#include "edje_private.h" typedef struct _Edje_Box_Layout Edje_Box_Layout; struct _Edje_Box_Layout { EINA_RBTREE; Evas_Object_Box_Layout func; void *(*layout_data_get)(void *); void (*layout_data_free)(void *); void *data; void (*free_data)(void *); char name[]; }; static Eina_Hash *_edje_color_class_hash = NULL; static Eina_Hash *_edje_color_class_member_hash = NULL; static Eina_Hash *_edje_text_class_hash = NULL; static Eina_Hash *_edje_text_class_member_hash = NULL; static Eina_Rbtree *_edje_box_layout_registry = NULL; char *_edje_fontset_append = NULL; FLOAT_T _edje_scale = ZERO; Eina_Bool _edje_password_show_last = EINA_FALSE; FLOAT_T _edje_password_show_last_timeout = ZERO; int _edje_freeze_val = 0; int _edje_freeze_calc_count = 0; Eina_List *_edje_freeze_calc_list = NULL; typedef struct _Edje_List_Foreach_Data Edje_List_Foreach_Data; struct _Edje_List_Foreach_Data { Eina_List *list; }; typedef struct _Edje_List_Refcount Edje_List_Refcount; struct _Edje_List_Refcount { EINA_REFCOUNT; Eina_List *lookup; }; static Eina_Bool _edje_color_class_list_foreach(const Eina_Hash *hash, const void *key, void *data, void *fdata); static Eina_Bool _edje_text_class_list_foreach(const Eina_Hash *hash, const void *key, void *data, void *fdata); static void _edje_object_image_preload_cb(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _edje_object_signal_preload_cb(void *data, Evas_Object *obj, const char *emission, const char *source); Edje_Real_Part *_edje_real_part_recursive_get_helper(const Edje *ed, char **path); static void _edje_class_member_direct_del(const char *class, Edje_List_Refcount *lookup, Eina_Hash *hash) { Eina_List *members; members = eina_hash_find(hash, class); members = eina_list_remove_list(members, lookup->lookup); eina_hash_set(hash, class, members); free(lookup); } static void _edje_class_member_add(Edje *ed, Eina_Hash **ehash, Eina_Hash **ghash, const char *class) { Edje_List_Refcount *lookup; Eina_List *members; if ((!ed) || (!ehash) || (!ghash) || (!class)) return; lookup = eina_hash_find(*ehash, class); if (lookup) { EINA_REFCOUNT_REF(lookup); return; } lookup = malloc(sizeof (Edje_List_Refcount)); if (!lookup) return ; EINA_REFCOUNT_INIT(lookup); /* Get members list */ members = eina_hash_find(*ghash, class); /* Update the member list */ lookup->lookup = members = eina_list_prepend(members, ed); /* Don't loose track of members list */ if (!*ehash) *ehash = eina_hash_string_small_new(NULL); eina_hash_add(*ehash, class, lookup); /* Reset the member list to the right pointer */ if (!*ghash) *ghash = eina_hash_string_superfast_new(NULL); eina_hash_set(*ghash, class, members); } static void _edje_class_member_del(Eina_Hash **ehash, Eina_Hash **ghash, const char *class) { Edje_List_Refcount *lookup; Eina_List *members; if ((!ehash) || (!ghash) || (!class)) return; members = eina_hash_find(*ghash, class); if (!members) return; lookup = eina_hash_find(*ehash, class); if (!lookup) return ; EINA_REFCOUNT_UNREF(lookup) { members = eina_list_remove_list(members, lookup->lookup); eina_hash_set(*ghash, class, members); eina_hash_del(*ehash, class, lookup); free(lookup); } } static Eina_Bool member_list_free(const Eina_Hash *hash __UNUSED__, const void *key __UNUSED__, void *data, void *fdata __UNUSED__) { eina_list_free(data); return EINA_TRUE; } static void _edje_class_members_free(Eina_Hash **ghash) { if (!ghash || !*ghash) return; eina_hash_foreach(*ghash, member_list_free, NULL); eina_hash_free(*ghash); *ghash = NULL; } /************************** API Routines **************************/ #define FASTFREEZE 1 EAPI void edje_freeze(void) { #ifdef FASTFREEZE _edje_freeze_val++; INF("fr ++ ->%i", _edje_freeze_val); #else // FIXME: could just have a global freeze instead of per object // above i tried.. but this broke some things. notable e17's menus. why? Eina_List *l; Evas_Object *data; EINA_LIST_FOREACH(_edje_edjes, l, data) edje_object_freeze(data); #endif } #ifdef FASTFREEZE static void _edje_thaw_edje(Edje *ed) { unsigned int i; 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 *ed2; ed2 = _edje_fetch(rp->swallowed_object); if (ed2) _edje_thaw_edje(ed2); } } if ((ed->recalc) && (ed->freeze <= 0)) _edje_recalc_do(ed); } #endif EAPI void edje_thaw(void) { #ifdef FASTFREEZE _edje_freeze_val--; INF("fr -- ->%i", _edje_freeze_val); if ((_edje_freeze_val <= 0) && (_edje_freeze_calc_count > 0)) { Edje *ed; _edje_freeze_calc_count = 0; EINA_LIST_FREE(_edje_freeze_calc_list, ed) { _edje_thaw_edje(ed); ed->freeze_calc = 0; } } #else Evas_Object *data; // FIXME: could just have a global freeze instead of per object // comment as above.. why? Eina_List *l; EINA_LIST_FOREACH(_edje_edjes, l, data) edje_object_thaw(data); #endif } EAPI void edje_fontset_append_set(const char *fonts) { if (_edje_fontset_append) free(_edje_fontset_append); _edje_fontset_append = fonts ? strdup(fonts) : NULL; } EAPI const char * edje_fontset_append_get(void) { return _edje_fontset_append; } EAPI void edje_scale_set(double scale) { Eina_List *l; Evas_Object *data; if (_edje_scale == FROM_DOUBLE(scale)) return; _edje_scale = FROM_DOUBLE(scale); EINA_LIST_FOREACH(_edje_edjes, l, data) edje_object_calc_force(data); } EAPI double edje_scale_get(void) { return TO_DOUBLE(_edje_scale); } EAPI void edje_password_show_last_set(Eina_Bool password_show_last) { if (_edje_password_show_last == password_show_last) return; _edje_password_show_last = password_show_last; } EAPI void edje_password_show_last_timeout_set(double password_show_last_timeout) { if (_edje_password_show_last_timeout == FROM_DOUBLE(password_show_last_timeout)) return; _edje_password_show_last_timeout = FROM_DOUBLE(password_show_last_timeout); } EAPI Eina_Bool edje_object_scale_set(Evas_Object *obj, double scale) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return EINA_FALSE; if (ed->scale == scale) return EINA_TRUE; ed->scale = FROM_DOUBLE(scale); edje_object_calc_force(obj); return EINA_TRUE; } EAPI double edje_object_scale_get(const Evas_Object *obj) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return 0.0; return TO_DOUBLE(ed->scale); } EAPI Eina_Bool edje_object_mirrored_get(const Evas_Object *obj) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return EINA_FALSE; return ed->is_rtl; } void _edje_object_orientation_inform(Evas_Object *obj) { if (edje_object_mirrored_get(obj)) edje_object_signal_emit(obj, "edje,state,rtl", "edje"); else edje_object_signal_emit(obj, "edje,state,ltr", "edje"); } EAPI void edje_object_mirrored_set(Evas_Object *obj, Eina_Bool rtl) { Edje *ed; unsigned int i; ed = _edje_fetch(obj); if (!ed) return; if (ed->is_rtl == rtl) return; ed->is_rtl = rtl; for (i = 0 ; i < ed->table_parts_size ; i++) { Edje_Real_Part *ep; const char *s; double v; ep = ed->table_parts[i]; s = ep->param1.description->state.name, v = ep->param1.description->state.value; _edje_part_description_apply(ed, ep, s, v , NULL, 0.0); ep->chosen_description = ep->param1.description; } _edje_recalc_do(ed); _edje_object_orientation_inform(obj); return; } EAPI const char * edje_object_data_get(const Evas_Object *obj, const char *key) { Edje *ed; ed = _edje_fetch(obj); if ((!ed) || (!key)) return NULL; if (!ed->collection) return NULL; if (!ed->collection->data) return NULL; return edje_string_get(eina_hash_find(ed->collection->data, key)); } EAPI int edje_object_freeze(Evas_Object *obj) { Edje *ed; unsigned int i; ed = _edje_fetch(obj); if (!ed) return 0; 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_freeze(rp->swallowed_object); } return _edje_freeze(ed); } EAPI int edje_object_thaw(Evas_Object *obj) { Edje *ed; unsigned int i; ed = _edje_fetch(obj); if (!ed) return 0; 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_thaw(rp->swallowed_object); } return _edje_thaw(ed); } EAPI Eina_Bool edje_color_class_set(const char *color_class, int r, int g, int b, int a, int r2, int g2, int b2, int a2, int r3, int g3, int b3, int a3) { Eina_List *members; Edje_Color_Class *cc; if (!color_class) return EINA_FALSE; cc = eina_hash_find(_edje_color_class_hash, color_class); if (!cc) { cc = calloc(1, sizeof(Edje_Color_Class)); if (!cc) return EINA_FALSE; cc->name = eina_stringshare_add(color_class); if (!cc->name) { free(cc); return EINA_FALSE; } if (!_edje_color_class_hash) _edje_color_class_hash = eina_hash_string_superfast_new(NULL); eina_hash_add(_edje_color_class_hash, color_class, cc); } if (r < 0) r = 0; else if (r > 255) r = 255; if (g < 0) g = 0; else if (g > 255) g = 255; if (b < 0) b = 0; else if (b > 255) b = 255; if (a < 0) a = 0; else if (a > 255) a = 255; if ((cc->r == r) && (cc->g == g) && (cc->b == b) && (cc->a == a) && (cc->r2 == r2) && (cc->g2 == g2) && (cc->b2 == b2) && (cc->a2 == a2) && (cc->r3 == r3) && (cc->g3 == g3) && (cc->b3 == b3) && (cc->a3 == a3)) return EINA_TRUE; cc->r = r; cc->g = g; cc->b = b; cc->a = a; cc->r2 = r2; cc->g2 = g2; cc->b2 = b2; cc->a2 = a2; cc->r3 = r3; cc->g3 = g3; cc->b3 = b3; cc->a3 = a3; members = eina_hash_find(_edje_color_class_member_hash, color_class); while (members) { Edje *ed; ed = eina_list_data_get(members); ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc(ed); _edje_emit(ed, "color_class,set", color_class); members = eina_list_next(members); } return EINA_TRUE; } EAPI Eina_Bool edje_color_class_get(const char *color_class, int *r, int *g, int *b, int *a, int *r2, int *g2, int *b2, int *a2, int *r3, int *g3, int *b3, int *a3) { Edje_Color_Class *cc; if (!color_class) cc = NULL; else cc = eina_hash_find(_edje_color_class_hash, color_class); if (cc) { #define X(C) if (C) *C = cc->C #define S(_r, _g, _b, _a) X(_r); X(_g); X(_b); X(_a) S(r, g, b, a); S(r2, g2, b2, a2); S(r3, g3, b3, a3); #undef S #undef X return EINA_TRUE; } else { #define X(C) if (C) *C = 0 #define S(_r, _g, _b, _a) X(_r); X(_g); X(_b); X(_a) S(r, g, b, a); S(r2, g2, b2, a2); S(r3, g3, b3, a3); #undef S #undef X return EINA_FALSE; } } void edje_color_class_del(const char *color_class) { Edje_Color_Class *cc; Eina_List *members; if (!color_class) return; cc = eina_hash_find(_edje_color_class_hash, color_class); if (!cc) return; eina_hash_del(_edje_color_class_hash, color_class, cc); eina_stringshare_del(cc->name); free(cc); members = eina_hash_find(_edje_color_class_member_hash, color_class); while (members) { Edje *ed; ed = eina_list_data_get(members); ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc(ed); _edje_emit(ed, "color_class,del", color_class); members = eina_list_next(members); } } Eina_List * edje_color_class_list(void) { Edje_List_Foreach_Data fdata; if (!_edje_color_class_member_hash) return NULL; memset(&fdata, 0, sizeof(Edje_List_Foreach_Data)); eina_hash_foreach(_edje_color_class_member_hash, _edje_color_class_list_foreach, &fdata); return fdata.list; } static Eina_Bool _edje_color_class_list_foreach(const Eina_Hash *hash __UNUSED__, const void *key, void *data __UNUSED__, void *fdata) { Edje_List_Foreach_Data *fd; fd = fdata; fd->list = eina_list_append(fd->list, strdup(key)); return EINA_TRUE; } EAPI Eina_Bool edje_object_color_class_set(Evas_Object *obj, const char *color_class, int r, int g, int b, int a, int r2, int g2, int b2, int a2, int r3, int g3, int b3, int a3) { Edje *ed; Eina_List *l; Edje_Color_Class *cc; unsigned int i; ed = _edje_fetch(obj); if ((!ed) || (!color_class)) return EINA_FALSE; if (r < 0) r = 0; else if (r > 255) r = 255; if (g < 0) g = 0; else if (g > 255) g = 255; if (b < 0) b = 0; else if (b > 255) b = 255; if (a < 0) a = 0; else if (a > 255) a = 255; color_class = eina_stringshare_add(color_class); if (!color_class) return EINA_FALSE; EINA_LIST_FOREACH(ed->color_classes, l, cc) { if (cc->name == color_class) { eina_stringshare_del(color_class); if ((cc->r == r) && (cc->g == g) && (cc->b == b) && (cc->a == a) && (cc->r2 == r2) && (cc->g2 == g2) && (cc->b2 == b2) && (cc->a2 == a2) && (cc->r3 == r3) && (cc->g3 == g3) && (cc->b3 == b3) && (cc->a3 == a3)) return EINA_TRUE; cc->r = r; cc->g = g; cc->b = b; cc->a = a; cc->r2 = r2; cc->g2 = g2; cc->b2 = b2; cc->a2 = a2; cc->r3 = r3; cc->g3 = g3; cc->b3 = b3; cc->a3 = a3; ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc(ed); return EINA_TRUE; } } cc = malloc(sizeof(Edje_Color_Class)); if (!cc) { eina_stringshare_del(color_class); return EINA_FALSE; } cc->name = color_class; cc->r = r; cc->g = g; cc->b = b; cc->a = a; cc->r2 = r2; cc->g2 = g2; cc->b2 = b2; cc->a2 = a2; cc->r3 = r3; cc->g3 = g3; cc->b3 = b3; cc->a3 = a3; ed->color_classes = eina_list_append(ed->color_classes, cc); ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif 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_color_class_set(rp->swallowed_object, color_class, r, g, b, a, r2, g2, b2, a2, r3, g3, b3, a3); } _edje_recalc(ed); _edje_emit(ed, "color_class,set", color_class); return EINA_TRUE; } EAPI Eina_Bool edje_object_color_class_get(const Evas_Object *obj, const char *color_class, int *r, int *g, int *b, int *a, int *r2, int *g2, int *b2, int *a2, int *r3, int *g3, int *b3, int *a3) { Edje *ed = _edje_fetch(obj); Edje_Color_Class *cc = _edje_color_class_find(ed, color_class); if (cc) { #define X(C) if (C) *C = cc->C #define S(_r, _g, _b, _a) X(_r); X(_g); X(_b); X(_a) S(r, g, b, a); S(r2, g2, b2, a2); S(r3, g3, b3, a3); #undef S #undef X return EINA_TRUE; } else { #define X(C) if (C) *C = 0 #define S(_r, _g, _b, _a) X(_r); X(_g); X(_b); X(_a) S(r, g, b, a); S(r2, g2, b2, a2); S(r3, g3, b3, a3); #undef S #undef X return EINA_FALSE; } } void edje_object_color_class_del(Evas_Object *obj, const char *color_class) { Edje *ed; Eina_List *l; Edje_Color_Class *cc = NULL; unsigned int i; if (!color_class) return; ed = _edje_fetch(obj); EINA_LIST_FOREACH(ed->color_classes, l, cc) { if (!strcmp(cc->name, color_class)) { ed->color_classes = eina_list_remove(ed->color_classes, cc); eina_stringshare_del(cc->name); free(cc); break; } } 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_color_class_del(rp->swallowed_object, color_class); } ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc(ed); _edje_emit(ed, "color_class,del", color_class); } EAPI Eina_Bool edje_text_class_set(const char *text_class, const char *font, Evas_Font_Size size) { Eina_List *members; Edje_Text_Class *tc; if (!text_class) return EINA_FALSE; if (!font) font = ""; tc = eina_hash_find(_edje_text_class_hash, text_class); /* Create new text class */ if (!tc) { tc = calloc(1, sizeof(Edje_Text_Class)); if (!tc) return EINA_FALSE; tc->name = eina_stringshare_add(text_class); if (!tc->name) { free(tc); return EINA_FALSE; } if (!_edje_text_class_hash) _edje_text_class_hash = eina_hash_string_superfast_new(NULL); eina_hash_add(_edje_text_class_hash, text_class, tc); tc->font = eina_stringshare_add(font); tc->size = size; return EINA_FALSE; } /* If the class found is the same just return */ if ((tc->size == size) && (tc->font) && (!strcmp(tc->font, font))) return EINA_TRUE; /* Update the class found */ eina_stringshare_del(tc->font); tc->font = eina_stringshare_add(font); if (!tc->font) { eina_hash_del(_edje_text_class_hash, text_class, tc); free(tc); return EINA_FALSE; } tc->size = size; /* Tell all members of the text class to recalc */ members = eina_hash_find(_edje_text_class_member_hash, text_class); while (members) { Edje *ed; ed = eina_list_data_get(members); ed->dirty = 1; _edje_textblock_style_all_update(ed); #ifdef EDJE_CALC_CACHE ed->text_part_change = 1; #endif _edje_recalc(ed); members = eina_list_next(members); } return EINA_TRUE; } void edje_text_class_del(const char *text_class) { Edje_Text_Class *tc; Eina_List *members; if (!text_class) return; tc = eina_hash_find(_edje_text_class_hash, text_class); if (!tc) return; eina_hash_del(_edje_text_class_hash, text_class, tc); eina_stringshare_del(tc->name); eina_stringshare_del(tc->font); free(tc); members = eina_hash_find(_edje_text_class_member_hash, text_class); while (members) { Edje *ed; ed = eina_list_data_get(members); ed->dirty = 1; _edje_textblock_style_all_update(ed); #ifdef EDJE_CALC_CACHE ed->text_part_change = 1; #endif _edje_recalc(ed); members = eina_list_next(members); } } Eina_List * edje_text_class_list(void) { Edje_List_Foreach_Data fdata; memset(&fdata, 0, sizeof(Edje_List_Foreach_Data)); eina_hash_foreach(_edje_text_class_member_hash, _edje_text_class_list_foreach, &fdata); return fdata.list; } static Eina_Bool _edje_text_class_list_foreach(const Eina_Hash *hash __UNUSED__, const void *key, void *data __UNUSED__, void *fdata) { Edje_List_Foreach_Data *fd; fd = fdata; fd->list = eina_list_append(fd->list, eina_stringshare_add(key)); return EINA_TRUE; } EAPI Eina_Bool edje_object_text_class_set(Evas_Object *obj, const char *text_class, const char *font, Evas_Font_Size size) { Edje *ed; Eina_List *l; Edje_Text_Class *tc; unsigned int i; ed = _edje_fetch(obj); if ((!ed) || (!text_class)) return EINA_FALSE; /* for each text_class in the edje */ EINA_LIST_FOREACH(ed->text_classes, l, tc) { if ((tc->name) && (!strcmp(tc->name, text_class))) { /* Match and the same, return */ if ((tc->font) && (font) && (!strcmp(tc->font, font)) && (tc->size == size)) return EINA_TRUE; /* No font but size is the same, return */ if ((!tc->font) && (!font) && (tc->size == size)) return EINA_TRUE; /* Update new text class properties */ if (tc->font) eina_stringshare_del(tc->font); if (font) tc->font = eina_stringshare_add(font); else tc->font = NULL; tc->size = size; /* Update edje */ ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->text_part_change = 1; #endif _edje_recalc(ed); return EINA_TRUE; } } /* No matches, create a new text class */ tc = calloc(1, sizeof(Edje_Text_Class)); if (!tc) return EINA_FALSE; tc->name = eina_stringshare_add(text_class); if (!tc->name) { free(tc); return EINA_FALSE; } if (font) tc->font = eina_stringshare_add(font); else tc->font = NULL; tc->size = size; 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_text_class_set(rp->swallowed_object, text_class, font, size); } /* Add to edje's text class list */ ed->text_classes = eina_list_append(ed->text_classes, tc); ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->text_part_change = 1; #endif _edje_textblock_style_all_update(ed); _edje_recalc(ed); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_exists(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; return EINA_TRUE; } EAPI const Evas_Object * edje_object_part_object_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; return rp->object; } EAPI Eina_Bool edje_object_part_geometry_get(const Evas_Object *obj, const char *part, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h ) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; return EINA_FALSE; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) { if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; return EINA_FALSE; } if (x) *x = rp->x; if (y) *y = rp->y; if (w) *w = rp->w; if (h) *h = rp->h; return EINA_TRUE; } EAPI void edje_object_item_provider_set(Evas_Object *obj, Edje_Item_Provider_Cb func, void *data) { Edje *ed; ed = _edje_fetch(obj); if (!ed) return; ed->item_provider.func = func; ed->item_provider.data = data; } /* FIXDOC: New Function */ EAPI void edje_object_text_change_cb_set(Evas_Object *obj, Edje_Text_Change_Cb func, void *data) { Edje *ed; unsigned int i; ed = _edje_fetch(obj); if (!ed) return; ed->text_change.func = func; ed->text_change.data = data; 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_text_change_cb_set(rp->swallowed_object, func, data); } } Eina_Bool _edje_object_part_text_raw_set(Evas_Object *obj, Edje_Real_Part *rp, const char *part, const char *text) { if ((!rp->text.text) && (!text)) return EINA_FALSE; if ((rp->text.text) && (text) && (!strcmp(rp->text.text, text))) return EINA_FALSE; if (rp->text.text) { eina_stringshare_del(rp->text.text); rp->text.text = NULL; } if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_text_markup_set(rp, text); else if (text) rp->text.text = eina_stringshare_add(text); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); if (rp->edje->text_change.func) rp->edje->text_change.func(rp->edje->text_change.data, obj, part); return EINA_TRUE; } Eina_Bool _edje_object_part_text_raw_append(Evas_Object *obj, Edje_Real_Part *rp, const char *part, const char *text) { if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_text_markup_append(rp, text); else if (text) { if (rp->text.text) { char *new = NULL; int len_added = strlen(text); int len_old = strlen(rp->text.text); new = malloc(len_old + len_added + 1); memcpy(new, rp->text.text, len_old); memcpy(new + len_old, text, len_added); new[len_old + len_added] = '\0'; eina_stringshare_replace(&rp->text.text, new); free(new); } else { eina_stringshare_replace(&rp->text.text, text); } } rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); if (rp->edje->text_change.func) rp->edje->text_change.func(rp->edje->text_change.data, obj, part); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_text_set(Evas_Object *obj, const char *part, const char *text) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if ((rp->part->type != EDJE_PART_TYPE_TEXT) && (rp->part->type != EDJE_PART_TYPE_TEXTBLOCK)) return EINA_FALSE; return _edje_object_part_text_raw_set(obj, rp, part, text); } EAPI const char * edje_object_part_text_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_text_get(rp); else { if (rp->part->type == EDJE_PART_TYPE_TEXT) return rp->text.text; if (rp->part->type == EDJE_PART_TYPE_TEXTBLOCK) return evas_object_textblock_text_markup_get(rp->object); } return NULL; } char * _edje_text_escape(const char *text) { Eina_Strbuf *txt; char *ret; const char *text_end; size_t text_len; if (!text) return NULL; txt = eina_strbuf_new(); text_len = strlen(text); text_end = text + text_len; while (text < text_end) { int advance; const char *escaped = evas_textblock_string_escape_get(text, &advance); if (!escaped) { eina_strbuf_append_char(txt, text[0]); advance = 1; } else eina_strbuf_append(txt, escaped); text += advance; } ret = eina_strbuf_string_steal(txt); eina_strbuf_free(txt); return ret; } char * _edje_text_unescape(const char *text) { Eina_Strbuf *txt; char *ret; const char *text_end, *last, *escape_start; size_t text_len; if (!text) return NULL; txt = eina_strbuf_new(); text_len = strlen(text); text_end = text + text_len; last = text; escape_start = NULL; for (; text < text_end; text++) { if (*text == '&') { size_t len; const char *str; if (last) { len = text - last; str = last; } else { len = text - escape_start; str = escape_start; } if (len > 0) eina_strbuf_append_n(txt, str, len); escape_start = text; last = NULL; } else if ((*text == ';') && (escape_start)) { size_t len; const char *str = evas_textblock_escape_string_range_get(escape_start, text); if (str) len = strlen(str); else { str = escape_start; len = text + 1 - escape_start; } eina_strbuf_append_n(txt, str, len); escape_start = NULL; last = text + 1; } } if (!last && escape_start) last = escape_start; if (last && (text > last)) { size_t len = text - last; eina_strbuf_append_n(txt, last, len); } ret = eina_strbuf_string_steal(txt); eina_strbuf_free(txt); return ret; } EAPI Eina_Bool edje_object_part_text_unescaped_set(Evas_Object *obj, const char *part, const char *text_to_escape) { Edje *ed; Edje_Real_Part *rp; Eina_Bool ret = EINA_FALSE; ed = _edje_fetch(obj); if ((!ed) || (!part)) return ret; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return ret; if (rp->part->type == EDJE_PART_TYPE_TEXT) ret = _edje_object_part_text_raw_set(obj, rp, part, text_to_escape); else if (rp->part->type == EDJE_PART_TYPE_TEXTBLOCK) { char *text = _edje_text_escape(text_to_escape); ret = _edje_object_part_text_raw_set(obj, rp, part, text); free(text); } return ret; } EAPI char * edje_object_part_text_unescaped_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { const char *t = _edje_entry_text_get(rp); return _edje_text_unescape(t); } else { if (rp->part->type == EDJE_PART_TYPE_TEXT) return strdup(rp->text.text); if (rp->part->type == EDJE_PART_TYPE_TEXTBLOCK) { const char *t = evas_object_textblock_text_markup_get(rp->object); return _edje_text_unescape(t); } } return NULL; } EAPI const char * edje_object_part_text_selection_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_selection_get(rp); return NULL; } EAPI void edje_object_part_text_select_none(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_none(rp); } EAPI void edje_object_part_text_select_all(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_all(rp); } EAPI void edje_object_part_text_insert(Evas_Object *obj, const char *part, const char *text) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if ((rp->part->type != EDJE_PART_TYPE_TEXTBLOCK)) return; if (rp->part->entry_mode <= EDJE_ENTRY_EDIT_MODE_NONE) return; _edje_entry_text_markup_insert(rp, text); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); if (rp->edje->text_change.func) rp->edje->text_change.func(rp->edje->text_change.data, obj, part); } EAPI void edje_object_part_text_append(Evas_Object *obj, const char *part, const char *text) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if ((rp->part->type != EDJE_PART_TYPE_TEXTBLOCK)) return; _edje_object_part_text_raw_append(obj, rp, part, text); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); if (rp->edje->text_change.func) rp->edje->text_change.func(rp->edje->text_change.data, obj, part); } EAPI const Eina_List * edje_object_part_text_anchor_list_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_anchors_list(rp); return NULL; } EAPI const Eina_List * edje_object_part_text_anchor_geometry_get(const Evas_Object *obj, const char *part, const char *anchor) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_anchor_geometry_get(rp, anchor); return NULL; } EAPI const Eina_List * edje_object_part_text_item_list_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_items_list(rp); return NULL; } EAPI Eina_Bool edje_object_part_text_item_geometry_get(const Evas_Object *obj, const char *part, const char *item, Evas_Coord *cx, Evas_Coord *cy, Evas_Coord *cw, Evas_Coord *ch) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) return _edje_entry_item_geometry_get(rp, item, cx, cy, cw, ch); return EINA_FALSE; } EAPI void edje_object_part_text_cursor_geometry_get(const Evas_Object *obj, const char *part, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_geometry_get(rp, x, y, w, h); if (x) *x -= rp->edje->x; if (y) *y -= rp->edje->y; } return; } EAPI void edje_object_part_text_select_allow_set(const Evas_Object *obj, const char *part, Eina_Bool allow) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_allow_set(rp, allow); } EAPI void edje_object_part_text_select_abort(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_abort(rp); } EAPI void edje_object_part_text_select_begin(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_begin(rp); } EAPI void edje_object_part_text_select_extend(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) _edje_entry_select_extend(rp); } EAPI Eina_Bool edje_object_part_text_cursor_next(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_next(rp, cur); } return EINA_FALSE; } EAPI Eina_Bool edje_object_part_text_cursor_prev(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_prev(rp, cur); } return EINA_FALSE; } EAPI Eina_Bool edje_object_part_text_cursor_up(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_up(rp, cur); } return EINA_FALSE; } EAPI Eina_Bool edje_object_part_text_cursor_down(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_down(rp, cur); } return EINA_FALSE; } EAPI void edje_object_part_text_cursor_begin_set(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_begin(rp, cur); } } EAPI void edje_object_part_text_cursor_end_set(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_end(rp, cur); } } EAPI void edje_object_part_text_cursor_copy(Evas_Object *obj, const char *part, Edje_Cursor src, Edje_Cursor dst) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_copy(rp, src, dst); } } EAPI void edje_object_part_text_cursor_line_begin_set(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_line_begin(rp, cur); } } EAPI void edje_object_part_text_cursor_line_end_set(Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_line_end(rp, cur); } } EAPI Eina_Bool edje_object_part_text_cursor_coord_set(Evas_Object *obj, const char *part, Edje_Cursor cur, Evas_Coord x, Evas_Coord y) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_coord_set(rp, cur, x, y); } return EINA_FALSE; } EAPI Eina_Bool edje_object_part_text_cursor_is_format_get(const Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_is_format_get(rp, cur); } return EINA_FALSE; } EAPI Eina_Bool edje_object_part_text_cursor_is_visible_format_get(const Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return 0; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return 0; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_is_visible_format_get(rp, cur); } return 0; } EAPI char * edje_object_part_text_cursor_content_get(const Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return NULL; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_content_get(rp, cur); } return NULL; } EAPI void edje_object_part_text_cursor_pos_set(Evas_Object *obj, const char *part, Edje_Cursor cur, int pos) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_cursor_pos_set(rp, cur, pos); } } EAPI int edje_object_part_text_cursor_pos_get(const Evas_Object *obj, const char *part, Edje_Cursor cur) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return 0; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return 0; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_cursor_pos_get(rp, cur); } return 0; } EAPI void edje_object_part_text_input_panel_layout_set(const Evas_Object *obj, const char *part, Edje_Input_Panel_Layout layout) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_input_panel_layout_set(rp, layout); } } EAPI Edje_Input_Panel_Layout edje_object_part_text_input_panel_layout_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EDJE_INPUT_PANEL_LAYOUT_INVALID; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_input_panel_layout_get(rp); } return EDJE_INPUT_PANEL_LAYOUT_INVALID; } EAPI void edje_object_part_text_autocapital_type_set(const Evas_Object *obj, const char *part, Edje_Text_Autocapital_Type autocapital_type) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { _edje_entry_autocapital_type_set(rp, autocapital_type); } } EAPI Edje_Text_Autocapital_Type edje_object_part_text_autocapital_type_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EDJE_TEXT_AUTOCAPITAL_TYPE_NONE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EDJE_TEXT_AUTOCAPITAL_TYPE_NONE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_autocapital_type_get(rp); } return EDJE_TEXT_AUTOCAPITAL_TYPE_NONE; } EAPI void edje_object_part_text_input_panel_enabled_set(const Evas_Object *obj, const char *part, Eina_Bool enabled) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_input_panel_enabled_set(rp, enabled); } } EAPI Eina_Bool edje_object_part_text_input_panel_enabled_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->entry_mode > EDJE_ENTRY_EDIT_MODE_NONE) { return _edje_entry_input_panel_enabled_get(rp); } return EINA_FALSE; } EAPI void edje_object_text_insert_filter_callback_add(Evas_Object *obj, const char *part, Edje_Text_Filter_Cb func, void *data) { Edje *ed; Edje_Text_Insert_Filter_Callback *cb; ed = _edje_fetch(obj); if ((!ed) || (!part)) return; cb = calloc(1, sizeof(Edje_Text_Insert_Filter_Callback)); cb->part = eina_stringshare_add(part); cb->func = func; cb->data = (void *)data; ed->text_insert_filter_callbacks = eina_list_append(ed->text_insert_filter_callbacks, cb); } EAPI void * edje_object_text_insert_filter_callback_del(Evas_Object *obj, const char *part, Edje_Text_Filter_Cb func) { Edje *ed; Edje_Text_Insert_Filter_Callback *cb; Eina_List *l; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; EINA_LIST_FOREACH(ed->text_insert_filter_callbacks, l, cb) { if ((!strcmp(cb->part, part)) && (cb->func == func)) { void *data = cb->data; ed->text_insert_filter_callbacks = eina_list_remove_list(ed->text_insert_filter_callbacks, l); eina_stringshare_del(cb->part); free(cb); return data; } } return NULL; } EAPI void * edje_object_text_insert_filter_callback_del_full(Evas_Object *obj, const char *part, Edje_Text_Filter_Cb func, void *data) { Edje *ed; Edje_Text_Insert_Filter_Callback *cb; Eina_List *l; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; EINA_LIST_FOREACH(ed->text_insert_filter_callbacks, l, cb) { if ((!strcmp(cb->part, part)) && (cb->func == func) && (cb->data == data)) { void *tmp = cb->data; ed->text_insert_filter_callbacks = eina_list_remove_list(ed->text_insert_filter_callbacks, l); eina_stringshare_del(cb->part); free(cb); return tmp; } } return NULL; } EAPI Eina_Bool edje_object_part_swallow(Evas_Object *obj, const char *part, Evas_Object *obj_swallow) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; /* Need to recalc before providing the object. */ // XXX: I guess this is not required, removing for testing purposes // XXX: uncomment if you see glitches in e17 or others. // XXX: by Gustavo, January 21th 2009. // XXX: I got a backtrace with over 30000 calls without this, // XXX: only with 32px shelves. The problem is probably somewhere else, // XXX: but until it's found, leave this here. // XXX: by Sachiel, January 21th 2009, 19:30 UTC _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_SWALLOW) { ERR("cannot swallow part %s: not swallow type!", rp->part->name); return EINA_FALSE; } _edje_real_part_swallow(rp, obj_swallow, EINA_TRUE); return EINA_TRUE; } static void _recalc_extern_parent(Evas_Object *obj) { Evas_Object *parent; Edje *ed; parent = evas_object_smart_parent_get(obj); ed = _edje_fetch(parent); ed->dirty = 1; _edje_recalc(ed); } EAPI void edje_extern_object_min_size_set(Evas_Object *obj, Evas_Coord minw, Evas_Coord minh) { Edje_Real_Part *rp; evas_object_size_hint_min_set(obj, minw, minh); rp = evas_object_data_get(obj, "\377 edje.swallowing_part"); if (rp) { rp->swallow_params.min.w = minw; rp->swallow_params.min.h = minh; _recalc_extern_parent(obj); } } EAPI void edje_extern_object_max_size_set(Evas_Object *obj, Evas_Coord maxw, Evas_Coord maxh) { Edje_Real_Part *rp; evas_object_size_hint_max_set(obj, maxw, maxh); rp = evas_object_data_get(obj, "\377 edje.swallowing_part"); if (rp) { rp->swallow_params.max.w = maxw; rp->swallow_params.max.h = maxh; _recalc_extern_parent(obj); } } EAPI void edje_extern_object_aspect_set(Evas_Object *obj, Edje_Aspect_Control aspect, Evas_Coord aw, Evas_Coord ah) { Edje_Real_Part *rp; Evas_Aspect_Control asp; asp = EVAS_ASPECT_CONTROL_NONE; switch (aspect) { case EDJE_ASPECT_CONTROL_NONE: asp = EVAS_ASPECT_CONTROL_NONE; break; case EDJE_ASPECT_CONTROL_NEITHER: asp = EVAS_ASPECT_CONTROL_NEITHER; break; case EDJE_ASPECT_CONTROL_HORIZONTAL: asp = EVAS_ASPECT_CONTROL_HORIZONTAL; break; case EDJE_ASPECT_CONTROL_VERTICAL: asp = EVAS_ASPECT_CONTROL_VERTICAL; break; case EDJE_ASPECT_CONTROL_BOTH: asp = EVAS_ASPECT_CONTROL_BOTH; break; default: break; } if (aw < 1) aw = 1; if (ah < 1) ah = 1; evas_object_size_hint_aspect_set(obj, asp, aw, ah); rp = evas_object_data_get(obj, "\377 edje.swallowing_part"); if (rp) { rp->swallow_params.aspect.mode = aspect; rp->swallow_params.aspect.w = aw; rp->swallow_params.aspect.h = ah; _recalc_extern_parent(obj); } } struct edje_box_layout_builtin { const char *name; Evas_Object_Box_Layout cb; }; static Evas_Object_Box_Layout _edje_box_layout_builtin_find(const char *name) { const struct edje_box_layout_builtin _edje_box_layout_builtin[] = { {"horizontal", evas_object_box_layout_horizontal}, {"horizontal_flow", evas_object_box_layout_flow_horizontal}, {"horizontal_homogeneous", evas_object_box_layout_homogeneous_horizontal}, {"horizontal_max", evas_object_box_layout_homogeneous_max_size_horizontal}, {"stack", evas_object_box_layout_stack}, {"vertical", evas_object_box_layout_vertical}, {"vertical_flow", evas_object_box_layout_flow_vertical}, {"vertical_homogeneous", evas_object_box_layout_homogeneous_vertical}, {"vertical_max", evas_object_box_layout_homogeneous_max_size_vertical}, {NULL, NULL} }; const struct edje_box_layout_builtin *base; switch (name[0]) { case 'h': base = _edje_box_layout_builtin + 0; break; case 's': base = _edje_box_layout_builtin + 4; break; case 'v': base = _edje_box_layout_builtin + 5; break; default: return NULL; } for (; (base->name) && (base->name[0] == name[0]); base++) if (strcmp(base->name, name) == 0) return base->cb; return NULL; } static Eina_Rbtree_Direction _edje_box_layout_external_node_cmp(const Eina_Rbtree *left, const Eina_Rbtree *right, __UNUSED__ void *data) { Edje_Box_Layout *l = (Edje_Box_Layout *)left; Edje_Box_Layout *r = (Edje_Box_Layout *)right; if (strcmp(l->name, r->name) < 0) return EINA_RBTREE_RIGHT; else return EINA_RBTREE_LEFT; } static int _edje_box_layout_external_find_cmp(const Eina_Rbtree *node, const void *key, __UNUSED__ int length, __UNUSED__ void *data) { Edje_Box_Layout *l = (Edje_Box_Layout *)node; return strcmp(key, l->name); } static Edje_Box_Layout * _edje_box_layout_external_find(const char *name) { return (Edje_Box_Layout *)eina_rbtree_inline_lookup (_edje_box_layout_registry, name, 0, _edje_box_layout_external_find_cmp, NULL); } Eina_Bool _edje_box_layout_find(const char *name, Evas_Object_Box_Layout *cb, void **data, void (**free_data)(void *data)) { const Edje_Box_Layout *l; if (!name) return EINA_FALSE; *cb = _edje_box_layout_builtin_find(name); if (*cb) { *free_data = NULL; *data = NULL; return EINA_TRUE; } l = _edje_box_layout_external_find(name); if (!l) return EINA_FALSE; *cb = l->func; *free_data = l->layout_data_free; if (l->layout_data_get) *data = l->layout_data_get(l->data); else *data = NULL; return EINA_TRUE; } static void _edje_box_layout_external_free(Eina_Rbtree *node, __UNUSED__ void *data) { Edje_Box_Layout *l = (Edje_Box_Layout *)node; if (l->data && l->free_data) l->free_data(l->data); free(l); } static Edje_Box_Layout * _edje_box_layout_external_new(const char *name, Evas_Object_Box_Layout func, void *(*layout_data_get)(void *), void (*layout_data_free)(void *), void (*free_data)(void *), void *data) { Edje_Box_Layout *l; size_t name_len; name_len = strlen(name) + 1; l = malloc(sizeof(Edje_Box_Layout) + name_len); if (!l) return NULL; l->func = func; l->layout_data_get = layout_data_get; l->layout_data_free = layout_data_free; l->free_data = free_data; l->data = data; memcpy(l->name, name, name_len); return l; } EAPI void edje_box_layout_register(const char *name, Evas_Object_Box_Layout func, void *(*layout_data_get)(void *), void (*layout_data_free)(void *), void (*free_data)(void *), void *data) { Edje_Box_Layout *l; if (!name) return; if (_edje_box_layout_builtin_find(name)) { ERR("Cannot register layout '%s': would override builtin!", name); if (data && free_data) free_data(data); return; } l = _edje_box_layout_external_find(name); if (!l) { if (!func) { if (data && free_data) free_data(data); return; } l = _edje_box_layout_external_new (name, func, layout_data_get, layout_data_free, free_data, data); if (!l) return; _edje_box_layout_registry = eina_rbtree_inline_insert (_edje_box_layout_registry, (Eina_Rbtree *)l, _edje_box_layout_external_node_cmp, NULL); } else { if (func) { if (l->data && l->free_data) l->free_data(l->data); l->func = func; l->layout_data_get = layout_data_get; l->layout_data_free = layout_data_free; l->free_data = free_data; l->data = data; } else { if (data && free_data) free_data(data); _edje_box_layout_registry = eina_rbtree_inline_remove (_edje_box_layout_registry, (Eina_Rbtree *)l, _edje_box_layout_external_node_cmp, NULL); _edje_box_layout_external_free((Eina_Rbtree *)l, NULL); } } } EAPI void edje_object_part_unswallow(Evas_Object *obj __UNUSED__, Evas_Object *obj_swallow) { Edje_Real_Part *rp; if (!obj_swallow) return; rp = (Edje_Real_Part *)evas_object_data_get(obj_swallow, "\377 edje.swallowing_part"); if (!rp) return; if (rp->part->type != EDJE_PART_TYPE_SWALLOW) { ERR("cannot unswallow part %s: not swallow type!", rp->part->name); return; } if (rp->swallowed_object == obj_swallow) { evas_object_smart_member_del(rp->swallowed_object); evas_object_event_callback_del_full(rp->swallowed_object, EVAS_CALLBACK_FREE, _edje_object_part_swallow_free_cb, rp->edje->obj); evas_object_event_callback_del_full(rp->swallowed_object, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _edje_object_part_swallow_changed_hints_cb, rp); evas_object_clip_unset(rp->swallowed_object); evas_object_data_del(rp->swallowed_object, "\377 edje.swallowing_part"); if (rp->part->mouse_events) _edje_callbacks_del(rp->swallowed_object, rp->edje); _edje_callbacks_focus_del(rp->swallowed_object, rp->edje); rp->swallowed_object = NULL; rp->swallow_params.min.w = 0; rp->swallow_params.min.h = 0; rp->swallow_params.max.w = 0; rp->swallow_params.max.h = 0; rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc_do(rp->edje); return; } } EAPI Evas_Object * edje_object_part_swallow_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return NULL; return rp->swallowed_object; } EAPI void edje_object_size_min_get(const Evas_Object *obj, Evas_Coord *minw, Evas_Coord *minh) { Edje *ed; ed = _edje_fetch(obj); if ((!ed) || (!ed->collection)) { if (minw) *minw = 0; if (minh) *minh = 0; return; } if (minw) *minw = ed->collection->prop.min.w; if (minh) *minh = ed->collection->prop.min.h; } EAPI void edje_object_size_max_get(const Evas_Object *obj, Evas_Coord *maxw, Evas_Coord *maxh) { Edje *ed; ed = _edje_fetch(obj); if ((!ed) || (!ed->collection)) { if (maxw) *maxw = 0; if (maxh) *maxh = 0; return; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); if (ed->collection->prop.max.w == 0) { /* XXX TODO: convert maxw to 0, fix things that break. */ if (maxw) *maxw = EDJE_INF_MAX_W; } else { if (maxw) *maxw = ed->collection->prop.max.w; } if (ed->collection->prop.max.h == 0) { /* XXX TODO: convert maxh to 0, fix things that break. */ if (maxh) *maxh = EDJE_INF_MAX_H; } else { if (maxh) *maxh = ed->collection->prop.max.h; } } EAPI void edje_object_calc_force(Evas_Object *obj) { Edje *ed; int pf, pf2; ed = _edje_fetch(obj); if (!ed) return; ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif pf2 = _edje_freeze_val; pf = ed->freeze; _edje_freeze_val = 0; ed->freeze = 0; _edje_recalc_do(ed); ed->freeze = pf; _edje_freeze_val = pf2; } EAPI void edje_object_size_min_calc(Evas_Object *obj, Evas_Coord *minw, Evas_Coord *minh) { edje_object_size_min_restricted_calc(obj, minw, minh, 0, 0); } EAPI Eina_Bool edje_object_parts_extends_calc(Evas_Object *obj, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h) { Edje *ed; Evas_Coord x1 = INT_MAX, y1 = INT_MAX; Evas_Coord x2 = 0, y2 = 0; unsigned int i; ed = _edje_fetch(obj); if (!ed) { if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; return EINA_FALSE; } ed->calc_only = 1; /* Need to recalc before providing the object. */ ed->dirty = 1; _edje_recalc_do(ed); for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; Evas_Coord rpx1, rpy1; Evas_Coord rpx2, rpy2; rp = ed->table_parts[i]; rpx1 = rp->x; rpy1 = rp->y; rpx2 = rpx1 + rp->w; rpy2 = rpy1 + rp->h; if (x1 > rpx1) x1 = rpx1; if (y1 > rpy1) y1 = rpy1; if (x2 < rpx2) x2 = rpx2; if (y2 < rpy2) y2 = rpy2; } ed->calc_only = 0; if (x) *x = x1; if (y) *y = y1; if (w) *w = x2 - x1; if (h) *h = y2 - y1; return EINA_TRUE; } EAPI void edje_object_size_min_restricted_calc(Evas_Object *obj, Evas_Coord *minw, Evas_Coord *minh, Evas_Coord restrictedw, Evas_Coord restrictedh) { Edje *ed; Evas_Coord pw, ph; int maxw, maxh; int okw, okh; int reset_maxwh; Edje_Real_Part *pep = NULL; Eina_Bool has_non_fixed_tb = EINA_FALSE; ed = _edje_fetch(obj); if ((!ed) || (!ed->collection)) { if (minw) *minw = restrictedw; if (minh) *minh = restrictedh; return; } reset_maxwh = 1; ed->calc_only = 1; pw = ed->w; ph = ed->h; again: ed->w = restrictedw; ed->h = restrictedh; maxw = 0; maxh = 0; do { unsigned int i; okw = okh = 0; ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc_do(ed); if (reset_maxwh) { maxw = 0; maxh = 0; } pep = NULL; for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *ep; int w, h; int didw; ep = ed->table_parts[i]; w = ep->w - ep->req.w; h = ep->h - ep->req.h; didw = 0; if (ep->chosen_description) { if (!ep->chosen_description->fixed.w) { if ((ep->part->type == EDJE_PART_TYPE_TEXTBLOCK)) { Evas_Coord tb_mw; evas_object_textblock_size_formatted_get(ep->object, &tb_mw, NULL); tb_mw -= ep->req.w; if (tb_mw > w) { w = tb_mw; } has_non_fixed_tb = EINA_TRUE; } if (w > maxw) { maxw = w; okw = 1; pep = ep; didw = 1; } } if (!ep->chosen_description->fixed.h) { if (!((ep->part->type == EDJE_PART_TYPE_TEXTBLOCK) && (!((Edje_Part_Description_Text *)ep->chosen_description)->text.min_x) && (didw))) { if (h > maxh) { maxh = h; okh = 1; pep = ep; } } if (ep->part->type == EDJE_PART_TYPE_TEXTBLOCK) { has_non_fixed_tb = EINA_TRUE; } } } } if (okw) { ed->w += maxw; if (ed->w < restrictedw) ed->w = restrictedw; } if (okh) { ed->h += maxh; if (ed->h < restrictedh) ed->h = restrictedh; } if ((ed->w > 4000) || (ed->h > 4000)) { /* Only print it if we have a non-fixed textblock. * We should possibly avoid all of this if in this case, but in * the meanwhile, just doing this. */ if (!has_non_fixed_tb) { if (pep) ERR("file %s, group %s has a non-fixed part '%s'. Adding 'fixed: 1 1;' to source EDC may help. Continuing discarding faulty part.", ed->path, ed->group, pep->part->name); else ERR("file %s, group %s overflowed 4000x4000 with minimum size of %dx%d. Continuing discarding faulty parts.", ed->path, ed->group, ed->w, ed->h); } if (reset_maxwh) { reset_maxwh = 0; goto again; } } } while (okw || okh); ed->min.w = ed->w; ed->min.h = ed->h; if (minw) *minw = ed->min.w; if (minh) *minh = ed->min.h; ed->w = pw; ed->h = ph; ed->dirty = 1; #ifdef EDJE_CALC_CACHE ed->all_part_change = 1; #endif _edje_recalc(ed); ed->calc_only = 0; } /* FIXME: Correctly return other states */ EAPI const char * edje_object_part_state_get(const Evas_Object *obj, const char *part, double *val_ret) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (val_ret) *val_ret = 0; return ""; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) { if (val_ret) *val_ret = 0; INF("part not found"); return ""; } if (rp->chosen_description) { if (val_ret) *val_ret = rp->chosen_description->state.value; if (rp->chosen_description->state.name) return rp->chosen_description->state.name; return "default"; } else { if (rp->param1.description) { if (val_ret) *val_ret = rp->param1.description->state.value; if (rp->param1.description->state.name) return rp->param1.description->state.name; return "default"; } } if (val_ret) *val_ret = 0; return ""; } EAPI Edje_Drag_Dir edje_object_part_drag_dir_get(const Evas_Object *obj, const char *part) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EDJE_DRAG_DIR_NONE; /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EDJE_DRAG_DIR_NONE; if ((rp->part->dragable.x) && (rp->part->dragable.y)) return EDJE_DRAG_DIR_XY; else if (rp->part->dragable.x) return EDJE_DRAG_DIR_X; else if (rp->part->dragable.y) return EDJE_DRAG_DIR_Y; return EDJE_DRAG_DIR_NONE; } EAPI Eina_Bool edje_object_part_drag_value_set(Evas_Object *obj, const char *part, double dx, double dy) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (rp->drag->down.count > 0) return EINA_FALSE; if (rp->part->dragable.confine_id != -1) { dx = CLAMP(dx, 0.0, 1.0); dy = CLAMP(dy, 0.0, 1.0); } if (rp->part->dragable.x < 0) dx = 1.0 - dx; if (rp->part->dragable.y < 0) dy = 1.0 - dy; if ((rp->drag->val.x == FROM_DOUBLE(dx)) && (rp->drag->val.y == FROM_DOUBLE(dy))) return EINA_TRUE; rp->drag->val.x = FROM_DOUBLE(dx); rp->drag->val.y = FROM_DOUBLE(dy); #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_dragable_pos_set(rp->edje, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(rp->edje, "drag,set", rp->part->name); return EINA_TRUE; } /* FIXME: Should this be x and y instead of dx/dy? */ EAPI Eina_Bool edje_object_part_drag_value_get(const Evas_Object *obj, const char *part, double *dx, double *dy) { Edje *ed; Edje_Real_Part *rp; double ddx, ddy; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp || !rp->drag) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } ddx = TO_DOUBLE(rp->drag->val.x); ddy = TO_DOUBLE(rp->drag->val.y); if (rp->part->dragable.x < 0) ddx = 1.0 - ddx; if (rp->part->dragable.y < 0) ddy = 1.0 - ddy; if (dx) *dx = ddx; if (dy) *dy = ddy; return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_size_set(Evas_Object *obj, const char *part, double dw, double dh) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (dw < 0.0) dw = 0.0; else if (dw > 1.0) dw = 1.0; if (dh < 0.0) dh = 0.0; else if (dh > 1.0) dh = 1.0; if ((rp->drag->size.x == FROM_DOUBLE(dw)) && (rp->drag->size.y == FROM_DOUBLE(dh))) return EINA_TRUE; rp->drag->size.x = FROM_DOUBLE(dw); rp->drag->size.y = FROM_DOUBLE(dh); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_size_get(const Evas_Object *obj, const char *part, double *dw, double *dh) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (dw) *dw = 0; if (dh) *dh = 0; return EINA_FALSE; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp || !rp->drag) { if (dw) *dw = 0; if (dh) *dh = 0; return EINA_FALSE; } if (dw) *dw = TO_DOUBLE(rp->drag->size.x); if (dh) *dh = TO_DOUBLE(rp->drag->size.y); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_step_set(Evas_Object *obj, const char *part, double dx, double dy) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (dx < 0.0) dx = 0.0; else if (dx > 1.0) dx = 1.0; if (dy < 0.0) dy = 0.0; else if (dy > 1.0) dy = 1.0; rp->drag->step.x = FROM_DOUBLE(dx); rp->drag->step.y = FROM_DOUBLE(dy); #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_step_get(const Evas_Object *obj, const char *part, double *dx, double *dy) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp || !rp->drag) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } if (dx) *dx = TO_DOUBLE(rp->drag->step.x); if (dy) *dy = TO_DOUBLE(rp->drag->step.y); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_page_set(Evas_Object *obj, const char *part, double dx, double dy) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (dx < 0.0) dx = 0.0; else if (dx > 1.0) dx = 1.0; if (dy < 0.0) dy = 0.0; else if (dy > 1.0) dy = 1.0; rp->drag->page.x = FROM_DOUBLE(dx); rp->drag->page.y = FROM_DOUBLE(dy); #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_page_get(const Evas_Object *obj, const char *part, double *dx, double *dy) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } /* Need to recalc before providing the object. */ _edje_recalc_do(ed); rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp || !rp->drag) { if (dx) *dx = 0; if (dy) *dy = 0; return EINA_FALSE; } if (dx) *dx = TO_DOUBLE(rp->drag->page.x); if (dy) *dy = TO_DOUBLE(rp->drag->page.y); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_step(Evas_Object *obj, const char *part, double dx, double dy) { Edje *ed; Edje_Real_Part *rp; FLOAT_T px, py; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (rp->drag->down.count > 0) return EINA_FALSE; px = rp->drag->val.x; py = rp->drag->val.y; rp->drag->val.x = ADD(px, MUL(FROM_DOUBLE(dx), MUL(rp->drag->step.x, rp->part->dragable.x))); rp->drag->val.y = ADD(py, MUL(FROM_DOUBLE(dy), MUL(rp->drag->step.y, rp->part->dragable.y))); rp->drag->val.x = CLAMP (rp->drag->val.x, ZERO, FROM_DOUBLE(1.0)); rp->drag->val.y = CLAMP (rp->drag->val.y, ZERO, FROM_DOUBLE(1.0)); if ((px == rp->drag->val.x) && (py == rp->drag->val.y)) return EINA_TRUE; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_dragable_pos_set(rp->edje, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(rp->edje, "drag,step", rp->part->name); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_drag_page(Evas_Object *obj, const char *part, double dx, double dy) { Edje *ed; Edje_Real_Part *rp; FLOAT_T px, py; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, (char *)part); if (!rp) return EINA_FALSE; if (!rp->drag) return EINA_FALSE; if (rp->drag->down.count > 0) return EINA_FALSE; px = rp->drag->val.x; py = rp->drag->val.y; rp->drag->val.x = ADD(px, MUL(FROM_DOUBLE(dx), MUL(rp->drag->page.x, rp->part->dragable.x))); rp->drag->val.y = ADD(py, MUL(FROM_DOUBLE(dy), MUL(rp->drag->page.y, rp->part->dragable.y))); rp->drag->val.x = CLAMP (rp->drag->val.x, ZERO, FROM_DOUBLE(1.0)); rp->drag->val.y = CLAMP (rp->drag->val.y, ZERO, FROM_DOUBLE(1.0)); if ((px == rp->drag->val.x) && (py == rp->drag->val.y)) return EINA_TRUE; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_dragable_pos_set(rp->edje, rp, rp->drag->val.x, rp->drag->val.y); _edje_emit(rp->edje, "drag,page", rp->part->name); return EINA_TRUE; } void _edje_box_init(void) { } void _edje_box_shutdown(void) { if (!_edje_box_layout_registry) return; eina_rbtree_delete (_edje_box_layout_registry, _edje_box_layout_external_free, NULL); _edje_box_layout_registry = NULL; } EAPI Eina_Bool edje_object_part_box_append(Evas_Object *obj, const char *part, Evas_Object *child) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part) || (!child)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_BOX) return EINA_FALSE; return _edje_real_part_box_append(rp, child); } EAPI Eina_Bool edje_object_part_box_prepend(Evas_Object *obj, const char *part, Evas_Object *child) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_BOX) return EINA_FALSE; return _edje_real_part_box_prepend(rp, child); } EAPI Eina_Bool edje_object_part_box_insert_before(Evas_Object *obj, const char *part, Evas_Object *child, const Evas_Object *reference) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_BOX) return EINA_FALSE; return _edje_real_part_box_insert_before(rp, child, reference); } EAPI Eina_Bool edje_object_part_box_insert_at(Evas_Object *obj, const char *part, Evas_Object *child, unsigned int pos) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_BOX) return EINA_FALSE; return _edje_real_part_box_insert_at(rp, child, pos); } EAPI Evas_Object * edje_object_part_box_remove(Evas_Object *obj, const char *part, Evas_Object *child) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return NULL; if (rp->part->type != EDJE_PART_TYPE_BOX) return NULL; return _edje_real_part_box_remove(rp, child); } EAPI Evas_Object * edje_object_part_box_remove_at(Evas_Object *obj, const char *part, unsigned int pos) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return NULL; if (rp->part->type != EDJE_PART_TYPE_BOX) return NULL; return _edje_real_part_box_remove_at(rp, pos); } EAPI Eina_Bool edje_object_part_box_remove_all(Evas_Object *obj, const char *part, Eina_Bool clear) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_BOX) return EINA_FALSE; return _edje_real_part_box_remove_all(rp, clear); } static void _edje_box_child_del_cb(void *data, Evas *e __UNUSED__, Evas_Object *child __UNUSED__, void *einfo __UNUSED__) { Edje_Real_Part *rp = data; rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } static void _edje_box_child_add(Edje_Real_Part *rp, Evas_Object *child) { evas_object_event_callback_add (child, EVAS_CALLBACK_DEL, _edje_box_child_del_cb, rp); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } static void _edje_box_child_remove(Edje_Real_Part *rp, Evas_Object *child) { evas_object_event_callback_del_full (child, EVAS_CALLBACK_DEL, _edje_box_child_del_cb, rp); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } Eina_Bool _edje_real_part_box_append(Edje_Real_Part *rp, Evas_Object *child_obj) { Evas_Object_Box_Option *opt; opt = evas_object_box_append(rp->object, child_obj); if (!opt) return EINA_FALSE; if (!_edje_box_layout_add_child(rp, child_obj)) { evas_object_box_remove(rp->object, child_obj); return EINA_FALSE; } _edje_box_child_add(rp, child_obj); return EINA_TRUE; } Eina_Bool _edje_real_part_box_prepend(Edje_Real_Part *rp, Evas_Object *child_obj) { Evas_Object_Box_Option *opt; opt = evas_object_box_prepend(rp->object, child_obj); if (!opt) return EINA_FALSE; if (!_edje_box_layout_add_child(rp, child_obj)) { evas_object_box_remove(rp->object, child_obj); return EINA_FALSE; } _edje_box_child_add(rp, child_obj); return EINA_TRUE; } Eina_Bool _edje_real_part_box_insert_before(Edje_Real_Part *rp, Evas_Object *child_obj, const Evas_Object *ref) { Evas_Object_Box_Option *opt; opt = evas_object_box_insert_before(rp->object, child_obj, ref); if (!opt) return EINA_FALSE; if (!_edje_box_layout_add_child(rp, child_obj)) { evas_object_box_remove(rp->object, child_obj); return EINA_FALSE; } _edje_box_child_add(rp, child_obj); return EINA_TRUE; } Eina_Bool _edje_real_part_box_insert_at(Edje_Real_Part *rp, Evas_Object *child_obj, unsigned int pos) { Evas_Object_Box_Option *opt; opt = evas_object_box_insert_at(rp->object, child_obj, pos); if (!opt) return EINA_FALSE; if (!_edje_box_layout_add_child(rp, child_obj)) { evas_object_box_remove(rp->object, child_obj); return EINA_FALSE; } _edje_box_child_add(rp, child_obj); return EINA_TRUE; } Evas_Object * _edje_real_part_box_remove(Edje_Real_Part *rp, Evas_Object *child_obj) { if (evas_object_data_get(child_obj, "\377 edje.box_item")) return NULL; if (!evas_object_box_remove(rp->object, child_obj)) return NULL; _edje_box_layout_remove_child(rp, child_obj); _edje_box_child_remove(rp, child_obj); return child_obj; } Evas_Object * _edje_real_part_box_remove_at(Edje_Real_Part *rp, unsigned int pos) { Evas_Object_Box_Option *opt; Evas_Object_Box_Data *priv; Evas_Object *child_obj; priv = evas_object_smart_data_get(rp->object); opt = eina_list_nth(priv->children, pos); if (!opt) return NULL; child_obj = opt->obj; if (evas_object_data_get(child_obj, "\377 edje.box_item")) return NULL; if (!evas_object_box_remove_at(rp->object, pos)) return NULL; _edje_box_layout_remove_child(rp, child_obj); _edje_box_child_remove(rp, child_obj); return child_obj; } Eina_Bool _edje_real_part_box_remove_all(Edje_Real_Part *rp, Eina_Bool clear) { Eina_List *children; int i = 0; children = evas_object_box_children_get(rp->object); while (children) { Evas_Object *child_obj = children->data; if (evas_object_data_get(child_obj, "\377 edje.box_item")) i++; else { _edje_box_layout_remove_child(rp, child_obj); _edje_box_child_remove(rp, child_obj); if (!evas_object_box_remove_at(rp->object, i)) return EINA_FALSE; if (clear) evas_object_del(child_obj); } children = eina_list_remove_list(children, children); } return EINA_TRUE; } static void _edje_table_child_del_cb(void *data, Evas *e __UNUSED__, Evas_Object *child __UNUSED__, void *einfo __UNUSED__) { Edje_Real_Part *rp = data; rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } static void _edje_table_child_add(Edje_Real_Part *rp, Evas_Object *child) { evas_object_event_callback_add (child, EVAS_CALLBACK_DEL, _edje_table_child_del_cb, rp); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } static void _edje_table_child_remove(Edje_Real_Part *rp, Evas_Object *child) { evas_object_event_callback_del_full (child, EVAS_CALLBACK_DEL, _edje_table_child_del_cb, rp); rp->edje->dirty = 1; #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif _edje_recalc(rp->edje); } EAPI Evas_Object * edje_object_part_table_child_get(Evas_Object *obj, const char *part, unsigned int col, unsigned int row) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return NULL; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return NULL; if (rp->part->type != EDJE_PART_TYPE_TABLE) return NULL; return evas_object_table_child_get(rp->object, col, row); } EAPI Eina_Bool edje_object_part_table_pack(Evas_Object *obj, const char *part, Evas_Object *child_obj, unsigned short col, unsigned short row, unsigned short colspan, unsigned short rowspan) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_TABLE) return EINA_FALSE; return _edje_real_part_table_pack(rp, child_obj, col, row, colspan, rowspan); } EAPI Eina_Bool edje_object_part_table_unpack(Evas_Object *obj, const char *part, Evas_Object *child_obj) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_TABLE) return EINA_FALSE; return _edje_real_part_table_unpack(rp, child_obj); } EAPI Eina_Bool edje_object_part_table_col_row_size_get(const Evas_Object *obj, const char *part, int *cols, int *rows) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_TABLE) return EINA_FALSE; evas_object_table_col_row_size_get(rp->object, cols, rows); return EINA_TRUE; } EAPI Eina_Bool edje_object_part_table_clear(Evas_Object *obj, const char *part, Eina_Bool clear) { Edje *ed; Edje_Real_Part *rp; ed = _edje_fetch(obj); if ((!ed) || (!part)) return EINA_FALSE; rp = _edje_real_part_recursive_get(ed, part); if (!rp) return EINA_FALSE; if (rp->part->type != EDJE_PART_TYPE_TABLE) return EINA_FALSE; _edje_real_part_table_clear(rp, clear); return EINA_TRUE; } static void _edje_perspective_obj_del(void *data, __UNUSED__ Evas *e, __UNUSED__ Evas_Object *obj, __UNUSED__ void *event_info) { Edje_Perspective *ps = data; Evas_Object *o; EINA_LIST_FREE(ps->users, o) { Edje *ed; ed = evas_object_smart_data_get(o); if (!ed) continue; ed->persp = NULL; ed->dirty = 1; _edje_recalc_do(ed); } free(ps); } EAPI Edje_Perspective * edje_perspective_new(Evas *e) { Edje_Perspective *ps; Evas_Coord vx, vy, vw, vh; if (!e) return NULL; ps = calloc(1, sizeof(Edje_Perspective)); ps->obj = evas_object_rectangle_add(e); evas_object_data_set(ps->obj, "_edje_perspective", ps); evas_object_event_callback_add(ps->obj, EVAS_CALLBACK_DEL, _edje_perspective_obj_del, ps); evas_output_viewport_get(e, &vx, &vy, &vw, &vh); ps->e = e; ps->px = vx + (vw / 2); ps->py = vy + (vh / 2); ps->z0 = 0; ps->foc = 1000; return ps; } EAPI void edje_perspective_free(Edje_Perspective *ps) { if (!ps) return; evas_object_del(ps->obj); } EAPI void edje_perspective_set(Edje_Perspective *ps, Evas_Coord px, Evas_Coord py, Evas_Coord z0, Evas_Coord foc) { Eina_List *l; Evas_Object *o; if (!ps) return; if ((ps->px == px) && (ps->py == py) && (ps->z0 == z0) && (ps->foc == foc)) return; ps->px = px; ps->py = py; ps->z0 = z0; ps->foc = foc; EINA_LIST_FOREACH(ps->users, l, o) { Edje *ed; ed = evas_object_smart_data_get(o); if (!ed) continue; if (!ed->persp) { ed->dirty = 1; _edje_recalc_do(ed); } } if (ps->global) { EINA_LIST_FOREACH(_edje_edjes, l, o) { Edje *ed; ed = evas_object_smart_data_get(o); if (!ed) continue; if (!ed->persp) { ed->dirty = 1; _edje_recalc_do(ed); } } } } EAPI void edje_perspective_global_set(Edje_Perspective *ps, Eina_Bool global) { Evas_Object *o; Eina_List *l; if (!ps) return; if (ps->global == global) return; if (global) { o = evas_object_name_find(evas_object_evas_get(ps->obj), "_edje_perspective"); if (o) evas_object_name_set(o, NULL); evas_object_name_set(ps->obj, "_edje_perspective"); } else evas_object_name_set(ps->obj, NULL); ps->global = global; EINA_LIST_FOREACH(_edje_edjes, l, o) { Edje *ed; ed = evas_object_smart_data_get(o); if (!ed) continue; if (!ed->persp) { ed->dirty = 1; _edje_recalc_do(ed); } } } EAPI Eina_Bool edje_perspective_global_get(const Edje_Perspective *ps) { if (!ps) return EINA_FALSE; return ps->global; } EAPI const Edje_Perspective * edje_evas_global_perspective_get(const Evas *e) { Evas_Object *obj; if (!e) return NULL; obj = evas_object_name_find(e, "_edje_perspective"); if (!obj) return NULL; return evas_object_data_get(obj, "_edje_perspective"); } EAPI void edje_object_perspective_set(Evas_Object *obj, Edje_Perspective *ps) { Edje *ed; ed = evas_object_smart_data_get(obj); if (!ed) return; if (ed->persp == ps) return; if (ed->persp != ps) { if (ed->persp) ed->persp->users = eina_list_remove(ed->persp->users, obj); } ed->persp = ps; if (ps) ps->users = eina_list_append(ps->users, obj); ed->dirty = 1; _edje_recalc_do(ed); } EAPI const Edje_Perspective * edje_object_perspective_get(const Evas_Object *obj) { Edje *ed; ed = evas_object_smart_data_get(obj); if (!ed) return NULL; return ed->persp; } #define EDJE_PRELOAD_EMISSION "preload,done" #define EDJE_PRELOAD_SOURCE NULL EAPI Eina_Bool edje_object_preload(Evas_Object *obj, Eina_Bool cancel) { Edje *ed; int count; unsigned int i; ed = _edje_fetch(obj); if (!ed) return EINA_FALSE; _edje_recalc_do(ed); for (i = 0, count = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; Edje_Part *ep; rp = ed->table_parts[i]; ep = rp->part; if (ep->type == EDJE_PART_TYPE_IMAGE || (ep->type == EDJE_PART_TYPE_GROUP && rp->swallowed_object)) count++; } ed->preload_count = count; if (count > 0) { for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; Edje_Part *ep; rp = ed->table_parts[i]; ep = rp->part; if (ep->type == EDJE_PART_TYPE_IMAGE) { const char *file = NULL; const char *key = NULL; evas_object_event_callback_del_full(rp->object, EVAS_CALLBACK_IMAGE_PRELOADED, _edje_object_image_preload_cb, ed); evas_object_image_file_get(rp->object, &file, &key); if (!file && !key) { ed->preload_count--; } else { evas_object_event_callback_add(rp->object, EVAS_CALLBACK_IMAGE_PRELOADED, _edje_object_image_preload_cb, ed); evas_object_image_preload(rp->object, cancel); } count--; } else if (ep->type == EDJE_PART_TYPE_GROUP) { if (rp->swallowed_object) { edje_object_signal_callback_del(rp->swallowed_object, EDJE_PRELOAD_EMISSION, EDJE_PRELOAD_SOURCE, _edje_object_signal_preload_cb); edje_object_signal_callback_add(rp->swallowed_object, EDJE_PRELOAD_EMISSION, EDJE_PRELOAD_SOURCE, _edje_object_signal_preload_cb, ed); edje_object_preload(rp->swallowed_object, cancel); count--; } } } } else { _edje_emit(ed, EDJE_PRELOAD_EMISSION, EDJE_PRELOAD_SOURCE); } return EINA_TRUE; } Eina_Bool _edje_real_part_table_pack(Edje_Real_Part *rp, Evas_Object *child_obj, unsigned short col, unsigned short row, unsigned short colspan, unsigned short rowspan) { Eina_Bool ret = evas_object_table_pack(rp->object, child_obj, col, row, colspan, rowspan); _edje_table_child_add(rp, child_obj); return ret; } Eina_Bool _edje_real_part_table_unpack(Edje_Real_Part *rp, Evas_Object *child_obj) { Eina_Bool ret = evas_object_table_unpack(rp->object, child_obj); if (ret) _edje_table_child_remove(rp, child_obj); return ret; } void _edje_real_part_table_clear(Edje_Real_Part *rp, Eina_Bool clear) { Eina_List *children; children = evas_object_table_children_get(rp->object); while (children) { Evas_Object *child_obj = children->data; _edje_table_child_remove(rp, child_obj); if (!evas_object_data_get(child_obj, "\377 edje.table_item")) { evas_object_table_unpack(rp->object, child_obj); if (clear) evas_object_del(child_obj); } children = eina_list_remove_list(children, children); } } Edje_Real_Part * _edje_real_part_recursive_get(const Edje *ed, const char *part) { Edje_Real_Part *rp; char **path; path = eina_str_split(part, EDJE_PART_PATH_SEPARATOR_STRING, 0); if (!path) return NULL; rp = _edje_real_part_recursive_get_helper(ed, path); free(*path); free(path); return rp; } Evas_Object * _edje_children_get(Edje_Real_Part *rp, const char *partid) { Evas_Object *child; Eina_List *l; long int v; char *p; if (!partid) return NULL; switch (rp->part->type) { case EDJE_PART_TYPE_EXTERNAL: return _edje_external_content_get(rp->swallowed_object, partid); case EDJE_PART_TYPE_BOX: l = evas_object_box_children_get(rp->object); break; case EDJE_PART_TYPE_TABLE: l = evas_object_table_children_get(rp->object); break; default: return NULL; } v = strtol(partid, &p, 10); if ((*p == '\0') && (v >= 0)) { child = eina_list_nth(l, v); } else { Evas_Object *cur; child = NULL; EINA_LIST_FREE(l, cur) { const char *name = evas_object_name_get(cur); if ((name) && (!strcmp(name, partid))) { child = cur; break; } } } eina_list_free(l); return child; } /* rebuild alternative path */ char * _edje_merge_path(const char *alias, char * const *path) { char *tmp; unsigned int length = 1; unsigned int alias_length; unsigned int i; if (!alias) return NULL; alias_length = strlen(alias); for (i = 0; path[i]; i++) length += strlen(path[i]) + 1; tmp = malloc(sizeof (char) * (length + alias_length + 2)); memcpy(tmp, alias, alias_length); tmp[alias_length] = '\0'; for (i = 0; path[i]; i++) { strcat(tmp, EDJE_PART_PATH_SEPARATOR_STRING); strcat(tmp, path[i]); } return tmp; } Edje_Real_Part * _edje_real_part_recursive_get_helper(const Edje *ed, char **path) { Edje_Real_Part *rp; Evas_Object *child; char *idx = NULL; if (!path[0]) return NULL; if (ed->collection && ed->collection->alias) { char *alias; alias = _edje_merge_path(eina_hash_find(ed->collection->alias, path[0]), path + 1); if (alias) { rp = _edje_real_part_recursive_get(ed, alias); free(alias); return rp; } } //printf(" lookup: %s on %s\n", path[0], ed->parent ? ed->parent : "-"); idx = strchr(path[0], EDJE_PART_PATH_SEPARATOR_INDEXL); if (idx) { char *end; end = strchr(idx + 1, EDJE_PART_PATH_SEPARATOR_INDEXR); if (end) { *end = '\0'; *idx = '\0'; idx++; } } rp = _edje_real_part_get(ed, path[0]); if (!path[1] && !idx) return rp; if (!rp) return NULL; switch (rp->part->type) { case EDJE_PART_TYPE_GROUP: if (!rp->swallowed_object) return NULL; ed = _edje_fetch(rp->swallowed_object); if (!ed) return NULL; path++; return _edje_real_part_recursive_get_helper(ed, path); case EDJE_PART_TYPE_BOX: case EDJE_PART_TYPE_TABLE: case EDJE_PART_TYPE_EXTERNAL: if (!idx) return rp; path++; child = _edje_children_get(rp, idx); ed = _edje_fetch(child); if (!ed) return NULL; return _edje_real_part_recursive_get_helper(ed, path); default: return NULL; } } /* Private Routines */ Edje_Real_Part * _edje_real_part_get(const Edje *ed, const char *part) { unsigned int i; if (!part) return NULL; for (i = 0; i < ed->table_parts_size; i++) { Edje_Real_Part *rp; rp = ed->table_parts[i]; if ((rp->part->name) && (!strcmp(rp->part->name, part))) return rp; } return NULL; } Edje_Color_Class * _edje_color_class_find(Edje *ed, const char *color_class) { Eina_List *l; Edje_Color_Class *cc = NULL; if ((!ed) || (!color_class)) return NULL; /* first look through the object scope */ EINA_LIST_FOREACH(ed->color_classes, l, cc) if ((cc->name) && (!strcmp(color_class, cc->name))) return cc; /* next look through the global scope */ cc = eina_hash_find(_edje_color_class_hash, color_class); if (cc) return cc; /* finally, look through the file scope */ EINA_LIST_FOREACH(ed->file->color_classes, l, cc) if ((cc->name) && (!strcmp(color_class, cc->name))) return cc; return NULL; } void _edje_color_class_member_add(Edje *ed, const char *color_class) { _edje_class_member_add(ed, &ed->members.color_class, &_edje_color_class_member_hash, color_class); } void _edje_color_class_member_direct_del(const char *color_class, void *l) { _edje_class_member_direct_del(color_class, l, _edje_color_class_member_hash); } void _edje_color_class_member_del(Edje *ed, const char *color_class) { if ((!ed) || (!color_class)) return; _edje_class_member_del(&ed->members.color_class, &_edje_color_class_member_hash, color_class); } void _edje_color_class_members_free(void) { if (!_edje_color_class_member_hash) return; eina_hash_foreach(_edje_color_class_member_hash, member_list_free, NULL); eina_hash_free(_edje_color_class_member_hash); _edje_color_class_member_hash = NULL; } static Eina_Bool color_class_hash_list_free(const Eina_Hash *hash __UNUSED__, const void *key __UNUSED__, void *data, void *fdata __UNUSED__) { Edje_Color_Class *cc; cc = data; if (cc->name) eina_stringshare_del(cc->name); free(cc); return EINA_TRUE; } void _edje_color_class_hash_free(void) { if (!_edje_color_class_hash) return; eina_hash_foreach(_edje_color_class_hash, color_class_hash_list_free, NULL); eina_hash_free(_edje_color_class_hash); _edje_color_class_hash = NULL; } void _edje_color_class_on_del(Edje *ed, Edje_Part *ep) { unsigned int i; if ((ep->default_desc) && (ep->default_desc->color_class)) _edje_color_class_member_del(ed, ep->default_desc->color_class); for (i = 0; i < ep->other.desc_count; ++i) if (ep->other.desc[i]->color_class) _edje_color_class_member_del(ed, ep->other.desc[i]->color_class); } Edje_Text_Class * _edje_text_class_find(Edje *ed, const char *text_class) { Eina_List *l; Edje_Text_Class *tc; if ((!ed) || (!text_class)) return NULL; EINA_LIST_FOREACH(ed->text_classes, l, tc) if ((tc->name) && (!strcmp(text_class, tc->name))) return tc; return eina_hash_find(_edje_text_class_hash, text_class); } void _edje_text_class_member_direct_del(const char *text_class, void *l) { _edje_class_member_direct_del(text_class, l, _edje_text_class_member_hash); } void _edje_text_class_member_add(Edje *ed, const char *text_class) { _edje_class_member_add(ed, &ed->members.text_class, &_edje_text_class_member_hash, text_class); } void _edje_text_class_member_del(Edje *ed, const char *text_class) { if ((!ed) || (!text_class)) return; _edje_class_member_del(&ed->members.text_class, &_edje_text_class_member_hash, text_class); } void _edje_text_class_members_free(void) { _edje_class_members_free(&_edje_text_class_member_hash); } static Eina_Bool text_class_hash_list_free(const Eina_Hash *hash __UNUSED__, const void *key __UNUSED__, void *data, void *fdata __UNUSED__) { Edje_Text_Class *tc; tc = data; if (tc->name) eina_stringshare_del(tc->name); if (tc->font) eina_stringshare_del(tc->font); free(tc); return EINA_TRUE; } void _edje_text_class_hash_free(void) { if (!_edje_text_class_hash) return; eina_hash_foreach(_edje_text_class_hash, text_class_hash_list_free, NULL); eina_hash_free(_edje_text_class_hash); _edje_text_class_hash = NULL; } Edje * _edje_fetch(const Evas_Object *obj) { Edje *ed; if (!evas_object_smart_type_check(obj, "edje")) return NULL; ed = evas_object_smart_data_get(obj); if ((ed) && (ed->delete_me)) return NULL; return ed; } int _edje_freeze(Edje *ed) { ed->freeze++; // printf("FREEZE %i\n", ed->freeze); return ed->freeze; } int _edje_thaw(Edje *ed) { ed->freeze--; if (ed->freeze < 0) { // printf("-------------########### OVER THAW\n"); ed->freeze = 0; } if ((ed->freeze == 0) && (ed->recalc)) { // printf("thaw recalc\n"); _edje_recalc(ed); } return ed->freeze; } int _edje_block(Edje *ed) { _edje_ref(ed); ed->block++; return ed->block; } int _edje_unblock(Edje *ed) { int ret = 0; if (!ed) return ret; ed->block--; if (ed->block == 0) ed->block_break = 0; ret = ed->block; _edje_unref(ed); return ret; } int _edje_block_break(Edje *ed) { if (ed->block_break) return 1; return 0; } void _edje_block_violate(Edje *ed) { if (ed->block > 0) ed->block_break = 1; } void _edje_object_part_swallow_free_cb(void *data, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Evas_Object *edje_obj; edje_obj = data; edje_object_part_unswallow(edje_obj, obj); return; } static void _edje_real_part_swallow_hints_update(Edje_Real_Part *rp) { const char *type; type = evas_object_type_get(rp->swallowed_object); rp->swallow_params.min.w = 0; rp->swallow_params.min.h = 0; rp->swallow_params.max.w = -1; rp->swallow_params.max.h = -1; if ((type) && (!strcmp(type, "edje"))) { Evas_Coord w, h; edje_object_size_min_get(rp->swallowed_object, &w, &h); rp->swallow_params.min.w = w; rp->swallow_params.min.h = h; edje_object_size_max_get(rp->swallowed_object, &w, &h); rp->swallow_params.max.w = w; rp->swallow_params.max.h = h; } else if ((type) && ((!strcmp(type, "text")) || (!strcmp(type, "polygon")) || (!strcmp(type, "line")))) { Evas_Coord w, h; evas_object_geometry_get(rp->swallowed_object, NULL, NULL, &w, &h); rp->swallow_params.min.w = w; rp->swallow_params.min.h = h; rp->swallow_params.max.w = w; rp->swallow_params.max.h = h; } { Evas_Coord w1, h1, w2, h2, aw, ah; Evas_Aspect_Control am; evas_object_size_hint_min_get(rp->swallowed_object, &w1, &h1); evas_object_size_hint_max_get(rp->swallowed_object, &w2, &h2); evas_object_size_hint_aspect_get(rp->swallowed_object, &am, &aw, &ah); rp->swallow_params.min.w = w1; rp->swallow_params.min.h = h1; if (w2 > 0) rp->swallow_params.max.w = w2; if (h2 > 0) rp->swallow_params.max.h = h2; switch (am) { case EVAS_ASPECT_CONTROL_NONE: rp->swallow_params.aspect.mode = EDJE_ASPECT_CONTROL_NONE; break; case EVAS_ASPECT_CONTROL_NEITHER: rp->swallow_params.aspect.mode = EDJE_ASPECT_CONTROL_NEITHER; break; case EVAS_ASPECT_CONTROL_HORIZONTAL: rp->swallow_params.aspect.mode = EDJE_ASPECT_CONTROL_HORIZONTAL; break; case EVAS_ASPECT_CONTROL_VERTICAL: rp->swallow_params.aspect.mode = EDJE_ASPECT_CONTROL_VERTICAL; break; case EVAS_ASPECT_CONTROL_BOTH: rp->swallow_params.aspect.mode = EDJE_ASPECT_CONTROL_BOTH; break; default: break; } rp->swallow_params.aspect.w = aw; rp->swallow_params.aspect.h = ah; evas_object_data_set(rp->swallowed_object, "\377 edje.swallowing_part", rp); } #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif } void _edje_object_part_swallow_changed_hints_cb(void *data, __UNUSED__ Evas *e, __UNUSED__ Evas_Object *obj, __UNUSED__ void *event_info) { Edje_Real_Part *rp; rp = data; _edje_real_part_swallow_hints_update(rp); rp->edje->dirty = 1; _edje_recalc(rp->edje); return; } void _edje_real_part_swallow(Edje_Real_Part *rp, Evas_Object *obj_swallow, Eina_Bool hints_update) { if (rp->swallowed_object) { if (rp->swallowed_object != obj_swallow) { _edje_real_part_swallow_clear(rp); rp->swallowed_object = NULL; } else { if (hints_update) _edje_real_part_swallow_hints_update(rp); rp->edje->dirty = 1; _edje_recalc(rp->edje); return; } } #ifdef EDJE_CALC_CACHE rp->invalidate = 1; #endif if (!obj_swallow) return; rp->swallowed_object = obj_swallow; evas_object_smart_member_add(rp->swallowed_object, rp->edje->obj); if (rp->clip_to) evas_object_clip_set(rp->swallowed_object, rp->clip_to->object); else evas_object_clip_set(rp->swallowed_object, rp->edje->base.clipper); evas_object_stack_above(rp->swallowed_object, rp->object); evas_object_event_callback_add(rp->swallowed_object, EVAS_CALLBACK_DEL, _edje_object_part_swallow_free_cb, rp->edje->obj); evas_object_event_callback_add(rp->swallowed_object, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _edje_object_part_swallow_changed_hints_cb, rp); if (hints_update) _edje_real_part_swallow_hints_update(rp); if (rp->part->mouse_events) { _edje_callbacks_add(obj_swallow, rp->edje, rp); if (rp->part->repeat_events) evas_object_repeat_events_set(obj_swallow, 1); if (rp->part->pointer_mode != EVAS_OBJECT_POINTER_MODE_AUTOGRAB) evas_object_pointer_mode_set(obj_swallow, rp->part->pointer_mode); evas_object_pass_events_set(obj_swallow, 0); } else evas_object_pass_events_set(obj_swallow, 1); _edje_callbacks_focus_add(rp->swallowed_object, rp->edje, rp); if (rp->part->precise_is_inside) evas_object_precise_is_inside_set(obj_swallow, 1); rp->edje->dirty = 1; _edje_recalc(rp->edje); } void _edje_real_part_swallow_clear(Edje_Real_Part *rp) { evas_object_smart_member_del(rp->swallowed_object); evas_object_event_callback_del_full(rp->swallowed_object, EVAS_CALLBACK_FREE, _edje_object_part_swallow_free_cb, rp->edje->obj); evas_object_event_callback_del_full(rp->swallowed_object, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _edje_object_part_swallow_changed_hints_cb, rp); evas_object_clip_unset(rp->swallowed_object); evas_object_data_del(rp->swallowed_object, "\377 edje.swallowing_part"); if (rp->part->mouse_events) _edje_callbacks_del(rp->swallowed_object, rp->edje); _edje_callbacks_focus_del(rp->swallowed_object, rp->edje); } static void _edje_object_preload(Edje *ed) { ed->preload_count--; if (!ed->preload_count) _edje_emit(ed, EDJE_PRELOAD_EMISSION, EDJE_PRELOAD_SOURCE); } static void _edje_object_image_preload_cb(void *data, __UNUSED__ Evas *e, Evas_Object *obj, __UNUSED__ void *event_info) { Edje *ed = data; evas_object_event_callback_del_full(obj, EVAS_CALLBACK_IMAGE_PRELOADED, _edje_object_image_preload_cb, ed); _edje_object_preload(ed); } static void _edje_object_signal_preload_cb(void *data, Evas_Object *obj, __UNUSED__ const char *emission, __UNUSED__ const char *source) { Edje *ed = data; edje_object_signal_callback_del(obj, EDJE_PRELOAD_EMISSION, EDJE_PRELOAD_SOURCE, _edje_object_signal_preload_cb); _edje_object_preload(ed); } /** * @internal * * for edje_cc */ EAPI void _edje_program_remove(Edje_Part_Collection *edc, Edje_Program *p) { Edje_Program ***array; unsigned int *count; unsigned int i; if (!p->signal && !p->source) { array = &edc->programs.nocmp; count = &edc->programs.nocmp_count; } else if (p->signal && !strpbrk(p->signal, "*?[\\") && p->source && !strpbrk(p->source, "*?[\\")) { array = &edc->programs.strcmp; count = &edc->programs.strcmp_count; } else if (p->signal && edje_program_is_strncmp(p->signal) && p->source && edje_program_is_strncmp(p->source)) { array = &edc->programs.strncmp; count = &edc->programs.strncmp_count; } else if (p->signal && edje_program_is_strrncmp(p->signal) && p->source && edje_program_is_strrncmp(p->source)) { array = &edc->programs.strrncmp; count = &edc->programs.strrncmp_count; } else { array = &edc->programs.fnmatch; count = &edc->programs.fnmatch_count; } for (i = 0; i < *count; ++i) if ((*array)[i] == p) { memmove(*array + i, *array + i + 1, sizeof (Edje_Program *) * (*count - i -1)); (*count)--; break; } } /** * @internal * * for edje_cc */ EAPI void _edje_program_insert(Edje_Part_Collection *edc, Edje_Program *p) { Edje_Program ***array; unsigned int *count; if (!p->signal && !p->source) { array = &edc->programs.nocmp; count = &edc->programs.nocmp_count; } else if (p->signal && !strpbrk(p->signal, "*?[\\") && p->source && !strpbrk(p->source, "*?[\\")) { array = &edc->programs.strcmp; count = &edc->programs.strcmp_count; } else if (p->signal && edje_program_is_strncmp(p->signal) && p->source && edje_program_is_strncmp(p->source)) { array = &edc->programs.strncmp; count = &edc->programs.strncmp_count; } else if (p->signal && edje_program_is_strrncmp(p->signal) && p->source && edje_program_is_strrncmp(p->source)) { array = &edc->programs.strrncmp; count = &edc->programs.strrncmp_count; } else { array = &edc->programs.fnmatch; count = &edc->programs.fnmatch_count; } *array = realloc(*array, sizeof (Edje_Program *) * (*count + 1)); (*array)[(*count)++] = p; } const char * edje_string_get(const Edje_String *es) { /* FIXME: Handle localization here */ if (!es) return NULL; return es->str; } const char * edje_string_id_get(const Edje_String *es) { /* FIXME: Handle localization here */ if (!es) return NULL; return es->str; } static void _cb_subobj_del(void *data, __UNUSED__ Evas *e, Evas_Object *obj, __UNUSED__ void *event_info) { Edje *ed = data; ed->subobjs = eina_list_remove(ed->subobjs, obj); evas_object_event_callback_del_full(obj, EVAS_CALLBACK_DEL, _cb_subobj_del, ed); } void _edje_subobj_register(Edje *ed, Evas_Object *ob) { ed->subobjs = eina_list_append(ed->subobjs, ob); evas_object_event_callback_add(ob, EVAS_CALLBACK_DEL, _cb_subobj_del, ed); } /* vim:set ts=8 sw=3 sts=3 expandtab cino=>5n-2f0^-2{2(0W1st0 :*/