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efl/legacy/ecore/src/lib/ecore/ecore_anim.c

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#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdlib.h>
#include <math.h>
#include "Ecore.h"
#include "ecore_private.h"
struct _Ecore_Animator
{
EINA_INLIST;
ECORE_MAGIC;
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;
};
static Eina_Bool _ecore_animator_run(void *data);
static Eina_Bool _ecore_animator(void *data);
static int animators_delete_me = 0;
static Ecore_Animator *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 *animator;
EINA_INLIST_FOREACH(animators, animator)
{
if (!animator->delete_me && !animator->suspended)
{
if (!_ecore_call_task_cb(animator->func, animator->data))
{
animator->delete_me = EINA_TRUE;
animators_delete_me++;
}
}
}
if (animators_delete_me)
{
Ecore_Animator *l;
for (l = animators; l;)
{
animator = l;
l = (Ecore_Animator *) EINA_INLIST_GET(l)->next;
if (animator->delete_me)
{
animators = (Ecore_Animator *)
eina_inlist_remove(EINA_INLIST_GET(animators),
EINA_INLIST_GET(animator));
ECORE_MAGIC_SET(animator, ECORE_MAGIC_NONE);
free(animator);
animators_delete_me--;
if (animators_delete_me == 0) break;
}
}
}
if (!animators)
{
_end_tick();
return ECORE_CALLBACK_CANCEL;
}
return ECORE_CALLBACK_RENEW;
}
static Ecore_Animator *
_ecore_animator_add(Ecore_Task_Cb func, const void *data)
{
Ecore_Animator *animator = NULL;
if (!func) return animator;
animator = calloc(1, sizeof(Ecore_Animator));
if (!animator) return animator;
ECORE_MAGIC_SET(animator, ECORE_MAGIC_ANIMATOR);
animator->func = func;
animator->data = (void *)data;
animators = (Ecore_Animator *)eina_inlist_append(EINA_INLIST_GET(animators), EINA_INLIST_GET(animator));
_begin_tick();
return animator;
}
EAPI Ecore_Animator *
ecore_animator_add(Ecore_Task_Cb func, const void *data)
{
Ecore_Animator *animator;
_ecore_lock();
animator = _ecore_animator_add(func, data);
_ecore_unlock();
return animator;
}
EAPI Ecore_Animator *
ecore_animator_timeline_add(double runtime, Ecore_Timeline_Cb func, const void *data)
{
Ecore_Animator *animator;
_ecore_lock();
if (runtime <= 0.0) runtime = 0.0;
animator = _ecore_animator_add(_ecore_animator_run, NULL);
animator->data = animator;
animator->run_func = func;
animator->run_data = (void *)data;
animator->start = ecore_loop_time_get();
animator->run = runtime;
_ecore_unlock();
return animator;
}
static double
_pos_map_sin(double in)
{
return eina_f32p32_double_to(eina_f32p32_sin(eina_f32p32_double_from(in)));
}
static double
_pos_map_cos(double in)
{
return eina_f32p32_double_to(eina_f32p32_cos(eina_f32p32_double_from(in)));
}
static double
_pos_map_accel_factor(double pos, double v1)
{
int i, fact = (int)v1;
double p, o1 = pos, o2 = pos, 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;
}
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 = 1.0 - _pos_map_sin((M_PI / 2.0) + ((pos * M_PI) / 2.0));
return pos;
case ECORE_POS_MAP_DECELERATE:
pos = _pos_map_sin((pos * M_PI) / 2.0);
return pos;
case ECORE_POS_MAP_SINUSOIDAL:
pos = (1.0 - _pos_map_cos(pos * M_PI)) / 2.0;
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;
v2 = 0.0;
}
EAPI void *
ecore_animator_del(Ecore_Animator *animator)
{
void *data = NULL;
_ecore_lock();
if (!ECORE_MAGIC_CHECK(animator, ECORE_MAGIC_ANIMATOR))
{
ECORE_MAGIC_FAIL(animator, ECORE_MAGIC_ANIMATOR,
"ecore_animator_del");
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;
}
EAPI void
ecore_animator_frametime_set(double frametime)
{
_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)
{
return animators_frametime;
}
EAPI void
ecore_animator_freeze(Ecore_Animator *animator)
{
_ecore_lock();
if (!ECORE_MAGIC_CHECK(animator, ECORE_MAGIC_ANIMATOR))
{
ECORE_MAGIC_FAIL(animator, ECORE_MAGIC_ANIMATOR,
"ecore_animator_del");
goto unlock;
}
if (animator->delete_me) goto unlock;
animator->suspended = EINA_TRUE;
unlock:
_ecore_unlock();
}
EAPI void
ecore_animator_thaw(Ecore_Animator *animator)
{
_ecore_lock();
if (!ECORE_MAGIC_CHECK(animator, ECORE_MAGIC_ANIMATOR))
{
ECORE_MAGIC_FAIL(animator, ECORE_MAGIC_ANIMATOR,
"ecore_animator_del");
goto unlock;
}
if (animator->delete_me) goto unlock;
animator->suspended = EINA_FALSE;
unlock:
_ecore_unlock();
}
EAPI void
ecore_animator_source_set(Ecore_Animator_Source source)
{
_ecore_lock();
src = source;
_end_tick();
if (animators) _begin_tick();
_ecore_unlock();
}
EAPI Ecore_Animator_Source
ecore_animator_source_get(void)
{
return src;
}
EAPI void
ecore_animator_custom_source_tick_begin_callback_set(Ecore_Cb func, const void *data)
{
_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)
{
_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)
{
_ecore_lock();
if (src == ECORE_ANIMATOR_SOURCE_CUSTOM) _do_tick();
_ecore_unlock();
}
void
_ecore_animator_shutdown(void)
{
_end_tick();
while (animators)
{
Ecore_Animator *animator;
animator = animators;
animators = (Ecore_Animator *) eina_inlist_remove(EINA_INLIST_GET(animators), EINA_INLIST_GET(animators));
ECORE_MAGIC_SET(animator, ECORE_MAGIC_NONE);
free(animator);
}
}
static Eina_Bool
_ecore_animator_run(void *data)
{
Ecore_Animator *animator = data;
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 __UNUSED__)
{
Eina_Bool r;
_ecore_lock();
r = _do_tick();
_ecore_unlock();
return r;
}
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