Other than GLib as others have suggested, you could create your own generic types without any type safety, such as a linked list that uses
void * as the generic pointer to the next stack object. Some have even used macros to create template-like behaviour in ANSI C with some reasonable success. Search around cplusplus.com's forums for an example or two (there aren't many more than that if I recall correctly).
Alternatively you could implement your own OOP scheme as described in the paper Object-Oriented Programming With ANSI C, though it's something I wouldn't recommend. You might as well take the time you'd spend creating that beast (and possibly not understanding how it works in the end) and learn some of GLib to get familiar with it.
Personally I prefer the first approach. You lose type safety and gain a bunch of casts, but it's the fastest to implement. The real problem with that method is the data that is stored.
std::stack<int> converted to C is simply a struct stack that has a data field of type int. What about
std::vector<std::stack<int> >, an addressable list of stacks of integers? The C standard cannot guarantee that casting from a pointer type to an integral type will work without some loss of information. In other words, while you can necessarily use pointers, you can't use plain integers to store information. Perhaps a few unrolled template specializations would work -- one for int, (one for long long?), one for double, and one for pointer types.
In the end, the best solution is to use a library like GLib, but if you prefer to roll your own, take care when creating it. You never know when you'll need a combination of types of items in a container.