I'm working on a C++ source analyzer project and it seems that clang is nice candidate for the parsing work. The problem is that clang heavily depends on the infrastructure "llvm" project, How do I configure it to get a clean front-end without any concrete machine oriented backend? Just like LCC does, they provide a "null" backend for people who focus on parser parts. Any suggestion is appreciated.

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    Apart from a few Support library (which provides some utility classes and OS-independant code) you should not need the full LLVM. Which libraries of Clang are you using ? – Matthieu M. Nov 9 '11 at 9:15
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    Do you know about libclang ? It's a C library (with a guaranteed stable interface) that can expose the Clang AST. It's much more lightweight. Otherwise, you may simply use the C++ libraries (beware that the interface is not stable), the executable embeds stuff that won't be really useful for you, I think. – Matthieu M. Nov 9 '11 at 10:03
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    If you'd like to checkout libclang, you might like to checkut this presentation – Grzegorz Wierzowiecki Jan 8 '12 at 10:57
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    did you figure out a way?? if yes how did you do this please tell as i'm in a similar situation now... – A. K. Feb 3 '12 at 4:52
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    Probably off-topic, probably helpful: Have a look at the sources of the SublimeClang plugin for the text editor Sublime Text. Works really really well for me. – allesblinkt Feb 11 '12 at 1:39

I recently did this on Windows.

Download the clang and llvm source from here.

Install cmake and Python (contrary to the docs, you do need Python just to build clang; at least, cmake gives up if it can't find a Python runtime).

You also need VS2008 or VS2010.

One thing that's not entirely obvious is the required directory structure:

    build  <- intermediate build files and DLLs, etc. will go here
    llvm  <- contents of llvm-3.0.src from llvm-3.0.tar go here
            clang  <- contents of clang-3.0.src from clang-3.0.tar go here

And follow the windows build instructions from step 4 onwards. Don't attempt to use the cmake GUI, it's a horror; just use the commands given in the build instructions.

Once the build is complete (which takes a while) you'll have:

            Release  <- libclang.dll will be here
            Release  <- libclang.lib will be here
                    clang-c  <- Index.h is here

Index.h defines the API to access information about your source code; it contains quite a bit of documentation about the APIs.

To get started using clang you need something like:

CXIndex index = clang_createIndex(1, 1);

// Support Microsoft extensions
char *args[] = {"-fms-extensions"};

CXTranslationUnit tu = clang_parseTranslationUnit(index, "mySource.c", args, ARRAY_SIZE(args), 0, 0, 0);

if (tu)
    CXCursor cursor = clang_getTranslationUnitCursor(tu);

    // Use the cursor functions to navigate through the AST
  • Thanks arx! I'm trying your approach. – Haiyuan Li Feb 16 '12 at 1:16
  • yes it perfectly works. – Haiyuan Li Feb 17 '12 at 9:23

Unfortunately, you cannot get "pure" front-end without machine-specific details. C/C++ are inherently machine-tied languages. Think about preprocessor and built-in defines, the sizes of the builtin types, etc. Some of these can be abstracted out, but not e.g. preprocessor.

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