Awesome
ThisAssembly
<!-- include https://github.com/devlooped/.github/raw/main/sponsorlinkr.md -->This project uses SponsorLink to attribute sponsor status (direct, indirect or implicit). For IDE usage, sponsor status is required. IDE-only warnings will be issued after a grace period otherwise.
<!-- https://github.com/devlooped/.github/raw/main/sponsorlinkr.md --> <!-- #meta -->Expose project and assembly level information as constants in the ThisAssembly class using source generators powered by Roslyn.
The main generated entry point type is ThisAssembly
in the global namespace (by default),
and is declared as partial so you can extend it too with manually created members.
Use
$(ThisAssemblyNamespace)
MSBuild property to set a root namespace forThisAssembly
.
Each package in turn extends this partial class to add their own nestes types and members.
The ThisAssembly meta-package includes all the other packages for convenience.
<!-- #meta -->For now, ThisAssembly only generates C# code.
ThisAssembly.AssemblyInfo
<!-- include src/ThisAssembly.AssemblyInfo/readme.md#assembly --> <!-- #assembly -->This package generates a static ThisAssembly.Info
class with public
constants exposing the following attribute values generated by default for SDK style projects:
-
AssemblyConfigurationAttribute
-
AssemblyCompanyAttribute
-
AssemblyTitleAttribute
-
AssemblyDescriptionAttribute
-
AssemblyProductAttribute
-
AssemblyCopyrightAttribute
-
AssemblyVersionAttribute
-
AssemblyInformationalVersionAttribute
-
AssemblyFileVersionAttribute
If your project includes these attributes by other means, they will still be emitted properly
on the ThisAssembly.Info
class.
ThisAssembly.Constants
<!-- include src/ThisAssembly.Constants/readme.md#constants --> <!-- #constants -->This package generates a static ThisAssembly.Constants
class with public
constants for @(Constant)
MSBuild items in the project.
<ItemGroup>
<Constant Include="Foo.Bar" Value="Baz" Comment="Yay!" />
<Constant Include="Foo.Hello" Value="World" Comment="Comments make everything better 😍" />
</ItemGroup>
These constants can use values from MSBuild properties, making compile-time values configurable via environment variables or command line arguments. For example:
<PropertyGroup>
<HttpDefaultTimeoutSeconds>10</HttpDefaultTimeoutSeconds>
</PropertyGroup>
<ItemGroup>
<Constant Include="Http.TimeoutSeconds"
Value="$(HttpDefaultTimeoutSeconds)"
Type="int"
Comment="Default timeout in seconds for HTTP requests" />
</ItemGroup>
The C# code could consume this constant as follows:
public HttpClient CreateHttpClient(string name, int? timeout = default)
{
HttpClient client = httpClientFactory.CreateClient(name);
client.Timeout = TimeSpan.FromSeconds(timeout ?? ThisAssembly.Constants.Http.TimeoutSeconds);
return client;
}
Note how the constant is typed to int
as specified in the Type
attribute in MSBuild.
The generated code uses the specified Type
as-is, as well as the Value
attribute in that
case, so it's up to the user to ensure they match and result in valid C# code. For example,
you can emit a boolean, long, double, etc.. If no type is provided, string
is assumed. Values
can also be multi-line and will use C# raw string literals
if supported by the target language version (11+).
In this example, you could trivially change how your product behaves by setting the environment
variable HttpDefaultTimeoutSeconds
in CI. This is particularly useful for test projects,
where you can easily change the behavior of the system under test without changing the code.
In addition to arbitrary constants via <Constant ...>
, it's quite useful (in particular in test projects)
to generate constants for files in the project, so there's also a shorthand for those:
<ItemGroup>
<FileConstant Include="@(Content)" />
</ItemGroup>
Which results in:
<!-- #constants --> <!-- src/ThisAssembly.Constants/readme.md#constants -->ThisAssembly.Git
<!-- include src/ThisAssembly.Git/readme.md#git --> <!-- #git -->This package generates a static ThisAssembly.Git
class with constants
for the following Git properties from the current project:
- Commit
- Sha (first 9 chars from Commit)
- Root (normalized to forward slashes)
- Url (if PublishRepositoryUrl=true)
- Branch (from CI environment variables)
This package relies on your project's installed Microsoft.SourceLink.* package reference according to your specific Git-based source control server (such as GitHub, Azure DevOps, BitBucket, etc).
NOTE: from .NET 8 SDK onwards, SourceLink is included by default, so you don't need to add it manually.
The Branch
property is populated from environment variables provided
by the currently supported CI systems: GitHub Actions, Azure DevOps,
AppVeyor, TeamCity, Travis CI, Circle CI, GitLab CI, Buddy, and Jenkins.
Whenever the CI system provides a pull request number, the branch name is
pr[NUMBER]
, such as pr123
. This makes it easy to use it as a semver
metadata label.
Note: by default, the values of these constants are populated during "real" builds (that is, not IDE/design-time builds used to populate intellisense). This is to avoid negatively affecting the editor's performance. This means, however, that the properties will seem to always be empty when inspecting them in the IDE (although never at run-time). If you want to force population of these values for design-time builds, set the
EnableSourceControlManagerQueries
property totrue
. This property is defined and documented by dotnet/sourcelink.
At the MSBuild level, targets can take a dependency on the provided
InitializeGitInformation
target, which sets the equivalent properties
named:
- RepositoryCommit
- RepositorySha
- RepositoryRoot
- RepositoryUrl
- RepositoryBranch
The names of these properties were chosen on purpose to match the properties used by nuget pack and nugetizer to populate the relevant package metadata.
So if you have a GitHub repository, installing these three packages will ensure you have the proper metadata out of the box and the simplest packaging experience possible:
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>netstandard2.0</TargetFramework>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="Microsoft.SourceLink.GitHub" />
<PackageReference Include="ThisAssembly.Git" />
<PackageReference Include="NuGetizer" />
</ItemGroup>
</Project>
<!-- #git -->
<!-- src/ThisAssembly.Git/readme.md#git -->
ThisAssembly.Metadata
<!-- include src/ThisAssembly.Metadata/readme.md#metadata --> <!-- #metadata -->This package provides a static ThisAssembly.Metadata
class with public
constants exposing each [System.Reflection.AssemblyMetadata(..)]
defined in
the project file as supported by the .NET SDK.
The metadata attribute is declared using MSBuild syntax in the project
(for .NET 5.0+ projects that have built-in support for @(AssemblyMetadata)
items):
<ItemGroup>
<AssemblyMetadata Include="Foo" Value="Bar" />
</ItemGroup>
And a corresponding ThisAssembly.Metadata.Foo
constant with the value Bar
is provided
for this example.
ThisAssembly.Project
<!-- include src/ThisAssembly.Project/readme.md#project --> <!-- #project -->This package generates a static ThisAssembly.Project
class with public
constants exposing project properties that have been opted into this mechanism by adding
them as ProjectProperty
MSBuild items in the project file, such as:
<PropertyGroup>
<!-- Some arbitrary MSBuild property declared somewhere -->
<Foo>Bar</Foo>
</PropertyGroup>
<ItemGroup>
<!-- Opt-in to emitting that property value as a constant in ThisAssembly.Project -->
<ProjectProperty Include="Foo" Comment="This comment replaces the default comment :)" />
</ItemGroup>
<!-- #project -->
<!-- src/ThisAssembly.Project/readme.md#project -->
ThisAssembly.Resources
This package generates a static ThisAssembly.Resources
class with public
properties exposing shortcuts to retrieve the contents of embedded resources.
This package generates a static ThisAssembly.Resources
class with public
properties exposing typed APIs to retrieve the contents of embedded resources.
<ItemGroup>
<EmbeddedResource Include="Content/Docs/License.md" />
</ItemGroup>
Since markdown files are text files, the API will expose a Text
property property
for it that will read its content once and cache it:
The $(EmbeddedResourceStringExtensions)
MSBuild property allows customizing which
file extensions get treated as text files. By default, it's defined as:
<PropertyGroup>
<EmbeddedResourceStringExtensions>.txt|.cs|.sql|.json|.md</EmbeddedResourceStringExtensions>
</PropertyGroup>
You can append additional file extensions to this list, or override it completely. The list must be pipe-separated.
You can always use the provided GetStream
and GetBytes
for more advanced scenarios (or for
non-text resources).
Optionally, you can specify the Kind
metadata for a specific EmbeddedResource
you want
treated as a text file:
<ItemGroup>
<EmbeddedResource Include="query.kql" Kind="Text" />
</ItemGroup>
You can also add a Comment
item metadata attribute, which will be used as the <summary>
XML
doc for the generated member.
Adding dynamic resources
You can also provide additional embedded resources dynamically, by running a target before
PrepareEmbeddedResources
:
<Target Name="AddDynamicResources" BeforeTargets="PrepareEmbeddedResources">
<ItemGroup>
<EmbeddedResource Include="Content/Docs/$(Configuration).md" />
</ItemGroup>
</Target>
Customizing the generated code
The following MSBuild properties can be used to customize the generated code:
Property | Description |
---|---|
ThisAssemblyNamespace | Sets the namespace of the generated ThisAssembly root class. If not set, it will be in the global namespace. |
ThisAssemblyVisibility | Sets the visibility modifier of the generated ThisAssembly root class. If not set, it will be internal. |
ThisAssembly.Strings
<!-- include src/ThisAssembly.Strings/readme.md#strings --> <!-- #strings -->This package generates a static ThisAssembly.Strings
class with public
constants exposing string resources in .resx files or methods with the right number of
parameters for strings that use formatting parameters.
In addition, it groups constants and methods in nested classes according to an optional underscore separator to organize strings. For example, User_InvalidCredentials can be accessed with ThisAssembly.Strings.User.InvalidCredentials if it contains a simple string, or as a method with the right number of parametres if its value has a format string.
Given the following Resx file:
Name | Value | Comment |
---|---|---|
Infrastructure_MissingService | Service {0} is required. | For logging only! |
Shopping_NoShipping | We cannot ship {0} to {1}. | |
Shopping_OutOfStock | Product is out of stock at this time. | |
Shopping_AvailableOn | Product available on {date:yyyy-MM}. |
The following code would be generated:
partial class ThisAssembly
{
public static partial class Strings
{
public static partial class Infrastructure
{
/// <summary>
/// For logging only!
/// => "Service {0} is required."
/// </summary>
public static string MissingService(object arg0)
=> string.Format(CultureInfo.CurrentCulture,
Strings.GetResourceManager("ThisStore.Properties.Resources").GetString("MissingService"),
arg0);
}
public static partial class Shopping
{
/// <summary>
/// => "We cannot ship {0} to {1}."
/// </summary>
public static string NoShipping(object arg0, object arg1)
=> string.Format(CultureInfo.CurrentCulture,
Strings.GetResourceManager("ThisStore.Properties.Resources").GetString("NoShipping"),
arg0, arg1);
/// <summary>
/// => "Product is out of stock at this time."
/// </summary>
public static string OutOfStock
=> Strings.GetResourceManager("ThisStore.Properties.Resources").GetString("OutOfStock");
/// <summary>
/// Product available on {date:yyyy-MM}.
/// </summary>
public static string AvailableOn(object date)
=> string.Format(CultureInfo.CurrentCulture,
Strings.GetResourceManager("ThisAssemblyTests.Resources").GetString("WithNamedFormat").Replace("{date:yyyy-MM}", "{0}"),
((IFormattable)date).ToString("yyyy-MM", CultureInfo.CurrentCulture));
}
}
}
Customizing the generated code
The following MSBuild properties can be used to customize the generated code:
Property | Description |
---|---|
ThisAssemblyNamespace | Sets the namespace of the generated ThisAssembly root class. If not set, it will be in the global namespace. |
ThisAssemblyVisibility | Sets the visibility modifier of the generated ThisAssembly root class. If not set, it will be internal. |
ThisAssembly.Vsix
<!-- include src/ThisAssembly.Vsix/readme.md#vsix --> <!-- #vsix -->Allows consuming VSIX manifest properties from code, as well as MSBuild project properties from the VSIX manifest. For example:
In addition to making the VSIX manifest metadata
properties available as constants, the package also provides targets for those properties
with sensible defaults from project properties so that the manifest can leverage
placeolder syntax
and avoid duplication in the source.extension.vsixmanifest
:
<PackageManifest Version="2.0.0" ...>
<Metadata>
<!-- You can use the |ProjectName;TargetName| syntax throughout this manifest, BTW -->
<Identity Id="|%CurrentProject%;VsixId|" Version="|%CurrentProject%;VsixVersion|" Language="|%CurrentProject%;VsixLanguage|" Publisher="|%CurrentProject%;VsixPublisher|" />
<DisplayName>|%CurrentProject%;VsixDisplayName|</DisplayName>
<Description>|%CurrentProject%;VsixDescription|</Description>
</Metadata>
...
</PackageManifest>
The available properties and their default values are:
Name | Default Value |
---|---|
VsixID | $(PackageId) or $(AssemblyName) |
VsixVersion | $(Version) |
VsixDisplayName | $(Title) |
VsixDescription | $(Description) |
VsixProduct | $(Product) |
VsixPublisher | $(Company) |
VsixLanguage | $(NeutralLanguage) or 'en-US' |
As shown in the example above, the syntax for using these properties from the source.extension.vsixmanifest
is
|%CurrentProject%;[PROPERTY]|
. This is because the package defines a corresponding target to
retrieve each of the above properties. You can provide a different value for each property via
MSBuild as usual, of course.
Since the $(PackageId)
property can be used as the VSIX ID, the Pack
target is redefined to
mean CreateVsixManifest
, so "packing" the VSIX is just a matter of right-clicking the VSIX
project and selecting "Pack".
Customizing the generated code
Set the $(ThisAssemblyNamespace)
MSBuild property to set the namespace of the
generated ThisAssembly
root class. Otherwise, it will be generated in the global namespace.
The generated root ThisAssembly
class is partial and has no visibility modifier by default,
making it internal by default in C#.
You can set the $(ThisAssemblyVisibility)
MSBuild property to public
to make it public.
This will also change all constants to be static readonly properties instead.
Default:
partial class ThisAssembly
{
public partial class Constants
{
public const string Hello = "World";
}
}
In this case, the compiler will inline the constants directly into the consuming code at the call site, which is optimal for performance for the common usage of constants.
Public:
public partial class ThisAssembly
{
public partial class Constants
{
public static string Hello => "World";
}
}
This makes it possible for consuming code to remain unchanged and not require
a recompile when the the values of ThisAssembly
are changed in a referenced assembly.
If you want to keep the properties as constants, you can instead extend the generated code by defining another partial that can modify its visibility as needed (or add new members).
// makes the generated class public
public partial ThisAssembly
{
// Nested classes are always public since the outer class
// already limits their visibility
partial class Constants
{
// add some custom constants
public const string MyConstant = "This isn't configurable via MSBuild";
// generated code will remain as constants
}
}
<!-- src/visibility.md -->
Dogfooding
We also produce CI packages from branches and pull requests so you can dogfood builds as quickly as they are produced.
The CI feed is https://pkg.kzu.io/index.json
.
The versioning scheme for packages is:
- PR builds: 42.42.42-pr
[NUMBER]
- Branch builds: 42.42.42-
[BRANCH]
.[COMMITS]