view include/mb_redraw_man.h @ 509:3e0d63d7c7ae Android_Skia

Remove absolute pathes from config.cache. Absolute pathes in config.cache would be the source of problems when the source tree of Android is different from what is in config.cache. So, these cached values are removed and re-computed when running configure.
author Thinker K.F. Li <thinker@branda.to>
date Tue, 01 Dec 2009 22:55:27 +0800
parents 4291f16f3a09
children b6b3dbeaedf3
line wrap: on
line source

#ifndef __REDRAW_MAN_H_
#define __REDRAW_MAN_H_

#include "mb_graph_engine.h"
#include "mb_tools.h"
#include "mb_types.h"
#include "mb_observer.h"
#include "mb_img_ldr.h"
#include "mb_timer.h"

typedef struct _redraw_man redraw_man_t;

typedef void (*free_func_t)(redraw_man_t *rdman, void *obj);
struct _free_obj {
    void *obj;
    free_func_t free_func;
};
typedef struct _free_obj free_obj_t;
struct _free_objs {
    int num, max;
    free_obj_t *objs;
};
typedef struct _free_objs free_objs_t;

DARRAY(coords, coord_t *);
DARRAY(geos, geo_t *);

/*! \brief Manage redrawing of shapes (graphic elements).
 *
 * Every coord_t and geo_t object is assigned with a unique
 * incremental order.  The order is a unsigned integer.
 * Every time a new coord_t or geo_t object is added, it is
 * assigned with a order number that 1 bigger than last one
 * until reaching maximum of unsigned integer.
 * When a maximum is meet, all coord_t or geo_t objects
 * are reasigned with a new order number from 1.  It means
 * order numbers that have been assigned and then removed
 * later are recycled.
 *
 * Dirty flag is clear when the transformation matrix of a coord
 * object been recomputed or when a geo_t objects been redrawed.
 */
struct _redraw_man {
    unsigned int next_coord_order;
    int n_coords;
    coord_t *root_coord;

    elmpool_t *geo_pool;
    elmpool_t *coord_pool;
    elmpool_t *shnode_pool;
    elmpool_t *observer_pool;
    elmpool_t *subject_pool;
    elmpool_t *paint_color_pool;
    elmpool_t *pent_pool;
    elmpool_t *coord_canvas_pool;

    coords_t dirty_coords;
    geos_t dirty_geos;
    int n_dirty_areas;		/*!< \brief Number of all dirty areas. */

    geos_t gen_geos;
    coords_t zeroing_coords;

    STAILQ(shape_t) shapes;	/*!< \brief All managed shapes.  */
    STAILQ(paint_t) paints;	/*!< \brief All managed paints. */

    free_objs_t free_objs;

    mbe_t *cr;
    mbe_t *backend;

    ob_factory_t ob_factory;

    subject_t *redraw;		/*!< \brief Notified after redrawing. */
    subject_t *addrm_monitor;	/*!< \brief Monitor adding/removing observers
				 *	    to/from mouse event subjects.
				 *	    \see addrm_monitor_hdlr()
				 */
    mb_obj_t *last_mouse_over;
    void *rt;                  /*!< \brief This is a pointer to the current 
                                *          graphic backend. 
				*          \see rdman_attach_backend()
				*/
    mb_prop_store_t props;
    mb_img_ldr_t *img_ldr;	/*!< \brief Image Loader.
				 *	This is initialized by backend.
				 */
    co_aix w, h;		/*!< \brief Size of viewport
				 *	This is initialized by backend.
				 */
};

extern int redraw_man_init(redraw_man_t *rdman, mbe_t *cr,
			   mbe_t *backend);
extern void redraw_man_destroy(redraw_man_t *rdman);
extern int rdman_find_overlaid_shapes(redraw_man_t *rdman,
				      geo_t *geo,
				      geo_t ***overlays);
extern int rdman_add_shape(redraw_man_t *rdman,
			   shape_t *shape, coord_t *coord);
/*! \brief Make a shape been managed by a redraw manager. */
#define rdman_shape_man(rdman, shape)					\
    do {								\
	mb_prop_store_init(&((mb_obj_t *)(shape))->props,		\
			   (rdman)->pent_pool);				\
	STAILQ_INS_TAIL(rdman->shapes, shape_t, sh_next, shape);	\
	if(rdman->last_mouse_over == (mb_obj_t *)(shape))		\
	    rdman->last_mouse_over = NULL;				\
    } while(0)
extern int rdman_shape_free(redraw_man_t *rdman, shape_t *shape);

extern int rdman_paint_free(redraw_man_t *rdman, paint_t *paint);

extern coord_t *rdman_coord_new(redraw_man_t *rdman, coord_t *parent);
extern int rdman_coord_free(redraw_man_t *rdman, coord_t *coord);
extern int rdman_coord_subtree_free(redraw_man_t *rdman, coord_t *subtree);
extern int rdman_coord_changed(redraw_man_t *rdman, coord_t *coord);
extern int rdman_shape_changed(redraw_man_t *rdman, shape_t *shape);
extern int rdman_redraw_changed(redraw_man_t *rdman);
extern int rdman_redraw_all(redraw_man_t *rdman);
extern int rdman_redraw_area(redraw_man_t *rdman, co_aix x, co_aix y,
			     co_aix w, co_aix h);
extern geo_t *rdman_geos(redraw_man_t *rdman, geo_t *last);
#define rdman_shapes(rdman, last_shape)					\
    geo_get_shape_safe(rdman_geos(rdman, sh_get_geo_safe(last_shape)))
extern int rdman_force_clean(redraw_man_t *rdman);
extern shnode_t *shnode_new(redraw_man_t *rdman, shape_t *shape);
#define shnode_free(rdman, node) elmpool_elm_free((rdman)->shnode_pool, node)
#define shnode_list_free(rdman, q)				\
    do {							\
	shnode_t *__node, *__last;				\
	__last = STAILQ_HEAD(q);				\
	if(__last == NULL) break;				\
	for(__node = STAILQ_NEXT(shnode_t, next, __last);	\
	    __node != NULL;					\
	    __node = STAILQ_NEXT(shnode_t, next, __node)) {	\
	    shnode_free(rdman, __last);				\
	    __last = __node;					\
	}							\
	shnode_free(rdman, __last);				\
    } while(0)
#define _rdman_paint_child(rdman, paint, shape)		\
    do {						\
	shnode_t *__node;				\
	if((shape)->fill != (paint) &&			\
	   (shape)->stroke != (paint)) {		\
	    __node = shnode_new(rdman, shape);		\
	    STAILQ_INS_TAIL((paint)->members,		\
			    shnode_t, next, __node);	\
	}						\
    } while(0)
extern void _rdman_paint_real_remove_child(redraw_man_t *rdman,
					   paint_t *paint,
					   shape_t *shape);
#define _rdman_paint_remove_child(rdman, paint, shape)		\
    do {							\
	if((shape)->fill == (shape)->stroke &&			\
	   (shape)->stroke == (paint))				\
	    break;						\
	_rdman_paint_real_remove_child(rdman, paint, shape);	\
    } while(0)
#define rdman_paint_fill(rdman, paint, shape)			\
    do {							\
	if((shape)->fill == paint)				\
	    break;						\
	if((shape)->fill)					\
	    _rdman_paint_remove_child(rdman, (shape)->fill,	\
				      shape);			\
	if(paint)						\
	    _rdman_paint_child(rdman, paint, shape);		\
	(shape)->fill = paint;					\
    } while(0)
#define rdman_paint_stroke(rdman, paint, shape)			\
    do {							\
	if((shape)->stroke == paint)				\
	    break;						\
	if((shape)->stroke)					\
	    _rdman_paint_remove_child(rdman, (shape)->stroke,	\
				      shape);			\
	if(paint)						\
	    _rdman_paint_child(rdman, paint, shape);		\
	(shape)->stroke = paint;				\
    } while(0)
extern int rdman_paint_changed(redraw_man_t *rdman, paint_t *paint);

extern shape_t *find_shape_at_pos(redraw_man_t *rdman,
				  co_aix x, co_aix y, int *in_stroke);
extern int mb_obj_pos_is_in(redraw_man_t *rdman, mb_obj_t *obj,
			    co_aix x, co_aix y, int *in_stroke);
extern int mb_objs_are_overlay(redraw_man_t *rdman,
			       mb_obj_t *obj1, mb_obj_t *obj2);
#define rdman_get_ob_factory(rdman) (&(rdman)->ob_factory)
#define rdman_get_redraw_subject(rdman) ((rdman)->redraw)
#define rdman_get_root(rdman) ((rdman)->root_coord)
#define rdman_get_cr(rdman) ((rdman)->cr)
#define rdman_get_gen_geos(rdman) (&(rdman)->gen_geos)
extern int rdman_add_gen_geos(redraw_man_t *rdman, geo_t *geo);
#define rdman_get_shape_gl(rdman, idx)			\
    geo_get_shape(rdman_get_gen_geos(rdman)->ds[idx])
#define rdman_add_shape_gl(rdman, shape)			\
    rdman_add_gen_geos(rdman, sh_get_geo(shape))
#define rdman_shape_gl_len(rdman)		\
    rdman_get_gen_geos(rdman)->num
#define rdman_clear_shape_gl(rdman)		\
    DARRAY_CLEAN(rdman_get_gen_geos(rdman))
#define rdman_prop_store(rdman) ((rdman)->props)
#define rdman_img_ldr(rdman) ((rdman)->img_ldr)
#define rdman_set_img_ldr(rdman, ldr)		\
    do { (rdman)->img_ldr = ldr; } while(0)

/*! \brief Attach backend to the redraw manager so that we can hide the backend from the users.
 *
 */
#define rdman_attach_backend(rdman,backend) (((rdman)->rt)=(backend))
/*! \brief Load sprite dymanicly from the shared object module. 
 *  
 * The search path can be changed by sprite_set_search_path. The name
 * can have a relative path in the front of it.
 * This function will search the object in the current working directory
 * and then search the system search path.
 */
extern mb_sprite_t *sprite_load(const char *name, redraw_man_t *rdman,
				coord_t *root);

/*! \brief Set the search path of dymanic object loading.
 *
 */
extern void sprite_set_search_path(char *path);

extern paint_t *rdman_img_ldr_load_paint(redraw_man_t *rdman,
					 const char *img_id);

typedef void (*mb_eventcb_t )(int fd,void *arg);
#define MONITOR_READ   1
#define MONITOR_WRITE  2

/*! \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 {
    
    void *(*init)(char *display,int w,int h);
    void (*free)(void *be);
    void (*add_event)(void *be,int type, int fd, mb_eventcb_t f,void *arg);
    void (*remove_event)(void *be,int type, int fd);
    void (*loop)(void *be);
    subject_t *(*kbevents)(void *be);
    redraw_man_t *(*rdman)(void *be);
    mb_tman_t *(*tman)(void *be);
    ob_factory_t *(*factory)(void *be);
    mb_img_ldr_t *(*loader)(void *be);
} mb_backend_t;

extern mb_backend_t backend;

#endif /* __REDRAW_MAN_H_ */