dotnet下时间精度测量
2
static void Main(string[] args) 3
{ 
4
long start,end; 5
6
start = DateTime.Now.Ticks; 7
end = DateTime.Now.Ticks; 8
9
while(start==end) 10
{ 
11
end = DateTime.Now.Ticks; 12
} 13
14
Console.WriteLine("DateTime.Now.Ticks时间精度:{0}ms",(end-start)/10000); 15
}16
运行结果:DateTime.Now.Ticks时间精度:10ms
yinh找到了一个程序QueryPerfCounter,可以进行精确的时间测量。代码如下:
using System; 2
using System.ComponentModel; 3
using System.Runtime.InteropServices; 4
5
public class QueryPerfCounter 6
{ 7
[DllImport("KERNEL32")] 8
private static extern bool QueryPerformanceCounter( 9
out long lpPerformanceCount); 10
11
[DllImport("Kernel32.dll")] 12
private static extern bool QueryPerformanceFrequency(out long lpFrequency); 13
14
private long start; 15
private long stop; 16
private long frequency; 17
Decimal multiplier = new Decimal(1.0e9); 18
19
public QueryPerfCounter() 20
{ 21
if (QueryPerformanceFrequency(out frequency) == false) 22
{ 23
// Frequency not supported 24
throw new Win32Exception(); 25
} 26
} 27
28
public void Start() 29
{ 30
QueryPerformanceCounter(out start); 31
} 32
33
public void Stop() 34
{ 35
QueryPerformanceCounter(out stop); 36
} 37
38
public double Duration(int iterations) 39
{ 40
return ((((double)(stop - start)* (double) multiplier) / (double) frequency)/iterations); 41
} 42
}43
我搜了一下,该程序原出处应该是http://channel9.msdn.com/wiki/default.aspx/PerformanceWiki.HowToTimeManagedCode
采用以下代码测试其时间精度:
static void Main(string[] args) 2
{ 3
QueryPerfCounter q = new QueryPerfCounter(); 4
5
q.Start(); 6
q.Stop(); 7
8
Console.WriteLine("QueryPerfCounter时间精度:{0}ns",q.Duration(1)); 9
}结果:
QueryPerfCounter时间精度:3911.1116077602ns
如果测试之前这么来一下:
// Call the object and methods to JIT before the test run
QueryPerfCounter myTimer = new QueryPerfCounter();
myTimer.Start();
myTimer.Stop();
结果大概是1微妙。
也就是说QueryPerfCounter的测试精度是1微妙,这主要是因为方法调用和执行要花去一些时间。为了得到更精确的时间测量,必须对此进行时间校准,扣除方法调用和执行的时间.我在构造函数里面加了校准项。完整代码如下:
using System;2
using System.ComponentModel; 3
using System.Runtime.InteropServices;4
5
public class QueryPerfCounter 6
{ 7
[DllImport("KERNEL32")] 8
private static extern bool QueryPerformanceCounter( 9
out long lpPerformanceCount); 10
11
[DllImport("Kernel32.dll")] 12
private static extern bool QueryPerformanceFrequency(out long lpFrequency); 13
14
private long check;15
private long start; 16
private long stop; 17
private long frequency; 18
Decimal multiplier = new Decimal(1.0e9); 19
20
public QueryPerfCounter() 21
{ 22
if (QueryPerformanceFrequency(out frequency) == false) 23
{ 24
// Frequency not supported 25
throw new Win32Exception(); 26
}27
28
check = 0;29
30
QueryPerformanceCounter(out start);31
QueryPerformanceCounter(out stop);32
33
QueryPerformanceCounter(out start);34
QueryPerformanceCounter(out stop);35
check+=stop-start;36
} 37
38
public void Start() 39
{ 40
QueryPerformanceCounter(out start); 41
} 42
43
public void Stop() 44
{ 45
QueryPerformanceCounter(out stop); 46
} 47
48
public double Duration(int iterations) 49
{ 50
return ((((double)(stop - start-check)* (double) multiplier) / (double) frequency)/iterations); 51
} 52
}53
采用下面这个方法测试校准效果:
static void TestCheckPrecision()2
{3
QueryPerfCounter q;4
5
int loop = 10000;6
int exCount = 0;7
8
for (int i=0;i<loop;i++)9
{10
q = new QueryPerfCounter();11
q.Start();12
q.Stop();13
if(q.Duration(1)!=0)14
{15
exCount++;16
Console.WriteLine("QueryPerfCounter时间精度异常:{0}ns",q.Duration(1));17
}18
}19
20
Console.WriteLine("共进行{0}次QueryPerfCounter的时间精度测试",loop);21
Console.WriteLine("其中{0}次QueryPerfCounter的时间精度异常",exCount);22
Console.WriteLine("时间校准有效性{0}%",100-(100.0*exCount)/loop);23
}24
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-558.730229680029ns
QueryPerfCounter时间精度异常:-558.730229680029ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-558.730229680029ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-558.730229680029ns
QueryPerfCounter时间精度异常:-558.730229680029ns
QueryPerfCounter时间精度异常:-838.095344520044ns
QueryPerfCounter时间精度异常:-345854.012171938ns
QueryPerfCounter时间精度异常:279.365114840015ns
QueryPerfCounter时间精度异常:-55314.2927383229ns
QueryPerfCounter时间精度异常:279.365114840015ns
QueryPerfCounter时间精度异常:5307.93718196028ns
QueryPerfCounter时间精度异常:279.365114840015ns
QueryPerfCounter时间精度异常:279.365114840015ns
QueryPerfCounter时间精度异常:279.365114840015ns
共进行10000次QueryPerfCounter的时间精度测试
其中22次QueryPerfCounter的时间精度异常
时间校准有效性99.78%
也就是说99.78%情况下都得到了很好的校准,只有极少数情况校准会出现异常现象不为零,有时这一波动甚至很大,到了5.3微妙。这个结果很满意了,因为异常的测试结果可以很简单的发现出来。但是是不是说明,校准后的类的测量误差就差不多就是纳秒级的呢?我后来又做了一个测试发现不是这样,测试代码如下:
static void TestPrecision()2
{3
QueryPerfCounter q;4
5
for(int j=0;j<200;j++)6
{7
q = new QueryPerfCounter();8
9
q.Start();10
q.Stop();11
12
Console.WriteLine(""); 13
14
Console.WriteLine("QueryPerfCounter时间精度:{0}ns",q.Duration(1)); 15
16
q.Start();17
int i=0;18
for(i=0;i<j;i++)19
{20
int l;21
}22
q.Stop();23
24
Console.WriteLine("第{0}次循环,耗时{1}ns",i,q.Duration(1));25
}26
}27
对于循环
for(i=0;i<j;i++)
{
int l;
}
当j很小的时候,耗时为0ns,随着n逐渐增大,耗时会一下子跳到279.365114840015ns,然后是558.730229680029ns。我摘几条结果:
QueryPerfCounter时间精度:0ns
第73次循环,耗时0ns
QueryPerfCounter时间精度:0ns
第74次循环,耗时279.365114840015ns
QueryPerfCounter时间精度:0ns
第75次循环,耗时0ns
QueryPerfCounter时间精度:0ns
第76次循环,耗时279.365114840015ns
QueryPerfCounter时间精度:0ns
第88次循环,耗时558.730229680029ns
QueryPerfCounter时间精度:0ns
第89次循环,耗时279.365114840015ns
也就是说,对我的机器现在配置来说(1.5G迅驰,2003 server,.net framework 1.1),测量的最基本时间单位是279.365114840015ns,不能得出更精确的时间了。
因此,推荐的测试方法是采用校对后的QueryPerfCounter,多测量几次,去掉最高值,去掉最低值(这两个一定要去掉),然后取平均值,这样能够得到非常精确的测量结果,测量误差约为0.3微妙。
