F3D has an extensive suite of tests that can be run locally, either to validate your build or because you are contributing to F3D and want to add/modify a test.
There are a few CMake options to configure the F3D testing framework:
BUILD_TESTING
: Enable the test framework, off by default. Requires git LFS if repository is cloned.F3D_TESTING_ENABLE_RENDERING_TESTS
: An option to enable/disable test that require rendering capabilities, on by default.F3D_TESTING_ENABLE_LONG_TIMEOUT_TESTS
: Certain tests can take some time to run, off by default, requires rendering tests.
To run all tests, build and then run ctest
from the build directory:
cmake --build .
ctest
To run a specific test, use the ctest -R <testname>
option:
ctest -R PLY
There are multiple layers of tests to ensure that testing covers all aspects of the application. The layers of the application are
- Application layer
- Library layer
- Bindings layer
- VTK Extension layer
When contributing to F3D, it is necessary that new code is covered by a test in at least one layer above. Additional tests can be created in other layers, depending on the change.
All application tests are initiated via the CTest
(https://cmake.org/cmake/help/book/mastering-cmake/chapter/Testing%20With%20CMake%20and%20CTest.html) testing framework.
CTest
runs f3d
with the --output
and --ref
arguments which renders an output image and compares it to a reference image. F3D compares the differences between the 2 images and compute a difference value and compare it to a threshold to check if a test passes or not.
All aspects of the application test framework are handled in application/testing/CMakeLists.txt
.
Usually, adding a test is as simple as adding a line like this one:
f3d_test(NAME TestName DATA datafile.ext ARGS --args-to-test)
where
NAME
should be the name of the test, which must be uniqueDATA
should be a file intesting/data
directory, though adding a new file is possibleARGS
should be the F3D options to pass to the f3d executable, if any
Once the new test has been added, configure and build F3D, then run the test (-VV
for verbose output):
ctest -R TestName -VV
The test will run and fail but an image output will be generated in the build directory, namely Testing/Temporary/TestName.png
.
Visually check that the generated file looks as expected, then add it to the F3D sources in testing/baselines
.
Rerun the test, it should now pass.
Occasionally you may need to recover a baseline from the CI. If this is required, create a PR and let the test run and fail on CI. Check the actions run summary on Github and download the appropriate baseline
archive. Extract the archive and navigate to the build/Testing/Temporary/TestName.png
. Visually check that the generated file looks as expected, then add it to the F3D sources in testing/baselines
.
Sometimes you may contribute changes that affect how the end user interacts with F3D, example, toggling orthographic projection on/off or zooming in/out of the rendered image. These human interactions are simulated by interaction tests. F3D has the functionality to record human interactions such as mouse wheel scrolls, mouse movements as well as keypresses to a file. This functionality is enabled by running
f3d --interaction-test-record ./TestName.log
where
TestName
should be the name of the test case.
While recording the interaction, care should be taken to perform the minimum number of events to simulate the interaction. For example, if you want to simulate the number 5
being pressed, there should be no mouse events or other keypress events during the recording of the interaction. The interaction file is saved when f3d
is exited.
You can verify that your interaction file is correct by playing back the interaction
f3d --interaction-test-play ./TestName.log
Interactions that are not needed for the test can be removed manually. After verifying that the interaction file works as expected, copy it to ./testing/recordings
. The name of the interaction file should be the same as the test name. The interaction test case can then be created by adding
f3d_test(NAME TestName DATA datafile.ext INTERACTION)
to application/testing/CMakeLists.txt
where
INTERACTION
signifies that this is an interaction test
The steps to running the test are the same as above.
When for some reason adding a test in the application layer is not possible, it is possible
to add a C++ test in the library layer. These tests are simple C++ methods that should return
EXIT_SUCCESS
or EXIT_FAILURE
.
Library test cases are handled in library/testing
.
To add a test, create a new TestSDKName.cxx
file containing a int TestSDKName(int argc, char* argv[])
method,
then implement your test in C++ using the libf3d API.
Then add you new file to src/library/testing/CMakeLists.txt
.
It is supported to read file as input and perform image comparison against baselines as an output, see other tests as examples.
The libf3d supports multiple bindings, including Python, Java and Javascript.
When improving/modifying these bindings, it is necessary to also improve/modify the bindings tests accordingly.
Please take a look into <java/python/webassembly>/testing
for examples to follow.
When for some reason adding a test in the application or library layer is not possible, it is possible
to add a C++ test in the VTKExtensions layer. These tests are simple C++ methods that should return
EXIT_SUCESS
or EXIT_FAILURE
.
Everything is handled in library/VTKExtensions/ModuleName/Testing
.
To add a test, first identify which VTKExtensions module you need to add a test into,
then create a new TestName.cxx
file containing a int TestName(int argc, char* argv[])
method,
then implement your test in C++ using VTK and F3D VTKExtensions modules.
Then add you new file to library/VTKExtensions/ModuleName/Testing/CMakeLists.txt
.
It is supported to read file as input if needed, see other tests as examples.