#ifndef MUPDF_HELPERS_MU_THREADS_H #define MUPDF_HELPERS_MU_THREADS_H /* Simple threading helper library. Includes implementations for Windows, pthreads, and "no threads". The "no threads" implementation simply provides types and stub functions so that things will build, but abort if we try to call them. This simplifies the job for calling functions. To build this library on a platform with no threading, define DISABLE_MUTHREADS (or extend the ifdeffery below so that it does so). To build this library on a platform that uses a threading model other than windows threads or pthreads, extend the #ifdeffery below to set MUTHREAD_IMPL_TYPE to an unused value, and modify mu-threads.c appropriately. */ #if !defined(DISABLE_MUTHREADS) #ifdef _WIN32 #define MU_THREAD_IMPL_TYPE 1 #elif defined(HAVE_PTHREAD) #define MU_THREAD_IMPL_TYPE 2 #else #define DISABLE_MUTHREADS #endif #endif /* Types */ typedef struct mu_thread_s mu_thread; typedef struct mu_semaphore_s mu_semaphore; typedef struct mu_mutex_s mu_mutex; /* Semaphores Created with a value of 0. Triggering a semaphore increments the value. Waiting on a semaphore reduces the value, blocking if it would become negative. Never increment the value of a semaphore above 1, as this has undefined meaning in this implementation. */ /* Create a semaphore. sem: Pointer to a mu_semaphore to populate. Returns non-zero for error. */ int mu_create_semaphore(mu_semaphore *sem); /* Destroy a semaphore. Semaphores may safely be destroyed multiple times. Any semaphore initialised to zeros is safe to destroy. Never destroy a semaphore that may be being waited upon, as this has undefined meaning in this implementation. sem: Pointer to a mu_semaphore to destroy. */ void mu_destroy_semaphore(mu_semaphore *sem); /* Increment the value of the semaphore. Never blocks. sem: The semaphore to increment. Returns non-zero on error. */ int mu_trigger_semaphore(mu_semaphore *sem); /* Decrement the value of the semaphore, blocking if this would involve making the value negative. sem: The semaphore to decrement. Returns non-zero on error. */ int mu_wait_semaphore(mu_semaphore *sem); /* Threads */ /* The type for the function that a thread runs. arg: User supplied data. */ typedef void (mu_thread_fn)(void *arg); /* Create a thread to run the supplied function with the supplied argument. th: Pointer to mu_thread to populate with created threads information. fn: The function for the thread to run. arg: The argument to pass to fn. */ int mu_create_thread(mu_thread *th, mu_thread_fn *fn, void *arg); /* Destroy a thread. This function blocks until a thread has terminated normally, and destroys its storage. A mu_thread may safely be destroyed multiple times, as may any mu_thread initialised with zeros. th: Pointer to mu_thread to destroy. */ void mu_destroy_thread(mu_thread *th); /* Mutexes This implementation does not specify whether mutexes are recursive or not. */ /* Create a mutex. mutex: pointer to a mu_mutex to populate. Returns non-zero on error. */ int mu_create_mutex(mu_mutex *mutex); /* Destroy a mutex. A mu_mutex may safely be destroyed several times, as may a mu_mutex initialised with zeros. Never destroy locked mu_mutex. mutex: Pointer to mu_mutex to destroy. */ void mu_destroy_mutex(mu_mutex *mutex); /* Lock a mutex. mutex: Mutex to lock. */ void mu_lock_mutex(mu_mutex *mutex); /* Unlock a mutex. mutex: Mutex to unlock. */ void mu_unlock_mutex(mu_mutex *mutex); /* Everything under this point is implementation specific. Only people looking to extend the capabilities of this helper module should need to look below here. */ #ifdef DISABLE_MUTHREADS /* Null implementation */ struct mu_semaphore_s { int dummy; }; struct mu_thread_s { int dummy; }; struct mu_mutex_s { int dummy; }; #elif MU_THREAD_IMPL_TYPE == 1 #include /* Windows threads */ struct mu_semaphore_s { HANDLE handle; }; struct mu_thread_s { HANDLE handle; mu_thread_fn *fn; void *arg; }; struct mu_mutex_s { CRITICAL_SECTION mutex; }; #elif MU_THREAD_IMPL_TYPE == 2 /* PThreads - without working unnamed semaphores. Neither ios nor OSX supports unnamed semaphores. Named semaphores are a pain to use, so we implement our own semaphores using condition variables and mutexes. */ #include struct mu_semaphore_s { int count; pthread_mutex_t mutex; pthread_cond_t cond; }; struct mu_thread_s { pthread_t thread; mu_thread_fn *fn; void *arg; }; struct mu_mutex_s { pthread_mutex_t mutex; }; /* Add new threading implementations here, with #elif MU_THREAD_IMPL_TYPE == 3... etc. */ #else #error Unknown MU_THREAD_IMPL_TYPE setting #endif #endif /* MUPDF_HELPERS_MU_THREADS_H */