Created by PLY version 3.11 (http://www.dabeaz.com/ply) Grammar Rule 0 S' -> programa Rule 1 programa -> program id V F B end program Rule 2 V -> V Tipo Dim doubleColon Rid Rule 3 V -> Rule 4 Rid -> id Rule 5 Rid -> Rid coma id Rule 6 Tipo -> integer Rule 7 Tipo -> real Rule 8 Dim -> openBra int closedBra Rule 9 Dim -> openBra int closedBra openBra int closedBra Rule 10 Dim -> Rule 11 F -> F subroutine id B end subroutine Rule 12 F -> Rule 13 B -> B S Rule 14 B -> Rule 15 S -> Dimensional action_7 equals EA action_8 Rule 16 S -> id parens Rule 17 S -> read RDimensional Rule 18 S -> print RDimOrString Rule 19 S -> if Relif ElseOrEmpty end if Rule 20 S -> do id equals EA coma EA IntOrEmpty then B end do Rule 21 S -> do then B end do Rule 22 S -> swap Dimensional coma Dimensional Rule 23 S -> exit Rule 24 Dimensional -> id DimensionsOrEmpty Rule 25 DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen Rule 26 DimensionsOrEmpty -> Rule 27 ComaEAOrEmpty -> coma EA Rule 28 ComaEAOrEmpty -> Rule 29 RDimensional -> Dimensional Rule 30 RDimensional -> RDimensional coma Dimensional Rule 31 RDimOrString -> DimOrString Rule 32 RDimOrString -> RDimOrString coma DimOrString Rule 33 DimOrString -> Dimensional Rule 34 DimOrString -> string Rule 35 Relif -> openParen EL closedParen then B Rule 36 Relif -> Relif elif openParen EL closedParen then B Rule 37 ElseOrEmpty -> else B Rule 38 ElseOrEmpty -> Rule 39 IntOrEmpty -> coma int Rule 40 IntOrEmpty -> Rule 41 EA -> MultDiv Rule 42 EA -> EA SumOrSub action_3 MultDiv action_4 Rule 43 SumOrSub -> plus Rule 44 SumOrSub -> minus Rule 45 MultDiv -> EAParens Rule 46 MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 Rule 47 MDSymbols -> mul Rule 48 MDSymbols -> div Rule 49 EAParens -> EItem Rule 50 EAParens -> openParen EA closedParen Rule 51 EL -> AND Rule 52 EL -> EL or action_10 AND action_9 Rule 53 AND -> Equality Rule 54 AND -> AND and action_12 Equality action_11 Rule 55 Equality -> EItem EQSymbols action_13 EItem action_14 Rule 56 Equality -> openParen EL closedParen Rule 57 Equality -> not EL action_15 Rule 58 EItem -> Dimensional action_1 Rule 59 EItem -> int action_2 Rule 60 EItem -> rea action_2_rea Rule 61 EQSymbols -> less Rule 62 EQSymbols -> more Rule 63 EQSymbols -> doubleEquals Rule 64 EQSymbols -> notEquals Rule 65 EQSymbols -> lessEquals Rule 66 EQSymbols -> moreEquals Rule 67 action_1 -> Rule 68 action_2 -> Rule 69 action_2_rea -> Rule 70 action_3 -> Rule 71 action_4 -> Rule 72 action_5 -> Rule 73 action_6 -> Rule 74 action_7 -> Rule 75 action_8 -> Rule 76 action_9 -> Rule 77 action_10 -> Rule 78 action_11 -> Rule 79 action_12 -> Rule 80 action_13 -> Rule 81 action_14 -> Rule 82 action_15 -> Terminals, with rules where they appear and : 54 closedBra : 8 9 9 closedParen : 25 35 36 50 56 coma : 5 20 22 27 30 32 39 div : 48 do : 20 20 21 21 doubleColon : 2 doubleEquals : 63 elif : 36 else : 37 end : 1 11 19 20 21 equals : 15 20 error : exit : 23 id : 1 4 5 11 16 20 24 if : 19 19 int : 8 9 9 39 59 integer : 6 less : 61 lessEquals : 65 minus : 44 more : 62 moreEquals : 66 mul : 47 not : 57 notEquals : 64 openBra : 8 9 9 openParen : 25 35 36 50 56 or : 52 parens : 16 plus : 43 print : 18 program : 1 1 rea : 60 read : 17 real : 7 string : 34 subroutine : 11 11 swap : 22 then : 20 21 35 36 Nonterminals, with rules where they appear AND : 51 52 54 B : 1 11 13 20 21 35 36 37 ComaEAOrEmpty : 25 Dim : 2 DimOrString : 31 32 Dimensional : 15 22 22 29 30 33 58 DimensionsOrEmpty : 24 EA : 15 20 20 25 27 42 50 EAParens : 45 46 EItem : 49 55 55 EL : 35 36 52 56 57 EQSymbols : 55 ElseOrEmpty : 19 Equality : 53 54 F : 1 11 IntOrEmpty : 20 MDSymbols : 46 MultDiv : 41 42 46 RDimOrString : 18 32 RDimensional : 17 30 Relif : 19 36 Rid : 2 5 S : 13 SumOrSub : 42 Tipo : 2 V : 1 2 action_1 : 58 action_10 : 52 action_11 : 54 action_12 : 54 action_13 : 55 action_14 : 55 action_15 : 57 action_2 : 59 action_2_rea : 60 action_3 : 42 action_4 : 42 action_5 : 46 action_6 : 46 action_7 : 15 action_8 : 15 action_9 : 52 programa : 0 Parsing method: LALR state 0 (0) S' -> . programa (1) programa -> . program id V F B end program program shift and go to state 2 programa shift and go to state 1 state 1 (0) S' -> programa . state 2 (1) programa -> program . id V F B end program id shift and go to state 3 state 3 (1) programa -> program id . V F B end program (2) V -> . V Tipo Dim doubleColon Rid (3) V -> . integer reduce using rule 3 (V -> .) real reduce using rule 3 (V -> .) subroutine reduce using rule 3 (V -> .) end reduce using rule 3 (V -> .) id reduce using rule 3 (V -> .) read reduce using rule 3 (V -> .) print reduce using rule 3 (V -> .) if reduce using rule 3 (V -> .) do reduce using rule 3 (V -> .) swap reduce using rule 3 (V -> .) exit reduce using rule 3 (V -> .) V shift and go to state 4 state 4 (1) programa -> program id V . F B end program (2) V -> V . Tipo Dim doubleColon Rid (11) F -> . F subroutine id B end subroutine (12) F -> . (6) Tipo -> . integer (7) Tipo -> . real subroutine reduce using rule 12 (F -> .) end reduce using rule 12 (F -> .) id reduce using rule 12 (F -> .) read reduce using rule 12 (F -> .) print reduce using rule 12 (F -> .) if reduce using rule 12 (F -> .) do reduce using rule 12 (F -> .) swap reduce using rule 12 (F -> .) exit reduce using rule 12 (F -> .) integer shift and go to state 7 real shift and go to state 8 F shift and go to state 5 Tipo shift and go to state 6 state 5 (1) programa -> program id V F . B end program (11) F -> F . subroutine id B end subroutine (13) B -> . B S (14) B -> . subroutine shift and go to state 10 end reduce using rule 14 (B -> .) id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) B shift and go to state 9 state 6 (2) V -> V Tipo . Dim doubleColon Rid (8) Dim -> . openBra int closedBra (9) Dim -> . openBra int closedBra openBra int closedBra (10) Dim -> . openBra shift and go to state 12 doubleColon reduce using rule 10 (Dim -> .) Dim shift and go to state 11 state 7 (6) Tipo -> integer . openBra reduce using rule 6 (Tipo -> integer .) doubleColon reduce using rule 6 (Tipo -> integer .) state 8 (7) Tipo -> real . openBra reduce using rule 7 (Tipo -> real .) doubleColon reduce using rule 7 (Tipo -> real .) state 9 (1) programa -> program id V F B . end program (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty end shift and go to state 14 id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 10 (11) F -> F subroutine . id B end subroutine id shift and go to state 23 state 11 (2) V -> V Tipo Dim . doubleColon Rid doubleColon shift and go to state 24 state 12 (8) Dim -> openBra . int closedBra (9) Dim -> openBra . int closedBra openBra int closedBra int shift and go to state 25 state 13 (16) S -> id . parens (24) Dimensional -> id . DimensionsOrEmpty (25) DimensionsOrEmpty -> . openParen EA ComaEAOrEmpty closedParen (26) DimensionsOrEmpty -> . parens shift and go to state 26 openParen shift and go to state 28 equals reduce using rule 26 (DimensionsOrEmpty -> .) DimensionsOrEmpty shift and go to state 27 state 14 (1) programa -> program id V F B end . program program shift and go to state 29 state 15 (13) B -> B S . end reduce using rule 13 (B -> B S .) id reduce using rule 13 (B -> B S .) read reduce using rule 13 (B -> B S .) print reduce using rule 13 (B -> B S .) if reduce using rule 13 (B -> B S .) do reduce using rule 13 (B -> B S .) swap reduce using rule 13 (B -> B S .) exit reduce using rule 13 (B -> B S .) elif reduce using rule 13 (B -> B S .) else reduce using rule 13 (B -> B S .) state 16 (15) S -> Dimensional . action_7 equals EA action_8 (74) action_7 -> . equals reduce using rule 74 (action_7 -> .) action_7 shift and go to state 30 state 17 (17) S -> read . RDimensional (29) RDimensional -> . Dimensional (30) RDimensional -> . RDimensional coma Dimensional (24) Dimensional -> . id DimensionsOrEmpty id shift and go to state 33 RDimensional shift and go to state 31 Dimensional shift and go to state 32 state 18 (18) S -> print . RDimOrString (31) RDimOrString -> . DimOrString (32) RDimOrString -> . RDimOrString coma DimOrString (33) DimOrString -> . Dimensional (34) DimOrString -> . string (24) Dimensional -> . id DimensionsOrEmpty string shift and go to state 37 id shift and go to state 33 RDimOrString shift and go to state 34 DimOrString shift and go to state 35 Dimensional shift and go to state 36 state 19 (19) S -> if . Relif ElseOrEmpty end if (35) Relif -> . openParen EL closedParen then B (36) Relif -> . Relif elif openParen EL closedParen then B openParen shift and go to state 39 Relif shift and go to state 38 state 20 (20) S -> do . id equals EA coma EA IntOrEmpty then B end do (21) S -> do . then B end do id shift and go to state 40 then shift and go to state 41 state 21 (22) S -> swap . Dimensional coma Dimensional (24) Dimensional -> . id DimensionsOrEmpty id shift and go to state 33 Dimensional shift and go to state 42 state 22 (23) S -> exit . end reduce using rule 23 (S -> exit .) id reduce using rule 23 (S -> exit .) read reduce using rule 23 (S -> exit .) print reduce using rule 23 (S -> exit .) if reduce using rule 23 (S -> exit .) do reduce using rule 23 (S -> exit .) swap reduce using rule 23 (S -> exit .) exit reduce using rule 23 (S -> exit .) elif reduce using rule 23 (S -> exit .) else reduce using rule 23 (S -> exit .) state 23 (11) F -> F subroutine id . B end subroutine (13) B -> . B S (14) B -> . end reduce using rule 14 (B -> .) id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) B shift and go to state 43 state 24 (2) V -> V Tipo Dim doubleColon . Rid (4) Rid -> . id (5) Rid -> . Rid coma id id shift and go to state 45 Rid shift and go to state 44 state 25 (8) Dim -> openBra int . closedBra (9) Dim -> openBra int . closedBra openBra int closedBra closedBra shift and go to state 46 state 26 (16) S -> id parens . end reduce using rule 16 (S -> id parens .) id reduce using rule 16 (S -> id parens .) read reduce using rule 16 (S -> id parens .) print reduce using rule 16 (S -> id parens .) if reduce using rule 16 (S -> id parens .) do reduce using rule 16 (S -> id parens .) swap reduce using rule 16 (S -> id parens .) exit reduce using rule 16 (S -> id parens .) elif reduce using rule 16 (S -> id parens .) else reduce using rule 16 (S -> id parens .) state 27 (24) Dimensional -> id DimensionsOrEmpty . equals reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) coma reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) end reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) id reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) read reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) print reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) if reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) do reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) swap reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) exit reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) elif reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) else reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) mul reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) div reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) plus reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) minus reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) closedParen reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) less reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) more reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) doubleEquals reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) notEquals reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) lessEquals reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) moreEquals reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) then reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) and reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) or reduce using rule 24 (Dimensional -> id DimensionsOrEmpty .) state 28 (25) DimensionsOrEmpty -> openParen . EA ComaEAOrEmpty closedParen (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EA shift and go to state 48 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 29 (1) programa -> program id V F B end program . $end reduce using rule 1 (programa -> program id V F B end program .) state 30 (15) S -> Dimensional action_7 . equals EA action_8 equals shift and go to state 55 state 31 (17) S -> read RDimensional . (30) RDimensional -> RDimensional . coma Dimensional end reduce using rule 17 (S -> read RDimensional .) id reduce using rule 17 (S -> read RDimensional .) read reduce using rule 17 (S -> read RDimensional .) print reduce using rule 17 (S -> read RDimensional .) if reduce using rule 17 (S -> read RDimensional .) do reduce using rule 17 (S -> read RDimensional .) swap reduce using rule 17 (S -> read RDimensional .) exit reduce using rule 17 (S -> read RDimensional .) elif reduce using rule 17 (S -> read RDimensional .) else reduce using rule 17 (S -> read RDimensional .) coma shift and go to state 56 state 32 (29) RDimensional -> Dimensional . coma reduce using rule 29 (RDimensional -> Dimensional .) end reduce using rule 29 (RDimensional -> Dimensional .) id reduce using rule 29 (RDimensional -> Dimensional .) read reduce using rule 29 (RDimensional -> Dimensional .) print reduce using rule 29 (RDimensional -> Dimensional .) if reduce using rule 29 (RDimensional -> Dimensional .) do reduce using rule 29 (RDimensional -> Dimensional .) swap reduce using rule 29 (RDimensional -> Dimensional .) exit reduce using rule 29 (RDimensional -> Dimensional .) elif reduce using rule 29 (RDimensional -> Dimensional .) else reduce using rule 29 (RDimensional -> Dimensional .) state 33 (24) Dimensional -> id . DimensionsOrEmpty (25) DimensionsOrEmpty -> . openParen EA ComaEAOrEmpty closedParen (26) DimensionsOrEmpty -> . openParen shift and go to state 28 coma reduce using rule 26 (DimensionsOrEmpty -> .) end reduce using rule 26 (DimensionsOrEmpty -> .) id reduce using rule 26 (DimensionsOrEmpty -> .) read reduce using rule 26 (DimensionsOrEmpty -> .) print reduce using rule 26 (DimensionsOrEmpty -> .) if reduce using rule 26 (DimensionsOrEmpty -> .) do reduce using rule 26 (DimensionsOrEmpty -> .) swap reduce using rule 26 (DimensionsOrEmpty -> .) exit reduce using rule 26 (DimensionsOrEmpty -> .) elif reduce using rule 26 (DimensionsOrEmpty -> .) else reduce using rule 26 (DimensionsOrEmpty -> .) mul reduce using rule 26 (DimensionsOrEmpty -> .) div reduce using rule 26 (DimensionsOrEmpty -> .) plus reduce using rule 26 (DimensionsOrEmpty -> .) minus reduce using rule 26 (DimensionsOrEmpty -> .) closedParen reduce using rule 26 (DimensionsOrEmpty -> .) less reduce using rule 26 (DimensionsOrEmpty -> .) more reduce using rule 26 (DimensionsOrEmpty -> .) doubleEquals reduce using rule 26 (DimensionsOrEmpty -> .) notEquals reduce using rule 26 (DimensionsOrEmpty -> .) lessEquals reduce using rule 26 (DimensionsOrEmpty -> .) moreEquals reduce using rule 26 (DimensionsOrEmpty -> .) then reduce using rule 26 (DimensionsOrEmpty -> .) and reduce using rule 26 (DimensionsOrEmpty -> .) or reduce using rule 26 (DimensionsOrEmpty -> .) DimensionsOrEmpty shift and go to state 27 state 34 (18) S -> print RDimOrString . (32) RDimOrString -> RDimOrString . coma DimOrString end reduce using rule 18 (S -> print RDimOrString .) id reduce using rule 18 (S -> print RDimOrString .) read reduce using rule 18 (S -> print RDimOrString .) print reduce using rule 18 (S -> print RDimOrString .) if reduce using rule 18 (S -> print RDimOrString .) do reduce using rule 18 (S -> print RDimOrString .) swap reduce using rule 18 (S -> print RDimOrString .) exit reduce using rule 18 (S -> print RDimOrString .) elif reduce using rule 18 (S -> print RDimOrString .) else reduce using rule 18 (S -> print RDimOrString .) coma shift and go to state 57 state 35 (31) RDimOrString -> DimOrString . coma reduce using rule 31 (RDimOrString -> DimOrString .) end reduce using rule 31 (RDimOrString -> DimOrString .) id reduce using rule 31 (RDimOrString -> DimOrString .) read reduce using rule 31 (RDimOrString -> DimOrString .) print reduce using rule 31 (RDimOrString -> DimOrString .) if reduce using rule 31 (RDimOrString -> DimOrString .) do reduce using rule 31 (RDimOrString -> DimOrString .) swap reduce using rule 31 (RDimOrString -> DimOrString .) exit reduce using rule 31 (RDimOrString -> DimOrString .) elif reduce using rule 31 (RDimOrString -> DimOrString .) else reduce using rule 31 (RDimOrString -> DimOrString .) state 36 (33) DimOrString -> Dimensional . coma reduce using rule 33 (DimOrString -> Dimensional .) end reduce using rule 33 (DimOrString -> Dimensional .) id reduce using rule 33 (DimOrString -> Dimensional .) read reduce using rule 33 (DimOrString -> Dimensional .) print reduce using rule 33 (DimOrString -> Dimensional .) if reduce using rule 33 (DimOrString -> Dimensional .) do reduce using rule 33 (DimOrString -> Dimensional .) swap reduce using rule 33 (DimOrString -> Dimensional .) exit reduce using rule 33 (DimOrString -> Dimensional .) elif reduce using rule 33 (DimOrString -> Dimensional .) else reduce using rule 33 (DimOrString -> Dimensional .) state 37 (34) DimOrString -> string . coma reduce using rule 34 (DimOrString -> string .) end reduce using rule 34 (DimOrString -> string .) id reduce using rule 34 (DimOrString -> string .) read reduce using rule 34 (DimOrString -> string .) print reduce using rule 34 (DimOrString -> string .) if reduce using rule 34 (DimOrString -> string .) do reduce using rule 34 (DimOrString -> string .) swap reduce using rule 34 (DimOrString -> string .) exit reduce using rule 34 (DimOrString -> string .) elif reduce using rule 34 (DimOrString -> string .) else reduce using rule 34 (DimOrString -> string .) state 38 (19) S -> if Relif . ElseOrEmpty end if (36) Relif -> Relif . elif openParen EL closedParen then B (37) ElseOrEmpty -> . else B (38) ElseOrEmpty -> . elif shift and go to state 59 else shift and go to state 60 end reduce using rule 38 (ElseOrEmpty -> .) ElseOrEmpty shift and go to state 58 state 39 (35) Relif -> openParen . EL closedParen then B (51) EL -> . AND (52) EL -> . EL or action_10 AND action_9 (53) AND -> . Equality (54) AND -> . AND and action_12 Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EL shift and go to state 62 AND shift and go to state 63 Equality shift and go to state 64 EItem shift and go to state 65 Dimensional shift and go to state 52 state 40 (20) S -> do id . equals EA coma EA IntOrEmpty then B end do equals shift and go to state 67 state 41 (21) S -> do then . B end do (13) B -> . B S (14) B -> . end reduce using rule 14 (B -> .) id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) B shift and go to state 68 state 42 (22) S -> swap Dimensional . coma Dimensional coma shift and go to state 69 state 43 (11) F -> F subroutine id B . end subroutine (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty end shift and go to state 70 id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 44 (2) V -> V Tipo Dim doubleColon Rid . (5) Rid -> Rid . coma id integer reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) real reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) subroutine reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) end reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) id reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) read reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) print reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) if reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) do reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) swap reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) exit reduce using rule 2 (V -> V Tipo Dim doubleColon Rid .) coma shift and go to state 71 state 45 (4) Rid -> id . coma reduce using rule 4 (Rid -> id .) integer reduce using rule 4 (Rid -> id .) real reduce using rule 4 (Rid -> id .) subroutine reduce using rule 4 (Rid -> id .) end reduce using rule 4 (Rid -> id .) id reduce using rule 4 (Rid -> id .) read reduce using rule 4 (Rid -> id .) print reduce using rule 4 (Rid -> id .) if reduce using rule 4 (Rid -> id .) do reduce using rule 4 (Rid -> id .) swap reduce using rule 4 (Rid -> id .) exit reduce using rule 4 (Rid -> id .) state 46 (8) Dim -> openBra int closedBra . (9) Dim -> openBra int closedBra . openBra int closedBra doubleColon reduce using rule 8 (Dim -> openBra int closedBra .) openBra shift and go to state 72 state 47 (50) EAParens -> openParen . EA closedParen (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EA shift and go to state 73 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 48 (25) DimensionsOrEmpty -> openParen EA . ComaEAOrEmpty closedParen (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (27) ComaEAOrEmpty -> . coma EA (28) ComaEAOrEmpty -> . (43) SumOrSub -> . plus (44) SumOrSub -> . minus coma shift and go to state 76 closedParen reduce using rule 28 (ComaEAOrEmpty -> .) plus shift and go to state 77 minus shift and go to state 78 ComaEAOrEmpty shift and go to state 74 SumOrSub shift and go to state 75 state 49 (41) EA -> MultDiv . (46) MultDiv -> MultDiv . MDSymbols action_5 EAParens action_6 (47) MDSymbols -> . mul (48) MDSymbols -> . div coma reduce using rule 41 (EA -> MultDiv .) plus reduce using rule 41 (EA -> MultDiv .) minus reduce using rule 41 (EA -> MultDiv .) closedParen reduce using rule 41 (EA -> MultDiv .) end reduce using rule 41 (EA -> MultDiv .) id reduce using rule 41 (EA -> MultDiv .) read reduce using rule 41 (EA -> MultDiv .) print reduce using rule 41 (EA -> MultDiv .) if reduce using rule 41 (EA -> MultDiv .) do reduce using rule 41 (EA -> MultDiv .) swap reduce using rule 41 (EA -> MultDiv .) exit reduce using rule 41 (EA -> MultDiv .) elif reduce using rule 41 (EA -> MultDiv .) else reduce using rule 41 (EA -> MultDiv .) then reduce using rule 41 (EA -> MultDiv .) mul shift and go to state 80 div shift and go to state 81 MDSymbols shift and go to state 79 state 50 (45) MultDiv -> EAParens . mul reduce using rule 45 (MultDiv -> EAParens .) div reduce using rule 45 (MultDiv -> EAParens .) coma reduce using rule 45 (MultDiv -> EAParens .) plus reduce using rule 45 (MultDiv -> EAParens .) minus reduce using rule 45 (MultDiv -> EAParens .) closedParen reduce using rule 45 (MultDiv -> EAParens .) end reduce using rule 45 (MultDiv -> EAParens .) id reduce using rule 45 (MultDiv -> EAParens .) read reduce using rule 45 (MultDiv -> EAParens .) print reduce using rule 45 (MultDiv -> EAParens .) if reduce using rule 45 (MultDiv -> EAParens .) do reduce using rule 45 (MultDiv -> EAParens .) swap reduce using rule 45 (MultDiv -> EAParens .) exit reduce using rule 45 (MultDiv -> EAParens .) elif reduce using rule 45 (MultDiv -> EAParens .) else reduce using rule 45 (MultDiv -> EAParens .) then reduce using rule 45 (MultDiv -> EAParens .) state 51 (49) EAParens -> EItem . mul reduce using rule 49 (EAParens -> EItem .) div reduce using rule 49 (EAParens -> EItem .) coma reduce using rule 49 (EAParens -> EItem .) plus reduce using rule 49 (EAParens -> EItem .) minus reduce using rule 49 (EAParens -> EItem .) closedParen reduce using rule 49 (EAParens -> EItem .) end reduce using rule 49 (EAParens -> EItem .) id reduce using rule 49 (EAParens -> EItem .) read reduce using rule 49 (EAParens -> EItem .) print reduce using rule 49 (EAParens -> EItem .) if reduce using rule 49 (EAParens -> EItem .) do reduce using rule 49 (EAParens -> EItem .) swap reduce using rule 49 (EAParens -> EItem .) exit reduce using rule 49 (EAParens -> EItem .) elif reduce using rule 49 (EAParens -> EItem .) else reduce using rule 49 (EAParens -> EItem .) then reduce using rule 49 (EAParens -> EItem .) state 52 (58) EItem -> Dimensional . action_1 (67) action_1 -> . mul reduce using rule 67 (action_1 -> .) div reduce using rule 67 (action_1 -> .) coma reduce using rule 67 (action_1 -> .) plus reduce using rule 67 (action_1 -> .) minus reduce using rule 67 (action_1 -> .) closedParen reduce using rule 67 (action_1 -> .) less reduce using rule 67 (action_1 -> .) more reduce using rule 67 (action_1 -> .) doubleEquals reduce using rule 67 (action_1 -> .) notEquals reduce using rule 67 (action_1 -> .) lessEquals reduce using rule 67 (action_1 -> .) moreEquals reduce using rule 67 (action_1 -> .) end reduce using rule 67 (action_1 -> .) id reduce using rule 67 (action_1 -> .) read reduce using rule 67 (action_1 -> .) print reduce using rule 67 (action_1 -> .) if reduce using rule 67 (action_1 -> .) do reduce using rule 67 (action_1 -> .) swap reduce using rule 67 (action_1 -> .) exit reduce using rule 67 (action_1 -> .) elif reduce using rule 67 (action_1 -> .) else reduce using rule 67 (action_1 -> .) then reduce using rule 67 (action_1 -> .) and reduce using rule 67 (action_1 -> .) or reduce using rule 67 (action_1 -> .) action_1 shift and go to state 82 state 53 (59) EItem -> int . action_2 (68) action_2 -> . mul reduce using rule 68 (action_2 -> .) div reduce using rule 68 (action_2 -> .) coma reduce using rule 68 (action_2 -> .) plus reduce using rule 68 (action_2 -> .) minus reduce using rule 68 (action_2 -> .) closedParen reduce using rule 68 (action_2 -> .) less reduce using rule 68 (action_2 -> .) more reduce using rule 68 (action_2 -> .) doubleEquals reduce using rule 68 (action_2 -> .) notEquals reduce using rule 68 (action_2 -> .) lessEquals reduce using rule 68 (action_2 -> .) moreEquals reduce using rule 68 (action_2 -> .) end reduce using rule 68 (action_2 -> .) id reduce using rule 68 (action_2 -> .) read reduce using rule 68 (action_2 -> .) print reduce using rule 68 (action_2 -> .) if reduce using rule 68 (action_2 -> .) do reduce using rule 68 (action_2 -> .) swap reduce using rule 68 (action_2 -> .) exit reduce using rule 68 (action_2 -> .) elif reduce using rule 68 (action_2 -> .) else reduce using rule 68 (action_2 -> .) then reduce using rule 68 (action_2 -> .) and reduce using rule 68 (action_2 -> .) or reduce using rule 68 (action_2 -> .) action_2 shift and go to state 83 state 54 (60) EItem -> rea . action_2_rea (69) action_2_rea -> . mul reduce using rule 69 (action_2_rea -> .) div reduce using rule 69 (action_2_rea -> .) coma reduce using rule 69 (action_2_rea -> .) plus reduce using rule 69 (action_2_rea -> .) minus reduce using rule 69 (action_2_rea -> .) closedParen reduce using rule 69 (action_2_rea -> .) less reduce using rule 69 (action_2_rea -> .) more reduce using rule 69 (action_2_rea -> .) doubleEquals reduce using rule 69 (action_2_rea -> .) notEquals reduce using rule 69 (action_2_rea -> .) lessEquals reduce using rule 69 (action_2_rea -> .) moreEquals reduce using rule 69 (action_2_rea -> .) end reduce using rule 69 (action_2_rea -> .) id reduce using rule 69 (action_2_rea -> .) read reduce using rule 69 (action_2_rea -> .) print reduce using rule 69 (action_2_rea -> .) if reduce using rule 69 (action_2_rea -> .) do reduce using rule 69 (action_2_rea -> .) swap reduce using rule 69 (action_2_rea -> .) exit reduce using rule 69 (action_2_rea -> .) elif reduce using rule 69 (action_2_rea -> .) else reduce using rule 69 (action_2_rea -> .) then reduce using rule 69 (action_2_rea -> .) and reduce using rule 69 (action_2_rea -> .) or reduce using rule 69 (action_2_rea -> .) action_2_rea shift and go to state 84 state 55 (15) S -> Dimensional action_7 equals . EA action_8 (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 Dimensional shift and go to state 52 EA shift and go to state 85 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 state 56 (30) RDimensional -> RDimensional coma . Dimensional (24) Dimensional -> . id DimensionsOrEmpty id shift and go to state 33 Dimensional shift and go to state 86 state 57 (32) RDimOrString -> RDimOrString coma . DimOrString (33) DimOrString -> . Dimensional (34) DimOrString -> . string (24) Dimensional -> . id DimensionsOrEmpty string shift and go to state 37 id shift and go to state 33 DimOrString shift and go to state 87 Dimensional shift and go to state 36 state 58 (19) S -> if Relif ElseOrEmpty . end if end shift and go to state 88 state 59 (36) Relif -> Relif elif . openParen EL closedParen then B openParen shift and go to state 89 state 60 (37) ElseOrEmpty -> else . B (13) B -> . B S (14) B -> . id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) end reduce using rule 14 (B -> .) B shift and go to state 90 state 61 (56) Equality -> openParen . EL closedParen (51) EL -> . AND (52) EL -> . EL or action_10 AND action_9 (53) AND -> . Equality (54) AND -> . AND and action_12 Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EL shift and go to state 91 AND shift and go to state 63 Equality shift and go to state 64 EItem shift and go to state 65 Dimensional shift and go to state 52 state 62 (35) Relif -> openParen EL . closedParen then B (52) EL -> EL . or action_10 AND action_9 closedParen shift and go to state 92 or shift and go to state 93 state 63 (51) EL -> AND . (54) AND -> AND . and action_12 Equality action_11 ! shift/reduce conflict for and resolved as shift closedParen reduce using rule 51 (EL -> AND .) or reduce using rule 51 (EL -> AND .) and shift and go to state 94 ! and [ reduce using rule 51 (EL -> AND .) ] state 64 (53) AND -> Equality . and reduce using rule 53 (AND -> Equality .) closedParen reduce using rule 53 (AND -> Equality .) or reduce using rule 53 (AND -> Equality .) state 65 (55) Equality -> EItem . EQSymbols action_13 EItem action_14 (61) EQSymbols -> . less (62) EQSymbols -> . more (63) EQSymbols -> . doubleEquals (64) EQSymbols -> . notEquals (65) EQSymbols -> . lessEquals (66) EQSymbols -> . moreEquals less shift and go to state 96 more shift and go to state 97 doubleEquals shift and go to state 98 notEquals shift and go to state 99 lessEquals shift and go to state 100 moreEquals shift and go to state 101 EQSymbols shift and go to state 95 state 66 (57) Equality -> not . EL action_15 (51) EL -> . AND (52) EL -> . EL or action_10 AND action_9 (53) AND -> . Equality (54) AND -> . AND and action_12 Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EL shift and go to state 102 AND shift and go to state 63 Equality shift and go to state 64 EItem shift and go to state 65 Dimensional shift and go to state 52 state 67 (20) S -> do id equals . EA coma EA IntOrEmpty then B end do (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EA shift and go to state 103 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 68 (21) S -> do then B . end do (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty end shift and go to state 104 id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 69 (22) S -> swap Dimensional coma . Dimensional (24) Dimensional -> . id DimensionsOrEmpty id shift and go to state 33 Dimensional shift and go to state 105 state 70 (11) F -> F subroutine id B end . subroutine subroutine shift and go to state 106 state 71 (5) Rid -> Rid coma . id id shift and go to state 107 state 72 (9) Dim -> openBra int closedBra openBra . int closedBra int shift and go to state 108 state 73 (50) EAParens -> openParen EA . closedParen (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (43) SumOrSub -> . plus (44) SumOrSub -> . minus closedParen shift and go to state 109 plus shift and go to state 77 minus shift and go to state 78 SumOrSub shift and go to state 75 state 74 (25) DimensionsOrEmpty -> openParen EA ComaEAOrEmpty . closedParen closedParen shift and go to state 110 state 75 (42) EA -> EA SumOrSub . action_3 MultDiv action_4 (70) action_3 -> . openParen reduce using rule 70 (action_3 -> .) int reduce using rule 70 (action_3 -> .) rea reduce using rule 70 (action_3 -> .) id reduce using rule 70 (action_3 -> .) action_3 shift and go to state 111 state 76 (27) ComaEAOrEmpty -> coma . EA (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EA shift and go to state 112 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 77 (43) SumOrSub -> plus . openParen reduce using rule 43 (SumOrSub -> plus .) int reduce using rule 43 (SumOrSub -> plus .) rea reduce using rule 43 (SumOrSub -> plus .) id reduce using rule 43 (SumOrSub -> plus .) state 78 (44) SumOrSub -> minus . openParen reduce using rule 44 (SumOrSub -> minus .) int reduce using rule 44 (SumOrSub -> minus .) rea reduce using rule 44 (SumOrSub -> minus .) id reduce using rule 44 (SumOrSub -> minus .) state 79 (46) MultDiv -> MultDiv MDSymbols . action_5 EAParens action_6 (72) action_5 -> . openParen reduce using rule 72 (action_5 -> .) int reduce using rule 72 (action_5 -> .) rea reduce using rule 72 (action_5 -> .) id reduce using rule 72 (action_5 -> .) action_5 shift and go to state 113 state 80 (47) MDSymbols -> mul . openParen reduce using rule 47 (MDSymbols -> mul .) int reduce using rule 47 (MDSymbols -> mul .) rea reduce using rule 47 (MDSymbols -> mul .) id reduce using rule 47 (MDSymbols -> mul .) state 81 (48) MDSymbols -> div . openParen reduce using rule 48 (MDSymbols -> div .) int reduce using rule 48 (MDSymbols -> div .) rea reduce using rule 48 (MDSymbols -> div .) id reduce using rule 48 (MDSymbols -> div .) state 82 (58) EItem -> Dimensional action_1 . mul reduce using rule 58 (EItem -> Dimensional action_1 .) div reduce using rule 58 (EItem -> Dimensional action_1 .) coma reduce using rule 58 (EItem -> Dimensional action_1 .) plus reduce using rule 58 (EItem -> Dimensional action_1 .) minus reduce using rule 58 (EItem -> Dimensional action_1 .) closedParen reduce using rule 58 (EItem -> Dimensional action_1 .) less reduce using rule 58 (EItem -> Dimensional action_1 .) more reduce using rule 58 (EItem -> Dimensional action_1 .) doubleEquals reduce using rule 58 (EItem -> Dimensional action_1 .) notEquals reduce using rule 58 (EItem -> Dimensional action_1 .) lessEquals reduce using rule 58 (EItem -> Dimensional action_1 .) moreEquals reduce using rule 58 (EItem -> Dimensional action_1 .) end reduce using rule 58 (EItem -> Dimensional action_1 .) id reduce using rule 58 (EItem -> Dimensional action_1 .) read reduce using rule 58 (EItem -> Dimensional action_1 .) print reduce using rule 58 (EItem -> Dimensional action_1 .) if reduce using rule 58 (EItem -> Dimensional action_1 .) do reduce using rule 58 (EItem -> Dimensional action_1 .) swap reduce using rule 58 (EItem -> Dimensional action_1 .) exit reduce using rule 58 (EItem -> Dimensional action_1 .) elif reduce using rule 58 (EItem -> Dimensional action_1 .) else reduce using rule 58 (EItem -> Dimensional action_1 .) then reduce using rule 58 (EItem -> Dimensional action_1 .) and reduce using rule 58 (EItem -> Dimensional action_1 .) or reduce using rule 58 (EItem -> Dimensional action_1 .) state 83 (59) EItem -> int action_2 . mul reduce using rule 59 (EItem -> int action_2 .) div reduce using rule 59 (EItem -> int action_2 .) coma reduce using rule 59 (EItem -> int action_2 .) plus reduce using rule 59 (EItem -> int action_2 .) minus reduce using rule 59 (EItem -> int action_2 .) closedParen reduce using rule 59 (EItem -> int action_2 .) less reduce using rule 59 (EItem -> int action_2 .) more reduce using rule 59 (EItem -> int action_2 .) doubleEquals reduce using rule 59 (EItem -> int action_2 .) notEquals reduce using rule 59 (EItem -> int action_2 .) lessEquals reduce using rule 59 (EItem -> int action_2 .) moreEquals reduce using rule 59 (EItem -> int action_2 .) end reduce using rule 59 (EItem -> int action_2 .) id reduce using rule 59 (EItem -> int action_2 .) read reduce using rule 59 (EItem -> int action_2 .) print reduce using rule 59 (EItem -> int action_2 .) if reduce using rule 59 (EItem -> int action_2 .) do reduce using rule 59 (EItem -> int action_2 .) swap reduce using rule 59 (EItem -> int action_2 .) exit reduce using rule 59 (EItem -> int action_2 .) elif reduce using rule 59 (EItem -> int action_2 .) else reduce using rule 59 (EItem -> int action_2 .) then reduce using rule 59 (EItem -> int action_2 .) and reduce using rule 59 (EItem -> int action_2 .) or reduce using rule 59 (EItem -> int action_2 .) state 84 (60) EItem -> rea action_2_rea . mul reduce using rule 60 (EItem -> rea action_2_rea .) div reduce using rule 60 (EItem -> rea action_2_rea .) coma reduce using rule 60 (EItem -> rea action_2_rea .) plus reduce using rule 60 (EItem -> rea action_2_rea .) minus reduce using rule 60 (EItem -> rea action_2_rea .) closedParen reduce using rule 60 (EItem -> rea action_2_rea .) less reduce using rule 60 (EItem -> rea action_2_rea .) more reduce using rule 60 (EItem -> rea action_2_rea .) doubleEquals reduce using rule 60 (EItem -> rea action_2_rea .) notEquals reduce using rule 60 (EItem -> rea action_2_rea .) lessEquals reduce using rule 60 (EItem -> rea action_2_rea .) moreEquals reduce using rule 60 (EItem -> rea action_2_rea .) end reduce using rule 60 (EItem -> rea action_2_rea .) id reduce using rule 60 (EItem -> rea action_2_rea .) read reduce using rule 60 (EItem -> rea action_2_rea .) print reduce using rule 60 (EItem -> rea action_2_rea .) if reduce using rule 60 (EItem -> rea action_2_rea .) do reduce using rule 60 (EItem -> rea action_2_rea .) swap reduce using rule 60 (EItem -> rea action_2_rea .) exit reduce using rule 60 (EItem -> rea action_2_rea .) elif reduce using rule 60 (EItem -> rea action_2_rea .) else reduce using rule 60 (EItem -> rea action_2_rea .) then reduce using rule 60 (EItem -> rea action_2_rea .) and reduce using rule 60 (EItem -> rea action_2_rea .) or reduce using rule 60 (EItem -> rea action_2_rea .) state 85 (15) S -> Dimensional action_7 equals EA . action_8 (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (75) action_8 -> . (43) SumOrSub -> . plus (44) SumOrSub -> . minus end reduce using rule 75 (action_8 -> .) id reduce using rule 75 (action_8 -> .) read reduce using rule 75 (action_8 -> .) print reduce using rule 75 (action_8 -> .) if reduce using rule 75 (action_8 -> .) do reduce using rule 75 (action_8 -> .) swap reduce using rule 75 (action_8 -> .) exit reduce using rule 75 (action_8 -> .) elif reduce using rule 75 (action_8 -> .) else reduce using rule 75 (action_8 -> .) plus shift and go to state 77 minus shift and go to state 78 action_8 shift and go to state 114 SumOrSub shift and go to state 75 state 86 (30) RDimensional -> RDimensional coma Dimensional . coma reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) end reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) id reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) read reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) print reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) if reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) do reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) swap reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) exit reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) elif reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) else reduce using rule 30 (RDimensional -> RDimensional coma Dimensional .) state 87 (32) RDimOrString -> RDimOrString coma DimOrString . coma reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) end reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) id reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) read reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) print reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) if reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) do reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) swap reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) exit reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) elif reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) else reduce using rule 32 (RDimOrString -> RDimOrString coma DimOrString .) state 88 (19) S -> if Relif ElseOrEmpty end . if if shift and go to state 115 state 89 (36) Relif -> Relif elif openParen . EL closedParen then B (51) EL -> . AND (52) EL -> . EL or action_10 AND action_9 (53) AND -> . Equality (54) AND -> . AND and action_12 Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EL shift and go to state 116 AND shift and go to state 63 Equality shift and go to state 64 EItem shift and go to state 65 Dimensional shift and go to state 52 state 90 (37) ElseOrEmpty -> else B . (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty end reduce using rule 37 (ElseOrEmpty -> else B .) id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 91 (56) Equality -> openParen EL . closedParen (52) EL -> EL . or action_10 AND action_9 closedParen shift and go to state 117 or shift and go to state 93 state 92 (35) Relif -> openParen EL closedParen . then B then shift and go to state 118 state 93 (52) EL -> EL or . action_10 AND action_9 (77) action_10 -> . openParen reduce using rule 77 (action_10 -> .) not reduce using rule 77 (action_10 -> .) int reduce using rule 77 (action_10 -> .) rea reduce using rule 77 (action_10 -> .) id reduce using rule 77 (action_10 -> .) action_10 shift and go to state 119 state 94 (54) AND -> AND and . action_12 Equality action_11 (79) action_12 -> . openParen reduce using rule 79 (action_12 -> .) not reduce using rule 79 (action_12 -> .) int reduce using rule 79 (action_12 -> .) rea reduce using rule 79 (action_12 -> .) id reduce using rule 79 (action_12 -> .) action_12 shift and go to state 120 state 95 (55) Equality -> EItem EQSymbols . action_13 EItem action_14 (80) action_13 -> . int reduce using rule 80 (action_13 -> .) rea reduce using rule 80 (action_13 -> .) id reduce using rule 80 (action_13 -> .) action_13 shift and go to state 121 state 96 (61) EQSymbols -> less . int reduce using rule 61 (EQSymbols -> less .) rea reduce using rule 61 (EQSymbols -> less .) id reduce using rule 61 (EQSymbols -> less .) state 97 (62) EQSymbols -> more . int reduce using rule 62 (EQSymbols -> more .) rea reduce using rule 62 (EQSymbols -> more .) id reduce using rule 62 (EQSymbols -> more .) state 98 (63) EQSymbols -> doubleEquals . int reduce using rule 63 (EQSymbols -> doubleEquals .) rea reduce using rule 63 (EQSymbols -> doubleEquals .) id reduce using rule 63 (EQSymbols -> doubleEquals .) state 99 (64) EQSymbols -> notEquals . int reduce using rule 64 (EQSymbols -> notEquals .) rea reduce using rule 64 (EQSymbols -> notEquals .) id reduce using rule 64 (EQSymbols -> notEquals .) state 100 (65) EQSymbols -> lessEquals . int reduce using rule 65 (EQSymbols -> lessEquals .) rea reduce using rule 65 (EQSymbols -> lessEquals .) id reduce using rule 65 (EQSymbols -> lessEquals .) state 101 (66) EQSymbols -> moreEquals . int reduce using rule 66 (EQSymbols -> moreEquals .) rea reduce using rule 66 (EQSymbols -> moreEquals .) id reduce using rule 66 (EQSymbols -> moreEquals .) state 102 (57) Equality -> not EL . action_15 (52) EL -> EL . or action_10 AND action_9 (82) action_15 -> . ! shift/reduce conflict for or resolved as shift or shift and go to state 93 and reduce using rule 82 (action_15 -> .) closedParen reduce using rule 82 (action_15 -> .) ! or [ reduce using rule 82 (action_15 -> .) ] action_15 shift and go to state 122 state 103 (20) S -> do id equals EA . coma EA IntOrEmpty then B end do (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (43) SumOrSub -> . plus (44) SumOrSub -> . minus coma shift and go to state 123 plus shift and go to state 77 minus shift and go to state 78 SumOrSub shift and go to state 75 state 104 (21) S -> do then B end . do do shift and go to state 124 state 105 (22) S -> swap Dimensional coma Dimensional . end reduce using rule 22 (S -> swap Dimensional coma Dimensional .) id reduce using rule 22 (S -> swap Dimensional coma Dimensional .) read reduce using rule 22 (S -> swap Dimensional coma Dimensional .) print reduce using rule 22 (S -> swap Dimensional coma Dimensional .) if reduce using rule 22 (S -> swap Dimensional coma Dimensional .) do reduce using rule 22 (S -> swap Dimensional coma Dimensional .) swap reduce using rule 22 (S -> swap Dimensional coma Dimensional .) exit reduce using rule 22 (S -> swap Dimensional coma Dimensional .) elif reduce using rule 22 (S -> swap Dimensional coma Dimensional .) else reduce using rule 22 (S -> swap Dimensional coma Dimensional .) state 106 (11) F -> F subroutine id B end subroutine . subroutine reduce using rule 11 (F -> F subroutine id B end subroutine .) end reduce using rule 11 (F -> F subroutine id B end subroutine .) id reduce using rule 11 (F -> F subroutine id B end subroutine .) read reduce using rule 11 (F -> F subroutine id B end subroutine .) print reduce using rule 11 (F -> F subroutine id B end subroutine .) if reduce using rule 11 (F -> F subroutine id B end subroutine .) do reduce using rule 11 (F -> F subroutine id B end subroutine .) swap reduce using rule 11 (F -> F subroutine id B end subroutine .) exit reduce using rule 11 (F -> F subroutine id B end subroutine .) state 107 (5) Rid -> Rid coma id . coma reduce using rule 5 (Rid -> Rid coma id .) integer reduce using rule 5 (Rid -> Rid coma id .) real reduce using rule 5 (Rid -> Rid coma id .) subroutine reduce using rule 5 (Rid -> Rid coma id .) end reduce using rule 5 (Rid -> Rid coma id .) id reduce using rule 5 (Rid -> Rid coma id .) read reduce using rule 5 (Rid -> Rid coma id .) print reduce using rule 5 (Rid -> Rid coma id .) if reduce using rule 5 (Rid -> Rid coma id .) do reduce using rule 5 (Rid -> Rid coma id .) swap reduce using rule 5 (Rid -> Rid coma id .) exit reduce using rule 5 (Rid -> Rid coma id .) state 108 (9) Dim -> openBra int closedBra openBra int . closedBra closedBra shift and go to state 125 state 109 (50) EAParens -> openParen EA closedParen . mul reduce using rule 50 (EAParens -> openParen EA closedParen .) div reduce using rule 50 (EAParens -> openParen EA closedParen .) coma reduce using rule 50 (EAParens -> openParen EA closedParen .) plus reduce using rule 50 (EAParens -> openParen EA closedParen .) minus reduce using rule 50 (EAParens -> openParen EA closedParen .) closedParen reduce using rule 50 (EAParens -> openParen EA closedParen .) end reduce using rule 50 (EAParens -> openParen EA closedParen .) id reduce using rule 50 (EAParens -> openParen EA closedParen .) read reduce using rule 50 (EAParens -> openParen EA closedParen .) print reduce using rule 50 (EAParens -> openParen EA closedParen .) if reduce using rule 50 (EAParens -> openParen EA closedParen .) do reduce using rule 50 (EAParens -> openParen EA closedParen .) swap reduce using rule 50 (EAParens -> openParen EA closedParen .) exit reduce using rule 50 (EAParens -> openParen EA closedParen .) elif reduce using rule 50 (EAParens -> openParen EA closedParen .) else reduce using rule 50 (EAParens -> openParen EA closedParen .) then reduce using rule 50 (EAParens -> openParen EA closedParen .) state 110 (25) DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen . equals reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) coma reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) end reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) id reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) read reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) print reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) if reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) do reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) swap reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) exit reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) elif reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) else reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) mul reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) div reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) plus reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) minus reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) closedParen reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) less reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) more reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) doubleEquals reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) notEquals reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) lessEquals reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) moreEquals reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) then reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) and reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) or reduce using rule 25 (DimensionsOrEmpty -> openParen EA ComaEAOrEmpty closedParen .) state 111 (42) EA -> EA SumOrSub action_3 . MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 MultDiv shift and go to state 126 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 112 (27) ComaEAOrEmpty -> coma EA . (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (43) SumOrSub -> . plus (44) SumOrSub -> . minus closedParen reduce using rule 27 (ComaEAOrEmpty -> coma EA .) plus shift and go to state 77 minus shift and go to state 78 SumOrSub shift and go to state 75 state 113 (46) MultDiv -> MultDiv MDSymbols action_5 . EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EAParens shift and go to state 127 EItem shift and go to state 51 Dimensional shift and go to state 52 state 114 (15) S -> Dimensional action_7 equals EA action_8 . end reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) id reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) read reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) print reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) if reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) do reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) swap reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) exit reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) elif reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) else reduce using rule 15 (S -> Dimensional action_7 equals EA action_8 .) state 115 (19) S -> if Relif ElseOrEmpty end if . end reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) id reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) read reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) print reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) if reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) do reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) swap reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) exit reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) elif reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) else reduce using rule 19 (S -> if Relif ElseOrEmpty end if .) state 116 (36) Relif -> Relif elif openParen EL . closedParen then B (52) EL -> EL . or action_10 AND action_9 closedParen shift and go to state 128 or shift and go to state 93 state 117 (56) Equality -> openParen EL closedParen . and reduce using rule 56 (Equality -> openParen EL closedParen .) closedParen reduce using rule 56 (Equality -> openParen EL closedParen .) or reduce using rule 56 (Equality -> openParen EL closedParen .) state 118 (35) Relif -> openParen EL closedParen then . B (13) B -> . B S (14) B -> . id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) elif reduce using rule 14 (B -> .) else reduce using rule 14 (B -> .) end reduce using rule 14 (B -> .) B shift and go to state 129 state 119 (52) EL -> EL or action_10 . AND action_9 (53) AND -> . Equality (54) AND -> . AND and action_12 Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 AND shift and go to state 130 Equality shift and go to state 64 EItem shift and go to state 65 Dimensional shift and go to state 52 state 120 (54) AND -> AND and action_12 . Equality action_11 (55) Equality -> . EItem EQSymbols action_13 EItem action_14 (56) Equality -> . openParen EL closedParen (57) Equality -> . not EL action_15 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 61 not shift and go to state 66 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 Equality shift and go to state 131 EItem shift and go to state 65 Dimensional shift and go to state 52 state 121 (55) Equality -> EItem EQSymbols action_13 . EItem action_14 (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EItem shift and go to state 132 Dimensional shift and go to state 52 state 122 (57) Equality -> not EL action_15 . and reduce using rule 57 (Equality -> not EL action_15 .) closedParen reduce using rule 57 (Equality -> not EL action_15 .) or reduce using rule 57 (Equality -> not EL action_15 .) state 123 (20) S -> do id equals EA coma . EA IntOrEmpty then B end do (41) EA -> . MultDiv (42) EA -> . EA SumOrSub action_3 MultDiv action_4 (45) MultDiv -> . EAParens (46) MultDiv -> . MultDiv MDSymbols action_5 EAParens action_6 (49) EAParens -> . EItem (50) EAParens -> . openParen EA closedParen (58) EItem -> . Dimensional action_1 (59) EItem -> . int action_2 (60) EItem -> . rea action_2_rea (24) Dimensional -> . id DimensionsOrEmpty openParen shift and go to state 47 int shift and go to state 53 rea shift and go to state 54 id shift and go to state 33 EA shift and go to state 133 MultDiv shift and go to state 49 EAParens shift and go to state 50 EItem shift and go to state 51 Dimensional shift and go to state 52 state 124 (21) S -> do then B end do . end reduce using rule 21 (S -> do then B end do .) id reduce using rule 21 (S -> do then B end do .) read reduce using rule 21 (S -> do then B end do .) print reduce using rule 21 (S -> do then B end do .) if reduce using rule 21 (S -> do then B end do .) do reduce using rule 21 (S -> do then B end do .) swap reduce using rule 21 (S -> do then B end do .) exit reduce using rule 21 (S -> do then B end do .) elif reduce using rule 21 (S -> do then B end do .) else reduce using rule 21 (S -> do then B end do .) state 125 (9) Dim -> openBra int closedBra openBra int closedBra . doubleColon reduce using rule 9 (Dim -> openBra int closedBra openBra int closedBra .) state 126 (42) EA -> EA SumOrSub action_3 MultDiv . action_4 (46) MultDiv -> MultDiv . MDSymbols action_5 EAParens action_6 (71) action_4 -> . (47) MDSymbols -> . mul (48) MDSymbols -> . div coma reduce using rule 71 (action_4 -> .) plus reduce using rule 71 (action_4 -> .) minus reduce using rule 71 (action_4 -> .) closedParen reduce using rule 71 (action_4 -> .) end reduce using rule 71 (action_4 -> .) id reduce using rule 71 (action_4 -> .) read reduce using rule 71 (action_4 -> .) print reduce using rule 71 (action_4 -> .) if reduce using rule 71 (action_4 -> .) do reduce using rule 71 (action_4 -> .) swap reduce using rule 71 (action_4 -> .) exit reduce using rule 71 (action_4 -> .) elif reduce using rule 71 (action_4 -> .) else reduce using rule 71 (action_4 -> .) then reduce using rule 71 (action_4 -> .) mul shift and go to state 80 div shift and go to state 81 action_4 shift and go to state 134 MDSymbols shift and go to state 79 state 127 (46) MultDiv -> MultDiv MDSymbols action_5 EAParens . action_6 (73) action_6 -> . mul reduce using rule 73 (action_6 -> .) div reduce using rule 73 (action_6 -> .) coma reduce using rule 73 (action_6 -> .) plus reduce using rule 73 (action_6 -> .) minus reduce using rule 73 (action_6 -> .) closedParen reduce using rule 73 (action_6 -> .) end reduce using rule 73 (action_6 -> .) id reduce using rule 73 (action_6 -> .) read reduce using rule 73 (action_6 -> .) print reduce using rule 73 (action_6 -> .) if reduce using rule 73 (action_6 -> .) do reduce using rule 73 (action_6 -> .) swap reduce using rule 73 (action_6 -> .) exit reduce using rule 73 (action_6 -> .) elif reduce using rule 73 (action_6 -> .) else reduce using rule 73 (action_6 -> .) then reduce using rule 73 (action_6 -> .) action_6 shift and go to state 135 state 128 (36) Relif -> Relif elif openParen EL closedParen . then B then shift and go to state 136 state 129 (35) Relif -> openParen EL closedParen then B . (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty elif reduce using rule 35 (Relif -> openParen EL closedParen then B .) else reduce using rule 35 (Relif -> openParen EL closedParen then B .) end reduce using rule 35 (Relif -> openParen EL closedParen then B .) id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 130 (52) EL -> EL or action_10 AND . action_9 (54) AND -> AND . and action_12 Equality action_11 (76) action_9 -> . ! shift/reduce conflict for and resolved as shift and shift and go to state 94 closedParen reduce using rule 76 (action_9 -> .) or reduce using rule 76 (action_9 -> .) ! and [ reduce using rule 76 (action_9 -> .) ] action_9 shift and go to state 137 state 131 (54) AND -> AND and action_12 Equality . action_11 (78) action_11 -> . and reduce using rule 78 (action_11 -> .) closedParen reduce using rule 78 (action_11 -> .) or reduce using rule 78 (action_11 -> .) action_11 shift and go to state 138 state 132 (55) Equality -> EItem EQSymbols action_13 EItem . action_14 (81) action_14 -> . and reduce using rule 81 (action_14 -> .) closedParen reduce using rule 81 (action_14 -> .) or reduce using rule 81 (action_14 -> .) action_14 shift and go to state 139 state 133 (20) S -> do id equals EA coma EA . IntOrEmpty then B end do (42) EA -> EA . SumOrSub action_3 MultDiv action_4 (39) IntOrEmpty -> . coma int (40) IntOrEmpty -> . (43) SumOrSub -> . plus (44) SumOrSub -> . minus coma shift and go to state 140 then reduce using rule 40 (IntOrEmpty -> .) plus shift and go to state 77 minus shift and go to state 78 IntOrEmpty shift and go to state 141 SumOrSub shift and go to state 75 state 134 (42) EA -> EA SumOrSub action_3 MultDiv action_4 . coma reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) plus reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) minus reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) closedParen reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) end reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) id reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) read reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) print reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) if reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) do reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) swap reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) exit reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) elif reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) else reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) then reduce using rule 42 (EA -> EA SumOrSub action_3 MultDiv action_4 .) state 135 (46) MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 . mul reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) div reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) coma reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) plus reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) minus reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) closedParen reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) end reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) id reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) read reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) print reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) if reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) do reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) swap reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) exit reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) elif reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) else reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) then reduce using rule 46 (MultDiv -> MultDiv MDSymbols action_5 EAParens action_6 .) state 136 (36) Relif -> Relif elif openParen EL closedParen then . B (13) B -> . B S (14) B -> . id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) elif reduce using rule 14 (B -> .) else reduce using rule 14 (B -> .) end reduce using rule 14 (B -> .) B shift and go to state 142 state 137 (52) EL -> EL or action_10 AND action_9 . closedParen reduce using rule 52 (EL -> EL or action_10 AND action_9 .) or reduce using rule 52 (EL -> EL or action_10 AND action_9 .) and reduce using rule 52 (EL -> EL or action_10 AND action_9 .) state 138 (54) AND -> AND and action_12 Equality action_11 . and reduce using rule 54 (AND -> AND and action_12 Equality action_11 .) closedParen reduce using rule 54 (AND -> AND and action_12 Equality action_11 .) or reduce using rule 54 (AND -> AND and action_12 Equality action_11 .) state 139 (55) Equality -> EItem EQSymbols action_13 EItem action_14 . and reduce using rule 55 (Equality -> EItem EQSymbols action_13 EItem action_14 .) closedParen reduce using rule 55 (Equality -> EItem EQSymbols action_13 EItem action_14 .) or reduce using rule 55 (Equality -> EItem EQSymbols action_13 EItem action_14 .) state 140 (39) IntOrEmpty -> coma . int int shift and go to state 143 state 141 (20) S -> do id equals EA coma EA IntOrEmpty . then B end do then shift and go to state 144 state 142 (36) Relif -> Relif elif openParen EL closedParen then B . (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty elif reduce using rule 36 (Relif -> Relif elif openParen EL closedParen then B .) else reduce using rule 36 (Relif -> Relif elif openParen EL closedParen then B .) end reduce using rule 36 (Relif -> Relif elif openParen EL closedParen then B .) id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 143 (39) IntOrEmpty -> coma int . then reduce using rule 39 (IntOrEmpty -> coma int .) state 144 (20) S -> do id equals EA coma EA IntOrEmpty then . B end do (13) B -> . B S (14) B -> . end reduce using rule 14 (B -> .) id reduce using rule 14 (B -> .) read reduce using rule 14 (B -> .) print reduce using rule 14 (B -> .) if reduce using rule 14 (B -> .) do reduce using rule 14 (B -> .) swap reduce using rule 14 (B -> .) exit reduce using rule 14 (B -> .) B shift and go to state 145 state 145 (20) S -> do id equals EA coma EA IntOrEmpty then B . end do (13) B -> B . S (15) S -> . Dimensional action_7 equals EA action_8 (16) S -> . id parens (17) S -> . read RDimensional (18) S -> . print RDimOrString (19) S -> . if Relif ElseOrEmpty end if (20) S -> . do id equals EA coma EA IntOrEmpty then B end do (21) S -> . do then B end do (22) S -> . swap Dimensional coma Dimensional (23) S -> . exit (24) Dimensional -> . id DimensionsOrEmpty end shift and go to state 146 id shift and go to state 13 read shift and go to state 17 print shift and go to state 18 if shift and go to state 19 do shift and go to state 20 swap shift and go to state 21 exit shift and go to state 22 S shift and go to state 15 Dimensional shift and go to state 16 state 146 (20) S -> do id equals EA coma EA IntOrEmpty then B end . do do shift and go to state 147 state 147 (20) S -> do id equals EA coma EA IntOrEmpty then B end do . end reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) id reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) read reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) print reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) if reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) do reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) swap reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) exit reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) elif reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) else reduce using rule 20 (S -> do id equals EA coma EA IntOrEmpty then B end do .) WARNING: WARNING: Conflicts: WARNING: WARNING: shift/reduce conflict for and in state 63 resolved as shift WARNING: shift/reduce conflict for or in state 102 resolved as shift WARNING: shift/reduce conflict for and in state 130 resolved as shift