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四:单例模式
单例模式,特点是单例类只能有一个实例,自己创建自身唯一的实例,给所有其他对象提供这一实例。单例模式可以分为饿汉式、懒汉式和登记式。
首先饿汉式单例,
package com.co.patterns.singleton;
/**
* 饿汉式单例
*
* @author laotan
*
*/
public class EagerSingleton {
private static final EagerSingleton instance = new EagerSingleton();
private EagerSingleton() {
}
/**
* 静态工厂方法
* @return
*/
public static EagerSingleton getInstance() {
return instance;
}
}
然后懒汉式
package com.co.patterns.singleton;
/**
* 懒汉式单例
*
* @author laotan
*
*/
public class LazySingleton {
private static LazySingleton instance = null;
private LazySingleton() {
}
public synchronized static LazySingleton getInstance() {
if (null == instance)
instance = new LazySingleton();
return instance;
}
}
登记式单例,为了克服懒汉式和饿汉式不能继承的劣势而设计的
package com.co.patterns.singleton;
import java.util.*;
public class RegisterSingleton {
private static Map<String, RegisterSingleton> register = new HashMap<String, RegisterSingleton>();
static {
RegisterSingleton instance = new RegisterSingleton();
register.put(instance.getClass().getName(), instance);
}
protected RegisterSingleton() {
}
public static RegisterSingleton getInstance(String name) {
if (null == name)
name = RegisterSingleton .class.getName()";
if (null == register.get(name))
try {
register.put(name, (RegisterSingleton) Class.forName(name)
.newInstance());
} catch (Exception e) {
System.err.println(e.getMessage());
}
return register.get(name);
}
}
登记式单例的子类在父类的帮助下创建,
package com.co.patterns.singleton;
public class RegisterSingletonChild extends RegisterSingleton {
public RegisterSingletonChild() {
}
public static RegisterSingletonChild getInstance() {
try {
return (RegisterSingletonChild) RegisterSingleton
.getInstance(RegisterSingleton.class.getName());
} catch (Exception e) {
System.err.println(e.getMessage());
return null;
}
}
}
下面是一个属性文件读取的例子:属性文件为系统所有,所以其读取用单例
package com.co.patterns.singleton.demo;
import java.io.BufferedReader;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.Properties;
public class ConfigManager {
// 属性文件全名
private static final String PFILE = System.getProperty("user.dir")
+ File.separator + "singleton.properties";
// 对应于属性文件的文件对象变量
private File p_file = null;
// 属性文件最后修改日期
private long p_lastModifiedTime = 0;
// 属性文件对应的属性对象变量
private Properties props = null;
// 单例
private static ConfigManager instance = new ConfigManager();
/**
* 私有构造器
*
* @param args
*/
private ConfigManager() {
p_file = new File(PFILE);
p_lastModifiedTime = p_file.lastModified();
if (0 == p_lastModifiedTime) {
System.err.println(PFILE + "file does not exit!");
}
props = new Properties();
try {
props.load(new FileInputStream(PFILE));
} catch (IOException e) {
e.printStackTrace();
}
}
/**
* 静态工厂方法
*
* @return 返回单例
*/
public synchronized static ConfigManager getInstance() {
return instance;
}
/**
* 读取特定的属性项
*
* @param name
* 属性列的名字
* @param defaultVale
* 属性列的默认值
* @return 属性列的值(存在),默认值(不存在)
*/
public final Object getConfigItem(String name, Object defaultVale) {
// 检查属性文件是否被修改,如果是则重新读取
long newTime = p_file.lastModified();
if (0 == newTime) { // 文件不存在或 发生I/O错误
if (0 == p_lastModifiedTime) {
System.err.println("the file doesn't exist!");
} else {
System.err.println("the file is deleted!");
}
return defaultVale;
} else if (newTime > p_lastModifiedTime) { // 文件已被修改
props.clear();
// 重新读取
try {
props.load(new FileInputStream(PFILE));
} catch (IOException e) {
e.printStackTrace();
}
}
p_lastModifiedTime = newTime;
Object value = props.getProperty(name);
return null == value ? defaultVale : value;
}
public static void main(String[] args) throws IOException {
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
System.out.println("Type quit to quit");
do {
System.out.println("Property item to read:");
String line = br.readLine();
if ("exit".equals(line))
break;
System.out.println(ConfigManager.getInstance().getConfigItem(line,
"default"));
} while (true);
}
}
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