See the version list below for details.
NuGet\Install-Package HighPrecisionTimeStamps -Version 22.214.171.124
dotnet add package HighPrecisionTimeStamps --version 126.96.36.199
<PackageReference Include="HighPrecisionTimeStamps" Version="188.8.131.52" />
paket add HighPrecisionTimeStamps --version 184.108.40.206
#r "nuget: HighPrecisionTimeStamps, 220.127.116.11"
// Install HighPrecisionTimeStamps as a Cake Addin #addin nuget:?package=HighPrecisionTimeStamps&version=18.104.22.168 // Install HighPrecisionTimeStamps as a Cake Tool #tool nuget:?package=HighPrecisionTimeStamps&version=22.214.171.124
High Precision Timestamps
Copyright © 2020, CJM Screws, LLC
A utility providing convenient and appropriate alternatives to DateTime.Now.
It is well known that DateTime.Now is often used inappropriately. For example, it may be used together with TimeSpan to produce a task's timeout point or subtracted from another DateTime to calculate a duration. This can cause subtle bugs because DateTime is not monotonic: the system clock can change, making the result of the subtraction inaccurate -- potentially causing a premature timeout or an infinite loop. Yet, DateTime is an incredibly convenient and widely used value type in .NET code and is especially useful when printed in ISO-8601 format (with the "O" format specifier).
With the "O" specifier, you can resolution down to tenths of a microsecond, which is nice. Until you learn that the resolution of the system clock is usually more coarse than several milliseconds, making the additional decimal places misleading garbage values. For calculating durations (time between events), it is better to use a high-resolution and monotonic clock like that provided by System.Diagnostics.Stopwatch: on most computers it is far more accurate than DateTime.Now even though, seemingly paradoxically, on a few systems, its resolution is lower than that of DateTime. Also, unsurprisingly, Stopwatch does not provide values that correlate to times of day: while it is appropriate for calculating durations, it is inappropriate for timestamping against a readable date and time.
This library provides timestamps (both as DateTime and as analogous value types it defines) that use the Stopwatch (and your system's high performance event counter) as its clock, but returns values as DateTimes or an analog thereto so that these values can be used for a mixed purpose of timestamping and providing a meaningful way to calculate time elapsed between events.
It provides Monotonic timestamps and High Resolution timestamps.
High Resolution Timestamps
These timestamps are expressed as DateTime values and are derived from Stopwatch. They are calibrated (correlating a reference tick value of the Stopwatch to a reference time value of the system clock) on a per thread basis and have a calibration window that expires. These are suitable for logging times (in a way meaningful to humans) and can be used to measure the time elapsed between events on a single thread within one calibration window. A calibration window by default lasts for fifteen minutes. Eventually, there will be drift between the system clock and the Stopwatch, making re-calibration necessary. Nevertheless, for the resolution provided by Stopwatch, fifteen minutes should be a sufficient period for the intended use-case of these timestamps. Also, you can always manually trigger a calibration.
These use the same source (Stopwatch) for their clock, but calibration happens exactly once per process and is the same across all threads. Thus, you can accurately log the time of events across multiple threads and have meaningful data to compare when events happen. Also, because calibration happens once these values are safe to use to calculate a timeout period, how long to perform a task, etc without the possibility that a change to the system clock can cause a bug. Like the High Resolution Timestamps, their fractional seconds are meaningful on every system I have tested. These are essentially dual-use values: they can be used to log timestamps and to calculate durations or time that your application should spend doing a task before quitting or timing out, etc. The monotonic clock provided returns a value type provided by this library rather than DateTime, though the value type is conveniently convertible into a DateTime. This choice was made because the Stopwatch's frequency can vary between systems and these stamps are intended to be used for calculating and measuring durations in addition to logging: it was desirable not to need to calculate a conversion to and from DateTime/TimeSpan scale when obtaining a stamp or performing a duration calculation. For a similar reason, there is a Duration value type that is to the monotonic stamp what System.TimeSpan is to DateTime: a duration value with a matching frequency.
An example code project (available at ExampleCode) is available and used to provide a tour of the functionality and its recommended use-cases. All of the example code below can be found therein. For more elaboration, please consult the full Readme.md in the source repository as it is too long to be displayed on NuGet.
This release contains no changes to the code itself or to program behavior. Instead it merely fixes the repository URL to refer to the source repository rather than the http page that hosts the GitHub repository. Also, the nuget package for this release is now built deterministically.
Please inform me of any bugs found on the issues page or via email: I intend to fix bugs. I consider this project more or less feature complete and do not imagine any additional extensive features being added by me. If you would like to add features, I am happy to review any pull-request or issue.
|.NET||net5.0 net5.0-windows net6.0 net6.0-android net6.0-ios net6.0-maccatalyst net6.0-macos net6.0-tvos net6.0-windows|
|.NET Core||netcoreapp2.0 netcoreapp2.1 netcoreapp2.2 netcoreapp3.0 netcoreapp3.1|
|.NET Standard||netstandard2.0 netstandard2.1|
|.NET Framework||net461 net462 net463 net47 net471 net472 net48|
NuGet packages (1)
Showing the top 1 NuGet packages that depend on HighPrecisionTimeStamps:
Synchronization Library and Static Analysis Tool for C# 8 DotNetVault is a library and static code analysis tool that makes managing shared mutable state in multi-threaded applications more manageable and less error prone. It also provides a common abstraction over several commonly used synchronization mechanisms, allowing you to change from one underlying type to another (such as from lock free synchronization to mutex/monitor lock based) without needing to refactor your code. Where errors do still occur, they are easier to locate and identify. The project description (a detailed design document) can be read here: https://github.com/cpsusie/DotNetVault/blob/master/DotNetVault_Description_v1.0.pdf. A quick start guide for installation (Windows, Vs 2019+) can be found here: https://github.com/cpsusie/DotNetVault/blob/v0.2.5.x/QuickStart_Install_VS2019_Windows.md. A quick start guide for installation (Tested on Amazon Linux, Rider 2019.3.1+) can be found here: https://github.com/cpsusie/DotNetVault/blob/v0.2.5.x/Quick_Start_Install_Rider_Amazon_Linux.md. A guided tour / quick start guide for this project's functionality can be found here: https://github.com/cpsusie/DotNetVault/blob/v0.2.5.x/Quick_Start_Functionality_Tour.md
This package is not used by any popular GitHub repositories.
Release version 126.96.36.199
This release contains no changes to the code itself or to program behavior. Instead it merely fixes the repository url to refer to the source repository rather than the http page that hosts the Github repository. Also, it enables the nuget package to be built deterministically.
Release version 1.0
This is the non-beta release of the fix introduced with beta version 0.1.1.0-beta. The issues resolved by that release included problems with serialization and deserialization of portable monotonic stamps when serialized on a system with a different DateTime.MinValue.ToUniversalTime() value than the one on which it is deserialized. Those changes are discussed in pull request 14 , issue 12  and issue 13 . The changes to the code can be reviewed in pull request 14 , commit x  and, most particularly around these lines of code .