Mercurial > MadButterfly
view include/mb_backend.h @ 1472:7cb7abb5063b
Refactory drawing functions into classes for state and transition
author | Thinker K.F. Li <thinker@codemud.net> |
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date | Sun, 24 Apr 2011 15:13:41 +0800 |
parents | fa5f71d4aa04 |
children |
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#ifndef __MB_BACKEND_H_ #define __MB_BACKEND_H_ #include "mb_redraw_man.h" #include "mb_timer.h" #include "mb_observer.h" #include "mb_img_ldr.h" #include "mb_config.h" #ifdef X_BACKEND #include "mb_X_supp.h" #endif #ifdef DFB_BACKEND #inclde "mb_dfb_supp.h" #endif #ifdef CONSOLE_BACKEND #include "mb_cons_supp.h" #endif struct _mb_rt; typedef struct _mb_rt mb_rt_t; struct _mb_timer_man; struct _mb_timer_factory; struct _mb_IO_man; struct _mb_IO_factory; /*! \brief Type of IO that registered with an IO manager. */ enum _MB_IO_TYPE {MB_IO_DUMMY, MB_IO_R, MB_IO_W, MB_IO_RW}; typedef struct _mb_timer_man mb_timer_man_t; typedef struct _mb_timer_factory mb_timer_factory_t; typedef struct _mb_IO_man mb_IO_man_t; typedef struct _mb_IO_factory mb_IO_factory_t; typedef enum _MB_IO_TYPE MB_IO_TYPE; /*! \brief Function signature of callback functions for IO requests. */ typedef void (*mb_IO_cb_t)(int hdl, int fd, MB_IO_TYPE type, void *data); /*! \brief The backend engine mb_backend_t is used to define the * interface to realize the MB. * * A backend is used to receive events from the system. The MB does * not define the backend by itself. Instead, it define an interface * which allow the lower layer to implement the event system. Each * backend need to provides the following events. * * - keyboard event * - timer event * - image loader(?) * - render manager(?) */ typedef struct { mb_rt_t *(*rt_new)(const char *display, int w,int h); mb_rt_t *(*rt_new_with_win)(MB_DISPLAY display, MB_WINDOW win); void (*rt_free)(mb_rt_t *rt); void (*rt_free_keep_win)(mb_rt_t *rt); /*! \brief Request the backend to start monitoring a file descriptor. * * This is used only when the backend is responsible for event loop. */ int (*add_event)(mb_rt_t *rt, int fd, MB_IO_TYPE type, mb_IO_cb_t f,void *arg); /*! \brief Request the backend to stop monitoring a file descriptor. * * This is used only when the backend is responsible for event loop. */ void (*remove_event)(mb_rt_t *rt, int hdl); /*! \brief Event Loop * * This is called when main application does not handle event * loop. Or, it should register an IO factory (i.e \ref * mb_IO_factory_t) with the backend. */ void (*event_loop)(mb_rt_t *rt); /*! \brief Flush requests to screen server if existed */ int (*flush)(mb_rt_t *rt); subject_t *(*kbevents)(mb_rt_t *rt); redraw_man_t *(*rdman)(mb_rt_t *rt); mb_timer_man_t *(*timer_man)(mb_rt_t *rt); observer_factory_t *(*observer_factory)(mb_rt_t *rt); mb_img_ldr_t *(*loader)(mb_rt_t *rt); /* * Following two methods are used to integrate a backend to * event loop of main application. */ void (*reg_IO_factory)(mb_IO_factory_t *io_man); void (*reg_timer_factory)(mb_timer_factory_t *tm_man); } mb_backend_t; #define mb_runtime_new(disp, w, h) \ mb_dfl_backend.rt_new((disp), (w), (h)) #define mb_runtime_new_with_win(disp, win) \ mb_dfl_backend.rt_new_with_win((disp), (win)) #define mb_reg_IO_factory(io_fact) \ mb_dfl_backend.reg_IO_factory(io_fact) #define mb_reg_timer_factory(tm_fact) \ mb_dfl_backend.reg_timer_factory(tm_fact) /* * This is defined by backend implementations. For example, X_supp.c * or dfb_supp.c should defined a backend. */ extern mb_backend_t mb_dfl_backend; #define mb_runtime_free(rt) \ mb_dfl_backend.rt_free(rt) #define mb_runtime_free_keep_win(rt) \ mb_dfl_backend.rt_free_keep_win(rt) #define mb_runtime_add_event(rt, fd, type, cb, arg) \ mb_dfl_backend.add_event((rt), (fd), (type), (cb), (arg)) #define mb_runtime_remove_event(hdl) \ mb_dfl_backend.remove_event((rt), (hdl)) #define mb_runtime_event_loop(rt) \ mb_dfl_backend.event_loop(rt) #define mb_runtime_flush(rt) \ mb_dfl_backend.flush(rt) #define mb_runtime_kbevents(rt) \ mb_dfl_backend.kbevents(rt) #define mb_runtime_rdman(rt) \ mb_dfl_backend.rdman(rt) #define mb_runtime_timer_man(rt) \ mb_dfl_backend.timer_man(rt) #define mb_runtime_observer_factory(rt) \ mb_dfl_backend.observer_factory(rt) #define mb_runtime_loader(rt) \ mb_dfl_backend.loader(rt) /*! \brief IO Manager */ struct _mb_IO_man { int (*reg)(struct _mb_IO_man *io_man, int fd, MB_IO_TYPE type, mb_IO_cb_t cb, void *data); void (*unreg)(struct _mb_IO_man *io_man, int io_hdl); }; /*! \brief Factory of IO managers. */ struct _mb_IO_factory { mb_IO_man_t *(*io_man_new)(void); void (*io_man_free)(mb_IO_man_t *io_man); }; #define mb_io_man_reg(io_man, fd, type, cb, data) \ (io_man)->reg(io_man, fd, type, cb, data) #define mb_io_man_unreg(io_man, io_hdl) \ (io_man)->unreg(io_man, io_hdl) #define mb_io_man_new(io_fact) (io_fact)->io_man_new() #define mb_io_man_free(io_fact, io_man) (io_fact)->io_man_free(io_man) /*! \brief Function signature of callback functions for timers. */ typedef void (*mb_timer_cb_t)(int hdl, const mb_timeval_t *tmo, const mb_timeval_t *now, void *data); /*! \brief Timer manager */ struct _mb_timer_man { /*! \brief Setup a timeout callback. * * \return -1 for error. */ int (*timeout)(struct _mb_timer_man *tm_man, mb_timeval_t *tmout, /* tiemout (wall time) */ mb_timer_cb_t cb, void *data); /*! \brief Remove a timeout request. * * \param tm_hdl is the handle returned by _mb_timer_man::timeout. */ void (*remove)(struct _mb_timer_man *tm_man, int tm_hdl); }; /*! \brief Factory of timer manager. */ struct _mb_timer_factory { mb_timer_man_t *(*timer_man_new)(void); void (*timer_man_free)(mb_timer_man_t *timer_man); }; #define mb_timer_man_timeout(tm_man, tmout, cb, data) \ (tm_man)->timeout((tm_man), (tmout), (cb), (data)) #define mb_timer_man_remove(tm_man, tm_hdl) \ (tm_man)->remove((tm_man), (tm_hdl)) #define mb_timer_man_new(tm_fact) (tm_fact)->timer_man_new() #define mb_timer_man_free(tm_fact, tm_man) (tm_fact)->timer_man_free(tm_man) #endif /* __MB_BACKEND_H_ */