java8在接口Map中增加了computeIfAbsent方法,可以通过此方法构建本地缓存,降低程序的计算量,程序的复杂度,使代码简洁,易懂。
一、概念及使用介绍
在JAVA8的Map接口中,增加了一个方法computeIfAbsent,此方法签名如下:
- public V computeIfAbsent(K key, Function<? super K,? extends V> mappingFunction)
Map接口的实现类如HashMap,ConcurrentHashMap,HashTable等继承了此方法,通过此方法可以构建JAVA本地缓存,降低程序的计算量,程序的复杂度,使代码简洁,易懂。
此方法首先判断缓存MAP中是否存在指定key的值,如果不存在,会自动调用mappingFunction(key)计算key的value,然后将key = value放入到缓存Map,java8会使用thread-safe的方式从cache中存取记录。
如果mappingFunction(key)返回的值为null或抛出异常,则不会有记录存入map
二、代码样例
- import java.util.HashMap;
- import java.util.HashSet;
- import java.util.Map;
- import java.util.concurrent.ConcurrentHashMap;
- import java.util.concurrent.ExecutorService;
- import java.util.concurrent.Executors;
- import java.util.concurrent.TimeUnit;
- public class Main {
- static Map<Integer, Integer> cache = new ConcurrentHashMap<>();
- public static void main(String[] args) throws InterruptedException {
- cache.put(0, 0);
- cache.put(1, 1);
- // 普通方式
- System.out.println(“Fibonacci(7) = “ + fibonacci(7));
- // 采用java7的同步线程方式及java8的本地缓存的方式
- System.out.println(“FibonacciJava8(7) = “ + fibonacciJava8(7));
- System.out.println(“FibonacciJava7(7) = “ + fibonacciJava7(7));
- // 构建多值Map样例代码
- Map<String, HashSet<String>> map1 = new HashMap<>();
- map1.computeIfAbsent(“fruits”, k -> genValue(k)).add(“apple”);
- map1.computeIfAbsent(“fruits”, k -> genValue(k)).add(“orange”);
- map1.computeIfAbsent(“fruits”, k -> genValue(k)).add(“pear”);
- map1.computeIfAbsent(“fruits”, k -> genValue(k)).add(“banana”);
- map1.computeIfAbsent(“fruits”, k -> genValue(k)).add(“water”);
- System.out.println(map1);
- //测试多线程并发处理,是否同步操作
- Map<String, String> map2 = new ConcurrentHashMap<>();
- ExecutorService exec = Executors.newCachedThreadPool();
- for (int i = 0; i < 5; i++) {
- exec.execute(() -> {
- map2.computeIfAbsent(“name”, k -> genValue2(k));
- map2.computeIfAbsent(“addr”, k -> genValue2(k));
- map2.computeIfAbsent(“email”, k -> genValue2(k));
- map2.computeIfAbsent(“mobile”, k -> genValue2(k));
- });
- }
- exec.shutdown();
- exec.awaitTermination(1, TimeUnit.SECONDS);
- System.out.println(map2);
- }
- static HashSet<String> genValue(String str) {
- return new HashSet<String>();
- }
- static String genValue2(String str) {
- System.out.println(“===”);
- return str + “2”;
- }
- /**
- * 普通的实现方式 普通方式使用大量的计算,存在性能问题. 并且计算量随着n的增加呈指数级增加,需要用到一些缓存策略,并且是线程安全的.
- *
- * @param n
- * @return
- */
- static int fibonacci(int n) {
- if (n == 0 || n == 1)
- return n;
- System.out.println(“calculating Fibonacci(“ + n + “)”);
- return fibonacci(n – 2) + fibonacci(n – 1);
- }
- /**
- * 采用java8的本地缓存方式 如果缓存MAP中不存在指定key的值,会自动调用mappingFunction(key)计算key的value
- * 然后将key = value放入到缓存Map,java8会使用thread-safe的方式从cache中存取记录
- *
- * @param n
- * @return
- */
- static int fibonacciJava8(int n) {
- return cache.computeIfAbsent(n, (key) -> {
- System.out.println(“calculating FibonacciJava8 “ + n);
- return fibonacciJava8(n – 2) + fibonacciJava8(n – 1);
- });
- }
- /**
- * 在java7中的实现方式
- * 在java7中,通过synchronized进行线程同步,检查缓存是否存在key对应的值,如果不存在才进行计算并放入缓存中
- * 为了更好的性能,需要使用 double-checked locking,那样代码会更复杂
- *
- * @param n
- * @return
- */
- static int fibonacciJava7(int n) {
- if (n == 0 || n == 1)
- return n;
- Integer result = cache.get(n);
- if (result == null) {
- synchronized (cache) {
- result = cache.get(n);
- if (result == null) {
- System.out.println(“calculating FibonacciJava7(“ + n + “)”);
- result = fibonacciJava7(n – 2) + fibonacciJava7(n – 1);
- cache.put(n, result);
- }
- }
- }
- return result;
- }
- }
三、程序运行结果
- calculating Fibonacci(7)
- calculating Fibonacci(5)
- calculating Fibonacci(3)
- calculating Fibonacci(2)
- calculating Fibonacci(4)
- calculating Fibonacci(2)
- calculating Fibonacci(3)
- calculating Fibonacci(2)
- calculating Fibonacci(6)
- calculating Fibonacci(4)
- calculating Fibonacci(2)
- calculating Fibonacci(3)
- calculating Fibonacci(2)
- calculating Fibonacci(5)
- calculating Fibonacci(3)
- calculating Fibonacci(2)
- calculating Fibonacci(4)
- calculating Fibonacci(2)
- calculating Fibonacci(3)
- calculating Fibonacci(2)
- Fibonacci(7) = 13
- calculating FibonacciJava8 7
- calculating FibonacciJava8 5
- calculating FibonacciJava8 3
- calculating FibonacciJava8 2
- calculating FibonacciJava8 4
- calculating FibonacciJava8 6
- FibonacciJava8(7) = 13
- FibonacciJava7(7) = 13
- {fruits=[orange, banana, apple, pear, water]}
- ===
- ===
- ===
- ===
- {name=name2, mobile=mobile2, addr=addr2, email=email2}