Source Code of eu.stratosphere.pact.runtime.io.ChannelViewsTest

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 * Copyright (C) 2010-2013 by the Stratosphere project (http://stratosphere.eu)
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on
 * an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
 * specific language governing permissions and limitations under the License.
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package eu.stratosphere.pact.runtime.io;

import java.io.EOFException;
import java.util.List;

import junit.framework.Assert;

import org.junit.After;
import org.junit.Before;
import org.junit.Test;

import eu.stratosphere.core.memory.MemorySegment;
import eu.stratosphere.nephele.services.iomanager.BlockChannelReader;
import eu.stratosphere.nephele.services.iomanager.BlockChannelWriter;
import eu.stratosphere.nephele.services.iomanager.Channel;
import eu.stratosphere.nephele.services.iomanager.ChannelReaderInputView;
import eu.stratosphere.nephele.services.iomanager.ChannelWriterOutputView;
import eu.stratosphere.nephele.services.iomanager.IOManager;
import eu.stratosphere.nephele.services.memorymanager.MemoryManager;
import eu.stratosphere.nephele.services.memorymanager.spi.DefaultMemoryManager;
import eu.stratosphere.nephele.template.AbstractTask;
import eu.stratosphere.pact.runtime.test.util.DummyInvokable;
import eu.stratosphere.pact.runtime.test.util.TestData;
import eu.stratosphere.pact.runtime.test.util.TestData.Generator.KeyMode;
import eu.stratosphere.pact.runtime.test.util.TestData.Generator.ValueMode;
import eu.stratosphere.pact.runtime.test.util.TestData.Key;
import eu.stratosphere.pact.runtime.test.util.TestData.Value;
import eu.stratosphere.types.Record;


/**
 */
public class ChannelViewsTest
{
  private static final long SEED = 649180756312423613L;

  private static final int KEY_MAX = Integer.MAX_VALUE;

  private static final int VALUE_SHORT_LENGTH = 114;

  private static final int VALUE_LONG_LENGTH = 112 * 1024;

  private static final int NUM_PAIRS_SHORT = 1000000;

  private static final int NUM_PAIRS_LONG = 3000;

  private static final int MEMORY_SIZE = 1024 * 1024;

  private static final int MEMORY_PAGE_SIZE = 64 * 1024;

  private static final int NUM_MEMORY_SEGMENTS = 3;

  private final AbstractTask parentTask = new DummyInvokable();

  private IOManager ioManager;

  private MemoryManager memoryManager;

  // --------------------------------------------------------------------------------------------

  @Before
  public void beforeTest() {
    this.memoryManager = new DefaultMemoryManager(MEMORY_SIZE, MEMORY_PAGE_SIZE);
    this.ioManager = new IOManager();
  }

  @After
  public void afterTest() {
    this.ioManager.shutdown();
    if (!this.ioManager.isProperlyShutDown()) {
      Assert.fail("I/O Manager was not properly shut down.");
    }

    if (memoryManager != null) {
      Assert.assertTrue("Memory leak: not all segments have been returned to the memory manager.",
        this.memoryManager.verifyEmpty());
      this.memoryManager.shutdown();
      this.memoryManager = null;
    }
  }

  // --------------------------------------------------------------------------------------------

  @Test
  public void testWriteReadSmallRecords() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
    generator.reset();

    // read and re-generate all records and compare them
    final Record readRec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      readRec.read(inView);

      Key k1 = rec.getField(0, Key.class);
      Value v1 = rec.getField(1, Value.class);

      Key k2 = readRec.getField(0, Key.class);
      Value v2 = readRec.getField(1, Value.class);

      Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }

  @Test
  public void testWriteAndReadLongRecords() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_LONG_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_LONG; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
    generator.reset();

    // read and re-generate all records and compare them
    final Record readRec = new Record();
    for (int i = 0; i < NUM_PAIRS_LONG; i++) {
      generator.next(rec);
      readRec.read(inView);
      final Key k1 = rec.getField(0, Key.class);
      final Value v1 = rec.getField(1, Value.class);
      final Key k2 = readRec.getField(0, Key.class);
      final Value v2 = readRec.getField(1, Value.class);
      Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }

  @Test
  public void testReadTooMany() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
    generator.reset();

    // read and re-generate all records and compare them
    try {
      final Record readRec = new Record();
      for (int i = 0; i < NUM_PAIRS_SHORT + 1; i++) {
        generator.next(rec);
        readRec.read(inView);
        final Key k1 = rec.getField(0, Key.class);
        final Value v1 = rec.getField(1, Value.class);
        final Key k2 = readRec.getField(0, Key.class);
        final Value v2 = readRec.getField(1, Value.class);
        Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
      }
      Assert.fail("Expected an EOFException which did not occur.");
    }
    catch (EOFException eofex) {
      // expected
    }
    catch (Throwable t) {
      // unexpected
      Assert.fail("Unexpected Exception: " + t.getMessage());
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }

  @Test
  public void testReadWithoutKnownBlockCount() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, true);
    generator.reset();

    // read and re-generate all records and cmpare them
    final Record readRec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      readRec.read(inView);

      Key k1 = rec.getField(0, Key.class);
      Value v1 = rec.getField(1, Value.class);

      Key k2 = readRec.getField(0, Key.class);
      Value v2 = readRec.getField(1, Value.class);

      Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }

  @Test
  public void testWriteReadOneBufferOnly() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, 1);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, 1);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
    generator.reset();

    // read and re-generate all records and compare them
    final Record readRec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      readRec.read(inView);

      Key k1 = rec.getField(0, Key.class);
      Value v1 = rec.getField(1, Value.class);

      Key k2 = readRec.getField(0, Key.class);
      Value v2 = readRec.getField(1, Value.class);

      Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }

  @Test
  public void testWriteReadNotAll() throws Exception
  {
    final TestData.Generator generator = new TestData.Generator(SEED, KEY_MAX, VALUE_SHORT_LENGTH, KeyMode.RANDOM, ValueMode.RANDOM_LENGTH);
    final Channel.ID channel = this.ioManager.createChannel();

    // create the writer output view
    List<MemorySegment> memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelWriter writer = this.ioManager.createBlockChannelWriter(channel);
    final ChannelWriterOutputView outView = new ChannelWriterOutputView(writer, memory, MEMORY_PAGE_SIZE);

    // write a number of pairs
    final Record rec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT; i++) {
      generator.next(rec);
      rec.write(outView);
    }
    this.memoryManager.release(outView.close());

    // create the reader input view
    memory = this.memoryManager.allocatePages(this.parentTask, NUM_MEMORY_SEGMENTS);
    final BlockChannelReader reader = this.ioManager.createBlockChannelReader(channel);
    final ChannelReaderInputView inView = new ChannelReaderInputView(reader, memory, outView.getBlockCount(), true);
    generator.reset();

    // read and re-generate all records and compare them
    final Record readRec = new Record();
    for (int i = 0; i < NUM_PAIRS_SHORT / 2; i++) {
      generator.next(rec);
      readRec.read(inView);

      Key k1 = rec.getField(0, Key.class);
      Value v1 = rec.getField(1, Value.class);

      Key k2 = readRec.getField(0, Key.class);
      Value v2 = readRec.getField(1, Value.class);

      Assert.assertTrue("The re-generated and the read record do not match.", k1.equals(k2) && v1.equals(v2));
    }

    this.memoryManager.release(inView.close());
    reader.deleteChannel();
  }
}