You can try to do this with some string hacking tricks. Mostly that will fail on real code; string parsing (hacked code + regexes) simply can't handle the actual complexity of the real languages.
To do this right, you have to parse the code (retaining the preprocessor conditionals), shuffle the methods around (as other have observed possibly adding declarations in C++ to keep them visible for the compiler), and then regenerate the program text. Most parsers
have no way to handle the preprocessor conditionals; they are assumed expanded away, so most parsers don't stand a chance. For C++, the supply of parsers is pretty small to start with because the language is so complex. C# is getting there.
Our DMS Software Reengineering Toolkit with its C# and C++ front ends can do most of this reasonably well. Both parsers handle "structured" preprocessor conditionals, and C++ programs tend to be pretty good in this regard (mostly by not using them much). DMS is designed to be customized for such tasks.
While DMS is really good for such custom tasks (IMHO), it is still considerable effort to configure for a re-engineering task. I doubt this is worth the effort.
You might be interested in a tool that tries to determine what code is the same, regardless of location, rather than sorting methods. See our COTS SmartDifferencer family of tools. They are built on top of DMS, and use the same front ends as DMS, so they can parse the same files. The difference is they are essentially DMS customized to match code fragments in the face of (almost) semantic identify/difference. At present, they don't know about semantic equality of simple method shuffling [partly because it isn't true], but they can recognize the same method and tell "method (code block) has moved", as opposed to declaring "new (unrelated) text". And that you could include in your change statistics in a sensible way; new code is "more effort" than "moved code".