Use the MSTest framework in unit tests
The MSTest framework supports unit testing in Visual Studio. Use the classes and members in the Microsoft.VisualStudio.TestTools.UnitTesting namespace when you're coding unit tests. You can also use them when you're refining a unit test that was generated from code.
Framework members
To help provide a clearer overview of the unit testing framework, this section organizes the members of the Microsoft.VisualStudio.TestTools.UnitTesting namespace into groups of related functionality.
Note
Attribute elements, whose names end with "Attribute", can be used either with or without "Attribute" on the end and for parameterless constructors with or without parenthesis. For example, the following code examples function identically:
[TestClass()]
[TestClassAttribute()]
[TestClass]
[TestClassAttribute]
Attributes used to identify test classes and methods
Every test class must have the TestClass
attribute, and every test method must have the TestMethod
attribute. For more information, see Anatomy of a unit test.
TestClassAttribute
The TestClass attribute marks a class that contains tests and, optionally, initialize or cleanup methods.
This attribute can be extended to update or extend the behavior.
Example:
[TestClass]
public class MyTestClass
{
}
TestMethodAttribute
The TestMethod attribute is used inside a TestClass
to define the actual test method to run.
The method should be an instance method defined as public void
or public Task
(optionally async
) and be parameterless.
Example
[TestClass]
public class MyTestClass
{
[TestMethod]
public void TestMethod()
{
}
}
[TestClass]
public class MyTestClass
{
[TestMethod]
public async Task TestMethod()
{
}
}
Attributes used for data-driven testing
Use the following elements to set up data-driven unit tests. For more information, see Create a data-driven unit test and Use a configuration file to define a data source.
DataRow
The DataRowAttribute
allows you to provide inline data used when invoking the test method. It can appear one or multiple times on a test method. It should be combined with TestMethodAttribute
or DataTestMethodAttribute
.
The number and types of arguments must exactly match the test method signature.
Examples of valid calls:
[TestClass]
public class TestClass
{
[TestMethod]
[DataRow(1, "message", true, 2.0)]
public void TestMethod1(int i, string s, bool b, float f) {}
[TestMethod]
[DataRow(new string[] { "line1", "line2" })]
public void TestMethod2(string[] lines) {}
[TestMethod]
[DataRow(null)]
public void TestMethod3(object o) {}
[TestMethod]
[DataRow(new string[] { "line1", "line2" }, new string[] { "line1.", "line2." })]
public void TestMethod4(string[] input, string[] expectedOutput) {}
}
Note that you can also use the params
feature to capture multiple inputs of the DataRow
.
[TestClass]
public class TestClass
{
[TestMethod]
[DataRow(1, 2, 3, 4)]
public void TestMethod(params int[] values) {}
}
Examples of invalid combinations:
[TestClass]
public class TestClass
{
[TestMethod]
[DataRow(1, 2)] // Not valid, we are passing 2 inline data but signature expects 1
public void TestMethod1(int i) {}
[TestMethod]
[DataRow(1)] // Not valid, we are passing 1 inline data but signature expects 2
public void TestMethod2(int i, int j) {}
[TestMethod]
[DataRow(1)] // Not valid, count matches but types do not match
public void TestMethod3(string s) {}
}
Note
Starting with MSTest v3, when you want to pass exactly 2 arrays, you no longer need to wrap the second array in an object array. Before: [DataRow(new string[] { "a" }, new object[] { new string[] { "b" } })] In v3 onward: [DataRow(new string[] { "a" }, new string[] { "b" })]
You can modify the display name used in Visual Studio and loggers for each instance of DataRowAttribute
by setting the DisplayName
property.
[TestClass]
public class TestClass
{
[TestMethod]
[DataRow(1, 2, DisplayName= "Functional Case FC100.1")]
public void TestMethod(int i, int j) {}
}
You can also create your own specialized data row attribute by inheriting the DataRowAttribute
.
[AttributeUsage(AttributeTargets.Method, AllowMultiple = true)]
public class MyCustomDataRowAttribute : DataRowAttribute
{
}
[TestClass]
public class TestClass
{
[TestMethod]
[MyCustomDataRow(1)]
public void TestMethod(int i) {}
}
Attributes used to provide initialization and cleanups
A method decorated with one of the following attributes is called at the moment you specify. For more information, see Anatomy of a unit test.
Assembly
AssemblyInitialize is called right after your assembly is loaded and AssemblyCleanup is called right before your assembly is unloaded.
The methods marked with these attributes should be defined as static void
or static Task
, in a TestClass
, and appear only once. The initialize part requires one argument of type TestContext and the cleanup no argument.
[TestClass]
public class MyTestClass
{
[AssemblyInitialize]
public static void AssemblyInitialize(TestContext testContext)
{
}
[AssemblyCleanup]
public static void AssemblyCleanup()
{
}
}
[TestClass]
public class MyOtherTestClass
{
[AssemblyInitialize]
public static async Task AssemblyInitialize(TestContext testContext)
{
}
[AssemblyCleanup]
public static async Task AssemblyCleanup()
{
}
}
Class
ClassInitialize is called right before your class is loaded (but after static constructor) and ClassCleanup is called right after your class is unloaded.
It's possible to control the inheritance behavior: only for current class using InheritanceBehavior.None
or for all derived classes using InheritanceBehavior.BeforeEachDerivedClass
.
It's also possible to configure whether the class cleanup should be run at the end of the class or at the end of the assembly (No longer supported starting from MSTest v4 as EndOfClass is the default and only class cleanup behavior).
The methods marked with these attributes should be defined as static void
or static Task
, in a TestClass
, and appear only once. The initialize part requires one argument of type TestContext and the cleanup no argument.
[TestClass]
public class MyTestClass
{
[ClassInitialize]
public static void ClassInitialize(TestContext testContext)
{
}
[ClassCleanup]
public static void ClassCleanup()
{
}
}
[TestClass]
public class MyOtherTestClass
{
[ClassInitialize]
public static async Task ClassInitialize(TestContext testContext)
{
}
[ClassCleanup]
public static async Task ClassCleanup()
{
}
}
Test
TestInitialize is called right before your test is started and TestCleanup is called right after your test is finished.
The TestInitialize
is similar to the class constructor but is usually more suitable for long or async initializations. The TestInitialize
is always called after the constructor and called for each test (including each data row of data-driven tests).
The TestCleanup
is similar to the class Dispose
(or DisposeAsync
) but is usually more suitable for long or async cleanups. The TestCleanup
is always called just before the DisposeAsync
/Dispose
and called for each test (including each data row of data-driven tests).
The methods marked with these attributes should be defined as void
or Task
, in a TestClass
, be parameterless, and appear one or multiple times.
[TestClass]
public class MyTestClass
{
[TestInitialize]
public void TestInitialize()
{
}
[TestCleanup]
public void TestCleanup()
{
}
}
[TestClass]
public class MyOtherTestClass
{
[TestInitialize]
public async Task TestInitialize()
{
}
[TestCleanup]
public async Task TestCleanup()
{
}
}
Assertions and related exceptions
Unit tests can verify specific application behavior by their use of various kinds of assertions, exceptions, and attributes. For more information, see Using the assert classes.
The TestContext class
The following attributes and the values assigned to them appear in the Visual Studio Properties window for a particular test method. These attributes aren't meant to be accessed through the code of the unit test. Instead, they affect the ways the unit test is used or run, either by you through the IDE of Visual Studio, or by the Visual Studio test engine. For example, some of these attributes appear as columns in the Test Manager window and Test Results window, which means that you can use them to group and sort tests and test results. One such attribute is TestPropertyAttribute, which you use to add arbitrary metadata to unit tests. For example, you could use it to store the name of a "test pass" that this test covers, by marking the unit test with [TestProperty("TestPass", "Accessibility")]
. Or, you could use it to store an indicator of the kind of test It's with [TestProperty("TestKind", "Localization")]
. The property you create by using this attribute, and the property value you assign, are both displayed in the Visual Studio Properties window under the heading Test specific.
DeploymentItemAttribute
The MSTest V2 framework introduced DeploymentItemAttribute for copying files or folders specified as deployment items to the deployment directory (without adding a custom output path the copied files will be in TestResults folder inside the project folder). The deployment directory is where all the deployment items are present along with test project DLL.
It can be used either on test classes (classes marked with TestClass
attribute) or on test methods (methods marked with TestMethod
attribute).
Users can have multiple instances of the attribute to specify more than one item.
And here you can see its constructors.
Example
[TestClass]
[DeploymentItem(@"C:\classLevelDepItem.xml")] // Copy file using some absolute path
public class UnitTest1
{
[TestMethod]
[DeploymentItem(@"..\..\methodLevelDepItem1.xml")] // Copy file using a relative path from the dll output location
[DeploymentItem(@"C:\DataFiles\methodLevelDepItem2.xml", "SampleDataFiles")] // File will be added under a SampleDataFiles in the deployment directory
public void TestMethod1()
{
string textFromFile = File.ReadAllText("classLevelDepItem.xml");
}
}
Test configuration classes
Attributes used to generate reports
The attributes in this section relate the test method that they decorate to entities in the project hierarchy of a Team Foundation Server
team project.
Classes used with private accessors
You can generate a unit test for a private method. This generation creates a private accessor class, which instantiates an object of the PrivateObject class. The PrivateObject class is a wrapper class that uses reflection as part of the private accessor process. The PrivateType class is similar, but is used for calling private static methods instead of calling private instance methods.
See also
- Microsoft.VisualStudio.TestTools.UnitTesting reference documentation