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root/jsr166/jsr166/src/test/loops/ProducerConsumerLoops.java

Comparing jsr166/src/test/loops/ProducerConsumerLoops.java (file contents):
Revision 1.2 by dl, Mon Feb 19 00:46:06 2007 UTC vs.
Revision 1.8 by jsr166, Thu Dec 18 18:13:06 2014 UTC

#	Line 1 | Line 1
1		/*
2		* Written by Doug Lea with assistance from members of JCP JSR-166
3		* Expert Group and released to the public domain, as explained at
4	<	* http://creativecommons.org/licenses/publicdomain
4	>	* http://creativecommons.org/publicdomain/zero/1.0/
5		*/
6
7	+	import java.util.*;
8		import java.util.concurrent.*;
9	+	//import jsr166y.*;
10
11		public class ProducerConsumerLoops {
12	<	static final int CAPACITY =      100;
13	<
12	>	static final int NCPUS = Runtime.getRuntime().availableProcessors();
13	>	static final Random rng = new Random();
14		static final ExecutorService pool = Executors.newCachedThreadPool();
15		static boolean print = false;
16		static int producerSum;
#	Line 26 | Line 28 | public class ProducerConsumerLoops {
28		throw new Error("CheckSum mismatch");
29		}
30
31	+	// Number of elements passed around -- must be power of two
32	+	// Elements are reused from pool to minimize alloc impact
33	+	static final int POOL_SIZE = 1 << 7;
34	+	static final int POOL_MASK = POOL_SIZE-1;
35	+	static final Integer[] intPool = new Integer[POOL_SIZE];
36	+	static {
37	+	for (int i = 0; i < POOL_SIZE; ++i)
38	+	intPool[i] = Integer.valueOf(i);
39	+	}
40	+
41	+	// Number of puts by producers or takes by consumers
42	+	static final int ITERS = 1 << 20;
43	+
44	+	// max lag between a producer and consumer to avoid
45	+	// this becoming a GC test rather than queue test.
46	+	// Used only per-pair to lessen impact on queue sync
47	+	static final int LAG_MASK = (1 << 12) - 1;
48	+
49		public static void main(String[] args) throws Exception {
50	<	int maxPairs = 100;
31	<	int iters = 100000;
50	>	int maxPairs = NCPUS * 3 / 2;
51
52	<	if (args.length > 0)
52	>	if (args.length > 0)
53		maxPairs = Integer.parseInt(args[0]);
54
55	<	print = false;
37	<	System.out.println("Warmup...");
38	<	oneTest(1, 10000);
39	<	Thread.sleep(100);
40	<	oneTest(2, 10000);
41	<	Thread.sleep(100);
42	<	oneTest(2, 10000);
43	<	Thread.sleep(100);
55	>	warmup();
56		print = true;
57	<
46	<	int k = 1;
47	<	for (int i = 1; i <= maxPairs;) {
57	>	for (int k = 1, i = 1; i <= maxPairs;) {
58		System.out.println("Pairs:" + i);
59	<	oneTest(i, iters);
50	<	Thread.sleep(100);
59	>	oneTest(i, ITERS);
60		if (i == k) {
61		k = i << 1;
62		i = i + (i >>> 1);
63	<	}
64	<	else
63	>	}
64	>	else
65		i = k;
66		}
67		pool.shutdown();
68	<	}
68	>	}
69
70	<	static void oneTest(int pairs, int iters) throws Exception {
71	<	int fairIters = iters/20;
70	>	static void warmup() throws Exception {
71	>	print = false;
72	>	System.out.print("Warmup ");
73	>	int it = 2000;
74	>	for (int j = 5; j > 0; --j) {
75	>	oneTest(j, it);
76	>	System.out.print(".");
77	>	it += 1000;
78	>	}
79	>	System.gc();
80	>	it = 20000;
81	>	for (int j = 5; j > 0; --j) {
82	>	oneTest(j, it);
83	>	System.out.print(".");
84	>	it += 10000;
85	>	}
86	>	System.gc();
87	>	System.out.println();
88	>	}
89	>
90	>	static void oneTest(int n, int iters) throws Exception {
91	>	int fairIters = iters/16;
92	>
93	>	Thread.sleep(100); // System.gc();
94		if (print)
95	<	System.out.print("ArrayBlockingQueue      ");
96	<	oneRun(new ArrayBlockingQueue<Integer>(CAPACITY), pairs, iters);
95	>	System.out.print("LinkedTransferQueue     ");
96	>	oneRun(new LinkedTransferQueue<Integer>(), n, iters);
97
98	+	Thread.sleep(100); // System.gc();
99		if (print)
100		System.out.print("LinkedBlockingQueue     ");
101	<	oneRun(new LinkedBlockingQueue<Integer>(CAPACITY), pairs, iters);
101	>	oneRun(new LinkedBlockingQueue<Integer>(), n, iters);
102	>
103	>	Thread.sleep(100); // System.gc();
104	>	if (print)
105	>	System.out.print("LinkedBlockingQueue(cap)");
106	>	oneRun(new LinkedBlockingQueue<Integer>(POOL_SIZE), n, iters);
107
108	+	Thread.sleep(100); // System.gc();
109		if (print)
110		System.out.print("LinkedBlockingDeque     ");
111	<	oneRun(new LinkedBlockingDeque<Integer>(CAPACITY), pairs, iters);
111	>	oneRun(new LinkedBlockingDeque<Integer>(), n, iters);
112
113	+	Thread.sleep(100); // System.gc();
114	+	if (print)
115	+	System.out.print("ArrayBlockingQueue      ");
116	+	oneRun(new ArrayBlockingQueue<Integer>(POOL_SIZE), n, iters);
117	+
118	+	Thread.sleep(100); // System.gc();
119		if (print)
120		System.out.print("SynchronousQueue        ");
121	<	oneRun(new SynchronousQueue<Integer>(), pairs, iters);
121	>	oneRun(new SynchronousQueue<Integer>(), n, iters);
122	>
123
124	+	Thread.sleep(100); // System.gc();
125		if (print)
126		System.out.print("SynchronousQueue(fair)  ");
127	<	oneRun(new SynchronousQueue<Integer>(true), pairs, fairIters);
127	>	oneRun(new SynchronousQueue<Integer>(true), n, iters);
128	>
129	>	Thread.sleep(100); // System.gc();
130	>	if (print)
131	>	System.out.print("LinkedTransferQueue(xfer)");
132	>	oneRun(new LTQasSQ<Integer>(), n, iters);
133	>
134	>	Thread.sleep(100); // System.gc();
135	>	if (print)
136	>	System.out.print("LinkedTransferQueue(half)");
137	>	oneRun(new HalfSyncLTQ<Integer>(), n, iters);
138
139	+	Thread.sleep(100); // System.gc();
140		if (print)
141		System.out.print("PriorityBlockingQueue   ");
142	<	oneRun(new PriorityBlockingQueue<Integer>(), pairs, fairIters);
142	>	oneRun(new PriorityBlockingQueue<Integer>(), n, fairIters);
143
144	+	Thread.sleep(100); // System.gc();
145		if (print)
146		System.out.print("ArrayBlockingQueue(fair)");
147	<	oneRun(new ArrayBlockingQueue<Integer>(CAPACITY, true), pairs, fairIters);
147	>	oneRun(new ArrayBlockingQueue<Integer>(POOL_SIZE, true), n, fairIters);
148
149		}
150	<
151	<	static abstract class Stage implements Runnable {
150	>
151	>	abstract static class Stage implements Runnable {
152		final int iters;
153		final BlockingQueue<Integer> queue;
154		final CyclicBarrier barrier;
155	<	Stage (BlockingQueue<Integer> q, CyclicBarrier b, int iters) {
156	<	queue = q;
155	>	final Phaser lagPhaser;
156	>	Stage(BlockingQueue<Integer> q, CyclicBarrier b, Phaser s, int iters) {
157	>	queue = q;
158		barrier = b;
159	+	lagPhaser = s;
160		this.iters = iters;
161		}
162		}
163
164		static class Producer extends Stage {
165	<	Producer(BlockingQueue<Integer> q, CyclicBarrier b, int iters) {
166	<	super(q, b, iters);
165	>	Producer(BlockingQueue<Integer> q, CyclicBarrier b, Phaser s,
166	>	int iters) {
167	>	super(q, b, s, iters);
168		}
169
170		public void run() {
171		try {
172		barrier.await();
173	<	int s = 0;
174	<	int l = hashCode();
173	>	int ps = 0;
174	>	int r = hashCode();
175		for (int i = 0; i < iters; ++i) {
176	<	l = LoopHelpers.compute4(l);
177	<	queue.put(new Integer(l));
178	<	s += LoopHelpers.compute4(l);
176	>	r = LoopHelpers.compute7(r);
177	>	Integer v = intPool[r & POOL_MASK];
178	>	int k = v.intValue();
179	>	queue.put(v);
180	>	ps += k;
181	>	if ((i & LAG_MASK) == LAG_MASK)
182	>	lagPhaser.arriveAndAwaitAdvance();
183		}
184	<	addProducerSum(s);
184	>	addProducerSum(ps);
185		barrier.await();
186		}
187	<	catch (Exception ie) {
188	<	ie.printStackTrace();
189	<	return;
187	>	catch (Exception ie) {
188	>	ie.printStackTrace();
189	>	return;
190		}
191		}
192		}
193
194		static class Consumer extends Stage {
195	<	Consumer(BlockingQueue<Integer> q, CyclicBarrier b, int iters) {
196	<	super(q, b, iters);
195	>	Consumer(BlockingQueue<Integer> q, CyclicBarrier b, Phaser s,
196	>	int iters) {
197	>	super(q, b, s, iters);
198		}
199
200		public void run() {
201		try {
202		barrier.await();
203	<	int l = 0;
138	<	int s = 0;
203	>	int cs = 0;
204		for (int i = 0; i < iters; ++i) {
205	<	l = LoopHelpers.compute4(queue.take().intValue());
206	<	s += l;
205	>	Integer v = queue.take();
206	>	int k = v.intValue();
207	>	cs += k;
208	>	if ((i & LAG_MASK) == LAG_MASK)
209	>	lagPhaser.arriveAndAwaitAdvance();
210		}
211	<	addConsumerSum(s);
211	>	addConsumerSum(cs);
212		barrier.await();
213		}
214	<	catch (Exception ie) {
215	<	ie.printStackTrace();
216	<	return;
214	>	catch (Exception ie) {
215	>	ie.printStackTrace();
216	>	return;
217		}
218		}
219
220		}
221
222	<	static void oneRun(BlockingQueue<Integer> q, int npairs, int iters) throws Exception {
222	>	static void oneRun(BlockingQueue<Integer> q, int n, int iters) throws Exception {
223		LoopHelpers.BarrierTimer timer = new LoopHelpers.BarrierTimer();
224	<	CyclicBarrier barrier = new CyclicBarrier(npairs * 2 + 1, timer);
225	<	for (int i = 0; i < npairs; ++i) {
226	<	pool.execute(new Producer(q, barrier, iters));
227	<	pool.execute(new Consumer(q, barrier, iters));
224	>	CyclicBarrier barrier = new CyclicBarrier(n * 2 + 1, timer);
225	>	for (int i = 0; i < n; ++i) {
226	>	Phaser s = new Phaser(2);
227	>	pool.execute(new Producer(q, barrier, s, iters));
228	>	pool.execute(new Consumer(q, barrier, s, iters));
229		}
230		barrier.await();
231		barrier.await();
232		long time = timer.getTime();
233		checkSum();
234		if (print)
235	<	System.out.println("\t: " + LoopHelpers.rightJustify(time / (iters * npairs)) + " ns per transfer");
235	>	System.out.println("\t: " + LoopHelpers.rightJustify(time / (iters * n)) + " ns per transfer");
236	>	}
237	>
238	>	static final class LTQasSQ<T> extends LinkedTransferQueue<T> {
239	>	LTQasSQ() { super(); }
240	>	public void put(T x) {
241	>	try { super.transfer(x);
242	>	} catch (InterruptedException ex) { throw new Error(); }
243	>	}
244		}
245
246	+	static final class HalfSyncLTQ<T> extends LinkedTransferQueue<T> {
247	+	int calls;
248	+	HalfSyncLTQ() { super(); }
249	+	public void put(T x) {
250	+	if ((++calls & 1) == 0)
251	+	super.put(x);
252	+	else {
253	+	try { super.transfer(x);
254	+	} catch (InterruptedException ex) {
255	+	throw new Error();
256	+	}
257	+	}
258	+	}
259	+	}
260		}

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