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  3. com.esotericsoftware.kryo.io.OutputChunked

Java 类com.esotericsoftware.kryo.io.OutputChunked 实例源码

项目:EsperDist    文件:DeflateSerializer.java    
public void write (Kryo kryo, Output output, Object object) {
    OutputChunked outputChunked = new OutputChunked(output, 256);
    Deflater deflater = new Deflater(compressionLevel, noHeaders);
    try {
        DeflaterOutputStream deflaterStream = new DeflaterOutputStream(outputChunked, deflater);
        Output deflaterOutput = new Output(deflaterStream, 256);
        serializer.write(kryo, deflaterOutput, object);
        deflaterOutput.flush();
        deflaterStream.finish();
    } catch (IOException ex) {
        throw new KryoException(ex);
    } finally {
        deflater.end();
    }
    outputChunked.endChunks();
}
项目:EsperDist    文件:CompatibleFieldSerializer.java    
public void write (Kryo kryo, Output output, T object) {
    CachedField[] fields = getFields();
    ObjectMap context = kryo.getGraphContext();
    if (!context.containsKey(this)) {
        context.put(this, null);
        if (TRACE) trace("kryo", "Write " + fields.length + " field names.");
        output.writeVarInt(fields.length, true);
        for (int i = 0, n = fields.length; i < n; i++)
            output.writeString(fields[i].field.getName());
    }

    OutputChunked outputChunked = new OutputChunked(output, 1024);
    for (int i = 0, n = fields.length; i < n; i++) {
        fields[i].write(outputChunked, object);
        outputChunked.endChunks();
    }
}
项目:EsperDist    文件:CompatibleFieldSerializer.java    
public void write (Kryo kryo, Output output, T object) {
    CachedField[] fields = getFields();
    ObjectMap context = kryo.getGraphContext();
    if (!context.containsKey(this)) {
        context.put(this, null);
        if (TRACE) trace("kryo", "Write " + fields.length + " field names.");
        output.writeVarInt(fields.length, true);
        for (int i = 0, n = fields.length; i < n; i++)
            output.writeString(fields[i].field.getName());
    }

    OutputChunked outputChunked = new OutputChunked(output, 1024);
    for (int i = 0, n = fields.length; i < n; i++) {
        fields[i].write(outputChunked, object);
        outputChunked.endChunks();
    }
}
项目:JourneyPlanner    文件:DeflateSerializer.java    
public void write (Kryo kryo, Output output, Object object) {
    OutputChunked outputChunked = new OutputChunked(output, 256);
    Deflater deflater = new Deflater(compressionLevel, noHeaders);
    try {
        DeflaterOutputStream deflaterStream = new DeflaterOutputStream(outputChunked, deflater);
        Output deflaterOutput = new Output(deflaterStream, 256);
        serializer.write(kryo, deflaterOutput, object);
        deflaterOutput.flush();
        deflaterStream.finish();
    } catch (IOException ex) {
        throw new KryoException(ex);
    } finally {
        deflater.end();
    }
    outputChunked.endChunks();
}
项目:JourneyPlanner    文件:CompatibleFieldSerializer.java    
public void write (Kryo kryo, Output output, T object) {
    CachedField[] fields = getFields();
    ObjectMap context = kryo.getGraphContext();
    if (!context.containsKey(this)) {
        context.put(this, null);
        if (TRACE) trace("kryo", "Write " + fields.length + " field names.");
        output.writeVarInt(fields.length, true);
        for (int i = 0, n = fields.length; i < n; i++)
            output.writeString(fields[i].field.getName());
    }

    OutputChunked outputChunked = new OutputChunked(output, 1024);
    for (int i = 0, n = fields.length; i < n; i++) {
        fields[i].write(outputChunked, object);
        outputChunked.endChunks();
    }
}
项目:kryo-mavenized    文件:CompatibleFieldSerializer.java    
public void write (Kryo kryo, Output output, T object) {
    CachedField[] fields = getFields();
    ObjectMap context = kryo.getGraphContext();
    if (!context.containsKey(this)) {
        context.put(this, null);
        if (TRACE) trace("kryo", "Write " + fields.length + " field names.");
        output.writeVarInt(fields.length, true);
        for (int i = 0, n = fields.length; i < n; i++)
            output.writeString(fields[i].field.getName());
    }

    OutputChunked outputChunked = new OutputChunked(output, 1024);
    for (int i = 0, n = fields.length; i < n; i++) {
        fields[i].write(outputChunked, object);
        outputChunked.endChunks();
    }
}
项目:subzero    文件:KryoStrategy.java    
public void write(OutputStream out, T object) throws IOException {
    KryoContext kryoContext = KRYOS.get();
    OutputChunked output = kryoContext.getOutputChunked();
    output.setOutputStream(out);
    writeObject(kryoContext.getKryo(), output, object);
    output.endChunks();
    output.flush();
}
项目:EsperDist    文件:DeflateSerializer.java    
public void write (Kryo kryo, Output output, Object object) {
    Deflater deflater = new Deflater(compressionLevel, noHeaders);
    OutputChunked outputChunked = new OutputChunked(output, 256);
    DeflaterOutputStream deflaterStream = new DeflaterOutputStream(outputChunked, deflater);
    Output deflaterOutput = new Output(deflaterStream, 256);
    kryo.writeObject(deflaterOutput, object, serializer);
    deflaterOutput.flush();
    try {
        deflaterStream.finish();
    } catch (IOException ex) {
        throw new KryoException(ex);
    }
    outputChunked.endChunks();
}
项目:kryo-mavenized    文件:DeflateSerializer.java    
public void write (Kryo kryo, Output output, Object object) {
    Deflater deflater = new Deflater(compressionLevel, noHeaders);
    OutputChunked outputChunked = new OutputChunked(output, 256);
    DeflaterOutputStream deflaterStream = new DeflaterOutputStream(outputChunked, deflater);
    Output deflaterOutput = new Output(deflaterStream, 256);
    kryo.writeObject(deflaterOutput, object, serializer);
    deflaterOutput.flush();
    try {
        deflaterStream.finish();
    } catch (IOException ex) {
        throw new KryoException(ex);
    }
    outputChunked.endChunks();
}
项目:kryo-mavenized    文件:ChunkedTest.java    
public void testChunks () {
    Output output = new Output(512);
    output.writeInt(1234);
    OutputChunked outputChunked = new OutputChunked(output);
    outputChunked.writeInt(1);
    outputChunked.endChunks();
    outputChunked.writeInt(2);
    outputChunked.endChunks();
    outputChunked.writeInt(3);
    outputChunked.endChunks();
    outputChunked.writeInt(4);
    outputChunked.endChunks();
    outputChunked.writeInt(5);
    outputChunked.endChunks();
    output.writeInt(5678);
    output.close();

    Input input = new Input(output.getBuffer());
    assertEquals(1234, input.readInt());
    InputChunked inputChunked = new InputChunked(input);
    assertEquals(1, inputChunked.readInt());
    inputChunked.nextChunks();
    inputChunked.nextChunks(); // skip 3
    assertEquals(3, inputChunked.readInt());
    inputChunked.nextChunks();
    inputChunked.nextChunks(); // skip 4
    assertEquals(5, inputChunked.readInt());
    assertEquals(5678, input.readInt());
    input.close();
}
项目:subzero    文件:KryoStrategy.java    
protected KryoContext initialValue() {
    Kryo kryo = newKryoInstance();
    OutputChunked output = new OutputChunked(BUFFER_SIZE);
    InputChunked input = new InputChunked(BUFFER_SIZE);
    return new KryoContext(kryo, input, output);
}
项目:subzero    文件:KryoContext.java    
KryoContext(Kryo kryo, InputChunked inputChunked, OutputChunked outputChunked) {
    this.kryo = kryo;
    this.inputChunked = inputChunked;
    this.outputChunked = outputChunked;
}
项目:subzero    文件:KryoContext.java    
public OutputChunked getOutputChunked() {
    return outputChunked;
}
项目:geowave    文件:FeatureSerializationTest.java    
@Test
public void test()
        throws SchemaException {
    final Kryo kryo = new Kryo();

    kryo.register(
            SimpleFeatureImpl.class,
            new FeatureSerializer());

    final SimpleFeatureType schema = DataUtilities.createType(
            "testGeo",
            "location:Point:srid=4326,name:String");
    final List<AttributeDescriptor> descriptors = schema.getAttributeDescriptors();
    final Object[] defaults = new Object[descriptors.size()];
    int p = 0;
    for (final AttributeDescriptor descriptor : descriptors) {
        defaults[p++] = descriptor.getDefaultValue();
    }

    final SimpleFeature feature = SimpleFeatureBuilder.build(
            schema,
            defaults,
            UUID.randomUUID().toString());
    final GeometryFactory geoFactory = new GeometryFactory();

    feature.setAttribute(
            "location",
            geoFactory.createPoint(new Coordinate(
                    -45,
                    45)));
    final Output output = new OutputChunked();
    kryo.getSerializer(
            SimpleFeatureImpl.class).write(
            kryo,
            output,
            feature);
    final Input input = new InputChunked();
    input.setBuffer(output.getBuffer());
    final SimpleFeature f2 = (SimpleFeature) kryo.getSerializer(
            SimpleFeatureImpl.class).read(
            kryo,
            input,
            SimpleFeatureImpl.class);
    assertEquals(
            feature,
            f2);

}