The size of a pointer won't vary; that is dependent on the platform and module bitness and not the compiler (32-bit vs 64-bit and so on).
What can vary is the size of basically everything else, and what will vary are templates.
Padding and alignment of structs tends to be compiler-dependent, and often settings-within-compiler dependent. There are so loose rules, like pointers typically being on a platform-bitness-boundary and bools having 3 bytes after them, but it's up to the compiler how to handle that.
Templates, particularly from the STL (which is different for each compiler) may have different members, sizes, padding, and mostly anything. The only standard part is the API, the backend is left to the STL implementation (there are some rules, but compilers can still compile templates differently). Passing templates between modules from one build is bad enough, but between different compilers it can often be fatal.
Things which aren't standardized (name mangling) or are highly specific by necessity (memory allocation) will also be incompatible. You can get around both of those issues by only destroying from the library that creates (good practice anyway) and using STL objects that take a deleter, for allocation, and exporting using undecorated names and/or the C style (
extern "C") for exported methods.
I also seem to remember a catch with how the compilers handle virtual destructors in the vtable, with some small difference.
If you can manage to only pass references of your own objects, avoid externally visible templates entirely, work primarily with pointers and exported or virtual methods, you can avoid a vast majority of the issues (COM does precisely this, for compatibility with most compilers and languages). It can be a pain to write, but if you need that compatibility, it is possible.
To alleviate some, but not all, of the issues, using an alternate to the STL (like Qt's core library) will remove that particular problem. While throwing Qt into any old project is a hideous waste and will cause more bloat than the "boost ALL THE THINGS!!!" philosophy, it can be useful for decoupling the library and the compiler to a greater extent than using a stock STL can.