How would you write a Parsing Expression Grammar in any of the following Parser Generators (PEG.js, Citrus, Treetop) which can handle Python/Haskell/CoffeScript style indentation:

Examples of a not-yet-existing programming language:

square x =
    x * x

cube x =
    x * square x

fib n =
  if n <= 1
    fib(n - 2) + fib(n - 1) # some cheating allowed here with brackets

Update: Don't try to write an interpreter for the examples above. I'm only interested in the indentation problem. Another example might be parsing the following:

  bar = 1
  baz = 2
  zap = 3

# should yield (ruby style hashmap):
# {:foo => { :bar => 1, :baz => 2}, :tap => { :zap => 3 } }
  • I'm not familiar with Citrus and Treetop, but although PEG.js is a neat little tool, it draws too short for this kind of interpreting, IMO. Also, I don't think someone will post a (fairly) simple grammar file (with actions embedded) able to interpret such a language you describe since there's quite a bit of code involved besides defining the grammar: walking the AST, saving data in different scopes, resolving variables in scopes and perhaps even popping scopes if a certain variable isn't found in it.
    – Bart Kiers
    Nov 18, 2010 at 21:17
  • 2
    P.S. you ask your question in a way as if you yourself have the answer. Is it a real question, or more of a puzzle? If it's a real question, I recommend you give Language Implementation Patterns: Create Your Own Domain-Specific and General Programming Languages a try: it also explains how a language like Python can be interpreted (at least the "indent-sensitive" part, that is).
    – Bart Kiers
    Nov 19, 2010 at 7:02
  • Hi Bart, thanks for the book link. Unfortunatley I don't have the answer. I'm aware that creating an interpreter for a language as given in the examples above is not trivial, but that's not what I expect here. I'm only interested in the part on how one would handle the indentation part/problem of parsing. I am in fact able to write a hand-written parser which keeps track of indentation levels, but I somehow fail miserably to map the concept over to PEGs. Any help is appreciated. Matt
    – Matt
    Nov 20, 2010 at 12:11

5 Answers 5


Pure PEG cannot parse indentation.

But peg.js can.

I did a quick-and-dirty experiment (being inspired by Ira Baxter's comment about cheating) and wrote a simple tokenizer.

For a more complete solution (a complete parser) please see this question: Parse indentation level with PEG.js

/* Initializations */
  function start(first, tail) {
    var done = [first[1]];
    for (var i = 0; i < tail.length; i++) {
      done = done.concat(tail[i][1][0])
    return done;

  var depths = [0];

  function indent(s) {
    var depth = s.length;

    if (depth == depths[0]) return [];

    if (depth > depths[0]) {
      return ["INDENT"];

    var dents = [];
    while (depth < depths[0]) {

    if (depth != depths[0]) dents.push("BADDENT");

    return dents;

/* The real grammar */
start   = first:line tail:(newline line)* newline? { return start(first, tail) }
line    = depth:indent s:text                      { return [depth, s] }
indent  = s:" "*                                   { return indent(s) }
text    = c:[^\n]*                                 { return c.join("") }
newline = "\n"                                     {}

depths is a stack of indentations. indent() gives back an array of indentation tokens and start() unwraps the array to make the parser behave somewhat like a stream.

peg.js produces for the text:


these results:


This tokenizer even catches bad indents.

  • 1
    Very clever! It took me some time to understand what was going on there, but I must admit I don't totally understand how to extend this to do anything useful. Would you mind taking a look at my question if you've got a few minutes? Jul 25, 2012 at 21:44
  • 1
    I am very busy right now and am not able to invest more than a few minutes. Therefore I give you only two little hints: 1. Replace s:text in the line production! Let's say you want JSON with indents then do something like s:definition and definition = name "=" value. 2. You get an array like this: [ [ ...definition...], "INDENT", .... ]. Walk this array and transform it in a recursive form.
    – nalply
    Jul 26, 2012 at 8:27
  • Very nice solution. I just want to point out that this type of saving state can fail if (and I believe only if) you use PEG.js's ability to return null to indicate that the parser shouldn't match
    – B T
    Jan 4, 2013 at 4:33
  • 1
    Actually, I take that back. It has nothing to do with returning null to indicate failure. If the peg parser has to backtrack at all after running an action function, it can cause your indentation to fail. This could happen when you have two constructs that start out in the same way
    – B T
    Jan 4, 2013 at 5:11
  • hmm, isnt this just a tokenizer? You can actually parse it into chained lists and dicts in one step, see here. Jul 6, 2019 at 0:17

So what we are really doing here with indentation is creating something like a C-style blocks which often have their own lexical scope. If I were writing a compiler for a language like that I think I would try and have the lexer keep track of the indentation. Every time the indentation increases it could insert a '{' token. Likewise every time it decreases it could inset an '}' token. Then writing an expression grammar with explicit curly braces to represent lexical scope becomes more straight forward.


I think an indentation-sensitive language like that is context-sensitive. I believe PEG can only do context-free langauges.

Note that, while nalply's answer is certainly correct that PEG.js can do it via external state (ie the dreaded global variables), it can be a dangerous path to walk down (worse than the usual problems with global variables). Some rules can initially match (and then run their actions) but parent rules can fail thus causing the action run to be invalid. If external state is changed in such an action, you can end up with invalid state. This is super awful, and could lead to tremors, vomiting, and death. Some issues and solutions to this are in the comments here: https://github.com/dmajda/pegjs/issues/45

  • 16
    Most parser generator tools can only do context-free languages, at best. (LALR tools only do a subset of context free!). What you do to build real parsers is cheat somewhere. The usual check for python/haskell style indentation is to make the lexer count blanks from the left margin, and insert <INDENT> or <DEDENT> tokens for each change in left margin distance from the previous line. WIth this trick indent-style langauges are now pretty easy to parse, or at least no worse than the usual langauges with block structure.
    – Ira Baxter
    Mar 9, 2011 at 4:47
  • 3
    Lol, I tried downvoting my own post (before I realized it was mine of course) cause nalply's answer is way cooler.
    – B T
    Jan 3, 2013 at 8:06

You can do this in Treetop by using semantic predicates. In this case you need a semantic predicate that detects closing a white-space indented block due to the occurrence of another line that has the same or lesser indentation. The predicate must count the indentation from the opening line, and return true (block closed) if the current line's indentation has finished at the same or shorter length. Because the closing condition is context-dependent, it must not be memoized. Here's the example code I'm about to add to Treetop's documentation. Note that I've overridden Treetop's SyntaxNode inspect method to make it easier to visualise the result.

grammar IndentedBlocks
  rule top
    # Initialise the indent stack with a sentinel:
    &{|s| @indents = [-1] }
      def inspect

  rule nested_blocks
      # Do not try to extract this semantic predicate into a new rule.
      # It will be memo-ized incorrectly because @indents.last will change.
        # Peek at the following indentation:
        save = index; i = _nt_indentation; index = save
        # We're closing if the indentation is less or the same as our enclosing block's:
        closing = i.text_value.length <= @indents.last
      def inspect
        elements.map{|e| e.block.inspect}*"\n"

 rule block
    indented_line       # The block's opening line
    &{|s|               # Push the indent level to the stack
      level = s[0].indentation.text_value.length
      @indents << level
    nested_blocks       # Parse any nested blocks
    &{|s|               # Pop the indent stack
      # Note that under no circumstances should "nested_blocks" fail, or the stack will be mis-aligned
      def inspect
        indented_line.inspect +
          (nested_blocks.elements.size > 0 ? (
            "\n{\n" +
            nested_blocks.elements.map { |content|
            }*'' +
          : "")

  rule indented_line
    indentation text:((!"\n" .)*) "\n"
      def inspect

  rule indentation
    ' '*

Here's a little test driver program so you can try it easily:

require 'polyglot'
require 'treetop'
require 'indented_blocks'

parser = IndentedBlocksParser.new

input = <<END
def foo
  here is some indented text
    here it's further indented
    and here the same
      but here it's further again
      and some more like that
    before going back to here
      down again
  back twice
and start from the beginning again
  with only a small block this time

parse_tree = parser.parse input

p parse_tree

I know this is an old thread, but I just wanted to add some PEGjs code to the answers. This code will parse a piece of text and "nest" it into a sort of "AST-ish" structure. It only goes one deep and it looks ugly, furthermore it does not really use the return values to create the right structure but keeps an in-memory tree of your syntax and it will return that at the end. This might well become unwieldy and cause some performance issues, but at least it does what it's supposed to.

Note: Make sure you have tabs instead of spaces!

    var indentStack = [], 
        rootScope = { 
            value: "PROGRAM",
            values: [], 
            scopes: [] 

    function addToRootScope(text) {
        // Here we wiggle with the form and append the new
        // scope to the rootScope.

        if (!text) return;

        if (indentStack.length === 0) {
                text: text,
                statements: []
        else {

/* Add some grammar */

  = lines: (line EOL+)*
        return rootScope;

  = line: (samedent t:text { addToRootScope(t); }) &EOL
  / line: (indent t:text { addToRootScope(t); }) &EOL
  / line: (dedent t:text { addToRootScope(t); }) &EOL
  / line: [ \t]* &EOL
  / EOF

  = i:[\t]* &{ return i.length === indentStack.length; }
        console.log("s:", i.length, " level:", indentStack.length);

  = i:[\t]+ &{ return i.length > indentStack.length; }
        console.log("i:", i.length, " level:", indentStack.length);

    = i:[\t]* &{ return i.length < indentStack.length; }
          for (var j = 0; j < i.length + 1; j++) {
          console.log("d:", i.length + 1, " level:", indentStack.length);  

    = numbers: number+  { return numbers.join(""); } 
    / txt: character+   { return txt.join(""); }

    = $[0-9] 

    = $[ a-zA-Z->+]  
    = [ ]+

    = [ ]*

    = !.

    = "\r\n" 
    / "\n" 
    / "\r"

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