How can I determine the type of a generic field in Java?

问题

I have been trying to determine the type of a field in a class. I\'ve seen all the introspection methods but haven\'t quite figured out how to do it. This is going to be used to generate xml/json from a java class. I\'ve looked at a number of the questions here but haven\'t found exactly what I need.

Example:

class Person {
    public final String name;
    public final List<Person> children;
}

When I marshall this object, I need to know that the chidren field is a list of objects of type Person, so I can marshall it properly.

I had tried

for (Field field : Person.class.getDeclaredFields()) {
    System.out.format(\"Type: %s%n\", field.getType());
}

But this will only tell me that it\'s a List, not a List of Persons

Thanks

回答1:

Have a look at Obtaining Field Types from the Java Tutorial Trail: The Reflection API.

Basically, what you need to do is to get all java.lang.reflect.Field of your class and call Field#getType() on each of them (check edit below). To get all object fields including public, protected, package and private access fields, simply use Class.getDeclaredFields(). Something like this:

for (Field field : Person.class.getDeclaredFields()) {
    System.out.format("Type: %s%n", field.getType());
    System.out.format("GenericType: %s%n", field.getGenericType());
}

EDIT: As pointed out by wowest in a comment, you actually need to call Field#getGenericType(), check if the returned Type is a ParameterizedType and then grab the parameters accordingly. Use ParameterizedType#getRawType() and ParameterizedType#getActualTypeArgument() to get the raw type and an array of the types argument of a ParameterizedType respectively. The following code demonstrates this:

for (Field field : Person.class.getDeclaredFields()) {
    System.out.print("Field: " + field.getName() + " - ");
    Type type = field.getGenericType();
    if (type instanceof ParameterizedType) {
        ParameterizedType pType = (ParameterizedType)type;
        System.out.print("Raw type: " + pType.getRawType() + " - ");
        System.out.println("Type args: " + pType.getActualTypeArguments()[0]);
    } else {
        System.out.println("Type: " + field.getType());
    }
}

And would output:

Field: name - Type: class java.lang.String
Field: children - Raw type: interface java.util.List - Type args: class foo.Person

回答2:

Here's an example that answers my question

class Person {
  public final String name;
  public final List<Person> children;  
}

//in main
Field[] fields = Person.class.getDeclaredFields();
for (Field field : fields) {
  Type type = field.getGenericType();
  System.out.println("field name: " + field.getName());
  if (type instanceof ParameterizedType) {
    ParameterizedType ptype = (ParameterizedType) type;
    ptype.getRawType();
    System.out.println("-raw type:" + ptype.getRawType());
    System.out.println("-type arg: " + ptype.getActualTypeArguments()[0]);
  } else {
    System.out.println("-field type: " + field.getType());
  }
}

This outputs

field name: name
-field type: class java.lang.String
field name: children
-raw type:interface java.util.List
-type arg: class com.blah.Person

回答3:

I haven't found any framework who determines a generic field type through the inheritance layers so i've written some method:

This logic determines the type through the field information and the current object class.

Listing 1 - logic:

public static Class<?> determineType(Field field, Object object) {
    Class<?> type = object.getClass();
    return (Class<?>) getType(type, field).type;
}

protected static class TypeInfo {
    Type type;
    Type name;

    public TypeInfo(Type type, Type name) {
        this.type = type;
        this.name = name;
    }

}

private static TypeInfo getType(Class<?> clazz, Field field) {
    TypeInfo type = new TypeInfo(null, null);
    if (field.getGenericType() instanceof TypeVariable<?>) {
        TypeVariable<?> genericTyp = (TypeVariable<?>) field.getGenericType();
        Class<?> superClazz = clazz.getSuperclass();

        if (clazz.getGenericSuperclass() instanceof ParameterizedType) {
            ParameterizedType paramType = (ParameterizedType) clazz.getGenericSuperclass();
            TypeVariable<?>[] superTypeParameters = superClazz.getTypeParameters();
            if (!Object.class.equals(paramType)) {
                if (field.getDeclaringClass().equals(superClazz)) {
                    // this is the root class an starting point for this search
                    type.name = genericTyp;
                    type.type = null;
                } else {
                    type = getType(superClazz, field);
                }
            }
            if (type.type == null || type.type instanceof TypeVariable<?>) {
                // lookup if type is not found or type needs a lookup in current concrete class
                for (int j = 0; j < superClazz.getTypeParameters().length; ++j) {
                    TypeVariable<?> superTypeParam = superTypeParameters[j];
                    if (type.name.equals(superTypeParam)) {
                        type.type = paramType.getActualTypeArguments()[j];
                        Type[] typeParameters = clazz.getTypeParameters();
                        if (typeParameters.length > 0) {
                            for (Type typeParam : typeParameters) {
                                TypeVariable<?> objectOfComparison = superTypeParam;
                                if(type.type instanceof TypeVariable<?>) {
                                    objectOfComparison = (TypeVariable<?>)type.type;
                                }
                                if (objectOfComparison.getName().equals(((TypeVariable<?>) typeParam).getName())) {
                                    type.name = typeParam;
                                    break;
                                }
                            }
                        }
                        break;
                    }
                }
            }
        }
    } else {
        type.type = field.getGenericType();
    }

    return type;
}

Listing 2 - Samples / Tests:

class GenericSuperClass<E, T, A> {
    T t;
    E e;
    A a;
    BigDecimal b;
}

class GenericDefinition extends GenericSuperClass<Integer, Integer, Integer> {

}

@Test
public void testSimpleInheritanceTypeDetermination() {
    GenericDefinition gd = new GenericDefinition();
    Field field = ReflectionUtils.getField(gd, "t");
    Class<?> clazz = ReflectionUtils.determineType(field, gd);
    Assert.assertEquals(clazz, Integer.class);
    field = ReflectionUtils.getField(gd, "b");
    clazz = ReflectionUtils.determineType(field, gd);
    Assert.assertEquals(clazz, BigDecimal.class);
}

class MiddleClass<A, E> extends GenericSuperClass<E, Integer, A> { }

// T = Integer, E = String, A = Double
class SimpleTopClass extends MiddleClass<Double, String> { }

@Test
public void testSimple2StageInheritanceTypeDetermination() {
    SimpleTopClass stc = new SimpleTopClass();
    Field field = ReflectionUtils.getField(stc, "t");
    Class<?> clazz = ReflectionUtils.determineType(field, stc);
    Assert.assertEquals(clazz, Integer.class);
    field = ReflectionUtils.getField(stc, "e");
    clazz = ReflectionUtils.determineType(field, stc);
    Assert.assertEquals(clazz, String.class);
    field = ReflectionUtils.getField(stc, "a");
    clazz = ReflectionUtils.determineType(field, stc);
    Assert.assertEquals(clazz, Double.class);
}

class TopMiddleClass<A> extends MiddleClass<A, Double> { }

// T = Integer, E = Double, A = Float
class ComplexTopClass extends TopMiddleClass<Float> {}

@Test void testComplexInheritanceTypDetermination() {
    ComplexTopClass ctc = new ComplexTopClass();
    Field field = ReflectionUtils.getField(ctc, "t");
    Class<?> clazz = ReflectionUtils.determineType(field, ctc);
    Assert.assertEquals(clazz, Integer.class);
    field = ReflectionUtils.getField(ctc, "e");
    clazz = ReflectionUtils.determineType(field, ctc);
    Assert.assertEquals(clazz, Double.class);
    field = ReflectionUtils.getField(ctc, "a");
    clazz = ReflectionUtils.determineType(field, ctc);
    Assert.assertEquals(clazz, Float.class);
}

class ConfusingClass<A, E> extends MiddleClass<E, A> {}
// T = Integer, E = Double, A = Float ; this class should map between a and e
class TopConfusingClass extends ConfusingClass<Double, Float> {}

@Test
public void testConfusingNamingConvetionWithInheritance() {
    TopConfusingClass tcc = new TopConfusingClass();
    Field field = ReflectionUtils.getField(tcc, "t");
    Class<?> clazz = ReflectionUtils.determineType(field, tcc);
    Assert.assertEquals(clazz, Integer.class);
    field = ReflectionUtils.getField(tcc, "e");
    clazz = ReflectionUtils.determineType(field, tcc);
    Assert.assertEquals(clazz, Double.class);
    field = ReflectionUtils.getField(tcc, "a");
    clazz = ReflectionUtils.determineType(field, tcc);
    Assert.assertEquals(clazz, Float.class);
    field = ReflectionUtils.getField(tcc, "b");
    clazz = ReflectionUtils.determineType(field, tcc);
    Assert.assertEquals(clazz, BigDecimal.class);
}

class Pojo {
    Byte z;
}

@Test
public void testPojoDetermineType() {
    Pojo pojo = new Pojo();
    Field field = ReflectionUtils.getField(pojo, "z");
    Class<?> clazz = ReflectionUtils.determineType(field, pojo);
    Assert.assertEquals(clazz, Byte.class);
}

I'm looking forward to hear your feedback!

回答4:

take this snippet:

 for (Field field : Person.class.getFields()) {
        System.out.println(field.getType());
 }

the key class is Field

回答5:

Here's my take. It cannot handle every possible case (and surely has some bugs), but it does handle every case that occurs in my code so far. That includes these declarations, which should be a good start for many use cases:

  private int                                                primitiveField1;

  private Object                                             field1;
  private List<Integer>                                      field2;
  private Map<Integer, String>                               field3;
  private Map<? extends String, List<Map<Class<?>, Object>>> field4;

  private char[]                                             array1;
  private Character[]                                        array2;
  private Class<? extends Integer>[]                         array3;
  private List<Integer>[]                                    array4;

  private InnerClass<String>                                 innerClass;

Implementation:

  public static String getDeclaration(Field field) {
    return getDeclaration(field.getGenericType());
  }

  private static String getDeclaration(Type genericType) {
    if(genericType instanceof ParameterizedType) {
      // types with parameters
      ParameterizedType parameterizedType = (ParameterizedType) genericType;
      String declaration = parameterizedType.getRawType().getTypeName();
      declaration += "<";

      Type[] typeArgs = parameterizedType.getActualTypeArguments();

      for(int i = 0; i < typeArgs.length; i++) {
        Type typeArg = typeArgs[i];

        if(i > 0) {
          declaration += ", ";
        }

        // note: recursive call
        declaration += getDeclaration(typeArg);
      }

      declaration += ">";
      declaration = declaration.replace('$', '.');
      return declaration;
    }
    else if(genericType instanceof Class<?>) {
      Class<?> clazz = (Class<?>) genericType;

      if(clazz.isArray()) {
        // arrays
        return clazz.getComponentType().getCanonicalName() + "[]";
      }
      else {
        // primitive and types without parameters (normal/standard types)
        return clazz.getCanonicalName();
      }
    }
    else {
      // e.g. WildcardTypeImpl (Class<? extends Integer>)
      return genericType.getTypeName();
    }
  }

回答6:

As dfa points out, you can get the erased type with java.lang.reflect.Field.getType. You can get the generic type with Field.getGenericType (which may have wildcards and bound generic parameters and all sorts of craziness). You can get the fields through Class.getDeclaredFields (Class.getFields will give you public fields (including those of the supertpye) - pointless). To get the base type fields, go through Class.getSuperclass. Note to check modifiers from Field.getModifiers - static fields probably will not be interesting to you.

来源：https://stackoverflow.com/questions/1868333/how-can-i-determine-the-type-of-a-generic-field-in-java