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We are using TeamCity for continuous integration, our source control is Git, and we have 1 major repository that contains multiple .sln files (around 10).

All in all, this repository has about ~ 100 - 200 C# projects.

Upon a push to the master repository, TeamCity triggers a build that will compile all projects in the repository.

I'd like to be able to tell which projects were actually affected by a particular commit, and thus publish only those projects' outputs as artifacts of the current build.

For this, i've designed a solution to integrate NDepend into our build process, and generate a diff report between current and latest build outputs. The outputs that were changed/added will be published as the build outputs.

I have little experience with NDepend; from what i've seen all of its true power comes from the query language that is baked into it.

I am wondering how (if possible) i can achieve the following:

  1. Diff between a folder containing previous build's outputs and current folder of build outputs.
  2. Have NDepend generate a report in a consumable format so i can determine the files that need to be copied.

Is this scenario possible? How easy/hard would that be?

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1 Answer 1

So the simple answer is to do the Reporting Code Diff way as explained in this documentation. The problem with this basic answer is that, it pre-suppose two NDepend projects that always refers to the two same set of assemblies.


Certainly, the number and names of assemblies is varying in your context so we need to build two projects (old/new) on the fly and analyze them through NDepend.API.

Here is the NDepend.API source code for that. For a It-Just-Works experience, in the PowerTools source code (in $NDependInstallDir$\NDepend.PowerTools.SourceCode\NDepend.PowerTools.sln) just call the FoldersDiff.Main(); method after the AssemblyResolve registration call, in Program.cs.

 ...
 AppDomain.CurrentDomain.AssemblyResolve += AssemblyResolverHelper.AssemblyResolveHandler;
 FoldersDiff.Main();
 ...

Here is the the source code that harnesses NDepend.API.

Note that so much more can be done, through the two codeBase objects and the compareContext object. Instead of just showing the 3 lists of assemblies added/removed/codeWasChanges, you could show API breakings changes, new methods and types added, modified classes and methods, code quality regression... For that, just look at default code rules concerning diff, that are based on the same NDepend.CodeModel API.

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using NDepend;
using NDepend.Analysis;
using NDepend.CodeModel;
using NDepend.Path;
using NDepend.Project;


class FoldersDiff {

   private static readonly NDependServicesProvider s_NDependServicesProvider = new NDependServicesProvider();

   internal static void Main() {
      var dirOld = @"C:\MyProduct\OldAssembliesDir".ToAbsoluteDirectoryPath();
      var dirNew = @"C:\MyProduct\NewAssembliesDir".ToAbsoluteDirectoryPath();

      Console.WriteLine("Analyzing assemblies in " + dirOld.ToString());
      var codeBaseOld = GetCodeBaseFromAsmInDir(dirOld, TemporaryProjectMode.TemporaryOlder);
      Console.WriteLine("Analyzing assemblies in " + dirNew.ToString());
      var codeBaseNew = GetCodeBaseFromAsmInDir(dirNew, TemporaryProjectMode.TemporaryNewer);

      var compareContext = codeBaseNew.CreateCompareContextWithOlder(codeBaseOld);

      // So much more can be done by exploring fine-grained diff in codeBases and compareContext
      Dump("Added assemblies", codeBaseNew.Assemblies.Where(compareContext.WasAdded));
      Dump("Removed assemblies", codeBaseOld.Assemblies.Where(compareContext.WasRemoved));
      Dump("Assemblies with modified code", codeBaseNew.Assemblies.Where(compareContext.CodeWasChanged));
      Console.Read();
   }

   internal static ICodeBase GetCodeBaseFromAsmInDir(IAbsoluteDirectoryPath dir, TemporaryProjectMode temporaryProjectMode) {
      Debug.Assert(dir.Exists);
      var dotNetManager = s_NDependServicesProvider.DotNetManager;
      var assembliesPath = dir.ChildrenFilesPath.Where(dotNetManager.IsAssembly).ToArray();
      Debug.Assert(assembliesPath.Length > 0); // Make sure we found assemblies
      var projectManager = s_NDependServicesProvider.ProjectManager;
      IProject project = projectManager.CreateTemporaryProject(assembliesPath, temporaryProjectMode);

      // In PowerTool context, better call:
      // var analysisResult = ProjectAnalysisUtils.RunAnalysisShowProgressOnConsole(project);
      var analysisResult = project.RunAnalysis();
      return analysisResult.CodeBase;
   }

   internal static void Dump(string title, IEnumerable<IAssembly> assemblies) {
      Debug.Assert(!string.IsNullOrEmpty(title));
      Debug.Assert(assemblies != null);
      Console.WriteLine(title);
      foreach (var @assembly in assemblies) {
         Console.WriteLine("   " + @assembly.Name);
      }
   }
}
share|improve this answer
    
Awesome stuff there, Patrick! Looks long enough to actually work. Once i test this, i will mark as the answer. –  lysergic-acid Feb 11 '13 at 19:23
    
You are welcome :) –  Patrick from NDepend team Feb 12 '13 at 9:02

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