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The DSI utilities are a mishmash of classes accumulated during the last twenty years in projects developed at the DSI (Dipartimento di Scienze dell'Informazione, i.e., Information Sciences Department), now DI (Dipartimento di Informatica, i.e., Informatics Department), of the Universita` degli Studi di Milano.

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package it.unimi.dsi.io;

/*
 * Copyright (C) 2014-2019 Sebastiano Vigna
 *
 *  This library is free software; you can redistribute it and/or modify it
 *  under the terms of the GNU Lesser General Public License as published by the Free
 *  Software Foundation; either version 3 of the License, or (at your option)
 *  any later version.
 *
 *  This library is distributed in the hope that it will be useful, but
 *  WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 *  or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public License
 *  for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public License
 *  along with this program; if not, see .
 *
 */

import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertEquals;
import it.unimi.dsi.fastutil.bytes.ByteArrayList;
import it.unimi.dsi.util.SplitMix64Random;

import java.io.File;
import java.io.IOException;
import java.util.ArrayList;

import org.junit.Ignore;
import org.junit.Test;


public class ByteDiskQueueTest {

	@Test
	public void testSingleEnqueueDequeue() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		final ByteDiskQueue q = ByteDiskQueue.createNew(queue, 128, true);
		q.enqueue((byte)1);
		assertEquals(1, q.dequeue());
		q.close();
	}

	@Test
	public void testSomeEnqueueDequeue() throws IOException {
		File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		ByteDiskQueue q = ByteDiskQueue.createNew(queue, 128, true);
		for(int s = 1; s < 1 << 12; s *= 2) {
			q.clear();
			for(int i = 0; i < s; i++) q.enqueue((byte)(i + 64));
			for(int i = 0; i < s; i++) assertEquals((byte)(i + 64), q.dequeue());
		}
		q.close();
	}

	@Test
	public void testSomeEnqueueIntDequeueInt() throws IOException {
		File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		ByteDiskQueue q = ByteDiskQueue.createNew(queue, 128, true);
		for(int s = 1; s < 1 << 20; s *= 2) {
			q.clear();
			SplitMix64Random random = new SplitMix64Random(0);
			for(int i = 0; i < s; i++) {
				q.enqueueInt(random.nextInt() & -1 >>> 1);
				q.enqueueInt(random.nextInt() & -1 >>> 16);
			}
			random.setSeed(0);
			for(int i = 0; i < s; i++) {
				assertEquals(random.nextInt() & -1 >>> 1, q.dequeueInt());
				assertEquals(random.nextInt() & -1 >>> 16, q.dequeueInt());
			}
		}
		q.close();

		queue.delete();
	}
	@Test
	public void testSingleArrayEnqueueDequeue() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		final ByteDiskQueue q = ByteDiskQueue.createNew(queue, 128, true);
		byte[] a = new byte[] { 1 };
		q.enqueue(a);
		byte [] b = new byte[1];
		q.dequeue(b);
		assertArrayEquals(a, b);
		q.close();
	}

	@Test
	public void testSomeArrayEnqueueDequeue() throws IOException {
		File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();

		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, true);
			for(int s = 1; s < 1 << 13; s *= 2) {
				q.clear();
				SplitMix64Random random = new SplitMix64Random(0);
				ArrayList arrays = new ArrayList<>();
				for(int i = 0; i < s; i++) {
					byte[] a = new byte[random.nextInt(3 * bufferSize / 2)];
					for(int j = a.length; j-- != 0;) a[j] = (byte)j;
					arrays.add(a);
				}
				for(int i = 0; i < s; i++) q.enqueue(arrays.get(i));
				for(int i = 0; i < s; i++) {
					final byte[] a = new byte[arrays.get(i).length];
					q.dequeue(a);
					assertArrayEquals(arrays.get(i), a);
				}
			}
			q.close();
		}
	}

	@SuppressWarnings("resource")
	@Test
	public void testQueue() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		int bufferSize = 64;
		ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize , true);
		final ByteArrayList l = new ByteArrayList();
		final SplitMix64Random random = new SplitMix64Random(0);
		final long start = System.currentTimeMillis();
		double threshold = .9;

		while(System.currentTimeMillis() - start < 30000) {
			assertEquals(l.size(), q.size64());
			switch(random.nextInt(7)) {
			case 0:
				// Invert queue tendency
				if (random.nextFloat() < .01) threshold = 1 - threshold;
				break;
			case 1:
				if (random.nextFloat() < threshold) {
					final byte nextByte = (byte)random.nextInt();
					q.enqueue(nextByte);
					l.add(nextByte);
				}
				else {
					assertEquals(Boolean.valueOf(q.isEmpty()), Boolean.valueOf(l.isEmpty()));
					if (! q.isEmpty()) assertEquals(q.dequeue(), l.removeByte(0));
				}
				break;
			case 2:
				if (random.nextFloat() < threshold) {
					final byte[] a = new byte[random.nextInt(256)];
					for(int i = 0; i < a.length; i++) {
						a[i] = (byte)i;
						l.add((byte)i);
					}
					q.enqueue(a);
				}
				else {
					final byte[] a = new byte[(int)Math.min(q.size64(), random.nextInt(256))];
					q.dequeue(a);
					for(int i = 0; i < a.length; i++) assertEquals(a[i], l.removeByte(0));
				}
				break;
			case 3:
				if (random.nextFloat() < .001) {
					q.clear();
					l.clear();
				}
				else if (random.nextFloat() < .01) {
					q.suspend();
				}
				else if (random.nextFloat() < .01) {
					q.trim();
				}
				break;
			case 4:
				q.suspend();
				break;
			case 5:
				if (random.nextFloat() < 0.01) q.enlargeBuffer(bufferSize = Math.min(bufferSize + random.nextInt(bufferSize), 1024 * 1024));
				break;
			case 6:
				if (random.nextFloat() < 0.01) {
					q.freeze();
					q = ByteDiskQueue.createFromFile(queue, bufferSize, true);
				}
				break;
			}
		}

		q.close();
		new File("testdiskqueue.serialised").delete();
	}

	@Test
	public void testDequeueHoleBeforeStart() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, false);
			q.enqueue((byte)1);
			// Move start to the end
			for(int i = bufferSize -2; i-- != 0;) {
				q.enqueue((byte)1);
				assertEquals(1, q.dequeue());
			}
			for(int i = 2 * bufferSize; i-- != 0;) q.enqueue((byte)i);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}

	}

	@Test
	public void testDumpTailHoleAfterEnd() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, false);
			q.enqueue((byte)1);
			q.enqueue((byte)1);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) q.enqueue((byte)i);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}
	}

	@Test
	public void testEnlarge() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		// start < end, no hole
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, false);
			q.enlargeBuffer(bufferSize); // To increase coverage
			q.enlargeBuffer(bufferSize * 2); // To increase coverage
			q.enlargeBuffer(bufferSize); // To increase coverage
			q.enqueue((byte)1);
			q.enqueue((byte)1);
			assertEquals(1, q.dequeue());
			for(int i = bufferSize / 2; i-- != 0;) q.enqueue((byte)i);
			q.enlargeBuffer(bufferSize * 2);
			assertEquals(1, q.dequeue());
			for(int i = bufferSize / 2; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}

		// start > end, no hole
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, false);
			q.enqueue((byte)1);
			// Move start to the end
			for(int i = bufferSize -2; i-- != 0;) {
				q.enqueue((byte)1);
				assertEquals(1, q.dequeue());
			}
			for(int i = bufferSize / 2; i-- != 0;) q.enqueue((byte)i);
			q.enlargeBuffer(bufferSize * 2);
			assertEquals(1, q.dequeue());
			for(int i = bufferSize / 2; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}

		// start < end, hole
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, true);
			q.enqueue((byte)1);
			q.enqueue((byte)1);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) q.enqueue((byte)i);
			q.enlargeBuffer(bufferSize * 2);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}

		// start > end, hole < start
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, true);
			q.enqueue((byte)1);
			// Move start to the end
			for(int i = bufferSize - 2; i-- != 0;) {
				q.enqueue((byte)1);
				assertEquals(1, q.dequeue());
			}
			for(int i = 2 * bufferSize; i-- != 0;) q.enqueue((byte)i);
			q.enlargeBuffer(bufferSize * 2);
			assertEquals(1, q.dequeue());
			for(int i = 2 * bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}

		// start > end, hole >= start
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			final ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, true);
			q.enqueue((byte)1);
			// Move start to the end
			for(int i = bufferSize / 2 - 1; i-- != 0;) {
				q.enqueue((byte)1);
				assertEquals(1, q.dequeue());
			}
			for(int i = bufferSize; i-- != 0;) q.enqueue((byte)i);
			q.enlargeBuffer(bufferSize * 2);
			assertEquals(1, q.dequeue());
			for(int i = bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}
}

	@Test
	public void testFreezeHoleEqualsEnd() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		for(int bufferSize = 8; bufferSize < 256; bufferSize *=2) {
			ByteDiskQueue q = ByteDiskQueue.createNew(queue, bufferSize, false);
			for(int i = 2 * bufferSize; i-- != 0;) q.enqueue((byte)i);
			q.freeze();
			q = ByteDiskQueue.createFromFile(queue, bufferSize, false);
			for(int i = 2 * bufferSize; i-- != 0;) assertEquals((byte)i, q.dequeue());
			q.close();
		}
	}


	@Ignore
	@Test
	public void testLarge() throws IOException {
		final File queue = File.createTempFile(this.getClass().getName(), ".queue");
		queue.deleteOnExit();
		final ByteDiskQueue q = ByteDiskQueue.createNew(queue, 128, true);
		final SplitMix64Random random = new SplitMix64Random(0);

		final long n = 3000000005L;
		for(long i = n; i -- != 0;) q.enqueue((byte)random.nextInt(4));
		assertEquals(n, q.size64());

		final SplitMix64Random random2 = new SplitMix64Random(0);
		for(long i = n; i -- != 0;) assertEquals((byte)random2.nextInt(4), q.dequeue());

		q.close();
	}

}




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