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I'm dusting off an old project of mine which calculates a number of simple metrics about large software projects. One of the metrics is the length of files/classes/methods. Currently my code "guesses" where class/method boundaries are based on a very crude algorithm (traverse the file, maintaining a "current depth" and adjusting it whenever you encounter unquoted brackets; when you return to the level a class or method began on, consider it exited). However, there are many problems with this procedure, and a "simple" way of detecting when your depth has changed is not always effective.

To make this give accurate results, I need to use the canonical way (in each language) of detecting function definitions, class definitions and depth changes. This amounts to writing a simple parser to generate parse trees containing at least these elements for every language I want my project to be applicable to.

Obviously parsers have been written for all these languages before, so it seems like I shouldn't have to duplicate that effort (even though writing parsers is fun). Is there some open-source project which collects ready-to-use parser libraries for a bunch of source languages? Or should I just be using ANTLR to make my own from scratch? (Note: I'd be delighted to port the project to another language to make use of a great existing resource, so if you know of one, it doesn't matter what language it's written in.)

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There are syntax-highlighting libraries (pygments comes to mind) that handle many different languages. I wonder if one of them would provide enough information for your case. I suspect not, but it might be worth a look. – Ken Apr 2 '10 at 15:03
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If you want language-accurate parsing, especially in the face of language complications such as macros and preprocessor conditionals, you need full language parsers. These are actually quite a lot of work to construct, and most languages don't lend themselves nicely to the various kinds of parser generators around. Nor are most authors of a language parser interested in other langauges; they tend to choose some parser generator that isn't obviously a huge roadblock when they start, implement their parser for the specific purpose they intend, and move on.

Consequence: there are very few libraries of language definitions around that are defined using a single formalism or a shared foundation. The ANTLR crowd maintains one of the larger sets IMHO, although as far as I can tell most of those parsers are not-quite-production capable. There's always Bison, which has been around long enough so you'd expect a library of langauge definitions to be collected somewhere, but I've never seen one.

I've spent the last 15 years defining foundation machinery for program analysis and transformation, and building another such library, called the DMS Software Reengineering Toolkit. It has production quality parsers for C, C++, C#, Java, COBOL (IBM Enterprise version), JCL, PHP, Python, etc. Your opinion may of course vary from mine but these are used daily with DMS to carry out mass change tasks on large bodies of code.

I don't know of any others where the set of langauge definitions are mature and built on a single foundation... it may be that IBM's compilers are such a set, but IBM doesn't offer out the machinery or the language definitions.

If all you want to do is compute simple metrics, you might be able to live with just lexers and ad hoc nest-counting (as you've described). Even that's harder than it looks to make it work right in most cases (check out Python's, Perl's and PHP crazy string syntaxes). When all is said and done, even C is a surprising amount of work just to define an accurate lexer: we have several thousand lines of sophisticated regular expressions to cover all the strange lexemes you find in Microsoft and/or GNU C.

Because DMS has consistently-defined, mature parsers for many languages, it follows that DMS has consistently defined, mature lexers for the same langauges. We actually build a Source Code Search Engine (SCSE) that provides fast search across large bodies of codes in multiple languages that works by lexing the languages it encounters and indexing those lexemes for fast lookup. The SCSE just so happens to compute the kind of metrics you are discussing, too, as it indexes the code base, pretty much the way you describe, except that it has these langauage accurate lexers to use.

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Ira, thanks for a fascinating answer! The DMS Software Reengineering Toolkit looks rather like a larger (more well-thought-out, less metrics-focused) version of what I'm trying to do. Hmm. It's interesting that you mention PHP, because that's exactly what drove me to the decision that I needed a real parser. If I may ask, do you have any recommendations if I decide to write my own parsers for several languages? (Then again, looking at the Semantic Designs website, strategies for writing such a series of parsers may verge on trade secrets! If that's so, please disregard the question.) – Arkaaito Apr 2 '10 at 18:45
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We don't do anything that's secret. The strategy to writing parsers easily is to get the strongest parsing technology you can get (GLR), the most precise language definition (PHP fails this test prett badly), code a grammar and shove millions of lines of code through it looking for failures. The real issue is just sweat; even with this strategy, it takes a lot of energy for each language. The point of building DMS was to avoid duplicating the common infrastructure for each new language (I'd already been doing this kind of thing for 25 years before I decided to build DMS). – Ira Baxter Apr 2 '10 at 20:25

You might be interested in gcc-xml if you are parsing C++. Java CUP has grammars for the Java language.

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gcc-xml won't give any information on the bodies of functions, just declarations. Hard to get useful metrics when you only see function headers. – Ira Baxter Nov 7 '11 at 8:17

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