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enlightenment/src/bin/e_table.c

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#include "e.h"
typedef struct _E_Smart_Data E_Smart_Data;
typedef struct _E_Table_Item E_Table_Item;
struct _E_Smart_Data
{
Evas_Coord x, y, w, h;
Evas_Object *obj;
Evas_Object *clip;
int frozen;
unsigned char changed : 1;
unsigned char homogenous : 1;
Eina_List *items;
struct
{
Evas_Coord w, h;
} min, max;
struct
{
double x, y;
} align;
struct
{
int cols, rows;
} size;
};
struct _E_Table_Item
{
E_Smart_Data *sd;
int col, row, colspan, rowspan;
unsigned char fill_w : 1;
unsigned char fill_h : 1;
unsigned char expand_w : 1;
unsigned char expand_h : 1;
struct
{
Evas_Coord w, h;
} min, max;
struct
{
double x, y;
} align;
Evas_Object *obj;
};
/* local subsystem functions */
static E_Table_Item *_e_table_smart_adopt(E_Smart_Data *sd, Evas_Object *obj);
static void _e_table_smart_disown(Evas_Object *obj);
static void _e_table_smart_item_del_hook(void *data, Evas *e, Evas_Object *obj, void *event_info);
static void _e_table_smart_reconfigure(E_Smart_Data *sd);
static void _e_table_smart_extents_calcuate(E_Smart_Data *sd);
static void _e_table_smart_init(void);
static void _e_table_smart_add(Evas_Object *obj);
static void _e_table_smart_del(Evas_Object *obj);
static void _e_table_smart_move(Evas_Object *obj, Evas_Coord x, Evas_Coord y);
static void _e_table_smart_resize(Evas_Object *obj, Evas_Coord w, Evas_Coord h);
static void _e_table_smart_show(Evas_Object *obj);
static void _e_table_smart_hide(Evas_Object *obj);
static void _e_table_smart_color_set(Evas_Object *obj, int r, int g, int b, int a);
static void _e_table_smart_clip_set(Evas_Object *obj, Evas_Object *clip);
static void _e_table_smart_clip_unset(Evas_Object *obj);
/* local subsystem globals */
static Evas_Smart *_e_smart = NULL;
/* externally accessible functions */
EAPI Evas_Object *
e_table_add(Evas *evas)
{
_e_table_smart_init();
return evas_object_smart_add(evas, _e_smart);
}
EAPI int
e_table_freeze(Evas_Object *obj)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERR(0);
sd = evas_object_smart_data_get(obj);
sd->frozen++;
return sd->frozen;
}
EAPI int
e_table_thaw(Evas_Object *obj)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERR(0);
sd = evas_object_smart_data_get(obj);
sd->frozen--;
if (sd->frozen <= 0) _e_table_smart_reconfigure(sd);
return sd->frozen;
}
EAPI void
e_table_homogenous_set(Evas_Object *obj, int homogenous)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if (sd->homogenous == homogenous) return;
sd->homogenous = homogenous;
sd->changed = 1;
if (sd->frozen <= 0) _e_table_smart_reconfigure(sd);
}
EAPI void
e_table_pack(Evas_Object *obj, Evas_Object *child, int col, int row, int colspan, int rowspan)
{
E_Smart_Data *sd;
E_Table_Item *ti;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
_e_table_smart_adopt(sd, child);
sd->items = eina_list_append(sd->items, child);
ti = evas_object_data_get(child, "e_table_data");
if (ti)
{
ti->col = col;
ti->row = row;
ti->colspan = colspan;
ti->rowspan = rowspan;
if (sd->size.cols < (col + colspan)) sd->size.cols = col + colspan;
if (sd->size.rows < (row + rowspan)) sd->size.rows = row + rowspan;
}
sd->changed = 1;
if (sd->frozen <= 0) _e_table_smart_reconfigure(sd);
}
EAPI void
e_table_pack_options_set(Evas_Object *obj, int fill_w, int fill_h, int expand_w, int expand_h, double align_x, double align_y, Evas_Coord min_w, Evas_Coord min_h, Evas_Coord max_w, Evas_Coord max_h)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
if (!ti) return;
ti->fill_w = fill_w;
ti->fill_h = fill_h;
ti->expand_w = expand_w;
ti->expand_h = expand_h;
ti->align.x = align_x;
ti->align.y = align_y;
ti->min.w = min_w;
ti->min.h = min_h;
ti->max.w = max_w;
ti->max.h = max_h;
ti->sd->changed = 1;
if (ti->sd->frozen <= 0) _e_table_smart_reconfigure(ti->sd);
}
EAPI void
e_table_unpack(Evas_Object *obj)
{
E_Table_Item *ti;
E_Smart_Data *sd;
ti = evas_object_data_get(obj, "e_table_data");
if (!ti) return;
sd = ti->sd;
sd->items = eina_list_remove(sd->items, obj);
_e_table_smart_disown(obj);
sd->changed = 1;
if (sd->frozen <= 0) _e_table_smart_reconfigure(sd);
}
EAPI void
e_table_col_row_size_get(Evas_Object *obj, int *cols, int *rows)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if (sd->changed) _e_table_smart_extents_calcuate(sd);
if (cols) *cols = sd->size.cols;
if (rows) *rows = sd->size.rows;
}
EAPI void
e_table_size_min_get(Evas_Object *obj, Evas_Coord *minw, Evas_Coord *minh)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if (sd->changed) _e_table_smart_extents_calcuate(sd);
if (minw) *minw = sd->min.w;
if (minh) *minh = sd->min.h;
}
EAPI void
e_table_size_max_get(Evas_Object *obj, Evas_Coord *maxw, Evas_Coord *maxh)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if (sd->changed) _e_table_smart_extents_calcuate(sd);
if (maxw) *maxw = sd->max.w;
if (maxh) *maxh = sd->max.h;
}
EAPI void
e_table_align_get(Evas_Object *obj, double *ax, double *ay)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if (ax) *ax = sd->align.x;
if (ay) *ay = sd->align.y;
}
EAPI void
e_table_align_set(Evas_Object *obj, double ax, double ay)
{
E_Smart_Data *sd;
if (evas_object_smart_smart_get(obj) != _e_smart) SMARTERRNR();
sd = evas_object_smart_data_get(obj);
if ((sd->align.x == ax) && (sd->align.y == ay)) return;
sd->align.x = ax;
sd->align.y = ay;
sd->changed = 1;
if (sd->frozen <= 0) _e_table_smart_reconfigure(sd);
}
/* local subsystem functions */
static E_Table_Item *
_e_table_smart_adopt(E_Smart_Data *sd, Evas_Object *obj)
{
E_Table_Item *ti;
ti = calloc(1, sizeof(E_Table_Item));
if (!ti) return NULL;
ti->sd = sd;
ti->obj = obj;
/* defaults */
ti->col = 0;
ti->row = 0;
ti->colspan = 1;
ti->rowspan = 1;
ti->fill_w = 0;
ti->fill_h = 0;
ti->expand_w = 0;
ti->expand_h = 0;
ti->align.x = 0.5;
ti->align.y = 0.5;
ti->min.w = 0;
ti->min.h = 0;
ti->max.w = 0;
ti->max.h = 0;
evas_object_clip_set(obj, sd->clip);
// evas_object_stack_above(obj, sd->obj);
evas_object_smart_member_add(obj, ti->sd->obj);
evas_object_data_set(obj, "e_table_data", ti);
evas_object_event_callback_add(obj, EVAS_CALLBACK_FREE,
_e_table_smart_item_del_hook, NULL);
// evas_object_stack_below(obj, sd->obj);
if ((!evas_object_visible_get(sd->clip)) &&
(evas_object_visible_get(sd->obj)))
evas_object_show(sd->clip);
return ti;
}
static void
_e_table_smart_disown(Evas_Object *obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
if (!ti) return;
if (!ti->sd->items)
{
if (evas_object_visible_get(ti->sd->clip))
evas_object_hide(ti->sd->clip);
}
evas_object_event_callback_del(obj,
EVAS_CALLBACK_FREE,
_e_table_smart_item_del_hook);
evas_object_smart_member_del(obj);
evas_object_data_del(obj, "e_table_data");
free(ti);
}
static void
_e_table_smart_item_del_hook(void *data __UNUSED__, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__)
{
e_table_unpack(obj);
}
static void
_e_table_smart_reconfigure(E_Smart_Data *sd)
{
Evas_Coord x, y, w, h, xx, yy;
Eina_List *l;
Evas_Object *obj;
int minw, minh, expandw, expandh;
if (!sd->changed) return;
w = sd->w;
h = sd->h;
_e_table_smart_extents_calcuate(sd);
minw = sd->min.w;
minh = sd->min.h;
expandw = 0;
expandh = 0;
if (w < minw) w = minw;
if (h < minh) h = minh;
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
if (ti->expand_w) expandw++;
if (ti->expand_h) expandh++;
}
if (expandw == 0)
{
w = minw;
}
if (expandh == 0)
{
h = minh;
}
x = sd->x;
y = sd->y;
if (sd->homogenous)
{
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
Evas_Coord ww, hh, ow, oh;
ti = evas_object_data_get(obj, "e_table_data");
xx = x + ((ti->col) * (w / (Evas_Coord)sd->size.cols));
yy = y + ((ti->row) * (h / (Evas_Coord)sd->size.rows));
ww = ((w / (Evas_Coord)sd->size.cols) * (ti->colspan));
hh = ((h / (Evas_Coord)sd->size.rows) * (ti->rowspan));
ow = ti->min.w;
if (ti->expand_w) ow = ww;
if ((ti->max.w >= 0) && (ti->max.w < ow)) ow = ti->max.w;
oh = ti->min.h;
if (ti->expand_h) oh = hh;
if ((ti->max.h >= 0) && (ti->max.h < oh)) oh = ti->max.h;
evas_object_move(obj,
xx + (Evas_Coord)(((double)(ww - ow)) * ti->align.x),
yy + (Evas_Coord)(((double)(hh - oh)) * ti->align.y));
evas_object_resize(obj, ow, oh);
}
}
else
{
int i, ex, tot, need, num, dif, left, nx;
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
if (sd->size.cols < (ti->col + ti->colspan))
sd->size.cols = ti->col + ti->colspan;
if (sd->size.rows < (ti->row + ti->rowspan))
sd->size.rows = ti->row + ti->rowspan;
}
if ((sd->size.cols > 0) && (sd->size.rows > 0))
{
int *cols, *rows, *colsx, *rowsx;
cols = calloc(sd->size.cols, sizeof(int));
rows = calloc(sd->size.rows, sizeof(int));
colsx = calloc(sd->size.cols, sizeof(int));
rowsx = calloc(sd->size.rows, sizeof(int));
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
for (i = ti->col; i < (ti->col + ti->colspan); i++)
colsx[i] |= ti->expand_w;
for (i = ti->row; i < (ti->row + ti->rowspan); i++)
rowsx[i] |= ti->expand_h;
}
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
/* handle horizontal */
ex = 0;
tot = 0;
num = ti->colspan;
for (i = ti->col; i < (ti->col + num); i++)
{
if (colsx[i]) ex++;
tot += cols[i];
}
need = ti->min.w;
if (tot < need)
{
dif = need - tot;
left = dif;
if (ex == 0)
{
nx = num;
for (i = ti->col; i < (ti->col + num); i++)
{
if (nx > 1)
{
cols[i] += dif / num;
left -= dif / num;
}
else
{
cols[i] += left;
left = 0;
}
nx--;
}
}
else
{
nx = ex;
for (i = ti->col; i < (ti->col + num); i++)
{
if (colsx[i])
{
if (nx > 1)
{
cols[i] += dif / ex;
left -= dif / ex;
}
else
{
cols[i] += left;
left = 0;
}
nx--;
}
}
}
}
/* handle vertical */
ex = 0;
tot = 0;
num = ti->rowspan;
for (i = ti->row; i < (ti->row + num); i++)
{
if (rowsx[i]) ex++;
tot += rows[i];
}
need = ti->min.h;
if (tot < need)
{
dif = need - tot;
left = dif;
if (ex == 0)
{
nx = num;
for (i = ti->row; i < (ti->row + num); i++)
{
if (nx > 1)
{
rows[i] += dif / num;
left -= dif / num;
}
else
{
rows[i] += left;
left = 0;
}
nx--;
}
}
else
{
nx = ex;
for (i = ti->row; i < (ti->row + num); i++)
{
if (rowsx[i])
{
if (nx > 1)
{
rows[i] += dif / ex;
left -= dif / ex;
}
else
{
rows[i] += left;
left = 0;
}
nx--;
}
}
}
}
}
ex = 0;
for (i = 0; i < sd->size.cols; i++) {
if (colsx[i])
ex++;
}
tot = 0;
for (i = 0; i < sd->size.cols; i++)
tot += cols[i];
dif = w - tot;
if ((ex > 0) && (dif > 0))
{
int exl;
left = dif;
exl = ex;
for (i = 0; i < sd->size.cols; i++)
{
if (colsx[i])
{
if (exl == 1)
{
cols[i] += left;
exl--;
left = 0;
}
else
{
cols[i] += dif / ex;
exl--;
left -= dif / ex;
}
}
}
}
ex = 0;
for (i = 0; i < sd->size.rows; i++) {
if (rowsx[i])
ex++;
}
tot = 0;
for (i = 0; i < sd->size.rows; i++)
tot += rows[i];
dif = h - tot;
if ((ex > 0) && (dif > 0))
{
int exl;
left = dif;
exl = ex;
for (i = 0; i < sd->size.rows; i++)
{
if (rowsx[i])
{
if (exl == 1)
{
rows[i] += left;
exl--;
left = 0;
}
else
{
rows[i] += dif / ex;
exl--;
left -= dif / ex;
}
}
}
}
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
Evas_Coord ww, hh, ow, oh, idx;
ti = evas_object_data_get(obj, "e_table_data");
xx = x;
for (idx = 0; idx < ti->col; idx++)
xx += cols[idx];
ww = 0;
for (idx = ti->col; idx < (ti->col + ti->colspan); idx++)
ww += cols[idx];
yy = y;
for (idx = 0; idx < ti->row; idx++)
yy += rows[idx];
hh = 0;
for (idx = ti->row; idx < (ti->row + ti->rowspan); idx++)
hh += rows[idx];
ow = ti->min.w;
if (ti->fill_w) ow = ww;
if ((ti->max.w >= 0) && (ti->max.w < ow)) ow = ti->max.w;
oh = ti->min.h;
if (ti->fill_h) oh = hh;
if ((ti->max.h >= 0) && (ti->max.h < oh)) oh = ti->max.h;
evas_object_move(obj,
xx + (Evas_Coord)(((double)(ww - ow)) * ti->align.x),
yy + (Evas_Coord)(((double)(hh - oh)) * ti->align.y));
evas_object_resize(obj, ow, oh);
}
free(rows);
free(cols);
free(rowsx);
free(colsx);
}
}
sd->changed = 0;
}
static void
_e_table_smart_extents_calcuate(E_Smart_Data *sd)
{
Eina_List *l;
Evas_Object *obj;
int minw, minh;
sd->max.w = -1; /* max < 0 == unlimited */
sd->max.h = -1;
sd->size.cols = 0;
sd->size.rows = 0;
minw = 0;
minh = 0;
if (sd->homogenous)
{
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
int mw, mh;
ti = evas_object_data_get(obj, "e_table_data");
if (sd->size.cols < (ti->col + ti->colspan))
sd->size.cols = ti->col + ti->colspan;
if (sd->size.rows < (ti->row + ti->rowspan))
sd->size.rows = ti->row + ti->rowspan;
mw = (ti->min.w + (ti->colspan - 1)) / ti->colspan;
mh = (ti->min.h + (ti->rowspan - 1)) / ti->rowspan;
if (minw < mw) minw = mw;
if (minh < mh) minh = mh;
}
minw *= sd->size.cols;
minh *= sd->size.rows;
}
else
{
int i, ex, tot, need, num, dif, left, nx;
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
if (sd->size.cols < (ti->col + ti->colspan))
sd->size.cols = ti->col + ti->colspan;
if (sd->size.rows < (ti->row + ti->rowspan))
sd->size.rows = ti->row + ti->rowspan;
}
if ((sd->size.cols > 0) && (sd->size.rows > 0))
{
int *cols, *rows, *colsx, *rowsx;
cols = calloc(sd->size.cols, sizeof(int));
rows = calloc(sd->size.rows, sizeof(int));
colsx = calloc(sd->size.cols, sizeof(int));
rowsx = calloc(sd->size.rows, sizeof(int));
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
for (i = ti->col; i < (ti->col + ti->colspan); i++)
colsx[i] |= ti->expand_w;
for (i = ti->row; i < (ti->row + ti->rowspan); i++)
rowsx[i] |= ti->expand_h;
}
EINA_LIST_FOREACH(sd->items, l, obj)
{
E_Table_Item *ti;
ti = evas_object_data_get(obj, "e_table_data");
/* handle horizontal */
ex = 0;
tot = 0;
num = ti->colspan;
for (i = ti->col; i < (ti->col + num); i++)
{
if (colsx[i]) ex++;
tot += cols[i];
}
need = ti->min.w;
if (tot < need)
{
dif = need - tot;
left = dif;
if (ex == 0)
{
nx = num;
for (i = ti->col; i < (ti->col + num); i++)
{
if (nx > 1)
{
cols[i] += dif / num;
left -= dif / num;
}
else
{
cols[i] += left;
left = 0;
}
nx--;
}
}
else
{
nx = ex;
for (i = ti->col; i < (ti->col + num); i++)
{
if (colsx[i])
{
if (nx > 1)
{
cols[i] += dif / ex;
left -= dif / ex;
}
else
{
cols[i] += left;
left = 0;
}
nx--;
}
}
}
}
/* handle vertical */
ex = 0;
tot = 0;
num = ti->rowspan;
for (i = ti->row; i < (ti->row + num); i++)
{
if (rowsx[i]) ex++;
tot += rows[i];
}
need = ti->min.h;
if (tot < need)
{
dif = need - tot;
left = dif;
if (ex == 0)
{
nx = num;
for (i = ti->row; i < (ti->row + num); i++)
{
if (nx > 1)
{
rows[i] += dif / num;
left -= dif / num;
}
else
{
rows[i] += left;
left = 0;
}
nx--;
}
}
else
{
nx = ex;
for (i = ti->row; i < (ti->row + num); i++)
{
if (rowsx[i])
{
if (nx > 1)
{
rows[i] += dif / ex;
left -= dif / ex;
}
else
{
rows[i] += left;
left = 0;
}
nx--;
}
}
}
}
}
for (i = 0; i < sd->size.cols; i++)
minw += cols[i];
for (i = 0; i < sd->size.rows; i++)
minh += rows[i];
free(rows);
free(cols);
free(rowsx);
free(colsx);
}
}
sd->min.w = minw;
sd->min.h = minh;
}
static void
_e_table_smart_init(void)
{
if (_e_smart) return;
{
static const Evas_Smart_Class sc =
{
"e_table",
EVAS_SMART_CLASS_VERSION,
_e_table_smart_add,
_e_table_smart_del,
_e_table_smart_move,
_e_table_smart_resize,
_e_table_smart_show,
_e_table_smart_hide,
_e_table_smart_color_set,
_e_table_smart_clip_set,
_e_table_smart_clip_unset,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL
};
_e_smart = evas_smart_class_new(&sc);
}
}
static void
_e_table_smart_add(Evas_Object *obj)
{
E_Smart_Data *sd;
sd = calloc(1, sizeof(E_Smart_Data));
if (!sd) return;
sd->obj = obj;
sd->x = 0;
sd->y = 0;
sd->w = 0;
sd->h = 0;
sd->clip = evas_object_rectangle_add(evas_object_evas_get(obj));
evas_object_smart_member_add(sd->clip, obj);
evas_object_move(sd->clip, -100002, -100002);
evas_object_resize(sd->clip, 200004, 200004);
evas_object_color_set(sd->clip, 255, 255, 255, 255);
evas_object_smart_data_set(obj, sd);
}
static void
_e_table_smart_del(Evas_Object *obj)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
e_table_freeze(obj);
while (sd->items)
{
Evas_Object *child;
child = eina_list_data_get(sd->items);
e_table_unpack(child);
}
e_table_thaw(obj);
evas_object_del(sd->clip);
free(sd);
}
static void
_e_table_smart_move(Evas_Object *obj, Evas_Coord x, Evas_Coord y)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
if ((x == sd->x) && (y == sd->y)) return;
if ((x == sd->x) && (y == sd->y)) return;
{
Eina_List *l;
Evas_Object *item;
Evas_Coord dx, dy;
dx = x - sd->x;
dy = y - sd->y;
EINA_LIST_FOREACH(sd->items, l, item)
{
Evas_Coord ox, oy;
evas_object_geometry_get(item, &ox, &oy, NULL, NULL);
evas_object_move(item, ox + dx, oy + dy);
}
}
sd->x = x;
sd->y = y;
}
static void
_e_table_smart_resize(Evas_Object *obj, Evas_Coord w, Evas_Coord h)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
if ((w == sd->w) && (h == sd->h)) return;
sd->w = w;
sd->h = h;
sd->changed = 1;
_e_table_smart_reconfigure(sd);
}
static void
_e_table_smart_show(Evas_Object *obj)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
if (sd->items) evas_object_show(sd->clip);
}
static void
_e_table_smart_hide(Evas_Object *obj)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
evas_object_hide(sd->clip);
}
static void
_e_table_smart_color_set(Evas_Object *obj, int r, int g, int b, int a)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
evas_object_color_set(sd->clip, r, g, b, a);
}
static void
_e_table_smart_clip_set(Evas_Object *obj, Evas_Object *clip)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
evas_object_clip_set(sd->clip, clip);
}
static void
_e_table_smart_clip_unset(Evas_Object *obj)
{
E_Smart_Data *sd;
sd = evas_object_smart_data_get(obj);
if (!sd) return;
evas_object_clip_unset(sd->clip);
}
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