kmod/testsuite/test-array.c
Yauheni Kaliuta d242703211 testsuite: fix test_array_sort pointers inderection
The array elements in the tests are strings, what means "char *"
in С. The comparation funtion takes pointers to the elements, so
the arguments become "char **". It means, that strcmp() cannot be
used directrly.

The patch creates a wrapper on strcmp() which perfoms
dereferencing of the "char **" to supply the actual strings to
strcmp(), and uses the wrapper as a comparation function for the
qsort() call.

Signed-off-by: Yauheni Kaliuta <yauheni.kaliuta@redhat.com>
2016-11-08 22:21:13 -02:00

202 lines
5.2 KiB
C

/*
* Copyright (C) 2014 Intel Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include <errno.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <shared/array.h>
#include "testsuite.h"
static int test_array_append1(const struct test *t)
{
struct array array;
const char *c1 = "test1";
array_init(&array, 2);
array_append(&array, c1);
assert_return(array.count == 1, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_append1,
.description = "test simple array append");
static int test_array_append2(const struct test *t)
{
struct array array;
const char *c1 = "test1";
const char *c2 = "test2";
const char *c3 = "test3";
array_init(&array, 2);
array_append(&array, c1);
array_append(&array, c2);
array_append(&array, c3);
assert_return(array.count == 3, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c2, EXIT_FAILURE);
assert_return(array.array[2] == c3, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_append2,
.description = "test array append over step");
static int test_array_append_unique(const struct test *t)
{
struct array array;
const char *c1 = "test1";
const char *c2 = "test2";
const char *c3 = "test3";
array_init(&array, 2);
array_append_unique(&array, c1);
array_append_unique(&array, c2);
array_append_unique(&array, c3);
array_append_unique(&array, c3);
array_append_unique(&array, c2);
array_append_unique(&array, c1);
assert_return(array.count == 3, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c2, EXIT_FAILURE);
assert_return(array.array[2] == c3, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_append_unique,
.description = "test array append unique");
static int strptrcmp(const void *pa, const void *pb) {
const char *a = *(const char **)pa;
const char *b = *(const char **)pb;
return strcmp(a, b);
}
static int test_array_sort(const struct test *t)
{
struct array array;
const char *c1 = "test1";
const char *c2 = "test2";
const char *c3 = "test3";
array_init(&array, 2);
array_append(&array, c1);
array_append(&array, c2);
array_append(&array, c3);
array_append(&array, c2);
array_append(&array, c3);
array_append(&array, c1);
array_sort(&array, strptrcmp);
assert_return(array.count == 6, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c1, EXIT_FAILURE);
assert_return(array.array[2] == c2, EXIT_FAILURE);
assert_return(array.array[3] == c2, EXIT_FAILURE);
assert_return(array.array[4] == c3, EXIT_FAILURE);
assert_return(array.array[5] == c3, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_sort,
.description = "test array sort");
static int test_array_remove_at(const struct test *t)
{
struct array array;
const char *c1 = "test1";
const char *c2 = "test2";
const char *c3 = "test3";
array_init(&array, 2);
array_append(&array, c1);
array_append(&array, c2);
array_append(&array, c3);
array_remove_at(&array, 2);
assert_return(array.count == 2, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c2, EXIT_FAILURE);
array_remove_at(&array, 0);
assert_return(array.count == 1, EXIT_FAILURE);
assert_return(array.array[0] == c2, EXIT_FAILURE);
array_remove_at(&array, 0);
assert_return(array.count == 0, EXIT_FAILURE);
array_append(&array, c1);
array_append(&array, c2);
array_append(&array, c3);
array_remove_at(&array, 1);
assert_return(array.count == 2, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c3, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_remove_at,
.description = "test array remove at");
static int test_array_pop(const struct test *t)
{
struct array array;
const char *c1 = "test1";
const char *c2 = "test2";
const char *c3 = "test3";
array_init(&array, 2);
array_append(&array, c1);
array_append(&array, c2);
array_append(&array, c3);
array_pop(&array);
assert_return(array.count == 2, EXIT_FAILURE);
assert_return(array.array[0] == c1, EXIT_FAILURE);
assert_return(array.array[1] == c2, EXIT_FAILURE);
array_pop(&array);
array_pop(&array);
assert_return(array.count == 0, EXIT_FAILURE);
array_free_array(&array);
return 0;
}
DEFINE_TEST(test_array_pop,
.description = "test array pop");
TESTSUITE_MAIN();