I'm trying to write a grammar for arithmetic and boolean expressions. I don't understand what I'm doing wrong. For my grammar, ANTLR says:

[fatal] rule logic_atom has non-LL(*) decision due to recursive rule invocations reachable from alts 1,2. Resolve by left-factoring or using syntactic predicates or using backtrack=true option.

But I can't do a left-factoring. And I don't want to touch `arith_expr`

, because for this I have a code.

Error in `logic_atom : LBR logic_expr RBR | cmp_expr ;`

My code:

```
grammar ArithmeticInterpreter;
options {
output = AST;
language = C;
}
//options{greedy=true;}:
axiom : lines EOF! ;
lines : line (SEP! line)* ;
line : (def_var | print_expr | scan_expr)? ;
def_var : VARIABLE ASSIGMENT^ logic_expr ;
print_expr : PRINT_KEYW^ arith_expr ;
scan_expr : SCAN_KEYW^ VARIABLE ;
arith_expr : ((PLS | MNS)^)? term ((PLS | MNS)^ term)*;
term : power ((MLP | DIV)^ power )*;
power : atom (options{greedy=true;}: PWR^ power )*;
atom : INT | FLOAT | VARIABLE | LBR arith_expr RBR -> ^(arith_expr);
logic_expr : logic_atom ((OR | AND)^ logic_atom)*;
logic_atom : LBR logic_expr RBR | cmp_expr ;
cmp_expr: arith_expr (LSS | LSQ | GRT | GRQ | EQL | NEQ) arith_expr;
WS : ( ' '| '\t'| '\r') {$channel=HIDDEN;};
LBR : '(' ;
RBR : ')' ;
PLS : '+' ;
MNS : '-' ;
MLP : '*' ;
DIV : '/' ;
PWR : '^' ;
LSS : '<' ;
LSQ : '<=' ;
GRT : '>' ;
GRQ : '>=' ;
EQL : '==' ;
NEQ : '!=' ;
AND : '&&' ;
OR : '||' ;
NOT : '!' ;
ASSIGMENT : '=' ;
PRINT_KEYW : 'print' ;
SCAN_KEYW : 'scan' ;
SEP : '\n' | ';' ;
INT : ('0'..'9')+;
FLOAT : INT '.' INT* EXP? | '.' INT EXP? | INT EXP;
fragment EXP : ('e'|'E') (PLS | MNS)? INT;
VARIABLE : SS (SS | '0'..'9')* ;
fragment SS : 'a'..'z' | 'A'..'Z' | '_' ;
```

// `(LBR arith_expr)=>`

isn't work.