/* * vim:ts=8:sw=3:sts=8:noexpandtab:cino=>5n-3f0^-2{2 */ #ifdef HAVE_CONFIG_H # include #endif #ifndef _WIN32 # define _GNU_SOURCE #endif #ifdef HAVE_ALLOCA_H # include #elif defined __GNUC__ # define alloca __builtin_alloca #elif defined _AIX # define alloca __alloca #elif defined _MSC_VER # include # define alloca _alloca #else # include # ifdef __cplusplus extern "C" # endif void *alloca (size_t); #endif #include #include "edje_private.h" static void _edje_emit_cb(Edje *ed, const char *sig, const char *src); int _edje_anim_count = 0; Ecore_Animator *_edje_timer = NULL; Eina_List *_edje_animators = NULL; /*============================================================================* * API * *============================================================================*/ /** * @addtogroup Edje_program_Group Program * * @brief These functions provide an abstraction layer between the * application code and the interface, while allowing extremely * flexible dynamic layouts and animations. * * @{ */ /** * @brief Set edje trasitions' frame time. * * @param t The frame time, in seconds. Default value is 1/30. * * This function sets the edje built-in animations' frame time (thus, * affecting their resolution) by calling * ecore_animator_frametime_set(). This frame time can be retrieved * with edje_frametime_get(). * * @see edje_frametime_get() * */ EAPI void edje_frametime_set(double t) { ecore_animator_frametime_set(t); } /** * @brief Get edje trasitions' frame time. * * @return The frame time, in seconds. * * This function returns the edje frame time set by * edje_frametime_set(). * * @see edje_frametime_set() * */ EAPI double edje_frametime_get(void) { return ecore_animator_frametime_get(); } /** * @brief Add a callback for a signal emitted by @a obj. * * @param obj A valid Evas_Object handle. * @param emission The signal's name. * @param source The signal's source. * @param func The callback function to be executed when the signal is * emitted. * @param data A pointer to data to pass in to the callback function. * * Connects a callback function to a signal emitted by @a obj. * In EDC, a program can emit a signal as follows: * * @code * program { * name: "emit_example"; * action: SIGNAL_EMIT "a_signal" "a_source"; * } * @endcode * * Assuming a function with the following declaration is definded: * * @code * void cb_signal(void *data, Evas_Object *o, const char *emission, const char *source); * @endcode * * a callback is attached using: * * @code * edje_object_callback_add(obj, "a_signal", "a_source", cb_signal, data); * @endcode * * Here, @a data is an arbitrary pointer to be used as desired. Note * that @a emission and @a source correspond respectively to the first * and the second parameters at the SIGNAL_EMIT action. * * Internal edje signals can also be attached to, and globs can occur * in either the emission or source name, e.g. * * @code * edje_object_callback_add(obj, "mouse,down,*", "button.*", NULL); * @endcode * * Here, any mouse down events on an edje part whose name begins with * "button." will trigger the callback. The actual signal and source * names will be passed in to the @a emission and @a source parameters * of the callback function (e.g. "mouse,down,2" and "button.close"). */ EAPI void edje_object_signal_callback_add(Evas_Object *obj, const char *emission, const char *source, void (*func) (void *data, Evas_Object *o, const char *emission, const char *source), void *data) { Edje *ed; Edje_Signal_Callback *escb; if ((!emission) || (!source) || (!func)) return; ed = _edje_fetch(obj); if (!ed) return; if (ed->delete_me) return; escb = calloc(1, sizeof(Edje_Signal_Callback)); if (emission[0]) escb->signal = eina_stringshare_add(emission); if (source[0]) escb->source = eina_stringshare_add(source); escb->func = func; escb->data = data; ed->callbacks = eina_list_append(ed->callbacks, escb); if (ed->walking_callbacks) { escb->just_added = 1; ed->just_added_callbacks = 1; } else _edje_callbacks_patterns_clean(ed); } /** * @brief Remove a signal-triggered callback from an object. * * @param obj A valid Evas_Object handle. * @param emission The emission string. * @param source The source string. * @param func The callback function. * @return The data pointer * * This function removes a callback, previously attached to the * emittion of a signal, from the object @a obj. The parameters @a * emission, @a source and @a func must match exactly those passed to * a previous call to edje_object_signal_callback_add(). The data * pointer that was passed to this call will be returned. * * @see edje_object_signal_callback_add(). * */ EAPI void * edje_object_signal_callback_del(Evas_Object *obj, const char *emission, const char *source, void (*func) (void *data, Evas_Object *o, const char *emission, const char *source)) { Edje *ed; Eina_List *l; Edje_Signal_Callback *escb; if ((!emission) || (!source) || (!func)) return NULL; ed = _edje_fetch(obj); if (!ed) return NULL; if (ed->delete_me) return NULL; EINA_LIST_FOREACH(ed->callbacks, l, escb) { if ((escb->func == func) && ((!escb->signal && !emission[0]) || (escb->signal && !strcmp(escb->signal, emission))) && ((!escb->source && !source[0]) || (escb->source && !strcmp(escb->source, source)))) { void *data; data = escb->data; if (ed->walking_callbacks) { escb->delete_me = 1; ed->delete_callbacks = 1; } else { _edje_callbacks_patterns_clean(ed); ed->callbacks = eina_list_remove_list(ed->callbacks, l); if (escb->signal) eina_stringshare_del(escb->signal); if (escb->source) eina_stringshare_del(escb->source); free(escb); } return data; } } return NULL; } /** * @brief Send a signal to an edje object. * * @param obj A valid Evas_Object handle. * @param emission The signal's name. * @param source The signal's source. * * This function sends a signal to the object @a obj. An edje program * can respond to a signal by specifying matching 'signal' and * 'source' fields. * * @code * edje_object_signal_emit(obj, "a_signal", ""); * @endcode * * will trigger a program whose EDC block is: * * @code * program { * name: "a_program"; * signal: "a_signal"; * source: ""; * action: ... * } * @endcode * * FIXME: should this signal be sent to children also? */ EAPI void edje_object_signal_emit(Evas_Object *obj, const char *emission, const char *source) { Edje *ed; if ((!emission) || (!source)) return; ed = _edje_fetch(obj); if (!ed) return; if (ed->delete_me) return; _edje_emit(ed, (char *)emission, (char *)source); } /* FIXDOC: Verify/Expand */ /** * @brief Set the edje object to playing or paused states. * * @param obj A valid Evas_Object handle. * @param play Object state (1 to playing, 0 to pauseed). * * This function sets the edje object @a obj to playing or paused * states, depending on the parameter @a play. This has no effect if * the object was already at that state. * * @see edje_object_play_get(). * */ EAPI void edje_object_play_set(Evas_Object *obj, int play) { Edje *ed; double t; Eina_List *l; Edje_Running_Program *runp; int i; ed = _edje_fetch(obj); if (!ed) return; if (ed->delete_me) return; if (play) { if (!ed->paused) return; ed->paused = 0; t = ecore_time_get() - ed->paused_at; EINA_LIST_FOREACH(ed->actions, l, runp) runp->start_time += t; } else { if (ed->paused) return; ed->paused = 1; ed->paused_at = ecore_time_get(); } for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; rp = ed->table_parts[i]; if (rp->part->type == EDJE_PART_TYPE_GROUP && rp->swallowed_object) edje_object_play_set(rp->swallowed_object, play); } } /** * @brief Get the edje object's play/pause state. * * @param obj A valid Evas_Object handle. * @return @c 0 if the object is not connected, its @c delete_me flag * is set, or it is at paused state; @c 1 if the object is at playing * state. * * This function tells if an edje object is playing or not. This state * is set by edje_object_play_set(). * * @see edje_object_play_set(). * */ EAPI int edje_object_play_get(const Evas_Object *obj) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return 0; if (ed->delete_me) return 0; if (ed->paused) return 0; return 1; } /* FIXDOC: Verify/Expand */ /** * @brief Set the object's animation state. * * @param obj A valid Evas_Object handle. * @param on Animation State. * * This function starts or stops an edje object's animation. The * information if it's runnig can be retrieved by * edje_object_animation_get(). * * @see edje_object_animation_get() * */ EAPI void edje_object_animation_set(Evas_Object *obj, int on) { Edje *ed; Eina_List *l; int i; ed = _edje_fetch(obj); if (!ed) return; if (ed->delete_me) return; _edje_block(ed); ed->no_anim = !on; _edje_freeze(ed); if (!on) { Eina_List *newl = NULL; const void *data; EINA_LIST_FOREACH(ed->actions, l, data) newl = eina_list_append(newl, data); while (newl) { Edje_Running_Program *runp; runp = eina_list_data_get(newl); newl = eina_list_remove(newl, eina_list_data_get(newl)); _edje_program_run_iterate(runp, runp->start_time + runp->program->tween.time); if (_edje_block_break(ed)) { eina_list_free(newl); goto break_prog; } } } else { _edje_emit(ed, "load", NULL); if (evas_object_visible_get(obj)) { evas_object_hide(obj); evas_object_show(obj); } } break_prog: for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; rp = ed->table_parts[i]; if (rp->part->type == EDJE_PART_TYPE_GROUP && rp->swallowed_object) edje_object_animation_set(rp->swallowed_object, on); } _edje_thaw(ed); _edje_unblock(ed); } /** * @brief Get the edje object's animation state. * * @param obj A valid Evas_Object handle. * @return @c 0 on error or if object is not animated; @c 1 if animated. * * This function returns if the animation is playing or not. The * animation state is set by edje_object_play_set(). * * @see edje_object_animation_set(). * */ EAPI int edje_object_animation_get(const Evas_Object *obj) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return 0; if (ed->delete_me) return 0; if (ed->no_anim) return 0; return 1; } /* Private Routines */ int _edje_program_run_iterate(Edje_Running_Program *runp, double tim) { double t, total; Eina_List *l; Edje *ed; Edje_Program_Target *pt; Edje_Real_Part *rp; ed = runp->edje; if (ed->delete_me) return 0; _edje_block(ed); _edje_ref(ed); _edje_freeze(ed); t = tim - runp->start_time; total = runp->program->tween.time; t /= total; if (t > 1.0) t = 1.0; EINA_LIST_FOREACH(runp->program->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) _edje_part_pos_set(ed, rp, runp->program->tween.mode, t); } } if (t >= 1.0) { Edje_Program_After *pa; EINA_LIST_FOREACH(runp->program->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) { _edje_part_description_apply(ed, rp, runp->program->state, runp->program->value, NULL, 0.0); _edje_part_pos_set(ed, rp, runp->program->tween.mode, 0.0); rp->program = NULL; } } } _edje_recalc(ed); runp->delete_me = 1; if (!ed->walking_actions) { _edje_anim_count--; ed->actions = eina_list_remove(ed->actions, runp); if (!ed->actions) _edje_animators = eina_list_remove(_edje_animators, ed); } // _edje_emit(ed, "program,stop", runp->program->name); if (_edje_block_break(ed)) { if (!ed->walking_actions) free(runp); goto break_prog; } EINA_LIST_FOREACH(runp->program->after, l, pa) { Edje_Program *pr; if (pa->id >= 0) { pr = ed->table_programs[pa->id % ed->table_programs_size]; if (pr) _edje_program_run(ed, pr, 0, "", ""); if (_edje_block_break(ed)) { if (!ed->walking_actions) free(runp); goto break_prog; } } } _edje_thaw(ed); _edje_unref(ed); if (!ed->walking_actions) free(runp); _edje_unblock(ed); return 0; } break_prog: _edje_recalc(ed); _edje_thaw(ed); _edje_unref(ed); _edje_unblock(ed); return 1; } void _edje_program_end(Edje *ed, Edje_Running_Program *runp) { Eina_List *l; Edje_Program_Target *pt; const char *pname = NULL; int free_runp = 0; if (ed->delete_me) return; _edje_ref(ed); _edje_freeze(ed); EINA_LIST_FOREACH(runp->program->targets, l, pt) { Edje_Real_Part *rp; if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) { _edje_part_description_apply(ed, rp, runp->program->state, runp->program->value, NULL, 0.0); _edje_part_pos_set(ed, rp, runp->program->tween.mode, 0.0); rp->program = NULL; } } } _edje_recalc(ed); runp->delete_me = 1; pname = runp->program->name; if (!ed->walking_actions) { _edje_anim_count--; ed->actions = eina_list_remove(ed->actions, runp); free_runp = 1; if (!ed->actions) { _edje_animators = eina_list_remove(_edje_animators, ed); } } // _edje_emit(ed, "program,stop", pname); _edje_thaw(ed); _edje_unref(ed); if (free_runp) free(runp); } void _edje_program_run(Edje *ed, Edje_Program *pr, int force, const char *ssig, const char *ssrc) { Eina_List *l; Edje_Real_Part *rp; Edje_Program_Target *pt; Edje_Program *pr2; Edje_Program_After *pa; /* limit self-feeding loops in programs to 64 levels */ static int recursions = 0; static int recursion_limit = 0; if (ed->delete_me) return; if ((pr->in.from > 0.0) && (pr->in.range >= 0.0) && (!force)) { Edje_Pending_Program *pp; double r = 0.0; pp = calloc(1, sizeof(Edje_Pending_Program)); if (!pp) return; if (pr->in.range > 0.0) r = ((double)rand() / RAND_MAX); pp->timer = ecore_timer_add(pr->in.from + (pr->in.range * r), _edje_pending_timer_cb, pp); if (!pp->timer) { free(pp); return; } pp->edje = ed; pp->program = pr; ed->pending_actions = eina_list_append(ed->pending_actions, pp); return; } if ((recursions >= 64) || (recursion_limit)) { ERR("Programs recursing up to recursion limit of %i. Disabled.", 64); recursion_limit = 1; return; } recursions++; _edje_block(ed); _edje_ref(ed); _edje_freeze(ed); if (pr->action == EDJE_ACTION_TYPE_STATE_SET) { if ((pr->tween.time > 0.0) && (!ed->no_anim)) { Edje_Running_Program *runp; runp = calloc(1, sizeof(Edje_Running_Program)); EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) { if (rp->program) _edje_program_end(ed, rp->program); _edje_part_description_apply(ed, rp, rp->param1.description->state.name, rp->param1.description->state.value, pr->state, pr->value); _edje_part_pos_set(ed, rp, pr->tween.mode, 0.0); rp->program = runp; } } } // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) { ed->actions = eina_list_append(ed->actions, runp); goto break_prog; } if (!ed->actions) _edje_animators = eina_list_append(_edje_animators, ed); ed->actions = eina_list_append(ed->actions, runp); runp->start_time = ecore_loop_time_get(); runp->edje = ed; runp->program = pr; if (!_edje_timer) _edje_timer = ecore_animator_add(_edje_timer_cb, NULL); _edje_anim_count++; } else { EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) { if (rp->program) _edje_program_end(ed, rp->program); _edje_part_description_apply(ed, rp, pr->state, pr->value, NULL, 0.0); _edje_part_pos_set(ed, rp, pr->tween.mode, 0.0); } } } // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; EINA_LIST_FOREACH(pr->after, l, pa) { if (pa->id >= 0) { pr2 = ed->table_programs[pa->id % ed->table_programs_size]; if (pr2) _edje_program_run(ed, pr2, 0, "", ""); if (_edje_block_break(ed)) goto break_prog; } } _edje_recalc(ed); } } else if (pr->action == EDJE_ACTION_TYPE_ACTION_STOP) { // _edje_emit(ed, "program,start", pr->name); EINA_LIST_FOREACH(pr->targets, l, pt) { Eina_List *ll; Edje_Running_Program *runp; Edje_Pending_Program *pp; EINA_LIST_FOREACH(ed->actions, ll, runp) { if (pt->id == runp->program->id) { _edje_program_end(ed, runp); // goto done; } } EINA_LIST_FOREACH(ed->pending_actions, ll, pp) { if (pt->id == pp->program->id) { ed->pending_actions = eina_list_remove(ed->pending_actions, pp); ecore_timer_del(pp->timer); free(pp); // goto done; } } // done: // continue; } // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; } else if (pr->action == EDJE_ACTION_TYPE_SIGNAL_EMIT) { // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; _edje_emit(ed, pr->state, pr->state2); if (_edje_block_break(ed)) goto break_prog; // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; } else if (pr->action == EDJE_ACTION_TYPE_DRAG_VAL_SET) { // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if ((rp) && (rp->drag) && (rp->drag->down.count == 0)) { rp->drag->val.x = pr->value; rp->drag->val.y = pr->value2; if (rp->drag->val.x < 0.0) rp->drag->val.x = 0.0; else if (rp->drag->val.x > 1.0) rp->drag->val.x = 1.0; if (rp->drag->val.y < 0.0) rp->drag->val.y = 0.0; else if (rp->drag->val.y > 1.0) rp->drag->val.y = 1.0; _edje_dragable_pos_set(ed, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(ed, "drag,set", rp->part->name); if (_edje_block_break(ed)) goto break_prog; } } } // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; } else if (pr->action == EDJE_ACTION_TYPE_DRAG_VAL_STEP) { // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if ((rp) && (rp->drag) && (rp->drag->down.count == 0)) { rp->drag->val.x += pr->value * rp->drag->step.x * rp->part->dragable.x; rp->drag->val.y += pr->value2 * rp->drag->step.y * rp->part->dragable.y; if (rp->drag->val.x < 0.0) rp->drag->val.x = 0.0; else if (rp->drag->val.x > 1.0) rp->drag->val.x = 1.0; if (rp->drag->val.y < 0.0) rp->drag->val.y = 0.0; else if (rp->drag->val.y > 1.0) rp->drag->val.y = 1.0; _edje_dragable_pos_set(ed, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(ed, "drag,step", rp->part->name); if (_edje_block_break(ed)) goto break_prog; } } } // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; } else if (pr->action == EDJE_ACTION_TYPE_DRAG_VAL_PAGE) { // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if ((rp) && (rp->drag) && (rp->drag->down.count == 0)) { rp->drag->val.x += pr->value * rp->drag->page.x * rp->part->dragable.x; rp->drag->val.y += pr->value2 * rp->drag->page.y * rp->part->dragable.y; if (rp->drag->val.x < 0.0) rp->drag->val.x = 0.0; else if (rp->drag->val.x > 1.0) rp->drag->val.x = 1.0; if (rp->drag->val.y < 0.0) rp->drag->val.y = 0.0; else if (rp->drag->val.y > 1.0) rp->drag->val.y = 1.0; _edje_dragable_pos_set(ed, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(ed, "drag,page", rp->part->name); if (_edje_block_break(ed)) goto break_prog; } } } // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; } else if (pr->action == EDJE_ACTION_TYPE_SCRIPT) { char fname[128]; // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; snprintf(fname, sizeof(fname), "_p%i", pr->id); _edje_embryo_test_run(ed, fname, ssig, ssrc); // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; _edje_recalc_do(ed); } else if (pr->action == EDJE_ACTION_TYPE_LUA_SCRIPT) { //printf ("running Lua program script %i\n", pr->id); // _edje_emit(ed, "program,start", pr->name); if (_edje_block_break(ed)) goto break_prog; if (ed->L == NULL) /* private state does not yet exist, create it */ { ed->L = _edje_lua_new_thread(ed->collection->L); _edje_lua_new_reg(ed->collection->L, -1, ed->L); // freed in edje_load.c::_edje_file_del lua_pop(ed->collection->L, 1); } lua_State *L = ed->L; lua_pushnumber(L, pr->id); lua_gettable(L, LUA_GLOBALSINDEX); if (!lua_isnil(L, -1)) { int err_code; lua_pushvalue(L, LUA_GLOBALSINDEX); /* set function environment from collection thread to edje object thread */ lua_setfenv(L, -2); _edje_lua_get_reg(L, ed); if (lua_isnil(L, -1)) /* group object does not yet exist, create it */ { lua_pop(L, 1); _edje_lua_group_fn_new (ed); } lua_pushstring(L, ssig); lua_pushstring(L, ssrc); if ((err_code = lua_pcall(L, 3, 0, 0))) _edje_lua_error(L, err_code); } // _edje_emit(ed, "program,stop", pr->name); if (_edje_block_break(ed)) goto break_prog; _edje_recalc_do(ed); } else if (pr->action == EDJE_ACTION_TYPE_FOCUS_SET) { if (!pr->targets) { ed->focused_part = NULL; } else { EINA_LIST_FOREACH(pr->targets, l, pt) { if (pt->id >= 0) { rp = ed->table_parts[pt->id % ed->table_parts_size]; if (rp) { if (ed->focused_part != rp) { if (ed->focused_part) _edje_emit(ed, "focus,part,out", ed->focused_part->part->name); ed->focused_part = rp; _edje_emit(ed, "focus,part,in", ed->focused_part->part->name); } } } } } } else { // _edje_emit(ed, "program,start", pr->name); // _edje_emit(ed, "program,stop", pr->name); } if (!((pr->action == EDJE_ACTION_TYPE_STATE_SET) /* hmm this fucks somethgin up. must look into it later */ /* && (pr->tween.time > 0.0) && (!ed->no_anim))) */ )) { EINA_LIST_FOREACH(pr->after, l, pa) { if (pa->id >= 0) { pr2 = ed->table_programs[pa->id % ed->table_programs_size]; if (pr2) _edje_program_run(ed, pr2, 0, "", ""); if (_edje_block_break(ed)) goto break_prog; } } } break_prog: _edje_thaw(ed); _edje_unref(ed); recursions--; if (recursions == 0) recursion_limit = 0; _edje_unblock(ed); } void _edje_emit(Edje *ed, const char *sig, const char *src) { Edje_Message_Signal emsg; Eina_List *l; Evas_Object *obj; const char *sep; if (ed->delete_me) return; sep = strchr(sig, ':'); if (sep) { size_t length; char *part; /* the signal contains a colon, split the signal into "part:signal", * and deliver it to "part" (if there is a GROUP or EXTERNAL part named "part") */ length = strlen(sig) + 1; part = alloca(length); if (part) { char *newsig; int i; memcpy(part, sig, length); newsig = part + (sep - sig); *newsig = '\0'; newsig++; for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp = ed->table_parts[i]; if ((rp->part->type == EDJE_PART_TYPE_GROUP || rp->part->type == EDJE_PART_TYPE_EXTERNAL) && (rp->swallowed_object) && (rp->part) && (rp->part->name) && (strcmp(rp->part->name, part) == 0)) { if (rp->part->type == EDJE_PART_TYPE_GROUP) { Edje *ed2 = _edje_fetch(rp->swallowed_object); if (ed2) _edje_emit(ed2, newsig, src); return; /* stop processing. * XXX maybe let signal be processed anyway? * XXX in this case, just comment this line */ } else if (rp->part->type == EDJE_PART_TYPE_EXTERNAL) { _edje_external_signal_emit(rp->swallowed_object, newsig, src); return; } } } } } emsg.sig = sig; emsg.src = src; _edje_message_send(ed, EDJE_QUEUE_SCRIPT, EDJE_MESSAGE_SIGNAL, 0, &emsg); EINA_LIST_FOREACH(ed->subobjs, l, obj) { Edje *ed2; ed2 = _edje_fetch(obj); if (!ed2) continue; if (ed2->delete_me) continue; _edje_message_send(ed2, EDJE_QUEUE_SCRIPT, EDJE_MESSAGE_SIGNAL, 0, &emsg); } } struct _Edje_Program_Data { #ifdef EDJE_PROGRAM_CACHE Eina_List *matches; int matched; #endif Edje *ed; const char *signal; const char *source; }; static int _edje_glob_callback(Edje_Program *pr, void *dt) { struct _Edje_Program_Data *data = dt; #ifdef EDJE_PROGRAM_CACHE data->matched++; #endif _edje_program_run(data->ed, pr, 0, data->signal, data->source); if (_edje_block_break(data->ed)) { #ifdef EDJE_PROGRAM_CACHE eina_list_free(data->matches); data->matches = NULL; #endif return 1; } #ifdef EDJE_PROGRAM_CACHE data->matches = eina_list_append(data->matches, pr); #endif return 0; } void _edje_callbacks_patterns_clean(Edje *ed) { _edje_signals_sources_patterns_clean(&ed->patterns.callbacks); eina_rbtree_delete(ed->patterns.callbacks.exact_match, EINA_RBTREE_FREE_CB(edje_match_signal_source_free), NULL); ed->patterns.callbacks.exact_match = NULL; ed->patterns.callbacks.globing = eina_list_free(ed->patterns.callbacks.globing); } static void _edje_callbacks_patterns_init(Edje *ed) { Edje_Signals_Sources_Patterns *ssp = &ed->patterns.callbacks; if ((ssp->signals_patterns) || (ssp->sources_patterns) || (ssp->globing) || (ssp->exact_match)) return; ssp->globing = edje_match_callback_hash_build(ed->callbacks, &ssp->exact_match); ssp->signals_patterns = edje_match_callback_signal_init(ssp->globing); ssp->sources_patterns = edje_match_callback_source_init(ssp->globing); } /* FIXME: what if we delete the evas object??? */ void _edje_emit_handle(Edje *ed, const char *sig, const char *src) { if (ed->delete_me) return; if (!sig) sig = ""; if (!src) src = ""; // printf("EDJE EMIT: signal: \"%s\" source: \"%s\"\n", sig, src); _edje_block(ed); _edje_ref(ed); _edje_freeze(ed); if (ed->collection) { Edje_Part_Collection *ec; #ifdef EDJE_PROGRAM_CACHE char *tmps; int l1, l2; #endif int done; ec = ed->collection; #ifdef EDJE_PROGRAM_CACHE l1 = strlen(sig); l2 = strlen(src); tmps = alloca(l1 + l2 + 3); /* \0, \337, \0 */ strcpy(tmps, sig); tmps[l1] = '\377'; strcpy(&(tmps[l1 + 1]), src); #endif done = 0; #ifdef EDJE_PROGRAM_CACHE { Eina_List *matches; Eina_List *l; Edje_Program *pr; if (eina_hash_find(ec->prog_cache.no_matches, tmps)) { done = 1; } else if ((matches = eina_hash_find(ec->prog_cache.matches, tmps))) { EINA_LIST_FOREACH(matches, l, pr) { _edje_program_run(ed, pr, 0, sig, src); if (_edje_block_break(ed)) { goto break_prog; } } done = 1; } } #endif if (!done) { struct _Edje_Program_Data data; data.ed = ed; data.source = src; data.signal = sig; #ifdef EDJE_PROGRAM_CACHE data.matched = 0; data.matches = NULL; #endif if (ed->collection->programs) { const Eina_List *match; const Eina_List *l; Edje_Program *pr; if (ed->patterns.programs.globing) if (edje_match_programs_exec(ed->patterns.programs.signals_patterns, ed->patterns.programs.sources_patterns, sig, src, ed->patterns.programs.globing, _edje_glob_callback, &data) == 0) goto break_prog; match = edje_match_signal_source_hash_get(sig, src, ed->patterns.programs.exact_match); EINA_LIST_FOREACH(match, l, pr) _edje_glob_callback(pr, &data); } #ifdef EDJE_PROGRAM_CACHE if (tmps) { if (data.matched == 0) { if (!ec->prog_cache.no_matches) ec->prog_cache.no_matches = eina_hash_string_superfast_new(NULL); eina_hash_add(ec->prog_cache.no_matches, tmps, ed); } else { if (!ec->prog_cache.matches) ec->prog_cache.matches = eina_hash_string_superfast_new(NULL); eina_hash_add(ec->prog_cache.matches, tmps, data.matches); } } #endif } _edje_emit_cb(ed, sig, src); if (_edje_block_break(ed)) { goto break_prog; } } break_prog: _edje_thaw(ed); _edje_unref(ed); _edje_unblock(ed); } /* FIXME: what if we delete the evas object??? */ static void _edje_emit_cb(Edje *ed, const char *sig, const char *src) { Eina_List *l; if (ed->delete_me) return; _edje_ref(ed); _edje_freeze(ed); _edje_block(ed); if (ed->just_added_callbacks) _edje_callbacks_patterns_clean(ed); ed->walking_callbacks = 1; if (ed->callbacks) { Edje_Signal_Callback *escb; const Eina_List *match; const Eina_List *l; int r = 1; _edje_callbacks_patterns_init(ed); if (ed->patterns.callbacks.globing) r = edje_match_callback_exec(ed->patterns.callbacks.signals_patterns, ed->patterns.callbacks.sources_patterns, sig, src, ed->patterns.callbacks.globing, ed); if (!r) goto break_prog; match = edje_match_signal_source_hash_get(sig, src, ed->patterns.callbacks.exact_match); EINA_LIST_FOREACH(match, l, escb) if ((!escb->just_added) && (!escb->delete_me)) { escb->func(escb->data, ed->obj, sig, src); if (_edje_block_break(ed)) goto break_prog; } } break_prog: ed->walking_callbacks = 0; if ((ed->delete_callbacks) || (ed->just_added_callbacks)) { ed->delete_callbacks = 0; ed->just_added_callbacks = 0; l = ed->callbacks; while (l) { Edje_Signal_Callback *escb = l->data; Eina_List *next_l = l->next; if (escb->just_added) escb->just_added = 0; if (escb->delete_me) { ed->callbacks = eina_list_remove_list(ed->callbacks, l); if (escb->signal) eina_stringshare_del(escb->signal); if (escb->source) eina_stringshare_del(escb->source); free(escb); } l = next_l; } _edje_callbacks_patterns_clean(ed); } _edje_unblock(ed); _edje_thaw(ed); _edje_unref(ed); } /** * * @} */