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locks.cfa @ ec57856

ADTast-experimentalpthread-emulationqualifiedEnum

Last change on this file since ec57856 was ec57856, checked in by caparsons <caparson@…>, 2 years ago
added fast lock tests
Property mode set to `100644`
File size: 6.2 KB

Line
1	#include <stdio.h>
2	#include "locks.hfa"
3	#include <stdlib.hfa>
4	#include <thread.hfa>
5
6	const unsigned int num_times = 50000;
7
8	multiple_acquisition_lock m;
9	condition_variable( multiple_acquisition_lock ) c_m;
10
11	single_acquisition_lock s;
12	condition_variable( single_acquisition_lock ) c_s;
13
14	owner_lock o;
15	condition_variable( owner_lock ) c_o;
16
17	linear_backoff_then_block_lock l;
18	condition_variable( linear_backoff_then_block_lock ) c_l;
19
20	fast_block_lock f;
21	fast_cond_var( fast_block_lock ) f_c_f;
22
23	thread T_C_M_WS1 {};
24
25	void main( T_C_M_WS1 & this ) {
26	for (unsigned int i = 0; i < num_times; i++) {
27	lock(m);
28	if(empty(c_m) && i != num_times - 1) {
29	wait(c_m,m);
30	}else{
31	notify_one(c_m);
32	}
33	unlock(m);
34	}
35	}
36
37	thread T_C_M_WB1 {};
38
39	void main( T_C_M_WB1 & this ) {
40	for (unsigned int i = 0; i < num_times; i++) {
41	lock(m);
42	if(counter(c_m) == 3 \|\| i == num_times - 1) {
43	notify_all(c_m);
44	}else{
45	wait(c_m,m);
46	}
47	unlock(m);
48	}
49	}
50
51	thread T_C_S_WS1 {};
52
53	void main( T_C_S_WS1 & this ) {
54	for (unsigned int i = 0; i < num_times; i++) {
55	lock(s);
56	if(empty(c_s) && i != num_times - 1) {
57	wait(c_s,s);
58	}else{
59	notify_one(c_s);
60	}
61	unlock(s);
62	}
63	}
64
65	thread T_C_S_WB1 {};
66
67	void main( T_C_S_WB1 & this ) {
68	for (unsigned int i = 0; i < num_times; i++) {
69	lock(s);
70	if(counter(c_s) == 3 \|\| i == num_times - 1) {
71	notify_all(c_s);
72	}else{
73	wait(c_s,s);
74	}
75	unlock(s);
76	}
77	}
78
79	thread T_C_L_WS1 {};
80
81	void main( T_C_L_WS1 & this ) {
82	for (unsigned int i = 0; i < num_times; i++) {
83	lock(l);
84	if(empty(c_l) && i != num_times - 1) {
85	wait(c_l,l);
86	}else{
87	notify_one(c_l);
88	}
89	unlock(l);
90	}
91	}
92
93	thread T_C_L_WB1 {};
94
95	void main( T_C_L_WB1 & this ) {
96	for (unsigned int i = 0; i < num_times; i++) {
97	lock(l);
98	if(counter(c_l) == 3 \|\| i == num_times - 1) {
99	notify_all(c_l);
100	}else{
101	wait(c_l,l);
102	}
103	unlock(l);
104	}
105	}
106
107	thread T_F_C_F_WS1 {};
108
109	void main( T_F_C_F_WS1 & this ) {
110	for (unsigned int i = 0; i < num_times; i++) {
111	lock(f);
112	if(empty(f_c_f) && i != num_times - 1) {
113	wait(f_c_f,f);
114	}else{
115	notify_one(f_c_f);
116	unlock(f);
117	}
118	}
119	}
120
121	thread T_C_O_WS1 {};
122
123	void main( T_C_O_WS1 & this ) {
124	for (unsigned int i = 0; i < num_times; i++) {
125	lock(o);
126	if(empty(c_o) && i != num_times - 1) {
127	wait(c_o,o);
128	}else{
129	notify_one(c_o);
130	}
131	unlock(o);
132	}
133	}
134
135	thread T_C_O_WB1 {};
136
137	void main( T_C_O_WB1 & this ) {
138	for (unsigned int i = 0; i < num_times; i++) {
139	lock(o);
140	if(counter(c_o) == 3 \|\| i == num_times - 1) {
141	notify_all(c_o);
142	}else{
143	wait(c_o,o);
144	}
145	unlock(o);
146	}
147	}
148
149	thread T_C_M_WS2 {};
150
151	void main( T_C_M_WS2 & this ) {
152	for (unsigned int i = 0; i < num_times; i++) {
153	lock(m);
154	lock(m);
155	lock(m);
156	if(empty(c_m) && i != num_times - 1) {
157	wait(c_m,m);
158	}else{
159	notify_one(c_m);
160	}
161	unlock(m);
162	unlock(m);
163	unlock(m);
164	}
165	}
166
167	thread T_C_O_WS2 {};
168
169	void main( T_C_O_WS2 & this ) {
170	for (unsigned int i = 0; i < num_times; i++) {
171	lock(o);
172	lock(o);
173	lock(o);
174	if(empty(c_o) && i != num_times - 1) {
175	wait(c_o,o);
176	}else{
177	notify_one(c_o);
178	}
179	unlock(o);
180	unlock(o);
181	unlock(o);
182	}
183	}
184
185	thread T_C_NLW {};
186
187	void main( T_C_NLW & this ) {
188	for (unsigned int i = 0; i < num_times; i++) {
189	wait(c_o);
190	}
191	}
192
193	thread T_C_NLS {};
194
195	void main( T_C_NLS & this ) {
196	for (unsigned int i = 0; i < num_times; i++) {
197	while (empty(c_o)) { }
198	notify_one(c_o);
199	}
200	}
201
202	thread T_C_S_WNF {};
203
204	void main( T_C_S_WNF & this ) {
205	for (unsigned int i = 0; i < num_times; i++) {
206	lock(s);
207	if(empty(c_s) && i != num_times - 1) {
208	wait(c_s, s, 10);
209	}else{
210	if(!empty(c_s)) assert(front(c_s) == 10);
211	notify_one(c_s);
212	}
213	unlock(s);
214	}
215	}
216
217	bool done = false;
218
219	thread T_C_NLWD {};
220
221	void main( T_C_NLWD & this ) {
222	done = false;
223	for (unsigned int i = 0; i < num_times/5; i++) {
224	if (i % 1000 == 0) printf("Iteration: %d\n", i);
225	wait(c_s, 1`ns);
226	}
227	done = true;
228	}
229
230	thread T_C_WDS {};
231
232	void main( T_C_WDS & this ) {
233	for (unsigned int i = 0; i < num_times; i++) {
234	while (empty(c_s) && !done) { }
235	notify_one(c_s);
236	sleep(1`ns);
237	if(done) break;
238	}
239	}
240
241	thread T_C_LWD {};
242
243	void main( T_C_LWD & this ) {
244	done = false;
245	for (unsigned int i = 0; i < num_times/5; i++) {
246	if (i % 1000 == 0) printf("Iteration: %d\n", i);
247	lock(s);
248	wait(c_s, s, 1`ns);
249	unlock(s);
250	}
251	done = true;
252	}
253
254	thread T_C_LWDS {};
255
256	void main( T_C_LWDS & this ) {
257	for (unsigned int i = 0; i < num_times; i++) {
258	while (empty(c_s) && !done) { }
259	lock(s);
260	notify_one(c_s);
261	unlock(s);
262	sleep(1`ns);
263	if(done) break;
264	}
265	}
266
267	int main() {
268	processor p[2];
269	printf("Start Test 1: multi acquisition lock and condition variable single wait/notify\n");
270	{
271	T_C_M_WS1 t1[2];
272	}
273	printf("Done Test 1\n");
274
275	printf("Start Test 2: multi acquisition lock and condition variable 3 wait/notify all\n");
276	{
277	T_C_M_WB1 t1[4];
278	}
279	printf("Done Test 2\n");
280
281	printf("Start Test 3: single acquisition lock and condition variable single wait/notify\n");
282	{
283	T_C_S_WS1 t1[2];
284	}
285	printf("Done Test 3\n");
286
287	printf("Start Test 4: single acquisition lock and condition variable 3 wait/notify all\n");
288	{
289	T_C_S_WB1 t1[4];
290	}
291	printf("Done Test 4\n");
292
293	printf("Start Test 5: owner lock and condition variable single wait/notify\n");
294	{
295	T_C_O_WS1 t1[2];
296	}
297	printf("Done Test 5\n");
298
299	printf("Start Test 6: owner lock and condition variable 3 wait/notify all\n");
300	{
301	T_C_O_WB1 t1[4];
302	}
303	printf("Done Test 6\n");
304
305	printf("Start Test 7: linear backoff lock and condition variable single wait/notify\n");
306	{
307	T_C_L_WS1 t1[2];
308	}
309	printf("Done Test 7\n");
310
311	printf("Start Test 8: linear backoff lock and condition variable 3 wait/notify all\n");
312	{
313	T_C_L_WB1 t1[4];
314	}
315	printf("Done Test 8\n");
316
317	printf("Start Test 9: multi acquisiton lock and condition variable multiple acquire and wait/notify\n");
318	{
319	T_C_M_WS2 t1[2];
320	}
321	printf("Done Test 9\n");
322
323	printf("Start Test 10: owner lock and condition variable multiple acquire and wait/notify\n");
324	{
325	T_C_O_WS2 t1[2];
326	}
327	printf("Done Test 10\n");
328
329	printf("Start Test 11: no lock condition variable wait/notify\n");
330	{
331	T_C_NLW t1;
332	T_C_NLS t2;
333	}
334	printf("Done Test 11\n");
335
336	printf("Start Test 12: locked condition variable wait/notify with front()\n");
337	{
338	T_C_S_WNF t1[2];
339	}
340	printf("Done Test 12\n");
341
342	printf("Start Test 13: fast block lock and fast cond var single wait/notify\n");
343	{
344	T_F_C_F_WS1 t1[2];
345	}
346	printf("Done Test 13\n");
347
348	}

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