File Coverage

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

Criterion	Covered	Total	%
statement	63	91	69.2
branch	24	50	48.0
condition			n/a
subroutine			n/a
pod			n/a
total	87	141	61.7

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/mcobject.h"
22
23	589		mcobject_t * mcobject_create(void)
24			{
25	589		return mycore_calloc(1, sizeof(mcobject_t));
26			}
27
28	589		mystatus_t mcobject_init(mcobject_t *mcobject, size_t chunk_size, size_t struct_size)
29			{
30	589		mcobject->struct_size = struct_size;
31	589		mcobject->chunk_size = chunk_size;
32
33	589		mcobject->chunk = NULL;
34
35	589		mcobject->cache_length = 0;
36	589		mcobject->cache_size = chunk_size;
37	589		mcobject->cache = (void*)mycore_malloc(sizeof(void) * mcobject->cache_size);
38
39	589	50	if(mcobject->cache == NULL)
40	0		return MyCORE_STATUS_MCOBJECT_ERROR_CACHE_CREATE;
41
42	589		return MyCORE_STATUS_OK;
43			}
44
45	862		void mcobject_clean(mcobject_t *mcobject)
46			{
47	862	100	if(mcobject->chunk == NULL)
48	371		return;
49
50	491		mcobject_chunk_t* chunk = mcobject->chunk;
51
52	491	50	while(chunk->next)
53	0		chunk = chunk->next;
54
55	982	100	while(chunk) {
56	491		mcobject_chunk_t* tmp = chunk->prev;
57
58	491	50	if(chunk->begin) {
59	491		mycore_free(chunk->begin);
60			}
61
62	491		mycore_free(chunk);
63
64	491		chunk = tmp;
65			}
66
67	491		mcobject->chunk = NULL;
68	491		mcobject->cache_length = 0;
69			}
70
71	588		mcobject_t * mcobject_destroy(mcobject_t *mcobject, bool destroy_self)
72			{
73	588	50	if(mcobject == NULL)
74	0		return NULL;
75
76	588		mcobject_clean(mcobject);
77
78	588	50	if(mcobject->cache) {
79	588		mycore_free(mcobject->cache);
80	588		mcobject->cache = NULL;
81			}
82
83	588	50	if(destroy_self) {
84	588		mycore_free(mcobject);
85	588		return NULL;
86			}
87
88	0		return mcobject;
89			}
90
91	492		void mcobject_chunk_malloc(mcobject_t* mcobject, mystatus_t* status)
92			{
93	492	50	if(status)
94	492		*status = MyCORE_STATUS_OK;
95
96			mcobject_chunk_t* chunk;
97
98	492	50	if(mcobject->chunk && mcobject->chunk->next) {
		0
99	0		mcobject->chunk = mcobject->chunk->next;
100
101	0		mcobject->chunk->length = 0;
102
103	0		return;
104			}
105			else {
106	492		chunk = mycore_calloc(1, sizeof(mcobject_chunk_t));
107
108	492	50	if(chunk == NULL) {
109	0	0	if(status)
110	0		*status = MyCORE_STATUS_MCOBJECT_ERROR_CHUNK_CREATE;
111
112	0		return;
113			}
114
115	492		chunk->begin = mycore_malloc(mcobject->struct_size * mcobject->chunk_size);
116
117	492	50	if(chunk->begin == NULL) {
118	0	0	if(status)
119	0		*status = MyCORE_STATUS_MCOBJECT_ERROR_CHUNK_INIT;
120
121	0		mycore_free(chunk);
122	0		return;
123			}
124
125	492		chunk->size = mcobject->chunk_size;
126			}
127
128	492	50	if(mcobject->chunk == NULL) {
129	492		mcobject->chunk = chunk;
130	492		return;
131			}
132
133	0		chunk->prev = mcobject->chunk;
134	0		mcobject->chunk->next = chunk;
135
136	0		mcobject->chunk = chunk;
137			}
138
139	719		void * mcobject_malloc(mcobject_t mcobject, mystatus_t status)
140			{
141	719	100	if(mcobject->cache_length) {
142	165	50	if(status)
143	0		*status = MyCORE_STATUS_OK;
144
145	165		mcobject->cache_length--;
146	165		return mcobject->cache[ mcobject->cache_length ];
147			}
148
149	554		mcobject_chunk_t* chunk = mcobject->chunk;
150
151	554	100	if(chunk == NULL \|\| chunk->length >= chunk->size)
		50
152			{
153			mystatus_t ns_status;
154	492		mcobject_chunk_malloc(mcobject, &ns_status);
155
156	492	50	if(ns_status) {
157	0	0	if(status)
158	0		*status = ns_status;
159
160	0		return NULL;
161			}
162
163	492		chunk = mcobject->chunk;
164			}
165
166	554	50	if(status)
167	0		*status = MyCORE_STATUS_OK;
168
169	554		chunk->length++;
170	554		return &chunk->begin[((chunk->length - 1) * mcobject->struct_size)];
171			}
172
173	442		mystatus_t mcobject_free(mcobject_t mcobject, void entry)
174			{
175	442	50	if(mcobject->cache_length >= mcobject->cache_size) {
176	0		size_t new_size = mcobject->cache_size << 1;
177
178	0		void tmp = (void)mycore_realloc(mcobject->cache, sizeof(void) new_size);
179
180	0	0	if(tmp) {
181	0		mcobject->cache = tmp;
182	0		mcobject->cache_size = new_size;
183			}
184			else
185	0		return MyCORE_STATUS_MCOBJECT_ERROR_CACHE_REALLOC;
186			}
187
188	442		mcobject->cache[ mcobject->cache_length ] = entry;
189	442		mcobject->cache_length++;
190
191	442		return MyCORE_STATUS_OK;
192			}
193
194