source: trunk/src/cutest_zAVLTree.c@ 133

Last change on this file since 133 was 17, checked in by katerina, 19 years ago

Optimized version of tiger algorithm, and basic ingredients for unit testing (part 1)

File size: 7.3 KB
RevLine 
[17]1
2#include "config_xor.h"
3
4#include <string.h>
5#include "CuTest.h"
6#include "zAVLTree.h"
7
8struct ztest {
9 char name[32];
10};
11
12static zAVLTree * ztest_tree = NULL;
13
14static zAVLKey ztest_key (void const * arg)
15{
16 const struct ztest * sa = (const struct ztest *) arg;
17 return (zAVLKey) sa->name;
18}
19
20static void free_node (void * inptr)
21{
22 struct ztest * ptr = (struct ztest *) inptr;
23 ptr->name[0] = '\0';
24}
25
26void Test_zAVLTree(CuTest *tc) {
27 zAVLCursor cursor;
28
29 int result;
30 int counter = 0;
31
32 struct ztest z1 = { "abc" };
33 struct ztest z2 = { "aac" };
34 struct ztest z3 = { "aaa1" };
35 struct ztest z4 = { "aaa3" };
36 struct ztest z5 = { "aaa2" };
37 struct ztest z6 = { "aaa6" };
38 struct ztest z7 = { "aaa5" };
39 struct ztest z8 = { "aaa4" };
40
41 struct ztest * ptr;
42
43 ptr = zAVLFirst(&cursor, ztest_tree);
44 CuAssertTrue(tc, NULL == ptr);
45
46 ztest_tree = zAVLAllocTree (ztest_key);
47 CuAssertPtrNotNull(tc, ztest_tree);
48
49 do {
50
51 ++counter;
52
53 result = zAVLInsert(ztest_tree, &z1);
54 CuAssertTrue(tc, 0 == result);
55 result = zAVLInsert(ztest_tree, &z2);
56 CuAssertTrue(tc, 0 == result);
57 result = zAVLInsert(ztest_tree, &z3);
58 CuAssertTrue(tc, 0 == result);
59 result = zAVLInsert(ztest_tree, &z4);
60 CuAssertTrue(tc, 0 == result);
61 result = zAVLInsert(ztest_tree, &z5);
62 CuAssertTrue(tc, 0 == result);
63 result = zAVLInsert(ztest_tree, &z6);
64 CuAssertTrue(tc, 0 == result);
65 result = zAVLInsert(ztest_tree, &z7);
66 CuAssertTrue(tc, 0 == result);
67 result = zAVLInsert(ztest_tree, &z8);
68 CuAssertTrue(tc, 0 == result);
69
70 ptr = zAVLFirst(&cursor, ztest_tree);
71 CuAssertStrEquals(tc, ptr->name, z3.name);
72 ptr = zAVLNext(&cursor);
73 CuAssertStrEquals(tc, ptr->name, z5.name);
74 ptr = zAVLNext(&cursor);
75 CuAssertStrEquals(tc, ptr->name, z4.name);
76 ptr = zAVLNext(&cursor);
77 CuAssertStrEquals(tc, ptr->name, z8.name);
78 ptr = zAVLNext(&cursor);
79 CuAssertStrEquals(tc, ptr->name, z7.name);
80 ptr = zAVLNext(&cursor);
81 CuAssertStrEquals(tc, ptr->name, z6.name);
82 ptr = zAVLNext(&cursor);
83 CuAssertStrEquals(tc, ptr->name, z2.name);
84 ptr = zAVLNext(&cursor);
85 CuAssertStrEquals(tc, ptr->name, z1.name);
86 ptr = zAVLNext(&cursor);
87 CuAssertTrue(tc, NULL == ptr);
88
89 result = zAVLInsert(ztest_tree, &z8);
90 CuAssertTrue(tc, 0 != result);
91 result = zAVLInsert(ztest_tree, &z7);
92 CuAssertTrue(tc, 0 != result);
93 result = zAVLInsert(ztest_tree, &z6);
94 CuAssertTrue(tc, 0 != result);
95 result = zAVLInsert(ztest_tree, &z5);
96 CuAssertTrue(tc, 0 != result);
97
98 ptr = zAVLSearch(ztest_tree, z1.name);
99 CuAssertStrEquals(tc, ptr->name, z1.name);
100 ptr = zAVLSearch(ztest_tree, z2.name);
101 CuAssertStrEquals(tc, ptr->name, z2.name);
102 ptr = zAVLSearch(ztest_tree, z3.name);
103 CuAssertStrEquals(tc, ptr->name, z3.name);
104 ptr = zAVLSearch(ztest_tree, z4.name);
105 CuAssertStrEquals(tc, ptr->name, z4.name);
106
107 ptr = zAVLFirst(&cursor, ztest_tree);
108 CuAssertStrEquals(tc, ptr->name, z3.name);
109 ptr = zAVLNext(&cursor);
110 CuAssertStrEquals(tc, ptr->name, z5.name);
111 ptr = zAVLNext(&cursor);
112 CuAssertStrEquals(tc, ptr->name, z4.name);
113 ptr = zAVLNext(&cursor);
114 CuAssertStrEquals(tc, ptr->name, z8.name);
115 ptr = zAVLNext(&cursor);
116 CuAssertStrEquals(tc, ptr->name, z7.name);
117 ptr = zAVLNext(&cursor);
118 CuAssertStrEquals(tc, ptr->name, z6.name);
119 ptr = zAVLNext(&cursor);
120 CuAssertStrEquals(tc, ptr->name, z2.name);
121 ptr = zAVLNext(&cursor);
122 CuAssertStrEquals(tc, ptr->name, z1.name);
123 ptr = zAVLNext(&cursor);
124 CuAssertTrue(tc, NULL == ptr);
125
126
127 ptr = zAVLSearch(ztest_tree, z5.name);
128 CuAssertStrEquals(tc, ptr->name, z5.name);
129 ptr = zAVLSearch(ztest_tree, z6.name);
130 CuAssertStrEquals(tc, ptr->name, z6.name);
131 ptr = zAVLSearch(ztest_tree, z7.name);
132 CuAssertStrEquals(tc, ptr->name, z7.name);
133 ptr = zAVLSearch(ztest_tree, z8.name);
134 CuAssertStrEquals(tc, ptr->name, z8.name);
135 ptr = zAVLSearch(ztest_tree, "foobar");
136 CuAssertTrue(tc, NULL == ptr);
137
138 result = zAVLDelete(ztest_tree, z8.name);
139 CuAssertTrue(tc, 0 == result);
140 ptr = zAVLSearch(ztest_tree, z8.name);
141 CuAssertTrue(tc, NULL == ptr);
142
143 result = zAVLDelete(ztest_tree, z3.name);
144 CuAssertTrue(tc, 0 == result);
145 ptr = zAVLSearch(ztest_tree, z3.name);
146 CuAssertTrue(tc, NULL == ptr);
147
148 result = zAVLDelete(ztest_tree, z1.name);
149 CuAssertTrue(tc, 0 == result);
150 ptr = zAVLSearch(ztest_tree, z1.name);
151 CuAssertTrue(tc, NULL == ptr);
152
153 result = zAVLInsert(ztest_tree, &z1);
154 CuAssertTrue(tc, 0 == result);
155 result = zAVLInsert(ztest_tree, &z8);
156 CuAssertTrue(tc, 0 == result);
157 result = zAVLInsert(ztest_tree, &z3);
158 CuAssertTrue(tc, 0 == result);
159
160 ptr = zAVLFirst(&cursor, ztest_tree);
161 CuAssertStrEquals(tc, ptr->name, z3.name);
162 ptr = zAVLNext(&cursor);
163 CuAssertStrEquals(tc, ptr->name, z5.name);
164 ptr = zAVLNext(&cursor);
165 CuAssertStrEquals(tc, ptr->name, z4.name);
166 ptr = zAVLNext(&cursor);
167 CuAssertStrEquals(tc, ptr->name, z8.name);
168 ptr = zAVLNext(&cursor);
169 CuAssertStrEquals(tc, ptr->name, z7.name);
170 ptr = zAVLNext(&cursor);
171 CuAssertStrEquals(tc, ptr->name, z6.name);
172 ptr = zAVLNext(&cursor);
173 CuAssertStrEquals(tc, ptr->name, z2.name);
174 ptr = zAVLNext(&cursor);
175 CuAssertStrEquals(tc, ptr->name, z1.name);
176 ptr = zAVLNext(&cursor);
177 CuAssertTrue(tc, NULL == ptr);
178
179 result = zAVLDelete(ztest_tree, z1.name);
180 CuAssertTrue(tc, 0 == result);
181 ptr = zAVLSearch(ztest_tree, z1.name);
182 CuAssertTrue(tc, NULL == ptr);
183
184 result = zAVLDelete(ztest_tree, z2.name);
185 CuAssertTrue(tc, 0 == result);
186 ptr = zAVLSearch(ztest_tree, z2.name);
187 CuAssertTrue(tc, NULL == ptr);
188
189 result = zAVLDelete(ztest_tree, z3.name);
190 CuAssertTrue(tc, 0 == result);
191 ptr = zAVLSearch(ztest_tree, z3.name);
192 CuAssertTrue(tc, NULL == ptr);
193
194 result = zAVLDelete(ztest_tree, z4.name);
195 CuAssertTrue(tc, 0 == result);
196 ptr = zAVLSearch(ztest_tree, z4.name);
197 CuAssertTrue(tc, NULL == ptr);
198
199 result = zAVLDelete(ztest_tree, z5.name);
200 CuAssertTrue(tc, 0 == result);
201 ptr = zAVLSearch(ztest_tree, z5.name);
202 CuAssertTrue(tc, NULL == ptr);
203
204 result = zAVLDelete(ztest_tree, z6.name);
205 CuAssertTrue(tc, 0 == result);
206 ptr = zAVLSearch(ztest_tree, z6.name);
207 CuAssertTrue(tc, NULL == ptr);
208
209 result = zAVLDelete(ztest_tree, z7.name);
210 CuAssertTrue(tc, 0 == result);
211 ptr = zAVLSearch(ztest_tree, z7.name);
212 CuAssertTrue(tc, NULL == ptr);
213
214 result = zAVLDelete(ztest_tree, z8.name);
215 CuAssertTrue(tc, 0 == result);
216 ptr = zAVLSearch(ztest_tree, z8.name);
217 CuAssertTrue(tc, NULL == ptr);
218
219} while (counter < 100);
220
221 result = zAVLInsert(ztest_tree, &z1);
222 CuAssertTrue(tc, 0 == result);
223 result = zAVLInsert(ztest_tree, &z2);
224 CuAssertTrue(tc, 0 == result);
225 result = zAVLInsert(ztest_tree, &z3);
226 CuAssertTrue(tc, 0 == result);
227 result = zAVLInsert(ztest_tree, &z4);
228 CuAssertTrue(tc, 0 == result);
229 result = zAVLInsert(ztest_tree, &z5);
230 CuAssertTrue(tc, 0 == result);
231 result = zAVLInsert(ztest_tree, &z6);
232 CuAssertTrue(tc, 0 == result);
233 result = zAVLInsert(ztest_tree, &z7);
234 CuAssertTrue(tc, 0 == result);
235 result = zAVLInsert(ztest_tree, &z8);
236 CuAssertTrue(tc, 0 == result);
237
238 zAVLFreeTree (ztest_tree, free_node);
239 CuAssertTrue (tc, z1.name[0] == '\0');
240 CuAssertTrue (tc, z2.name[0] == '\0');
241 CuAssertTrue (tc, z3.name[0] == '\0');
242 CuAssertTrue (tc, z4.name[0] == '\0');
243 CuAssertTrue (tc, z5.name[0] == '\0');
244 CuAssertTrue (tc, z6.name[0] == '\0');
245 CuAssertTrue (tc, z7.name[0] == '\0');
246 CuAssertTrue (tc, z8.name[0] == '\0');
247}
Note: See TracBrowser for help on using the repository browser.