VTK Data ======== This page documents how to add test data while developing VTK with [Git][]. See the [README](README.md) for more information. [Git]: http://git-scm.com Setup ----- The workflow below depends on local hooks to function properly. Follow the main [developer setup instructions](develop.md#setup) before proceeding. In particular, run [SetupForDevelopment.sh][]: $ ./Utilities/SetupForDevelopment.sh [SetupForDevelopment.sh]: /Utilities/SetupForDevelopment.sh Workflow -------- Our workflow for adding data integrates with our standard Git [development process](develop.md). Start by [creating a topic](develop.md#create-a-topic). Return here when you reach the "edit files" step. These instructions follow a typical use case of adding a new test with a baseline image. ### Add Test ### 1. Write a new test, e.g. $ edit Some/Module/Testing/Cxx/MyTest.cxx 2. Edit the corresponding `CMakeLists.txt` file: $ edit Some/Module/Testing/Cxx/CMakeLists.txt and add the test in a `vtk_add_test_...` call (which references baselines automatically). 3. For tests not using such a call, reference the data file in an `ExternalData_add_test` call. Specify the file inside `DATA{...}` using a path relative to the test directory: $ edit Some/Module/Testing/Cxx/CMakeLists.txt ExternalData_add_test(VTKData NAME ${vtk-module}Cxx-MyTest COMMAND ${vtk-module}CxxTests MyTest ... -V DATA{../Data/Baseline/MyTest.png,:} ... ) Notes: * If the data file references other data files, e.g. `.mhd -> .raw`, read the [ExternalData][] module documentation on "associated" files. * Multiple baseline images and other series are handled automatically when the reference ends in the `,:` option. Read [ExternalData][] module documentation for details. [ExternalData]: /CMake/ExternalData.cmake ### Build and Run the Test ### If you already have a data file, skip to the [next step](#add-data) to add it. Otherwise, use the following steps to produce a test baseline image file. We assume a build tree has been previously generated by CMake. 1. Switch to the build tree: $ cd ../VTK-build 2. Run CMake: $ cmake . Since we have not yet created the baseline image data file, CMake will warn that it does not exist but proceed to generate the test anyway. 3. Build $ make 4. Run the test $ ctest -R MyTest It will fail but place the baseline image in `Testing/Temporary`. 5. Switch back to the source tree: $ cd ../VTK ### Add Data ### Copy the data file into your local source tree. $ mkdir -p Some/Module/Testing/Data/Baseline $ cp ../VTK-build/Testing/Temporary/MyTest.png Some/Module/Testing/Data/Baseline ### Run CMake ### 1. Switch to the build tree: $ cd ../VTK-build 2. Run CMake: $ cmake . CMake will [move the original file](#externaldata). Keep your own copy if necessary. See [below](#recover-data-file) to recover the original file. During configuration CMake will display a message such as: Linked Some/Module/Testing/Data/Baseline/MyTest.png.md5 to ExternalData MD5/... This means that CMake converted the file into a data object referenced by a "content link" named like the original file but with a `.md5` extension. CMake also [renamed the original file](#externaldata). 3. Build $ make During the build, the [ExternalData][] module will make the data file available where the test expects to find it. 4. Run the test $ ctest -R MyTest It should pass using the new data file. 5. Switch back to the source tree: $ cd ../VTK ### Commit ### Continue to [create the topic](develop.md#create-a-topic) and edit other files as necessary. Add the content link and commit it along with the other changes: $ git add Some/Module/Testing/Data/Baseline/MyTest.png.md5 $ git add Some/Module/Testing/Data/CMakeLists.txt $ git commit The local `pre-commit` hook will display a message such as: Some/Module/Testing/Data/Baseline/MyTest.png.md5: Added content to Git at refs/data/MD5/... Some/Module/Testing/Data/Baseline/MyTest.png.md5: Added content to local store at .ExternalData/MD5/... Content link Some/Module/Testing/Data/Baseline/MyTest.png.md5 -> .ExternalData/MD5/... This means that the pre-commit hook recognized that the content link references a new data object and [prepared it for upload](#pre-commit). ### Push ### Follow the instructions to [share the topic](develop.md#share-a-topic). When you push it to GitLab for review using $ git gitlab-push part of the output will be of the form: * ...:refs/data/... [new branch] * HEAD:refs/heads/my-topic [new branch] Pushed refs/data/... and removed local ref. This means that the `git-gitlab-push` script pushed the topic and [uploaded the data](#git-gitlab-push) it references. Options for `gitlab-push` include: * `--dry-run`: Report push that would occur without actually doing it * `--no-topic`: Push the data referenced by the topic but not the topic itself Note: One must `git gitlab-push` from the same work tree as was used to create the commit. Do not `git push` to another computer first and try to push to GitLab from there because the data will not follow. Building -------- ### Download ### For the test data to be downloaded and made available to the tests in your build tree the `VTKData` target must be built. One may build the target directly, e.g. `make VTKData`, to obtain the data without a complete build. The output will be something like -- Fetching ".../ExternalData/MD5/..." -- [download 100% complete] -- Downloaded object: "VTK-build/ExternalData/Objects/MD5/..." The downloaded files appear in `VTK-build/ExternalData` by default. ### Local Store ### It is possible to configure one or more local ExternalData object stores shared among multiple builds. Configure for each build the advanced cache entry `ExternalData_OBJECT_STORES` to a directory on your local disk outside all build trees, e.g. `/home/user/.ExternalData`: $ cmake -DExternalData_OBJECT_STORES=/home/user/.ExternalData ../VTK The [ExternalData][] module will store downloaded objects in the local store instead of the build tree. Once an object has been downloaded by one build it will persist in the local store for re-use by other builds without downloading again. Discussion ---------- A VTK test data file is not stored in the main source tree under version control. Instead the source tree contains a "content link" that refers to a data object by a hash of its content. At build time the [ExternalData][] module fetches data needed by enabled tests. This allows arbitrarily large data to be added and removed without bloating the version control history. The above [workflow](#workflow) allows developers to add a new data file almost as if committing it to the source tree. The following subsections discuss details of the workflow implementation. ### ExternalData ### While [CMake runs](#run-cmake) the [ExternalData][] module evaluates [DATA{} references](#add-test). VTK [sets](/CMake/vtkExternalData.cmake) the `ExternalData_LINK_CONTENT` option to `MD5` to enable automatic conversion of raw data files into content links. When the module detects a real data file in the source tree it performs the following transformation as specified in the module documentation: * Compute the MD5 hash of the file * Store the `${hash}` in a file with the original name plus `.md5` * Rename the original file to `.ExternalData_MD5_${hash}` The real data now sit in a file that we [tell Git to ignore](/.gitignore). For example: $ cat Some/Module/Testing/Data/Baseline/.ExternalData_MD5_477e602800c18624d9bc7a32fa706b97 |md5sum 477e602800c18624d9bc7a32fa706b97 - $ cat Some/Module/Testing/Data/Baseline/MyTest.png.md5 477e602800c18624d9bc7a32fa706b97 #### Recover Data File #### To recover the original file after running CMake but before committing, undo the operation: $ cd Some/Module/Testing/Data/Baseline $ mv .ExternalData_MD5_$(cat MyTest.png.md5) MyTest.png ### pre-commit ### While [committing](#commit) a new or modified content link the [pre-commit](/Utilities/Scripts/pre-commit) hook moves the real data object from the `.ExternalData_MD5_${hash}` file left by the [ExternalData][] module to a local object repository stored in a `.ExternalData` directory at the top of the source tree. The hook also uses Git plumbing commands to store the data object as a blob in the local Git repository. The blob is not referenced by the new commit but instead by `refs/data/MD5/${hash}`. This keeps the blob alive in the local repository but does not add it to the project history. For example: $ git for-each-ref --format="%(refname)" refs/data refs/data/MD5/477e602800c18624d9bc7a32fa706b97 $ git cat-file blob refs/data/MD5/477e602800c18624d9bc7a32fa706b97 | md5sum 477e602800c18624d9bc7a32fa706b97 - ### git gitlab-push ### The `git gitlab-push` command is actually an alias for the [git-gitlab-push](/Utilities/GitSetup/git-gitlab-push) script. In addition to pushing the topic branch to GitLab the script also detects content links added or modified by the commits in the topic. It reads the data object hashes from the content links and looks for matching `refs/data/` entries in the local Git repository. The script pushes the matching data objects to your VTK GitLab fork. For example: $ git gitlab-push --dry-run --no-topic * refs/data/MD5/477e602800c18624d9bc7a32fa706b97:refs/data/MD5/477e602800c18624d9bc7a32fa706b97 [new branch] Pushed refs/data/MD5/477e602800c18624d9bc7a32fa706b97 and removed local ref. A GitLab webhook that triggers whenever a topic branch is pushed checks for `refs/data/` in your VTK GitLab fork, fetches them, erases the refs from your fork, and uploads them to a location that we [tell ExternalData to search](/CMake/vtkExternalData.cmake) at build time. To verify that the data has been uploaded as expected, you may direct a web browser to the location where ExternalData has uploaded the files. For VTK, that location is currently `http://www.vtk.org/files/ExternalData/MD5/XXXX` where `XXXX` is the complete MD5 hash stored in the content link file (e.g., the text in `MyTest.png.md5`). ### Publishing Data for an External Branch ### The above [workflow](#workflow) works well for developers working on a single machine to contribute changes directly to upstream VTK. When working in an external branch of VTK, perhaps during a long-term topic development effort, data objects need to be published separately. The workflow for adding data to an external branch of VTK is the same as the above through the [commit](#commit) step, but diverges at the [push](#push) step because one will push to a separate repository. Our ExternalData infrastructure intentionally hides the real data files from Git so only the content links (`.md5` files) will be pushed. The real data objects will still be left in the `.ExternalData/MD5` directory at the top of the VTK source tree by the [pre-commit](#pre-commit) hook. The `.ExternalData` directory must be published somewhere visible to other machines that want to use the data, such as on a web server. Once that is done then other machines can be told where to look for the data, e.g. cmake ../VTK "-DExternalData_URL_TEMPLATES=https://username.github.io/VTK/ExternalData/%(algo)/%(hash) In this example we assume the files are published on a [Github Pages][] `gh-pages` branch in `username`'s fork of VTK. Within the `gh-pages` branch the files are placed at `ExternalData/MD5/$md5sum` where `$md5sum` is the MD5 hash of the content (these are the same names they have in the `.ExternalData` directory in the original source tree). [Github Pages]: https://help.github.com/articles/creating-project-pages-manually