It looks like unifdef is what you want, it is also used in the Linux kernel. This is the description of the tool from the linked site (emphasis mine):
The unifdef utility selectively processes conditional C preprocessor #if and #ifdef directives. It removes from a file both the directives and the additional text that they delimit, while otherwise leaving the file alone.
It is useful for avoiding distractions when studying code that uses #ifdef heavily for portability: my original motivation was to understand xterm's pty handling code. It can be used as a lightweight preprocessor; for example the Linux kernel uses unifdef to strip out #ifdef _KERNEL_ sections from the headers it exports to userland. You can use unifdef with languages other than C; for example UIT, a publisher in Cambridge where I live, uses unifdef with LaTeX.
If you check out the manual there are some exceptions listed in the BUGS section:
Handling one line at a time means preprocessor directives split across
more than one physical line (because of comments or backslash-newline) cannot be handled in every situation.
Trigraphs are not recognized.
There is no support for macros with different definitions at different
points in the source file.
The text-mode and ignore functionality does not correspond to modern
Other options include Sunifdef whose main site no longer is available and has not been updated since 2008 and Coan: The C Preprocessor Chainsaw which describes itself as:
Coan is a software engineering tool for analysing preprocessor-based configurations of C or C++ source code. Its principal use is to simplify a body of source code by eliminating any parts that are redundant with respect to a specified configuration. Dead code removal is an application of this sort.
Coan is most useful to developers of constantly evolving products with large code bases, where preprocessor definitions and #if-directives are used differentiate progressive releases or parallel variants of the product. In these settings the upkeep of the product's configuration tree can become difficult and the incidence of configuration-related defects can become costly.