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/* PipeWire */
/* SPDX-FileCopyrightText: Copyright © 2021 Red Hat, Inc. */
/* SPDX-License-Identifier: MIT */
#include "pwtest.h"
#include <pipewire/map.h>
PWTEST(map_add_remove)
{
struct pw_map map = PW_MAP_INIT(2);
int a, b, c;
void *p1 = &a, *p2 = &b, *p3 = &c;
uint32_t idx1, idx2, idx3;
idx1 = pw_map_insert_new(&map, p1);
idx2 = pw_map_insert_new(&map, p2);
idx3 = pw_map_insert_new(&map, p3);
/* This is implementation-defined behavior and
* may change in the future */
pwtest_int_eq(idx1, 0U);
pwtest_int_eq(idx2, 1U);
pwtest_int_eq(idx3, 2U);
/* public API */
pwtest_ptr_eq(p1, pw_map_lookup(&map, idx1));
pwtest_ptr_eq(p2, pw_map_lookup(&map, idx2));
pwtest_ptr_eq(p3, pw_map_lookup(&map, idx3));
pw_map_remove(&map, idx1);
pwtest_ptr_null(pw_map_lookup(&map, idx1));
pwtest_ptr_eq(p2, pw_map_lookup(&map, idx2));
pwtest_ptr_eq(p3, pw_map_lookup(&map, idx3));
pw_map_remove(&map, idx2);
pwtest_ptr_null(pw_map_lookup(&map, idx1));
pwtest_ptr_null(pw_map_lookup(&map, idx2));
pwtest_ptr_eq(p3, pw_map_lookup(&map, idx3));
pw_map_remove(&map, idx3);
pwtest_ptr_null(pw_map_lookup(&map, idx1));
pwtest_ptr_null(pw_map_lookup(&map, idx2));
pwtest_ptr_null(pw_map_lookup(&map, idx3));
idx1 = pw_map_insert_new(&map, p1);
idx2 = pw_map_insert_new(&map, p2);
idx3 = pw_map_insert_new(&map, p3);
/* This is implementation-defined behavior and
* may change in the future */
pwtest_int_eq(idx3, 0U);
pwtest_int_eq(idx2, 1U);
pwtest_int_eq(idx1, 2U);
pw_map_clear(&map);
return PWTEST_PASS;
}
PWTEST(map_insert)
{
struct pw_map map = PW_MAP_INIT(2);
int a, b, c, d;
void *p1 = &a, *p2 = &b, *p3 = &c, *p4 = &d;
uint32_t idx1, idx2, idx3;
int rc;
size_t sz;
idx1 = pw_map_insert_new(&map, p1);
idx2 = pw_map_insert_new(&map, p2);
idx3 = pw_map_insert_new(&map, p3);
pwtest_ptr_eq(p1, pw_map_lookup(&map, idx1));
pwtest_ptr_eq(p2, pw_map_lookup(&map, idx2));
pwtest_ptr_eq(p3, pw_map_lookup(&map, idx3));
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 3U);
/* overwrite */
rc = pw_map_insert_at(&map, idx1, p4);
pwtest_neg_errno_ok(rc);
pwtest_ptr_eq(p4, pw_map_lookup(&map, idx1));
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 3U);
/* overwrite */
rc = pw_map_insert_at(&map, idx2, p4);
pwtest_neg_errno_ok(rc);
pwtest_ptr_eq(p4, pw_map_lookup(&map, idx2));
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 3U);
/* out of bounds */
rc = pw_map_insert_at(&map, 10000, p4);
pwtest_neg_errno(rc, -ENOSPC);
/* if id is the map size, the item is appended */
rc = pw_map_insert_at(&map, idx3 + 1, &p4);
pwtest_neg_errno_ok(rc);
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 4U);
pw_map_clear(&map);
return PWTEST_PASS;
}
PWTEST(map_size)
{
struct pw_map map = PW_MAP_INIT(2);
int a, b, c;
void *p1 = &a, *p2 = &b, *p3 = &c;
uint32_t idx1;
size_t sz;
idx1 = pw_map_insert_new(&map, p1);
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 1U);
pw_map_insert_new(&map, p2);
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 2U);
pw_map_insert_new(&map, p3);
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 3U);
/* Removing does not alter the size */
pw_map_remove(&map, idx1);
sz = pw_map_get_size(&map);
pwtest_int_eq(sz, 3U);
pw_map_clear(&map);
return PWTEST_PASS;
}
PWTEST(map_double_remove)
{
struct pw_map map = PW_MAP_INIT(2);
int a, b, c;
void *p1 = &a, *p2 = &b, *p3 = &c;
uint32_t idx1, idx2, idx3;
idx1 = pw_map_insert_new(&map, p1);
idx2 = pw_map_insert_new(&map, p2);
idx3 = pw_map_insert_new(&map, p3);
pw_map_remove(&map, idx1); /* idx1 in the free list */
pw_map_remove(&map, idx2); /* idx1 and 2 in the free list */
pw_map_remove(&map, idx2); /* should be a noop */
idx1 = pw_map_insert_new(&map, p1);
idx2 = pw_map_insert_new(&map, p2);
pwtest_ptr_eq(p1, pw_map_lookup(&map, idx1));
pwtest_ptr_eq(p2, pw_map_lookup(&map, idx2));
pwtest_ptr_eq(p3, pw_map_lookup(&map, idx3));
pw_map_clear(&map);
return PWTEST_PASS;
}
PWTEST(map_insert_at_free)
{
struct pw_map map = PW_MAP_INIT(2);
int data[3] = {1, 2, 3};
int new_data = 4;
int *ptr[3] = {&data[0], &data[1], &data[3]};
int idx[3];
int rc;
/* Test cases, for an item at idx:
* 1. remove at idx, then reinsert
* 2. remove at idx, remove another item, reinsert
* 3. remove another item, remove at idx, reinsert
* 4. remove another item, remove at index, remove another item, reinsert
*
* The indices are the respective 2 bits from the iteration counter,
* we use index 3 to indicate skipping that step to handle cases 1-3.
*/
int iteration = pwtest_get_iteration(current_test);
int item_idx = iteration & 0x3;
int before_idx = (iteration >> 2) & 0x3;
int after_idx = (iteration >> 4) & 0x3;
const int SKIP = 3;
if (item_idx == SKIP)
return PWTEST_PASS;
idx[0] = pw_map_insert_new(&map, ptr[0]);
idx[1] = pw_map_insert_new(&map, ptr[1]);
idx[2] = pw_map_insert_new(&map, ptr[2]);
if (before_idx != SKIP) {
before_idx = idx[before_idx];
pw_map_remove(&map, before_idx);
}
pw_map_remove(&map, item_idx);
if (after_idx != SKIP) {
after_idx = idx[after_idx];
pw_map_remove(&map, after_idx);
}
rc = pw_map_insert_at(&map, item_idx, &new_data);
pwtest_neg_errno(rc, -EINVAL);
pw_map_clear(&map);
return PWTEST_PASS;
}
PWTEST_SUITE(pw_map)
{
pwtest_add(map_add_remove, PWTEST_NOARG);
pwtest_add(map_insert, PWTEST_NOARG);
pwtest_add(map_size, PWTEST_NOARG);
pwtest_add(map_double_remove, PWTEST_NOARG);
pwtest_add(map_insert_at_free, PWTEST_ARG_RANGE, 0, 63);
return PWTEST_PASS;
}
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