58

Okay, I'm done searching for good information on this. I have a series of Unit Tests that call a static class which, once initialized, sets properties that cannot (or I don't wish to) change.

My problem is I cannot enforce a set order for the tests to run. If I could, I could run them in such a way as the static properties would be set in a reliable way, and I could Assert on them, but unfortunately the Microsoft.VisualStudio.TestTools.UnitTesting framework just runs them in a seemingly random order.

So, I found this http://msdn.microsoft.com/en-us/library/microsoft.visualstudio.testtools.unittesting.priorityattribute.aspx which says in the Remarks section "This attribute is not used by the test system. It is provided to the user for custom purposes." Huh? What good is it then? Do they expect me to write my own testing wrapper to take advantage of this fabulous attribute (of which I could easily write myself if I wanted to go to that level of effort...)

So, enough of the rant; Bottom line, is there a way to control the order my unit tests run?

[TestMethod]
[Priority(0)]

etc. does NOT seem to work, which makes sense, since Microsoft says it won't.

Also, please no comments about "violating isolation". The TestClass isolates what I am testing, not the individual TestMethods. Regardless, each test can be run independently just fine, they just can't be run together in a random order as there is no way to tear down the static class.

Oh, I also know about "Ordered Test".

  • 3
    Are you able to explain why your tests are order dependent? I take it the tests are essentially incrementally testing the Static Class? – Todd Bowles Dec 20 '13 at 20:22
  • 13
    Your unit tests should not depend on order. This brain-dead static class is making your code untestable. If you can't "tear it down", then this is not the only problem you're going to have when unit testing. – John Saunders Dec 20 '13 at 20:22
  • 3
    The static class is not mine - yes it should have been written as a singleton. Unfortunately, sometimes you simply have to play the (crappy) cards you are dealt. I am using Fakes as much as possible to remove it from the equation, but I can't eliminate it. – iGanja Dec 20 '13 at 20:27
  • 3
    You can't reset the static class context each time in a TestInitialize? One of the basic tenets of unit testing is independence, do not try to control the execution order. You're not "violating isolation", but violating the basic principles that makes a test a unit test. – Pierre-Luc Pineault Dec 20 '13 at 20:34
  • 1
    @iGanja In Visual Studio 2015, things changed a bit. In Solution Explorer, right click on the unit test project, click Add>OrderedTest. Doing this adds a new file to the project. When you open this file, you get to click on test methods within your project and add them 1 or more times to this test. – Zee Apr 1 '16 at 20:36
47

Merge your tests into one giant test will work. To make the test method more readable, you can do something like

[TestMethod]
public void MyIntegratonTestLikeUnitTest()
{
    AssertScenarioA();

    AssertScenarioB();

    ....
}

private void AssertScenarioA()
{
     // Assert
}

private void AssertScenarioB()
{
     // Assert
}

Actually the issue you have suggests you probably should improve the testability of the implementation.

  • 1
    Merging the tests is a fair approach, but if the first test method in the list fails an assert, none of the others will be executed. Considering the order dependence inherent to the OP's test strategy, this might not be a problem. – Todd Bowles Dec 20 '13 at 20:55
  • Agreed @ToddBowles this might be the way to go. And of course, as you said, with a big giant test with a ton of Asserts you lose some granularity when one fails. +1 – iGanja Dec 20 '13 at 23:05
  • This may not be the best solution (re-factoring the static class is), but it is certainly the easiest to implement and gets me working on other things again. – iGanja Dec 21 '13 at 19:35
  • See my comment below on ClassInitialize attribute, also I believe OrderedTests are fairly easy to implement and are MS accepted way. – MattyMerrix Aug 26 '16 at 14:49
  • This might work but it defeats the purpose of unit testing. The idea of unit testing is to break parts up in to chunks for quick testing - not smash them together, – Melbourne Developer Oct 22 '18 at 3:28
105

You can Use Playlist

Right click on the test method -> Add to playlist -> New playlist

the execution order will be as you add them to the playlist but if you want to change it you have the file

enter image description here

  • 16
    Just tried this in VS2015 and it appears that the playlist does not affect the execution order. Rather, they are run in the order the methods are declared. – Jrd Oct 30 '15 at 13:46
  • 27
    @Jrd In Visual Studio 2015, things changed a bit. In Solution Explorer, right click on the unit test project, click Add>OrderedTest. Doing this adds a new file to the project. When you open this file, you get to click on test methods within your project and add them 1 or more times to this test. – Zee Apr 1 '16 at 20:34
  • See my comment below on ClassInitialize attribute, also I believe OrderedTests are fairly easy to implement and are MS accepted way. – MattyMerrix Aug 26 '16 at 14:49
  • 4
    This does not work for a build server – Daniël Tulp Dec 20 '16 at 15:42
  • 1
    @E-A You should have considered the date and time that author has answered. Interesting -> He had answered 2013, You had commented 2015 and I have commented in 2017. Great ;P :) ;) – RajeshKdev Sep 12 '17 at 12:05
9

I dont see anyone mentioning the ClassInitialize attribute method. The attributes are pretty straight forward.

Create methods that are marked with either the [ClassInitialize()] or [TestInitialize()] attribute to prepare aspects of the environment in which your unit test will run. The purpose of this is to establish a known state for running your unit test. For example, you may use the [ClassInitialize()] or the [TestInitialize()] method to copy, alter, or create certain data files that your test will use.

Create methods that are marked with either the [ClassCleanup()] or [TestCleanUp{}] attribute to return the environment to a known state after a test has run. This might mean the deletion of files in folders or the return of a database to a known state. An example of this is to reset an inventory database to an initial state after testing a method that is used in an order-entry application.

  • [ClassInitialize()] Use ClassInitialize to run code before you run the first test in the class.

  • [ClassCleanUp()] Use ClassCleanup to run code after all tests in a class have run.

  • [TestInitialize()] Use TestInitialize to run code before you run each test.

  • [TestCleanUp()] Use TestCleanup to run code after each test has run.

  • 2
    There is also AssemblyInitialize and AssemblyCleanup which runs at the beginning and end of each Test Run, respectively. – MattyMerrix Jan 6 '17 at 14:45
6

As the commenters already pointed out, having tests dependent on other tests points to a design flaw. Nevertheless there are ways to achieve that. As answered in a previously asked question here, you can create ordered unit tests, which is basically a single test container that ensures the test sequence.

Here's a guide on MSDN: http://msdn.microsoft.com/en-us/library/ms182631.aspx

  • 1
    I've never used ordered tests, but there's a comment on that article stating the environment is not maintained between the tests in an ordered test list. I wonder if that applies to static classes as well. – Todd Bowles Dec 20 '13 at 20:51
  • That is a very good question @ToddBowles. And unfortunately, I may have the opportunity to find out soon... – iGanja Dec 20 '13 at 23:07
  • 2
    Can you explain how is it a design flaw? I understand that something should work when its executed, but for instance, in my tests I have to startup a SQLite database (from scratch) and throw some data into it, and then I have to grab this data. I cannot grab data if the database doesn't exists. Also, the tests kind of require me to work with a fresh database. Should I delete and recreate the database on every test? – Ricardo Pieper Dec 1 '14 at 16:08
  • 3
    @RicardoPieper What you describe is a test fixture setup. It's perfectly ok to have tests depending on that (it's the purpose of a test fixture after all) as long as each test does the setup and teardown (cleanup). The point of my answer was to warn about tests depending on a mutated fixture state or result of previous tests, because then you can get chain failures and you'll have hard time finding out what went wrong in the first place. And it points to entangled logic, too tightly coupled. As long as every test starts with a fresh fixture, it's fine - otherwise be cautious. – Honza Brestan Dec 2 '14 at 0:30
  • Thanks, @Honza Brestan. I suppose I can use the attributes ClassInitialize and ClassCleanup to do it. – Ricardo Pieper Dec 2 '14 at 1:38
4

Since you've already mentioned the Ordered Test functionality that the Visual Studio testing framework supplies, I'll ignore that. You also seem to be aware that what you're trying to accomplish in order to test this Static Class is a "bad idea", so I'll ignore that to.

Instead, lets focus on how you might actually be able to guarantee that your tests are executed in the order you want. One option (as supplied by @gaog) is "one test method, many test functions", calling your test functions in the order that you want from within a single function marked with the TestMethod attribute. This is the simplest way, and the only disadvantage is that the first test function to fail will prevent any of the remaining test functions from executing.

With your description of the situation, this is the solution I would suggest you use.

If the bolded part is a problem for you, you can accomplish an ordered execution of isolated tests by leveraging the in built data driven test functionality. Its more complicated and feels a bit dirty, but it gets the job done.

In short, you define a data source (like a CSV file, or a database table) that controls the order in which you need to run your tests, and names of the functions that actually contain the test functionality. You then hook that data source into a data driven test, use the sequential read option, and execute your functions, in the order you want, as individual tests.

[TestClass]
public class OrderedTests
{
    public TestContext TestContext { get; set; }

    private const string _OrderedTestFilename = "TestList.csv";

    [TestMethod]
    [DeploymentItem(_OrderedTestFilename)]
    [DataSource("Microsoft.VisualStudio.TestTools.DataSource.CSV", _OrderedTestFilename, _OrderedTestFilename, DataAccessMethod.Sequential)]
    public void OrderedTests()
    {
        var methodName = (string)TestContext.DataRow[0];
        var method = GetType().GetMethod(methodName);
        method.Invoke(this, new object[] { });
    }

    public void Method_01()
    {
        Assert.IsTrue(true);
    }

    public void Method_02()
    {
        Assert.IsTrue(false);
    }

    public void Method_03()
    {
        Assert.IsTrue(true);
    }
}

In my example, I have a supporting file called TestList.csv, which gets copied to output. It looks like this:

TestName
Method_01
Method_02
Method_03

Your tests will be executed in the order that you specified, and in normal test isolation (i.e. if one fails, the rest still get executed, but sharing static classes).

The above is really only the basic idea, if I were to use it in production I would generate the test function names and their order dynamically before the test is run. Perhaps by leveraging PriorityAttribute you found and some simple reflection code to extract the test methods in the class and order them appropriately, then write that order to the data source.

3

Here is a class that can be used to setup and run ordered tests independent of MS Ordered Tests framework for whatever reason--like not have to adjust mstest.exe arguments on a build machine, or mixing ordered with non-ordered in a class.

The original testing framework only sees the list of ordered tests as a single test so any init/cleanup like [TestInitalize()] Init() is only called before and after the entire set.

Usage:

        [TestMethod] // place only on the list--not the individuals
        public void OrderedStepsTest()
        {
            OrderedTest.Run(TestContext, new List<OrderedTest>
            {
                new OrderedTest ( T10_Reset_Database, false ),
                new OrderedTest ( T20_LoginUser1, false ),
                new OrderedTest ( T30_DoLoginUser1Task1, true ), // continue on failure
                new OrderedTest ( T40_DoLoginUser1Task2, true ), // continue on failure
                // ...
            });                
        }

Implementation:

using Microsoft.VisualStudio.TestTools.UnitTesting;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;

namespace UnitTests.Utility
{    
    /// <summary>
    /// Define and Run a list of ordered tests. 
    /// 2016/08/25: Posted to SO by crokusek 
    /// </summary>    
    public class OrderedTest
    {
        /// <summary>Test Method to run</summary>
        public Action TestMethod { get; private set; }

        /// <summary>Flag indicating whether testing should continue with the next test if the current one fails</summary>
        public bool ContinueOnFailure { get; private set; }

        /// <summary>Any Exception thrown by the test</summary>
        public Exception ExceptionResult;

        /// <summary>
        /// Constructor
        /// </summary>
        /// <param name="testMethod"></param>
        /// <param name="continueOnFailure">True to continue with the next test if this test fails</param>
        public OrderedTest(Action testMethod, bool continueOnFailure = false)
        {
            TestMethod = testMethod;
            ContinueOnFailure = continueOnFailure;
        }

        /// <summary>
        /// Run the test saving any exception within ExceptionResult
        /// Throw to the caller only if ContinueOnFailure == false
        /// </summary>
        /// <param name="testContextOpt"></param>
        public void Run()
        {
            try
            {
                TestMethod();
            }
            catch (Exception ex)
            {
                ExceptionResult = ex;
                throw;
            }
        }

        /// <summary>
        /// Run a list of OrderedTest's
        /// </summary>
        static public void Run(TestContext testContext, List<OrderedTest> tests)
        {
            Stopwatch overallStopWatch = new Stopwatch();
            overallStopWatch.Start();

            List<Exception> exceptions = new List<Exception>();

            int testsAttempted = 0;
            for (int i = 0; i < tests.Count; i++)
            {
                OrderedTest test = tests[i];

                Stopwatch stopWatch = new Stopwatch();
                stopWatch.Start();

                testContext.WriteLine("Starting ordered test step ({0} of {1}) '{2}' at {3}...\n",
                    i + 1,
                    tests.Count,
                    test.TestMethod.Method,
                    DateTime.Now.ToString("G"));

                try
                {
                    testsAttempted++;
                    test.Run();
                }
                catch
                {
                    if (!test.ContinueOnFailure)
                        break;
                }
                finally
                {
                    Exception testEx = test.ExceptionResult;

                    if (testEx != null)  // capture any "continue on fail" exception
                        exceptions.Add(testEx);

                    testContext.WriteLine("\n{0} ordered test step {1} of {2} '{3}' in {4} at {5}{6}\n",
                        testEx != null ? "Error:  Failed" : "Successfully completed",
                        i + 1,
                        tests.Count,
                        test.TestMethod.Method,
                        stopWatch.ElapsedMilliseconds > 1000
                            ? (stopWatch.ElapsedMilliseconds * .001) + "s"
                            : stopWatch.ElapsedMilliseconds + "ms",
                        DateTime.Now.ToString("G"),
                        testEx != null
                            ? "\nException:  " + testEx.Message +
                                "\nStackTrace:  " + testEx.StackTrace +
                                "\nContinueOnFailure:  " + test.ContinueOnFailure
                            : "");
                }
            }

            testContext.WriteLine("Completed running {0} of {1} ordered tests with a total of {2} error(s) at {3} in {4}",
                testsAttempted,
                tests.Count,
                exceptions.Count,
                DateTime.Now.ToString("G"),
                overallStopWatch.ElapsedMilliseconds > 1000
                    ? (overallStopWatch.ElapsedMilliseconds * .001) + "s"
                    : overallStopWatch.ElapsedMilliseconds + "ms");

            if (exceptions.Any())
            {
                // Test Explorer prints better msgs with this hierarchy rather than using 1 AggregateException().
                throw new Exception(String.Join("; ", exceptions.Select(e => e.Message), new AggregateException(exceptions)));
            }
        }
    }
}
3

As you should know by now, purists say it's forbiden to run ordered tests. That might be true for unit tests. MSTest and other Unit Test frameworks are used to run pure unit test but also UI tests, full integration tests, you name it. Maybe we shouldn't call them Unit Test frameworks, or maybe we should and use them according to our needs. That's what most people do anyway.

I'm running VS2015 and I MUST run tests in a given order because I'm running UI tests (Selenium).

Priority - Doesn't do anything at all This attribute is not used by the test system. It is provided to the user for custom purposes.

orderedtest - it works but I don't recommend it because:

  1. An orderedtest a text file that lists your tests in the order they should be executed. If you change a method name, you must fix the file.
  2. The test execution order is respected inside a class. You can't order which class executes its tests first.
  3. An orderedtest file is bound to a configuration, either Debug or Release
  4. You can have several orderedtest files but a given method can not be repeated in different orderedtest files. So you can't have one orderedtest file for Debug and another for Release.

Other suggestions in this thread are interesting but you loose the ability to follow the test progress on Test Explorer.

You are left with the solution that purist will advise against, but in fact is the solution that works: sort by declaration order.

The MSTest executor uses an interop that manages to get the declaration order and this trick will work until Microsoft changes the test executor code.

This means the test method that is declared in the first place executes before the one that is declared in second place, etc.

To make your life easier, the declaration order should match the alphabetical order that is is shown in the Test Explorer.

  • A010_FirstTest
  • A020_SecondTest
  • etc
  • A100_TenthTest

I strongly suggest some old and tested rules:

  • use a step of 10 because you will need to insert a test method later on
  • avoid the need to renumber your tests by using a generous step between test numbers
  • use 3 digits to number your tests if you are running more than 10 tests
  • use 4 digits to number your tests if you are running more than 100 tests

VERY IMPORTANT

In order to execute the tests by the declaration order, you must use Run All in the Test Explorer.

Say you have 3 test classes (in my case tests for Chrome, Firefox and Edge). If you select a given class and right click Run Selected Tests it usually starts by executing the method declared in the last place.

Again, as I said before, declared order and listed order should match or else you'll in big trouble in no time.

  • Doing a functional set of tests that write to the database. Don't really care if they really run in order. But if they happen to, the last one is the most complete test. Be nice if it was hinted to run last. Yes. I am mocking as well. Unit Tests are kept separate from Functional Tests. FT's are only ran manually against local/test environment as part of my major deployment run. I don't run functional tests for minor changes and hotfixes. This worked perfectly! – TamusJRoyce Jan 27 '18 at 21:13
2

I'll not address the order of tests, sorry. Others already did it. Also, if you know about "ordered tests" - well, this is MS VS's response to the problem. I know that those ordered-tests are no fun. But they thought it will be "it" and there's really nothing more in MSTest about that.

I write about one of your assumptions:

as there is no way to tear down the static class.

Unless your static class represents some process-wide external state external to your code (like ie. the state of an unmanaged native DLL library thats P/Invoked by the rest of your code), your assumption that there is no way is not true.

If your static class refers to this, then sorry, you are perfectly right, the rest of this anwer is irrelevant. Still, as you didn't say that, I assume your code is "managed".

Think and check the AppDomain thingy. Rarely it is needed, but this is exactly the case when you'd probably like to use them.

You can create a new AppDomain, and instantiate the test there, and run the test method there. Static data used by managed code will isolated there and upon completion, you will be able to unload the AppDomain and all the data, statics included, will evaporate. Then, next test would initialize another appdomain, and so on.

This will work unless you have external state that you must track. AppDomains only isolate the managed memory. Any native DLL will still be load per-process and their state will be shared by all AppDomains.

Also, creating/tearing down the appdomains will, well, slow down the tests. Also, you may have problems with assembly resolution in the child appdomain, but they are solvable with reasonable amount of reusable code.

Also, you may have small problems with passing test data to - and back from - the child AppDomain. Objects passed will either have to be serializable in some way, or be MarshalByRef or etc. Talking cross-domain is almost like IPC.

However, take care here, it will be 100% managed talking. If you take some extra care and add a little work to the AppDomain setup, you will be able to even pass delegates and run them in the target domain. Then, instead of making some hairy cross-domain setup, you can wrap your tests with to something like:

void testmethod()
{
    TestAppDomainHelper.Run( () =>
    {
        // your test code
    });
}

or even

[IsolatedAppDomain]
void testmethod()
{
    // your test code
}

if your test framework supports creating such wrappers/extensions. After some initial research and work, using them is almost trivial.

  • I'll look into this. Maybe not today though. :) – iGanja Dec 20 '13 at 23:12
-2

they just can't be run together in a random order as there is no way to tear down the static class

You can name namespaces and classes in alphabetical order. eg.:

  • MyApp.Test.Stage01_Setup.Step01_BuildDB
  • MyApp.Test.Stage01_Setup.Step02_UpgradeDB
  • MyApp.Test.Stage02_Domain.Step01_TestMyStaff
  • MyApp.Test.Stage03_Integration.Step01_TestMyStaff

where MyApp.Test.Stage01_Setup is a namespace and Step01_BuildDB is a class name.

  • The execution order is by method declaration order and not by alphabetical order. – Tiago Freitas Leal Nov 8 '17 at 17:23

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