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coreboot-libre-fam15h-rdimm/3rdparty/ffs/clib/cunit/splay.c

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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: clib/cunit/splay.c $ */
/* */
/* OpenPOWER FFS Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2014,2015 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <clib/libclib.h>
#include <clib/slab.h>
#include <clib/tree.h>
#include <clib/tree_iter.h>
#include <CUnit/Basic.h>
#define COUNT 30000
#define SEED 22
slab_t slab;
typedef struct {
tree_node_t node;
int i;
float f;
} data_t;
static int init_splay(void) {
slab_init(&slab, "my_slab", sizeof(data_t), 4096);
return 0;
}
static int clean_splay(void) {
slab_delete(&slab);
return 0;
}
static void __insert(tree_t * t, int i) {
data_t * d = (data_t *)slab_alloc(&slab);
d->i = i;
d->f = (float)i;
tree_node_init(&d->node, (const void *)(d->i));
if (splay_insert(t, &d->node) < 0) {
tree_dump(t, stdout);
fprintf(stdout, "key: %d root->key: %d\n",
i, (int)tree_root(t)->key);
err_t * err = err_get();
fprintf(stderr, "%s(%d): %.*s\n",
err_file(err), err_line(err), err_size(err),
(const char *)err_data(err));
}
}
static data_t * __remove(tree_t * t, int i) {
tree_node_t * n = tree_find(t, (const void *)i);
if (n == NULL) tree_dump(t, stdout);
CU_ASSERT_PTR_NOT_NULL_FATAL(n);
splay_remove(t, n);
CU_ASSERT_PTR_NULL(tree_node_parent(n));
CU_ASSERT_PTR_NULL(tree_node_left(n));
CU_ASSERT_PTR_NULL(tree_node_right(n));
CU_ASSERT_PTR_NOT_NULL(tree_node_key(n));
data_t * d = container_of(n, data_t, node);
CU_ASSERT_PTR_NOT_NULL_FATAL(n);
if (0 <= i)
CU_ASSERT(d->i == i);
return d;
}
static int compare(const void * v1, const void * v2) {
const int i1 = (const int)v1, i2 = (const int)v2;
return i1 - i2;
}
static void splay_1(void) {
tree_t t;
tree_init(&t, compare);
CU_ASSERT(tree_min(&t) == NULL);
CU_ASSERT(tree_max(&t) == NULL);
CU_ASSERT(t.compare != NULL);
CU_ASSERT(tree_root(&t) == NULL);
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
}
static void splay_2(void) {
tree_t t;
tree_init(&t, compare);
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
for (int i=1; i<=COUNT; i++)
__insert(&t, i);
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_root(&t) != NULL);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
CU_ASSERT(i == (int)tree_min(&t)->key);
CU_ASSERT(COUNT == (int)tree_max(&t)->key);
__remove(&t, (int)tree_min(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
for (int i=1; i<=COUNT; i++)
__insert(&t, i);
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_root(&t) != NULL);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
CU_ASSERT(1 == (int)tree_min(&t)->key);
CU_ASSERT(COUNT - i + 1 == (int)tree_max(&t)->key);
__remove(&t, (int)tree_max(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
}
static void splay_3(void) {
tree_t t;
tree_init(&t, compare);
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
for (int i=1; i<=COUNT; i++)
__insert(&t, COUNT - i + 1);
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_root(&t) != NULL);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
CU_ASSERT(1 == (int)tree_min(&t)->key);
CU_ASSERT(COUNT - i + 1 == (int)tree_max(&t)->key);
__remove(&t, (int)tree_max(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
for (int i=1; i<=COUNT; i++)
__insert(&t, COUNT - i + 1);
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_root(&t) != NULL);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
CU_ASSERT(i == (int)tree_min(&t)->key);
CU_ASSERT(COUNT == (int)tree_max(&t)->key);
__remove(&t, (int)tree_min(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
}
static void splay_4(void) {
tree_t t;
tree_init(&t, compare);
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
__remove(&t, (int)tree_min(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
__remove(&t, (int)tree_max(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
__remove(&t, (int)tree_root(&t)->key);
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
srandom(SEED);
for (int i=1; i<=COUNT; i++) {
__remove(&t, random());
CU_ASSERT(tree_size(&t) + i == COUNT);
}
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
}
static void splay_5(void) {
tree_t t;
tree_init(&t, compare);
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
data_t * d;
tree_iter_t it;
int key = 0;
tree_iter_init(&it, &t, TI_FLAG_FWD);
tree_for_each(&it, d, node) {
CU_ASSERT(key < d->i);
key = d->i;
}
key = INT32_MAX;
tree_iter_init(&it, &t, TI_FLAG_BWD);
tree_for_each(&it, d, node) {
CU_ASSERT(d->i < key);
key = d->i;
}
}
static void splay_6(void) {
tree_t t;
tree_init(&t, compare);
data_t * d;
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
tree_iter_t it;
tree_iter_init(&it, &t, TI_FLAG_FWD);
int key = 0;
tree_for_each(&it, d, node) {
CU_ASSERT(key < d->i);
key = d->i;
}
__remove(&t, (int)tree_min(&t)->key);
if (0 < tree_size(&t)) {
CU_ASSERT(tree_min(&t) != NULL);
} else if (tree_size(&t) <= 0) {
CU_ASSERT(tree_min(&t) == NULL);
}
CU_ASSERT(tree_size(&t) + i == COUNT);
}
}
static void splay_7(void) {
tree_t t;
tree_init(&t, compare);
data_t * d;
CU_ASSERT(tree_empty(&t) == true);
CU_ASSERT(tree_size(&t) == 0);
srandom(SEED);
for (int i=1; i<=COUNT; i++)
__insert(&t, random());
CU_ASSERT(tree_empty(&t) == false);
CU_ASSERT(tree_size(&t) == COUNT);
for (int i=1; i<=COUNT; i++) {
tree_iter_t it;
int key = INT32_MAX;
tree_iter_init(&it, &t, TI_FLAG_BWD);
tree_for_each(&it, d, node) {
CU_ASSERT(d->i < key);
key = d->i;
}
__remove(&t, (int)tree_max(&t)->key);
if (0 < tree_size(&t)) {
CU_ASSERT(tree_max(&t) != NULL);
} else if ( tree_size(&t) <= 0) {
CU_ASSERT(tree_max(&t) == NULL);
}
CU_ASSERT(tree_size(&t) + i == COUNT);
}
}
void splay_test(void) {
CU_pSuite suite = CU_add_suite("splay", init_splay, clean_splay);
if (NULL == suite)
return;
if (CU_add_test(suite, "test of --> splay_1", splay_1) == NULL) return;
if (CU_add_test(suite, "test of --> splay_2", splay_2) == NULL) return;
if (CU_add_test(suite, "test of --> splay_3", splay_3) == NULL) return;
if (CU_add_test(suite, "test of --> splay_4", splay_4) == NULL) return;
if (CU_add_test(suite, "test of --> splay_5", splay_5) == NULL) return;
if (CU_add_test(suite, "test of --> splay_6", splay_6) == NULL) return;
if (CU_add_test(suite, "test of --> splay_7", splay_7) == NULL) return;
}
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