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Line 39... | Line 39... | ||
39 | /* |
39 | /* |
40 | * avl tree nodes in array for faster allocation |
40 | * avl tree nodes in array for faster allocation |
41 | */ |
41 | */ |
42 | static avltree_node_t avltree_nodes[NODE_COUNT]; |
42 | static avltree_node_t avltree_nodes[NODE_COUNT]; |
43 | 43 | ||
44 | /* |
44 | /* |
45 | * head of free nodes' list: |
45 | * head of free nodes' list: |
46 | */ |
46 | */ |
47 | static avltree_node_t *first_free_node = NULL; |
47 | static avltree_node_t *first_free_node = NULL; |
48 | 48 | ||
49 | static int test_tree_balance(avltree_node_t *node); |
49 | static int test_tree_balance(avltree_node_t *node); |
Line 56... | Line 56... | ||
56 | { |
56 | { |
57 | avltree_node_t *tmp; |
57 | avltree_node_t *tmp; |
58 | 58 | ||
59 | if (!node) |
59 | if (!node) |
60 | return NULL; |
60 | return NULL; |
61 | 61 | ||
62 | if (node->lft) { |
62 | if (node->lft) { |
63 | tmp = test_tree_parents(node->lft); |
63 | tmp = test_tree_parents(node->lft); |
64 | if (tmp != node) { |
64 | if (tmp != node) { |
65 | printf("Bad parent pointer key: %" PRIu64 |
65 | TPRINTF("Bad parent pointer key: %" PRIu64 |
66 | ", address: %p\n", tmp->key, node->lft); |
66 | ", address: %p\n", tmp->key, node->lft); |
67 | } |
67 | } |
68 | } |
68 | } |
69 | if (node->rgt) { |
69 | if (node->rgt) { |
70 | tmp = test_tree_parents(node->rgt); |
70 | tmp = test_tree_parents(node->rgt); |
71 | if (tmp != node) { |
71 | if (tmp != node) { |
72 | printf("Bad parent pointer key: %" PRIu64 |
72 | TPRINTF("Bad parent pointer key: %" PRIu64 |
73 | ", address: %p\n", |
73 | ", address: %p\n", |
74 | tmp->key,node->rgt); |
74 | tmp->key,node->rgt); |
75 | } |
75 | } |
76 | } |
76 | } |
77 | return node->par; |
77 | return node->par; |
78 | } |
78 | } |
79 | 79 | ||
80 | int test_tree_balance(avltree_node_t *node) |
80 | int test_tree_balance(avltree_node_t *node) |
81 | { |
81 | { |
82 | int h1, h2, diff; |
82 | int h1, h2, diff; |
83 | 83 | ||
84 | if (!node) |
84 | if (!node) |
85 | return 0; |
85 | return 0; |
- | 86 | ||
86 | h1 = test_tree_balance(node->lft); |
87 | h1 = test_tree_balance(node->lft); |
87 | h2 = test_tree_balance(node->rgt); |
88 | h2 = test_tree_balance(node->rgt); |
88 | diff = h2 - h1; |
89 | diff = h2 - h1; |
- | 90 | ||
89 | if (diff != node->balance || (diff != -1 && diff != 0 && diff != 1)) { |
91 | if ((diff != node->balance) || ((diff != -1) && (diff != 0) && (diff != 1))) |
90 | printf("Bad balance\n"); |
92 | TPRINTF("Bad balance\n"); |
91 | } |
93 | |
92 | return h1 > h2 ? h1 + 1 : h2 + 1; |
94 | return ((h1 > h2) ? (h1 + 1) : (h2 + 1)); |
93 | } |
95 | } |
94 | 96 | ||
95 | /** |
97 | /** |
96 | * Prints the structure of the node, which is level levels from the top of the |
98 | * Prints the structure of the node, which is level levels from the top of the |
97 | * tree. |
99 | * tree. |
98 | */ |
100 | */ |
99 | static void |
- | |
100 | print_tree_structure_flat(avltree_node_t *node, int level) |
101 | static void print_tree_structure_flat(avltree_node_t *node, int level) |
101 | { |
102 | { |
102 | /* |
103 | /* |
103 | * You can set the maximum level as high as you like. |
104 | * You can set the maximum level as high as you like. |
104 | * Most of the time, you'll want to debug code using small trees, |
105 | * Most of the time, you'll want to debug code using small trees, |
105 | * so that a large level indicates a loop, which is a bug. |
106 | * so that a large level indicates a loop, which is a bug. |
106 | */ |
107 | */ |
107 | if (level > 16) { |
108 | if (level > 16) { |
108 | printf("[...]"); |
109 | TPRINTF("[...]"); |
109 | return; |
110 | return; |
110 | } |
111 | } |
111 | 112 | ||
112 | if (node == NULL) |
113 | if (node == NULL) |
113 | return; |
114 | return; |
114 | 115 | ||
115 | printf("%" PRIu64 "[%" PRIu8 "]", node->key, node->balance); |
116 | TPRINTF("%" PRIu64 "[%" PRIu8 "]", node->key, node->balance); |
116 | if (node->lft != NULL || node->rgt != NULL) { |
117 | if (node->lft != NULL || node->rgt != NULL) { |
117 | printf("("); |
118 | TPRINTF("("); |
118 | 119 | ||
119 | print_tree_structure_flat(node->lft, level + 1); |
120 | print_tree_structure_flat(node->lft, level + 1); |
120 | if (node->rgt != NULL) { |
121 | if (node->rgt != NULL) { |
121 | printf(","); |
122 | TPRINTF(","); |
122 | print_tree_structure_flat(node->rgt, level + 1); |
123 | print_tree_structure_flat(node->rgt, level + 1); |
123 | } |
124 | } |
124 | 125 | ||
125 | printf(")"); |
126 | TPRINTF(")"); |
126 | } |
127 | } |
127 | } |
128 | } |
128 | 129 | ||
129 | static void alloc_avltree_node_prepare(void) |
130 | static void alloc_avltree_node_prepare(void) |
130 | { |
131 | { |
131 | int i; |
132 | int i; |
132 | 133 | ||
133 | for (i = 0; i < NODE_COUNT - 1; i++) { |
134 | for (i = 0; i < NODE_COUNT - 1; i++) |
134 | avltree_nodes[i].par = &avltree_nodes[i + 1]; |
135 | avltree_nodes[i].par = &avltree_nodes[i + 1]; |
135 | } |
136 | |
136 | avltree_nodes[i].par = NULL; |
137 | avltree_nodes[i].par = NULL; |
137 | 138 | ||
138 | /* |
139 | /* |
139 | * Node keys which will be used for insertion. Up to NODE_COUNT size of |
140 | * Node keys which will be used for insertion. Up to NODE_COUNT size of |
140 | * array. |
141 | * array. |
141 | */ |
142 | */ |
142 | 143 | ||
143 | /* First tree node and same key */ |
144 | /* First tree node and same key */ |
144 | avltree_nodes[0].key = 60; |
145 | avltree_nodes[0].key = 60; |
145 | avltree_nodes[1].key = 60; |
146 | avltree_nodes[1].key = 60; |
146 | avltree_nodes[2].key = 60; |
147 | avltree_nodes[2].key = 60; |
- | 148 | ||
147 | /* LL rotation */ |
149 | /* LL rotation */ |
148 | avltree_nodes[3].key = 50; |
150 | avltree_nodes[3].key = 50; |
149 | avltree_nodes[4].key = 40; |
151 | avltree_nodes[4].key = 40; |
150 | avltree_nodes[5].key = 30; |
152 | avltree_nodes[5].key = 30; |
- | 153 | ||
151 | /* LR rotation */ |
154 | /* LR rotation */ |
152 | avltree_nodes[6].key = 20; |
155 | avltree_nodes[6].key = 20; |
153 | avltree_nodes[7].key = 20; |
156 | avltree_nodes[7].key = 20; |
154 | avltree_nodes[8].key = 25; |
157 | avltree_nodes[8].key = 25; |
155 | avltree_nodes[9].key = 25; |
158 | avltree_nodes[9].key = 25; |
- | 159 | ||
156 | /* LL rotation in lower floor */ |
160 | /* LL rotation in lower floor */ |
157 | avltree_nodes[10].key = 35; |
161 | avltree_nodes[10].key = 35; |
- | 162 | ||
158 | /* RR rotation */ |
163 | /* RR rotation */ |
159 | avltree_nodes[11].key = 70; |
164 | avltree_nodes[11].key = 70; |
160 | avltree_nodes[12].key = 80; |
165 | avltree_nodes[12].key = 80; |
- | 166 | ||
161 | /* RL rotation */ |
167 | /* RL rotation */ |
162 | avltree_nodes[13].key = 90; |
168 | avltree_nodes[13].key = 90; |
163 | avltree_nodes[14].key = 85; |
169 | avltree_nodes[14].key = 85; |
- | 170 | ||
164 | /* Insert 0 key */ |
171 | /* Insert 0 key */ |
165 | avltree_nodes[15].key = 0; |
172 | avltree_nodes[15].key = 0; |
166 | avltree_nodes[16].key = 0; |
173 | avltree_nodes[16].key = 0; |
- | 174 | ||
167 | /* Insert reverse */ |
175 | /* Insert reverse */ |
168 | avltree_nodes[17].key = 600; |
176 | avltree_nodes[17].key = 600; |
169 | avltree_nodes[18].key = 500; |
177 | avltree_nodes[18].key = 500; |
170 | avltree_nodes[19].key = 400; |
178 | avltree_nodes[19].key = 400; |
171 | avltree_nodes[20].key = 300; |
179 | avltree_nodes[20].key = 300; |
172 | 180 | ||
173 | for (i = 21; i < NODE_COUNT; i++) |
181 | for (i = 21; i < NODE_COUNT; i++) |
174 | avltree_nodes[i].key = i * 3; |
182 | avltree_nodes[i].key = i * 3; |
175 | 183 | ||
176 | first_free_node = &avltree_nodes[0]; |
184 | first_free_node = &avltree_nodes[0]; |
177 | } |
185 | } |
178 | 186 | ||
179 | static avltree_node_t *alloc_avltree_node(void) |
187 | static avltree_node_t *alloc_avltree_node(void) |
180 | { |
188 | { |
181 | avltree_node_t *node; |
189 | avltree_node_t *node; |
182 | 190 | ||
183 | node = first_free_node; |
191 | node = first_free_node; |
184 | first_free_node = first_free_node->par; |
192 | first_free_node = first_free_node->par; |
185 | 193 | ||
186 | return node; |
194 | return node; |
187 | } |
195 | } |
188 | 196 | ||
189 | static void test_tree_insert(avltree_t *tree, count_t node_count, bool quiet) |
197 | static void test_tree_insert(avltree_t *tree, count_t node_count) |
190 | { |
198 | { |
191 | unsigned int i; |
199 | unsigned int i; |
192 | avltree_node_t *newnode; |
200 | avltree_node_t *newnode; |
193 | 201 | ||
194 | avltree_create(tree); |
202 | avltree_create(tree); |
195 | 203 | ||
196 | if (!quiet) |
- | |
197 | printf("Inserting %" PRIc " nodes...", node_count); |
204 | TPRINTF("Inserting %" PRIc " nodes...", node_count); |
198 | 205 | ||
199 | for (i = 0; i < node_count; i++) { |
206 | for (i = 0; i < node_count; i++) { |
200 | newnode = alloc_avltree_node(); |
207 | newnode = alloc_avltree_node(); |
201 | 208 | ||
202 | avltree_insert(tree, newnode); |
209 | avltree_insert(tree, newnode); |
203 | if (!quiet) { |
- | |
204 | test_tree_parents(tree->root); |
210 | test_tree_parents(tree->root); |
205 | test_tree_balance(tree->root); |
211 | test_tree_balance(tree->root); |
206 | } |
- | |
207 | } |
212 | } |
208 | 213 | ||
209 | if (!quiet) |
- | |
210 | printf("done.\n"); |
214 | TPRINTF("done.\n"); |
211 | } |
215 | } |
212 | 216 | ||
213 | - | ||
214 | static void test_tree_delete(avltree_t *tree, count_t node_count, |
217 | static void test_tree_delete(avltree_t *tree, count_t node_count, |
215 | int node_position, bool quiet) |
218 | int node_position) |
216 | { |
219 | { |
217 | avltree_node_t *delnode; |
220 | avltree_node_t *delnode; |
218 | unsigned int i; |
221 | unsigned int i; |
219 | 222 | ||
220 | switch (node_position) { |
223 | switch (node_position) { |
221 | case 0: |
224 | case 0: |
222 | if (!quiet) |
- | |
223 | printf("Deleting root nodes..."); |
225 | TPRINTF("Deleting root nodes..."); |
- | 226 | ||
224 | while (tree->root != NULL) { |
227 | while (tree->root != NULL) { |
225 | delnode = tree->root; |
228 | delnode = tree->root; |
226 | avltree_delete(tree, delnode); |
229 | avltree_delete(tree, delnode); |
227 | if (!quiet) { |
- | |
228 | test_tree_parents(tree->root); |
230 | test_tree_parents(tree->root); |
229 | test_tree_balance(tree->root); |
231 | test_tree_balance(tree->root); |
230 | } |
- | |
231 | } |
232 | } |
232 | break; |
233 | break; |
233 | case 1: |
234 | case 1: |
234 | if (!quiet) |
- | |
235 | printf("Deleting nodes according to creation time..."); |
235 | TPRINTF("Deleting nodes according to creation time..."); |
- | 236 | ||
236 | for (i = 0; i < node_count; i++) { |
237 | for (i = 0; i < node_count; i++) { |
237 | avltree_delete(tree, &avltree_nodes[i]); |
238 | avltree_delete(tree, &avltree_nodes[i]); |
238 | if (!quiet) { |
- | |
239 | test_tree_parents(tree->root); |
239 | test_tree_parents(tree->root); |
240 | test_tree_balance(tree->root); |
240 | test_tree_balance(tree->root); |
241 | } |
- | |
242 | } |
241 | } |
243 | break; |
242 | break; |
244 | } |
243 | } |
245 | 244 | ||
246 | if (!quiet) |
- | |
247 | printf("done.\n"); |
245 | TPRINTF("done.\n"); |
248 | } |
246 | } |
249 | 247 | ||
250 | static void test_tree_delmin(avltree_t *tree, count_t node_count, bool quiet) |
248 | static void test_tree_delmin(avltree_t *tree, count_t node_count) |
251 | { |
249 | { |
252 | unsigned int i = 0; |
250 | unsigned int i = 0; |
253 | 251 | ||
254 | if (!quiet) |
- | |
255 | printf("Deleting minimum nodes..."); |
252 | TPRINTF("Deleting minimum nodes..."); |
256 | 253 | ||
257 | while (tree->root != NULL) { |
254 | while (tree->root != NULL) { |
258 | i++; |
255 | i++; |
259 | avltree_delete_min(tree); |
256 | avltree_delete_min(tree); |
260 | if (!quiet) { |
- | |
261 | test_tree_parents(tree->root); |
257 | test_tree_parents(tree->root); |
262 | test_tree_balance(tree->root); |
258 | test_tree_balance(tree->root); |
263 | } |
- | |
264 | } |
259 | } |
265 | 260 | ||
266 | if (!quiet && (i != node_count)) |
261 | if (i != node_count) |
267 | printf("Bad node count. Some nodes have been lost!\n"); |
262 | TPRINTF("Bad node count. Some nodes have been lost!\n"); |
268 | 263 | ||
269 | if (!quiet) |
- | |
270 | printf("done.\n"); |
264 | TPRINTF("done.\n"); |
271 | } |
265 | } |
272 | 266 | ||
273 | char *test_avltree1(bool quiet) |
267 | char *test_avltree1(void) |
274 | { |
268 | { |
275 | alloc_avltree_node_prepare(); |
269 | alloc_avltree_node_prepare(); |
276 | test_tree_insert(&avltree, NODE_COUNT, quiet); |
270 | test_tree_insert(&avltree, NODE_COUNT); |
277 | test_tree_delete(&avltree, NODE_COUNT, 0, quiet); |
271 | test_tree_delete(&avltree, NODE_COUNT, 0); |
278 | 272 | ||
279 | alloc_avltree_node_prepare(); |
273 | alloc_avltree_node_prepare(); |
280 | test_tree_insert(&avltree, NODE_COUNT, quiet); |
274 | test_tree_insert(&avltree, NODE_COUNT); |
281 | test_tree_delete(&avltree, NODE_COUNT, 1, quiet); |
275 | test_tree_delete(&avltree, NODE_COUNT, 1); |
282 | 276 | ||
283 | alloc_avltree_node_prepare(); |
277 | alloc_avltree_node_prepare(); |
284 | test_tree_insert(&avltree, NODE_COUNT, quiet); |
278 | test_tree_insert(&avltree, NODE_COUNT); |
285 | test_tree_delmin(&avltree, NODE_COUNT, quiet); |
279 | test_tree_delmin(&avltree, NODE_COUNT); |
286 | 280 | ||
287 | return NULL; |
281 | return NULL; |
288 | } |
282 | } |
289 | - |