forked from enlightenment/efl
411 lines
10 KiB
C
411 lines
10 KiB
C
#ifdef HAVE_CONFIG_H
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# include "elementary_config.h"
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#endif
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#define EFL_ACCESS_OBJECT_BETA
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#define EFL_ACCESS_TEXT_BETA
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#define EFL_ACCESS_TEXT_PROTECTED
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#include <Elementary.h>
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#include "elm_suite.h"
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EFL_START_TEST (elm_entry_legacy_type_check)
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{
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Evas_Object *win, *entry;
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const char *type;
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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type = elm_object_widget_type_get(entry);
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ck_assert(type != NULL);
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ck_assert(!strcmp(type, "Elm_Entry"));
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type = evas_object_type_get(entry);
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ck_assert(type != NULL);
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ck_assert(!strcmp(type, "elm_entry"));
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_del)
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{
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Evas_Object *win, *entry;
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, "TEST");
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}
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EFL_END_TEST
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void
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_dummy_cb(void *data EINA_UNUSED, Eo *obj EINA_UNUSED,
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const char *sig EINA_UNUSED, const char *src EINA_UNUSED)
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{
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}
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EFL_START_TEST (elm_entry_signal_callback)
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{
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Evas_Object *win, *entry;
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void *data;
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int k;
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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for (k = 1; k < 10; k++)
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{
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int *val = malloc(sizeof(int));
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*val = 42 * k;
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elm_layout_signal_callback_add(entry, "sig", "src", _dummy_cb, val);
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}
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data = elm_layout_signal_callback_del(entry, "notsig", "notsrc", _dummy_cb);
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fail_if(data);
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// this test verifies that the legacy wrapper returns the proper data
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// the eo API requires the data as input to "del()"
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for (k = 1; k < 10; k++)
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{
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int *val;
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data = elm_layout_signal_callback_del(entry, "sig", "src", _dummy_cb);
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fail_if(!data);
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val = (int *)data;
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ck_assert_int_ne(*val, 0);
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ck_assert_int_eq((*val) % 42, 0);
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free(data);
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}
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data = elm_layout_signal_callback_del(entry, "sig", "src", _dummy_cb);
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fail_if(data);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_char_get)
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{
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Evas_Object *win, *entry;
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Eina_Unicode *expected;
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Eina_Unicode val;
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const char *txt = "ĄA11Y Ł TEST";
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const char *mtxt = "<b>ĄA11Y</b> <title>Ł</> TEST";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, mtxt);
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expected = eina_unicode_utf8_to_unicode(txt, NULL);
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val = efl_access_text_character_get(entry, -1);
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ck_assert(val == 0);
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val = efl_access_text_character_get(entry, 0);
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ck_assert(val == expected[0]);
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val = efl_access_text_character_get(entry, 1);
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ck_assert(val == expected[1]);
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val = efl_access_text_character_get(entry, 2);
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ck_assert(val == expected[2]);
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val = efl_access_text_character_get(entry, 6);
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ck_assert(val == expected[6]);
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val = efl_access_text_character_get(entry, 26);
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ck_assert(val == 0);
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free(expected);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_char_count)
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{
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Evas_Object *win, *entry;
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int val;
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const char *mtxt = "<b>AĄ11Y</b> <title>Ł</> TEST";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, mtxt);
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val = efl_access_text_character_count_get(entry);
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ck_assert(val == 12);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_string_get_char)
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{
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Evas_Object *win, *entry;
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char *val;
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int start, end;
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const char *txt = "Lorem ipśum dolor sit amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, txt);
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start = 1;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_CHAR, &start, &end);
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ck_assert_str_eq(val, "o");
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ck_assert(start == 1);
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ck_assert(end == 2);
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if (val) free(val);
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start = 8;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_CHAR, &start, &end);
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ck_assert_str_eq(val, "ś");
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ck_assert(start == 8);
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ck_assert(end == 9);
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if (val) free(val);
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start = 11;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_CHAR, &start, &end);
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ck_assert_str_eq(val, " ");
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ck_assert(start == 11);
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ck_assert(end == 12);
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if (val) free(val);
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start = 111;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_CHAR, &start, &end);
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ck_assert(start == -1);
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ck_assert(end == -1);
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ck_assert(val == NULL);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_string_get_word)
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{
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Evas_Object *win, *entry;
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char *val;
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int start, end;
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const char *txt = "Lorem ipśum dolor sit amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, txt);
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start = 1;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_WORD, &start, &end);
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ck_assert_str_eq(val, "Lorem");
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ck_assert(start == 0);
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ck_assert(end == 5);
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if (val) free(val);
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start = 6;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_WORD, &start, &end);
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ck_assert_str_eq(val, "ipśum");
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ck_assert(start == 6);
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ck_assert(end == 11);
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if (val) free(val);
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start = 19;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_WORD, &start, &end);
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ck_assert_str_eq(val, "dolor");
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ck_assert(start == 14);
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ck_assert(end == 19);
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if (val) free(val);
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start = 111;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_WORD, &start, &end);
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ck_assert(start == -1);
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ck_assert(end == -1);
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ck_assert(val == NULL);
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if (val) free(val);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_string_get_paragraph)
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{
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Evas_Object *win, *entry;
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char *val;
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int start, end;
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const char *txt = "Lorem ipśum<br> dolor sit<br> amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, txt);
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start = 1;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_PARAGRAPH, &start, &end);
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ck_assert_str_eq(val, "Lorem ipśum");
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ck_assert(start == 0);
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ck_assert(end == 11);
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if (val) free(val);
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start = 20;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_PARAGRAPH, &start, &end);
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ck_assert_str_eq(val, " dolor sit");
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ck_assert(start == 12);
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ck_assert(end == 24);
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if (val) free(val);
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start = 25;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_PARAGRAPH, &start, &end);
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ck_assert_str_eq(val, " amęt");
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ck_assert(start == 25);
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ck_assert(end == 30);
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if (val) free(val);
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start = 111;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_WORD, &start, &end);
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ck_assert(start == -1);
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ck_assert(end == -1);
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ck_assert(val == NULL);
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if (val) free(val);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_string_get_line)
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{
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Evas_Object *win, *entry;
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char *val;
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int start, end;
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const char *txt = "Lorem ipśum<br> dolor sit amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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evas_object_resize(entry, 500, 500);
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elm_object_text_set(entry, txt);
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start = 1;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_LINE, &start, &end);
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ck_assert_str_eq(val, "Lorem ipśum");
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ck_assert(start == 0);
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ck_assert(end == 11);
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if (val) free(val);
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start = 13;
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val = efl_access_text_string_get(entry, EFL_ACCESS_TEXT_GRANULARITY_LINE, &start, &end);
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ck_assert_str_eq(val, " dolor sit amęt");
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ck_assert(start == 12);
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ck_assert(end == 29);
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if (val) free(val);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_text_get)
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{
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Evas_Object *win, *entry;
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char *val;
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const char *txt = "Lorem Xpśum dolor sit amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, txt);
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// invalid ranges
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val = efl_access_text_get(entry, 6, 100);
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ck_assert(val == NULL);
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val = efl_access_text_get(entry, -6, 10);
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ck_assert(val == NULL);
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val = efl_access_text_get(entry, -6, -10);
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ck_assert(val == NULL);
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val = efl_access_text_get(entry, 60, 100);
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ck_assert(val == NULL);
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// proper range
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val = efl_access_text_get(entry, 6, 17);
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ck_assert_str_eq(val, "Xpśum dolor");
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if (val) free(val);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_entry_atspi_text_selections)
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{
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Evas_Object *win, *entry;
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int val, start, end;
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const char *str;
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Eina_Bool ret;
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const char *txt = "Lorem ipśum<br> dolor sit\n amęt";
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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elm_object_text_set(entry, txt);
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val = efl_access_text_selections_count_get(entry);
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ck_assert(val == 0);
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elm_entry_select_region_set(entry, 2, 4);
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val = efl_access_text_selections_count_get(entry);
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ck_assert(val == 1);
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efl_access_text_access_selection_get(entry, 0, &start, &end);
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ck_assert(start == 2);
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ck_assert(end == 4);
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elm_entry_select_region_set(entry, 6, 10);
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val = efl_access_text_selections_count_get(entry);
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ck_assert(val == 1);
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efl_access_text_access_selection_get(entry, 0, &start, &end);
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ck_assert(start == 6);
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ck_assert(end == 10);
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elm_entry_select_none(entry);
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ret = efl_access_text_selection_add(entry, 2, 5);
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ck_assert(ret == EINA_TRUE);
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str = elm_entry_selection_get(entry);
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ck_assert_str_eq(str, "rem");
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ret = efl_access_text_selection_remove(entry, 0);
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ck_assert(ret == EINA_TRUE);
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str = elm_entry_selection_get(entry);
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ck_assert(str == NULL);
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}
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EFL_END_TEST
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EFL_START_TEST (elm_atspi_role_get)
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{
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Evas_Object *win, *entry;
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Efl_Access_Role role;
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win = win_add(NULL, "entry", ELM_WIN_BASIC);
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entry = elm_entry_add(win);
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role = efl_access_object_role_get(entry);
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ck_assert(role == EFL_ACCESS_ROLE_ENTRY);
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}
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EFL_END_TEST
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void elm_test_entry(TCase *tc)
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{
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tcase_add_test(tc, elm_entry_legacy_type_check);
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tcase_add_test(tc, elm_entry_del);
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tcase_add_test(tc, elm_entry_signal_callback);
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tcase_add_test(tc, elm_entry_atspi_text_char_get);
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tcase_add_test(tc, elm_entry_atspi_text_char_count);
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tcase_add_test(tc, elm_entry_atspi_text_string_get_char);
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tcase_add_test(tc, elm_entry_atspi_text_string_get_word);
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tcase_add_test(tc, elm_entry_atspi_text_string_get_paragraph);
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tcase_add_test(tc, elm_entry_atspi_text_string_get_line);
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tcase_add_test(tc, elm_entry_atspi_text_text_get);
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tcase_add_test(tc, elm_entry_atspi_text_selections);
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tcase_add_test(tc, elm_atspi_role_get);
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}
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