path: root/frontend/parser.automaton

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