Compartilhar via


How to: Create a data-driven unit test

Applies to: yesVisual Studio noVisual Studio for Mac

Note

This article applies to Visual Studio 2017. If you're looking for the latest Visual Studio documentation, see Visual Studio documentation. We recommend upgrading to the latest version of Visual Studio. Download it here

You can use the Microsoft unit test framework for managed code to set up a unit test method to retrieve values from a data source. The method is run successively for each row in the data source, which makes it easy to test a variety of input by using a single method.

Creating a data-driven unit test involves the following steps:

  1. Create a data source that contains the values that you use in the test method. The data source can be any type that is registered on the machine that runs the test.

  2. Add a private TestContext field and a public TestContext property to the test class.

  3. Create a unit test method and add a DataSourceAttribute attribute to it.

  4. Use the DataRow indexer property to retrieve the values that you use in a test.

The method under test

As an example, let's assume that you have:

  1. A solution called MyBank that accepts and processes transactions for different types of accounts.

  2. A project in MyBank called BankDb that manages the transactions for accounts.

  3. A class called Maths in the BankDb project that performs the mathematical functions to ensure that any transaction is advantageous to the bank.

  4. A unit test project called BankDbTests to test the behavior of the BankDb component.

  5. A unit test class called MathsTests to verify the behavior of the Maths class.

We'll test a method in Maths that adds two integers using a loop:

public int AddIntegers(int first, int second)
{
    int sum = first;
    for( int i = 0; i < second; i++)
    {
        sum += 1;
    }
    return sum;
}

Create a data source

To test the AddIntegers method, create a data source that specifies a range of values for the parameters and the sum that you expect to be returned. In this example, we'll create a Sql Compact database named MathsData and a table named AddIntegersData that contains the following column names and values

FirstNumber SecondNumber Sum
0 1 1
1 1 2
2 -3 -1

Add a TestContext to the test class

The unit test framework creates a TestContext object to store the data source information for a data-driven test. The framework then sets this object as the value of the TestContext property that you create.

private TestContext testContextInstance;
public TestContext TestContext
{
    get { return testContextInstance; }
    set { testContextInstance = value; }
}

In your test method, you access the data through the DataRow indexer property of the TestContext.

Note

.NET Core does not support the DataSource attribute. If you try to access test data in this way in a .NET Core or UWP unit test project, you'll see an error similar to "'TestContext' does not contain a definition for 'DataRow' and no accessible extension method 'DataRow' accepting a first argument of type 'TestContext' could be found (are you missing a using directive or an assembly reference?)".

Write the test method

The test method for AddIntegers is fairly simple. For each row in the data source, call AddIntegers with the FirstNumber and SecondNumber column values as parameters, and verify the return value against Sum column value:

[DataSource(@"Provider=Microsoft.SqlServerCe.Client.4.0; Data Source=C:\Data\MathsData.sdf;", "Numbers")]
[TestMethod()]
public void AddIntegers_FromDataSourceTest()
{
    var target = new Maths();

    // Access the data
    int x = Convert.ToInt32(TestContext.DataRow["FirstNumber"]);
    int y = Convert.ToInt32(TestContext.DataRow["SecondNumber"]);
    int expected = Convert.ToInt32(TestContext.DataRow["Sum"]);
    int actual = target.IntegerMethod(x, y);
    Assert.AreEqual(expected, actual,
        "x:<{0}> y:<{1}>",
        new object[] {x, y});
}

The Assert method includes a message that displays the x and y values of a failed iteration. By default, the asserted values - expected and actual - are already included in failed test details.

Specify the DataSourceAttribute

The DataSource attribute specifies the connection string for the data source and the name of the table that you use in the test method. The exact information in the connection string differs, depending on what kind of data source you are using. In this example, we used a SqlServerCe database.

[DataSource(@"Provider=Microsoft.SqlServerCe.Client.4.0;Data Source=C:\Data\MathsData.sdf", "AddIntegersData")]

The DataSource attribute has three constructors.

[DataSource(dataSourceSettingName)]

A constructor with one parameter uses connection information that is stored in the app.config file for the solution. The dataSourceSettingsName is the name of the Xml element in the config file that specifies the connection information.

Using an app.config file allows you to change the location of the data source without making changes to the unit test itself. For information about how to create and use an app.config file, see Walkthrough: Using a Configuration File to Define a Data Source

[DataSource(connectionString, tableName)]

The DataSource constructor with two parameters specifies the connection string for the data source and the name of the table that contains the data for the test method.

The connection strings depend on the type of the type of data source, but it should contain a Provider element that specifies the invariant name of the data provider.

[DataSource(
    dataProvider,
    connectionString,
    tableName,
    dataAccessMethod
    )]

Use TestContext.DataRow to access the data

To access the data in the AddIntegersData table, use the TestContext.DataRow indexer. DataRow is a DataRow object, so retrieve column values by index or column names. Because the values are returned as objects, convert them to the appropriate type:

int x = Convert.ToInt32(TestContext.DataRow["FirstNumber"]);

Run the test and view results

When you've finished writing a test method, build the test project. The test method appears in Test Explorer in the Not Run Tests group. As you run, write, and rerun your tests, Test Explorer displays the results in groups of Failed Tests, Passed Tests, and Not Run Tests. You can choose Run All to run all your tests, or choose Run to choose a subset of tests to run.

The test results bar at the top of Test Explorer is animated as your test runs. At the end of the test run, the bar will be green if all of the tests have passed or red if any of the tests have failed. A summary of the test run appears in the details pane at the bottom of the Test Explorer window. Select a test to view the details of that test in the bottom pane.

Note

There's a result for each row of data and also one summary result. If the test passed on each row of data, the summary run shows as Passed. If the test failed on any data row, the summary run shows as Failed.

If you ran the AddIntegers_FromDataSourceTest method in our example, the results bar turns red and the test method is moved to the Failed Tests. A data-driven test fails if any of the iterated methods from the data source fails. When you choose a failed data-driven test in the Test Explorer window, the details pane displays the results of each iteration that is identified by the data row index. In our example, it appears that the AddIntegers algorithm does not handle negative values correctly.

When the method under test is corrected and the test rerun, the results bar turns green and the test method is moved to the Passed Test group.

Run an inline data-driven test

For inline tests, MSTest uses DataRow to retrieve values from a data source. The test in this example runs successively for each data row.

[DataTestMethod]
[DataRow(1, 1, 2)]
[DataRow(2, 2, 4)]
[DataRow(3, 3, 6)]
[DataRow(0, 0, 1)] // The test run with this row fails
public void AddTests(int x, int y, int expected)
{
  Assert.AreEqual(expected, x + y);
}

See also