| name | template-authoring |
| description | Guides creation and validation of custom dotnet new templates. Generates templates from existing projects and validates template.json for authoring issues. USE FOR: creating a reusable dotnet new template from an existing project, validating template.json files for schema compliance and parameter issues, bootstrapping .template.config/template.json with correct identity, shortName, parameters, and post-actions, packaging templates as NuGet packages for distribution. DO NOT USE FOR: finding or using existing templates (use template-discovery and template-instantiation), MSBuild project file issues unrelated to template authoring, NuGet package publishing (only template packaging structure).
|
| license | MIT |
Template Authoring
This skill helps an agent create and validate custom dotnet new templates. It guides bootstrapping templates from existing projects and validates template.json files for authoring issues before publishing.
When to Use
- User wants to create a reusable template from an existing .csproj
- User wants to validate a template.json for correctness
- User is setting up
.template.config/template.json from scratch
- User wants to package a template for NuGet distribution
When Not to Use
- User wants to find or use existing templates — route to
template-discovery or template-instantiation
- User has MSBuild issues unrelated to template authoring — route to
dotnet-msbuild plugin
Inputs
| Input | Required | Description |
|---|
| Source project path | For creation | Path to the .csproj to use as template source |
| template.json path | For validation | Path to an existing template.json to validate |
| Template name | For creation | Human-readable name for the template |
| Short name | Recommended | Short name for dotnet new <shortname> usage |
Workflow
Step 1: Bootstrap from existing project
Analyze the source .csproj and create a .template.config/template.json:
- Create
.template.config directory next to the project
- Generate
template.json with identity (reverse-DNS), name, shortName, sourceName (project name for replacement), classifications, and tags
- Preserve from source — generic
dotnet new templates frequently get these wrong, so verify each is carried over from the original .csproj:
- SDK type —
Microsoft.NET.Sdk, Microsoft.NET.Sdk.Web, Microsoft.NET.Sdk.Worker, etc.
- Analyzer/package reference metadata —
PrivateAssets, IncludeAssets, ExcludeAssets
OutputType and other key properties — TreatWarningsAsErrors, Nullable, LangVersion
- CPM participation — no inline
Version attributes when a Directory.Packages.props is present
- Custom build props/targets and
Directory.Build.props conventions
- Repo conventions — folder layout, naming,
global.json SDK pin
Minimal example:
{
"$schema": "http://json.schemastore.org/template",
"author": "MyOrg",
"classifications": ["Library"],
"identity": "MyOrg.Templates.MyLib",
"name": "My Library Template",
"shortName": "mylib",
"sourceName": "MyLib",
"tags": { "language": "C#", "type": "project" }
}
Step 2: Validate template.json
Validate the generated template.json using the template-validation skill (it owns the full rule set — required fields, identity format, reserved shortName conflicts, parameter datatypes, post-actions, constraints, and tags).
Quick summary of what gets checked:
- Required fields —
identity, name, and shortName must be present.
- ShortName conflicts — avoid names that collide with
dotnet new subcommands. Read the authoritative set from the Commands: section of dotnet new --help for the installed SDK and do not hardcode it (it can change between versions); illustrative examples from current SDKs are install, uninstall, update, list, search, details, create. A conflict happens because dotnet new <name> would be parsed as the subcommand of the same name. Top-level dotnet verbs like build, run, test, and publish do NOT conflict. Run dotnet new list to confirm the name is not already taken.
- Parameters, post-actions, tags — see template-validation for the complete rules, including the valid datatype list.
Step 3: Refine the template
Based on validation results and user requirements:
- Add parameters with appropriate types (string, bool, choice), defaults, and descriptions
- Add conditional content using
#if preprocessor directives for optional features
- Configure post-actions for solution add, restore, or custom scripts
- Set constraints to restrict which SDKs or workloads the template supports
- Add classifications and tags for discoverability
Step 4: Test the template locally
dotnet new install ./path/to/template/root
dotnet new mylib --name TestProject --dry-run
dotnet new mylib --name TestProject --output ./test-output
dotnet build ./test-output/TestProject
Validation
Common Pitfalls
| Pitfall | Solution |
|---|
| Identity format issues | Use reverse-DNS format (e.g., MyOrg.Templates.WebApi). Avoid spaces or special characters. |
| ShortName conflicts with CLI commands | Avoid names that match a dotnet new subcommand; read the live set from dotnet new --help and don't hardcode it (illustrative examples: install, uninstall, update, list, search, details, create). Top-level verbs like build/run/test/publish are fine. Run dotnet new list to see if the name is already taken. |
| Missing parameter descriptions | Every parameter should have a description and displayName for discoverability. |
| Not testing all parameter combinations | Use dotnet new <template> --dry-run with different parameter values to verify conditional content works correctly. |
| Hardcoded versions in template | Use sourceName replacement for project names and consider parameterizing framework versions. |
| Not setting classifications | Add appropriate classifications (e.g., ["Web", "API"]) for template discovery. |
More Info