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  3. org.apache.hadoop.io.compress.zlib.BuiltInZlibDeflater

Java 类org.apache.hadoop.io.compress.zlib.BuiltInZlibDeflater 实例源码

项目:hadoop-oss    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop-oss    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    GenericTestUtils.assertExceptionContains(
        "testCompressorDecompressor error !!!", ex);
  }
}
项目:hadoop    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:aliyun-oss-hadoop-fs    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:aliyun-oss-hadoop-fs    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:big-c    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:big-c    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:hadoop-2.6.0-cdh5.4.3    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop-2.6.0-cdh5.4.3    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:hadoop-plus    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop-plus    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:hops    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hops    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    GenericTestUtils.assertExceptionContains(
        "testCompressorDecompressor error !!!", ex);
  }
}
项目:hadoop-TCP    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop-TCP    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:hardfs    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hardfs    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:hadoop-on-lustre2    文件:CompressDecompressTester.java    
/**
 * Method for compressor availability check
 */
private static <T extends Compressor, E extends Decompressor> boolean isAvailable(TesterPair<T, E> pair) {
  Compressor compressor = pair.compressor;

  if (compressor.getClass().isAssignableFrom(Lz4Compressor.class)
          && (NativeCodeLoader.isNativeCodeLoaded()))
    return true;

  else if (compressor.getClass().isAssignableFrom(BuiltInZlibDeflater.class)
          && NativeCodeLoader.isNativeCodeLoaded())
    return true;

  else if (compressor.getClass().isAssignableFrom(ZlibCompressor.class)) {
    return ZlibFactory.isNativeZlibLoaded(new Configuration());
  }              
  else if (compressor.getClass().isAssignableFrom(SnappyCompressor.class)
          && isNativeSnappyLoadable())
    return true;

  return false;      
}
项目:hadoop-on-lustre2    文件:TestCompressorDecompressor.java    
@Test
public void testCompressorDecompressor() {
  // no more for this data
  int SIZE = 44 * 1024;

  byte[] rawData = generate(SIZE);
  try {
    CompressDecompressTester.of(rawData)
        .withCompressDecompressPair(new SnappyCompressor(), new SnappyDecompressor())
        .withCompressDecompressPair(new Lz4Compressor(), new Lz4Decompressor())
        .withCompressDecompressPair(new BuiltInZlibDeflater(), new BuiltInZlibInflater())
        .withTestCases(ImmutableSet.of(CompressionTestStrategy.COMPRESS_DECOMPRESS_SINGLE_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_BLOCK,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_ERRORS,
                    CompressionTestStrategy.COMPRESS_DECOMPRESS_WITH_EMPTY_STREAM))
        .test();

  } catch (Exception ex) {
    fail("testCompressorDecompressor error !!!" + ex);
  }
}
项目:aliyun-oss-hadoop-fs    文件:TestCodec.java    
private void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  if (useNative) {
    assumeTrue(ZlibFactory.isNativeZlibLoaded(conf));
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:big-c    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-2.6.0-cdh5.4.3    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-plus    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hops    文件:TestCodec.java    
private void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String fileName = new Path(GenericTestUtils.getTempPath(
      "testGzipCodecWrite.txt.gz")).toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-TCP    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-on-lustre    文件:TestCodec.java    
public void testGzipCodecWrite() throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Don't use native libs for this test.
  Configuration conf = new Configuration();
  conf.setBoolean("hadoop.native.lib", false);
  assertFalse("ZlibFactory is using native libs against request",
      ZlibFactory.isNativeZlibLoaded(conf));

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
      zlibCompressor instanceof BuiltInZlibDeflater);
  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hardfs    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-on-lustre2    文件:TestCodec.java    
public void testGzipCodecWrite(boolean useNative) throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Use native libs per the parameter
  Configuration conf = new Configuration();
  conf.setBoolean(CommonConfigurationKeys.IO_NATIVE_LIB_AVAILABLE_KEY, useNative);
  if (useNative) {
    if (!ZlibFactory.isNativeZlibLoaded(conf)) {
      LOG.warn("testGzipCodecWrite skipped: native libs not loaded");
      return;
    }
  } else {
    assertFalse("ZlibFactory is using native libs against request",
        ZlibFactory.isNativeZlibLoaded(conf));
  }

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
        useNative ? zlibCompressor instanceof ZlibCompressor
                  : zlibCompressor instanceof BuiltInZlibDeflater);

  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", 
             codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hadoop-0.20    文件:TestCodec.java    
public void testGzipCodecWrite() throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Don't use native libs for this test.
  Configuration conf = new Configuration();
  conf.setBoolean("hadoop.native.lib", false);
  assertFalse("ZlibFactory is using native libs against request",
      ZlibFactory.isNativeZlibLoaded(conf));

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
      zlibCompressor instanceof BuiltInZlibDeflater);
  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hortonworks-extension    文件:TestCodec.java    
public void testGzipCodecWrite() throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Don't use native libs for this test.
  Configuration conf = new Configuration();
  conf.setBoolean("hadoop.native.lib", false);
  assertFalse("ZlibFactory is using native libs against request",
      ZlibFactory.isNativeZlibLoaded(conf));

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
      zlibCompressor instanceof BuiltInZlibDeflater);
  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}
项目:hortonworks-extension    文件:TestCodec.java    
public void testGzipCodecWrite() throws IOException {
  // Create a gzipped file using a compressor from the CodecPool,
  // and try to read it back via the regular GZIPInputStream.

  // Don't use native libs for this test.
  Configuration conf = new Configuration();
  conf.setBoolean("hadoop.native.lib", false);
  assertFalse("ZlibFactory is using native libs against request",
      ZlibFactory.isNativeZlibLoaded(conf));

  // Ensure that the CodecPool has a BuiltInZlibDeflater in it.
  Compressor zlibCompressor = ZlibFactory.getZlibCompressor(conf);
  assertNotNull("zlibCompressor is null!", zlibCompressor);
  assertTrue("ZlibFactory returned unexpected deflator",
      zlibCompressor instanceof BuiltInZlibDeflater);
  CodecPool.returnCompressor(zlibCompressor);

  // Create a GZIP text file via the Compressor interface.
  CompressionCodecFactory ccf = new CompressionCodecFactory(conf);
  CompressionCodec codec = ccf.getCodec(new Path("foo.gz"));
  assertTrue("Codec for .gz file is not GzipCodec", codec instanceof GzipCodec);

  final String msg = "This is the message we are going to compress.";
  final String tmpDir = System.getProperty("test.build.data", "/tmp/");
  final String fileName = new Path(new Path(tmpDir),
      "testGzipCodecWrite.txt.gz").toString();

  BufferedWriter w = null;
  Compressor gzipCompressor = CodecPool.getCompressor(codec);
  if (null != gzipCompressor) {
    // If it gives us back a Compressor, we should be able to use this
    // to write files we can then read back with Java's gzip tools.
    OutputStream os = new CompressorStream(new FileOutputStream(fileName),
        gzipCompressor);
    w = new BufferedWriter(new OutputStreamWriter(os));
    w.write(msg);
    w.close();
    CodecPool.returnCompressor(gzipCompressor);

    verifyGzipFile(fileName, msg);
  }

  // Create a gzip text file via codec.getOutputStream().
  w = new BufferedWriter(new OutputStreamWriter(
      codec.createOutputStream(new FileOutputStream(fileName))));
  w.write(msg);
  w.close();

  verifyGzipFile(fileName, msg);
}