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Revision as of 12:58, 30 March 2016
Introduction
CTest is a testing tool distributed as a part of CMake. It can be used to automate updating (using CVS for example), configuring, building, testing, performing memory checking, performing coverage, and submitting results to a CDash or Dart dashboard system.
There are two basic modes of operation for CTest.
In the first mode, CMake is used to configure and build a project, using special commands in the CMakeLists.txt file to create tests. CTest can then be used to execute the tests, and optionally upload their results to a dashboard server. This is what is handled in this tutorial.
In the second mode, CTest runs a script (using the same syntax as CMakeLists.txt) to control the whole process of checking out / updating source code, configuring and building the project, and running the tests. This is handled in CMake Scripting Of CTest.
Simple Testing
CMake has support for adding tests to a project:
enable_testing()
This adds another build target, which is test for Makefile generators, or RUN_TESTS for integrated development environments (like Visual Studio).
From that point on, you can use the ADD_TEST command to add tests to the project:
add_test( testname Exename arg1 arg2 ... )
Or, in its longer form:
add_test(NAME <name> [CONFIGURATIONS [Debug|Release|...]] [WORKING_DIRECTORY dir] COMMAND <command> [arg1 [arg2 ...]])
Once you have built the project, you can execute all tests via
make test
with Makefile generators, or by rebuilding the RUN_TESTS target in your IDE. Internally this runs CTest to actually perform the testing; you could just as well execute
ctest
in the binary directory of your build.
In some projects you will want to set *_POSTFIX properties on executables that will be executed for testing, e.g. to make executables compiled with debug information distinguishable ("<exename>-debug"). Note that the shorthand version of add_test does not automatically append these postfixes to the commands it calls for the test target, i.e. your test will want to call "<exename>" but the executable is "<exename>-debug", resulting in an error message. Use the long version of the add_test() in this case, which adds the appropriate _POSTFIX to the command name.
For more information, check the CMake Documentation or run:
cmake --help-command enable_testing cmake --help-command add_test cmake --help-property "<CONFIG>_POSTFIX" cmake --help-command set_property
Dashboards
The next step is to not only execute the tests, but to log their results and provide them in such a way that they could be reviewed easily.
The result of a test run, reformatted for easy review, is called a "dashboard". A dashboard can be submitted to a central server, like CDash:
There are three types of dashboard submissions:
- Experimental means the current state of the project. An experimental submission can be performed at any time, usually interactively from the current working copy of a developer.
- Nightly is similar to experimental, except that the source tree will be set to the state it was in at a specific nightly time. This ensures that all "nightly" submissions correspond to the state of the project at the same point in time. "Nightly" builds are usually done automatically at a preset time of day.
- Continuous means that the source tree is updated to the latest revision, and a build / test cycle is performed only if any files were actually updated. Like "Nightly" builds, "Continuous" ones are usually done automatically and repeatedly in intervals.
Dashboard Preparation
To enable the creation and submission of dashboards, add the following to your CMakeLists.txt:
include( CTest )
This module will automatically call enable_testing() (see above), so you no longer have to do so in your CMake files. It will also add several new targets to your build.
* The three main targets: ** Experimental ** Nightly ** Continuous * For each of the above, targets for the intermediate steps ** ...Start ** ...Update ** ...Configure ** ...Build ** ...Submit ** ...Test ** ...Coverage ** ...MemCheck ** ...Submit
The intermediate targets are created so you could submit partial test results, or inspect the results before submitting (or continuing with more time-consuming steps like MemCheck).
All this can be disabled by setting the option BUILD_TESTING (which is also added by the CTest module and enabled by default) to OFF / false.
The default settings of the module are to submit the dashboard to Kitware's Public Dashboard, where you can register your project for free.
In order to submit to some other server, "CTestConfig.cmake" in the top level directory of your source, and set your own dashboard preferences. If you are using a CDash server, you can download a preconfigured file from the respective project page on that server ("Settings" / "Project", tab "Miscellaneous").
An example of a CTestConfig.cmake:
## This file should be placed in the root directory of your project. ## Then modify the CMakeLists.txt file in the root directory of your ## project to incorporate the testing dashboard. ## # The following are required to uses Dart and the Cdash dashboard ## ENABLE_TESTING() ## INCLUDE(CTest) set(CTEST_PROJECT_NAME "MyProject") set(CTEST_NIGHTLY_START_TIME "01:00:00 UTC") set(CTEST_DROP_METHOD "http") set(CTEST_DROP_SITE "open.cdash.org") set(CTEST_DROP_LOCATION "/submit.php?project=MyProject") set(CTEST_DROP_SITE_CDASH TRUE)
Dashboard Creation
Once you have the above in place, you can build one of the targets added by the CTest module you included. Internally, this calls the CTest command line client, which you could also call directly instead:
ctest -D Experimental
A detailed description of CTest options can be seen by running:
ctest --help
A list of the available targets is listed by calling:
ctest -D help
Converting Dart to CTest
CTest is actually a fully Dart compatible client, and could submit to any compatible server.
To convert existing Dart Client invocations to CTest, find lines like:
tclsh /location/of/Dart/Source/Client/DashboardManager.tcl DartConfiguration.tcl \ Nightly Start Update Configure Build Test Submit
Then convert them to CTest style:
ctest -D Nightly
Advanced CTest
CTest has several additional features that include:
- FTP/HTTP/SCP/XMLRPC submission support
- Run individual tests, subset of tests, exclude tests, etc.
- Dynamic analysis using Valgrind or Purify
- Customization of the testing by providing:
- Custom build error/warning regular expressions
- Ability to suppress some tests from being tested or memory checked and ability to run subset of tests
- Ability to run commands before and after tests are run
- Ability to run whole testing process described in a single script
Submission Of Tests
CTest currently supports four methods directly and any other indirectly. Direct methods are HTTP, FTP, SCP and XML-RPC. Both HTTP and FTP methods require extra trigger mechanism, while SCP method relies on the fact that files are on the right place. To set the appropriate submission method, set CTEST_DROP_METHOD variable in CTestConfig.cmake.
Example for HTTP submission would be:
SET (CTEST_DROP_METHOD http) SET (CTEST_DROP_SITE "public.kitware.com") SET (CTEST_DROP_LOCATION "/cgi-bin/HTTPUploadDartFile.cgi") SET (CTEST_TRIGGER_SITE "http://${DROP_SITE}/cgi-bin/Submit-CMake-TestingResults.pl")
where http://public.kitware.com/cgi-bin/HTTPUploadDartFile.cgi is a submit script and http://public.kitware.com/cgi-bin/Submit-CMake-TestingResults.pl is a trigger script.
For FTP submission:
SET (CTEST_DROP_METHOD ftp) SET (CTEST_DROP_SITE "public.kitware.com") SET (CTEST_DROP_LOCATION "/incoming") SET (CTEST_DROP_SITE_USER "ftpuser") SET (CTEST_DROP_SITE_PASSWORD "public") SET (CTEST_TRIGGER_SITE "http://${DROP_SITE}/cgi-bin/Submit-CMake-TestingResults.pl")
where /incoming is a location on the FTP site public.kitware.com with user ftpuser and password public. The trigger scrip is the same as with the http submit.
For XML-RPC submission (Dart2):
SET (CTEST_DROP_METHOD xmlrpc) SET (CTEST_DROP_SITE "www.na-mic.org:8081") SET (CTEST_DROP_LOCATION "PublicDashboard")
where XML-RPC submission is on the server www.na-mic.org with the port 8081. The project name is PublicDashboard. XML-RPC submission does not require the trigger script.
Running Individual Tests
CTest supports two different ways of specifying subset of tests to run.
The first way is to specify the regular expression using -R and -E. -R specifies tests to be included and -E specifies the tests to be removed. For example, when running ctest in show-only mode, where no tests are run, we may see something like:
Test project 1/ 13 Testing PythonDataDesc 2/ 13 Testing VTKTest 3/ 13 Testing SystemInformation 4/ 13 Testing TestVTKWriters 5/ 13 Testing TestVTKPython 6/ 13 Testing VTKPythonMultiGrid 7/ 13 Testing IronImage 8/ 13 Testing IronImageMagic 9/ 13 Testing IronImageStrideMagic 10/ 13 Testing IronRectMagic 11/ 13 Testing IronRectStrideMagic 12/ 13 Testing IronStructMagic 13/ 13 Testing IronStructStrideMagic
If we now run
ctest -R Python
We will only see tests that contain string Python:
Test project 1/ 3 Testing PythonDataDesc 2/ 3 Testing TestVTKPython 3/ 3 Testing VTKPythonMultiGrid
We can also omit tests using -E, for example:
ctest -E Iron
will produce:
Test project 1/ 6 Testing PythonDataDesc 2/ 6 Testing VTKTest 3/ 6 Testing SystemInformation 4/ 6 Testing TestVTKWriters 5/ 6 Testing TestVTKPython 6/ 6 Testing VTKPythonMultiGrid
Both -R and -E can be used at the same time.
To determine what tests are avilable, you can always run:
ctest -N
which will display the list of tests but not actually run them.
The second way of specifying tests is using explicit test number option -I:
ctest -I 3,5
will run tests:
Test project Running tests: 3 4 5 3/ 13 Testing SystemInformation 4/ 13 Testing TestVTKWriters 5/ 13 Testing TestVTKPython
We can also specify stride:
ctest -I ,,3
will run tests:
Test project Running tests: 1 4 7 10 13 1/ 13 Testing PythonDataDesc 4/ 13 Testing TestVTKWriters 7/ 13 Testing IronImage 10/ 13 Testing IronRectMagic 13/ 13 Testing IronStructStrideMagic
Or run individual tests:
ctest -I 4,4,,4,7,13
will run tests:
Test project Running tests: 4 7 13 4/ 13 Testing TestVTKWriters 7/ 13 Testing IronImage 13/ 13 Testing IronStructStrideMagic
Make sure that the first and second argument are the index of the first test
Dynamic Analysis
Software development can be significantly hindered when memory leaks are introduced in the code. Both Purify and Valgrind can catch most of them. Setting up both is extremely easy.
For example, to setup purify, all you have to do is to add:
PURIFYCOMMAND:FILEPATH=c:/Progra~1/Rational/common/purify.exe
To your cmake cache. Same way to setup valgrind, you add:
MEMORYCHECK_COMMAND:FILEPATH=/home/kitware/local/bin/valgrind
You can add additional options by specifying MEMORYCHECK_COMMAND_OPTIONS and MEMORYCHECK_SUPPRESSIONS_FILE.
Make sure to run:
ctest -D NightlyMemoryCheck
or
ctest -D NightlyStart ctest -D NightlyUpdate ctest -D NightlyConfigure ctest -D NightlyBuild ctest -D NightlyTest ctest -D NightlyMemCheck ctest -D NightlySubmit
Customizing CTest
CTest can be customized by providing CTestCustom.ctest or CTestCustom.cmake file in the build tree. If both files exist, CTestCustom.cmake will be preferred. If the CTestCustom.cmake/.ctest file is distributed with the sources of the project, e.g. CONFIGURE_FILE() can be used to put it in the build tree. The file may contain any SET command for any CMake variable, but the following ones will be used:
Variable | Description |
---|---|
CTEST_CUSTOM_ERROR_MATCH | Regular expression for errors during build process |
CTEST_CUSTOM_ERROR_EXCEPTION | Regular expression for error exceptions during build process |
CTEST_CUSTOM_WARNING_MATCH | Regular expression for warnings during build process |
CTEST_CUSTOM_WARNING_EXCEPTION | Regular expression for warning exception during build process |
CTEST_CUSTOM_MAXIMUM_NUMBER_OF_ERRORS | Maximum number of errors to display |
CTEST_CUSTOM_MAXIMUM_NUMBER_OF_WARNINGS | Maximum number of warnings to display |
CTEST_CUSTOM_TESTS_IGNORE | List of tests to ignore during the Test stage |
CTEST_CUSTOM_MEMCHECK_IGNORE | List of tests to ignore during the MemCheck stage |
CTEST_CUSTOM_PRE_TEST | Command to execute before any tests are run during Test stage |
CTEST_CUSTOM_POST_TEST | Command to execute after any tests are run during Test stage |
CTEST_CUSTOM_MAXIMUM_PASSED_TEST_OUTPUT_SIZE | Maximum size of passed test output |
CTEST_CUSTOM_MAXIMUM_FAILED_TEST_OUTPUT_SIZE | Maximum size of failed test output |
CTEST_CUSTOM_PRE_MEMCHECK | Command to execute before any tests are run during MemCheck stage |
CTEST_CUSTOM_POST_MEMCHECK | Command to execute after any tests are run during MemCheck stage |
CTEST_CUSTOM_COVERAGE_EXCLUDE | Regular expression for excluding files from coverage testing |
CTEST_EXTRA_COVERAGE_GLOB | Report on uncovered files matching this expression |
Example of CTestCustom.cmake file would be:
SET(CTEST_CUSTOM_MEMCHECK_IGNORE ${CTEST_CUSTOM_MEMCHECK_IGNORE} TestSetGet otherPrint-ParaView Example-vtkLocal Example-vtkMy # These tests do not actually run any VTK code HeaderTesting-Common HeaderTesting-Filtering HeaderTesting-Graphics HeaderTesting-Imaging HeaderTesting-IO # this one runs python which then runs two # program so no memory checking there Sockets-image ) SET(CTEST_CUSTOM_WARNING_MATCH ${CTEST_CUSTOM_WARNING_MATCH} "{standard input}:[0-9][0-9]*: Warning: " ) IF("@CMAKE_SYSTEM@" MATCHES "OSF") SET(CTEST_CUSTOM_WARNING_EXCEPTION ${CTEST_CUSTOM_WARNING_EXCEPTION} "XdmfDOM" "XdmfExpr" "vtkKWApplication" "vtkKWObject" ) ENDIF("@CMAKE_SYSTEM@" MATCHES "OSF") SET(CTEST_CUSTOM_WARNING_EXCEPTION ${CTEST_CUSTOM_WARNING_EXCEPTION} "tcl8.4.5/[^/]+/../[^/]+/[^.]+.c[:\"]" "tk8.4.5/[^/]+/[^/]+.c[:\"]" "VTK/Utilities/vtktiff/" "Utilities/vtkmpeg2/" "Utilities/hdf5/" "xtree.[0-9]+. : warning C4702: unreachable code" "warning LNK4221" "variable .var_args[2]*. is used before its value is set" )
CTest Scripting
For an example of how CTest can run the whole testing process described in a single script, look at how CMake dashboards are created with the CTest -S script.
Conclusion
Performing tests on the project is a great software development practice and can result in significant improvement on the quality of the project. CTest provides a simple and reliable way of performing nightly, continuous, and experimental tests.
More information about CTest can be found in Mastering CMake.