枚举概述
枚举用来管理一组相关常量的集合,使用枚举可以提高程序的可读性,使代码更清晰且更易于维护。
在Java 5之前没有提供枚举类型,可以通过声明静态常量(final static变量)替代枚举常量。
通常在接口中声明一组静态常量,当然也可以在一般类中声明一组静态常量。这些常量往往都是int类型,这是为了以后方便使用switch语句进行判断。
public interface WeekDays {
// 枚举常量列表
int MONDAY = 0; //星期一
int TUESDAY = 1; //星期二
int WEDNESDAY = 2; //星期三
... ...
}
使用常量的缺点:
- 类型不安全。程序执行过程中很有可能给day变量传入一个任意的整数值,可能导致程序出现错误。
- 程序不方便调试。在程序调试时,如果通过日志输出day值,那么只能看到0~4之间的数值。
而枚举类型可以避免直接使用常量所导致的问题。Java 5之后可以使用枚举类型了,Java中枚举类型的作用已经不仅仅是定义一组常量提高程序的可读性了,还具有如下特性:
- Java枚举类型是一种类,是引用类型,具有了面向对象特性,可以添加方法和成员变量等。
- Java枚举类型父类是java.lang.Enum,不需要显式声明。
- Java枚举类型可以实现接口,与类实现接口类似。
- Java枚举类型不能被继承,不存在子类。
枚举类声明
[public] enum 枚举名 {
枚举常量列表
}
“枚举名”是该枚举类的名称。它首先应该是有效的标识符,其次应该遵守Java命名规范。建议以Enum结尾。
枚举类中成员变量和成员方法
枚举类可以像类一样包含成员变量和成员方法,成员变量可以是实例变量也可以是静态变量,成员方法可以是实例方法,也可以是静态方法,但不能是抽象方法。
枚举类构造方法
public enum WeekDayEnum {
// 枚举常量列表
MONDAY("星期一", 0), TUESDAY("星期二", 1), WEDNESDAY("星期三", 2), THURSDAY(
"星期四", 3), FRIDAY("星期五", 4);
// 实例变量
private String name;
private int index;
private WeekDayEnum(String name, int index) {
this.name = name;
this.index = index;
}
}
注意枚举类的中的构造方法只能是私有访问级别,构造方法可以省略private关键字,但它仍然是私有的构造方法。这也说明了枚举类不允许在外部创建对象。
枚举常用方法
所有枚举类都继承java.lang.Enum类,Enum中定义了一些枚举中常用的方法:
-
int ordinal():返回枚举常量的顺序。这个顺序根据枚举常量声明的顺序而定,顺序从零开始。 -
枚举类型[] values():静态方法,返回一个包含全部枚举常量的数组。 -
枚举类型 valueOf(String str):静态方法,str是枚举常量对应的字符串,返回一个包含枚举类型实例。
jdk1.8 Enum的源码
public abstract class Enum<E extends Enum<E>>
implements Comparable<E>, Serializable {
/**
* The name of this enum constant, as declared in the enum declaration.
* Most programmers should use the {@link #toString} method rather than
* accessing this field.
*/
private final String name;
/**
* Returns the name of this enum constant, exactly as declared in its
* enum declaration.
*
* <b>Most programmers should use the {@link #toString} method in
* preference to this one, as the toString method may return
* a more user-friendly name.</b> This method is designed primarily for
* use in specialized situations where correctness depends on getting the
* exact name, which will not vary from release to release.
*
* @return the name of this enum constant
*/
public final String name() {
return name;
}
/**
* The ordinal of this enumeration constant (its position
* in the enum declaration, where the initial constant is assigned
* an ordinal of zero).
*
* Most programmers will have no use for this field. It is designed
* for use by sophisticated enum-based data structures, such as
* {@link java.util.EnumSet} and {@link java.util.EnumMap}.
*/
private final int ordinal;
/**
* Returns the ordinal of this enumeration constant (its position
* in its enum declaration, where the initial constant is assigned
* an ordinal of zero).
*
* Most programmers will have no use for this method. It is
* designed for use by sophisticated enum-based data structures, such
* as {@link java.util.EnumSet} and {@link java.util.EnumMap}.
*
* @return the ordinal of this enumeration constant
*/
public final int ordinal() {
return ordinal;
}
/**
* Sole constructor. Programmers cannot invoke this constructor.
* It is for use by code emitted by the compiler in response to
* enum type declarations.
*
* @param name - The name of this enum constant, which is the identifier
* used to declare it.
* @param ordinal - The ordinal of this enumeration constant (its position
* in the enum declaration, where the initial constant is assigned
* an ordinal of zero).
*/
protected Enum(String name, int ordinal) {
this.name = name;
this.ordinal = ordinal;
}
/**
* Returns the name of this enum constant, as contained in the
* declaration. This method may be overridden, though it typically
* isn't necessary or desirable. An enum type should override this
* method when a more "programmer-friendly" string form exists.
*
* @return the name of this enum constant
*/
public String toString() {
return name;
}
/**
* Returns true if the specified object is equal to this
* enum constant.
*
* @param other the object to be compared for equality with this object.
* @return true if the specified object is equal to this
* enum constant.
*/
public final boolean equals(Object other) {
return this==other;
}
/**
* Returns a hash code for this enum constant.
*
* @return a hash code for this enum constant.
*/
public final int hashCode() {
return super.hashCode();
}
/**
* Throws CloneNotSupportedException. This guarantees that enums
* are never cloned, which is necessary to preserve their "singleton"
* status.
*
* @return (never returns)
*/
protected final Object clone() throws CloneNotSupportedException {
throw new CloneNotSupportedException();
}
/**
* Compares this enum with the specified object for order. Returns a
* negative integer, zero, or a positive integer as this object is less
* than, equal to, or greater than the specified object.
*
* Enum constants are only comparable to other enum constants of the
* same enum type. The natural order implemented by this
* method is the order in which the constants are declared.
*/
public final int compareTo(E o) {
Enum<?> other = (Enum<?>)o;
Enum<E> self = this;
if (self.getClass() != other.getClass() && // optimization
self.getDeclaringClass() != other.getDeclaringClass())
throw new ClassCastException();
return self.ordinal - other.ordinal;
}
/**
* Returns the Class object corresponding to this enum constant's
* enum type. Two enum constants e1 and e2 are of the
* same enum type if and only if
* e1.getDeclaringClass() == e2.getDeclaringClass().
* (The value returned by this method may differ from the one returned
* by the {@link Object#getClass} method for enum constants with
* constant-specific class bodies.)
*
* @return the Class object corresponding to this enum constant's
* enum type
*/
@SuppressWarnings("unchecked")
public final Class<E> getDeclaringClass() {
Class<?> clazz = getClass();
Class<?> zuper = clazz.getSuperclass();
return (zuper == Enum.class) ? (Class<E>)clazz : (Class<E>)zuper;
}
/**
* Returns the enum constant of the specified enum type with the
* specified name. The name must match exactly an identifier used
* to declare an enum constant in this type. (Extraneous whitespace
* characters are not permitted.)
*
* <p>Note that for a particular enum type {@code T}, the
* implicitly declared {@code public static T valueOf(String)}
* method on that enum may be used instead of this method to map
* from a name to the corresponding enum constant. All the
* constants of an enum type can be obtained by calling the
* implicit {@code public static T[] values()} method of that
* type.
*
* @param <T> The enum type whose constant is to be returned
* @param enumType the {@code Class} object of the enum type from which
* to return a constant
* @param name the name of the constant to return
* @return the enum constant of the specified enum type with the
* specified name
* @throws IllegalArgumentException if the specified enum type has
* no constant with the specified name, or the specified
* class object does not represent an enum type
* @throws NullPointerException if {@code enumType} or {@code name}
* is null
* @since 1.5
*/
public static <T extends Enum<T>> T valueOf(Class<T> enumType,
String name) {
T result = enumType.enumConstantDirectory().get(name);
if (result != null)
return result;
if (name == null)
throw new NullPointerException("Name is null");
throw new IllegalArgumentException(
"No enum constant " + enumType.getCanonicalName() + "." + name);
}
/**
* enum classes cannot have finalize methods.
*/
protected final void finalize() { }
/**
* prevent default deserialization
*/
private void readObject(ObjectInputStream in) throws IOException,
ClassNotFoundException {
throw new InvalidObjectException("can't deserialize enum");
}
private void readObjectNoData() throws ObjectStreamException {
throw new InvalidObjectException("can't deserialize enum");
}
}
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