You're obviously looking for a static analysis tool that can
- parse C++ on scale
- locate code fragments of interest
- extract a model
- pass that model to a model checker
- report that result to you
A significant problem is that everybody has a different idea about what model they'd like to check.
That alone likely kills your chance of finding exactly what you want, because each model extraction tool
has generally made a choice as to what it wants to capture as a model, and the chances that it matches
what you want precisely are IMHO close to zero.
You aren't clear on what specifically you want to model, but I presume you want to find the communication
primitives and model the process interactions to check for something like deadlock?
The commercial static analysis tool vendors seem like a logical place to look, but I don't think they are there, yet. Coverity would seem like the best bet, but it appears they only have some kind of dynamic analysis for Java threading issues.
This paper claims to do this, but I have not looked at in any detail: Compositional analysis of C/C++ programs
with VeriSoft. Related is [PDF] Computer-Assisted Assume/Guarantee Reasoning with VeriSoft. It appears you have to hand-annotate
the source code to indicate the modelling elements of interest. The Verifysoft tool itself appears to be proprietary to Bell Labs and is likely hard to obtain.
Similarly this one: Distributed Verification of Multi-threaded C++ Programs .
This paper also makes interesting claims, but doesn't process C++ in spite of the title:
Runtime Model Checking of Multithreaded C/C++ Programs.
While all the parts of this are difficult, an issue they all share is parsing C++ (as exemplified by
the previously quoted paper) and finding the code patterns that provide the raw information for the model.
You also need to parse the specific dialect of C++ you are using; its not nice that the C++ compilers all accept different languages. And, as you have observed, processing large C++ codes is necessary. Model checkers (SPIN and friends) are relatively easy to find.
Our DMS Software Reengineering Toolkit provides for general purpose parsing, with customizable pattern matching and fact extraction, and has a robust C++ Front End that handles many dialects of C++. It could likely be configured to find and extract the facts that correspond to the model you care about. But it doesn't do this this off the shelf.
DMS with its C front end have been used to process extremely large C applications (19,000 compilation units!). The C++ front end has been used in anger on a variety of large-scale C++ projects but not generally at that scale. Given DMS's general capability, I think it likely capable of handling fairly big chunks of code. YMMV.