\(input_0 :: inp_6989586621679059048) -> let !(# init_1, readMore_2, readNext_3 #) = let _ = "cursorOf" in let next_4 ( t_5@( Data.Text.Internal.Text arr_6 off_7 unconsumed_8 ) ) = let !( Data.Text.Unsafe.Iter c_9 d_10 ) = Data.Text.Unsafe.iter t_5 0 in (# c_9, Data.Text.Internal.Text arr_6 (off_7 GHC.Num.+ d_10) (unconsumed_8 GHC.Num.- d_10) #) more_11 ( Data.Text.Internal.Text _ _ unconsumed_12 ) = unconsumed_12 GHC.Classes.> 0 in (# input_0, more_11, next_4 #) in let finalRet_13 = \_farInp_14 _farExp_15 v_16 _inp_17 -> Data.Either.Right v_16 in let finalRaise_18 :: forall b_19. Symantic.Parser.Machine.Generate.Catcher inp_6989586621679059048 b_19 = \_failInp_20 (!farInp_21) (!farExp_22) -> Data.Either.Left Symantic.Parser.Machine.Generate.ParsingErrorStandard { Symantic.Parser.Machine.Generate.parsingErrorOffset = Symantic.Parser.Machine.Input.offset farInp_21, Symantic.Parser.Machine.Generate.parsingErrorUnexpected = if readMore_2 farInp_21 then GHC.Maybe.Just ( let (# c_23, _ #) = readNext_3 farInp_21 in c_23 ) else GHC.Maybe.Nothing, Symantic.Parser.Machine.Generate.parsingErrorExpecting = Data.Set.Internal.fromList farExp_22 } in let in let join_24 = \farInp_25 farExp_26 v_27 (!inp_28) -> let readFail_29 = finalRaise_18 in if readMore_2 inp_28 then let !(# c_30, cs_31 #) = readNext_3 inp_28 in if ('c' GHC.Classes.==) c_30 then let _ = "resume" in finalRet_13 farInp_25 farExp_26 ( let _ = "resume.genCode" in v_27 ) cs_31 else let _ = "checkToken.else" in let (# farInp_32, farExp_33 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) farInp_25 inp_28 of GHC.Types.LT -> (# inp_28, [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'c'] #) GHC.Types.EQ -> (# farInp_25, farExp_26 GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'c'] #) GHC.Types.GT -> (# farInp_25, farExp_26 #) in finalRaise_18 inp_28 farInp_32 farExp_33 else let _ = "checkHorizon.else" in let (# farInp_34, farExp_35 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) farInp_25 inp_28 of GHC.Types.LT -> (# inp_28, [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 1] #) GHC.Types.EQ -> (# farInp_25, farExp_26 GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 1] #) GHC.Types.GT -> (# farInp_25, farExp_26 #) in finalRaise_18 inp_28 farInp_34 farExp_35 in let _ = "catchException lbl=fail" in let catchHandler_36 (!failInp_37) (!farInp_38) (!farExp_39) = let _ = "catchException.ko lbl=fail" in if ( \( Data.Text.Internal.Text _ i_40 _ ) ( Data.Text.Internal.Text _ j_41 _ ) -> i_40 GHC.Classes.== j_41 ) init_1 failInp_37 then let _ = "choicesBranch.then" in let readFail_42 = finalRaise_18 in if readMore_2 (Symantic.Parser.Machine.Input.shiftRightText 1 failInp_37) then let !(# c_43, cs_44 #) = readNext_3 failInp_37 in if ('b' GHC.Classes.==) c_43 then let _ = "resume" in join_24 farInp_38 farExp_39 ( let _ = "resume.genCode" in 'b' ) cs_44 else let _ = "checkToken.else" in let (# farInp_45, farExp_46 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) farInp_38 failInp_37 of GHC.Types.LT -> (# failInp_37, [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'b'] #) GHC.Types.EQ -> (# farInp_38, farExp_39 GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'b'] #) GHC.Types.GT -> (# farInp_38, farExp_39 #) in finalRaise_18 failInp_37 farInp_45 farExp_46 else let _ = "checkHorizon.else" in let (# farInp_47, farExp_48 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) farInp_38 failInp_37 of GHC.Types.LT -> (# failInp_37, [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 2] #) GHC.Types.EQ -> (# farInp_38, farExp_39 GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 2] #) GHC.Types.GT -> (# farInp_38, farExp_39 #) in finalRaise_18 failInp_37 farInp_47 farExp_48 else let _ = "choicesBranch.else" in let (# farInp_49, farExp_50 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) farInp_38 failInp_37 of GHC.Types.LT -> (# failInp_37, [] #) GHC.Types.EQ -> (# farInp_38, farExp_39 GHC.Base.<> [] #) GHC.Types.GT -> (# farInp_38, farExp_39 #) in finalRaise_18 failInp_37 farInp_49 farExp_50 in let readFail_51 = catchHandler_36 in if readMore_2 (Symantic.Parser.Machine.Input.shiftRightText 1 init_1) then let !(# c_52, cs_53 #) = readNext_3 init_1 in if ('a' GHC.Classes.==) c_52 then let _ = "resume" in join_24 init_1 GHC.Types . [] ( let _ = "resume.genCode" in 'a' ) cs_53 else let _ = "checkToken.else" in let (# farInp_54, farExp_55 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) init_1 init_1 of GHC.Types.LT -> (# init_1, [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'a'] #) GHC.Types.EQ -> (# init_1, GHC.Types . [] GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemToken 'a'] #) GHC.Types.GT -> (# init_1, GHC.Types . [] #) in readFail_51 init_1 farInp_54 farExp_55 else let _ = "checkHorizon.else" in let (# farInp_56, farExp_57 #) = case (GHC.Classes.compare `Data.Function.on` Symantic.Parser.Machine.Input.offset) init_1 init_1 of GHC.Types.LT -> (# init_1, [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 2] #) GHC.Types.EQ -> (# init_1, GHC.Types . [] GHC.Base.<> [Symantic.Parser.Grammar.Combinators.ErrorItemHorizon 2] #) GHC.Types.GT -> (# init_1, GHC.Types . [] #) in readFail_51 init_1 farInp_56 farExp_57