyReduce_412 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_412 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_412 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
100# HappyAbsSyn -> HappyAbsSyn
happyReduction_412
happyReduction_412 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_412 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn106
		 (let TIntegerLiteral SrcSpan
s Name
i = Token
happy_var_1 in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
s (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ Name -> Value A0
forall a. Name -> Value a
ValInteger Name
i
	)}

happyReduce_413 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_413 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_413 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
100# HappyAbsSyn -> HappyAbsSyn
happyReduction_413
happyReduction_413 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_413 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn106
		 (let TBozLiteral SrcSpan
s Name
i = Token
happy_var_1 in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
s (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ Name -> Value A0
forall a. Name -> Value a
ValInteger Name
i
	)}

happyReduce_414 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_414 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_414 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
101# HappyAbsSyn -> HappyAbsSyn
happyReduction_414
happyReduction_414 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_414 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn107
		 (let TRealLiteral SrcSpan
s Name
r = Token
happy_var_1 in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
s (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ Name -> Value A0
forall a. Name -> Value a
ValReal Name
r
	)}

happyReduce_415 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_415 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_415 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
102# HappyAbsSyn -> HappyAbsSyn
happyReduction_415
happyReduction_415 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_415 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn108
		 (let TLogicalLiteral SrcSpan
s Name
b = Token
happy_var_1 in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
s (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ Name -> Value A0
forall a. Name -> Value a
ValLogical Name
b
	)}

happyReduce_416 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_416 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_416 = Int#
-> (HappyAbsSyn -> HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happySpecReduce_1  Int#
103# HappyAbsSyn -> HappyAbsSyn
happyReduction_416
happyReduction_416 :: HappyAbsSyn -> HappyAbsSyn
happyReduction_416 HappyAbsSyn
happy_x_1
	 =  case HappyAbsSyn -> Token
happyOutTok HappyAbsSyn
happy_x_1 of { Token
happy_var_1 -> 
	Expression A0 -> HappyAbsSyn
happyIn109
		 (let TString SrcSpan
s Name
c = Token
happy_var_1 in A0 -> SrcSpan -> Value A0 -> Expression A0
forall a. a -> SrcSpan -> Value a -> Expression a
ExpValue () SrcSpan
s (Value A0 -> Expression A0) -> Value A0 -> Expression A0
forall a b. (a -> b) -> a -> b
$ Name -> Value A0
forall a. Name -> Value a
ValString Name
c
	)}

happyReduce_417 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_417 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_417 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
0# Int#
104# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p p. p -> p -> LexAction HappyAbsSyn
happyReduction_417
happyReduction_417 :: p -> p -> LexAction HappyAbsSyn
happyReduction_417 (p
happyRest) p
tk
	 = Parse AlexInput Token A0
-> (A0 -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((( Context -> Parse AlexInput Token A0
forall a b.
(Loc a, LastToken a b, Show b) =>
Context -> Parse a b A0
pushContext Context
ConData))
	) (\A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (A0 -> HappyAbsSyn
happyIn110 A0
r))

happyReduce_418 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_418 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_418 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
0# Int#
105# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p p. p -> p -> LexAction HappyAbsSyn
happyReduction_418
happyReduction_418 :: p -> p -> LexAction HappyAbsSyn
happyReduction_418 (p
happyRest) p
tk
	 = Parse AlexInput Token A0
-> (A0 -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((( Context -> Parse AlexInput Token A0
forall a b.
(Loc a, LastToken a b, Show b) =>
Context -> Parse a b A0
pushContext Context
ConImplicit))
	) (\A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (A0 -> HappyAbsSyn
happyIn111 A0
r))

happyReduce_419 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_419 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_419 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
0# Int#
106# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p p. p -> p -> LexAction HappyAbsSyn
happyReduction_419
happyReduction_419 :: p -> p -> LexAction HappyAbsSyn
happyReduction_419 (p
happyRest) p
tk
	 = Parse AlexInput Token A0
-> (A0 -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((( Context -> Parse AlexInput Token A0
forall a b.
(Loc a, LastToken a b, Show b) =>
Context -> Parse a b A0
pushContext Context
ConNamelist))
	) (\A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (A0 -> HappyAbsSyn
happyIn112 A0
r))

happyReduce_420 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_420 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_420 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
0# Int#
107# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p p. p -> p -> LexAction HappyAbsSyn
happyReduction_420
happyReduction_420 :: p -> p -> LexAction HappyAbsSyn
happyReduction_420 (p
happyRest) p
tk
	 = Parse AlexInput Token A0
-> (A0 -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((( Context -> Parse AlexInput Token A0
forall a b.
(Loc a, LastToken a b, Show b) =>
Context -> Parse a b A0
pushContext Context
ConCommon))
	) (\A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (A0 -> HappyAbsSyn
happyIn113 A0
r))

happyReduce_421 :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )
happyReduce_421 :: Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyReduce_421 = Int#
-> Int#
-> (HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn)
-> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyMonadReduce Int#
0# Int#
108# HappyStk HappyAbsSyn -> Token -> LexAction HappyAbsSyn
forall p p. p -> p -> LexAction HappyAbsSyn
happyReduction_421
happyReduction_421 :: p -> p -> LexAction HappyAbsSyn
happyReduction_421 (p
happyRest) p
tk
	 = Parse AlexInput Token A0
-> (A0 -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen ((( Parse AlexInput Token A0
forall a b. (Loc a, LastToken a b, Show b) => Parse a b A0
popContext))
	) (\A0
r -> HappyAbsSyn -> LexAction HappyAbsSyn
forall a. a -> LexAction a
happyReturn (A0 -> HappyAbsSyn
happyIn114 A0
r))

happyNewToken :: Int#
-> Happy_IntList -> HappyStk HappyAbsSyn -> LexAction HappyAbsSyn
happyNewToken Int#
action Happy_IntList
sts HappyStk HappyAbsSyn
stk
	= (Token -> LexAction HappyAbsSyn) -> LexAction HappyAbsSyn
forall a. (Token -> LexAction a) -> LexAction a
lexer(\Token
tk -> 
	let cont :: Int# -> LexAction HappyAbsSyn
cont Int#
i = Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyDoAction Int#
i Token
tk Int#
action Happy_IntList
sts HappyStk HappyAbsSyn
stk in
	case Token
tk of {
	TEOF SrcSpan
_ -> Int#
-> Token
-> Int#
-> Happy_IntList
-> HappyStk HappyAbsSyn
-> LexAction HappyAbsSyn
happyDoAction Int#
135# Token
tk Int#
action Happy_IntList
sts HappyStk HappyAbsSyn
stk;
	TId SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
1#;
	TComment SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
2#;
	TString SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
3#;
	TIntegerLiteral SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
4#;
	TRealLiteral SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
5#;
	TBozLiteral SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
6#;
	TComma SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
7#;
	TComma2 SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
8#;
	TSemiColon SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
9#;
	TColon SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
10#;
	TDoubleColon SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
11#;
	TOpAssign SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
12#;
	TArrow SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
13#;
	TPercent SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
14#;
	TLeftPar SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
15#;
	TLeftPar2 SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
16#;
	TRightPar SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
17#;
	TLeftInitPar SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
18#;
	TRightInitPar SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
19#;
	TOpCustom SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
20#;
	TOpExp SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
21#;
	TOpPlus SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
22#;
	TOpMinus SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
23#;
	TStar SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
24#;
	TOpDivision SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
25#;
	TSlash SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
26#;
	TOpOr SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
27#;
	TOpAnd SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
28#;
	TOpNot SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
29#;
	TOpEquivalent SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
30#;
	TOpNotEquivalent SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
31#;
	TOpLT SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
32#;
	TOpLE SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
33#;
	TOpEQ SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
34#;
	TOpNE SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
35#;
	TOpGT SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
36#;
	TOpGE SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
37#;
	TLogicalLiteral SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
38#;
	TProgram SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
39#;
	TEndProgram SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
40#;
	TFunction SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
41#;
	TEndFunction SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
42#;
	TResult SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
43#;
	TRecursive SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
44#;
	TSubroutine SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
45#;
	TEndSubroutine SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
46#;
	TBlockData SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
47#;
	TEndBlockData SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
48#;
	TModule SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
49#;
	TEndModule SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
50#;
	TContains SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
51#;
	TUse SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
52#;
	TOnly SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
53#;
	TInterface SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
54#;
	TEndInterface SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
55#;
	TModuleProcedure SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
56#;
	TAssignment SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
57#;
	TOperator SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
58#;
	TCall SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
59#;
	TReturn SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
60#;
	TEntry SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
61#;
	TInclude SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
62#;
	TPublic SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
63#;
	TPrivate SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
64#;
	TParameter SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
65#;
	TAllocatable SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
66#;
	TDimension SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
67#;
	TExternal SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
68#;
	TIntent SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
69#;
	TIntrinsic SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
70#;
	TOptional SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
71#;
	TPointer SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
72#;
	TSave SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
73#;
	TTarget SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
74#;
	TIn SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
75#;
	TOut SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
76#;
	TInOut SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
77#;
	TData SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
78#;
	TNamelist SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
79#;
	TImplicit SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
80#;
	TEquivalence SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
81#;
	TCommon SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
82#;
	TAllocate SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
83#;
	TStat SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
84#;
	TDeallocate SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
85#;
	TNullify SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
86#;
	TNone SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
87#;
	TGoto SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
88#;
	TAssign SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
89#;
	TTo SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
90#;
	TContinue SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
91#;
	TStop SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
92#;
	TPause SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
93#;
	TDo SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
94#;
	TEndDo SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
95#;
	TWhile SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
96#;
	TIf SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
97#;
	TThen SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
98#;
	TElse SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
99#;
	TElsif SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
100#;
	TEndIf SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
101#;
	TCase SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
102#;
	TSelectCase SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
103#;
	TEndSelect SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
104#;
	TDefault SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
105#;
	TCycle SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
106#;
	TExit SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
107#;
	TWhere SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
108#;
	TElsewhere SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
109#;
	TEndWhere SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
110#;
	TType SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
111#;
	TEndType SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
112#;
	TSequence SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
113#;
	TKind SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
114#;
	TLen SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
115#;
	TInteger SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
116#;
	TReal SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
117#;
	TDoublePrecision SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
118#;
	TLogical SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
119#;
	TCharacter SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
120#;
	TComplex SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
121#;
	TOpen SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
122#;
	TClose SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
123#;
	TRead SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
124#;
	TWrite SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
125#;
	TPrint SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
126#;
	TBackspace SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
127#;
	TRewind SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
128#;
	TInquire SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
129#;
	TEndfile SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
130#;
	TFormat SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
131#;
	TBlob SrcSpan
_ Name
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
132#;
	TEnd SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
133#;
	TNewline SrcSpan
_ -> Int# -> LexAction HappyAbsSyn
cont Int#
134#;
	Token
_ -> (Token, [Name]) -> LexAction HappyAbsSyn
forall a. (Token, [Name]) -> LexAction a
happyError' (Token
tk, [])
	})

happyError_ :: [Name] -> Int# -> Token -> LexAction a
happyError_ [Name]
explist Int#
135# Token
tk = (Token, [Name]) -> LexAction a
forall a. (Token, [Name]) -> LexAction a
happyError' (Token
tk, [Name]
explist)
happyError_ [Name]
explist Int#
_ Token
tk = (Token, [Name]) -> LexAction a
forall a. (Token, [Name]) -> LexAction a
happyError' (Token
tk, [Name]
explist)

happyThen :: () => LexAction a -> (a -> LexAction b) -> LexAction b
happyThen :: LexAction a -> (a -> LexAction b) -> LexAction b
happyThen = LexAction a -> (a -> LexAction b) -> LexAction b
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
(Prelude.>>=)
happyReturn :: () => a -> LexAction a
happyReturn :: a -> LexAction a
happyReturn = (a -> LexAction a
forall (m :: * -> *) a. Monad m => a -> m a
Prelude.return)
happyParse :: () => Happy_GHC_Exts.Int# -> LexAction (HappyAbsSyn )

happyNewToken :: () => Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )

happyDoAction :: () => Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn )

happyReduceArr :: () => Happy_Data_Array.Array Prelude.Int (Happy_GHC_Exts.Int# -> Token -> Happy_GHC_Exts.Int# -> Happy_IntList -> HappyStk (HappyAbsSyn ) -> LexAction (HappyAbsSyn ))

happyThen1 :: () => LexAction a -> (a -> LexAction b) -> LexAction b
happyThen1 :: LexAction a -> (a -> LexAction b) -> LexAction b
happyThen1 = LexAction a -> (a -> LexAction b) -> LexAction b
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen
happyReturn1 :: () => a -> LexAction a
happyReturn1 :: a -> LexAction a
happyReturn1 = a -> LexAction a
forall a. a -> LexAction a
happyReturn
happyError' :: () => ((Token), [Prelude.String]) -> LexAction a
happyError' :: (Token, [Name]) -> LexAction a
happyError' (Token, [Name])
tk = (\(Token
tokens, [Name]
_) -> Token -> LexAction a
forall a. Token -> LexAction a
parseError Token
tokens) (Token, [Name])
tk
programParser :: LexAction (ProgramFile A0)
programParser = LexAction (ProgramFile A0)
happySomeParser where
 happySomeParser :: LexAction (ProgramFile A0)
happySomeParser = LexAction HappyAbsSyn
-> (HappyAbsSyn -> LexAction (ProgramFile A0))
-> LexAction (ProgramFile A0)
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen (Int# -> LexAction HappyAbsSyn
happyParse Int#
0#) (\HappyAbsSyn
x -> ProgramFile A0 -> LexAction (ProgramFile A0)
forall a. a -> LexAction a
happyReturn (let {(HappyWrap6 ProgramFile A0
x') = HappyAbsSyn -> HappyWrap6
happyOut6 HappyAbsSyn
x} in ProgramFile A0
x'))

functionParser :: LexAction (ProgramUnit A0)
functionParser = LexAction (ProgramUnit A0)
happySomeParser where
 happySomeParser :: LexAction (ProgramUnit A0)
happySomeParser = LexAction HappyAbsSyn
-> (HappyAbsSyn -> LexAction (ProgramUnit A0))
-> LexAction (ProgramUnit A0)
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen (Int# -> LexAction HappyAbsSyn
happyParse Int#
1#) (\HappyAbsSyn
x -> ProgramUnit A0 -> LexAction (ProgramUnit A0)
forall a. a -> LexAction a
happyReturn (let {(HappyWrap12 ProgramUnit A0
x') = HappyAbsSyn -> HappyWrap12
happyOut12 HappyAbsSyn
x} in ProgramUnit A0
x'))

statementParser :: LexAction (Statement A0)
statementParser = LexAction (Statement A0)
happySomeParser where
 happySomeParser :: LexAction (Statement A0)
happySomeParser = LexAction HappyAbsSyn
-> (HappyAbsSyn -> LexAction (Statement A0))
-> LexAction (Statement A0)
forall a b. LexAction a -> (a -> LexAction b) -> LexAction b
happyThen (Int# -> LexAction HappyAbsSyn
happyParse Int#
2#) (\HappyAbsSyn
x -> Statement A0 -> LexAction (Statement A0)
forall a. a -> LexAction a
happyReturn (let {(HappyWrap35 Statement A0
x') = HappyAbsSyn -> HappyWrap35
happyOut35 HappyAbsSyn
x} in Statement A0
x'))

happySeq :: a -> b -> b
happySeq = a -> b -> b
forall a b. a -> b -> b
happyDontSeq


unitNameCheck :: Token -> String -> Parse AlexInput Token ()
unitNameCheck :: Token -> Name -> Parse AlexInput Token A0
unitNameCheck (TId SrcSpan
_ Name
name1) Name
name2
  | Name
name1 Name -> Name -> Bool
forall a. Eq a => a -> a -> Bool
== Name
name2 = A0 -> Parse AlexInput Token A0
forall (m :: * -> *) a. Monad m => a -> m a
return ()
  | Bool
otherwise = Name -> Parse AlexInput Token A0
forall (m :: * -> *) a. MonadFail m => Name -> m a
fail Name
"Unit name does not match the corresponding END statement."
unitNameCheck Token
_ Name
_ = A0 -> Parse AlexInput Token A0
forall (m :: * -> *) a. Monad m => a -> m a
return ()

parse :: ParseState AlexInput
-> ParseResult AlexInput Token (ProgramFile A0)
parse = LexAction (ProgramFile A0)
-> ParseState AlexInput
-> ParseResult AlexInput Token (ProgramFile A0)
forall b c a.
(Loc b, LastToken b c, Show c) =>
Parse b c a -> ParseState b -> ParseResult b c a
runParse LexAction (ProgramFile A0)
programParser

transformations90 :: [Transformation]
transformations90 =
  [ Transformation
GroupLabeledDo
  , Transformation
GroupDo
  , Transformation
GroupIf
  , Transformation
GroupCase
  , Transformation
DisambiguateIntrinsic
  , Transformation
DisambiguateFunction
  ]

fortran90Parser ::
    B.ByteString -> String -> ParseResult AlexInput Token (ProgramFile A0)
fortran90Parser :: ByteString -> Name -> ParseResult AlexInput Token (ProgramFile A0)
fortran90Parser = ModFiles
-> ByteString
-> Name
-> ParseResult AlexInput Token (ProgramFile A0)
fortran90ParserWithModFiles ModFiles
emptyModFiles

fortran90ParserWithModFiles ::
    ModFiles -> B.ByteString -> String -> ParseResult AlexInput Token (ProgramFile A0)
fortran90ParserWithModFiles :: ModFiles
-> ByteString
-> Name
-> ParseResult AlexInput Token (ProgramFile A0)
fortran90ParserWithModFiles ModFiles
mods ByteString
sourceCode Name
filename =
    (ProgramFile A0 -> ProgramFile A0)
-> ParseResult AlexInput Token (ProgramFile A0)
-> ParseResult AlexInput Token (ProgramFile A0)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Name -> ProgramFile A0 -> ProgramFile A0
forall a. Name -> ProgramFile a -> ProgramFile a
pfSetFilename Name
filename (ProgramFile A0 -> ProgramFile A0)
-> (ProgramFile A0 -> ProgramFile A0)
-> ProgramFile A0
-> ProgramFile A0
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ModFiles -> [Transformation] -> ProgramFile A0 -> ProgramFile A0
forall a.
Data a =>
ModFiles -> [Transformation] -> ProgramFile a -> ProgramFile a
transformWithModFiles ModFiles
mods [Transformation]
transformations90) (ParseResult AlexInput Token (ProgramFile A0)
 -> ParseResult AlexInput Token (ProgramFile A0))
-> ParseResult AlexInput Token (ProgramFile A0)
-> ParseResult AlexInput Token (ProgramFile A0)
forall a b. (a -> b) -> a -> b
$ ParseState AlexInput
-> ParseResult AlexInput Token (ProgramFile A0)
parse ParseState AlexInput
parseState
  where
    parseState :: ParseState AlexInput
parseState = ByteString -> FortranVersion -> Name -> ParseState AlexInput
initParseState ByteString
sourceCode FortranVersion
Fortran90 Name
filename

parseError :: Token -> LexAction a
parseError :: Token -> LexAction a
parseError Token
_ = do
    ParseState AlexInput
parseState <- Parse AlexInput Token (ParseState AlexInput)
forall s (m :: * -> *). MonadState s m => m s
get
#ifdef DEBUG
    tokens <- reverse <$> aiPreviousTokensInLine <$> getAlex
#endif
    Name -> LexAction a
forall (m :: * -> *) a. MonadFail m => Name -> m a
fail (Name -> LexAction a) -> Name -> LexAction a
forall a b. (a -> b) -> a -> b
$ ParseState AlexInput -> Name
forall a. ParseState a -> Name
psFilename ParseState AlexInput
parseState Name -> Name -> Name
forall a. [a] -> [a] -> [a]
++ Name
": parsing failed. "
#ifdef DEBUG
      ++ '\n' : show tokens
#endif
{-# LINE 1 "templates/GenericTemplate.hs" #-}
-- $Id: GenericTemplate.hs,v 1.26 2005/01/14 14:47:22 simonmar Exp $













-- Do not remove this comment. Required to fix CPP parsing when using GCC and a clang-compiled alex.
#if __GLASGOW_HASKELL__ > 706
#define LT(n,m) ((Happy_GHC_Exts.tagToEnum# (n Happy_GHC_Exts.<# m)) :: Prelude.Bool)
#define GTE(n,m) ((Happy_GHC_Exts.tagToEnum# (n Happy_GHC_Exts.>=# m)) :: Prelude.Bool)
#define EQ(n,m) ((Happy_GHC_Exts.tagToEnum# (n Happy_GHC_Exts.==# m)) :: Prelude.Bool)
#else
#define LT(n,m) (n Happy_GHC_Exts.<# m)
#define GTE(n,m) (n Happy_GHC_Exts.>=# m)
#define EQ(n,m) (n Happy_GHC_Exts.==# m)
#endif



















data Happy_IntList = HappyCons Happy_GHC_Exts.Int# Happy_IntList








































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 ERROR_TOK, 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
        = {- nothing -}
          case action of
                0#           -> {- nothing -}
                                     happyFail (happyExpListPerState ((Happy_GHC_Exts.I# (st)) :: Prelude.Int)) i tk st
                -1#          -> {- nothing -}
                                     happyAccept i tk st
                n | LT(n,(0# :: Happy_GHC_Exts.Int#)) -> {- nothing -}
                                                   (happyReduceArr Happy_Data_Array.! rule) i tk st
                                                   where rule = (Happy_GHC_Exts.I# ((Happy_GHC_Exts.negateInt# ((n Happy_GHC_Exts.+# (1# :: Happy_GHC_Exts.Int#))))))
                n                 -> {- nothing -}
                                     happyShift new_state i tk st
                                     where new_state = (n Happy_GHC_Exts.-# (1# :: Happy_GHC_Exts.Int#))
   where off    = happyAdjustOffset (indexShortOffAddr happyActOffsets st)
         off_i  = (off Happy_GHC_Exts.+# i)
         check  = if GTE(off_i,(0# :: Happy_GHC_Exts.Int#))
                  then EQ(indexShortOffAddr happyCheck off_i, i)
                  else Prelude.False
         action
          | check     = indexShortOffAddr happyTable off_i
          | Prelude.otherwise = indexShortOffAddr happyDefActions st




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




{-# INLINE happyLt #-}
happyLt x y = LT(x,y)


readArrayBit arr bit =
    Bits.testBit (Happy_GHC_Exts.I# (indexShortOffAddr arr ((unbox_int bit) `Happy_GHC_Exts.iShiftRA#` 4#))) (bit `Prelude.mod` 16)
  where unbox_int (Happy_GHC_Exts.I# x) = x






data HappyAddr = HappyA# Happy_GHC_Exts.Addr#


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













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

happyShift new_state 0# tk st sts stk@(x `HappyStk` _) =
     let i = (case Happy_GHC_Exts.unsafeCoerce# x of { (Happy_GHC_Exts.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)) ((happyInTok (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 Happy_GHC_Exts.-# (1# :: Happy_GHC_Exts.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 =
      case happyDrop k (HappyCons (st) (sts)) of
        sts1@((HappyCons (st1@(action)) (_))) ->
          let drop_stk = happyDropStk k stk in
          happyThen1 (fn stk tk) (\r -> happyGoto nt j tk st1 sts1 (r `HappyStk` drop_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 =
      case happyDrop k (HappyCons (st) (sts)) of
        sts1@((HappyCons (st1@(action)) (_))) ->
         let drop_stk = happyDropStk k stk

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




          in
          happyThen1 (fn stk tk) (\r -> happyNewToken new_state sts1 (r `HappyStk` drop_stk))

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

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

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


happyGoto nt j tk st = 
   {- nothing -}
   happyDoAction j tk new_state
   where off = happyAdjustOffset (indexShortOffAddr happyGotoOffsets st)
         off_i = (off Happy_GHC_Exts.+# nt)
         new_state = indexShortOffAddr happyTable off_i




-----------------------------------------------------------------------------
-- Error recovery (ERROR_TOK is the error token)

-- parse error if we are in recovery and we fail again
happyFail explist 0# tk old_st _ stk@(x `HappyStk` _) =
     let i = (case Happy_GHC_Exts.unsafeCoerce# x of { (Happy_GHC_Exts.I# (i)) -> i }) in
--      trace "failing" $ 
        happyError_ explist i 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  ERROR_TOK tk old_st CONS(HAPPYSTATE(action),sts) 
                                                (saved_tok `HappyStk` _ `HappyStk` stk) =
--      trace ("discarding state, depth " ++ show (length stk))  $
        DO_ACTION(action,ERROR_TOK,tk,sts,(saved_tok`HappyStk`stk))
-}

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

-- Internal happy errors:

notHappyAtAll :: a
notHappyAtAll = Prelude.error "Internal Happy error\n"

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


happyTcHack :: Happy_GHC_Exts.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 `Prelude.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.