#ifndef _ECORE_PRIVATE_H #define _ECORE_PRIVATE_H #include extern int _ecore_log_dom; #ifdef _ECORE_DEFAULT_LOG_DOM # undef _ECORE_DEFAULT_LOG_DOM #endif #define _ECORE_DEFAULT_LOG_DOM _ecore_log_dom #ifdef ECORE_DEFAULT_LOG_COLOR # undef ECORE_DEFAULT_LOG_COLOR #endif #define ECORE_DEFAULT_LOG_COLOR EINA_COLOR_BLUE #ifdef ERR # undef ERR #endif #define ERR(...) EINA_LOG_DOM_ERR(_ECORE_DEFAULT_LOG_DOM, __VA_ARGS__) #ifdef DBG # undef DBG #endif #define DBG(...) EINA_LOG_DOM_DBG(_ECORE_DEFAULT_LOG_DOM, __VA_ARGS__) #ifdef INF # undef INF #endif #define INF(...) EINA_LOG_DOM_INFO(_ECORE_DEFAULT_LOG_DOM, __VA_ARGS__) #ifdef WRN # undef WRN #endif #define WRN(...) EINA_LOG_DOM_WARN(_ECORE_DEFAULT_LOG_DOM, __VA_ARGS__) #ifdef CRIT # undef CRIT #endif #define CRIT(...) EINA_LOG_DOM_CRIT(_ECORE_DEFAULT_LOG_DOM, __VA_ARGS__) #ifndef PATH_MAX # define PATH_MAX 4096 #endif #ifndef MIN # define MIN(x, y) (((x) > (y)) ? (y) : (x)) #endif #ifndef MAX # define MAX(x, y) (((x) > (y)) ? (x) : (y)) #endif #ifndef ABS # define ABS(x) ((x) < 0 ? -(x) : (x)) #endif #ifndef CLAMP # define CLAMP(x, min, max) (((x) > (max)) ? (max) : (((x) < (min)) ? (min) : (x))) #endif #define EVAS_FRAME_QUEUING 1 /* for test */ #define READBUFSIZ 65536 #define ECORE_MAGIC_NONE 0x1234fedc #define ECORE_MAGIC_EXE 0xf7e812f5 #define ECORE_MAGIC_TIMER 0xf7d713f4 #define ECORE_MAGIC_IDLER 0xf7c614f3 #define ECORE_MAGIC_IDLE_ENTERER 0xf7b515f2 #define ECORE_MAGIC_IDLE_EXITER 0xf7601afd #define ECORE_MAGIC_FD_HANDLER 0xf7a416f1 #define ECORE_MAGIC_EVENT_HANDLER 0xf79317f0 #define ECORE_MAGIC_EVENT_FILTER 0xf78218ff #define ECORE_MAGIC_EVENT 0xf77119fe #define ECORE_MAGIC_ANIMATOR 0xf7643ea5 #define ECORE_MAGIC_POLLER 0xf7568127 #define ECORE_MAGIC_PIPE 0xf7458226 #define ECORE_MAGIC_WIN32_HANDLER 0xf7e8f1a3 #define ECORE_MAGIC_JOB 0x76543210 typedef unsigned int Ecore_Magic; #define ECORE_MAGIC Ecore_Magic __magic #define ECORE_MAGIC_SET(d, m) (d)->__magic = (m) #define ECORE_MAGIC_CHECK(d, m) ((d) && ((d)->__magic == (m))) #define ECORE_MAGIC_FAIL(d, m, fn) _ecore_magic_fail((d), (d) ? (d)->__magic : 0, (m), (fn)); /* undef the following, we want our version */ #undef FREE #define FREE(ptr) free(ptr); ptr = NULL; #undef IF_FREE #define IF_FREE(ptr) if (ptr) free(ptr); ptr = NULL; #undef IF_FN_DEL #define IF_FN_DEL(_fn, ptr) if (ptr) { _fn(ptr); ptr = NULL; } EAPI void ecore_print_warning(const char *function, const char *sparam); /* convenience macros for checking pointer parameters for non-NULL */ #undef CHECK_PARAM_POINTER_RETURN #define CHECK_PARAM_POINTER_RETURN(sparam, param, ret) \ if (!(param)) \ { \ ecore_print_warning(__FUNCTION__, sparam); \ return ret; \ } #undef CHECK_PARAM_POINTER #define CHECK_PARAM_POINTER(sparam, param) \ if (!(param)) \ { \ ecore_print_warning(__FUNCTION__, sparam); \ return; \ } EAPI void _ecore_magic_fail(const void *d, Ecore_Magic m, Ecore_Magic req_m, const char *fname); void _ecore_time_init(void); Ecore_Timer *_ecore_timer_loop_add(double in, Ecore_Task_Cb func, const void *data); void *_ecore_timer_del(Ecore_Timer *timer); void _ecore_timer_delay(Ecore_Timer *timer, double add); void _ecore_timer_shutdown(void); void _ecore_timer_cleanup(void); void _ecore_timer_enable_new(void); double _ecore_timer_next_get(void); void _ecore_timer_expired_timers_call(double when); int _ecore_timers_exists(void); int _ecore_timer_expired_call(double when); void _ecore_idler_shutdown(void); int _ecore_idler_all_call(void); int _ecore_idler_exist(void); void _ecore_idle_enterer_shutdown(void); void _ecore_idle_enterer_call(void); int _ecore_idle_enterer_exist(void); void _ecore_idle_exiter_shutdown(void); void _ecore_idle_exiter_call(void); int _ecore_idle_exiter_exist(void); void _ecore_event_shutdown(void); int _ecore_event_exist(void); Ecore_Event *_ecore_event_add(int type, void *ev, Ecore_End_Cb func_free, void *data); void _ecore_event_call(void); void *_ecore_event_handler_del(Ecore_Event_Handler *event_handler); Ecore_Timer *_ecore_exe_doomsday_clock_get(Ecore_Exe *exe); void _ecore_exe_doomsday_clock_set(Ecore_Exe *exe, Ecore_Timer *dc); void *_ecore_event_signal_user_new(void); void *_ecore_event_signal_hup_new(void); void *_ecore_event_signal_exit_new(void); void *_ecore_event_signal_power_new(void); void *_ecore_event_signal_realtime_new(void); Ecore_Pipe *_ecore_pipe_add(Ecore_Pipe_Cb handler, const void *data); int _ecore_pipe_wait(Ecore_Pipe *p, int message_count, double wait); void *_ecore_pipe_del(Ecore_Pipe *p); Ecore_Fd_Handler * _ecore_main_fd_handler_add(int fd, Ecore_Fd_Handler_Flags flags, Ecore_Fd_Cb func, const void *data, Ecore_Fd_Cb buf_func, const void *buf_data); void *_ecore_main_fd_handler_del(Ecore_Fd_Handler *fd_handler); void _ecore_main_shutdown(void); #if defined (_WIN32) || defined (__lv2ppu__) || defined (HAVE_EXOTIC) static inline void _ecore_signal_shutdown(void) { } static inline void _ecore_signal_init(void) { } static inline void _ecore_signal_received_process(void) { } static inline int _ecore_signal_count_get(void) { return 0; } static inline void _ecore_signal_call(void) { } #else void _ecore_signal_shutdown(void); void _ecore_signal_init(void); void _ecore_signal_received_process(void); int _ecore_signal_count_get(void); void _ecore_signal_call(void); #endif void _ecore_exe_init(void); void _ecore_exe_shutdown(void); #ifndef _WIN32 Ecore_Exe *_ecore_exe_find(pid_t pid); void *_ecore_exe_event_del_new(void); void _ecore_exe_event_del_free(void *data, void *ev); #endif void _ecore_animator_shutdown(void); void _ecore_poller_shutdown(void); void _ecore_fps_debug_init(void); void _ecore_fps_debug_shutdown(void); void _ecore_fps_debug_runtime_add(double t); void _ecore_thread_init(void); void _ecore_thread_shutdown(void); void _ecore_glib_init(void); void _ecore_glib_shutdown(void); void _ecore_job_init(void); void _ecore_job_shutdown(void); void _ecore_main_loop_init(void); void _ecore_main_loop_shutdown(void); void _ecore_throttle(void); void _ecore_main_call_flush(void); extern int _ecore_main_lock_count; extern Eina_Lock _ecore_main_loop_lock; static inline void _ecore_lock(void) { #ifdef HAVE_THREAD_SAFETY eina_lock_take(&_ecore_main_loop_lock); #else /* at least check we're not being called from a thread */ EINA_MAIN_LOOP_CHECK_RETURN; #endif _ecore_main_lock_count++; /* assert(_ecore_main_lock_count == 1); */ } static inline void _ecore_unlock(void) { _ecore_main_lock_count--; /* assert(_ecore_main_lock_count == 0); */ #ifdef HAVE_THREAD_SAFETY eina_lock_release(&_ecore_main_loop_lock); #endif } /* * Callback wrappers all assume that ecore _ecore_lock has been called */ static inline Eina_Bool _ecore_call_task_cb(Ecore_Task_Cb func, void *data) { Eina_Bool r; _ecore_unlock(); r = func(data); _ecore_lock(); return r; } static inline void * _ecore_call_data_cb(Ecore_Data_Cb func, void *data) { void *r; _ecore_unlock(); r = func(data); _ecore_lock(); return r; } static inline void _ecore_call_end_cb(Ecore_End_Cb func, void *user_data, void *func_data) { _ecore_unlock(); func(user_data, func_data); _ecore_lock(); } static inline Eina_Bool _ecore_call_filter_cb(Ecore_Filter_Cb func, void *data, void *loop_data, int type, void *event) { Eina_Bool r; _ecore_unlock(); r = func(data, loop_data, type, event); _ecore_lock(); return r; } static inline Eina_Bool _ecore_call_handler_cb(Ecore_Event_Handler_Cb func, void *data, int type, void *event) { Eina_Bool r; _ecore_unlock(); r = func(data, type, event); _ecore_lock(); return r; } static inline void _ecore_call_prep_cb(Ecore_Fd_Prep_Cb func, void *data, Ecore_Fd_Handler *fd_handler) { _ecore_unlock(); func(data, fd_handler); _ecore_lock(); } static inline Eina_Bool _ecore_call_fd_cb(Ecore_Fd_Cb func, void *data, Ecore_Fd_Handler *fd_handler) { Eina_Bool r; _ecore_unlock(); r = func(data, fd_handler); _ecore_lock(); return r; } extern int _ecore_fps_debug; extern double _ecore_time_loop_time; extern Eina_Bool _ecore_glib_always_integrate; extern Ecore_Select_Function main_loop_select; Eina_Bool ecore_mempool_init(void); void ecore_mempool_shutdown(void); #define GENERIC_ALLOC_FREE_HEADER(TYPE, Type) \ TYPE *Type##_calloc(unsigned int); \ void Type##_mp_free(TYPE *e); #define GENERIC_ALLOC_SIZE_DECLARE(TYPE) \ size_t _ecore_sizeof_##TYPE = sizeof (TYPE); //GENERIC_ALLOC_FREE_HEADER(Ecore_Animator, ecore_animator); GENERIC_ALLOC_FREE_HEADER(Ecore_Event_Handler, ecore_event_handler); GENERIC_ALLOC_FREE_HEADER(Ecore_Event_Filter, ecore_event_filter); GENERIC_ALLOC_FREE_HEADER(Ecore_Event, ecore_event); //GENERIC_ALLOC_FREE_HEADER(Ecore_Idle_Exiter, ecore_idle_exiter); //GENERIC_ALLOC_FREE_HEADER(Ecore_Idle_Enterer, ecore_idle_enterer); //GENERIC_ALLOC_FREE_HEADER(Ecore_Idler, ecore_idler); //GENERIC_ALLOC_FREE_HEADER(Ecore_Job, ecore_job); //GENERIC_ALLOC_FREE_HEADER(Ecore_Timer, ecore_timer); //GENERIC_ALLOC_FREE_HEADER(Ecore_Poller, ecore_poller); GENERIC_ALLOC_FREE_HEADER(Ecore_Pipe, ecore_pipe); GENERIC_ALLOC_FREE_HEADER(Ecore_Fd_Handler, ecore_fd_handler); #ifdef _WIN32 GENERIC_ALLOC_FREE_HEADER(Ecore_Win32_Handler, ecore_win32_handler); #endif #undef GENERIC_ALLOC_FREE_HEADER extern Eo *_ecore_parent; #define ECORE_PARENT_CLASS ecore_parent_class_get() const Eo_Class *ecore_parent_class_get(void) EINA_CONST; #endif