X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;ds=sidebyside;f=tests%2Flibpspp%2Fabt-test.c;h=177e8f9108c3027b9085445642ac3c0843518f63;hb=f14ad7d1cee6228053fbadadfee9c86eb80da765;hp=ce857b050dd1cdbd4147cbf6e623f309ac0bc297;hpb=93b4335785430ab6de290b7978e2d506106a8ba5;p=pspp
diff --git a/tests/libpspp/abt-test.c b/tests/libpspp/abt-test.c
index ce857b050d..177e8f9108 100644
--- a/tests/libpspp/abt-test.c
+++ b/tests/libpspp/abt-test.c
@@ -1,20 +1,18 @@
-/* PSPP - computes sample statistics.
- Copyright (C) 2007 Free Software Foundation, Inc.
+/* PSPP - a program for statistical analysis.
+ Copyright (C) 2007, 2010, 2011 Free Software Foundation, Inc.
- This program is free software; you can redistribute it and/or
- modify it under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2 of the
- License, or (at your option) any later version.
+ This program is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 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
- General Public License for more details.
+ 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 General Public License for more details.
You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
- 02110-1301, USA. */
+ along with this program. If not, see . */
/* This is a test program for the abt_* routines defined in
abt.c. This test program aims to be as comprehensive as
@@ -28,7 +26,6 @@
#include
-#include
#include
#include
#include
@@ -37,26 +34,22 @@
#include
-/* Currently running test. */
-static const char *test_name;
-
/* Exit with a failure code.
(Place a breakpoint on this function while debugging.) */
static void
-check_die (void)
+check_die (void)
{
- exit (EXIT_FAILURE);
+ exit (EXIT_FAILURE);
}
/* If OK is not true, prints a message about failure on the
current source file and the given LINE and terminates. */
static void
-check_func (bool ok, int line)
+check_func (bool ok, int line)
{
- if (!ok)
+ if (!ok)
{
- printf ("Check failed in %s test at %s, line %d\n",
- test_name, __FILE__, line);
+ fprintf (stderr, "%s:%d: check failed\n", __FILE__, line);
check_die ();
}
}
@@ -77,9 +70,9 @@ xalloc_die (void)
/* Allocates and returns N bytes of memory. */
static void *
-xmalloc (size_t n)
+xmalloc (size_t n)
{
- if (n != 0)
+ if (n != 0)
{
void *p = malloc (n);
if (p == NULL)
@@ -92,7 +85,7 @@ xmalloc (size_t n)
}
static void *
-xmemdup (const void *p, size_t n)
+xmemdup (const void *p, size_t n)
{
void *q = xmalloc (n);
memcpy (q, p, n);
@@ -101,7 +94,7 @@ xmemdup (const void *p, size_t n)
/* Allocates and returns N * M bytes of memory. */
static void *
-xnmalloc (size_t n, size_t m)
+xnmalloc (size_t n, size_t m)
{
if ((size_t) -1 / m <= n)
xalloc_die ();
@@ -125,14 +118,14 @@ static int aux_data;
static struct element *
abt_node_to_element (const struct abt_node *node)
{
- return abt_data (node, struct element, node);
+ return ABT_DATA (node, struct element, node);
}
/* Compares the `x' values in A and B and returns a strcmp-type
return value. Verifies that AUX points to aux_data. */
static int
compare_elements (const struct abt_node *a_, const struct abt_node *b_,
- const void *aux)
+ const void *aux)
{
const struct element *a = abt_node_to_element (a_);
const struct element *b = abt_node_to_element (b_);
@@ -144,25 +137,22 @@ compare_elements (const struct abt_node *a_, const struct abt_node *b_,
/* Recalculates the count for NODE's subtree by adding up the
counts for its LEFT and RIGHT child subtrees. */
static void
-reaugment_elements (struct abt_node *node_,
- const struct abt_node *left,
- const struct abt_node *right,
- const void *aux)
+reaugment_elements (struct abt_node *node_, const void *aux)
{
struct element *node = abt_node_to_element (node_);
check (aux == &aux_data);
node->count = 1;
- if (left != NULL)
- node->count += abt_node_to_element (left)->count;
- if (right != NULL)
- node->count += abt_node_to_element (right)->count;
+ if (node->node.down[0] != NULL)
+ node->count += abt_node_to_element (node->node.down[0])->count;
+ if (node->node.down[1] != NULL)
+ node->count += abt_node_to_element (node->node.down[1])->count;
}
/* Compares A and B and returns a strcmp-type return value. */
static int
-compare_ints_noaux (const void *a_, const void *b_)
+compare_ints_noaux (const void *a_, const void *b_)
{
const int *a = a_;
const int *b = b_;
@@ -172,25 +162,25 @@ compare_ints_noaux (const void *a_, const void *b_)
/* Swaps *A and *B. */
static void
-swap (int *a, int *b)
+swap (int *a, int *b)
{
int t = *a;
*a = *b;
*b = t;
}
-/* Reverses the order of the CNT integers starting at VALUES. */
+/* Reverses the order of the N integers starting at VALUES. */
static void
-reverse (int *values, size_t cnt)
+reverse (int *values, size_t n)
{
size_t i = 0;
- size_t j = cnt;
+ size_t j = n;
while (j > i)
swap (&values[i++], &values[--j]);
}
-/* Arranges the CNT elements in VALUES into the lexicographically
+/* Arranges the N elements in VALUES into the lexicographically
next greater permutation. Returns true if successful.
If VALUES is already the lexicographically greatest
permutation of its elements (i.e. ordered from greatest to
@@ -198,34 +188,34 @@ reverse (int *values, size_t cnt)
permutation (i.e. ordered from smallest to largest) and
returns false. */
static bool
-next_permutation (int *values, size_t cnt)
+next_permutation (int *values, size_t n)
{
- if (cnt > 0)
+ if (n > 0)
{
- size_t i = cnt - 1;
- while (i != 0)
+ size_t i = n - 1;
+ while (i != 0)
{
i--;
if (values[i] < values[i + 1])
{
size_t j;
- for (j = cnt - 1; values[i] >= values[j]; j--)
+ for (j = n - 1; values[i] >= values[j]; j--)
continue;
swap (values + i, values + j);
- reverse (values + (i + 1), cnt - (i + 1));
+ reverse (values + (i + 1), n - (i + 1));
return true;
- }
+ }
}
-
- reverse (values, cnt);
+
+ reverse (values, n);
}
-
+
return false;
}
/* Returns N!. */
static unsigned int
-factorial (unsigned int n)
+factorial (unsigned int n)
{
unsigned int value = 1;
while (n > 1)
@@ -233,19 +223,19 @@ factorial (unsigned int n)
return value;
}
-/* Randomly shuffles the CNT elements in ARRAY, each of which is
+/* Randomly shuffles the N elements in ARRAY, each of which is
SIZE bytes in size. */
static void
-random_shuffle (void *array_, size_t cnt, size_t size)
+random_shuffle (void *array_, size_t n, size_t size)
{
char *array = array_;
char *tmp = xmalloc (size);
size_t i;
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
{
- size_t j = rand () % (cnt - i) + i;
- if (i != j)
+ size_t j = rand () % (n - i) + i;
+ if (i != j)
{
memcpy (tmp, array + j * size, size);
memcpy (array + j * size, array + i * size, size);
@@ -259,16 +249,16 @@ random_shuffle (void *array_, size_t cnt, size_t size)
/* Finds and returns the element in ABT that is in the given
0-based POSITION in in-order. */
static struct element *
-find_by_position (struct abt *abt, int position)
+find_by_position (struct abt *abt, int position)
{
struct abt_node *p;
- for (p = abt->root; p != NULL; )
+ for (p = abt->root; p != NULL;)
{
int p_pos = p->down[0] ? abt_node_to_element (p->down[0])->count : 0;
if (position == p_pos)
return abt_node_to_element (p);
else if (position < p_pos)
- p = p->down[0];
+ p = p->down[0];
else
{
p = p->down[1];
@@ -281,11 +271,11 @@ find_by_position (struct abt *abt, int position)
/* Checks that all the augmentations are correct in the subtree
rooted at P. Returns the number of nodes in the subtree. */
static int
-check_augmentations (struct abt_node *p_)
+check_augmentations (struct abt_node *p_)
{
if (p_ == NULL)
return 0;
- else
+ else
{
struct element *p = abt_node_to_element (p_);
int left_count = check_augmentations (p->node.down[0]);
@@ -298,9 +288,9 @@ check_augmentations (struct abt_node *p_)
/* Check that the levels are correct in the subtree rooted at P. */
static void
-check_levels (struct abt_node *p)
+check_levels (struct abt_node *p)
{
- if (p != NULL)
+ if (p != NULL)
{
int i, j;
@@ -308,11 +298,11 @@ check_levels (struct abt_node *p)
check_levels (p->down[1]);
check (p->level >= 1);
- if (p->level > 1)
+ if (p->level > 1)
{
struct abt_node *q = p->down[1];
check (q != NULL);
- check (q->level == p->level || q->level == p->level - 1);
+ check (q->level == p->level || q->level == p->level - 1);
}
for (i = 0; i < 2; i++)
@@ -323,25 +313,25 @@ check_levels (struct abt_node *p)
}
}
-/* Checks that ABT contains the CNT ints in DATA, that its
+/* Checks that ABT contains the N ints in DATA, that its
structure is correct, and that certain operations on ABT
produce the expected results. */
static void
-check_abt (struct abt *abt, const int data[], size_t cnt)
+check_abt (struct abt *abt, const int data[], size_t n)
{
struct element e;
size_t i;
int *order;
- order = xmemdup (data, cnt * sizeof *data);
- qsort (order, cnt, sizeof *order, compare_ints_noaux);
+ order = xmemdup (data, n * sizeof *data);
+ qsort (order, n, sizeof *order, compare_ints_noaux);
- if (abt->compare != NULL)
+ if (abt->compare != NULL)
{
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
{
struct abt_node *p;
-
+
e.data = data[i];
if (rand () % 2)
p = abt_find (abt, &e.node);
@@ -358,34 +348,35 @@ check_abt (struct abt *abt, const int data[], size_t cnt)
check_levels (abt->root);
check_augmentations (abt->root);
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
check (find_by_position (abt, i)->data == order[i]);
- if (cnt == 0)
+ if (n == 0)
{
check (abt_first (abt) == NULL);
check (abt_last (abt) == NULL);
check (abt_next (abt, NULL) == NULL);
check (abt_prev (abt, NULL) == NULL);
}
- else
+ else
{
struct abt_node *p;
-
- for (p = abt_first (abt), i = 0; i < cnt; p = abt_next (abt, p), i++)
+
+ for (p = abt_first (abt), i = 0; i < n; p = abt_next (abt, p), i++)
check (abt_node_to_element (p)->data == order[i]);
check (p == NULL);
- for (p = abt_last (abt), i = 0; i < cnt; p = abt_prev (abt, p), i++)
- check (abt_node_to_element (p)->data == order[cnt - i - 1]);
+ for (p = abt_last (abt), i = 0; i < n; p = abt_prev (abt, p), i++)
+ check (abt_node_to_element (p)->data == order[n - i - 1]);
check (p == NULL);
}
+ check (abt_is_empty (abt) == (n == 0));
free (order);
}
/* Ways that nodes can be inserted. */
-enum insertion_method
+enum insertion_method
{
INSERT, /* With abt_insert. */
INSERT_AFTER, /* With abt_insert_after. */
@@ -395,39 +386,39 @@ enum insertion_method
/* Inserts INSERT into ABT with the given METHOD. */
static void
insert_node (struct abt *abt, struct element *insert,
- enum insertion_method method)
+ enum insertion_method method)
{
- if (method == INSERT)
+ if (method == INSERT)
check (abt_insert (abt, &insert->node) == NULL);
- else
+ else
{
struct abt_node *p = abt->root;
int dir = 0;
if (p != NULL)
- for (;;)
+ for (;;)
{
dir = insert->data > abt_node_to_element (p)->data;
if (p->down[dir] == NULL)
break;
p = p->down[dir];
}
- if (method == INSERT_AFTER)
+ if (method == INSERT_AFTER)
{
if (p != NULL && (dir != 1 || p->down[1] != NULL))
p = abt_prev (abt, p);
- abt_insert_after (abt, p, &insert->node);
+ abt_insert_after (abt, p, &insert->node);
}
else
{
if (p != NULL && (dir != 0 || p->down[0] != NULL))
p = abt_next (abt, p);
- abt_insert_before (abt, p, &insert->node);
+ abt_insert_before (abt, p, &insert->node);
}
}
}
-/* Inserts the CNT values from 0 to CNT - 1 (inclusive) into an
+/* Inserts the N values from 0 to N - 1 (inclusive) into an
ABT in the order specified by INSERTIONS using the given
METHOD, then deletes them in the order specified by DELETIONS,
checking the ABT's contents for correctness after each
@@ -436,85 +427,85 @@ static void
do_test_insert_delete (enum insertion_method method,
const int insertions[],
const int deletions[],
- size_t cnt)
+ size_t n)
{
struct element *elements;
struct abt abt;
size_t i;
-
- elements = xnmalloc (cnt, sizeof *elements);
- for (i = 0; i < cnt; i++)
+
+ elements = xnmalloc (n, sizeof *elements);
+ for (i = 0; i < n; i++)
elements[i].data = i;
abt_init (&abt, method == INSERT ? compare_elements : NULL,
reaugment_elements, &aux_data);
check_abt (&abt, NULL, 0);
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
{
insert_node (&abt, &elements[insertions[i]], method);
check_abt (&abt, insertions, i + 1);
}
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
{
abt_delete (&abt, &elements[deletions[i]].node);
- check_abt (&abt, deletions + i + 1, cnt - i - 1);
+ check_abt (&abt, deletions + i + 1, n - i - 1);
}
free (elements);
}
-/* Inserts the CNT values from 0 to CNT - 1 (inclusive) into an
+/* Inserts the N values from 0 to N - 1 (inclusive) into an
ABT in the order specified by INSERTIONS, then deletes them in
the order specified by DELETIONS, checking the ABT's contents
for correctness after each operation. */
static void
test_insert_delete (const int insertions[],
const int deletions[],
- size_t cnt)
+ size_t n)
{
- do_test_insert_delete (INSERT, insertions, deletions, cnt);
- do_test_insert_delete (INSERT_AFTER, insertions, deletions, cnt);
- do_test_insert_delete (INSERT_BEFORE, insertions, deletions, cnt);
+ do_test_insert_delete (INSERT, insertions, deletions, n);
+ do_test_insert_delete (INSERT_AFTER, insertions, deletions, n);
+ do_test_insert_delete (INSERT_BEFORE, insertions, deletions, n);
}
/* Inserts values into an ABT in each possible order, then
removes them in each possible order, up to a specified maximum
size. */
static void
-test_insert_any_remove_any (void)
+test_insert_any_remove_any (void)
{
const int max_elems = 5;
- int cnt;
+ int n;
- for (cnt = 0; cnt <= max_elems; cnt++)
+ for (n = 0; n <= max_elems; n++)
{
int *insertions, *deletions;
- unsigned int ins_perm_cnt;
+ unsigned int ins_n_perms;
int i;
- insertions = xnmalloc (cnt, sizeof *insertions);
- deletions = xnmalloc (cnt, sizeof *deletions);
- for (i = 0; i < cnt; i++)
+ insertions = xnmalloc (n, sizeof *insertions);
+ deletions = xnmalloc (n, sizeof *deletions);
+ for (i = 0; i < n; i++)
insertions[i] = i;
- for (ins_perm_cnt = 0;
- ins_perm_cnt == 0 || next_permutation (insertions, cnt);
- ins_perm_cnt++)
+ for (ins_n_perms = 0;
+ ins_n_perms == 0 || next_permutation (insertions, n);
+ ins_n_perms++)
{
- unsigned int del_perm_cnt;
+ unsigned int del_n_perms;
int i;
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
deletions[i] = i;
- for (del_perm_cnt = 0;
- del_perm_cnt == 0 || next_permutation (deletions, cnt);
- del_perm_cnt++)
- test_insert_delete (insertions, deletions, cnt);
+ for (del_n_perms = 0;
+ del_n_perms == 0 || next_permutation (deletions, n);
+ del_n_perms++)
+ test_insert_delete (insertions, deletions, n);
- check (del_perm_cnt == factorial (cnt));
+ check (del_n_perms == factorial (n));
}
- check (ins_perm_cnt == factorial (cnt));
+ check (ins_n_perms == factorial (n));
free (insertions);
free (deletions);
@@ -525,26 +516,26 @@ test_insert_any_remove_any (void)
removes them in the same order, up to a specified maximum
size. */
static void
-test_insert_any_remove_same (void)
+test_insert_any_remove_same (void)
{
const int max_elems = 7;
- int cnt;
+ int n;
- for (cnt = 0; cnt <= max_elems; cnt++)
+ for (n = 0; n <= max_elems; n++)
{
int *values;
- unsigned int permutation_cnt;
+ unsigned int n_permutations;
int i;
- values = xnmalloc (cnt, sizeof *values);
- for (i = 0; i < cnt; i++)
+ values = xnmalloc (n, sizeof *values);
+ for (i = 0; i < n; i++)
values[i] = i;
- for (permutation_cnt = 0;
- permutation_cnt == 0 || next_permutation (values, cnt);
- permutation_cnt++)
- test_insert_delete (values, values, cnt);
- check (permutation_cnt == factorial (cnt));
+ for (n_permutations = 0;
+ n_permutations == 0 || next_permutation (values, n);
+ n_permutations++)
+ test_insert_delete (values, values, n);
+ check (n_permutations == factorial (n));
free (values);
}
@@ -554,32 +545,32 @@ test_insert_any_remove_same (void)
removes them in reverse order, up to a specified maximum
size. */
static void
-test_insert_any_remove_reverse (void)
+test_insert_any_remove_reverse (void)
{
const int max_elems = 7;
- int cnt;
+ int n;
- for (cnt = 0; cnt <= max_elems; cnt++)
+ for (n = 0; n <= max_elems; n++)
{
int *insertions, *deletions;
- unsigned int permutation_cnt;
+ unsigned int n_permutations;
int i;
- insertions = xnmalloc (cnt, sizeof *insertions);
- deletions = xnmalloc (cnt, sizeof *deletions);
- for (i = 0; i < cnt; i++)
+ insertions = xnmalloc (n, sizeof *insertions);
+ deletions = xnmalloc (n, sizeof *deletions);
+ for (i = 0; i < n; i++)
insertions[i] = i;
- for (permutation_cnt = 0;
- permutation_cnt == 0 || next_permutation (insertions, cnt);
- permutation_cnt++)
+ for (n_permutations = 0;
+ n_permutations == 0 || next_permutation (insertions, n);
+ n_permutations++)
{
- memcpy (deletions, insertions, sizeof *insertions * cnt);
- reverse (deletions, cnt);
-
- test_insert_delete (insertions, deletions, cnt);
+ memcpy (deletions, insertions, sizeof *insertions * n);
+ reverse (deletions, n);
+
+ test_insert_delete (insertions, deletions, n);
}
- check (permutation_cnt == factorial (cnt));
+ check (n_permutations == factorial (n));
free (insertions);
free (deletions);
@@ -588,31 +579,31 @@ test_insert_any_remove_reverse (void)
/* Inserts and removes values in an ABT in random orders. */
static void
-test_random_sequence (void)
+test_random_sequence (void)
{
const int max_elems = 128;
const int max_trials = 8;
- int cnt;
+ int n;
- for (cnt = 0; cnt <= max_elems; cnt += 2)
+ for (n = 0; n <= max_elems; n += 2)
{
int *insertions, *deletions;
int trial;
int i;
- insertions = xnmalloc (cnt, sizeof *insertions);
- deletions = xnmalloc (cnt, sizeof *deletions);
- for (i = 0; i < cnt; i++)
+ insertions = xnmalloc (n, sizeof *insertions);
+ deletions = xnmalloc (n, sizeof *deletions);
+ for (i = 0; i < n; i++)
insertions[i] = i;
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
deletions[i] = i;
- for (trial = 0; trial < max_trials; trial++)
+ for (trial = 0; trial < max_trials; trial++)
{
- random_shuffle (insertions, cnt, sizeof *insertions);
- random_shuffle (deletions, cnt, sizeof *deletions);
-
- test_insert_delete (insertions, deletions, cnt);
+ random_shuffle (insertions, n, sizeof *insertions);
+ random_shuffle (deletions, n, sizeof *deletions);
+
+ test_insert_delete (insertions, deletions, n);
}
free (insertions);
@@ -622,7 +613,7 @@ test_random_sequence (void)
/* Inserts elements into an ABT in ascending order. */
static void
-test_insert_ordered (void)
+test_insert_ordered (void)
{
const int max_elems = 1024;
struct element *elements;
@@ -633,7 +624,7 @@ test_insert_ordered (void)
abt_init (&abt, compare_elements, reaugment_elements, &aux_data);
elements = xnmalloc (max_elems, sizeof *elements);
values = xnmalloc (max_elems, sizeof *values);
- for (i = 0; i < max_elems; i++)
+ for (i = 0; i < max_elems; i++)
{
values[i] = elements[i].data = i;
check (abt_insert (&abt, &elements[i].node) == NULL);
@@ -646,7 +637,7 @@ test_insert_ordered (void)
/* Inserts elements into an ABT, then moves the nodes around in
memory. */
static void
-test_moved (void)
+test_moved (void)
{
const int max_elems = 128;
struct element *e[2];
@@ -660,13 +651,13 @@ test_moved (void)
e[1] = xnmalloc (max_elems, sizeof *e[1]);
values = xnmalloc (max_elems, sizeof *values);
cur = 0;
- for (i = 0; i < max_elems; i++)
+ for (i = 0; i < max_elems; i++)
{
values[i] = e[cur][i].data = i;
check (abt_insert (&abt, &e[cur][i].node) == NULL);
check_abt (&abt, values, i + 1);
- for (j = 0; j <= i; j++)
+ for (j = 0; j <= i; j++)
{
e[!cur][j] = e[cur][j];
abt_moved (&abt, &e[!cur][j].node);
@@ -684,29 +675,29 @@ static void
test_changed (void)
{
const int max_elems = 6;
- int cnt;
+ int n;
- for (cnt = 0; cnt <= max_elems; cnt++)
+ for (n = 0; n <= max_elems; n++)
{
int *values, *changed_values;
struct element *elements;
- unsigned int permutation_cnt;
+ unsigned int n_permutations;
int i;
- values = xnmalloc (cnt, sizeof *values);
- changed_values = xnmalloc (cnt, sizeof *changed_values);
- elements = xnmalloc (cnt, sizeof *elements);
- for (i = 0; i < cnt; i++)
+ values = xnmalloc (n, sizeof *values);
+ changed_values = xnmalloc (n, sizeof *changed_values);
+ elements = xnmalloc (n, sizeof *elements);
+ for (i = 0; i < n; i++)
values[i] = i;
- for (permutation_cnt = 0;
- permutation_cnt == 0 || next_permutation (values, cnt);
- permutation_cnt++)
+ for (n_permutations = 0;
+ n_permutations == 0 || next_permutation (values, n);
+ n_permutations++)
{
- for (i = 0; i < cnt; i++)
+ for (i = 0; i < n; i++)
{
int j, k;
- for (j = 0; j <= cnt; j++)
+ for (j = 0; j <= n; j++)
{
struct abt abt;
struct abt_node *changed_retval;
@@ -715,37 +706,37 @@ test_changed (void)
&aux_data);
/* Add to ABT in order. */
- for (k = 0; k < cnt; k++)
+ for (k = 0; k < n; k++)
{
int n = values[k];
elements[n].data = n;
- check (abt_insert (&abt, &elements[n].node) == NULL);
+ check (abt_insert (&abt, &elements[n].node) == NULL);
}
- check_abt (&abt, values, cnt);
+ check_abt (&abt, values, n);
/* Change value i to j. */
elements[i].data = j;
- for (k = 0; k < cnt; k++)
+ for (k = 0; k < n; k++)
changed_values[k] = k;
changed_retval = abt_changed (&abt, &elements[i].node);
- if (i != j && j < cnt)
+ if (i != j && j < n)
{
/* Will cause duplicate. */
check (changed_retval == &elements[j].node);
- changed_values[i] = changed_values[cnt - 1];
- check_abt (&abt, changed_values, cnt - 1);
+ changed_values[i] = changed_values[n - 1];
+ check_abt (&abt, changed_values, n - 1);
}
else
{
/* Succeeds. */
check (changed_retval == NULL);
changed_values[i] = j;
- check_abt (&abt, changed_values, cnt);
+ check_abt (&abt, changed_values, n);
}
}
- }
+ }
}
- check (permutation_cnt == factorial (cnt));
+ check (n_permutations == factorial (n));
free (values);
free (changed_values);
@@ -755,32 +746,84 @@ test_changed (void)
/* Main program. */
-/* Runs TEST_FUNCTION and prints a message about NAME. */
-static void
-run_test (void (*test_function) (void), const char *name)
-{
- test_name = name;
- putchar ('.');
- fflush (stdout);
- test_function ();
-}
+struct test
+ {
+ const char *name;
+ const char *description;
+ void (*function) (void);
+ };
+
+static const struct test tests[] =
+ {
+ {
+ "insert-any-remove-any",
+ "insert any order, delete any order",
+ test_insert_any_remove_any
+ },
+ {
+ "insert-any-remove-same",
+ "insert any order, delete same order",
+ test_insert_any_remove_same
+ },
+ {
+ "insert-any-remove-reverse",
+ "insert any order, delete reverse order",
+ test_insert_any_remove_reverse
+ },
+ {
+ "random-sequence",
+ "insert and delete in random sequence",
+ test_random_sequence
+ },
+ {
+ "insert-ordered",
+ "insert in ascending order",
+ test_insert_ordered
+ },
+ {
+ "moved",
+ "move elements around in memory",
+ test_moved
+ },
+ {
+ "changed",
+ "change key data in nodes",
+ test_changed
+ }
+ };
+
+enum { N_TESTS = sizeof tests / sizeof *tests };
int
-main (void)
+main (int argc, char *argv[])
{
- run_test (test_insert_any_remove_any,
- "insert any order, delete any order");
- run_test (test_insert_any_remove_same,
- "insert any order, delete same order");
- run_test (test_insert_any_remove_reverse,
- "insert any order, delete reverse order");
- run_test (test_random_sequence,
- "insert and delete in random sequence");
- run_test (test_insert_ordered,
- "insert in ascending order");
- run_test (test_moved, "move elements around in memory");
- run_test (test_changed, "change key data in nodes");
- putchar ('\n');
-
- return 0;
+ int i;
+
+ if (argc != 2)
+ {
+ fprintf (stderr, "exactly one argument required; use --help for help\n");
+ return EXIT_FAILURE;
+ }
+ else if (!strcmp (argv[1], "--help"))
+ {
+ printf ("%s: test augmented binary tree\n"
+ "usage: %s TEST-NAME\n"
+ "where TEST-NAME is one of the following:\n",
+ argv[0], argv[0]);
+ for (i = 0; i < N_TESTS; i++)
+ printf (" %s\n %s\n", tests[i].name, tests[i].description);
+ return 0;
+ }
+ else
+ {
+ for (i = 0; i < N_TESTS; i++)
+ if (!strcmp (argv[1], tests[i].name))
+ {
+ tests[i].function ();
+ return 0;
+ }
+
+ fprintf (stderr, "unknown test %s; use --help for help\n", argv[1]);
+ return EXIT_FAILURE;
+ }
}