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Which Python tool can you recommend to parse programming languages? It should allow for a readable representation of the language grammar inside the source, and it should be able to scale to complicated languages (something with a grammar as complex as e.g. Python itself).

When I search, I mostly find pyparsing, which I will be evaluating, but of course I'm interested in other alternatives.

Edit: Bonus points if it comes with good error reporting and source code locations attached to syntax tree elements.

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I think you will find the problem of defining the programming languages to be the hard part of your task. (If you want to parse Python, I'm sure you can get that off the shelf in Python). Parsing Java >=1.5 will be harder. Parsing C++ will be very difficult; wait till you get to C++11x. And you can't do much unless you do name and type resolution ("build symbol tables") after your parse. There's a lot more work here than you might guess. If your task is manipulating programming languages, you might consider a tool that can do this already, rather than trying to roll your own. –  Ira Baxter Jul 6 '11 at 17:37

8 Answers 8

up vote 13 down vote accepted

I really like pyPEG. It's error reporting isn't very friendly, but it can add source code locations to the AST.

pyPEG doesn't have a separate lexer, which would make parsing Python itself hard (I think CPython recognises indent and dedent in the lexer), but I've used pyPEG to build a parser for subset of C# with surprisingly little work.

An example adapted from A simple language like this:

function fak(n) {
    if (n==0) { // 0! is 1 by definition
        return 1;
    } else {
        return n * fak(n - 1);

A pyPEG parser for that language:

def comment():          return [re.compile(r"//.*"),
                                re.compile("/\*.*?\*/", re.S)]
def literal():          return re.compile(r'\d*\.\d*|\d+|".*?"')
def symbol():           return re.compile(r"\w+")
def operator():         return re.compile(r"\+|\-|\*|\/|\=\=")
def operation():        return symbol, operator, [literal, functioncall]
def expression():       return [literal, operation, functioncall]
def expressionlist():   return expression, -1, (",", expression)
def returnstatement():  return keyword("return"), expression
def ifstatement():      return (keyword("if"), "(", expression, ")", block,
                                keyword("else"), block)
def statement():        return [ifstatement, returnstatement], ";"
def block():            return "{", -2, statement, "}"
def parameterlist():    return "(", symbol, -1, (",", symbol), ")"
def functioncall():     return symbol, "(", expressionlist, ")"
def function():         return keyword("function"), symbol, parameterlist, block
def simpleLanguage():   return function
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Looks very nice. As I'll use Python in the initial design phase only, when performance is not a top requirement, this seems to be it. –  Stefan Majewsky Jul 8 '11 at 14:48
I'm trying to find out how to run this example. I assume it should be something like from __future__ import unicode_literals, print_function ; from pypeg2 import * ; f = parse(example_string,simpleLanguage). Provided that you load the above example as example_string. But that doesn't work. Also, the syntax is very different from the (current )original example on the pyPEG website. Any suggestions how to run the same code? –  user989762 Dec 6 '13 at 5:45
@user989762 The link points at version 2 of pyPEG, which indeed uses a different syntax and conceptual model. Here is the version 1: –  Feuermurmel Jan 16 '14 at 15:33

Antlr is what you should look at

Take a look at this

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Looks nice, but I have a personal hatred for anything Java. (Partly because it's an awful language to me, and because installations never worked correctly for me.) –  Stefan Majewsky Jul 4 '11 at 13:16
Only the code generator tool is Java. You can generate code for several languages, so you don't need to write or deploy any Java code to use ANTLR. –  John Zwinck Jul 4 '11 at 13:26
You need not know java to use antlr. Try it out they have a free book on the site as well. Once you are through chapter 4 you can simply use the antlr python parser grammer code from the website. –  Ankur Gupta Jul 4 '11 at 13:31
@Ankur Gupta, what free book? –  Bart Kiers Jul 4 '11 at 14:01
@Stefan: Of all the software I've ever installed, the Java runtimes and development kits have given me the least (close to zero) trouble, and I've been doing this since Java first came out. (No, I'm not a Java lover, just a Java user). –  Ira Baxter Jul 6 '11 at 16:04

for the error reporting: did you detect, that pyPEG has a tracing facility? Just set pyPEG.print_trace = True, and pyPEG will give you a full trace of what's happening inside.

Yours, Volker Birk (author of pyPEG)

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If you're evaluating PyParsing, I think you should look at funcparserlib:

It's a bit similar, but in my experience resulting code is much cleaner.

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Ned Batchelder did a survey of python parsing tools, which apparently he keeps updated (last updated July 2010):

If I was going to need a parser today, I would either roll my own recursive descent parser, or possibly use PLY or LEPL -- depending on my needs and whether or not I was willing to introduce an external dependency. I wouldn't personally use PyParsing for anything very complicated.

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This is bit of outdated comment, but just for the record, I would and have used pyparsing to implement something fairly complicated -- for maintainability, it's fantastic. Its one of the best pure-Python parsing tools in existence. I forget which famous programmer it was who said, "If you're thinking of rolling your own recursive descent parser, don't". Just my two cents. –  Gilead Jul 20 '12 at 5:56
PLY is the preferred solution after possibly prototyping with a lighter and higher level approach like PyParsing. The documentation of PLY is really good, error reporting is good, and it has a robust plain structure of defining the grammar. Even with packrat enabled, PyParsing can be orders of magnitude slower than PLY. –  Ioannis Filippidis Apr 9 '14 at 9:20

For a more complicated parser I would use pyparsing. Pyparsing

Here is the parsed example from there home page

from pyparsing import Word, alphas
greet = Word( alphas ) + "," + Word( alphas ) + "!" # <-- grammar defined here
hello = "Hello, World!"
print hello, "->", greet.parseString( hello )
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The OP already knows about it and said he is going to evaluate it. Your point? (I am not the downvoter, BTW) –  mac Jul 4 '11 at 13:18
Good point should have read the question further. –  Jakob Bowyer Jul 4 '11 at 17:19
Pyparsing does belong in the answers, though, to allow up/down votes. It probably would have been better for the OP to include it as an answer right from the start. –  Michael J. Barber Jul 7 '11 at 14:55

For simple task I tend to use the shlex module.

See for evaluation of language parsing in python.

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shlex is not suitable for parsing complex languages like Python –  Andreas Jung Jul 4 '11 at 13:20
@Sentinel, well aware of it,that's why I wrote simple :-) –  Fredrik Pihl Jul 4 '11 at 13:23

Antlr generates LL(*) parsers. That can be good, but sometimes removing all left recursion can be cumbersome.

If you are LALR(1)-savvy, you can use PyBison. It has similar syntax to Yacc, if you know what it is. Plus, there are a lot of people out there that know how yacc works.

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