Java泛型体系知识学习
西魏陶渊明 ... 2022-5-10 大约 5 分钟
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# 一、Java泛型体系
Type 是 Java 语言中所有类型的公共父接口,其从 JDK5 开始引入,引入的目的主要是为了支持泛型。 Java的泛型体系还是比较复杂的, 不过没关系,本篇文章会从实战的角度来,学习泛型。
# 1.1 ParameterizedType 参数化泛型
ParameterizedType 是, 参数化泛型只要记住凡是带泛型的是明确的类型,只要不是数组GenericArrayType那么一定是ParameterizedType。
如下:
- List<?> list 中的 list
- Map<String,String> map中的map
- Map<String,String> map中的map
# 1.1.1 API 说明
ParameterizedType 一共有3个方法如下。
public interface ParameterizedType extends Type {
// 获取泛型信息,输一个数组。因为可能泛型有多个
Type[] getActualTypeArguments();
// 原始数据类型
Type getRawType();
//
Type getOwnerType();
}
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- getRawType 获取原始数据类型
- getActualTypeArguments 获取泛型信息,因为泛型可以是多个,所以返回是数组
# 1.1.2 代码示例
public class Test {
class Girl implements Person {}
class Boy implements Person {}
interface Person {}
class School<A extends Boy & Person> {}
School<Boy> boySchool;
School<Boy>[] schools;
@Test
public void test() {
// class java.lang.Class
System.out.println(ReflectionUtils.findField(Test.class, "boy").getGenericType().getClass());
// class sun.reflect.generics.reflectiveObjects.ParameterizedTypeImpl
System.out.println(ReflectionUtils.findField(Test.class, "boySchool").getGenericType().getClass());
// class sun.reflect.generics.reflectiveObjects.GenericArrayTypeImpl
System.out.println(ReflectionUtils.findField(Test.class, "schools").getGenericType().getClass());
}
}
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boy是具体类型,且不是泛型,所以是Class类型School<Boy> boySchool是具体类型,但是有泛型<Boy>,所以是ParameterizedTypeParameterizedType#getActualTypeArguments下标0就是泛型Boy
School<Boy>[] schools是具体类型,有泛型<Boy>,但是是数组类型所以是GenericArrayType
# 1.2 GenericArrayType 泛型数组
GenericArrayType和ParameterizedType是比较类似的,唯一的区别是GenericArrayType一定是数组,如果不是数组就是ParameterizedType
# 1.2.1 API 说明
GenericArrayType 只提供了一个方法就是获取泛型的方法
public interface GenericArrayType extends Type {
// 获取数组泛型
Type getGenericComponentType();
}
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# 1.2.2 代码示例
public class Test {
class Girl implements Person {}
class Boy implements Person {}
interface Person {}
class School<A extends Boy & Person> {}
School<Boy> boySchool;
School<Boy>[] schools;
@Test
public void test2(){
GenericArrayType schoolsArrayType = (GenericArrayType) ReflectionUtils.findField(Test.class, "schools").getGenericType();
Type genericComponentType = schoolsArrayType.getGenericComponentType();
// learn.common.print.Test$School<learn.common.print.Test$Boy>
System.out.println(genericComponentType.getTypeName());
// class sun.reflect.generics.reflectiveObjects.ParameterizedTypeImpl
System.out.println(genericComponentType.getClass());
}
}
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School<Boy> boySchool是具体类型,且有泛型,但是不是数组所以是ParameterizedTypeSchool<Boy>[] schools是具体类型,且有泛型,但是是数组所以就是GenericArrayTypeGenericArrayType#getGenericComponentType=School<Boy>=ParameterizedType
# 1.3 TypeVariable 泛型变量
TypeVariable变量泛型是比较好判断的,只要是变量泛型。一定就是TypeVariable。
# 1.3.1 API 说明
public interface TypeVariable<D extends GenericDeclaration> extends Type, AnnotatedElement {
// 获取泛型信息
Type[] getBounds();
D getGenericDeclaration();
String getName();
AnnotatedType[] getAnnotatedBounds();
}
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# 1.3.2 代码示例
class TypeVariableObj<A extends Number> {
A a;
TypeVariableObj<A> as;
}
@Test
public void test3() {
Type a = ReflectionUtils.findField(TypeVariableObj.class, "a").getGenericType();
// class sun.reflect.generics.reflectiveObjects.TypeVariableImpl
System.out.println(a.getClass());
Type as = ReflectionUtils.findField(TypeVariableObj.class, "as").getGenericType();
// class sun.reflect.generics.reflectiveObjects.ParameterizedTypeImpl
System.out.println(as.getClass());
Type[] actualTypeArguments = ((ParameterizedType) as).getActualTypeArguments();
// A 因为只有1个泛型,所以直接去下标0
TypeVariable actualTypeArgument = (TypeVariable) actualTypeArguments[0];
System.out.println(actualTypeArgument.getTypeName());
}
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A a = TypeVariableTypeVariableObj<A> as = ParameterizedTypeParameterizedType#getActualTypeArguments()[0] = <A>
# 1.4 WildcardType 泛型表达式
WildcardType也比较好判断只要是通配符,可以简单理解,直接带有 ? 的泛型限定那么就是 WildcardType
# 1.4.1 API 说明
WildcardType通配符, 如 ?, ? extends Number, ? super Integer
public interface WildcardType extends Type {
// 泛型上限
Type[] getUpperBounds();
// 泛型下限
Type[] getLowerBounds();
}
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Type[] getUpperBounds();//获得泛型表达式上界(上限) 获取泛型变量的上边界(extends)Type[] getLowerBounds();//获得泛型表达式下界(下限) 获取泛型变量的下边界(super)
# 1.4.2 代码示例
public class WildcardTypeTest {
Map<? extends String, ? super Number> map;
@Test
public void wildcardTypeTest() {
Field map = ReflectionUtils.findField(WildcardTypeTest.class, "map");
Type[] actualTypeArguments = ((ParameterizedType) map.getGenericType()).getActualTypeArguments();
// ? extends java.lang.String
System.out.println(((WildcardType) actualTypeArguments[0]).getTypeName());
// class java.lang.String
System.out.println(((WildcardType) actualTypeArguments[0]).getUpperBounds()[0]);
}
}
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Map<? extends String, ? super Number> map中 map是ParameterizedTypeParameterizedType#getActualTypeArguments[0]=WildcardType#getUpperBounds[0]=StringParameterizedType#getActualTypeArguments[1]=WildcardType#getLowerBounds[0]=Number
# 二、泛型获取
通过上面的学习,我们可以使用原始API来获取各种泛型的信息,而Spring中有一个比较好用的工具。屏蔽了底层的 具体实现。比较方便。
# 2.1 获取接口泛型
class A {}
class B {}
interface School<T, K> {}
interface X extends School<A, B> {}
@Test
public void test() {
// 获取实现的接口是泛型的信息
ResolvableType resolvableType = ResolvableType.forClass(X.class);
Class<?> resolve1 = resolvableType.getInterfaces()[0].getGeneric(0).resolve();
// class learn.common.print.ColorConsoleTest$A
System.out.println(resolve1);
Class<?> resolve2 = resolvableType.getInterfaces()[0].getGeneric(1).resolve();
// class learn.common.print.ColorConsoleTest$B
System.out.println(resolve2);
}
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# 2.2 获取父类泛型
class A {}
class B {}
class School<T, K> {}
class X extends School<A, B> {}
@Test
public void test() {
// 获取实现的接口是泛型的信息
ResolvableType resolvableType = ResolvableType.forClass(X.class);
Class<?> resolve1 = resolvableType.getSuperType().getGeneric(0).resolve();
// class learn.common.print.ColorConsoleTest$A
System.out.println(resolve1);
Class<?> resolve2 = resolvableType.getSuperType().getGeneric(1).resolve();
// class learn.common.print.ColorConsoleTest$B
System.out.println(resolve2);
}
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# 2.3 获取字段泛型
class A {}
class B {}
class School<T, K> {}
class X {
private School<A, B> school;
}
@Test
public void test() {
// Spring的提供工具类,用于字段的泛型信息,Person<String>
ResolvableType resolvableType = ResolvableType.forField(Objects.requireNonNull(ReflectionUtils.findField(X.class, "school")));
System.out.println(resolvableType);
Class<?> resolve1 = resolvableType.getGeneric(0).resolve();
// class learn.common.print.ColorConsoleTest$A
System.out.println(resolve1);
Class<?> resolve2 = resolvableType.getGeneric(1).resolve();
// class learn.common.print.ColorConsoleTest$B
System.out.println(resolve2);
}
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# 2.4 获取方法泛型
class A {}
class B {}
class School<T, K> {}
class X {
public School<A, B> getSchool() {
return null;
}
}
@Test
public void test() {
// Spring的提供工具类,用于字段的泛型信息,Person<String>
ResolvableType resolvableType = ResolvableType.forMethodReturnType(Objects.requireNonNull(ReflectionUtils.findMethod(X.class, "getSchool")));
System.out.println(resolvableType);
Class<?> resolve1 = resolvableType.getGeneric(0).resolve();
// class learn.common.print.ColorConsoleTest$A
System.out.println(resolve1);
Class<?> resolve2 = resolvableType.getGeneric(1).resolve();
// class learn.common.print.ColorConsoleTest$B
System.out.println(resolve2);
}
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