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author | Alex Auvolat <alex.auvolat@ansys.com> | 2014-06-11 17:26:51 +0200 |
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committer | Alex Auvolat <alex.auvolat@ansys.com> | 2014-06-11 17:26:51 +0200 |
commit | aefe04b278d37c5f1248ef631eeb08dbbb4da653 (patch) | |
tree | 16a6096ce3dadce89a1f8b7e5a70e9d912a973c8 /frontend/parser.automaton | |
parent | 36f98d819756ada119e696729e40d8e8e427b5f0 (diff) | |
download | scade-analyzer-aefe04b278d37c5f1248ef631eeb08dbbb4da653.tar.gz scade-analyzer-aefe04b278d37c5f1248ef631eeb08dbbb4da653.zip |
Make code cleaner
Diffstat (limited to 'frontend/parser.automaton')
-rw-r--r-- | frontend/parser.automaton | 1577 |
1 files changed, 0 insertions, 1577 deletions
diff --git a/frontend/parser.automaton b/frontend/parser.automaton deleted file mode 100644 index dff892b..0000000 --- a/frontend/parser.automaton +++ /dev/null @@ -1,1577 +0,0 @@ -State 0: -file' -> . file [ # ] --- On NODE shift to state 1 --- On CONST shift to state 103 --- On toplevel shift to state 109 --- On node_decl shift to state 110 --- On list(toplevel) shift to state 113 --- On file shift to state 115 --- On const_decl shift to state 112 --- On EOF reduce production list(toplevel) -> - -State 1: -node_decl -> NODE . IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On IDENT shift to state 2 - -State 2: -node_decl -> NODE IDENT . LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On LPAREN shift to state 3 - -State 3: -node_decl -> NODE IDENT LPAREN . vars RPAREN RETURNS vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On IDENT shift to state 4 --- On vars shift to state 10 --- On var shift to state 98 --- On separated_nonempty_list(SEMICOLON,var) shift to state 101 --- On loption(separated_nonempty_list(SEMICOLON,var)) shift to state 102 --- On RPAREN reduce production loption(separated_nonempty_list(SEMICOLON,var)) -> - -State 4: -var -> IDENT . COLON typ [ SEMICOLON RPAREN ] --- On COLON shift to state 5 - -State 5: -var -> IDENT COLON . typ [ SEMICOLON RPAREN ] --- On REAL shift to state 6 --- On INT shift to state 7 --- On BOOL shift to state 8 --- On typ shift to state 9 - -State 6: -typ -> REAL . [ SEMICOLON RPAREN EQUAL ] --- On SEMICOLON reduce production typ -> REAL --- On RPAREN reduce production typ -> REAL --- On EQUAL reduce production typ -> REAL - -State 7: -typ -> INT . [ SEMICOLON RPAREN EQUAL ] --- On SEMICOLON reduce production typ -> INT --- On RPAREN reduce production typ -> INT --- On EQUAL reduce production typ -> INT - -State 8: -typ -> BOOL . [ SEMICOLON RPAREN EQUAL ] --- On SEMICOLON reduce production typ -> BOOL --- On RPAREN reduce production typ -> BOOL --- On EQUAL reduce production typ -> BOOL - -State 9: -var -> IDENT COLON typ . [ SEMICOLON RPAREN ] --- On SEMICOLON reduce production var -> IDENT COLON typ --- On RPAREN reduce production var -> IDENT COLON typ - -State 10: -node_decl -> NODE IDENT LPAREN vars . RPAREN RETURNS vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On RPAREN shift to state 11 - -State 11: -node_decl -> NODE IDENT LPAREN vars RPAREN . RETURNS vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On RETURNS shift to state 12 - -State 12: -node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS . vars RPAREN var_decl dbody [ NODE EOF CONST ] --- On IDENT shift to state 4 --- On vars shift to state 13 --- On var shift to state 98 --- On separated_nonempty_list(SEMICOLON,var) shift to state 101 --- On loption(separated_nonempty_list(SEMICOLON,var)) shift to state 102 --- On RPAREN reduce production loption(separated_nonempty_list(SEMICOLON,var)) -> - -State 13: -node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars . RPAREN var_decl dbody [ NODE EOF CONST ] --- On RPAREN shift to state 14 - -State 14: -node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN . var_decl dbody [ NODE EOF CONST ] --- On VAR shift to state 15 --- On var_decl shift to state 20 --- On LET reduce production var_decl -> --- On IDENT reduce production var_decl -> --- On GUARANTEE reduce production var_decl -> --- On ASSUME reduce production var_decl -> - -State 15: -var_decl -> VAR . nonempty_list(terminated(var,SEMICOLON)) [ LET IDENT GUARANTEE ASSUME ] --- On IDENT shift to state 4 --- On var shift to state 16 --- On nonempty_list(terminated(var,SEMICOLON)) shift to state 19 - -State 16: -nonempty_list(terminated(var,SEMICOLON)) -> var . SEMICOLON [ LET IDENT GUARANTEE ASSUME ] -nonempty_list(terminated(var,SEMICOLON)) -> var . SEMICOLON nonempty_list(terminated(var,SEMICOLON)) [ LET IDENT GUARANTEE ASSUME ] --- On SEMICOLON shift to state 17 - -State 17: -nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON . [ LET IDENT GUARANTEE ASSUME ] -nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON . nonempty_list(terminated(var,SEMICOLON)) [ LET IDENT GUARANTEE ASSUME ] --- On IDENT shift to state 4 --- On var shift to state 16 --- On nonempty_list(terminated(var,SEMICOLON)) shift to state 18 --- On LET reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON --- On IDENT reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON --- On GUARANTEE reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON --- On ASSUME reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON -** Conflict on IDENT - -State 18: -nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON nonempty_list(terminated(var,SEMICOLON)) . [ LET IDENT GUARANTEE ASSUME ] --- On LET reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON nonempty_list(terminated(var,SEMICOLON)) --- On IDENT reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON nonempty_list(terminated(var,SEMICOLON)) --- On GUARANTEE reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON nonempty_list(terminated(var,SEMICOLON)) --- On ASSUME reduce production nonempty_list(terminated(var,SEMICOLON)) -> var SEMICOLON nonempty_list(terminated(var,SEMICOLON)) - -State 19: -var_decl -> VAR nonempty_list(terminated(var,SEMICOLON)) . [ LET IDENT GUARANTEE ASSUME ] --- On LET reduce production var_decl -> VAR nonempty_list(terminated(var,SEMICOLON)) --- On IDENT reduce production var_decl -> VAR nonempty_list(terminated(var,SEMICOLON)) --- On GUARANTEE reduce production var_decl -> VAR nonempty_list(terminated(var,SEMICOLON)) --- On ASSUME reduce production var_decl -> VAR nonempty_list(terminated(var,SEMICOLON)) - -State 20: -node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl . dbody [ NODE EOF CONST ] --- On LET shift to state 21 --- On IDENT shift to state 22 --- On GUARANTEE shift to state 23 --- On ASSUME shift to state 83 --- On lvalue shift to state 89 --- On eqn shift to state 95 --- On dbody shift to state 97 - -State 21: -dbody -> LET . separated_nonempty_list(SEMICOLON,ext(eqn)) TEL [ NODE EOF CONST ] --- On IDENT shift to state 22 --- On GUARANTEE shift to state 23 --- On ASSUME shift to state 83 --- On separated_nonempty_list(SEMICOLON,ext(eqn)) shift to state 87 --- On lvalue shift to state 89 --- On eqn shift to state 92 - -State 22: -lvalue -> IDENT . [ EQUAL ] --- On EQUAL reduce production lvalue -> IDENT - -State 23: -eqn -> GUARANTEE . IDENT COLON expr [ TEL SEMICOLON ] --- On IDENT shift to state 24 - -State 24: -eqn -> GUARANTEE IDENT . COLON expr [ TEL SEMICOLON ] --- On COLON shift to state 25 - -State 25: -eqn -> GUARANTEE IDENT COLON . expr [ TEL SEMICOLON ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 82 --- On binary_expr shift to state 45 - -State 26: -primary_expr -> TRUE . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production primary_expr -> TRUE --- On TEL reduce production primary_expr -> TRUE --- On STAR reduce production primary_expr -> TRUE --- On SEMICOLON reduce production primary_expr -> TRUE --- On RPAREN reduce production primary_expr -> TRUE --- On PLUS reduce production primary_expr -> TRUE --- On PERCENT reduce production primary_expr -> TRUE --- On NOT_EQUAL reduce production primary_expr -> TRUE --- On NODE reduce production primary_expr -> TRUE --- On MINUS reduce production primary_expr -> TRUE --- On LESS_EQUAL reduce production primary_expr -> TRUE --- On LESS reduce production primary_expr -> TRUE --- On GREATER_EQUAL reduce production primary_expr -> TRUE --- On GREATER reduce production primary_expr -> TRUE --- On EQUAL_EQUAL reduce production primary_expr -> TRUE --- On EOF reduce production primary_expr -> TRUE --- On ELSE reduce production primary_expr -> TRUE --- On DIVIDE reduce production primary_expr -> TRUE --- On CONST reduce production primary_expr -> TRUE --- On COMMA reduce production primary_expr -> TRUE --- On BAR_BAR reduce production primary_expr -> TRUE --- On AND_AND reduce production primary_expr -> TRUE - -State 27: -unary_expr -> PLUS . unary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 81 --- On primary_expr shift to state 38 - -State 28: -unary_expr -> NOT . unary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 80 --- On primary_expr shift to state 38 - -State 29: -unary_expr -> MINUS . unary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 79 --- On primary_expr shift to state 38 - -State 30: -primary_expr -> LPAREN . expr RPAREN [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 77 --- On binary_expr shift to state 45 - -State 31: -primary_expr -> INTVAL . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production primary_expr -> INTVAL --- On TEL reduce production primary_expr -> INTVAL --- On STAR reduce production primary_expr -> INTVAL --- On SEMICOLON reduce production primary_expr -> INTVAL --- On RPAREN reduce production primary_expr -> INTVAL --- On PLUS reduce production primary_expr -> INTVAL --- On PERCENT reduce production primary_expr -> INTVAL --- On NOT_EQUAL reduce production primary_expr -> INTVAL --- On NODE reduce production primary_expr -> INTVAL --- On MINUS reduce production primary_expr -> INTVAL --- On LESS_EQUAL reduce production primary_expr -> INTVAL --- On LESS reduce production primary_expr -> INTVAL --- On GREATER_EQUAL reduce production primary_expr -> INTVAL --- On GREATER reduce production primary_expr -> INTVAL --- On EQUAL_EQUAL reduce production primary_expr -> INTVAL --- On EOF reduce production primary_expr -> INTVAL --- On ELSE reduce production primary_expr -> INTVAL --- On DIVIDE reduce production primary_expr -> INTVAL --- On CONST reduce production primary_expr -> INTVAL --- On COMMA reduce production primary_expr -> INTVAL --- On BAR_BAR reduce production primary_expr -> INTVAL --- On AND_AND reduce production primary_expr -> INTVAL - -State 32: -if_expr -> IF . expr THEN expr ELSE expr [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 72 --- On binary_expr shift to state 45 - -State 33: -primary_expr -> IDENT . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -primary_expr -> IDENT . LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On LPAREN shift to state 34 --- On THEN reduce production primary_expr -> IDENT --- On TEL reduce production primary_expr -> IDENT --- On STAR reduce production primary_expr -> IDENT --- On SEMICOLON reduce production primary_expr -> IDENT --- On RPAREN reduce production primary_expr -> IDENT --- On PLUS reduce production primary_expr -> IDENT --- On PERCENT reduce production primary_expr -> IDENT --- On NOT_EQUAL reduce production primary_expr -> IDENT --- On NODE reduce production primary_expr -> IDENT --- On MINUS reduce production primary_expr -> IDENT --- On LESS_EQUAL reduce production primary_expr -> IDENT --- On LESS reduce production primary_expr -> IDENT --- On GREATER_EQUAL reduce production primary_expr -> IDENT --- On GREATER reduce production primary_expr -> IDENT --- On EQUAL_EQUAL reduce production primary_expr -> IDENT --- On EOF reduce production primary_expr -> IDENT --- On ELSE reduce production primary_expr -> IDENT --- On DIVIDE reduce production primary_expr -> IDENT --- On CONST reduce production primary_expr -> IDENT --- On COMMA reduce production primary_expr -> IDENT --- On BAR_BAR reduce production primary_expr -> IDENT --- On AND_AND reduce production primary_expr -> IDENT - -State 34: -primary_expr -> IDENT LPAREN . loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On separated_nonempty_list(COMMA,ext(expr)) shift to state 37 --- On primary_expr shift to state 38 --- On loption(separated_nonempty_list(COMMA,ext(expr))) shift to state 39 --- On if_expr shift to state 41 --- On expr shift to state 42 --- On binary_expr shift to state 45 --- On RPAREN reduce production loption(separated_nonempty_list(COMMA,ext(expr))) -> - -State 35: -primary_expr -> FALSE . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production primary_expr -> FALSE --- On TEL reduce production primary_expr -> FALSE --- On STAR reduce production primary_expr -> FALSE --- On SEMICOLON reduce production primary_expr -> FALSE --- On RPAREN reduce production primary_expr -> FALSE --- On PLUS reduce production primary_expr -> FALSE --- On PERCENT reduce production primary_expr -> FALSE --- On NOT_EQUAL reduce production primary_expr -> FALSE --- On NODE reduce production primary_expr -> FALSE --- On MINUS reduce production primary_expr -> FALSE --- On LESS_EQUAL reduce production primary_expr -> FALSE --- On LESS reduce production primary_expr -> FALSE --- On GREATER_EQUAL reduce production primary_expr -> FALSE --- On GREATER reduce production primary_expr -> FALSE --- On EQUAL_EQUAL reduce production primary_expr -> FALSE --- On EOF reduce production primary_expr -> FALSE --- On ELSE reduce production primary_expr -> FALSE --- On DIVIDE reduce production primary_expr -> FALSE --- On CONST reduce production primary_expr -> FALSE --- On COMMA reduce production primary_expr -> FALSE --- On BAR_BAR reduce production primary_expr -> FALSE --- On AND_AND reduce production primary_expr -> FALSE - -State 36: -binary_expr -> unary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production binary_expr -> unary_expr --- On TEL reduce production binary_expr -> unary_expr --- On STAR reduce production binary_expr -> unary_expr --- On SEMICOLON reduce production binary_expr -> unary_expr --- On RPAREN reduce production binary_expr -> unary_expr --- On PLUS reduce production binary_expr -> unary_expr --- On PERCENT reduce production binary_expr -> unary_expr --- On NOT_EQUAL reduce production binary_expr -> unary_expr --- On NODE reduce production binary_expr -> unary_expr --- On MINUS reduce production binary_expr -> unary_expr --- On LESS_EQUAL reduce production binary_expr -> unary_expr --- On LESS reduce production binary_expr -> unary_expr --- On GREATER_EQUAL reduce production binary_expr -> unary_expr --- On GREATER reduce production binary_expr -> unary_expr --- On EQUAL_EQUAL reduce production binary_expr -> unary_expr --- On EOF reduce production binary_expr -> unary_expr --- On ELSE reduce production binary_expr -> unary_expr --- On DIVIDE reduce production binary_expr -> unary_expr --- On CONST reduce production binary_expr -> unary_expr --- On COMMA reduce production binary_expr -> unary_expr --- On BAR_BAR reduce production binary_expr -> unary_expr --- On AND_AND reduce production binary_expr -> unary_expr - -State 37: -loption(separated_nonempty_list(COMMA,ext(expr))) -> separated_nonempty_list(COMMA,ext(expr)) . [ RPAREN ] --- On RPAREN reduce production loption(separated_nonempty_list(COMMA,ext(expr))) -> separated_nonempty_list(COMMA,ext(expr)) - -State 38: -unary_expr -> primary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production unary_expr -> primary_expr --- On TEL reduce production unary_expr -> primary_expr --- On STAR reduce production unary_expr -> primary_expr --- On SEMICOLON reduce production unary_expr -> primary_expr --- On RPAREN reduce production unary_expr -> primary_expr --- On PLUS reduce production unary_expr -> primary_expr --- On PERCENT reduce production unary_expr -> primary_expr --- On NOT_EQUAL reduce production unary_expr -> primary_expr --- On NODE reduce production unary_expr -> primary_expr --- On MINUS reduce production unary_expr -> primary_expr --- On LESS_EQUAL reduce production unary_expr -> primary_expr --- On LESS reduce production unary_expr -> primary_expr --- On GREATER_EQUAL reduce production unary_expr -> primary_expr --- On GREATER reduce production unary_expr -> primary_expr --- On EQUAL_EQUAL reduce production unary_expr -> primary_expr --- On EOF reduce production unary_expr -> primary_expr --- On ELSE reduce production unary_expr -> primary_expr --- On DIVIDE reduce production unary_expr -> primary_expr --- On CONST reduce production unary_expr -> primary_expr --- On COMMA reduce production unary_expr -> primary_expr --- On BAR_BAR reduce production unary_expr -> primary_expr --- On AND_AND reduce production unary_expr -> primary_expr - -State 39: -primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) . RPAREN [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On RPAREN shift to state 40 - -State 40: -primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On TEL reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On STAR reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On SEMICOLON reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On RPAREN reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On PLUS reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On PERCENT reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On NOT_EQUAL reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On NODE reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On MINUS reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On LESS_EQUAL reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On LESS reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On GREATER_EQUAL reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On GREATER reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On EQUAL_EQUAL reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On EOF reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On ELSE reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On DIVIDE reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On CONST reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On COMMA reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On BAR_BAR reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN --- On AND_AND reduce production primary_expr -> IDENT LPAREN loption(separated_nonempty_list(COMMA,ext(expr))) RPAREN - -State 41: -expr -> if_expr . [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On THEN reduce production expr -> if_expr --- On TEL reduce production expr -> if_expr --- On SEMICOLON reduce production expr -> if_expr --- On RPAREN reduce production expr -> if_expr --- On NODE reduce production expr -> if_expr --- On EOF reduce production expr -> if_expr --- On ELSE reduce production expr -> if_expr --- On CONST reduce production expr -> if_expr --- On COMMA reduce production expr -> if_expr - -State 42: -separated_nonempty_list(COMMA,ext(expr)) -> expr . [ RPAREN ] -separated_nonempty_list(COMMA,ext(expr)) -> expr . COMMA separated_nonempty_list(COMMA,ext(expr)) [ RPAREN ] --- On COMMA shift to state 43 --- On RPAREN reduce production separated_nonempty_list(COMMA,ext(expr)) -> expr - -State 43: -separated_nonempty_list(COMMA,ext(expr)) -> expr COMMA . separated_nonempty_list(COMMA,ext(expr)) [ RPAREN ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On separated_nonempty_list(COMMA,ext(expr)) shift to state 44 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 42 --- On binary_expr shift to state 45 - -State 44: -separated_nonempty_list(COMMA,ext(expr)) -> expr COMMA separated_nonempty_list(COMMA,ext(expr)) . [ RPAREN ] --- On RPAREN reduce production separated_nonempty_list(COMMA,ext(expr)) -> expr COMMA separated_nonempty_list(COMMA,ext(expr)) - -State 45: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -if_expr -> binary_expr . [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On NOT_EQUAL shift to state 54 --- On MINUS shift to state 56 --- On LESS_EQUAL shift to state 58 --- On LESS shift to state 60 --- On GREATER_EQUAL shift to state 62 --- On GREATER shift to state 64 --- On EQUAL_EQUAL shift to state 66 --- On DIVIDE shift to state 52 --- On BAR_BAR shift to state 68 --- On AND_AND shift to state 70 --- On THEN reduce production if_expr -> binary_expr --- On TEL reduce production if_expr -> binary_expr --- On SEMICOLON reduce production if_expr -> binary_expr --- On RPAREN reduce production if_expr -> binary_expr --- On NODE reduce production if_expr -> binary_expr --- On EOF reduce production if_expr -> binary_expr --- On ELSE reduce production if_expr -> binary_expr --- On CONST reduce production if_expr -> binary_expr --- On COMMA reduce production if_expr -> binary_expr - -State 46: -binary_expr -> binary_expr STAR . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 47 - -State 47: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr STAR binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production binary_expr -> binary_expr STAR binary_expr --- On TEL reduce production binary_expr -> binary_expr STAR binary_expr --- On STAR reduce production binary_expr -> binary_expr STAR binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr STAR binary_expr --- On RPAREN reduce production binary_expr -> binary_expr STAR binary_expr --- On PLUS reduce production binary_expr -> binary_expr STAR binary_expr --- On PERCENT reduce production binary_expr -> binary_expr STAR binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr STAR binary_expr --- On NODE reduce production binary_expr -> binary_expr STAR binary_expr --- On MINUS reduce production binary_expr -> binary_expr STAR binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr STAR binary_expr --- On LESS reduce production binary_expr -> binary_expr STAR binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr STAR binary_expr --- On GREATER reduce production binary_expr -> binary_expr STAR binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr STAR binary_expr --- On EOF reduce production binary_expr -> binary_expr STAR binary_expr --- On ELSE reduce production binary_expr -> binary_expr STAR binary_expr --- On DIVIDE reduce production binary_expr -> binary_expr STAR binary_expr --- On CONST reduce production binary_expr -> binary_expr STAR binary_expr --- On COMMA reduce production binary_expr -> binary_expr STAR binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr STAR binary_expr --- On AND_AND reduce production binary_expr -> binary_expr STAR binary_expr - -State 48: -binary_expr -> binary_expr PLUS . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 49 - -State 49: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr PLUS binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PERCENT shift to state 50 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr PLUS binary_expr --- On TEL reduce production binary_expr -> binary_expr PLUS binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr PLUS binary_expr --- On RPAREN reduce production binary_expr -> binary_expr PLUS binary_expr --- On PLUS reduce production binary_expr -> binary_expr PLUS binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr PLUS binary_expr --- On NODE reduce production binary_expr -> binary_expr PLUS binary_expr --- On MINUS reduce production binary_expr -> binary_expr PLUS binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr PLUS binary_expr --- On LESS reduce production binary_expr -> binary_expr PLUS binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr PLUS binary_expr --- On GREATER reduce production binary_expr -> binary_expr PLUS binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr PLUS binary_expr --- On EOF reduce production binary_expr -> binary_expr PLUS binary_expr --- On ELSE reduce production binary_expr -> binary_expr PLUS binary_expr --- On CONST reduce production binary_expr -> binary_expr PLUS binary_expr --- On COMMA reduce production binary_expr -> binary_expr PLUS binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr PLUS binary_expr --- On AND_AND reduce production binary_expr -> binary_expr PLUS binary_expr - -State 50: -binary_expr -> binary_expr PERCENT . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 51 - -State 51: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr PERCENT binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production binary_expr -> binary_expr PERCENT binary_expr --- On TEL reduce production binary_expr -> binary_expr PERCENT binary_expr --- On STAR reduce production binary_expr -> binary_expr PERCENT binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr PERCENT binary_expr --- On RPAREN reduce production binary_expr -> binary_expr PERCENT binary_expr --- On PLUS reduce production binary_expr -> binary_expr PERCENT binary_expr --- On PERCENT reduce production binary_expr -> binary_expr PERCENT binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr PERCENT binary_expr --- On NODE reduce production binary_expr -> binary_expr PERCENT binary_expr --- On MINUS reduce production binary_expr -> binary_expr PERCENT binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr PERCENT binary_expr --- On LESS reduce production binary_expr -> binary_expr PERCENT binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr PERCENT binary_expr --- On GREATER reduce production binary_expr -> binary_expr PERCENT binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr PERCENT binary_expr --- On EOF reduce production binary_expr -> binary_expr PERCENT binary_expr --- On ELSE reduce production binary_expr -> binary_expr PERCENT binary_expr --- On DIVIDE reduce production binary_expr -> binary_expr PERCENT binary_expr --- On CONST reduce production binary_expr -> binary_expr PERCENT binary_expr --- On COMMA reduce production binary_expr -> binary_expr PERCENT binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr PERCENT binary_expr --- On AND_AND reduce production binary_expr -> binary_expr PERCENT binary_expr - -State 52: -binary_expr -> binary_expr DIVIDE . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 53 - -State 53: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr DIVIDE binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On TEL reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On STAR reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On RPAREN reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On PLUS reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On PERCENT reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On NODE reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On MINUS reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On LESS reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On GREATER reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On EOF reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On ELSE reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On DIVIDE reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On CONST reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On COMMA reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr DIVIDE binary_expr --- On AND_AND reduce production binary_expr -> binary_expr DIVIDE binary_expr - -State 54: -binary_expr -> binary_expr NOT_EQUAL . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 55 - -State 55: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr NOT_EQUAL binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On LESS_EQUAL shift to state 58 --- On LESS shift to state 60 --- On GREATER_EQUAL shift to state 62 --- On GREATER shift to state 64 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On TEL reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On RPAREN reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On NODE reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On EOF reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On ELSE reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On CONST reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On COMMA reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr --- On AND_AND reduce production binary_expr -> binary_expr NOT_EQUAL binary_expr - -State 56: -binary_expr -> binary_expr MINUS . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 57 - -State 57: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr MINUS binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PERCENT shift to state 50 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr MINUS binary_expr --- On TEL reduce production binary_expr -> binary_expr MINUS binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr MINUS binary_expr --- On RPAREN reduce production binary_expr -> binary_expr MINUS binary_expr --- On PLUS reduce production binary_expr -> binary_expr MINUS binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr MINUS binary_expr --- On NODE reduce production binary_expr -> binary_expr MINUS binary_expr --- On MINUS reduce production binary_expr -> binary_expr MINUS binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr MINUS binary_expr --- On LESS reduce production binary_expr -> binary_expr MINUS binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr MINUS binary_expr --- On GREATER reduce production binary_expr -> binary_expr MINUS binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr MINUS binary_expr --- On EOF reduce production binary_expr -> binary_expr MINUS binary_expr --- On ELSE reduce production binary_expr -> binary_expr MINUS binary_expr --- On CONST reduce production binary_expr -> binary_expr MINUS binary_expr --- On COMMA reduce production binary_expr -> binary_expr MINUS binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr MINUS binary_expr --- On AND_AND reduce production binary_expr -> binary_expr MINUS binary_expr - -State 58: -binary_expr -> binary_expr LESS_EQUAL . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 59 - -State 59: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr LESS_EQUAL binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On TEL reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On RPAREN reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On NODE reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On LESS reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On GREATER reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On EOF reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On ELSE reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On CONST reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On COMMA reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr --- On AND_AND reduce production binary_expr -> binary_expr LESS_EQUAL binary_expr - -State 60: -binary_expr -> binary_expr LESS . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 61 - -State 61: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr LESS binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr LESS binary_expr --- On TEL reduce production binary_expr -> binary_expr LESS binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr LESS binary_expr --- On RPAREN reduce production binary_expr -> binary_expr LESS binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr LESS binary_expr --- On NODE reduce production binary_expr -> binary_expr LESS binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr LESS binary_expr --- On LESS reduce production binary_expr -> binary_expr LESS binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr LESS binary_expr --- On GREATER reduce production binary_expr -> binary_expr LESS binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr LESS binary_expr --- On EOF reduce production binary_expr -> binary_expr LESS binary_expr --- On ELSE reduce production binary_expr -> binary_expr LESS binary_expr --- On CONST reduce production binary_expr -> binary_expr LESS binary_expr --- On COMMA reduce production binary_expr -> binary_expr LESS binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr LESS binary_expr --- On AND_AND reduce production binary_expr -> binary_expr LESS binary_expr - -State 62: -binary_expr -> binary_expr GREATER_EQUAL . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 63 - -State 63: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr GREATER_EQUAL binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On TEL reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On RPAREN reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On NODE reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On LESS reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On GREATER reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On EOF reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On ELSE reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On CONST reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On COMMA reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr --- On AND_AND reduce production binary_expr -> binary_expr GREATER_EQUAL binary_expr - -State 64: -binary_expr -> binary_expr GREATER . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 65 - -State 65: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr GREATER binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr GREATER binary_expr --- On TEL reduce production binary_expr -> binary_expr GREATER binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr GREATER binary_expr --- On RPAREN reduce production binary_expr -> binary_expr GREATER binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr GREATER binary_expr --- On NODE reduce production binary_expr -> binary_expr GREATER binary_expr --- On LESS_EQUAL reduce production binary_expr -> binary_expr GREATER binary_expr --- On LESS reduce production binary_expr -> binary_expr GREATER binary_expr --- On GREATER_EQUAL reduce production binary_expr -> binary_expr GREATER binary_expr --- On GREATER reduce production binary_expr -> binary_expr GREATER binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr GREATER binary_expr --- On EOF reduce production binary_expr -> binary_expr GREATER binary_expr --- On ELSE reduce production binary_expr -> binary_expr GREATER binary_expr --- On CONST reduce production binary_expr -> binary_expr GREATER binary_expr --- On COMMA reduce production binary_expr -> binary_expr GREATER binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr GREATER binary_expr --- On AND_AND reduce production binary_expr -> binary_expr GREATER binary_expr - -State 66: -binary_expr -> binary_expr EQUAL_EQUAL . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 67 - -State 67: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr EQUAL_EQUAL binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On MINUS shift to state 56 --- On LESS_EQUAL shift to state 58 --- On LESS shift to state 60 --- On GREATER_EQUAL shift to state 62 --- On GREATER shift to state 64 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On TEL reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On RPAREN reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On NOT_EQUAL reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On NODE reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On EQUAL_EQUAL reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On EOF reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On ELSE reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On CONST reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On COMMA reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr --- On AND_AND reduce production binary_expr -> binary_expr EQUAL_EQUAL binary_expr - -State 68: -binary_expr -> binary_expr BAR_BAR . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 69 - -State 69: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr BAR_BAR binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On NOT_EQUAL shift to state 54 --- On MINUS shift to state 56 --- On LESS_EQUAL shift to state 58 --- On LESS shift to state 60 --- On GREATER_EQUAL shift to state 62 --- On GREATER shift to state 64 --- On EQUAL_EQUAL shift to state 66 --- On DIVIDE shift to state 52 --- On AND_AND shift to state 70 --- On THEN reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On TEL reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On RPAREN reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On NODE reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On EOF reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On ELSE reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On CONST reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On COMMA reduce production binary_expr -> binary_expr BAR_BAR binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr BAR_BAR binary_expr - -State 70: -binary_expr -> binary_expr AND_AND . binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On binary_expr shift to state 71 - -State 71: -binary_expr -> binary_expr . STAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . DIVIDE binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PERCENT binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . PLUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . MINUS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . LESS_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . GREATER_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . EQUAL_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . NOT_EQUAL binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . AND_AND binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr AND_AND binary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] -binary_expr -> binary_expr . BAR_BAR binary_expr [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On STAR shift to state 46 --- On PLUS shift to state 48 --- On PERCENT shift to state 50 --- On NOT_EQUAL shift to state 54 --- On MINUS shift to state 56 --- On LESS_EQUAL shift to state 58 --- On LESS shift to state 60 --- On GREATER_EQUAL shift to state 62 --- On GREATER shift to state 64 --- On EQUAL_EQUAL shift to state 66 --- On DIVIDE shift to state 52 --- On THEN reduce production binary_expr -> binary_expr AND_AND binary_expr --- On TEL reduce production binary_expr -> binary_expr AND_AND binary_expr --- On SEMICOLON reduce production binary_expr -> binary_expr AND_AND binary_expr --- On RPAREN reduce production binary_expr -> binary_expr AND_AND binary_expr --- On NODE reduce production binary_expr -> binary_expr AND_AND binary_expr --- On EOF reduce production binary_expr -> binary_expr AND_AND binary_expr --- On ELSE reduce production binary_expr -> binary_expr AND_AND binary_expr --- On CONST reduce production binary_expr -> binary_expr AND_AND binary_expr --- On COMMA reduce production binary_expr -> binary_expr AND_AND binary_expr --- On BAR_BAR reduce production binary_expr -> binary_expr AND_AND binary_expr --- On AND_AND reduce production binary_expr -> binary_expr AND_AND binary_expr - -State 72: -if_expr -> IF expr . THEN expr ELSE expr [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On THEN shift to state 73 - -State 73: -if_expr -> IF expr THEN . expr ELSE expr [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 74 --- On binary_expr shift to state 45 - -State 74: -if_expr -> IF expr THEN expr . ELSE expr [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On ELSE shift to state 75 - -State 75: -if_expr -> IF expr THEN expr ELSE . expr [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 76 --- On binary_expr shift to state 45 - -State 76: -if_expr -> IF expr THEN expr ELSE expr . [ THEN TEL SEMICOLON RPAREN NODE EOF ELSE CONST COMMA ] --- On THEN reduce production if_expr -> IF expr THEN expr ELSE expr --- On TEL reduce production if_expr -> IF expr THEN expr ELSE expr --- On SEMICOLON reduce production if_expr -> IF expr THEN expr ELSE expr --- On RPAREN reduce production if_expr -> IF expr THEN expr ELSE expr --- On NODE reduce production if_expr -> IF expr THEN expr ELSE expr --- On EOF reduce production if_expr -> IF expr THEN expr ELSE expr --- On ELSE reduce production if_expr -> IF expr THEN expr ELSE expr --- On CONST reduce production if_expr -> IF expr THEN expr ELSE expr --- On COMMA reduce production if_expr -> IF expr THEN expr ELSE expr - -State 77: -primary_expr -> LPAREN expr . RPAREN [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On RPAREN shift to state 78 - -State 78: -primary_expr -> LPAREN expr RPAREN . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production primary_expr -> LPAREN expr RPAREN --- On TEL reduce production primary_expr -> LPAREN expr RPAREN --- On STAR reduce production primary_expr -> LPAREN expr RPAREN --- On SEMICOLON reduce production primary_expr -> LPAREN expr RPAREN --- On RPAREN reduce production primary_expr -> LPAREN expr RPAREN --- On PLUS reduce production primary_expr -> LPAREN expr RPAREN --- On PERCENT reduce production primary_expr -> LPAREN expr RPAREN --- On NOT_EQUAL reduce production primary_expr -> LPAREN expr RPAREN --- On NODE reduce production primary_expr -> LPAREN expr RPAREN --- On MINUS reduce production primary_expr -> LPAREN expr RPAREN --- On LESS_EQUAL reduce production primary_expr -> LPAREN expr RPAREN --- On LESS reduce production primary_expr -> LPAREN expr RPAREN --- On GREATER_EQUAL reduce production primary_expr -> LPAREN expr RPAREN --- On GREATER reduce production primary_expr -> LPAREN expr RPAREN --- On EQUAL_EQUAL reduce production primary_expr -> LPAREN expr RPAREN --- On EOF reduce production primary_expr -> LPAREN expr RPAREN --- On ELSE reduce production primary_expr -> LPAREN expr RPAREN --- On DIVIDE reduce production primary_expr -> LPAREN expr RPAREN --- On CONST reduce production primary_expr -> LPAREN expr RPAREN --- On COMMA reduce production primary_expr -> LPAREN expr RPAREN --- On BAR_BAR reduce production primary_expr -> LPAREN expr RPAREN --- On AND_AND reduce production primary_expr -> LPAREN expr RPAREN - -State 79: -unary_expr -> MINUS unary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production unary_expr -> MINUS unary_expr --- On TEL reduce production unary_expr -> MINUS unary_expr --- On STAR reduce production unary_expr -> MINUS unary_expr --- On SEMICOLON reduce production unary_expr -> MINUS unary_expr --- On RPAREN reduce production unary_expr -> MINUS unary_expr --- On PLUS reduce production unary_expr -> MINUS unary_expr --- On PERCENT reduce production unary_expr -> MINUS unary_expr --- On NOT_EQUAL reduce production unary_expr -> MINUS unary_expr --- On NODE reduce production unary_expr -> MINUS unary_expr --- On MINUS reduce production unary_expr -> MINUS unary_expr --- On LESS_EQUAL reduce production unary_expr -> MINUS unary_expr --- On LESS reduce production unary_expr -> MINUS unary_expr --- On GREATER_EQUAL reduce production unary_expr -> MINUS unary_expr --- On GREATER reduce production unary_expr -> MINUS unary_expr --- On EQUAL_EQUAL reduce production unary_expr -> MINUS unary_expr --- On EOF reduce production unary_expr -> MINUS unary_expr --- On ELSE reduce production unary_expr -> MINUS unary_expr --- On DIVIDE reduce production unary_expr -> MINUS unary_expr --- On CONST reduce production unary_expr -> MINUS unary_expr --- On COMMA reduce production unary_expr -> MINUS unary_expr --- On BAR_BAR reduce production unary_expr -> MINUS unary_expr --- On AND_AND reduce production unary_expr -> MINUS unary_expr - -State 80: -unary_expr -> NOT unary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production unary_expr -> NOT unary_expr --- On TEL reduce production unary_expr -> NOT unary_expr --- On STAR reduce production unary_expr -> NOT unary_expr --- On SEMICOLON reduce production unary_expr -> NOT unary_expr --- On RPAREN reduce production unary_expr -> NOT unary_expr --- On PLUS reduce production unary_expr -> NOT unary_expr --- On PERCENT reduce production unary_expr -> NOT unary_expr --- On NOT_EQUAL reduce production unary_expr -> NOT unary_expr --- On NODE reduce production unary_expr -> NOT unary_expr --- On MINUS reduce production unary_expr -> NOT unary_expr --- On LESS_EQUAL reduce production unary_expr -> NOT unary_expr --- On LESS reduce production unary_expr -> NOT unary_expr --- On GREATER_EQUAL reduce production unary_expr -> NOT unary_expr --- On GREATER reduce production unary_expr -> NOT unary_expr --- On EQUAL_EQUAL reduce production unary_expr -> NOT unary_expr --- On EOF reduce production unary_expr -> NOT unary_expr --- On ELSE reduce production unary_expr -> NOT unary_expr --- On DIVIDE reduce production unary_expr -> NOT unary_expr --- On CONST reduce production unary_expr -> NOT unary_expr --- On COMMA reduce production unary_expr -> NOT unary_expr --- On BAR_BAR reduce production unary_expr -> NOT unary_expr --- On AND_AND reduce production unary_expr -> NOT unary_expr - -State 81: -unary_expr -> PLUS unary_expr . [ THEN TEL STAR SEMICOLON RPAREN PLUS PERCENT NOT_EQUAL NODE MINUS LESS_EQUAL LESS GREATER_EQUAL GREATER EQUAL_EQUAL EOF ELSE DIVIDE CONST COMMA BAR_BAR AND_AND ] --- On THEN reduce production unary_expr -> PLUS unary_expr --- On TEL reduce production unary_expr -> PLUS unary_expr --- On STAR reduce production unary_expr -> PLUS unary_expr --- On SEMICOLON reduce production unary_expr -> PLUS unary_expr --- On RPAREN reduce production unary_expr -> PLUS unary_expr --- On PLUS reduce production unary_expr -> PLUS unary_expr --- On PERCENT reduce production unary_expr -> PLUS unary_expr --- On NOT_EQUAL reduce production unary_expr -> PLUS unary_expr --- On NODE reduce production unary_expr -> PLUS unary_expr --- On MINUS reduce production unary_expr -> PLUS unary_expr --- On LESS_EQUAL reduce production unary_expr -> PLUS unary_expr --- On LESS reduce production unary_expr -> PLUS unary_expr --- On GREATER_EQUAL reduce production unary_expr -> PLUS unary_expr --- On GREATER reduce production unary_expr -> PLUS unary_expr --- On EQUAL_EQUAL reduce production unary_expr -> PLUS unary_expr --- On EOF reduce production unary_expr -> PLUS unary_expr --- On ELSE reduce production unary_expr -> PLUS unary_expr --- On DIVIDE reduce production unary_expr -> PLUS unary_expr --- On CONST reduce production unary_expr -> PLUS unary_expr --- On COMMA reduce production unary_expr -> PLUS unary_expr --- On BAR_BAR reduce production unary_expr -> PLUS unary_expr --- On AND_AND reduce production unary_expr -> PLUS unary_expr - -State 82: -eqn -> GUARANTEE IDENT COLON expr . [ TEL SEMICOLON ] --- On TEL reduce production eqn -> GUARANTEE IDENT COLON expr --- On SEMICOLON reduce production eqn -> GUARANTEE IDENT COLON expr - -State 83: -eqn -> ASSUME . IDENT COLON expr [ TEL SEMICOLON ] --- On IDENT shift to state 84 - -State 84: -eqn -> ASSUME IDENT . COLON expr [ TEL SEMICOLON ] --- On COLON shift to state 85 - -State 85: -eqn -> ASSUME IDENT COLON . expr [ TEL SEMICOLON ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 86 --- On binary_expr shift to state 45 - -State 86: -eqn -> ASSUME IDENT COLON expr . [ TEL SEMICOLON ] --- On TEL reduce production eqn -> ASSUME IDENT COLON expr --- On SEMICOLON reduce production eqn -> ASSUME IDENT COLON expr - -State 87: -dbody -> LET separated_nonempty_list(SEMICOLON,ext(eqn)) . TEL [ NODE EOF CONST ] --- On TEL shift to state 88 - -State 88: -dbody -> LET separated_nonempty_list(SEMICOLON,ext(eqn)) TEL . [ NODE EOF CONST ] --- On NODE reduce production dbody -> LET separated_nonempty_list(SEMICOLON,ext(eqn)) TEL --- On EOF reduce production dbody -> LET separated_nonempty_list(SEMICOLON,ext(eqn)) TEL --- On CONST reduce production dbody -> LET separated_nonempty_list(SEMICOLON,ext(eqn)) TEL - -State 89: -eqn -> lvalue . EQUAL expr [ TEL SEMICOLON ] --- On EQUAL shift to state 90 - -State 90: -eqn -> lvalue EQUAL . expr [ TEL SEMICOLON ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 91 --- On binary_expr shift to state 45 - -State 91: -eqn -> lvalue EQUAL expr . [ TEL SEMICOLON ] --- On TEL reduce production eqn -> lvalue EQUAL expr --- On SEMICOLON reduce production eqn -> lvalue EQUAL expr - -State 92: -separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn . [ TEL ] -separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn . SEMICOLON separated_nonempty_list(SEMICOLON,ext(eqn)) [ TEL ] --- On SEMICOLON shift to state 93 --- On TEL reduce production separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn - -State 93: -separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn SEMICOLON . separated_nonempty_list(SEMICOLON,ext(eqn)) [ TEL ] --- On IDENT shift to state 22 --- On GUARANTEE shift to state 23 --- On ASSUME shift to state 83 --- On separated_nonempty_list(SEMICOLON,ext(eqn)) shift to state 94 --- On lvalue shift to state 89 --- On eqn shift to state 92 - -State 94: -separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn SEMICOLON separated_nonempty_list(SEMICOLON,ext(eqn)) . [ TEL ] --- On TEL reduce production separated_nonempty_list(SEMICOLON,ext(eqn)) -> eqn SEMICOLON separated_nonempty_list(SEMICOLON,ext(eqn)) - -State 95: -dbody -> eqn . SEMICOLON [ NODE EOF CONST ] --- On SEMICOLON shift to state 96 - -State 96: -dbody -> eqn SEMICOLON . [ NODE EOF CONST ] --- On NODE reduce production dbody -> eqn SEMICOLON --- On EOF reduce production dbody -> eqn SEMICOLON --- On CONST reduce production dbody -> eqn SEMICOLON - -State 97: -node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody . [ NODE EOF CONST ] --- On NODE reduce production node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody --- On EOF reduce production node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody --- On CONST reduce production node_decl -> NODE IDENT LPAREN vars RPAREN RETURNS vars RPAREN var_decl dbody - -State 98: -separated_nonempty_list(SEMICOLON,var) -> var . [ RPAREN ] -separated_nonempty_list(SEMICOLON,var) -> var . SEMICOLON separated_nonempty_list(SEMICOLON,var) [ RPAREN ] --- On SEMICOLON shift to state 99 --- On RPAREN reduce production separated_nonempty_list(SEMICOLON,var) -> var - -State 99: -separated_nonempty_list(SEMICOLON,var) -> var SEMICOLON . separated_nonempty_list(SEMICOLON,var) [ RPAREN ] --- On IDENT shift to state 4 --- On var shift to state 98 --- On separated_nonempty_list(SEMICOLON,var) shift to state 100 - -State 100: -separated_nonempty_list(SEMICOLON,var) -> var SEMICOLON separated_nonempty_list(SEMICOLON,var) . [ RPAREN ] --- On RPAREN reduce production separated_nonempty_list(SEMICOLON,var) -> var SEMICOLON separated_nonempty_list(SEMICOLON,var) - -State 101: -loption(separated_nonempty_list(SEMICOLON,var)) -> separated_nonempty_list(SEMICOLON,var) . [ RPAREN ] --- On RPAREN reduce production loption(separated_nonempty_list(SEMICOLON,var)) -> separated_nonempty_list(SEMICOLON,var) - -State 102: -vars -> loption(separated_nonempty_list(SEMICOLON,var)) . [ RPAREN ] --- On RPAREN reduce production vars -> loption(separated_nonempty_list(SEMICOLON,var)) - -State 103: -const_decl -> CONST . IDENT COLON typ EQUAL expr [ NODE EOF CONST ] --- On IDENT shift to state 104 - -State 104: -const_decl -> CONST IDENT . COLON typ EQUAL expr [ NODE EOF CONST ] --- On COLON shift to state 105 - -State 105: -const_decl -> CONST IDENT COLON . typ EQUAL expr [ NODE EOF CONST ] --- On REAL shift to state 6 --- On INT shift to state 7 --- On BOOL shift to state 8 --- On typ shift to state 106 - -State 106: -const_decl -> CONST IDENT COLON typ . EQUAL expr [ NODE EOF CONST ] --- On EQUAL shift to state 107 - -State 107: -const_decl -> CONST IDENT COLON typ EQUAL . expr [ NODE EOF CONST ] --- On TRUE shift to state 26 --- On PLUS shift to state 27 --- On NOT shift to state 28 --- On MINUS shift to state 29 --- On LPAREN shift to state 30 --- On INTVAL shift to state 31 --- On IF shift to state 32 --- On IDENT shift to state 33 --- On FALSE shift to state 35 --- On unary_expr shift to state 36 --- On primary_expr shift to state 38 --- On if_expr shift to state 41 --- On expr shift to state 108 --- On binary_expr shift to state 45 - -State 108: -const_decl -> CONST IDENT COLON typ EQUAL expr . [ NODE EOF CONST ] --- On NODE reduce production const_decl -> CONST IDENT COLON typ EQUAL expr --- On EOF reduce production const_decl -> CONST IDENT COLON typ EQUAL expr --- On CONST reduce production const_decl -> CONST IDENT COLON typ EQUAL expr - -State 109: -list(toplevel) -> toplevel . list(toplevel) [ EOF ] --- On NODE shift to state 1 --- On CONST shift to state 103 --- On toplevel shift to state 109 --- On node_decl shift to state 110 --- On list(toplevel) shift to state 111 --- On const_decl shift to state 112 --- On EOF reduce production list(toplevel) -> - -State 110: -toplevel -> node_decl . [ NODE EOF CONST ] --- On NODE reduce production toplevel -> node_decl --- On EOF reduce production toplevel -> node_decl --- On CONST reduce production toplevel -> node_decl - -State 111: -list(toplevel) -> toplevel list(toplevel) . [ EOF ] --- On EOF reduce production list(toplevel) -> toplevel list(toplevel) - -State 112: -toplevel -> const_decl . [ NODE EOF CONST ] --- On NODE reduce production toplevel -> const_decl --- On EOF reduce production toplevel -> const_decl --- On CONST reduce production toplevel -> const_decl - -State 113: -file -> list(toplevel) . EOF [ # ] --- On EOF shift to state 114 - -State 114: -file -> list(toplevel) EOF . [ # ] --- On # reduce production file -> list(toplevel) EOF - -State 115: -file' -> file . [ # ] --- On # accept file - |