File Coverage

third_party/modest/source/mycore/utils/mctree.c

Criterion	Covered	Total	%
statement	77	137	56.2
branch	31	82	37.8
condition			n/a
subroutine			n/a
pod			n/a
total	108	219	49.3

line	stmt	bran	code
1			/*
2			Copyright (C) 2015-2017 Alexander Borisov
3
4			This library is free software; you can redistribute it and/or
5			modify it under the terms of the GNU Lesser General Public
6			License as published by the Free Software Foundation; either
7			version 2.1 of the License, or (at your option) any later version.
8
9			This library is distributed in the hope that it will be useful,
10			but WITHOUT ANY WARRANTY; without even the implied warranty of
11			MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12			Lesser General Public License for more details.
13
14			You should have received a copy of the GNU Lesser General Public
15			License along with this library; if not, write to the Free Software
16			Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
17
18			Author: lex.borisov@gmail.com (Alexander Borisov)
19			*/
20
21			#include "mycore/utils/resources.h"
22			#include "mycore/utils/mctree.h"
23
24	145		mctree_t * mctree_create(size_t start_size)
25			{
26	145		mctree_t* mctree = (mctree_t*)mycore_malloc(sizeof(mctree_t));
27
28	145	50	if(mctree == NULL)
29	0		return NULL;
30
31	145		mctree->nodes_size = start_size + 512;
32	145		mctree->nodes_length = start_size + 1;
33	145		mctree->nodes = (mctree_node_t*)mycore_calloc(mctree->nodes_size, sizeof(mctree_node_t));
34
35	145	50	if(mctree->nodes == NULL) {
36	0		mycore_free(mctree);
37	0		return NULL;
38			}
39
40	145		mctree->start_size = start_size;
41
42	145		return mctree;
43			}
44
45	290		void mctree_clean(mctree_t* mctree)
46			{
47	290		mctree->nodes_length = mctree->start_size + 1;
48	290		memset(mctree->nodes, 0, sizeof(mctree_node_t) * mctree->nodes_size);
49	290		}
50
51	144		mctree_t * mctree_destroy(mctree_t* mctree)
52			{
53	144	50	if(mctree == NULL)
54	0		return NULL;
55
56	144	50	if(mctree->nodes)
57	144		mycore_free(mctree->nodes);
58
59	144		mycore_free(mctree);
60
61	144		return NULL;
62			}
63
64	8		mctree_index_t __mtree_search_lowercase_to_start(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size)
65			{
66	8		mctree_node_t* nodes = mctree->nodes;
67
68	14	100	while (idx)
69			{
70	11	100	if(key_size == nodes[idx].str_size) {
71	8	100	if(mycore_strncasecmp(key, nodes[idx].str, key_size) == 0) {
72	5		return idx;
73			}
74
75	3		idx = nodes[idx].child;
76			}
77	3	50	else if(key_size > nodes[idx].str_size)
78			{
79	3	50	if(key_size < nodes[ nodes[idx].next ].str_size) {
80	0		return 0;
81			}
82
83	3		idx = nodes[idx].next;
84			}
85			else {
86	0	0	if(key_size > nodes[ nodes[idx].prev ].str_size) {
87	0		return 0;
88			}
89
90	0		idx = nodes[idx].prev;
91			}
92			}
93
94	3		return 0;
95			}
96
97	0		mctree_index_t __mtree_search_to_start(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size)
98			{
99	0		mctree_node_t* nodes = mctree->nodes;
100
101	0	0	while (idx)
102			{
103	0	0	if(key_size == nodes[idx].str_size) {
104	0	0	if(memcmp((const void )key, (const void )(nodes[idx].str), key_size) == 0) {
105	0		return idx;
106			}
107
108	0		idx = nodes[idx].child;
109			}
110	0	0	else if(key_size > nodes[idx].str_size)
111			{
112	0	0	if(key_size < nodes[ nodes[idx].next ].str_size) {
113	0		return 0;
114			}
115
116	0		idx = nodes[idx].next;
117			}
118			else {
119	0	0	if(key_size > nodes[ nodes[idx].prev ].str_size) {
120	0		return 0;
121			}
122
123	0		idx = nodes[idx].prev;
124			}
125			}
126
127	0		return 0;
128			}
129
130	21		mctree_index_t mctree_insert_child(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size, void* value)
131			{
132	21		mctree_node_t* nodes = mctree->nodes;
133	21		mctree_index_t new_idx = mctree_node_get_free_id(mctree);
134
135	21		nodes[idx].child = new_idx;
136
137	21		nodes[new_idx].str = key;
138	21		nodes[new_idx].str_size = key_size;
139	21		nodes[new_idx].value = value;
140
141	21	50	mctree_node_add(mctree);
142
143	21		return new_idx;
144			}
145
146	1		mctree_index_t mctree_insert_after(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size, void* value)
147			{
148	1		mctree_node_t* nodes = mctree->nodes;
149	1		mctree_index_t new_idx = mctree_node_get_free_id(mctree);
150
151	1	50	if(nodes[idx].next) {
152	0		nodes[ nodes[idx].next ].prev = new_idx;
153	0		nodes[new_idx].next = nodes[idx].next;
154			}
155
156	1		nodes[idx].next = new_idx;
157	1		nodes[new_idx].prev = idx;
158
159	1		nodes[new_idx].str = key;
160	1		nodes[new_idx].str_size = key_size;
161	1		nodes[new_idx].value = value;
162
163	1	50	mctree_node_add(mctree);
164
165	1		return new_idx;
166			}
167
168	0		mctree_index_t mctree_insert_before(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size, void* value)
169			{
170	0		mctree_node_t* nodes = mctree->nodes;
171	0		mctree_index_t new_idx = mctree_node_get_free_id(mctree);
172
173	0	0	if(nodes[idx].prev) {
174	0		nodes[ nodes[idx].prev ].next = new_idx;
175	0		nodes[new_idx].prev = nodes[idx].prev;
176			}
177
178	0		nodes[idx].prev = new_idx;
179	0		nodes[new_idx].next = idx;
180
181	0		nodes[new_idx].str = key;
182	0		nodes[new_idx].str_size = key_size;
183	0		nodes[new_idx].value = value;
184
185	0	0	mctree_node_add(mctree);
186
187	0		return new_idx;
188			}
189
190	2		mctree_index_t __mtree_insert_to_start(mctree_t* mctree, mctree_index_t idx, const char* key, size_t key_size, void* value, mctree_before_insert_f b_insert)
191			{
192	2		mctree_node_t* nodes = mctree->nodes;
193
194	2	50	while (idx)
195			{
196	2	100	if(key_size == nodes[idx].str_size) {
197	1	50	if(memcmp((const void )key, (const void )nodes[idx].str, key_size) == 0)
198			{
199	0	0	if(value)
200	0		nodes[idx].value = value;
201
202	0		return idx;
203			}
204
205	1	50	if(nodes[idx].child == 0) {
206	1	50	if(b_insert)
207	0		b_insert(key, key_size, &value);
208
209	1		return mctree_insert_child(mctree, idx, key, key_size, value);
210			}
211
212	0		idx = nodes[idx].child;
213			}
214	1	50	else if(key_size > nodes[idx].str_size)
215			{
216	1	50	if(nodes[idx].next == 0 \|\| key_size < nodes[ nodes[idx].next ].str_size) {
		0
217	1	50	if(b_insert)
218	0		b_insert(key, key_size, &value);
219
220	1		return mctree_insert_after(mctree, idx, key, key_size, value);
221			}
222
223	0		idx = nodes[idx].next;
224			}
225			else {
226	0	0	if(nodes[idx].prev == 0 \|\| key_size > nodes[ nodes[idx].prev ].str_size) {
		0
227	0	0	if(b_insert)
228	0		b_insert(key, key_size, &value);
229
230	0		return mctree_insert_before(mctree, idx, key, key_size, value);
231			}
232
233	0		idx = nodes[idx].prev;
234			}
235			}
236
237	0		return 0;
238			}
239
240	22		mctree_index_t mctree_insert(mctree_t* mctree, const char* key, size_t key_size, void* value, mctree_before_insert_f b_insert)
241			{
242	22		mctree_node_t* start = mctree->nodes;
243
244	22	50	if(key_size > 0) {
245	22		mctree_index_t idx = mctree_make_first_idx(mctree, key, key_size);
246
247	22	100	if(start[idx].child) {
248	2		return __mtree_insert_to_start(mctree, start[idx].child, key, key_size, value, b_insert);
249			}
250			else {
251	20	50	if(b_insert)
252	0		b_insert(key, key_size, &value);
253
254	20		return mctree_insert_child(mctree, idx, key, key_size, value);
255			}
256			}
257
258	0		return 0;
259			}
260
261	0		mctree_index_t mctree_search(mctree_t* mctree, const char* key, size_t key_size)
262			{
263	0		mctree_node_t* start = mctree->nodes;
264
265	0	0	if(key_size > 0) {
266	0		mctree_index_t idx = mctree_make_first_idx(mctree, key, key_size);
267
268	0	0	if(start[idx].child) {
269	0		return __mtree_search_to_start(mctree, start[idx].child, key, key_size);
270			}
271			}
272
273	0		return 0;
274			}
275
276	96		mctree_index_t mctree_search_lowercase(mctree_t* mctree, const char* key, size_t key_size)
277			{
278	96		mctree_node_t* start = mctree->nodes;
279
280	96	50	if(key_size > 0) {
281	96		mctree_index_t idx = mctree_make_first_idx(mctree, key, key_size);
282
283	96	100	if(start[idx].child) {
284	8		return __mtree_search_lowercase_to_start(mctree, start[idx].child, key, key_size);
285			}
286			}
287
288	88		return 0;
289			}
290
291
292