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I was trying to implement a LL(1) top-down parser for a calculator language. It only allows us to sum, subtract, divide and multiply numbers. No parentheses.

S -> A

A -> B + A
   | B - A
   | B

B -> int * B
   | int / B
   | int

As this grammar is not suited to a LL(1) parser, I had to change it quite a bit:

S -> A

A -> B A'
A'-> + A
   | - A
   | λ

B -> int B'
B'-> * B
   | / B
   | λ

The problem is that now the grammar is not left associative for the 4 shown operators, and I need it to be so. How to solve this problem? Is it even possible to accomplish so?

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I suppose that you're not looking for the answer "don't use an LL(1) parser, then" :). But that's the reality: LL(1) parsers are not a good match for parsing expressions; if you don't want to use LR(1) for some reason, write a Pratt parser or a operator precedence parser (see "Shunting Yard algorithm") –  rici May 7 '13 at 3:30
Well, I'm just learning about parsers. I intended in trying to implement a simple calculator language for several kinds of parsers. Are you stating that it's not possible to accomplish a calculator with a LL(1)? –  devoured elysium May 7 '13 at 5:42
I'm not stating that it's impossible, just that it's not trivial. You can do it by using the LL(1) parser to generate a parse tree for the modified grammar, and then reverse the transformation on the parse tree to create the parse tree for the original grammar. –  rici May 7 '13 at 16:05
Oh, I was asking whether it was possible without that kind of gimmick. –  devoured elysium May 7 '13 at 17:42
Are you aiming for a table-driven parser or a handwritten recursive-descent parser? If the latter, there's a fairly straightforward way to implement it (by replacing recursion with iteration). –  ebohlman May 12 '13 at 23:46

1 Answer 1

up vote 2 down vote accepted

You can get left-associativity by replacing recursion with iteration. The following sort-of-pseudocode directly computes values just for simplicity, but you could generate a parse tree using the same method.

function A() {
   val = B();
   t = peek();
   while (t=='+' || t=='-') {
     val1 = B();
     if (t=='+')
       val = val + val1;
       val = val - val1;
     t = peek();

where peek() returns the next token without eating it, and match() eats the next token. You'd do the same thing for B().

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