# lex yacc nonterminal circularity

I have to implement a computer for string operations using YACC.I have to implement operations like +(for concatenating string) or *(to strcat a string with itself n times).These operations return a string and I use them in a nonterminal t1.BUt I also have operations that return a number.These operations are in a t2 nonterminal.

For example i have:

``````      expr1: expr1 '+' expr1 { strcpy(\$\$,\$1); strcat(\$\$,\$3);}
| expr1 '-' expr1 { strcpy(\$\$,minus(\$1,\$3));}
| | expr1 '*' NUMBER {strcpy(\$\$,mul(\$1,\$3));}
|STRING;
``````

And i have:

``````     expr2 : STRING '?' STRING {strcpy(\$\$nr_of_aparitions(\$1,\$3));}
;
``````

The thing is that the operations defined in expr2 will always return a NUMBER. All works fine until:

if I have 'dfdf' ? 'edfd " for example it all works fine.The problem comes when i must implement expr1 in expr2 : expr1 ? expr2 because circularity would appear.Can you suggest anything ?

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Have you also thought about operator precedence and associativity. For example, what does `expr1 - expr2 + expr3` mean? –  Eduardo Jan 23 '13 at 20:19

In general, you don't need to be concerned about what you call "circularity" and what I would call "recursion," that is, the use of a number-valued expression in expr1 and vice versa.

I would rewrite your grammar fragments as follows, to make your code easier to understand:

``````stringExpr : stringExpr '+' stringExpr { strcpy(\$\$,\$1); strcat(\$\$,\$3); }
| stringExpr '-' stringExpr { strcpy(\$\$,minus(\$1,\$3)); }
| stringExpr '*' numberExpr { strcpy(\$\$,mul(\$1,\$3)); }
| STRING
;

numberExpr : stringExpr '?' stringExpr { strcpy(\$\$nr_of_aparitions(\$1,\$3)); }
| NUMBER
;
``````

(I removed the empty rule in your expr1 -- I suppose that was not intended.)

I wonder why you don't have grammar rules for ordinary arithmetic, expressions like `5 + 2`, but perhaps that is not part of your plan.

If you do intend to support ordinary arithmetic, then you will need to think about how `"foobar" - 1 + 1` should be interpreted. At that point, you may want to look at the yacc/bison features for operator precedence.

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