我正在使用double值数组编码复杂的Map结构。 高精度并不重要,输出大小也是如此,所以我试图使用提供的DecimalFormat来获取JSON工具(在本例中为Jackson)来序列化double值。
以下是我最好的镜头,但由于对象映射器未选择序列化程序对数组进行编码,因此失败:
class MyTest
{
public class MyDoubleSerializer extends JsonSerializer<double[]>
{
public void serialize(double[] value, JsonGenerator jgen, SerializerProvider provider) throws IOException, JsonProcessingException
{
for (double d : value)
{
jgen.writeStartArray();
jgen.writeRaw( df.format( d ) );
jgen.writeEndArray();
}
}
}
@Test
public void test1() throws Exception
{
ObjectMapper mapper = new ObjectMapper();
SimpleModule module = new SimpleModule("MyModule", new Version(0, 1, 0, "alpha"));
module.addSerializer(double[].class, new MyDoubleSerializer());
mapper.registerModule(module);
Map<String, Object> data = new HashMap<String, Object>();
double[] doubleList = { 1.1111111111D, (double) (System.currentTimeMillis()) };
data.put( "test", doubleList );
System.out.print( mapper.writeValueAsString( data ));
}
}
输出结果为:
{ “测试”:[1.1111111111,1.315143204964E12}
我在寻找:
{“test”:[1.32E12,1.11E0]}
有什么想法吗?
另外,我不喜欢生成一个String并且写入是原始的 - 在那里我可以将一个StringBuffer输入到DecimalFormat中来执行此操作吗?
由于
答案 0 :(得分:4)
通过借用Double的内置序列化程序来管理解决此问题。
这有点像黑客,因为writeRaw()不关心上下文并且不在数组成员之间编写逗号,所以我正在编译Json编写器并调用它的writeValue()方法来处理这个
奇怪的是,这不适用于问题中的示例(同样不会被称为序列化这些双打),但是对我的真实世界对象起作用更为复杂。
...享受
public class JacksonDoubleArrayTest
{
private DecimalFormat df = new DecimalFormat( "0.##E0" );
public class MyDoubleSerializer extends org.codehaus.jackson.map.ser.ScalarSerializerBase<Double>
{
protected MyDoubleSerializer()
{
super( Double.class );
}
@Override
public final void serializeWithType( Double value, JsonGenerator jgen, SerializerProvider provider, TypeSerializer typeSer ) throws IOException,
JsonGenerationException
{
serialize( value, jgen, provider );
}
@Override
public void serialize( Double value, JsonGenerator jgen, SerializerProvider provider ) throws IOException, JsonGenerationException
{
if ( Double.isNaN( value ) || Double.isInfinite( value ) )
{
jgen.writeNumber( 0 ); // For lack of a better alternative in JSON
return;
}
String x = df.format( value );
if ( x.endsWith( "E0" ) )
{
x = x.substring( 0, x.length() - 2 );
}
else if ( x.endsWith( "E1" ) && x.length() == 6 )
{
x = "" + x.charAt( 0 ) + x.charAt( 2 ) + '.' + x.charAt( 3 );
}
JsonWriteContext ctx = (JsonWriteContext)jgen.getOutputContext();
ctx.writeValue();
if ( jgen.getOutputContext().getCurrentIndex() > 0 )
{
x = "," + x;
}
jgen.writeRaw( x );
}
@Override
public JsonNode getSchema( SerializerProvider provider, Type typeHint )
{
return createSchemaNode( "number", true );
}
}
@SuppressWarnings("unchecked")
private static Map<String, Object> load() throws JsonParseException, JsonMappingException, IOException
{
ObjectMapper loader = new ObjectMapper();
return (Map<String, Object>)loader.readValue( new File( "x.json" ), Map.class );
}
@Test
public void test1() throws JsonGenerationException, JsonMappingException, IOException
{
ObjectMapper mapper = new ObjectMapper();
SimpleModule module = new SimpleModule( "StatsModule", new Version( 0, 1, 0, "alpha" ) );
module.addSerializer( Double.class, new MyDoubleSerializer() );
mapper.registerModule( module );
String out = mapper.writeValueAsString( load() );
// System.out.println( out.length() );
}
}