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I am looking into writing a language and a compiler for it as a summer project, and am having a hard time finding information on how to use a parse tree or BNF/EBNF to program a compier. The overall goal would be to write a compiler that would parse a simplified functional language syntax into c. I am currently planning on writing this compiler in c language, but I wouldn't mind doing it in something else if someone believes that it would be a better idea. (I do want to do this by hand though, without the use of tools like LEX)

For example, if I wanted to create the language ADD and defined it's syntax as (+ 3 4), it is easy to generate a EBNF for it:

    Program   -> {Function}
    Function  -> Operator Integer Integer
    Operator  -> +
    Integer   -> Digit {Digit}
    Digit     -> 0|1|2|3|4|5|6|7|8|9 

and it is even easier to make a parse tree:

     |       |         |
  Operator  Integer  Integer

But how would you:

  1. Represent the EBNF or parse tree in C
  2. Use this data to get valid C code

I feel that if I could see a very simple working example it would be enough to get me started in the right direction. I have a feeling that many of you are going to recommend that I read the Dragon Book (seems to be the standard resource for compilers), so I want to let you know that it is already ordered and being shipped.

Thank you in advance for any light you can shed on this!


share|improve this question
You got it right. C is by far not an ideal language for representing trees and performing tree transforms. I'd recommend to consider using any language with algebraic data types support and pattern matching. As for implementing functional languages in particular: research.microsoft.com/en-us/um/people/simonpj/Papers/… –  SK-logic May 23 '13 at 8:19
I recommend searching for "recursive descent parser" which handles LL(1) grammars (it used to be enough for most languages, but e.g. current C++ or C# are a bit more complex). There is sample implementation in C shown at en.wikipedia.org/wiki/Recursive_descent_parser Compared to other kinds of (usually generated) parsers, this one is actually quite readable from the source code. –  jJ' May 23 '13 at 15:15
@jJ That code snippet was exactly what I was looking for! Thanks! –  vikingsheepman May 23 '13 at 18:06
@SK-logic That looks like a really interesting read. I agree with you that straight C is not even close to ideal for manipulating trees, but I would like to eventually like to play around with handling inline assembly. Would using a language like Standard ML make this much harder? –  vikingsheepman May 23 '13 at 18:23
@vikingsheepman, it's much easier to handle inline assembly with higher level languages, just as well as with any other semantic features. –  SK-logic May 23 '13 at 20:09

1 Answer 1

Taken from the dragon book, a way of representing the EBNF is to use enums to group the types of the nodes. For example:

typedef enum { StmtK , ExpK} NodeKind;
typedef enum { IfK, AssignK, ... } StmtKind;
typedef enum { OpK, ConstK} ExpKind;

typedef enum { Void, Integer } ExpType;

and define a Node of the tree this way

typedef struct treeNode {
    struct treeNode * child[MAXCHILDREN];
    struct treeNode * sibling;
    int lineNo;
    NodeKind nodekind;
    union { StmtKind stmt; ExpKind exp; } kind; //Use union to save space
    union { TokenType op;
            int val;
            char * name; } attr;
    ExpType type; //To verify expression types
} TreeNode;

There is still a long way to generate the C code, but essentially you need to do some checks over the generated tree (syntax, semantics...) and then generate the code. How to do it depends on the type of compiler you are building (one or more pass). If you ordered the Dragon Book, for sure you will find all of this there.

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Awesome, thanks for the fast reply! –  vikingsheepman May 23 '13 at 2:34
So if I'm understanding this correctly for the ADD language I proposed in my post I would make a tree as you have posted using the enumerators typedef enum {ExpK} NodeKind; (language only has expressions) typedef enum {OpK} ExpKind; (for the '+' operator) and typedef enum {Integer} ExpType; (only possible expression return) ? Or am I way off base here? –  vikingsheepman May 23 '13 at 2:47
@vikingsheepman Yes, thats right –  Evans May 23 '13 at 2:57

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