If it's a regular/static library, the library and application should be compiled using the same compiler. There're a few reasons for this that I can think of:
- Different compilers (as in different brands or compilers for different platforms) normally don't understand each other's object and library formats.
- You don't want to compile different parts of the same program using different types (e.g. signed vs unsigned char), type sizes (e.g. long = 32 vs 64 bits), alignment and packing and probably some other things, all of which are allowed by the C standard to vary. Mixing and matching those things is usually a bad thing.
You may, however, often use slightly different versions of the same compiler to compile the library and the application using it. Usually, it's OK. Sometimes there're changes that break the code, though.
You may implement some "initialization" function in that header file (declared as
static inline) that would ensure that types, type sizes, alignment and packing are the same as expected by the compiled library. The application using this library would have to call this function prior to using any other part of the library. If things aren't the same as expected, the function must fail and cause program termination, possibly with some good textual description of the failure. This won't solve completely the problem of having somewhat incompatible compilers, but it can prevent silent and mysterious malfunctions. Some things can be checked with the preprocessor's
#ifdef directives and cause compilation errors with
In addition, structure packing problems can be relieved by inserting explicit padding bytes into structure declarations and forcing tight packing (by e.g. using
#pragma pack, which is supported by many compilers). That way if type sizes are the same, it won't matter what the default packing is.
You can apply the same to DLLs as well, but you should really expect that the calling application has been compiled with a different compiler and not depend on the compilers being the same.