The short takeaway now that the solution has been found:

AutoFixture returns frozen the mock just fine; my sut that was also generated by AutoFixture just had a public property with a local default that was important for the test and that AutoFixture set to a new value. There is much to learn beyond that from Mark's answer.

Original question:

I started trying out AutoFixture yesterday for my xUnit.net tests that have Moq all over them. I was hoping to replace some of the Moq stuff or make it easier to read, and I'm especially interested in using AutoFixture in the SUT Factory capacity.

I armed myself with a few of Mark Seemann's blog posts on AutoMocking and tried to work from there, but I didn't get very far.

This is what my test looked like without AutoFixture:

[Fact]
public void GetXml_ReturnsCorrectXElement()
{
    // Arrange
    string xmlString = @"
        <mappings>
            <mapping source='gcnm_loan_amount_min' target='gcnm_loan_amount_min_usd' />
            <mapping source='gcnm_loan_amount_max' target='gcnm_loan_amount_max_usd' />
        </mappings>";

    string settingKey = "gcCreditApplicationUsdFieldMappings";

    Mock<ISettings> settingsMock = new Mock<ISettings>();
    settingsMock.Setup(s => s.Get(settingKey)).Returns(xmlString);
    ISettings settings = settingsMock.Object;

    ITracingService tracing = new Mock<ITracingService>().Object;

    XElement expectedXml = XElement.Parse(xmlString);

    IMappingXml sut = new SettingMappingXml(settings, tracing);

    // Act
    XElement actualXml = sut.GetXml();

    // Assert
    Assert.True(XNode.DeepEquals(expectedXml, actualXml));
}

The story here is simple enough - make sure that SettingMappingXml queries the ISettings dependency with the correct key (which is hard coded/property injected) and returns the result as an XElement. The ITracingService is relevant only if there's an error.

What I was trying to do is get rid of the need to explicitly create the ITracingService object and then manually inject the dependencies (not because this test is too complex, but because it is simple enough to try things out and understand them).

Enter AutoFixture - first attempt:

[Fact]
public void GetXml_ReturnsCorrectXElement()
{
    // Arrange
    IFixture fixture = new Fixture();
    fixture.Customize(new AutoMoqCustomization());

    string xmlString = @"
        <mappings>
            <mapping source='gcnm_loan_amount_min' target='gcnm_loan_amount_min_usd' />
            <mapping source='gcnm_loan_amount_max' target='gcnm_loan_amount_max_usd' />
        </mappings>";

    string settingKey = "gcCreditApplicationUsdFieldMappings";

    Mock<ISettings> settingsMock = new Mock<ISettings>();
    settingsMock.Setup(s => s.Get(settingKey)).Returns(xmlString);
    ISettings settings = settingsMock.Object;
    fixture.Inject(settings);

    XElement expectedXml = XElement.Parse(xmlString);

    IMappingXml sut = fixture.CreateAnonymous<SettingMappingXml>();

    // Act
    XElement actualXml = sut.GetXml();

    // Assert
    Assert.True(XNode.DeepEquals(expectedXml, actualXml));
}

I would expect CreateAnonymous<SettingMappingXml>(), upon detection of the ISettings constructor parameter, to notice that a concrete instance has been registered for that interface and inject that - however, it doesn't do that but instead creates a new anonymous implementation.

This is especially confusing as fixture.CreateAnonymous<ISettings>() does indeed return my instance -

IMappingXml sut = new SettingMappingXml(fixture.CreateAnonymous<ISettings>(), fixture.CreateAnonymous<ITracingService>());

makes the test perfectly green, and this line is exactly what I had expected AutoFixture to do internally when instantiating SettingMappingXml.

Then there's the concept of freezing a component, so I went ahead just freezing the mock in the fixture instead of getting the mocked object:

fixture.Freeze<Mock<ISettings>>(f => f.Do(m => m.Setup(s => s.Get(settingKey)).Returns(xmlString)));

Sure enough this works perfectly fine - as long as I call the SettingMappingXml constructor explicitly and don't rely on CreateAnonymous().

Simply put, I don't understand why it works the way it apparently does, as it goes against any logic I can conjure up. Normally I would suspect a bug in the library, but this is something so basic that I'm sure others would have run into this and it would long have been found and fixed. What's more, knowing Mark's assiduous approach to testing and DI, this can't be unintentional.

That in turn means I must be missing something rather elementary. How can I have my SUT created by AutoFixture with a preconfigured mocked object as a dependency? The only thing I'm sure about right now is that I need the AutoMoqCustomization so I don't have to configure anything for the ITracingService.

AutoFixture/AutoMoq packages are 2.14.1, Moq is 3.1.416.3, all from NuGet. .NET version is 4.5 (installed with VS2012), behavior is the same in VS2012 and 2010.

While writing this post, I discovered that some people were having problems with Moq 4.0 and assembly binding redirects, so I meticulously purged my solution of any instances of Moq 4 and had Moq 3.1 installed by installing AutoFixture.AutoMoq into "clean" projects. However, the behavior of my test remains unchanged.

Thank you for any pointers and explanations.

Update: Here's the constructor code Mark asked for:

public SettingMappingXml(ISettings settingSource, ITracingService tracing)
{
    this._settingSource = settingSource;
    this._tracing = tracing;

    this.SettingKey = "gcCreditApplicationUsdFieldMappings";
}

And for completeness, the GetXml() method looks like this:

public XElement GetXml()
{
    int errorCode = 10600;

    try
    {
        string mappingSetting = this._settingSource.Get(this.SettingKey);
        errorCode++;

        XElement mappingXml = XElement.Parse(mappingSetting);
        errorCode++;

        return mappingXml;
    }
    catch (Exception e)
    {
        this._tracing.Trace(errorCode, e.Message);
        throw;
    }
}

SettingKey is just an automatic property.