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关于Map和List的性能测试报告发表日期:2008-1-5
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说明:我所涉及到的试验代码,均是针对于1百万条记录,我的硬件配置如下:CPUP4 1.5G,256M DDR的内存。 假如要试验其代码,要采用这种方式运行:Java -Xms128M -Xmx250M TestMap 1,对内存容量的要求 Map对象高于List。因为Map除了Value外还需要一个Object的Key,从而增大了Map的容量。试验代码如下: import java.util.*; public class TestMap { public static void main(String[] args) { System.out.println("begin>>>>>>>>>>>>>>"); long sm = Runtime.getRuntime().totalMemory(); System.out.println("Begin Memory :" + sm); Map m = new Hashtable(); //LinkedList tmpList = new LinkedList(); for (int i=0;i<1000000;i++) { m.put(""+i,"i=" + i); //Integer integer = new Integer(i); //tmpList.add(integer); } long em = Runtime.getRuntime().totalMemory(); System.out.println("End Memory :" + em); System.out.println("End-Start Memory :" + (em - sm)); //walkList(tmpList); System.out.println("<<<<<<<<<<<<<<<<end"); //find(m,"985757"); walkMap(m); //List tmpList = new LinkedList(); //tmpList.addAll(m.values()); } } 其对比结果如下:1百万条记录Map大概需要70M额外空间,而List不需要,其额外空间为0 2.遍历比较 我在试验中,发现我们经常采用遍历List的方式是一个错误的遍历方式,其性能其差无比。我们经常遍历List代码实例如下: for(int i = 0;i<list.size();i++) { Object obj = list.get(i); } 假如List的遍历方式换一种方式,其性能和Map差不多,我们将上面的代码进行扩充,从而来比较Map和List的遍历速度: import java.util.*; /** * @author whxu * @version 1.0.0 2003-4-22 AM */ public class TestMap { public static void main(String[] args) { System.out.println("begin>>>>>>>>>>>>>>"); long sm = Runtime.getRuntime().totalMemory(); System.out.println("Begin Memory :" + sm); Map m = new Hashtable(); //LinkedList tmpList = new LinkedList(); for (int i=0;i<1000000;i++) { m.put(""+i,"i=" + i); //Integer integer = new Integer(i); //tmpList.add(integer); } long em = Runtime.getRuntime().totalMemory(); System.out.println("End Memory :" + em); System.out.println("End-Start Memory :" + (em - sm)); //walkList(tmpList); System.out.println("<<<<<<<<<<<<<<<<end"); //find(m,"985757"); walkMap(m); //List tmpList = new LinkedList(); //tmpList.addAll(m.values()); } public static void find(Map m,String key) { long st = System.currentTimeMillis(); Object obj = m.get(key); System.out.println("Object:" + obj); long et = System.currentTimeMillis(); System.out.println("Start Time:" + st); System.out.println("End Time:" + et); System.out.println("Use Time:" + (et - st)); } public static void walkMap(Map m) { long st = System.currentTimeMillis(); for(Iterator it = m.values().iterator();it.hasNext();) { Object obj = it.next(); } long et = System.currentTimeMillis(); System.out.println("WalkMap Start Time:" + st); System.out.println("WalkMap End Time:" + et); System.out.println("WalkMap Use Time:" + (et - st)); } public static void walkList(LinkedList l) { long st = System.currentTimeMillis(); Object obj = null; //System.out.println(l.get(3434)); /*这种遍历方式的性能其差无比,建议不要使用 for(int i=0;i<l.size();i++) { obj = l.get(i); } */ for(Iterator it = l.iterator();it.hasNext();) { obj = it.next(); } long et = System.currentTimeMillis(); System.out.println("WalkList Start Time:" + st); System.out.println("WalkList End Time:" + et); System.out.println("WalkList Use Time:" + (et - st)); } } 3.随机查找。假如Map知道了Key,List知道了index,其性能在一百万条数据中无多大差别。其实例代码如下: import java.util.*; /** * @author whxu * @version 1.0.0 2003-4-22 AM */ public class TestMap { public static void main(String[] args) { System.out.println("begin>>>>>>>>>>>>>>"); long sm = Runtime.getRuntime().totalMemory(); System.out.println("Begin Memory :" + sm); Map m = new Hashtable(); LinkedList tmpList = new LinkedList(); for (int i=0;i<1000000;i++) { //m.put(""+i,"i=" + i); tmpList.add("i=" + i); } long em = Runtime.getRuntime().totalMemory(); System.out.println("End Memory :" + em); System.out.println("End-Start Memory :" + (em - sm)); //walkList(tmpList); System.out.println("<<<<<<<<<<<<<<<<end"); //find(m,"985757"); find(tmpList,1000000-1); //walkMap(m); //List tmpList = new LinkedList(); //tmpList.addAll(m.values()); } public static void find(Map m,String key) { long st = System.currentTimeMillis(); Object obj = m.get(key); System.out.println("Find Map Object:" + obj); long et = System.currentTimeMillis(); System.out.println("Find Map Start Time:" + st); System.out.println("Find Map End Time:" + et); System.out.println("Find Map Use Time:" + (et - st)); } public static void find(List l,int index) { long st = System.currentTimeMillis(); Object obj = l.get(index); System.out.println("Find List Object:" + obj); long et = System.currentTimeMillis(); System.out.println("Find List Start Time:" + st); System.out.println("Find List End Time:" + et); System.out.println("Find List Use Time:" + (et - st)); } public static void walkMap(Map m) { long st = System.currentTimeMillis(); for(Iterator it = m.values().iterator();it.hasNext();) { Object obj = it.next(); } long et = System.currentTimeMillis(); System.out.println("WalkMap Start Time:" + st); System.out.println("WalkMap End Time:" + et); System.out.println("WalkMap Use Time:" + (et - st)); } public static void walkList(LinkedList l) { long st = System.currentTimeMillis(); Object obj = null; //System.out.println(l.get(3434)); /*for(int i=0;i<l.size();i++) { obj = l.get(i); } */ for(Iterator it = l.iterator();it.hasNext();) { obj = it.next(); } long et = System.currentTimeMillis(); System.out.println("WalkList Start Time:" + st); System.out.println("WalkList End Time:" + et); System.out.println("WalkList Use Time:" + (et - st)); } } |
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