This repo is for experimentation and exploring new ideas that may or may not make it into the main corefx repo.
x64 Debug | x64 Release | |
---|---|---|
Windows NT | ||
Ubuntu 16.04 | ||
OSX 10.12 |
While this repo is meant for experimentation, we still want to focus our efforts in a particular direction, specifically to work on areas aligned with our roadmap.
The general idea is that we mature our thinking in this repo and either decide not to pursue it or that we want to productize in which case we'll eventually migrate the code to the appropriate location, usually the dotnet/corefx repository.
Of course, this doesn't mean we're not willing to explore areas that aren't part of our roadmap, but we'd prefer if these would start with a document, and not with code. This allows us to collaborate on how we want to approach specific holes or issues with our platform without being drowned in large PRs.
Currently, this repo contains the following experimental components:
-
System.Buffers.Primitives A set of features for representing and manipulating managed, native buffers. The package complements Span<T> and ReadOnlySpan<T> primitives of System.Memory package. See more information about the features at span.md and memory.md.
-
System.IO.FileSystem.Watcher.Polling. .NET's FileSystemWatcher has low overhead, but it can miss some changes. This is acceptable in many scenarios, but in some, it might be not. This component, PollingWatcher, allows to monitory directory changes by polling, and so will never miss a change. It is optimized to minimize allocations, when no changes are detected. In fact, it does not allocate anything on the GC heap when there are no changes detected.
-
System.Text.Formatting. System.Text.Formatting APIs are similar to the existing StringBuilder and TextWriter APIs. They are designed to format values into text streams and to build complex strings. But these APIs are optimized for creating text for the Web. They do formatting with minimum GC heap allocations (1/6 of allocations in some scenarios) and can format directly to UTF8 streams. This can result in significant performance wins for software that does a lot of text formatting for the Web, e.g. generating HTML, JSON, XML. See more information on this component and code samples at the Wiki.
-
System.Text.Primitives The System.Text.Primitives library contains fast, non-allocating integral parsing APIs. They are designed for scenarios in which a byte buffer and an index are accepted as input and a parsed value is desired as output (e.g. in a web server). These APIs present significant performance gains over converting the buffer to a string, indexing into the string, and then parsing.
-
System.Time. This project augments the date and time APIs in .NET. It adds two new core types:
Date
andTime
. These types will ultimately be submited for inclusion inSystem.Runtime
.
More libraries are coming soon. Stay tuned!
The following projects were moved to the archived_projects directory since they do not have any stewards and are no longer under active development. We will no longer publish new packages for these to MyGet and possibly remove them all together in the future.
-
System.Collections.Generic.MultiValueDictionary. The
MultiValueDictionary
is a generic collection that functions similarly to aDictionary<TKey, ICollection<TValue>>
with some added validation and ease of use functions. It can also be compared to a Lookup with the exception that theMultiValueDictionary
is mutable. It allows custom setting of the internal collections so that uniqueness of values can be chosen by specifying either aHashSet<TValue>
orList<TValue>
. Some of the design decisions as well as introductions to usage can be found in the old blog posts introducing it here and here. -
System.CommandLine. The purpose of this library is to make command line tools first class by providing a command line parser. Here are the goals: designed for cross-platform usage, lightweight with minimal configuration, optional but built-in support for help, validation, and response files, support for multiple commands, like version control tools. See the README.md for more information.
-
System.Drawing.Graphics. A prototype of .NET Framework's System.Drawing.Graphics on LibGD (instead of using GDIPlus). Some background information can be found here. See the README.txt for more information on building the archived project.
For an overview of all the .NET related projects, have a look at the .NET home repository.
You can get the .NET Core Lab packages from dotnet-corefxlab MyGet feed:
https://dotnet.myget.org/F/dotnet-corefxlab/
or
https://dotnet.myget.org/F/dotnet-corefxlab/api/v3/index.json (preview support)
Symbols:
https://dotnet.myget.org/F/dotnet-corefxlab/symbols/
You can add this feed among your NuGet sources and install the packages (keep in mind that packages are pre-release packages).
This project is licensed under the MIT license.
This project is a part of the .NET Foundation.
There are many .NET related projects on GitHub.
- .NET home repo - links to 100s of .NET projects, from Microsoft and the community.
- ASP.NET Core home - the best place to start learning about ASP.NET Core.
To build the projects in this repo, here is what you need to do:
- The easiest way to build the repo is to invoke
build.cmd
(on Windows) orbuild.sh
(on Linux) via the command line after you clone it. When you runbuild.cmd
orbuild.sh
, the following happens:- The latest .NET cli and runtime are downloaded and installed (under the
dotnetcli
folder) - The NuGet packages for the
corefxlab.sln
solution are restored- To skip this step, add
-Restore false
as an argument (build.cmd
only)
- To skip this step, add
- The
corefxlab.sln
solution (which contains all the active source and test projects) is built - All the unit tests witin the test projects (that live inside the
tests
folder) are executed.- To skip this step, add
-SkipTests true
as an argument (build.cmd
only)
- To skip this step, add
- The latest .NET cli and runtime are downloaded and installed (under the
- After you have have run
build
at least once, you can open thecorefxlab.sln
solution file in Visual Studio 2017 (Community, Professional, or Enterprise), on Windows. Make sure you have the .NET Core workload installed (see corefx windows build instructions for more details). Also, make sure to add thedotnetcli
folder path to your system path environment variable. If you are using VS Code, see https://aka.ms/vscclrdogfood.- If you cannot change the system path, then download or install the new version of the .NET CLI for your operating system at the default global location
C:\Program Files\dotnet
, which is referenced by VS.
- If you cannot change the system path, then download or install the new version of the .NET CLI for your operating system at the default global location
There are two main reasons for receiving this error:
- You don't have the latest version. Run
build
to install the latest versions. - The wrong
dotnet.exe
is being located.- From the command line, ensure that you are running
dotnet.exe
from thedotnetcli
directory (rundotnet --info
). - Alternatively, you can add
[RepoPath]\corefxlab\dotnetcli
to you system path, "ahead" ofC:\Program Files\dotnet
. - For building and running tests within VS, you'll need to use this latter option.
- From the command line, ensure that you are running
All the performance tests live in the tests\Benchmarks
directory. To run them via the command line, navigate to that folder and run dotnet run -c Release
. This will give you the list of benchmarks that you can select to run. The results of the benchmark are displayed on the console and all the artifacts (including the results) are placed in the BenchmarkDotNet.Artifacts folder. For details on BenchmarkDotNet, please refer to its GitHub page.