Use 'mail' instead of 'mutt', since it's more readily available and
[tangerine.git] / test / avltest.c
blobb89b802b48a9e5dd41dc5abc46595877bb65f28c
1 /*
2 Copyright © 2008 The AROS Development Team. All rights reserved.
3 $Id$
5 Desc: Test AVL balanced tree interface.
6 Lang: english
7 */
8 #define DEBUG 1
9 #include <aros/debug.h>
11 #include <exec/memory.h>
12 #include <dos/dos.h>
13 #include <dos/exall.h>
14 #include <dos/datetime.h>
15 #include <proto/dos.h>
16 #include <proto/utility.h>
17 #include <utility/tagitem.h>
18 #include <utility/utility.h>
20 #include <proto/alib.h>
21 #include <proto/exec.h>
22 #include <proto/dos.h>
24 #include <stdio.h>
25 #include <string.h>
26 #include <stdlib.h>
27 #include <memory.h>
29 static const char version[] = "$VER: avltest.c 45.0 (25.2.2008)\n";
31 #define MAX(x, y) ((x)>(y) ? (x) : (y))
32 #define RCOUNT (100000)
34 struct testnode {
35 struct AVLNode node;
37 int key;
40 void *mempool;
41 struct AVLNode *root;
42 int *shuffle;
44 AROS_UFH2S(LONG, nodecmp_int,
45 AROS_UFHA(const struct AVLNode *, avlnode1, A0),
46 AROS_UFHA(const struct AVLNode *, avlnode2, A1))
48 AROS_USERFUNC_INIT;
50 const struct testnode *n1 = (const struct testnode *)avlnode1;
51 const struct testnode *n2 = (const struct testnode *)avlnode2;
53 return n1->key - n2->key;
55 AROS_USERFUNC_EXIT;
58 static LONG nodecmp_int2(const struct AVLNode * avlnode1, const struct AVLNode *avlnode2)
60 const struct testnode *n1 = (const struct testnode *)avlnode1;
61 const struct testnode *n2 = (const struct testnode *)avlnode2;
63 fflush(stdout);
65 return n1->key - n2->key;
68 AROS_UFH2S(LONG, keycmp_int,
69 AROS_UFHA(const struct AVLNode *, avlnode, A0),
70 AROS_UFHA(AVLKey, avlkey, A1))
72 AROS_USERFUNC_INIT;
74 int key = (int)avlkey;
75 const struct testnode *n = (const struct testnode *)avlnode;
77 return n->key - key;
79 AROS_USERFUNC_EXIT;
83 static int checkbalance(struct AVLNode *root)
85 int left, right;
87 if (root == NULL)
88 return 0;
90 left = checkbalance(root->avl_link[0]);
91 right = checkbalance(root->avl_link[1]);
93 if (right- left != root->avl_balance) {
94 printf("** Tree not balanced at %p\n", root);
95 DeletePool(mempool);
96 exit(1);
100 return MAX(left, right)+1;
103 static void dumporder(struct AVLNode *root)
105 struct AVLNode *scan = AVL_FindFirstNode(root);
107 printf("keys in order:\n");
108 while (scan != NULL) {
109 struct testnode *s = (struct testnode *)scan;
111 printf(" %d\n", s->key);
112 scan = AVL_FindNextNodeByAddress(scan);
116 static void dumprorder(struct AVLNode *root)
118 struct AVLNode *scan = AVL_FindLastNode(root);
120 printf("keys in reverse order:\n");
121 while (scan != NULL) {
122 struct testnode *s = (struct testnode *)scan;
124 printf(" %d\n", s->key);
125 scan = AVL_FindPrevNodeByAddress(scan);
129 struct testnode *newnode()
131 struct testnode *node = AllocPooled(mempool, sizeof(struct testnode));
133 if (node == NULL) {
134 fprintf(stdout, "AllocPooled failed\n");
135 fflush(stdout);
136 DeletePool(mempool);
137 free(shuffle);
138 exit(EXIT_FAILURE);
141 return node;
144 struct AVLNode *resetTree()
146 if (mempool)
147 DeletePool(mempool);
148 mempool = CreatePool(0, sizeof(struct testnode)*32, sizeof(struct testnode)*32);
150 if (mempool == NULL) {
151 fprintf(stdout, "CreatePool failed\n");
152 fflush(stdout);
153 exit(EXIT_FAILURE);
156 return NULL;
159 int main(int argc, char **argv)
161 int i;
163 shuffle = malloc(sizeof(shuffle[0]) * RCOUNT);
164 if (shuffle == NULL)
165 return EXIT_FAILURE;
167 root = resetTree();
169 for (i =0;i<10;i++) {
170 struct testnode *n;
172 n = newnode();
173 n->key = i;
175 printf("Add node %d\n", i);
176 AVL_AddNode(&root, &n->node, nodecmp_int2);
179 dumporder(root);
180 dumprorder(root);
182 printf("remove by key\n");
183 for (i = 0;i<10;i++) {
184 AVL_RemNodeByKey(&root, (AVLKey)i, keycmp_int);
187 dumporder(root);
188 dumprorder(root);
190 printf("find next node by key\n");
191 root = resetTree();
192 for (i =0;i<20;i+=2) {
193 struct testnode *n;
195 n = newnode();
196 n->key = i;
198 printf("Add node %d\n", i);
199 AVL_AddNode(&root, &n->node, nodecmp_int);
202 for (i =0;i<20;i++) {
203 struct testnode *n = (struct testnode *)AVL_FindNextNodeByKey(root, (AVLKey)i, keycmp_int);
204 int next;
206 printf("next node %d = %d\n", i, n ? n->key : -1);
208 if ((i % 2) == 0)
209 next = i;
210 else
211 next = i + 1;
213 if ((n != NULL && n->key != next)
214 || (n == NULL && i != 19))
215 printf("next node by key is wrong! got %d expected %d\n", (n == NULL ? -1 : n->key), i+1);
218 root = resetTree();
219 root = NULL;
220 printf("insert reverse order\n");
221 for (i =9;i>=0;i--) {
222 struct testnode *n;
224 n = newnode();
225 n->key = i;
227 AVL_AddNode(&root, &n->node, nodecmp_int);
230 dumporder(root);
231 dumprorder(root);
233 printf("remove by key\n");
234 for (i = 0;i<10;i++) {
235 AVL_RemNodeByKey(&root, (AVLKey)i, keycmp_int);
238 dumporder(root);
239 dumprorder(root);
241 // root should now be empty
242 if (root != NULL) {
243 printf("tree not empty!?");
246 root = resetTree();
247 srandom(0);
248 printf("insert random order\n");
249 for (i = 0;i<RCOUNT;i++)
250 shuffle[i] = i;
251 for (i = 0;i<RCOUNT;i++) {
252 int f = random() % RCOUNT;
253 int t = random() % RCOUNT;
254 int tmp;
256 tmp = shuffle[f];
257 shuffle[f] = shuffle[t];
258 shuffle[t] = tmp;
260 //for (i=0;i<RCOUNT;i++) {
261 //printf(" %d\n", shuffle[i]);
264 for (i=0;i<RCOUNT;i++) {
265 struct testnode *n;
267 n = newnode();
268 n->key = shuffle[i];
270 AVL_AddNode(&root, &n->node, nodecmp_int);
273 //dumporder(root);
274 //dumprorder(root);
276 srandom(1);
277 root = resetTree();
279 printf("remove random order\n");
280 for (i = 0;i<RCOUNT;i++) {
281 struct testnode *n;
283 shuffle[i] = i;
285 n = newnode();
286 n->key = i;
288 AVL_AddNode(&root, &n->node, nodecmp_int);
289 if ((i % 256) == 0)
290 checkbalance(root);
292 for (i = 0;i<RCOUNT;i++) {
293 int f = random() % RCOUNT;
294 int t = random() % RCOUNT;
295 int tmp;
297 tmp = shuffle[f];
298 shuffle[f] = shuffle[t];
299 shuffle[t] = tmp;
302 for (i=0;i<RCOUNT;i++) {
303 AVL_RemNodeByKey(&root, (AVLKey)shuffle[i], keycmp_int);
304 if ((i % 256) == 0)
305 checkbalance(root);
308 DeletePool(mempool);
309 free(shuffle);
311 return EXIT_SUCCESS;