#ifdef HAVE_CONFIG_H # include #endif #include #include #include #include "Ecore.h" #include "ecore_private.h" #define MY_CLASS ECORE_ANIMATOR_CLASS #define MY_CLASS_NAME "ecore_animator" #define ECORE_ANIMATOR_CHECK(obj) \ if (!eo_isa((obj), ECORE_ANIMATOR_CLASS)) \ return EAPI Eo_Op ECORE_ANIMATOR_BASE_ID = EO_NOOP; struct _Ecore_Animator_Private_Data { EINA_INLIST; Ecore_Animator *obj; Ecore_Task_Cb func; void *data; double start, run; Ecore_Timeline_Cb run_func; void *run_data; Eina_Bool delete_me : 1; Eina_Bool suspended : 1; Eina_Bool just_added : 1; }; typedef struct _Ecore_Animator_Private_Data Ecore_Animator_Private_Data; static Eina_Bool _ecore_animator_run(void *data); static Eina_Bool _ecore_animator(void *data); static int animators_delete_me = 0; static Ecore_Animator_Private_Data *animators = NULL; static double animators_frametime = 1.0 / 30.0; static Ecore_Animator_Source src = ECORE_ANIMATOR_SOURCE_TIMER; static Ecore_Timer *timer = NULL; static int ticking = 0; static Ecore_Cb begin_tick_cb = NULL; static const void *begin_tick_data = NULL; static Ecore_Cb end_tick_cb = NULL; static const void *end_tick_data = NULL; static void _begin_tick(void) { if (ticking) return; ticking = 1; switch (src) { case ECORE_ANIMATOR_SOURCE_TIMER: if (!timer) { double t_loop = ecore_loop_time_get(); double sync_0 = 0.0; double d = -fmod(t_loop - sync_0, animators_frametime); timer = _ecore_timer_loop_add(animators_frametime, _ecore_animator, NULL); _ecore_timer_delay(timer, d); } break; case ECORE_ANIMATOR_SOURCE_CUSTOM: if (begin_tick_cb) begin_tick_cb((void *)begin_tick_data); break; default: break; } } static void _end_tick(void) { if (!ticking) return; ticking = 0; switch (src) { case ECORE_ANIMATOR_SOURCE_TIMER: if (timer) { _ecore_timer_del(timer); timer = NULL; } break; case ECORE_ANIMATOR_SOURCE_CUSTOM: if (end_tick_cb) end_tick_cb((void *)end_tick_data); break; default: break; } } static Eina_Bool _do_tick(void) { Ecore_Animator_Private_Data *animator; EINA_INLIST_FOREACH(animators, animator) { animator->just_added = EINA_FALSE; } EINA_INLIST_FOREACH(animators, animator) { if ((!animator->delete_me) && (!animator->suspended) && (!animator->just_added)) { if (!_ecore_call_task_cb(animator->func, animator->data)) { animator->delete_me = EINA_TRUE; animators_delete_me++; } } else animator->just_added = EINA_FALSE; } if (animators_delete_me) { Ecore_Animator_Private_Data *l; for (l = animators; l; ) { animator = l; l = (Ecore_Animator_Private_Data *)EINA_INLIST_GET(l)->next; if (animator->delete_me) { animators = (Ecore_Animator_Private_Data *) eina_inlist_remove(EINA_INLIST_GET(animators), EINA_INLIST_GET(animator)); eo_parent_set(animator->obj, NULL); if (eo_destructed_is(animator->obj)) eo_manual_free(animator->obj); else eo_manual_free_set(animator->obj, EINA_FALSE); animators_delete_me--; if (animators_delete_me == 0) break; } } } if (!animators) { _end_tick(); return ECORE_CALLBACK_CANCEL; } return ECORE_CALLBACK_RENEW; } static Eina_Bool _ecore_animator_add(Ecore_Animator *obj, Ecore_Animator_Private_Data *animator, Ecore_Task_Cb func, const void *data) { if (EINA_UNLIKELY(!eina_main_loop_is())) { eo_error_set(obj); EINA_MAIN_LOOP_CHECK_RETURN_VAL(EINA_FALSE); } animator->obj = obj; eo_do_super(obj, eo_constructor()); eo_manual_free_set(obj, EINA_TRUE); if (!func) { eo_error_set(obj); ERR("callback function must be set up for an object of class: '%s'", MY_CLASS_NAME); return EINA_FALSE; } animator->func = func; animator->data = (void *)data; animator->just_added = EINA_TRUE; animators = (Ecore_Animator_Private_Data *)eina_inlist_append(EINA_INLIST_GET(animators), EINA_INLIST_GET(animator)); _begin_tick(); return EINA_TRUE; } static void _constructor(Eo *obj, void *_pd EINA_UNUSED, va_list *list EINA_UNUSED) { eo_error_set(obj); ERR("only custom constructor can be used with '%s' class", MY_CLASS_NAME); } EAPI Ecore_Animator * ecore_animator_add(Ecore_Task_Cb func, const void *data) { Ecore_Animator *animator = NULL; animator = eo_add_custom(MY_CLASS, _ecore_parent, ecore_animator_constructor(func, data)); eo_unref(animator); return animator; } static void _animator_constructor(Eo *obj, void *_pd, va_list *list) { Ecore_Task_Cb func = va_arg(*list, Ecore_Task_Cb); const void *data = va_arg(*list, const void *); _ecore_lock(); Ecore_Animator_Private_Data *animator = _pd; _ecore_animator_add(obj, animator, func, data); _ecore_unlock(); } EAPI Ecore_Animator * ecore_animator_timeline_add(double runtime, Ecore_Timeline_Cb func, const void *data) { Ecore_Animator *animator; animator = eo_add_custom(MY_CLASS, _ecore_parent, ecore_animator_timeline_constructor(runtime, func, data)); eo_unref(animator); return animator; } static void _animator_timeline_constructor(Eo *obj, void *_pd, va_list *list) { _ecore_lock(); double runtime = va_arg(*list, double); if (runtime <= 0.0) runtime = 0.0; Ecore_Timeline_Cb func = va_arg(*list, Ecore_Timeline_Cb); const void *data = va_arg(*list, const void *); Ecore_Animator_Private_Data *animator = _pd; if (!_ecore_animator_add(obj, animator, _ecore_animator_run, NULL)) goto unlock; animator->data = obj; animator->run_func = func; animator->run_data = (void *)data; animator->start = ecore_loop_time_get(); animator->run = runtime; unlock: _ecore_unlock(); } static double _pos_map_sin(double in) { return eina_f32p32_double_to(eina_f32p32_sin(eina_f32p32_double_from(in))); } #if 0 static double _pos_map_cos(double in) { return eina_f32p32_double_to(eina_f32p32_cos(eina_f32p32_double_from(in))); } #endif static double _pos_map_accel_factor(double pos, double v1) { int i, fact = (int)v1; double p, o1 = pos, o2, v; p = 1.0 - _pos_map_sin((M_PI / 2.0) + ((pos * M_PI) / 2.0)); o2 = p; for (i = 0; i < fact; i++) { o1 = o2; o2 = o2 * p; } v = v1 - (double)fact; pos = (v * o2) + ((1.0 - v) * o1); return pos; } static double _pos_map_pow(double pos, double divis, int p) { double v = 1.0; int i; for (i = 0; i < p; i++) v *= pos; return ((pos * divis) * (1.0 - v)) + (pos * v); } static double _pos_map_spring(double pos, int bounces, double decfac) { int segnum, segpos, b1, b2; double len, decay, decpos, p2; if (bounces < 0) bounces = 0; p2 = _pos_map_pow(pos, 0.5, 3); len = (M_PI / 2.0) + ((double)bounces * M_PI); segnum = (bounces * 2) + 1; segpos = 2 * (((int)(p2 * segnum) + 1) / 2); b1 = segpos; b2 = segnum + 1; if (b1 < 0) b1 = 0; decpos = (double)b1 / (double)b2; decay = _pos_map_accel_factor(1.0 - decpos, decfac); return _pos_map_sin((M_PI / 2.0) + (p2 * len)) * decay; } #define DBL_TO(Fp) eina_f32p32_double_to(Fp) #define DBL_FROM(D) eina_f32p32_double_from(D) #define INT_FROM(I) eina_f32p32_int_from(I) #define SIN(Fp) eina_f32p32_sin(Fp) #define COS(Fp) eina_f32p32_cos(Fp) #define ADD(A, B) eina_f32p32_add(A, B) #define SUB(A, B) eina_f32p32_sub(A, B) #define MUL(A, B) eina_f32p32_mul(A, B) EAPI double ecore_animator_pos_map(double pos, Ecore_Pos_Map map, double v1, double v2) { /* purely functional - locking not required */ if (pos > 1.0) pos = 1.0; else if (pos < 0.0) pos = 0.0; switch (map) { case ECORE_POS_MAP_LINEAR: return pos; case ECORE_POS_MAP_ACCELERATE: /* pos = 1 - sin(Pi / 2 + pos * Pi / 2); */ pos = DBL_TO(SUB(INT_FROM(1), SIN(ADD((EINA_F32P32_PI >> 1), MUL(DBL_FROM(pos), (EINA_F32P32_PI >> 1)))))); return pos; case ECORE_POS_MAP_DECELERATE: /* pos = sin(pos * Pi / 2); */ pos = DBL_TO(SIN(MUL(DBL_FROM(pos), (EINA_F32P32_PI >> 1)))); return pos; case ECORE_POS_MAP_SINUSOIDAL: /* pos = (1 - cos(pos * Pi)) / 2 */ pos = DBL_TO((SUB(INT_FROM(1), COS(MUL(DBL_FROM(pos), EINA_F32P32_PI)))) >> 1); return pos; case ECORE_POS_MAP_ACCELERATE_FACTOR: pos = _pos_map_accel_factor(pos, v1); return pos; case ECORE_POS_MAP_DECELERATE_FACTOR: pos = 1.0 - _pos_map_accel_factor(1.0 - pos, v1); return pos; case ECORE_POS_MAP_SINUSOIDAL_FACTOR: if (pos < 0.5) pos = _pos_map_accel_factor(pos * 2.0, v1) / 2.0; else pos = 1.0 - (_pos_map_accel_factor((1.0 - pos) * 2.0, v1) / 2.0); return pos; case ECORE_POS_MAP_DIVISOR_INTERP: pos = _pos_map_pow(pos, v1, (int)v2); return pos; case ECORE_POS_MAP_BOUNCE: pos = _pos_map_spring(pos, (int)v2, v1); if (pos < 0.0) pos = -pos; pos = 1.0 - pos; return pos; case ECORE_POS_MAP_SPRING: pos = 1.0 - _pos_map_spring(pos, (int)v2, v1); return pos; default: return pos; } return pos; } EAPI void * ecore_animator_del(Ecore_Animator *obj) { void *data = NULL; if (!obj) return NULL; EINA_MAIN_LOOP_CHECK_RETURN_VAL(NULL); Ecore_Animator_Private_Data *animator = eo_data_get(obj, MY_CLASS); _ecore_lock(); if (!animator) goto unlock; if (animator->delete_me) { data = animator->data; goto unlock; } animator->delete_me = EINA_TRUE; animators_delete_me++; if (animator->run_func) data = animator->run_data; else data = animator->data; unlock: _ecore_unlock(); return data; } static void _destructor(Eo *obj, void *_pd, va_list *list EINA_UNUSED) { Ecore_Animator_Private_Data *pd = _pd; pd->delete_me = EINA_TRUE; animators_delete_me++; eo_do_super(obj, eo_destructor()); } EAPI void ecore_animator_frametime_set(double frametime) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); if (frametime < 0.0) frametime = 0.0; if (animators_frametime == frametime) goto unlock; animators_frametime = frametime; _end_tick(); if (animators) _begin_tick(); unlock: _ecore_unlock(); } EAPI double ecore_animator_frametime_get(void) { EINA_MAIN_LOOP_CHECK_RETURN_VAL(0.0); return animators_frametime; } EAPI void ecore_animator_freeze(Ecore_Animator *animator) { ECORE_ANIMATOR_CHECK(animator); eo_do(animator, eo_event_freeze()); } static void _ecore_animator_freeze(Eo *obj EINA_UNUSED, void *_pd, va_list *list EINA_UNUSED) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); Ecore_Animator_Private_Data *animator = _pd; if (animator->delete_me) goto unlock; animator->suspended = EINA_TRUE; unlock: _ecore_unlock(); } EAPI void ecore_animator_thaw(Ecore_Animator *animator) { ECORE_ANIMATOR_CHECK(animator); eo_do(animator, eo_event_thaw()); } static void _ecore_animator_thaw(Eo *obj EINA_UNUSED, void *_pd, va_list *list EINA_UNUSED) { EINA_MAIN_LOOP_CHECK_RETURN; Ecore_Animator_Private_Data *animator = _pd; _ecore_lock(); if (animator->delete_me) goto unlock; animator->suspended = EINA_FALSE; unlock: _ecore_unlock(); } EAPI void ecore_animator_source_set(Ecore_Animator_Source source) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); src = source; _end_tick(); if (animators) _begin_tick(); _ecore_unlock(); } EAPI Ecore_Animator_Source ecore_animator_source_get(void) { EINA_MAIN_LOOP_CHECK_RETURN_VAL(0); return src; } EAPI void ecore_animator_custom_source_tick_begin_callback_set(Ecore_Cb func, const void *data) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); begin_tick_cb = func; begin_tick_data = data; _end_tick(); if (animators) _begin_tick(); _ecore_unlock(); } EAPI void ecore_animator_custom_source_tick_end_callback_set(Ecore_Cb func, const void *data) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); end_tick_cb = func; end_tick_data = data; _end_tick(); if (animators) _begin_tick(); _ecore_unlock(); } EAPI void ecore_animator_custom_tick(void) { EINA_MAIN_LOOP_CHECK_RETURN; _ecore_lock(); if (src == ECORE_ANIMATOR_SOURCE_CUSTOM) _do_tick(); _ecore_unlock(); } void _ecore_animator_shutdown(void) { _end_tick(); while (animators) { Ecore_Animator_Private_Data *animator; animator = animators; animators = (Ecore_Animator_Private_Data *)eina_inlist_remove(EINA_INLIST_GET(animators), EINA_INLIST_GET(animators)); eo_parent_set(animator->obj, NULL); if (eo_destructed_is(animator->obj)) eo_manual_free(animator->obj); else eo_manual_free_set(animator->obj, EINA_FALSE); } } static Eina_Bool _ecore_animator_run(void *data) { Ecore_Animator *obj = data; Ecore_Animator_Private_Data *animator = eo_data_get(obj, MY_CLASS); double pos = 0.0, t; Eina_Bool run_ret; t = ecore_loop_time_get(); if (animator->run > 0.0) { pos = (t - animator->start) / animator->run; if (pos > 1.0) pos = 1.0; else if (pos < 0.0) pos = 0.0; } run_ret = animator->run_func(animator->run_data, pos); if (t >= (animator->start + animator->run)) run_ret = EINA_FALSE; return run_ret; } static Eina_Bool _ecore_animator(void *data EINA_UNUSED) { Eina_Bool r; _ecore_lock(); r = _do_tick(); _ecore_unlock(); return r; } static void _class_constructor(Eo_Class *klass) { const Eo_Op_Func_Description func_desc[] = { EO_OP_FUNC(EO_BASE_ID(EO_BASE_SUB_ID_CONSTRUCTOR), _constructor), EO_OP_FUNC(EO_BASE_ID(EO_BASE_SUB_ID_DESTRUCTOR), _destructor), EO_OP_FUNC(EO_BASE_ID(EO_BASE_SUB_ID_EVENT_FREEZE), _ecore_animator_freeze), EO_OP_FUNC(EO_BASE_ID(EO_BASE_SUB_ID_EVENT_THAW), _ecore_animator_thaw), EO_OP_FUNC(ECORE_ANIMATOR_ID(ECORE_ANIMATOR_SUB_ID_CONSTRUCTOR), _animator_constructor), EO_OP_FUNC(ECORE_ANIMATOR_ID(ECORE_ANIMATOR_SUB_ID_TIMELINE_CONSTRUCTOR), _animator_timeline_constructor), EO_OP_FUNC_SENTINEL }; eo_class_funcs_set(klass, func_desc); } static const Eo_Op_Description op_desc[] = { EO_OP_DESCRIPTION(ECORE_ANIMATOR_SUB_ID_CONSTRUCTOR, "Add an animator to call func at every animation tick during main loop execution."), EO_OP_DESCRIPTION(ECORE_ANIMATOR_SUB_ID_TIMELINE_CONSTRUCTOR, "Add an animator that runs for a limited time"), EO_OP_DESCRIPTION_SENTINEL }; static const Eo_Class_Description class_desc = { EO_VERSION, MY_CLASS_NAME, EO_CLASS_TYPE_REGULAR, EO_CLASS_DESCRIPTION_OPS(&ECORE_ANIMATOR_BASE_ID, op_desc, ECORE_ANIMATOR_SUB_ID_LAST), NULL, sizeof(Ecore_Animator_Private_Data), _class_constructor, NULL }; EO_DEFINE_CLASS(ecore_animator_class_get, &class_desc, EO_BASE_CLASS, NULL)