@Lothars answer might be "cynical", but it's pretty close to the mark, unfortunately. In order to implement something like
@encode(), you need a full blown parser in order to extract the the type information. Well, at least for anything other than "trivial"
@encode() statements (i.e.,
@encode(char *)). Modern compilers generally have either two or three main components:
- The front end.
- The intermediate end (for some compilers).
- The back end.
The front end must parse all the source code and basically converts the source code text in to an internal, "machine useable" form.
The back end translates the internal, "machine useable" form in to executable code.
Compilers that have an "intermediate end" typically do so because of some need: they support multiple "front ends", possibly made up of completely different languages. Another reason is to simplify optimization: all the optimization passes work on the same intermediate representation. The
gcc compiler suite is an example of a "three stage" compiler.
llvm could be considered an "intermediate and back end" stage compiler: The "low level virtual machine" is the intermediate representation, and all the optimization takes place in this form.
llvm also able to keep it in this intermediate representation right up until the last second- this allows for "link time optimization". The
clang compiler is really a "front end" that (effectively) outputs
llvm intermediate representation.
So, if you want to add
@encode() functionality to an 'existing' compiler, you'd probably have to do it as a "source to source" 'compiler / preprocessor'. This was how the original Objective-C and C++ compilers were written- they parsed the input source text and converted it to "plain C" which was then fed in to the standard C compiler. There's a few ways to do this:
Roll your own
lex to put together a ANSI-C parser. You'll need a grammar- ANSI C grammar (Yacc) is a good start. Actually, to be clear, when I say
yacc, I really mean bison and
flex. And also, loosely, the other various
lex like C-based tools: lemon, dparser, etc...
perl with Yapp or EYapp, which are pseudo-
yacc clones in
perl. Probably better for quickly prototyping an idea compared to C-based
perl after all: Regular expressions, associative arrays, no memory management, etc.
- Build your parser with Antlr. I don't have any experience with this tool chain, but it's another "compiler compiler" tool that (seems) to be geared more towards java developers. There appears to be freely available C and Objective-C grammars available.
Hack another tool
Note: I have no personal experience using any of these tools to do anything like adding
@encode(), but I suspect they would be a big help.
- CIL - No personal experience with this tool, but designed for parsing C source code and then "doing stuff" with it. From what I can glean from the docs, this tool should allow you to extract the type information you'd need.
- Sparse - Worth looking at, but not sure.
- clang - Haven't used it for this purpose, but allegedly one of the goals was to make it "easily hackable" for just this sort of stuff. Particularly (and again, no personal experience) in doing the "heavy lifting" of all the parsing, letting you concentrate on the "interesting" part, which in this case would be extracting context and syntax sensitive type information, and then convert that in to a plain C string.
- gcc Plugins - Plugins are a gcc 4.5 (which is the current alpha/beta version of the compiler) feature and "might" allow you to easily hook in to the compiler to extract the type information you'd need. No idea if the plugin architecture allows for this kind of thing.
- Coccinelle - Bookmarked this recently to "look at later". This "might" be able to do what you want, and "might" be able to do it with out much effort.
- MetaC - Bookmarked this one recently too. No idea how useful this would be.
- mygcc - "Might" do what you want. It's an interesting idea, but it's not directly applicable to what you want. From the web page: "Mygcc allows programmers to add their own checks that take into account syntax, control flow, and data flow information."
Edit #1, the bonus links.
@Lothar makes a good point in his comment. I had actually intended to include
lcc, but it looks like it got lost along the way.
- lcc - The
lcc C compiler. This is a C compiler that is particularly small, at least in terms of source code size. It also has a book, which I highly recommend.
- tcc - The
tcc C compiler. Not quite as pedagogical as
lcc, but definitely still worth looking at.
- poc - The
poc Objective-C compiler. This is a "source to source" Objective-C compiler. It parses the Objective-C source code and emits C source code, which it then passes to
gcc (well, usually
gcc). Has a number of Objective-C extensions / features that aren't available in
gcc. Definitely worth looking at.