Visual Studio 2019 Code



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To determine what proportion of your project's code is actually being tested by coded tests such as unit tests, you can use the code coverage feature of Visual Studio. To guard effectively against bugs, your tests should exercise or 'cover' a large proportion of your code.

Code coverage analysis can be applied to both managed (CLI) and unmanaged (native) code.

Code coverage is an option when you run test methods using Test Explorer. The results table shows the percentage of the code that was run in each assembly, class, and method. In addition, the source editor shows you which code has been tested.

Studio

Requirements

Visual Studio Code is free and available on your favorite platform - Linux, macOS, and Windows. Download Visual Studio Code to experience a redefined code editor, optimized for building and debugging modern web and cloud applications. Visual Studio lets you pause code execution the moment you want to inspect a bug, using the breakpoint and method you need. Use Git as the default version control experience in Visual Studio 2019 or Team Foundation Version Control (TFVC) for centralized version control right out of the box. From the new Git menu, you can clone, create,.

The code coverage feature is available only in Visual Studio Enterprise edition.

Analyze code coverage

  1. On the Test menu, choose Analyze Code Coverage.
  1. On the Test menu, select Analyze Code Coverage for All Tests.

    You can also run code coverage from the Test Explorer tool window.

  1. After the tests have run, to see which lines have been run, choose Show Code Coverage Coloring in the Code Coverage Results window. By default, code that is covered by tests is highlighted in light blue.

    Tip

    To change the colors or to use bold face, choose Tools > Options > Environment > Fonts and Colors > Show settings for: Text Editor. Under Display items, adjust settings for the 'Coverage' items, for example, Coverage Not Touched Area.

  2. If the results show low coverage, investigate which parts of the code are not being exercised, and write more tests to cover them. Development teams typically aim for about 80% code coverage. In some situations, lower coverage is acceptable. For example, lower coverage is acceptable where some code is generated from a standard template.

Tip

  • Turn compiler optimization off
  • If you're working with unmanaged (native) code, use a debug build
  • Generate .pdb (symbol) files for each assembly

Visual Studio 2019 Code Snippets

If you don't get the results you expect, see Troubleshoot code coverage.

Don't forget to run code coverage again after updating your code. Coverage results and code coloring are not automatically updated after you modify your code or when you run tests.

Report in blocks or lines

Code coverage is counted in blocks. A block is a piece of code with exactly one entry and exit point. If the program's control flow passes through a block during a test run, that block is counted as covered. The number of times the block is used has no effect on the result.

You can also have the results displayed in terms of lines by choosing Add/Remove Columns in the table header. Some users prefer a count of lines because the percentages correspond more closely to the size of the fragments that you see in the source code. A long block of calculation would count as a single block even if it occupies many lines.

Tip

A line of code can contain more than one code block. If this is the case, and the test run exercises all the code blocks in the line, it is counted as one line. If some but not all code blocks in the line are exercised, it is counted as a partial line.

Manage code coverage results

The Code Coverage Results window usually shows the result of the most recent run. The results will vary if you change your test data, or if you run only some of your tests each time.

The code coverage window can also be used to view previous results, or results obtained on other computers.

You can merge the results of several runs, for example from runs that use different test data.

  • To view a previous set of results, select it from the drop-down menu. The menu shows a temporary list that is cleared when you open a new solution.

  • To view results from a previous session, choose Import Code Coverage Results, navigate to the TestResults folder in your solution, and import a .coverage file.

    The coverage coloring might be incorrect if the source code has changed since the .coverage file was generated.

  • To make results readable as text, choose Export Code Coverage Results. This generates a readable .coveragexml file, which you could process with other tools or send easily in mail.

  • To send results to someone else, send either a .coverage file or an exported .coveragexml file. They can then import the file. If they have the same version of the source code, they can see coverage coloring.

Merge results from different runs

In some situations, different blocks in your code will be used depending on the test data. Therefore, you might want to combine the results from different test runs.

For example, suppose that when you run a test with input '2', you find that 50% of a particular function is covered. When you run the test a second time with the input '-2', you see in the coverage coloring view that the other 50% of the function is covered. Now you merge the results from the two test runs, and the report and coverage coloring view show that 100% of the function was covered.

Use Merge Code Coverage Results to do this. You can choose any combination of recent runs or imported results. If you want to combine exported results, you must import them first.

Use Export Code Coverage Results to save the results of a merge operation.

Limitations in merging

Visual Studio 2019 And Visual Studio Code

  • If you merge coverage data from different versions of the code, the results are shown separately, but they are not combined. To get fully combined results, use the same build of the code, changing only the test data.

  • If you merge a results file that has been exported and then imported, you can only view the results by lines, not by blocks. Use the Add/Remove Columns command to show the line data.

  • If you merge results from tests of an ASP.NET project, the results for the separate tests are displayed, but not combined. This applies only to the ASP.NET artifacts themselves: results for any other assemblies will be combined.

Exclude elements from the code coverage results

You might want to exclude specific elements in your code from the coverage scores, for example if the code is generated from a text template. Add the System.Diagnostics.CodeAnalysis.ExcludeFromCodeCoverageAttribute attribute to any of the following code elements: class, struct, method, property, property setter or getter, event.

Tip

Excluding a class does not exclude its derived classes.

For example:

Exclude elements in Native C++ code

To exclude unmanaged (native) elements in C++ code:

Use the following macros:

ExcludeFromCodeCoverage(ExclusionName, L'FunctionName');

ExcludeSourceFromCodeCoverage(ExclusionName, L'SourceFilePath');

  • ExclusionName is any unique name.

  • FunctionName is a fully qualified function name. It may contain wildcards. For example, to exclude all the functions of a class, write MyNamespace::MyClass::*

  • SourceFilePath is the local or UNC path of a .cpp file. It may contain wildcards. The following example excludes all files in a particular directory: MyComputerSourceUnitTests*.cpp

  • #include <CodeCoverageCodeCoverage.h>

  • Place calls to the exclusion macros in the global namespace, not within any namespace or class.

  • You can place the exclusions either in the unit test code file or the application code file.

  • The exclusions must be compiled as unmanaged (native) code, either by setting the compiler option or by using #pragma managed(off).

Note

To exclude functions in C++/CLI code, apply the attribute [System::Diagnostics::CodeAnalysis::ExcludeFromCodeCoverage] to the function. This is the same as for C#.

Include or exclude additional elements

Code coverage analysis is performed only on assemblies that are loaded and for which a .pdb file is available in the same directory as the .dll or .exe file. Therefore in some circumstances, you can extend the set of assemblies that is included by getting copies of the appropriate .pdb files.

You can exercise more control over which assemblies and elements are selected for code coverage analysis by writing a .runsettings file. For example, you can exclude assemblies of particular kinds without having to add attributes to their classes. For more information, see Customize code coverage analysis.

Visual Studio 2019 Codespaces

Analyze code coverage in Azure Pipelines

When you check in your code, your tests run on the build server along with tests from other team members. It's useful to analyze code coverage in Azure Pipelines to get the most up-to-date and comprehensive picture of coverage in the whole project. It also includes automated system tests and other coded tests that you don't usually run on the development machines. For more information, see Run unit tests with your builds.

Analyze code coverage from the command line

To run tests from the command line, use vstest.console.exe. Code coverage is an option of the vstest.console.exe utility.

  1. Launch the Developer Command Prompt for Visual Studio:

    In the Windows Start menu, choose Visual Studio 2017 > Developer Command Prompt for VS 2017.

    In the Windows Start menu, choose Visual Studio 2019 > Developer Command Prompt for VS 2019.

  2. At the command prompt, run the following command:

Visual Studio 2019 Print Code

For more information, see VSTest.Console.exe command-line options.

Troubleshoot

If you do not see code coverage results, the Troubleshoot code coverage article might help you.

Visual Studio 2020

See also