The question has been asked multiple times, "Why is APR using Incomplete types?" This document will try to explain that. Incomplete types are used in APR because they can enforce portability, and they make the APR developers job easier, as well as allowing APR to use native types on all platforms. Imagine a scenario where APR wasn't using incomplete types. The ap_file_t type would have to be defined as: typedef struct ap_file_t { ap_pool_t *pool char *fname; int eof_hit; int pipe; ap_interval_time_t timeout; #ifdef WIN32 HANDLE file_handle; DWORD dwFileAttributes; #elif defined(OS2) HFILE filedes; HEV PipeSem #else int filedes; int ungetchar; #endif #ifndef WIN32 int buffered; ap_int32_flags int isopen; /* Stuff for buffered mode */ char *buffer; int bufpos; unsigned long dataRead; int direction; unsigned long filePtr; ap_lock_t *mutex; #endif } ap_file_t; This captures the essence of what is currently being defined for ap_file_t using incomplete types. However, using this structure leads developers to believe that they are safe accessing any of the fields in this structure. This is not true. On some platforms, such as Windows, about half of the structure disappears. We could combine some of these definitions with macros, for example: #ifdef WIN32 #define filetype HANDLE #elif OS2 #define filetype HFILE #else #define filetype int #endif And then in the definition for ap_file_t, we could say: filetype filedes; This gets rid of some of the complexity, by moving it off to the side, but it is still not safe for a programmers to access the filedes field directly outside of APR, because the programmer has no way of knowing what the actual type is. So for example printing the filedes using printf would yield wildly varying results on Windows and OS2 when compared to Unix. Another option also presents itself. Stick strictly to POSIX. This means that all code can be shared on any POSIX compliant platform. The problem with this is performance. One of the benefits to APR, is that it allows developers to easily use native types on all platforms with the same code. This has proven to provide a substantial performance boost on most non-Unix platforms. Having said all of that, sometimes incomplete types just don't make sense. For example, the first implementation of time functions used incomplete types, which added a layer of complexity that turned out to be unnecessary. If a platform cannot provide a simple number that represents the number of seconds elapsed since a specified date and time, then APR doesn't really want to provide support for that platform. APR is trying hard to provide a balance of incomplete and complete types, but like all things, sometimes the developers make mistakes. If you are using APR and find that there is an incomplete type that doesn't need to be an incomplete type, please let us know, we are more than willing to listen and design parts of APR that do not use incomplete types.