If you do only trivial examples, you can hack this with Perl or some java regex. It won't work reliably on complex programs, because you need a real parser.
Our DMS Software Reengineering Toolkit and its C Front End could be used to to this pretty reliably.
DMS provides general purpose program analysis and transformation capability, parameterized by a programming langauge description. DMS's C Front explains to DMS what the precise syntax is for C (for a variety of dialects of C, including GCC and MS); it in effect provides a complete parser, producing Abstract Syntax trees (and the inverse: a C code generator from the ASTs) This allows DMS to read C source files accurately, including preprocessing.
With the parsed code in AST form, you can build DMS functions and/or write patterns to find function definitions and in particular your targeted variable. DMS code or alteratevely source-to-source transforms can then be used to either lift the variable out of the function, and/or insert code to track state changes of that variable so it can be seen.
So, with DMS and some custom code, you can achieve your desired effect. The example you provided is probably pretty simple to do with DMS, but the learning curve will stil be a lot; DMS is complex because the langauges it handles are complex, and you have to learn how to use it. So, this isn't an afternoon's exercise for a newbie.
Note: you will want to do this to preprocessed programs (otherwise you won't be generally able to parse them reliably). So, this should be something you do just before compilation, and shouldn't become part of the finalized code.
If you want to make permanent code changes, you'll need to parse the unpreprocessed code; that's a heckuva lot harder. DMS's C front end can do this to the extent the preprocessor directives are "structured"; about 95% of them are. So now you have a new problem: either fix the unstructured ones (a one time manual change), or reject files that can't be parsed with "tough luck".
You might use GCC instead of DMS; after all it has a very well tested C parser. It won't help you generate modified C code, though. Another alternative is Clang, which is coming up fast as a pretty good alternative. I think it will parse C++; not so sure about C or in particular the dialect of C your end user may be using (you didn't say). It has ASTs like DMS, and a kind of scheme for generating "patches" to code that might work.