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/***************************************************************************
sbtree.c Copyright (C) 2000 Christoph Reichenbach
This program may be modified and copied freely according to the terms of
the GNU general public license (GPL), as long as the above copyright
notice and the licensing information contained herein are preserved.
Please refer to www.gnu.org for licensing details.
This work is provided AS IS, without warranty of any kind, expressed or
implied, including but not limited to the warranties of merchantibility,
noninfringement, and fitness for a specific purpose. The author will not
be held liable for any damage caused by this work or derivatives of it.
By using this source code, you agree to the licensing terms as stated
above.
Please contact the maintainer for bug reports or inquiries.
Current Maintainer:
Christoph Reichenbach (CR) <jameson@linuxgames.com>
***************************************************************************/
/* Static binary lookup tree lookup */
#include "sci/include/sci_memory.h"
#include "sci/include/sbtree.h"
#include <stdlib.h>
#include <stdio.h>
#define NOT_A_KEY -1
typedef struct {
int key;
void *value;
} sbcell_t;
int
int_compar(const void *a, const void *b) {
return (*((int *)a)) - (*((int *)b));
}
void
insert_interval(sbcell_t *data, int start, int stop, int *keys, int plus) {
int center = start + ((stop - start) >> 1);
data->key = keys[center];
if (start == stop)
return;
if (center > start)
insert_interval(data + plus, start, center - 1, keys, plus << 1);
if (center < stop)
insert_interval(data + plus + 1, center + 1, stop, keys, ((plus << 1) + 1));
}
sbtree_t *
sbtree_new(int size, int *keys) {
int table_size = 2;
int levels = 0;
sbcell_t *table;
sbtree_t *tree;
int i;
if (size < 0)
return NULL;
while (table_size <= size) {
table_size <<= 1;
++levels;
}
if (table_size > 1)
--table_size;
table = (sbcell_t*)sci_calloc(sizeof(sbcell_t), table_size);
for (i = 0; i < table_size; i++)
table[i].key = NOT_A_KEY;
if (!table) {
fprintf(stderr, "SBTree: Out of memory: Could not allocate %d cells\n", table_size);
return NULL;
}
tree = (sbtree_t*)sci_malloc(sizeof(sbtree_t));
if (!tree) {
fprintf(stderr, "SBTree: Could not allocate tree structure\n");
free(table);
return NULL;
}
qsort(keys, size, sizeof(int), int_compar);
insert_interval(table, 0, size - 1, keys, 1);
tree->levels = levels;
tree->entries_nr = size;
if ((tree->min_entry = keys[0]) < 0) {
fprintf(stderr, "SBTree: Error: Using negative keys\n");
free(table);
free(tree);
return NULL;
}
tree->max_entry = keys[size - 1];
tree->data = (void *) table;
tree->alloced_entries = table_size;
return tree;
}
void
sbtree_free(sbtree_t *tree) {
if (!tree) {
fprintf(stderr, "SBTree: Attempt to free NULL sbtree\n");
return;
}
free(tree->data);
free(tree);
}
void
sbtree_foreach(sbtree_t *tree, void *args, void *(*operation)(sbtree_t *, const int,
const void *, void *)) {
int i;
sbcell_t *cell = (sbcell_t *) tree->data;
for (i = 0; i < tree->alloced_entries; i++) {
if (cell->key != NOT_A_KEY)
cell->value = operation(tree, cell->key, cell->value, args);
cell = cell + 1;
}
}
sbcell_t *
locate(sbcell_t *start, int key, int level, int levels, int plus) {
int comparison;
if (level >= levels && (level != levels || start->key == NOT_A_KEY))
/* For large tables, the speed improvement caused by this comparison
** scheme is almost (cough) measurable...
*/
return NULL;
comparison = key - start->key;
if (!comparison)
return start;
return locate(start + plus + (comparison > 0), key, level + 1, levels, (plus << 1) + (comparison > 0));
}
int
sbtree_set(sbtree_t *tree, int key, void *value) {
sbcell_t *cell = locate((sbcell_t *) tree->data, key, 0, tree->levels, 1);
if (cell)
cell->value = value;
else
return -1;
return 0;
}
void *
sbtree_get(sbtree_t *tree, int key) {
sbcell_t *cell = locate((sbcell_t *) tree->data, key, 0, tree->levels, 1);
if (cell)
return cell->value;
else
return NULL;
}
#if 0
static void
sbtree_print(sbtree_t *tree) {
int l, i;
sbcell_t *cells = (sbcell_t *) tree->data;
fprintf(stderr, "\tTree:\n");
for (l = 0; l <= tree->levels; l++) {
fprintf(stderr, "\t ");
for (i = 0; i < (1 << l); i++) {
if (cells->key == NOT_A_KEY)
fprintf(stderr, "-- ");
else {
if (cells->value)
fprintf(stderr, "%d+ ", cells->key);
else
fprintf(stderr, "%d ", cells->key);
}
cells = cells + 1;
}
fprintf(stderr, "\n");
}
fprintf(stderr, "\n");
}
#endif
/***************************** TEST CODE ********************************/
#ifdef SBTREE_DEBUG
static int any_error;
void *
foreach_double_func(sbtree_t *tree, const int key, const void *value, void *args) {
int *real_value = (int *) value;
if (!real_value)
fprintf(stderr, "foreach_double_func(): key %d mapped to non-value!\n", key);
else *real_value *= 2;
return real_value;
}
int *
generate_linear_forward(int numbers) {
int i;
int *data = sci_malloc(sizeof(int) * numbers);
for (i = 0; i < numbers; i++)
data[i] = i + 1;
return data;
}
int *
generate_linear_backward(int numbers) {
int i;
int *data = sci_malloc(sizeof(int) * numbers);
for (i = 0; i < numbers; i++)
data[i] = numbers - i;
return data;
}
int *
generate_random(int numbers, int max) {
int i;
int *data = sci_malloc(sizeof(int) * numbers);
for (i = 0; i < numbers; i++)
data[i] = 1 + (int)((rand() * 1.0 * max) / (RAND_MAX + 1.0));
return data;
}
void
insert_values(sbtree_t *tree, int nr, int *data) {
int i;
for (i = 0; i < nr; i++)
if (sbtree_set(tree, data[i], (void *)(data + i))) {
fprintf(stderr, "While inserting: %d incorrectly deemed invalid\n", data[i]);
any_error = 1;
}
}
#define MODE_LINEAR 0
#define MODE_LINEAR_MAP 1
#define MODE_RANDOM 2
#define MODE_LINEAR_DOUBLE 3
void
test_value(sbtree_t *tree, int times, int max, int numbers, int *data, int mode) {
int i;
int failed = 0;
for (i = 0; i < times; i++) {
int key = (mode == MODE_LINEAR || mode == MODE_LINEAR_DOUBLE) ? i :
(mode == MODE_LINEAR_MAP) ? data[i % numbers] :
(int)((rand() * 1.0 * max) / (RAND_MAX + 1.0));
int *value = (int *) sbtree_get(tree, (mode == MODE_LINEAR_DOUBLE) ? key >> 1 : key);
int found = 0;
int j;
for (j = 0; j < numbers && !found; j++)
if (data[j] == key)
found = 1;
if (found && !value) {
fprintf(stderr, "!%d ", key);
++failed;
} else if (!found && found) {
fprintf(stderr, "?[%d]=%d ", key, *value);
++failed;
}
}
if (failed)
fprintf(stderr, "(%d/%d errors)\n", any_error = failed, times);
else
fprintf(stderr, "OK\n");
}
void
test_boundary(sbtree_t *tree, int max, int random) {
int *value_too_low = sbtree_get(tree, 0);
int *value_too_high = sbtree_get(tree, max + 1);
int *value_low = sbtree_get(tree, 1);
int *value_high = sbtree_get(tree, max);
int failure = (value_too_low || value_too_high || (!random && (!value_low || !value_high)));
if (!failure)
fprintf(stderr, "OK\n");
else {
any_error = 1;
fprintf(stderr, "Errors: ");
if (value_too_low)
fprintf(stderr, "too-low=%d ", *value_too_low);
if (value_too_high)
fprintf(stderr, "too-high=%d ", *value_too_high);
if (!random) {
if (!value_low)
fprintf(stderr, "!low ");
if (!value_high)
fprintf(stderr, "!high ");
}
fprintf(stderr, "\n");
}
}
void
test_empty(sbtree_t *tree, int count, int max) {
int i;
int errors = 0;
for (i = 0; i < count; i++) {
int key = 1 + (int)((rand() * 1.0 * max) / (RAND_MAX + 1.0));
int *value;
if ((value = (int *) sbtree_get(tree, key))) {
fprintf(stderr, "?[%d]=%d\n", key, *value);
++errors;
}
}
if (errors)
fprintf(stderr, " (%d/%d errors)\n", any_error = errors, count);
else
fprintf(stderr, "OK\n");
}
void
run_test(sbtree_t *tree, int entries, int *data, int random, int max_value) {
char *tests[] = {"\tLinear reference test: \t\t", "\tKey map reference test: \t", "\tRandom access test: \t\t"};
int i;
any_error = 0;
fprintf(stderr, "\tEmpty test: \t\t\t");
test_empty(tree, entries * 2, entries + 1);
insert_values(tree, entries, data);
fprintf(stderr, "\tBoundary test: \t\t\t");
test_boundary(tree, max_value, random);
for (i = 0; i < 3; i++) {
fprintf(stderr, tests[i]);
test_value(tree, entries * 2, entries * 2, entries, data, i);
}
if (!random) {
i = data[0];
sbtree_foreach(tree, NULL, foreach_double_func);
fprintf(stderr, "\tForeach test: \t\t\t");
if (i * 2 != data[0]) {
fprintf(stderr, "Error: No effect: %d * 2 != %d\n", i, data[0]);
any_error = 1;
} else
test_value(tree, entries * 2, entries * 2, entries, data, MODE_LINEAR_DOUBLE);
}
if (any_error)
sbtree_print(tree);
free(data);
sbtree_free(tree);
}
#define TESTS_NR 11
int
main(int argc, char **argv) {
int tests_nr = TESTS_NR;
int test_sizes[TESTS_NR] = {1, 2, 3, 7, 8, 9, 1000, 16383, 16384, 16385, 1000000};
int i;
fprintf(stderr, "sbtree.c Copyright (C) 2000 Christoph Reichenbach <jameson@linuxgames.com>\n"
"This program is provided WITHOUT WARRANTY of any kind\n"
"Please refer to the file COPYING that should have come with this program\n");
fprintf(stderr, "Static Binary Tree testing facility\n");
free(malloc(42)); /* Make sure libefence's Copyright message is print here if we're using it */
fprintf(stderr, "\nsbtree.c: Running %d tests.\n", tests_nr);
for (i = 0; i < tests_nr; i++) {
int entries = test_sizes[i];
sbtree_t *tree;
int *data;
fprintf(stderr, "Test #%d: %d entries\n", i + 1, entries);
fprintf(stderr, "\t%da: Linear values\n", i + 1);
data = generate_linear_forward(entries);
tree = sbtree_new(entries, data);
run_test(tree, entries, data, 0, entries);
fprintf(stderr, "\t%db: Reverse linear values\n", i + 1);
data = generate_linear_backward(entries);
tree = sbtree_new(entries, data);
run_test(tree, entries, data, 0, entries);
fprintf(stderr, "\t%dc: Dense random values\n", i + 1);
data = generate_random(entries, 1 + (entries >> 2));
tree = sbtree_new(entries, data);
run_test(tree, entries, data, 1, 1 + (entries >> 2));
fprintf(stderr, "\t%dc: Sparse random values\n", i + 1);
data = generate_random(entries, (entries << 2));
tree = sbtree_new(entries, data);
run_test(tree, entries, data, 1, entries << 2);
fprintf(stderr, "Test #%d completed.\n\n", i + 1);
}
fprintf(stderr, "Test suite completed.\n");
return 0;
}
#endif /* SBTREE_DEBUG */
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