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• Team Foundation Service Update – May 13
• Agilethought ALM Experts Present Free Visual STudio Webinars
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• Quality Enablement with Visual Studio 2012

Gian Maria

• Better Multi User Support for Work Item Tracking in TFS 2012
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• Help Content for the Agile Planning Tools gets a makeover with TFS CU2
• Visual Studio Update 2012.3 Update 3 “go-Live” CTP is now available
• Finding Event Subscriptions in TFS 2012 using Power Shell
• Testing Java and Cross Platform applications with Squish and Microsoft Test Professional
• Embracing SCRUM and CMMI in TFS 2012

Gian Maria

Tags: Visual Studio ALM

You already know that I’m a fan of NDepend because it is a really useful tool to have a deep insight on your code and especially to spot out troublesome areas in your project.

With version 4 it added a really cool capability called CQLinq or Code Query Linq; an amazing feature that permits you to query your code using LINQ stile queries. Basically after I’ve analyzed a solution I got presented with a simple dialog that asked me what I’m interested to do primarily with the result of the analysis.

This feature is really amazing because you can query your code to find almost everything. It would be really long to show you every capability of CQLinq, you can read about it in official documentation, but I want to give you just a taste of what you can achieve with it.

Here I’m simply selecting all the methods that contains more than 30 lines of code and in the select part I’m interested in the number of comment lines. Long methods are painful, but if you find a method of 40 lines with 30 lines of comment you are in trouble, because if a developer put so much comment in long method, surely there is some weird logic in it.

CQLinq is full of interesting features, as an example if you select from JustMyCode.Methods you are actually selecting only your code, and not code generated from UI Designer. This will permit you to focus primary on your code and avoiding to have the result of the query polluted by Designer generated code.

NDepend designer fully support intellisense and this really helps you to achieve the result in really little time, the result is immediately shown below the query as soon as the query compiles, and if you made some mistake you are immediately presented with a simple list of compiling errors that makes you understand what is wrong with the query.

As usual I think that NDepend is a must-to-have tool especially if you need to find problem in legacy code. I strongly suggest you to check out all the possibility on official documentation page, to have an idea of the capability of the tool.

You can also download a trial of the product to try out by yourself in your project.

Gian Maria.

Tags: NDepend

Thanks to Visual Studio Fakes is it possible to isolate your unit test and testing difficult to test code. Today I need to test a class that issues some Web Request around the internet and I’m concerned about testing the SUT when the web response contains some specific code like 404 (Not Found) or something.

If you simply right-click the reference to system assembly in your project and Add a fakes assembly, you probably will be annoyed by the fact that when you try to create a ShimHttpWebRequest you are not able to do it. When some shim are not available, the reason is usually due to some limitation of fakes library, so types are skipped when shims and stub code are generated (during compilation).

Apart not being able to use a shim of HttpWebRequest, when you add a fakes assembly to Visual Studio test project, you are actually asking to the fakes library to create a stub and a shim for every class of that assembly, and this can be a problem because

1. Your build time increase
2. Some classes probably will not be generated due to Fakes Limitation

Solution is simple, just locate the System.Fakes files under Fakes directory of your test project, they usually contain only the name of the assembly and nothing more. This is the default and basically it means: Create a shim and a stub for every type in that assembly. You should change that file to specify only the types you are really going to use in your Unit Tests. Es.

<Fakes xmlns="http://schemas.microsoft.com/fakes/2011/" Diagnostic="true">
  <Assembly Name="System" Version="4.0.0.0"/>
  <StubGeneration>
    <Clear />
  </StubGeneration>
  <ShimGeneration>
    <Clear />
    <Add FullName="System.Net.WebRequest!"/>
    <Add FullName="System.Net.HttpWebRequest!"/>
    <Add FullName="System.Net.HttpWebResponse!"/>
  </ShimGeneration>
</Fakes>

This code is actually instructing the Fakes library on what class you are going to use. In the above example I’m telling that I’m not going to use any Stub and I want to use Shim for WebRequest, HttpWebRequest and HttpWebResponse. If you specify only the classes you are really going to isolate, build time will be shorter, and there is much more possibility that shims gets generated.

Remember also that when you create fake library for System assembly you actually will get two distinct fakes configuration, one for system, and the other for Mscorlib.fakes. I usually modify the mscorlib.fakes in such a way.

<Fakes xmlns="http://schemas.microsoft.com/fakes/2011/">
  <Assembly Name="mscorlib" Version="4.0.0.0"/>
  <StubGeneration>
    <Clear />
  </StubGeneration>
  <ShimGeneration>
    
    
  </ShimGeneration>
</Fakes>

For some reason, I need not to clear ShimGeneration for Mscorlib entirely, because it will makes Unit Test stop with StackOverflowException in my system even if I’m not going to use any class for mscorlib.

Now I can write shim for HttpWebResponse

ShimHttpWebResponse res = new ShimHttpWebResponse();
res.StatusCodeGet = () => HttpStatusCode.NotFound;

This simple snippet created a fake response to identify a NotFound (404) web response. I can now proceed to isolate call to WebRequest to return that instance and write Unit Tests that isolates calls to WebRequest classes. A full possible test is the following.

[Test]
public void Verify_behavior_on_404()
{
    using (ShimsContext.Create())
    {
        SolrServer sut = new SolrServer("http://nonexistent.url.it/solr/blbalba");
        sut.Logger = NullLogger.Instance;


        ShimHttpWebResponse res = new ShimHttpWebResponse();
        res.StatusCodeGet = () => HttpStatusCode.NotFound;

        ShimWebException wex = new ShimWebException();
        wex.ResponseGet = () => res;

        ShimHttpWebRequest.AllInstances.GetResponse = url => { throw (WebException) wex; };
        sut.RawSearch("*:*", "id,name", 0, 100);
    }
}

With these few lines of code I’m telling that each request to all instance of HttpWebRequest should throw a specific WebException that will behave as I want. This absolutely invaluable if you need to test various response such of 403 if you are trying to simulate authentication or 500 if you need to simulate some particular error of called service. The good part of this kind of test is that the Sut was absolutely not designed to be unit tested. Here is the code in the Sut that is issuing call to Solr server

HttpWebRequest oRequest = (HttpWebRequest)WebRequest.Create(fullUrl);
if (Logger.IsDebugEnabled) Logger.Debug("Solar query " + fullUrl);
oRequest.Method = "GET";
HttpWebResponse oResponse = null;
try
{
    oResponse = (HttpWebResponse)oRequest.GetResponse();
}
catch (WebException e)

As you can see the code directly create an HttpWebRequest and issue a GET Request, but thanks to fakes library during the test the call to GetResponse are detoured to my test code.

Remember also that after Visual Studio Quarterly Update 2 fakes library is now available even in Premium edition and not only Ultimate.

Gian Maria

Tags: Fakes, Unit Testing

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Gian Maria

Tags: Visual Studio ALM