The tool Scientific Toolworks "Understand" tool is supposed to be able to produce call graphs for C and C++.
Doxygen also supposedly produces call graphs.
I don't have any experience with either of these, but some harsh opinions. You need to keep in mind that I'm a vendor of another tool, so take this opinion with a big grain of salt.
I have experience building reasonably accurate call graphs for massive C systems (25 million lines) with 250,000 functions.
One issue I encounter in building a realistic call graph are indirect function calls, and for C++, overloaded method function calls. In big systems, there are a lot of both of these. To determine what gets called when FOO gets invoked, your tool has to have to deep semantic understanding of how the compiler/language resolves an overloaded call, and for indirect function calls, a reasonably precise determination of what a function pointer might actually point-to in a big system. If you don't get these reasonably right, your call graph will contain a lot of false positives (e.g., bogus claims of A calls B), and on scale false positives are a disaster.
For C++, you must have what amounts to the full compiler front end. Neither Understand or Doxygen have this, so I don't see how they can actually understand C++'s overloading/Koenig lookup rules. Neither Understand or Doxygen make any attempt that I know of to reason about indirect function calls.
Our DMS Software Reengineering Toolkit does build calls graphs for C reasonably well, even with indirect function pointers, using a C-language precise front end.
We have C++ language precise front end, and it does the overload resolution correctly (to the extent the C++ committee agrees on it, and we understand what they said, and what the individual compilers do [they don't always agree]), and we have something like Doxygen that shows this information. We don't presently have function pointer analysis for C++ but we are working on it (we have full control flow graphs within methods and that's a big step).
I understand CLANG has some option for computing call graphs, and I'd expect that to be accurate on overloads since Clang is essentially a C++ compiler implemented with a bunch of components. I don't know what, if anything Clang does to analyze function pointers.