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This is a good listing, but what is the best one for a complete newb in this area. One for someone coming from a higher level background (VB6,C#,Java,Python) - not to familiar with C or C++. I'm much more interested in hand-written parsing versus Lex/Yacc at this stage.

If I had just majored in Computer Science instead of Psychology I might have taken a class on this in college. Oh well.

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marked as duplicate by nawfal, Hitham S. AlQadheeb, Swati, Raul Rene, Achrome 10 hours ago

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

BTW, hand-writing parsers instead of using YACC/similar does have its place, but it seems the lexing/scanning stage is very seldom handwritten. Also, most mature programming languages seem to have an analog to both Lex and Yacc. –  harms Jan 8 '09 at 22:47
Does CPython? I was looking at that source code and it seemed to be hand-written. PHP seemed to be Yacc'd, I think. I think the Python one is going to be the easiest for me to grok. I'm not sure I follow any of the generated C code yet. –  BuddyJoe Jan 9 '09 at 0:34
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3 Answers 3

up vote 14 down vote accepted

Please have a look at: learning to write a compiler

Also interesting:

And there are more on the topic. But I can give a short introduction:

The first step is the lexical analysis. A stream of characters is translated into a stream of tokens. Tokens can be simple like == <= + - (etc) and they can be complex like identifiers and numbers. If you like I can elaborate on this.

The next step is to translate the tokenstream into a syntaxtree or an other representation. This is called the parsing step.

Before you can create a parser, you need to write the grammar. For example we create an expression parser:


addOp = '+' | '-';
mulOp = '*' | '/';
parLeft = '(';
parRight = ')';
number = digit, {digit};
digit = '0'..'9';

Each token can have different representations: + and = are both addOp and 
23 6643 and 223322 are all numbers.

The language

exp = term | exp, addOp, term;  
// an expression is a series of terms separated by addOps.
term = factor | term, mulOp, factor;
// a term is a series of factors separated by mulOps
factor = addOp, factor | parLeft, exp, parRight | number;
// a factor can be an addOp followed by another factor, 
// an expression enclosed in parentheses or a number.

The lexer

We create a state engine that walks through the char stream, creating a token

  '+', '-' -> s01       // if a + or - is found, read it and go to state s01.
  '*', '/' -> s02
  '('      -> s03
  ')'      -> s04
  '0'..'9' -> s05
  whitespace -> ignore and retry  // if a whitespace is found ignore it
  else ERROR      // sorry but we don't recognize this character in this state.
  found TOKEN addOp     // ok we have found an addOp, stop reading and return token
  found TOKEN mulOp
  found TOKEN parLeft
  found TOKEN parRight
  '0'..'9'     -> s05    // as long as we find digits, keep collecting them
  else found number      // last digit read, we have a number


It is now time to create a simple parser/evaluator. This is complete in code. Normally they are created using tables. But we keep it simple. Read the tokens and calculate the result.

  temp = ParseTerm // start by reading a term
  while token = addOp do
    // as long as we read an addop keep reading terms
    if token('+') then temp = temp + ParseTerm  // + so we add the term
    if token('-') then temp = temp - ParseTerm  // - so we subtract the term
  return temp // we are done with the expression

  temp = ParseFactor
  while token = mulOp do
    if token('*') then temp = temp * ParseFactor
    if token('/') then temp = temp / ParseFactor
  return temp

  if token = addOp then
    if token('-') then return - ParseFactor  // yes we can have a lot of these
    if token('+') then return ParseFactor
  else if token = parLeft then
    return ParseExpression
    if not token = parRight then ERROR
  else if token = number then
    return EvaluateNumber   // use magic to translate a string into a number

This was a simple example. In real examples you will see that error handling is a big part of the parser.

I hope this clarified a bit ;-).

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Thanks. This is great stuff. I guess a few of the stages were confusing me. Now I can go read up more on each stage. –  BuddyJoe Jan 9 '09 at 0:45
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If you're a complete n00b, the most accessible resource (in both senses of the term) is probably Jack Crenshaw's tutorial. It's nowhere near comprehensive but for getting started, I can't think of anything close except for books that are long out of print.

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I'd like to suggest an article that I wrote called Implementing Programming Languages using C# 4.0. I've tried to make it accessible for newcomers. It isn't comprehensive, but afterwards it should be easier to understand other more advanced texts.

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+1 awesome resource. –  BuddyJoe Nov 1 '11 at 19:42
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