autorest --csharp
to the new version V3
, which uses @autorest/csharp
package and it will have few side effects:
- It will generate code based on the .NET SDK guidelines, which will be totally different than the code generated by
V2
version. - The dotnet 8.0 or above is required.
- If you still want to generate code based on
V2
version, you can add--legacy
flag to the command line to get the previous behavior.
- C# code generator for AutoRest V3
- Prerequisites
- Build
- Test
- PR Merge Process
- Use in
azure-sdk-for-net
repo - Use outside of the
azure-sdk-for-net
repo - Debugging
- Debugging transforms
- Customizing the generated code
- Make a model internal
- Rename a model class
- Change a model or client namespace
- Make model property internal
- Rename a model property
- Change a model property type
- Preserve raw Json value of a property
- Changing member doc comment
- Customize serialization/deserialization methods
- Change the serialized name of a property
- Change the hierarchy of a property in the serialized JSON
- Change the implementation of serialization/deserialization method of one particular property
- Add a new property to the model with serialization/deserialization
- Replace the entire serialization/deserialization method
- Renaming an enum
- Renaming an enum member
- Changing an enum to an extensible enum
- Make a client internal
- Rename a client
- Replace any generated member
- Remove any generated member
- Change model namespace or accessibility in bulk
- Change operation accessibility in bulk
- Exclude models from namespace
- Extending a model with additional constructors
- Management plane concepts and configurations
- NodeJS (18.x.x)
- .NET Core SDK (8.0.303 or above)
- PowerShell Core 7
npm install
(at root)
dotnet build
(at root)
./eng/Generate.ps1
(at root in PowerShell Core)
This command tests your change across many swagger definitions and samples.
These arguments change the behavior:
-fast
option skips Swagger -> YAML IL step. Much faster when only making codegen changes-fast SWAGGER_NAME
(where SWAGGER_NAME is replaced with the name of the swagger) to run only one case
You could run this command on local dev machine or ask github workflow run it against your branch. The steps to run workflow is:
- Go to github actions from your fork repo.
- Click workflow "Regenerate all code".
- Choose the branch you are working on, and click "Run workflow".
- After the workflow success, there will be a new commit to your branch
dotnet test
(at root)
autorest.testserver
autorest.testserver provides a platform for automated testing of the code generators.
It packages a bunch of test swagger files, along with a “mock” nodejs server.
The swagger files are compiled, and then run, which pings the mock server (to verify behavior). This tests both the Modeler 4 and language specific codegen.
This document contains some additional technical details.
cadl-ranch
cadl-ranch is similar to autorest.testserver, which provides a platform for automated testing too. The difference is the testing target of cadl-ranch is typespec generated SDK.
Sometimes when we are adding new tests in cadl-ranch, we might want to make sure the tests and corresponding mock APIs work well by applying these newly added/modified tests to autorest.csharp. To realize this, run .\eng\ApplyCadlRanch.ps1 {cadl-ranch path}
or just run .\eng\ApplyCadlRanch.ps1
if cadl-ranch folder is at the same folder of autorest.csharp.
When the automatic PR is created for azure-sdk-for-net if there are any issues found all other changes to autorest.csharp are blocked until those issues are resolved. This means we should be certain that the changes we are making create the expected result in azure-sdk-for-net prior to merging our PR.
This step could be done manually or automatically with below steps:
Go to Autorest Regen Preview pipeline, and click "Run Pipeline". In "Branch/tag", type in your PR ref, i.e. refs/pull/3215/head, or refs/pull/3215/merge. Click "Run". After the build finishes, there will be a PR starting with "Autorest Regen Preview" in azure-sdk-for-net.
Once this is done we want to ensure this regen PR is discoverable as well as the key stakeholders who would need to sign off mark this PR as either approved or request changes.
- In the autorest.csharp PR description please add a line at the very top indicating which azure-sdk-for-net PR is the regeneration for this PR. An example would look like this
- Next have any stakeholders that would need to review do so in this PR and mark it as approved or request changes.
- Once all stakeholders review and approve of the PR we are ready for the next step of merging the autorest.csharp PR.
When the autorest.csharp PR gets merged there will be an automatic azure-sdk-for-net PR created under the azure-sdk fork but this PR will not contain any of the Export-API changes nor will it contain any custom changes to fix test cases / snippet references. It is therefore recommended that we merge this PR into our custom PR we made to validate there are no additional changes we didn't expect.
- Undo the changes to the nuget config and Packages.Data.props if you have not already done so.
- Add a note in the autogenerated PR that conflicts are being resolved in PR you created above so that people know where to follow the conversation.
- If you haven't done so add azure-sdk as an upstream and pull the branch that the automatic PR uses
auto-update-autorest
into your local azure-sdk-for-net branch.git remote add azure-sdk https://github.com/azure-sdk/azure-sdk-for-net
git fetch azure-sdk
git pull azure-sdk auto-update-autorest
- This should have zero conflicts and if it does something wasn't done correctly in the PR that was created to demonstrate the regeneration.
- If there are conflicts our only option here is to resolve them, but will most require another review from the stakeholders most likely.
- If there were no conflicts or after they are resolved push the changes to your branch and you can then merge the PR that was previous approved or re-approved in the case of conflicts.
- The autogenerated PR can now simply be closed
Run dotnet build /t:GenerateCode
in the directory that contains your .csproj
file.
This executes these targets.
Refer also to azure-sdk-for-net/CONTRIBUTING.md for more details.
Merging a change in autorest.csharp will open a PR against azure-sdk-for-net with every project’s generated code staged for review.
Along with this, it also bumps the generator to the new version.
This bump is done here.
The generator is shipped as a NuGet package.
This way, every binding stays in lockstep with the current generator
Use below command to generate code:
autorest --use:@autorest/csharp@3.0.0-beta.20210210.4 --input-file:FILENAME --clear-output-folder:true --output-folder:DIRECTORY
Note:
- Use @autorest/csharp version v3.0.0-beta.20210210.4 or later.
- If you don't want to override the
.csproj
after the first generation, you can pass--skip-csproj
flag with the autorest command.
For more details please refer these docs to generate code from your OpenAPI definition using AutoRest.
The generator consists of two parts, first part consumes the input (swagger or TypeSpec) and produce an intermediate result which the second part consumes them to produce the generated code.
When the input is swagger files, the generator leverages the processes and pipelines from autorest, and its first part is the autorest plugin autorest.modelerfour
which produces the file CodeModel.yaml
and Configuration.json
.
When the input is TypeSpec files, the first part is the autorest plugin @azure-tools/typespec-csharp
which produces the file tspCodeModel.json
and Configuration.json
.
The second part of the generator is written in C#
and consumes Configuration.json
and CodeModel.yaml
/tspCodeModel.json
to produce the generated code.
This section shows how to debug the second part of the generator which takes Configuration.json
and CodeModel.yaml
/tspCodeModel.json
as input.
The autorest.csharp
repo contains quite a few sample projects and test projects to verify various of features of the generator. To debug these projects, you could just simply open the solution file AutoRest.CSharp.sln
in Visual Studio and Visual Studio already has a corresponding debugging profile for each project which you could start debugging with.
To debug a project outside the autorest.csharp
repo, in addition to the prerequisites you must do to let your project be able to use the generator, you also need to do the following depending on the input type of your project.
If your project is using the swagger files as input, and you use a markdown file (like readme.md
or autorest.md
) as the configuration of your autorest command, you need to add the following to your configuration md
file
csharpgen:
attach: true
This will attach the debugger to either an existing Visual Studio instance or opening a new Visual Studio instance to debug the generator.
If your project is using the swagger files as input, and you use the autorest command line to pass in the configurations, you need to add the following options to your autorest command:
--csharpgen.attach=true
to attach a debugger to the plugin process.
If your project is using the TypeSpec files as input, you need to add the following options to your command line
--option @azure-tools/typespec-csharp.debug=true
to attach a debugger to the plugin process.
If you need to use a locally built generator, you could use the following options to specify the path to the generator dll file:
--option @azure-tools/typespec-csharp.csharpGeneratorPath=/absolute/path/to/AutoRest.CSharp.dll
Usually you should find the AutoRest.CSharp.dll
file here: [Root of autorest.csharp repo]/artifacts/bin/AutoRest.CSharp/Debug/net8.0/AutoRest.CSharp.dll
.
There is a target defined in azure-sdk-for-net
repo to generate the library code:
dotnet build /t:GenerateCode
In azure-sdk-for-net
repo, to debug a project that uses swagger files as input, you need to add the following to your autorest.md
file
csharpgen:
attach: true
and then run dotnet build /t:GenerateCode
and it will attach a debugger to the plugin process.
To debug a TypeSpec project inside azure-sdk-for-net
repo, you could run
dotnet build /t:GenerateCode /p:typespecAdditionalOptions="debug=true"
to attach a debugger to the plugin process.
If you are trying to use a locally built generator dll
and debug it, you should run
dotnet build /t:GenerateCode /p:typespecAdditionalOptions="csharpGeneratorPath=/absolute/path/to/AutoRest.CSharp.dll%3Bdebug=true"
where you must use %3B
as escape of the semicolon to append multiple options.
Many customizations can be done as a transform in readme.md, however getting it right can be tricky.
One useful trick is to use $lib.log
to output the state of the object either before of after transform:
transform: >
$['x-accessibility'] = "internal";
$lib.log($);
Define a class with the same namespace and name as generated model and use the desired accessibility.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model { }
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
internal partial class Model { }
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
- public partial class Model { }
+ internal partial class Model { }
}
Define a class with a desired name and mark it with [CodeGenModel("OriginalName")]
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model { }
}
Add customized model (NewModelClassName.cs)
namespace Azure.Service.Models
{
[CodeGenModel("Model")]
public partial class NewModelClassName { }
}
Generated code after (Generated/Models/NewModelClassName.cs):
namespace Azure.Service.Models
{
- public partial class Model { }
+ public partial class NewModelClassName { }
}
Define a class with a desired namespace and mark it with [CodeGenModel("OriginalName")]
.
The same works for a client, if marked with [CodeGenClient("ClientName")]
.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model { }
}
Add customized model (NewModelClassName.cs)
namespace Azure.Service
{
[CodeGenModel("Model")]
public partial class Model { }
}
Generated code after (Generated/Models/NewModelClassName.cs):
- namespace Azure.Service.Models
+ namespace Azure.Service
{
public partial class Model { }
}
Define a class with a property matching a generated property name but with desired accessibility.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public string Property { get; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
internal string Property { get; }
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public string Property { get; }
}
}
Define a partial class with a new property name and mark it with [CodeGenMember("OriginalName")]
attribute.
NOTE: you can also change a property to a field using this mapping.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public string Property { get; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
[CodeGenMember("Property")]
public string RenamedProperty { get; }
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public string Property { get; }
+ // All original Property usages would reference a RenamedProperty
}
}
NOTE: This is supported for a narrow set of cases where the underlying serialized type doesn't change
Scenarios that would work:
- String <-> TimeSpan (both represented as string in JSON)
- Float <-> Int (both are numbers)
- String <-> Enums (both strings)
- String -> Uri
Won't work:
- String <-> Bool (different json type)
- Changing model kinds
If you think you have a valid re-mapping scenario that's not supported file an issue.
Define a property with different type than the generated one.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public string Property { get; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
public DateTime Property { get; }
}
}
Generated code after (Generated/Models/Model.Serializer.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public string Property { get; }
+ // Serialization code now reads and writes DateTime value instead of string
}
}
Use the Change a model property type approach to change property type to JsonElement
.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public string Property { get; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
public JsonElement Property { get; }
}
}
Generated code after (Generated/Models/Model.Serializer.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public string Property { get; }
+ // Serialization code now reads and writes JsonElement value instead of string
}
}
Redefine a member in partial class with a new doc comment.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
/// Subpar doc comment
public string Property { get; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
/// Great doc comment
public string Property { get; }
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- /// Subpar doc comment
- public string Property { get; }
}
}
Changing how a property serializes or deserializes is done by CodeGenSerialization
attribute. This attribute can be applied to a class or struct with a property name to change the serialization/deserialization method of the property.
If you want to change the property name that serializes into the JSON or deserializes from the JSON, you could define your own partial class with the CodeGenMemberSerialization
attribute.
For instance, we have a model class Cat
with property Name
and Color
:
Generated code before:
// Generated/Models/Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
/* omit the ctors for brevity */
public string Name { get; set; }
public string Color { get; set; }
}
}
Add customized model:
// Cat.cs
namespace Azure.Service.Models
{
[CodeGenSerialization(nameof(Name), "catName")] // add the property name, and the new serialized name
public partial class Cat
{
}
}
Generated code after:
// Generated/Models/Cat.cs - no change
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
- writer.WritePropertyName("name"u8);
+ writer.WritePropertyName("catName"u8);
writer.WriteStringValue(Name);
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
foreach (var property in element.EnumerateObject())
{
- if (property.NameEquals("name"u8))
+ if (property.NameEquals("catName"u8))
{
name = property.Value.GetString();
continue;
}
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color);
}
}
}
If you want to change the layer of the property in the json, you can add all the elements in the json path of your property to the attribute using an array, the generator will generate the property into the JSON in the correct hierarchy.
NOTE: Introducing extra layers in serialized JSON only works for MPG and HLC models, does not work for DPG models.
For instance, we want to move Name
property in the model Cat
to make it serialized under property properties
and rename to catName
.
Generated code before:
// Generated/Models/Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
/* omit the ctors for brevity */
public string Name { get; set; }
public string Color { get; set; }
}
}
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"u8))
{
name = property.Value.GetString();
continue;
}
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color);
}
}
}
Add customized model:
// Cat.cs
namespace Azure.Service.Models
{
[CodeGenSerialization(nameof(Name), new string[] { "properties", "catName" })]
public partial class Cat
{
}
}
Generated code after:
// Generated/Models/Cat.cs - no change
// Generated/Models/Model.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
- writer.WritePropertyName("name"u8);
+ writer.WritePropertyName("properties"u8);
+ writer.WriteStartObject();
+ writer.WritePropertyName("catName"u8);
writer.WriteStringValue(Name);
+ writer.WriteEndObject();
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
foreach (var property in element.EnumerateObject())
{
- if (property.NameEquals("name"u8))
+ if (property.NameEquals("properties"u8))
+ {
+ foreach (var property in element.EnumerateObject())
+ {
+ if (property.NameEquals("catName"u8))
{
meow = property.Value.GetString();
continue;
}
+ }
+ continue;
+ }
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color);
}
}
}
If you want to change the implementation of serialization/deserialization method of a property, you could define your own hook methods and assign them to the CodeGenSerialization
attribute.
The custom serialization method for this property is assigned by the SerializationValueHook
property of the CodeGenSerialization
attribute, and the custom deserialization method for this property is assigned by the DeserializationValueHook
property of the CodeGenSerialization
attribute.
The SerializationValueHook
and DeserializationValueHook
here are hook method names, and these methods should have the signature as below:
// serialization hook and serialization value hook
[MethodImpl(MethodImplOptions.AggressiveInlining)]
internal void SerializationMethodHook(Utf8JsonWriter writer)
{
// write your own serialization logic here
}
// deserialization hook for required property
[MethodImpl(MethodImplOptions.AggressiveInlining)]
internal static void DeserializeSizeProperty(JsonProperty property, ref TypeOfTheProperty name)
{
// write your own deserialization logic here
}
// deserialization hook for optional property
[MethodImpl(MethodImplOptions.AggressiveInlining)]
internal static void DeserializeSizeProperty(JsonProperty property, ref Optional<TypeOfTheProperty> name)
{
// write your own deserialization logic here
}
Please use the nameof
expression to avoid typo in the attribute. Also you could leave both the serialization value hook unassigned if you do not want to change the serialization logic, similar you could leave deserialization hook unassigned if you do not want to change the deserialization logic.
The [MethodImpl(MethodImplOptions.AggressiveInlining)]
attribute is recommended for your hook methods to get optimized performance.
Please note that the generator will not check the signature of the hook methods you assigned to the attribute, therefore if the signature is not compatible, the generated library might not compile.
For instance, we have a model class Cat
with property Name
and Color
, and we would like to change the way how Name
property is serialized and deserialized.
Generated code before:
// Generated/Models/Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
/* omit the ctors for brevity */
public string Name { get; set; }
public string Color { get; set; }
}
}
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"u8))
{
name = property.Value.GetString();
continue;
}
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color);
}
}
}
Add customized model:
// Cat.cs
namespace Azure.Service.Models
{
[CodeGenSerialization(nameof(Name), SerializationValueHook = nameof(SerializeNameValue), DeserializationValue = nameof(DeserializeNameValue))]
public partial class Cat
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private void SerializeNameValue(Utf8JsonWriter writer)
{
// this is the logic we would like to have for the value serialization
writer.WriteStringValue(Name.ToUpper());
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void DeserializeNameValue(JsonProperty property, ref string name) // the type here is string since name is required
{
// this is the logic we would like to have for the value deserialization
name = property.Value.GetString().ToLower();
}
}
}
Generated code after:
// Generated/Models/Cat.cs - no change
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
- writer.WriteStringValue(Name);
+ SerializeNameValue(writer);
if (Optional.IsDefined(Color))
{
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
}
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"u8))
{
- meow = property.Value.GetString();
+ DeserializeNameValue(property, ref name);
continue;
}
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color, size);
}
}
}
If you want to add a new property to the model and also add the property into the serialization/deserialization methods, you could also use the CodeGenSerialization
attribute to change its default serialized name, and serialization/deserialization methods.
Generated code before:
// Generated/Models/Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
/* omit the ctors for brevity */
public string Name { get; set; }
public string Color { get; set; }
}
}
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"u8))
{
name = property.Value.GetString();
continue;
}
if (property.NameEquals("color"u8))
{
color = property.Value.GetString();
continue;
}
}
return new Cat(name, color);
}
}
}
Add customized model:
[CodeGenSerialization(nameof(Size), "size")]
public partial class Cat
{
public int? Size { get; set; }
}
Generated code after:
// Generated/Models/Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
/* omit other ctors for brevity */
- internal Cat(string name, string color)
+ internal Cat(string name, string color, int? size)
{
Name = name;
Color = color;
+ Size = size;
}
public string Name { get; set; }
public string Color { get; set; }
}
}
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat : IUtf8JsonSerializable
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
if (Optional.IsDefined(Color))
{
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
}
+ if (Optional.IsDefined(Size))
+ {
+ writer.WritePropertyName("size"u8);
+ writer.WriteNumberValue(Size);
+ }
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
if (element.ValueKind == JsonValueKind.Null)
{
return null;
}
string name = default;
Optional<string> color = default;
+ Optional<int> size = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"u8))
{
meow = property.Value.GetString();
continue;
}
if (property.NameEquals("color"u8))
{
meow = property.Value.GetString();
continue;
}
+ if (property.NameEquals("size"u8))
+ {
+ size = property.Value.GetInt32();
+ continue;
+ }
}
return new Cat(name);
}
}
}
You could also add the CodeGenSerialization
attribute to the property to have your own serialization/deserialization logic of the new property. You might have to do this if the type of your new property is an object type or any type that our generator does not natively support.
NOTE: Adding property to serialization/deserialization methods currently only works for DPG.
If you want to replace the entire serialization/deserialization method, please use the Replace any generated member approach to replace serialization/deserialization method with a custom implementation.
Generated code before:
// Generated/Models/Cat.Serialization.cs
namespace Azure.Service.Models
{
public partial class Cat
{
void IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
if (Optional.IsDefined(Color))
{
writer.WritePropertyName("color"u8);
writer.WriteStringValue(Color);
}
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
string color = default;
string name = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("color"u8))
{
if (property.Value.ValueKind == JsonValueKind.Null)
{
continue;
}
color = property.Value.GetString();
continue;
}
if (property.NameEquals("name"u8))
{
if (property.Value.ValueKind == JsonValueKind.Null)
{
continue;
}
name = property.Value.GetString();
continue;
}
}
return new Cat(id, name);
}
}
}
Add customized model:
// Cat.cs
namespace Azure.Service.Models
{
public partial class Cat
{
// currently we have to use a full name to ensure this could be replaced
void global:Azure.Core.IUtf8JsonSerializable.Write(Utf8JsonWriter writer)
{
writer.WriteStartObject();
writer.WritePropertyName("name"u8);
writer.WriteStringValue(Name);
// WORKAROUND: server never needs color, remove it in the customization code
writer.WriteEndObject();
}
internal static Cat DeserializeCat(JsonElement element)
{
string color = default;
string name = default;
foreach (var property in element.EnumerateObject())
{
if (property.NameEquals("name"))
{
if (property.Value.ValueKind == JsonValueKind.Null)
{
continue;
}
name = property.Value.GetString();
continue;
}
}
// WORKAROUND: server never sends color, default to black
color = "black";
return new Cat(name, color);
}
}
}
Generated code after:
Generated code won't contain the IUtf8JsonSerializable.Write
or DeserializeCat
method and the custom one would be used for deserialization.
Redefine an enum with a new name and all the members mark it with [CodeGenModel("OriginEnumName")]
.
NOTE: because enums can't be partial all values have to be copied
Generated code before (Generated/Models/Colors.cs):
namespace Azure.Service.Models
{
public enum Colors
{
Red,
Green,
Blue
}
}
Add customized model (WallColors.cs)
namespace Azure.Service.Models
{
[CodeGenModel("Colors")]
public enum WallColors
{
Red,
Green,
Blue
}
}
Generated code after (Generated/Models/Model.cs):
-namespace Azure.Service.Models
-{
- public enum Colors
- {
- Red,
- Green,
- Blue
- }
-}
+// Serialization code uses the new WallColors type name
Redefine an enum with the same name and all the members, mark renamed member with [CodeGenMember("OriginEnumMemberName")]
.
NOTE: because enums can't be partial all values have to be copied but only the ones being renamed should be marked with an attributes
Generated code before (Generated/Models/Colors.cs):
namespace Azure.Service.Models
{
public enum Colors
{
Red,
Green,
Blue
}
}
Add customized model (Colors.cs)
namespace Azure.Service.Models
{
public enum Colors
{
Red,
Green,
[CodeGenMember("Blue")]
SkyBlue
}
}
Generated code after (Generated/Models/Model.cs):
-namespace Azure.Service.Models
-{
- public enum Colors
- {
- Red,
- Green,
- Blue
- }
-}
+// Serialization code uses the new SkyBlue member name
Redefine an enum into an extensible enum by creating an empty struct with the same name as original enum.
Generated code before (Generated/Models/Colors.cs):
namespace Azure.Service.Models
{
public enum Colors
{
Red,
Green
}
}
Add customized model (Colors.cs)
namespace Azure.Service.Models
{
public partial struct Colors
{
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
- public enum Colors
- {
- Red,
- Green
- }
+ public readonly partial struct Colors : IEquatable<Colors>
+ {
+ private readonly string _value;
+ public Colors(string value)
+ {
+ _value = value ?? throw new ArgumentNullException(nameof(value));
+ }
+ private const string Red = "red";
+ private const string Green = "green";
+ public static Colors Red { get; } = new Colors(Red);
+ public static Colors Green { get; } = new Colors(Green);
+ public static bool operator ==(Colors left, Colors right) => left.Equals(right);
...
}
Define a class with the same namespace and name as generated client and use the desired accessibility.
Generated code before (Generated/Operations/ServiceClient.cs):
namespace Azure.Service.Operations
{
public partial class ServiceClient { }
}
Add customized model (Model.cs)
namespace Azure.Service.Operations
{
internal partial class ServiceClient { }
}
Generated code after (Generated/Operations/ServiceClient.cs):
namespace Azure.Service.Operations
{
- public partial class ServiceClient { }
+ internal partial class ServiceClient { }
}
Define a partial client class with a new name and mark it with [CodeGenClient("OriginalName")]
Generated code before (Generated/Operations/ServiceClient.cs):
namespace Azure.Service.Operations
{
public partial class ServiceClient {}
}
Add customized model (Model.cs)
namespace Azure.Service.Operations
{
[CodeGenClient("ServiceClient")]
public partial class TableClient { }
}
Generated code after (Generated/Operations/ServiceClient.cs):
namespace Azure.Service.Operations
{
- public partial class ServiceClient { }
+ public partial class TableClient { }
}
Works for model and client properties, methods, constructors etc.
Define a partial class with member with the same name and for methods same parameters.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public Model()
{
Property = "a";
}
public string Property { get; set; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model
{
internal Model()
{
Property = "b";
}
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public Model()
- {
- Property = "a";
- }
}
}
Works for model and client properties, methods, constructors etc.
Define a partial class with [CodeGenSuppress("NameOfMember", typeof(Parameter1Type), typeof(Parameter2Type))]
attribute.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
public Model()
{
Property = "a";
}
public Model(string property)
{
Property = property;
}
public string Property { get; set; }
}
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
[CodeGenSuppress("Model", typeof(string))]
public partial class Model
{
}
}
Generated code after (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model
{
- public Model(string property)
- {
- Property = property;
- }
}
}
Generated code before:
namespace Azure.Service.Models
{
public partial class Model1 {}
public partial class Model2 {}
public partial class Model3 {}
public partial class Model4 {}
}
Add autorest.md transformation
directive:
from: swagger-document
where: $.definitions.*
transform: >
$["x-namespace"] = "Azure.Search.Documents.Indexes.Models"
$["x-accessibility"] = "internal"
Generated code after:
-namespace Azure.Service.Models
+namespace Azure.Search.Documents.Indexes.Models
{
- public partial class Model1 {}
+ internal partial class Model1 {}
- public partial class Model2 {}
+ internal partial class Model2 {}
- public partial class Model3 {}
+ internal partial class Model3 {}
- public partial class Model4 {}
+ internal partial class Model4 {}
}
Generated code before (Generated/Client.cs):
public virtual Response Operation(string body = null, CancellationToken cancellationToken = default)
public virtual async Task<Response> OperationAsync(string body = null, CancellationToken cancellationToken = default)
Add autorest.md transformation
directive:
- from: swagger-document
where: $..[?(@.operationId=='Operation')]
transform: >
$["x-accessibility"] = "internal";
Generated code after (Generated/Client.cs):
internal virtual Response Operation(string body = null, CancellationToken cancellationToken = default)
internal virtual async Task<Response> OperationAsync(string body = null, CancellationToken cancellationToken = default)
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model { }
}
Add model-namespace
in autorest.md
model-namespace: false
input-file: "swagger-document"
Generated code after (Generated/Models/Model.cs):
- namespace Azure.Service.Models
+ namespace Azure.Service
{
public partial class Model { }
}
As with most customization, you can define a partial class for Models and extend them with methods and constructors.
Generated code before (Generated/Models/Model.cs):
namespace Azure.Service.Models
{
public partial class Model { }
}
Add customized model (Model.cs)
namespace Azure.Service.Models
{
public partial class Model {
public Model(int x)
{
}
}
}
Repository-specific pipeline configuration
# autorest-core version
version: 3.9.7
save-inputs: true
use: $(this-folder)/artifacts/bin/AutoRest.CSharp/Debug/net8.0/
clear-output-folder: true
public-clients: true
skip-csproj-packagereference: true
See the documentation here