Environment.TickCount vs DateTime.Now
Use Stopwatch class. There is a decent example on msdn: http://msdn.microsoft.com/en-us/library/system.diagnostics.stopwatch.aspx
Stopwatch stopWatch = Stopwatch.StartNew();
Thread.Sleep(10000);
stopWatch.Stop();
// Get the elapsed time as a TimeSpan value.
TimeSpan ts = stopWatch.Elapsed;
Environment.TickCount is based on GetTickCount() WinAPI function. It's in milliseconds But the actual precision of it is about 15.6 ms. So you can't measure shorter time intervals (or you'll get 0)
Note: The returned value is Int32, so this counter rolls over each ~49.7 days. You shouldn't use it to measure such long intervals.
DateTime.Ticks is based on GetSystemTimeAsFileTime() WinAPI function. It's in 100s nanoseconds (tenths of microsoconds). The actual precision of DateTime.Ticks depends on the system. On XP, the increment of system clock is about 15.6 ms, the same as in Environment.TickCount. On Windows 7 its precision is 1 ms (while Environemnt.TickCount's is still 15.6 ms), however if a power saving scheme is used (usually on laptops) it can go down to 15.6 ms as well.
Stopwatch is based on QueryPerformanceCounter() WinAPI function (but if high-resolution performance counter is not supported by your system, DateTime.Ticks is used)
Before using StopWatch notice two problems:
- it can be unreliable on multiprocessor systems (see MS kb895980, kb896256)
- it can be unreliable if CPU frequency varies (read this article)
You can evaluate the precision on your system with simple test:
static void Main(string[] args)
{
int xcnt = 0;
long xdelta, xstart;
xstart = DateTime.UtcNow.Ticks;
do {
xdelta = DateTime.UtcNow.Ticks - xstart;
xcnt++;
} while (xdelta == 0);
Console.WriteLine("DateTime:\t{0} ms, in {1} cycles", xdelta / (10000.0), xcnt);
int ycnt = 0, ystart;
long ydelta;
ystart = Environment.TickCount;
do {
ydelta = Environment.TickCount - ystart;
ycnt++;
} while (ydelta == 0);
Console.WriteLine("Environment:\t{0} ms, in {1} cycles ", ydelta, ycnt);
Stopwatch sw = new Stopwatch();
int zcnt = 0;
long zstart, zdelta;
sw.Start();
zstart = sw.ElapsedTicks; // This minimizes the difference (opposed to just using 0)
do {
zdelta = sw.ElapsedTicks - zstart;
zcnt++;
} while (zdelta == 0);
sw.Stop();
Console.WriteLine("StopWatch:\t{0} ms, in {1} cycles", (zdelta * 1000.0) / Stopwatch.Frequency, zcnt);
Console.ReadKey();
}
Environment.TickCount seems to be much faster then the other solutions:
Environment.TickCount 71
DateTime.UtcNow.Ticks 213
sw.ElapsedMilliseconds 1273
The measurements were generated by the following code:
static void Main( string[] args ) {
const int max = 10000000;
//
//
for ( int j = 0; j < 3; j++ ) {
var sw = new Stopwatch();
sw.Start();
for ( int i = 0; i < max; i++ ) {
var a = Environment.TickCount;
}
sw.Stop();
Console.WriteLine( $"Environment.TickCount {sw.ElapsedMilliseconds}" );
//
//
sw = new Stopwatch();
sw.Start();
for ( int i = 0; i < max; i++ ) {
var a = DateTime.UtcNow.Ticks;
}
sw.Stop();
Console.WriteLine( $"DateTime.UtcNow.Ticks {sw.ElapsedMilliseconds}" );
//
//
sw = new Stopwatch();
sw.Start();
for ( int i = 0; i < max; i++ ) {
var a = sw.ElapsedMilliseconds;
}
sw.Stop();
Console.WriteLine( $"sw.ElapsedMilliseconds {sw.ElapsedMilliseconds}" );
}
Console.WriteLine( "Done" );
Console.ReadKey();
}
Why are you worried about rollover? As long as the duration you are measuring is under 24.9 days and you calculate the relative duration, you're fine. It doesn't matter how long the system has been running, as long as you only concern yourself with your portion of that running time (as opposed to directly performing less-than or greater-than comparisons on the begin and end points). I.e. this:
int before_rollover = Int32.MaxValue - 5;
int after_rollover = Int32.MinValue + 7;
int duration = after_rollover - before_rollover;
Console.WriteLine("before_rollover: " + before_rollover.ToString());
Console.WriteLine("after_rollover: " + after_rollover.ToString());
Console.WriteLine("duration: " + duration.ToString());
correctly prints:
before_rollover: 2147483642
after_rollover: -2147483641
duration: 13
You don't have to worry about the sign bit. C#, like C, lets the CPU handle this.
This is a common situation I've run into before with time counts in embedded systems. I would never compare beforerollover < afterrollover directly, for instance. I would always perform the subtraction to find the duration that takes rollover into account, and then base any other calculations on the duration.