Being less than 100 lines doesn't help you much; people can write a program that uses every feature of C language (and the compiler extensions!) in a program that size. So you are saying you have to deal with the entire C language (statements, expressions, functions, structures, typedefs, macros, preprocessor conditionals, ...). If this is a school project, I think that's too hard; you will need to limit your project to a interesting subset, say, functions, assignments, while statements and function calls.
What you need to do this straightforwardly is
- A parser for the C language
- The ability to climb over the AST
- The ability to patch the AST
- The ability to emit the AST as source text
Program transformations system are nearly ideal engines to accomplish this kind of work.
These allow you to additionally do pattern-directed changes to the AST, which makes this much easier to implement.
You can probably do this with TXL or Stratego; I'm sure both have C parsers that will handle the limited subset of C that you should be willing to do.
You could do with this our DMS Software Reengineering Toolkit, although this is probably not suited for student use in short period of time. (TXL and Stratego are free, but might have steep learning curves, too).
But you will find this document on instrumenting code to build test coverage tools probably an ideal introduction to what you need to do to accomplish your task with a transformation system.
EDIT: I transcribed Hari's comment with an example into his question.
I think he wants a tracer not a profiler.
He can do that using instrumentation, but he'll have a lot of instrumentation to insert because it looks like the goal is tracing every action.
In that case, it would be easier if he had an interpreter, but he needs one that keeps the code structure around so that he can report the code structure as it runs (so CINT which compiles to a pcode wouldn't be the right answer).
What he needs is full C parsing to AST with symbol tables, an interpreter that executes the ASTs, and a prettyprinter so that he can convert appropriate parts of the AST he is currently executing back into text to report as progress.
DMS is still a very good foundation for this, as it has all the machinery needed to support this task too.
Parse the C text, build the symbol table (all built into DMS for C) and then run a custom interpreter.
This is easily coded as an interpreter over the AST; a big case statement over the tree node types would be the interpreter core, with node-type specific cases carrying out the action implied by the AST node (including climbing up or down the tree, updating symbol table entries with new values, computing expression intermediate results, and of course reporting progress.
ANTLR might work; it has a C parser but I'm not so sure about a prettyprinter. The interpreter would work pretty much the same way.
TXL and Stratego would likely be awkward for this, as it isn't clear how you'd use their pure-transformational style to alternatate interpreting and printing trace data.