Mercurial > MadButterfly
view src/dfb_supp.c @ 1281:e12472f8eef3
Handle type attribute to implemen the tween type change action undo.
author | wycc |
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date | Fri, 14 Jan 2011 00:02:11 +0800 |
parents | 7b4e80ab671a |
children |
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// -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 4; -*- // vim: sw=4:ts=8:sts=4 #include <stdio.h> #include <stdlib.h> #include <string.h> #include <directfb.h> #include <cairo/cairo.h> #include <cairo-directfb.h> #include "mb_graph_engine.h" #include "mb_redraw_man.h" #include "mb_timer.h" #include "mb_dfb_supp.h" #include "config.h" #define ERR -1 #define OK 0 #define ONLY_MOUSE_MOVE_RAW 1 /*! \ingroup xkb * @{ */ struct _X_kb_info { int keycode_min, keycode_max; int ksym_per_code; subject_t *kbevents; observer_factory_t *observer_factory; }; /* @} */ #define MAX_MONITORS 200 typedef struct { int type; int fd; mb_eventcb_t f; void *arg; } monitor_t; struct _X_MB_runtime { IDirectFB *dfb; IDirectFBSurface *primary; mbe_surface_t *surface, *backend_surface; mbe_pattern_t *surface_ptn; mbe_t *cr, *backend_cr; redraw_man_t *rdman; mb_tman_t *tman; mb_img_ldr_t *img_ldr; int w, h; X_kb_info_t kbinfo; monitor_t monitors[MAX_MONITORS]; int n_monitor; #ifndef ONLY_MOUSE_MOVE_RAW /* States */ shape_t *last; #endif /* * Following variables are used by handle_single_x_event() */ int last_evt_type; /* Type of last event */ int eflag; int ex1, ey1, ex2, ey2; /* Aggregate expose events */ int mflag; int mx, my; /* Position of last motion event */ int mbut_state; /* Button state of last motion event */ }; /*! \defgroup xkb X Keyboard Handling * * Accept keyboard events from X server and delivery it to * application through observer pattern. There is a subject, * per X-connection, for that. * @{ */ static int keycode2sym(X_kb_info_t *kbinfo, unsigned int keycode) { int sym_idx; int sym; sym_idx = kbinfo->ksym_per_code * (keycode - kbinfo->keycode_min); /* sym = kbinfo->syms[sym_idx];*/ return sym; } static void X_kb_destroy(X_kb_info_t *kbinfo) { subject_free(kbinfo->kbevents); } /* @} */ static unsigned int get_button_state(unsigned int state) { return 0; } static unsigned int get_button(unsigned int button) { return 0; } /*! \brief Notify observers of the shape at specified * position for mouse event. * * Observers of parent shapes may be called if the subject is not * with SUBF_STOP_PROPAGATE flag. The subject of mouse event * for a shape is returned by sh_get_mouse_event_subject(). */ static void notify_coord_or_shape(redraw_man_t *rdman, mb_obj_t *obj, co_aix x, co_aix y, int etype, unsigned int state, unsigned int button) { mouse_event_t mouse_event; subject_t *subject; mouse_event.event.type = etype; mouse_event.x = x; mouse_event.y = y; mouse_event.but_state = state; mouse_event.button = button; if(IS_MBO_SHAPES(obj)) subject = sh_get_mouse_event_subject((shape_t *)obj); else subject = coord_get_mouse_event((coord_t *)obj); subject_notify(subject, (event_t *)&mouse_event); } /*! \brief Handle motion event. */ static void handle_motion_event(X_MB_runtime_t *rt) { redraw_man_t *rdman = rt->rdman; int x, y; int state; shape_t *shape; coord_t *root; int in_stroke; x = rt->mx; y = rt->my; state = rt->mbut_state; shape = find_shape_at_pos(rdman, x, y, &in_stroke); #ifdef ONLY_MOUSE_MOVE_RAW if(shape != NULL) { notify_coord_or_shape(rdman, (mb_obj_t *)shape, x, y, EVT_MOUSE_MOVE_RAW, state, 0); } else { root = rdman_get_root(rdman); notify_coord_or_shape(rdman, (mb_obj_t *)root, x, y, EVT_MOUSE_MOVE_RAW, state, 0); } #else if(shape != NULL) { if(rt->last != shape) { if(rt->last) notify_coord_or_shape(rdman, rt->last, x, y, EVT_MOUSE_OUT, state, 0); notify_coord_or_shape(rdman, shape, x, y, EVT_MOUSE_OVER, state, 0); rt->last = shape; } else notify_coord_or_shape(rdman, shape, x, y, EVT_MOUSE_MOVE, state, 0); } else { if(rt->last) { notify_coord_or_shape(rdman, rt->last, x, y, EVT_MOUSE_OUT, state, 0); rt->last = NULL; } } #endif rt->mflag = 0; } /*! \brief Redraw exposed area. */ static void handle_expose_event(X_MB_runtime_t *rt) { redraw_man_t *rdman = rt->rdman; int ex1, ey1, ex2, ey2; ex1 = rt->ex1; ey1 = rt->ey1; ex2 = rt->ex2; ey2 = rt->ey2; rdman_redraw_area(rdman, ex1, ey1, (ex2 - ex1), (ey2 - ey1)); rt->eflag = 0; } /*! \brief Call when no more event in an event iteration. * * No more event means event queue is emplty. This function will * perform some actions according current internal state. */ static void no_more_event(X_MB_runtime_t *rt) { if(rt->mflag) handle_motion_event(rt); if(rt->eflag) handle_expose_event(rt); } /*! \brief Handle connection coming data and timeout of timers. * * \param display is a Display returned by XOpenDisplay(). * \param rdman is a redraw manager. * \param tman is a timer manager. * * The display is managed by specified rdman and tman. rdman draws * on the display, and tman trigger actions according timers. */ void X_MB_handle_connection(void *be) { X_MB_runtime_t *rt = (X_MB_runtime_t *) be; redraw_man_t *rdman = rt->rdman; mb_tman_t *tman = rt->tman; int fd = 0; mb_timeval_t now, tmo; struct timeval tv; fd_set rfds,wfds; int nfds; int r, r1,i; handle_x_event(rt); /* fd = XConnectionNumber(display);*/ nfds = fd + 1; while(1) { FD_ZERO(&rfds); FD_ZERO(&wfds); FD_SET(fd, &rfds); for(i=0;i<rt->n_monitor;i++) { if (rt->monitors[i].type == MONITOR_READ) FD_SET(rt->monitors[i].fd, &rfds); else if (rt->monitors[i].type == MONITOR_WRITE) FD_SET(rt->monitors[i].fd, &wfds); } get_now(&now); r = mb_tman_next_timeout(tman, &now, &tmo); if(r == 0) { tv.tv_sec = MB_TIMEVAL_SEC(&tmo); tv.tv_usec = MB_TIMEVAL_USEC(&tmo); r1 = select(nfds, &rfds, NULL, NULL, &tv); } else r1 = select(nfds, &rfds, NULL, NULL, NULL); if(r1 == -1) { perror("select"); break; } if(r1 == 0) { get_now(&now); mb_tman_handle_timeout(tman, &now); rdman_redraw_changed(rdman); } else if(FD_ISSET(fd, &rfds)){ handle_x_event(rt); } else { for(i=0;i<rt->n_monitor;i++) { if (rt->monitors[i].type == MONITOR_READ) { if (FD_ISSET(rt->monitors[i].fd, &rfds)) rt->monitors[i].f(rt->monitors[i].fd,rt->monitors[i].arg); } else if (rt->monitors[i].type == MONITOR_WRITE) { if (FD_ISSET(rt->monitors[i].fd, &wfds)) rt->monitors[i].f(rt->monitors[i].fd,rt->monitors[i].arg); } } } } } #define ERR -1 #define OK 0 static int dfb_init_connection(int w, int h, IDirectFB **dfb, IDirectFBSurface **primary) { DFBSurfaceDescription dsc; DirectFBInit(NULL, NULL); DirectFBCreate(dfb); (*dfb)->SetCooperativeLevel(*dfb, DFSCL_FULLSCREEN); dsc.flags = DSDESC_CAPS; dsc.caps = DSCAPS_PRIMARY; (*dfb)->CreateSurface(*dfb, &dsc, primary); (*primary)->GetSize(*primary, &w, &h); (*primary)->SetColor(*primary, 0xff, 0xff, 0xff, 0xff); (*primary)->FillRectangle(*primary, 0, 0, w, h); return OK; } /*! \brief Initialize a MadButterfy runtime for DirectFB. * * This one is very like X_MB_init(), except it accepts a * X_MB_runtime_t object initialized with a display connected to a DirectFB * server and an opened window. * * Following field of the X_MB_runtime_t object should be initialized. * - w, h * - win * - dfb * - primary */ static int X_MB_init_with_win_internal(X_MB_runtime_t *xmb_rt) { mb_img_ldr_t *img_ldr; int w, h; w = xmb_rt->w; h = xmb_rt->h; xmb_rt->surface = mbe_image_surface_create(MB_IFMT_ARGB32, w, h); xmb_rt->surface_ptn = mbe_pattern_create_for_surface(xmb_rt->surface); if (xmb_rt->backend_surface == NULL) xmb_rt->backend_surface = mbe_directfb_surface_create(xmb_rt->dfb, xmb_rt->primary); xmb_rt->cr = mbe_create(xmb_rt->surface); xmb_rt->backend_cr = mbe_create(xmb_rt->backend_surface); mbe_set_source(xmb_rt->backend_cr, xmb_rt->surface_ptn); xmb_rt->rdman = (redraw_man_t *)malloc(sizeof(redraw_man_t)); redraw_man_init(xmb_rt->rdman, xmb_rt->cr, xmb_rt->backend_cr); // FIXME: This is a wired loopback reference. This is inly required when we need // to get the xmb_rt->tman for the animation. We should relocate the tman // to the redraw_man_t instead. xmb_rt->rdman->rt = xmb_rt; xmb_rt->tman = mb_tman_new(); img_ldr = simple_mb_img_ldr_new(""); xmb_rt->img_ldr = img_ldr; rdman_set_img_ldr(xmb_rt->rdman, img_ldr); memset(xmb_rt->monitors,0,sizeof(xmb_rt->monitors)); #ifndef ONLY_MOUSE_MOVE_RAW xmb_rt->last = NULL; #endif /* X_kb_init(&xmb_rt->kbinfo, xmb_rt->display, xmb_rt->rdman);*/ return OK; } /*! \brief Initialize a MadButterfy runtime for DirectFB. * * It setups a runtime environment to run MadButterfly with DirectFB. * Users should specify width and height of the opening window. */ static int X_MB_init(X_MB_runtime_t *xmb_rt, const char *display_name, int w, int h) { int r; memset(xmb_rt, 0, sizeof(X_MB_runtime_t)); xmb_rt->w = w; xmb_rt->h = h; r = dfb_init_connection(w, h, &xmb_rt->dfb, &xmb_rt->primary); if(r != OK) return ERR; r = X_MB_init_with_win_internal(xmb_rt); return r; } static void X_MB_destroy(X_MB_runtime_t *xmb_rt) { if (xmb_rt->rdman) { redraw_man_destroy(xmb_rt->rdman); free(xmb_rt->rdman); } if (xmb_rt->tman) mb_tman_free(xmb_rt->tman); if (xmb_rt->img_ldr) MB_IMG_LDR_FREE(xmb_rt->img_ldr); if (xmb_rt->cr) mbe_destroy(xmb_rt->cr); if (xmb_rt->backend_cr) mbe_destroy(xmb_rt->backend_cr); if(xmb_rt->surface) mbe_surface_destroy(xmb_rt->surface); if(xmb_rt->surface_ptn) mbe_pattern_destroy(xmb_rt->surface_ptn); if(xmb_rt->backend_surface) mbe_surface_destroy(xmb_rt->backend_surface); if (xmb_rt->primary) xmb_rt->primary->Release(xmb_rt->primary); if (xmb_rt->dfb) xmb_rt->dfb->Release(xmb_rt->dfb); } void *X_MB_new(const char *display_name, int w, int h) { X_MB_runtime_t *rt; int r; rt = O_ALLOC(X_MB_runtime_t); if (rt == NULL) return NULL; r = X_MB_init(rt, display_name, w, h); if (r != OK) { free(rt); return NULL; } return rt; } void X_MB_free(void *rt) { X_MB_destroy((X_MB_runtime_t *) rt); free(rt); } /*! \brief Free runtime created with X_MB_new_with_win(). */ void X_MB_free_keep_win(void *rt) { X_MB_destroy_keep_win((X_MB_runtime_t *) rt); free(rt); } subject_t *X_MB_kbevents(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; return xmb_rt->kbinfo.kbevents; } redraw_man_t *X_MB_rdman(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; return xmb_rt->rdman; } mb_tman_t *X_MB_tman(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; return xmb_rt->tman; } observer_factory_t *X_MB_observer_factory(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; observer_factory_t *factory; factory = rdman_get_observer_factory(xmb_rt->rdman); return factory; } mb_img_ldr_t *X_MB_img_ldr(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; mb_img_ldr_t *img_ldr; img_ldr = xmb_rt->img_ldr; return img_ldr; } void X_MB_add_event(void *rt, int type, int fd, mb_eventcb_t f,void *arg) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; int i; for(i=0;i<xmb_rt->n_monitor;i++) { if (xmb_rt->monitors[i].type == type && xmb_rt->monitors[i].fd == fd) { xmb_rt->monitors[i].f = f; xmb_rt->monitors[i].arg = arg; return; } } for(i=0;i<xmb_rt->n_monitor;i++) { if (xmb_rt->monitors[i].type == 0) { xmb_rt->monitors[i].type = type; xmb_rt->monitors[i].fd = fd; xmb_rt->monitors[i].f = f; xmb_rt->monitors[i].arg = arg; return; } } if (i == MAX_MONITORS) return; xmb_rt->monitors[i].type = type; xmb_rt->monitors[i].fd = fd; xmb_rt->monitors[i].f = f; xmb_rt->monitors[i].arg = arg; i++; xmb_rt->n_monitor=i; } void X_MB_remove_event(void *rt, int type, int fd) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *) rt; int i; for(i=0;i<xmb_rt->n_monitor;i++) { if (xmb_rt->monitors[i].type == type && xmb_rt->monitors[i].fd == fd) { xmb_rt->monitors[i].type = 0; return; } } } mb_backend_t backend = { X_MB_new, X_MB_free, X_MB_add_event, X_MB_remove_event, X_MB_handle_connection, X_MB_kbevents, X_MB_rdman, X_MB_tman, X_MB_observer_factory, X_MB_img_ldr }; /*! \defgroup x_supp_nodejs_sup Export functions for supporting nodejs plugin. * * These functions are for internal using. * @{ */ /*! \brief Exported for nodejs plugin to call handle_x_event. */ void _X_MB_handle_x_event_for_nodejs(void *rt) { handle_x_event((X_MB_runtime_t *)rt); } /*! \brief Called at end of an iteration of X event loop. */ void _X_MB_no_more_event(void *rt) { X_MB_runtime_t *xmb_rt = (X_MB_runtime_t *)rt; no_more_event(xmb_rt); } /* @} */