Search icon CANCEL
Subscription
0
Cart icon
Your Cart (0 item)
Close icon
You have no products in your basket yet
Arrow left icon
Explore Products
Best Sellers
New Releases
Books
Videos
Audiobooks
Learning Hub
Free Learning
Arrow right icon
Arrow up icon
GO TO TOP
Roslyn Cookbook

You're reading from   Roslyn Cookbook Compiler as a Service, Code Analysis, Code Quality and more

Arrow left icon
Product type Paperback
Published in Jul 2017
Publisher Packt
ISBN-13 9781787286832
Length 350 pages
Edition 1st Edition
Languages
Arrow right icon
Author (1):
Arrow left icon
Manish Vasani Manish Vasani
Author Profile Icon Manish Vasani
Manish Vasani
Arrow right icon
View More author details
Toc

Table of Contents (11) Chapters Close

Preface 1. Writing Diagnostic Analyzers FREE CHAPTER 2. Consuming Diagnostic Analyzers in .NET Projects 3. Writing IDE Code Fixes, Refactorings, and Intellisense Completion Providers 4. Improving Code Maintenance of C# Code Base 5. Catch Security Vulnerabilities and Performance Issues in C# Code 6. Live Unit Testing in Visual Studio Enterprise 7. C# Interactive and Scripting 8. Contribute Simple Functionality to Roslyn C# Compiler Open Source Code 9. Design and Implement a New C# Language Feature 10. Command-Line Tools Based on Roslyn API

Creating, debugging, and executing an analyzer project in Visual Studio

We will show you how to install the .NET Compiler Platform SDK, create an analyzer project from a template, and then debug and execute the default analyzer.

The analyzer project that you create in this recipe can be used in the subsequent recipes in this chapter to add new analyzers and write unit tests.

Getting ready

How to do it...

  1. Start Visual Studio and click on File | New | Project.
  2. Search for Analyzer templates in the textbox at the top right corner of the New Project dialog, select Download the .NET Compiler Platform SDK, and click on OK:
  1. The new project will have an index.html file opened by default. Click on Download .NET Compiler Platform SDK Templates >> button to install the analyzer SDK templates.
  1. In the subsequent File Download dialog, click on Open.
  1. Click Install on the next VSIX Installer dialog and End Tasks on the subsequent prompt to install the SDK:
  1. Start a new instance of Visual Studio and click on File | New | Project... to get the New Project dialog.
  2. Change the project target framework combo box to .NET Framework 4.6 (or above). Under Visual C# | Extensibility, choose Analyzer with Code Fix (NuGet + VSIX), name your project CSharpAnalyzers, and click on OK.

  1. You should now have an analyzers solution with 3 projects: CSharpAnalyzers (Portable), CSharpAnalyzers.Test , and CSharpAnalyzer.Vsix:
  1. Open source file DiagnosticAnalyzer.cs in CSharpAnalyzers project and set breakpoints (press F9) at the start of the Initialize and AnalyzeSymbol methods, as shown here:
  1. Set CSharpAnalyzers.Vsix as the start-up project and click on F5 to build the analyzer and start debugging a new instance of Visual Studio with the analyzer enabled.
  2. In the new Visual Studio instance, create a new C# class library project, say ClassLibrary.
  3. Verify that we hit both the preceding breakpoints in our analyzer code in the first VS instance. You can step through the analyzer code using F10 or click on F5 to continue debugging.

 

  1. We should now see the analyzer diagnostic in the error list and a squiggle in the editor:
  1. Edit the name of the class from Class1 to CLASS1.
  2. We should hit the breakpoint in the AnalyzeSymbol method again. Continue debugging with F5 and the diagnostic and squiggle should go away immediately, demonstrating the powerful live and extensible analysis.

    How it works...

    .NET Compiler Platform SDK is a wrapper project that redirects us to fetch the project templates for analyzer + CodeFix projects for C# and Visual Basic. Creating a new project from these templates creates a fully functional analyzer project which has a default analyzer, unit tests, and a VSIX project:

    • CSharpAnalyzers: Core analyzer project that contains the default analyzer implementation that reports a diagnostic for all type names that contain any lowercase letters.
    • CSharpAnalyzers.Test: Analyzer unit test project that contains a couple of analyzer and code fixer unit tests and test helpers.
    • CSharpAnalyzers.Vsix: The VSIX project that packages the analyzer into a VSIX. This is the start-up project in the solution.

    Clicking on F5 to start debugging the solution builds and deploys the analyzer to the Visual Studio extension hive and then starts a new Visual Studio instance from this hive. Our analyzer is enabled by default for all C# projects created in this VS instance.

    Let's expand a bit more on the diagnostic analyzer source code defined in DiagnosticAnalyzers.cs. It contains a type named CSharpAnalyzersAnalyzer, which derives from DiagnosticAnalyzer. DiagnosticAnalyzer is an abstract type with the following two abstract members:

    • SupportedDiagnostics property: Analyzer must define one or more supported diagnostic descriptors. Descriptors describe the metadata for the diagnostics that an analyzer can report in analyzer actions. It contains fields such as the diagnostic ID, message format, title, description, hyperlink to documentation for the diagnostic, and so on. Can be used to create and report diagnostics:
    private static DiagnosticDescriptor Rule = new DiagnosticDescriptor(DiagnosticId, Title, MessageFormat, Category, DiagnosticSeverity.Warning, isEnabledByDefault: true, description: Description);

    public override ImmutableArray<DiagnosticDescriptor> SupportedDiagnostics { get { return ImmutableArray.Create(Rule); } }
    • Initialize method: Diagnostic analyzers must implement the Initialize method to register analyzer action callbacks for a specific code entity kind of interest, which is named type symbols for the default analyzer. The initialize method is invoked once for the analyzer lifetime to allow analyzer initialization and registration of actions.
     public override void Initialize(AnalysisContext context)
    {
    context.RegisterSymbolAction(AnalyzeSymbol, SymbolKind.NamedType);
    }

    private static void AnalyzeSymbol(SymbolAnalysisContext context)
    {
    ...
    }
    Invoke AnalysisContext.EnableConcurrentExecution() in the Initialize method if your analyzer can handle action callbacks from multiple threads simultaneously -- this enables the analyzer driver to execute the analyzer more efficiently on a machine with multiple cores. Additionally, also invoke AnalysisContext.ConfigureGeneratedCodeAnalysis() in theInitialize method to configure whether or not the analyzer wants to analyze and/or report diagnostics in generated code.

    Analyzer actions are invoked for every code entity of interest in a user s source code. Additionally, as the user edits code and a new compilation is created, action callbacks are continuously invoked for entities defined in the new compilation during code editing. The error list makes sure that it only reports the diagnostics from the active compilation.

    Use http://source.roslyn.io for rich semantic search and navigation of Roslyn source code, which is open sourced at https://github.com/dotnet/roslyn.git. For example, you can look at the definition and references for DiagnosticAnalyzer using the query URL http://source.roslyn.io/#q=DiagnosticAnalyzer.
    You have been reading a chapter from
    Roslyn Cookbook
    Published in: Jul 2017
    Publisher: Packt
    ISBN-13: 9781787286832
    Register for a free Packt account to unlock a world of extra content!
    A free Packt account unlocks extra newsletters, articles, discounted offers, and much more. Start advancing your knowledge today.
    Unlock this book and the full library FREE for 7 days
    Get unlimited access to 7000+ expert-authored eBooks and videos courses covering every tech area you can think of
    Renews at $19.99/month. Cancel anytime
    Banner background image