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I am wondering where I can find C tutorial/example of using AntLR. All I found is using Java language.

I am focusing to find a main function which use the parser and lexer generated by AntLR.

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Looking for tutorials is off-topic. A user with over 2K reputations like you should know that. – Yu Hao Jan 1 '14 at 1:56
contrapunctus.net/blog/2012/antlr-c a simple google would suffice. Note however, the example is C++ I don't think ANTLR supports PURE C – Aniket Jan 1 '14 at 1:56
Hello, I'm wondering whether you're Korean. Are you? – Jason Heo Oct 22 '14 at 7:41
up vote 0 down vote accepted

contrapunctus.net/blog/2012/antlr-c a simple google would suffice. Note however, the example is C++ I don't think ANTLR supports PURE C – Aniket Jan 1 at 1:56

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Move Aniket's comment to answer – Adam Lee Jan 5 '14 at 3:38

Take a look at this document

And here is an example:

// Example of a grammar for parsing C sources,
// Adapted from Java equivalent example, by Terence Parr
// Author: Jim Idle - April 2007
// Permission is granted to use this example code in any way you want, so long as
// all the original authors are cited.

// set ts=4,sw=4
// Tab size is 4 chars, indent is 4 chars

// Notes: Although all the examples provided are configured to be built
//        by Visual Studio 2005, based on the custom build rules
//        provided in $(ANTLRSRC)/code/antlr/main/runtime/C/vs2005/rulefiles/antlr3.rules
//        there is no reason that this MUST be the case. Provided that you know how
//        to run the antlr tool, then just compile the resulting .c files and this
//    file together, using say gcc or whatever: gcc *.c -I. -o XXX
//    The C code is generic and will compile and run on all platforms (please
//        report any warnings or errors to the antlr-interest newsgroup (see www.antlr.org)
//        so that they may be corrected for any platform that I have not specifically tested.
//    The project settings such as additional library paths and include paths have been set
//        relative to the place where this source code sits on the ANTLR perforce system. You
//        may well need to change the settings to locate the includes and the lib files. UNIX
//        people need -L path/to/antlr/libs -lantlr3c (release mode) or -lantlr3cd (debug)
//        Jim Idle (jimi cut-this at idle ws)

// You may adopt your own practices by all means, but in general it is best
// to create a single include for your project, that will include the ANTLR3 C
// runtime header files, the generated header files (all of which are safe to include
// multiple times) and your own project related header files. Use <> to include and
// -I on the compile line (which vs2005 now handles, where vs2003 did not).
#include    <C.h>

// Main entry point for this example
main    (int argc, char *argv[])
    // Now we declare the ANTLR related local variables we need.
    // Note that unless you are convinced you will never need thread safe
    // versions for your project, then you should always create such things
    // as instance variables for each invocation.
    // -------------------

    // Name of the input file. Note that we always use the abstract type pANTLR3_UINT8
    // for ASCII/8 bit strings - the runtime library guarantees that this will be
    // good on all platforms. This is a general rule - always use the ANTLR3 supplied
    // typedefs for pointers/types/etc.
    pANTLR3_UINT8       fName;

    // The ANTLR3 character input stream, which abstracts the input source such that
    // it is easy to provide input from different sources such as files, or 
    // memory strings.
    // For an ASCII/latin-1 memory string use:
    //      input = antlr3NewAsciiStringInPlaceStream (stringtouse, (ANTLR3_UINT64) length, NULL);
    // For a UCS2 (16 bit) memory string use:
    //      input = antlr3NewUCS2StringInPlaceStream (stringtouse, (ANTLR3_UINT64) length, NULL);
    // For input from a file, see code below
    // Note that this is essentially a pointer to a structure containing pointers to functions.
    // You can create your own input stream type (copy one of the existing ones) and override any
    // individual function by installing your own pointer after you have created the standard 
    // version.
    pANTLR3_INPUT_STREAM    input;

    // The lexer is of course generated by ANTLR, and so the lexer type is not upper case.
    // The lexer is supplied with a pANTLR3_INPUT_STREAM from whence it consumes its
    // input and generates a token stream as output.
    pCLexer         lxr;

    // The token stream is produced by the ANTLR3 generated lexer. Again it is a structure based
    // API/Object, which you can customise and override methods of as you wish. a Token stream is
    // supplied to the generated parser, and you can write your own token stream and pass this in
    // if you wish.
    pANTLR3_COMMON_TOKEN_STREAM     tstream;

    // The C parser is also generated by ANTLR and accepts a token stream as explained
    // above. The token stream can be any source in fact, so long as it implements the 
    // ANTLR3_TOKEN_SOURCE interface. In this case the parser does not return anything
    // but it can of course specify any kind of return type from the rule you invoke
    // when calling it.
    pCParser                psr;

    // Create the input stream based upon the argument supplied to us on the command line
    // for this example, the input will always default to ./input if there is no explicit
    // argument.
    if (argc < 2 || argv[1] == NULL)
        fName   =(pANTLR3_UINT8)"./input"; // Note in VS2005 debug, working directory must be configured
        fName   = (pANTLR3_UINT8)argv[1];

    // Create the input stream using the supplied file name
    // (Use antlr3AsciiFileStreamNew for UCS2/16bit input).
    input   = antlr3AsciiFileStreamNew(fName);

    // The input will be created successfully, providing that there is enough
    // memory and the file exists etc
    if ( input == NULL)
        fprintf(stderr, "Failed to open file %s\n", (char *)fName);

    // Our input stream is now open and all set to go, so we can create a new instance of our
    // lexer and set the lexer input to our input stream:
    //  (file | memory | ?) --> inputstream -> lexer --> tokenstream --> parser ( --> treeparser )?
    lxr     = CLexerNew(input);     // CLexerNew is generated by ANTLR

    // Need to check for errors
    if ( lxr == NULL )

        fprintf(stderr, "Unable to create the lexer due to malloc() failure1\n");


    // Our lexer is in place, so we can create the token stream from it
    // NB: Nothing happens yet other than the file has been read. We are just 
    // connecting all these things together and they will be invoked when we
    // call the parser rule. ANTLR3_SIZE_HINT can be left at the default usually
    // unless you have a very large token stream/input. Each generated lexer
    // provides a token source interface, which is the second argument to the
    // token stream creator.
    // Note that even if you implement your own token structure, it will always
    // contain a standard common token within it and this is the pointer that
    // you pass around to everything else. A common token as a pointer within
    // it that should point to your own outer token structure.
    tstream = antlr3CommonTokenStreamSourceNew(ANTLR3_SIZE_HINT, TOKENSOURCE(lxr));

    if (tstream == NULL)
    fprintf(stderr, "Out of memory trying to allocate token stream\n");

    // Finally, now that we have our lexer constructed, we can create the parser
    psr     = CParserNew(tstream);  // CParserNew is generated by ANTLR3

    if (psr == NULL)
    fprintf(stderr, "Out of memory trying to allocate parser\n");

    // We are all ready to go. Though that looked complicated at first glance,
    // I am sure, you will see that in fact most of the code above is dealing
    // with errors and there isn't really that much to do (isn't this always the
    // case in C? ;-).
    // So, we now invoke the parser. All elements of ANTLR3 generated C components
    // as well as the ANTLR C runtime library itself are pseudo objects. This means
    // that they are represented as pointers to structures, which contain any
    // instance data they need, and a set of pointers to other interfaces or
    // 'methods'. Note that in general, these few pointers we have created here are
    // the only things you will ever explicitly free() as everything else is created
    // via factories, that allocated memory efficiently and free() everything they use
    // automatically when you close the parser/lexer/etc.
    // Note that this means only that the methods are always called via the object
    // pointer and the first argument to any method, is a pointer to the structure itself.
    // It also has the side advantage, if you are using an IDE such as VS2005 that can do it
    // that when you type ->, you will see a list of tall the methods the object supports.

    // We did not return anything from this parser rule, so we can finish. It only remains
    // to close down our open objects, in the reverse order we created them
    psr     ->free  (psr);      psr = NULL;
    tstream ->free  (tstream);      tstream = NULL;
    lxr     ->free  (lxr);      lxr = NULL;
    input   ->close (input);        input = NULL;

    return 0;
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