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I want to parse C/C++-code with my primitive parser to get ast-tree.

But it doesn't support macro and typedefs.

It is possible to unveil macro definitions in any C/C++-project with help of gcc options. After that my own parser is able to cope with C/C++-code, but only in case, if there is no typedefs in it.

So, I'd like in some way to get rid of typedefs. But I have no idea, what should I do.

I want to replace redefined type names, for example:

typedef char CHAR;
typedef int& INT;
INT a;

by their originals:

int &a;
char b;

As result, I want to get the same sources, but with original types, without typedefs.

I guess, it is very simple task for compiler, but not for the student's project. :)

As far, as I know, DECL_ORIGINAL_TYPE (TYPE_NAME (t)) of g++ points to the tree node with original object's type. But I really wouldn't like to dive into the g++ sources to adopt it for my demands.

So, what is the easiest way to unveil the typedefs?

Any help would be greatly appreciated.


The solution with GCCXML is really good, but I still don't understand, how to get C/C++ code from it's XML representation. Could you explain, what should I do to transform XML:

(an example from

<?xml version="1.0"?>
  <Namespace id="_1" name="::" members="_2 _3 _4 "/>
  <Function id="_2" name="main" returns="_5" context="_1" location="f0:8"/>
  <Function id="_3" name="a_function" returns="_5" context="_1" location="f0:4">
    <Argument name="f" type="_6"/>
    <Argument name="e" type="_4"/>
  <Struct id="_4" name="EmptyClass" context="_1" location="f0:1" members="_7 _8 " bases=""/>
  <FundamentalType id="_5" name="int"/>
  <FundamentalType id="_6" name="float"/>
  <Constructor id="_7" name="EmptyClass" context="_4" location="f0:1">
    <Argument name="_ctor_arg" type="_9"/>
  <Constructor id="_8" name="EmptyClass" context="_4" location="f0:1"/>
  <ReferenceType id="_9" type="_4c"/>
  <File id="f0" name="example1.cxx"/>

back to C/C++:

(an example from

struct EmptyClass {};

int a_function(float f, EmptyClass e)

int main(void)
  return 0;

Could you explain it please?

share|improve this question
AFAIK there is no such option for g++ (and by the way, do you handle templates? If you do, typedefs should be a piece of cake in comparison, and if you don't, it's not c++ yet :) – Anton Kovalenko Feb 11 '13 at 10:33
Unless you put some serious constraints upon your requirements, this task amounts to implementing a large portion of a C++ compiler frontend. – R. Martinho Fernandes Feb 11 '13 at 10:34
Why not use clang for the task? – Alexey Frunze Feb 11 '13 at 10:35
have you looked at GCC-MELT: ? – Necrolis Feb 11 '13 at 11:04
Anton Kovalenko No, templates will be implemented in a a bright future. :) But at this moment, I need to unveal the typedefs. – Lucky Man Feb 11 '13 at 11:42
up vote 3 down vote accepted

since types are a big complex argument, I would suggest to use GCCXML. It's a frontend that produces an abstract syntax tree from concrete source. I used it to generate interfaces Prolog/OpenGL. If you want to put it to good use you'll need a good XML reader (SWI-Prolog it's really good at this).


the following micro file x.c

typedef struct A {
  int X, Y;
} T;

T v[100];

processed with

gccxml -fxml=x.xml x.c

produces in x.xml (among many others) the following xml statement

<Variable id="_3" name="v" type="_141" context="_1" location="f0:5" file="f0" line="5"/>
<Struct id="_139" name="A" context="_1" mangled="1A" demangled="A" location="f0:1" file="f0" line="1" artificial="1" size="64" align="32" members="_160 _161 _162 _163 _164 _165 " bases=""/>
<Typedef id="_140" name="T" type="_139" context="_1" location="f0:3" file="f0" line="3"/>
<ArrayType id="_141" min="0" max="99u" type="_140" size="6400" align="32"/>
<Field id="_160" name="X" type="_147" offset="0" context="_139" access="public" location="f0:2" file="f0" line="2"/>
<Field id="_161" name="Y" type="_147" offset="32" context="_139" access="public" location="f0:2" file="f0" line="2"/>
<Destructor id="_162" name="A" artificial="1" throw="" context="_139" access="public" mangled="_ZN1AD1Ev *INTERNAL* " demangled="A::~A()" location="f0:1" file="f0" line="1" endline="1" inline="1">

You can see that following the type="..." symbol chain you can reconstruct the type assigned to typedef.

share|improve this answer
Thanks for answer. Do you mean to replace my parser with GCCXML? I'd like to use my parser. :) Is there some fast and easy way to just unveal typedefs with GCCXML? Could you explain what should I do to replace typedefs with help of GCCXML, please? – Lucky Man Feb 11 '13 at 11:57
GCCXML produces an XML representation of the interface, where complex types are 'destructured' up to elementary types, stored by name. Then you could use the output of GCCXML as symbol table lookup. It's nevertheless rather complex, because types are nested structures. I'll try to build a mini sample... – CapelliC Feb 11 '13 at 13:11
It's a very interesting solution. :) But I still have some questions. How does it possible to get C/C++ program from xml? Sorry, but I am newbie in XML parsing. Are there effective libraries to perform "following the type="" " ... ? :) May be, it is enough to implement a simple bash script to perform such replacement? – Lucky Man Feb 11 '13 at 13:44
I think that the easier way to read XML depends on what language you are using and are acquainted: if it's C++, there is plenty of XML parsers, for instance I used some time ago RapidXML. To inspect the structure manually and learn about the representation any decent text editor will do, or use Firefox that can display folding. – CapelliC Feb 11 '13 at 13:58
Could you explain, how to transform XML-file back to C/C++? – Lucky Man Feb 12 '13 at 7:53

For resolving macros you can use cpp, the gcc preprocessor, it prints to stdout the preprocessed code. Unfortunately for you typedef are not macros, so you would need to handle them yourself.

share|improve this answer

It seems to me that you're jumping the gun on translation phases. Typedef substitution seems easy in comparison to comment substitution. Does your program recognise the following as comments, yet? If not, then I'd suggest going back to translation phases 1&2 before attempting 3&4.

// this is a basic comment
/* this is another basic comment */

// this is a slightly\
   less basic comment
/* this is a slightly
 * less basic comment */

share|improve this answer

Parsing C++ is very hard, requiring a recursive descent parser. I suggest you use GCCXML as proposed by @CapelliC, or as a better maintained alternative, use libclang. There even exist Python bindings which make it's use so much simpler.

share|improve this answer
AFAIK C++ (and C also) cannot be parsed with a recursive parser (that accounts for the simpler parsing technology available), and its grammar isn't neither context free... – CapelliC Feb 12 '13 at 8:41
C++ does not require a recursive descent parser. It can be parsed by a variety of means with some hackery in some cases (GCC famously used to parse with LALR and hacks), with no hackery in others. Our C++ front end uses GLR parsing and parses ANSI C++11, GCC and MS 2012 dialects just fine, with no hackery. It does require a huge amount of attention to detail, and then you get to do name and type resolution, which is far harder than parsing. – Ira Baxter Feb 13 '13 at 4:37
I stand corrected ;-) But the main point was that in order to get it right, an enormous effort is required. – Michael Wild Feb 13 '13 at 7:14

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