Assuming I have the following rules in my grammar.

```
expr: expr op expr
| NUMBER
op: '+' | '-' | '*' | '/'
```

And I have the following declarations done

```
%token NUMBER
%left '+' '-'
%right '*' '/'
```

This causes 4 shift-reduce conflicts at

```
State 12
4 expr: expr . op expr
4 | expr op expr .
'+' shift, and go to state 6
'-' shift, and go to state 7
'*' shift, and go to state 8
'/' shift, and go to state 9
'+' [reduce using rule 4 (expr)]
'-' [reduce using rule 4 (expr)]
'*' [reduce using rule 4 (expr)]
'/' [reduce using rule 4 (expr)]
$default reduce using rule 4 (expr)
op go to state 11
```

However, if I rewrite my grammar as

```
expr: expr '+' expr
| expr '-' expr
| expr '*' expr
| expr '/' expr
| NUMBER
```

the precedence rules kick in and the conflicts are resolved. I believe the conflicts arise because when bison encounters an `op`

, it doesn't keep track of the previous `op`

that was shifted into the stack. Is there a way I could group all the operators and still resolve the conflicts?