# Building AST in OCaml

I'm using OCaml to build a recursive descent parser for a subset of Scheme. Here's the grammar:

``````    S -> a|b|c|(T)
T -> ST | Epsilon
``````

So say I have:

``````   type expr =
Num of int | String of string | Tuple of expr * expr
``````

Pseudocode

These functions have to return expr type to build the AST

``````parseS  lr =
if head matches '(' then
parseL lr
else
match tokens a, b, or c
``````

Using First Set of S which are tokens and '(':

``````parseL lr =
if head matches '(' or the tokens then
Tuple (parseS lr, parseL lr)
else
match Epsilon
``````

My question is "How do I return for the Epsilon part since I just can't return ()?". An OCaml function requires same return type and even if I leave blank for Epsilon part, OCaml still assumes unit type.

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## 2 Answers

As far as I can see, your AST doesn't match your grammar.

You can solve the problem by having a specifically empty node in your AST type to represent the Epsilon in your grammar.

Or, you can change your grammar to factor out the Epsilon.

Here's an equivalent grammar with no Epsilon:

``````S -> a|b|c|()|(T)
T -> S | S T
``````
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so to my understanding, either I have to include a place holder for Epsilon or adjust the given grammar as you mentioned. That seems to eliminate the Epsilon problem. Does that mean whenever I see Epsilon, I have rewrite the grammar? –  lovetostrike Dec 1 '12 at 16:17
I would say yes, in concept. In practice it just means you look ahead in your parser. If you're writing the parser by hand you can probably make it work without spending a lot of time rewriting the grammar. –  Jeffrey Scofield Dec 1 '12 at 16:20
If S returns a, b, c of type expr, what should I return for () part in S? –  lovetostrike Dec 1 '12 at 16:26
I'd say you want to use a list to represent your tuple. Then use an empty list for `()`. This is what I meant when I said your AST type doesn't really match your grammar. –  Jeffrey Scofield Dec 1 '12 at 16:46
You're writing the code yourself--you can always parse an S and then see what shows up after that. –  Jeffrey Scofield Dec 1 '12 at 21:31
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Maybe instead of creating parser-functions manually it is better to use existent approaches: for example, LALR(1) ocamlyacc or camlp4 based LL(k) parsers ?

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Or menhir. –  Thomash Dec 1 '12 at 15:43
Thanks guys :). But I can't use existing utilities since this is an exercise. –  lovetostrike Dec 1 '12 at 16:06
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