fsyacc is emitting shift/reduce errors for all binary ops.

I have this recursive production:

```
scalar_expr:
| scalar_expr binary_op scalar_expr { Binary($2, $1, $3) }
```

Changing it to

```
scalar_expr:
| constant binary_op constant { Binary($2, Constant($1), Constant($3)) }
```

eliminates the errors (but isn't what I want). Precedence and associativity are defined as follows:

```
%left BITAND BITOR BITXOR
%left ADD SUB
%left MUL DIV MOD
```

Here's an excerpt from the listing file showing the state that produces the errors (one other state has the same errors).

```
state 42:
items:
scalar_expr -> scalar_expr . binary_op scalar_expr
scalar_expr -> scalar_expr binary_op scalar_expr .
actions:
action 'EOF' (noprec): reduce scalar_expr --> scalar_expr binary_op scalar_expr
action 'MUL' (explicit left 9999): shift 8
action 'DIV' (explicit left 9999): shift 9
action 'MOD' (explicit left 9999): shift 10
action 'ADD' (explicit left 9998): shift 6
action 'SUB' (explicit left 9998): shift 7
action 'BITAND' (explicit left 9997): shift 11
action 'BITOR' (explicit left 9997): shift 12
action 'BITXOR' (explicit left 9997): shift 13
```

You can see the parser shifts in all cases, which is correct, I think. I haven't found a case where the behavior is incorrect, at least.

How can I restate the grammar to eliminate these errors?