ParallelStreamPerformance2
原创
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package com.shrimpking.t4;
/**
* Created by IntelliJ IDEA.
*
* @Author : Shrimpking
* @create 2024/9/12 12:09
*/
public interface Test
{
void test();
}
package com.shrimpking.t4;
/**
* Created by IntelliJ IDEA.
*
* @Author : Shrimpking
* @create 2024/9/12 12:10
*/
public class Tester
{
public static long runTest(Test t){
long start = System.currentTimeMillis();
t.test();
long end = System.currentTimeMillis();
return end - start;
}
}
package com.shrimpking.t4;
import java.util.Arrays;
import java.util.stream.IntStream;
import java.util.stream.Stream;
/**
* Created by IntelliJ IDEA.
*
* @Author : Shrimpking
* @create 2024/9/12 13:09
*/
public class ParallelStreamPerformance2
{
public static void main(String[] args)
{
Integer[] inArray = new Integer[10000];
for (int i = 1; i <= 10000; i++)
{
inArray[i-1] = i;
}
int[] iArray = new int[10000];
for (int i = 1; i <= 10000; i++)
{
iArray[i-1] = i;
}
//并行流
Stream<Integer> stream1 = Arrays.stream(inArray).parallel();
IntStream stream2 = Arrays.stream(iArray).parallel();
long time1 = Tester.runTest(() -> stream1.reduce(0,Integer::sum));
System.out.println("封装类对象并行流花费时间:" + time1);
long time2 = Tester.runTest(() -> stream2.reduce(0,Integer::sum));
System.out.println("基本数据类型并行流花费时间:" + time2);
//基本数据类型的流在进行累加操作时,其性能明显高于封装类对象。
//原因很简单,在进行计算时,封装类对象要拆箱为基本数据类型才能求和,
//损耗较大,性能就差。因此,对整数或浮点数序列进行操作时,
//尽量选择基本数据类型,不要采用封装类型
}
}
