# Contributing guidelines We encourage contributions from the community. To contribute: 1. **Fork the Repository**: Start by forking this repository to your account. 2. **Develop Your Component**: Create your Viash component, ensuring it aligns with our best practices (detailed below). 3. **Submit a Pull Request**: After testing your component, submit a pull request for review. ## Procedure of adding a component ### Step 1: Find a component to contribute * Find a tool to contribute to this repo. * Check whether it is already in the [Project board](https://github.com/orgs/viash-hub/projects/1). * Check whether there is a corresponding [Snakemake wrapper](https://github.com/snakemake/snakemake-wrappers/blob/master/bio) or [nf-core module](https://github.com/nf-core/modules/tree/master/modules/nf-core) which we can use as inspiration. * Create an issue to show that you are working on this component. ### Step 2: Add config template Change all occurrences of `xxx` to the name of the component. Create a file at `src/xxx/config.vsh.yaml` with contents: ```yaml name: xxx description: xxx keywords: [tag1, tag2] links: homepage: yyy documentation: yyy issue_tracker: yyy repository: yyy references: doi: 12345/12345678.yz license: MIT/Apache-2.0/GPL-3.0/... argument_groups: - name: Inputs arguments: <...> - name: Outputs arguments: <...> - name: Arguments arguments: <...> resources: - type: bash_script path: script.sh test_resources: - type: bash_script path: test.sh - type: file path: test_data engines: - <...> runners: - type: executable - type: nextflow ``` ### Step 3: Fill in the metadata Fill in the relevant metadata fields in the config. Here is an example of the metadata of an existing component. ```yaml functionality: name: arriba description: Detect gene fusions from RNA-Seq data keywords: [Gene fusion, RNA-Seq] links: homepage: https://arriba.readthedocs.io/en/latest/ documentation: https://arriba.readthedocs.io/en/latest/ repository: https://github.com/suhrig/arriba issue_tracker: https://github.com/suhrig/arriba/issues references: doi: 10.1101/gr.257246.119 bibtex: | @article{ ... a bibtex entry in case the doi is not available ... } license: MIT ``` ### Step 4: Find a suitable container Google `biocontainer ` and find the container that is most suitable. Typically the link will be `https://quay.io/repository/biocontainers/xxx?tab=tags`. If no such container is found, you can create a custom container in the next step. ### Step 5: Create help file To help develop the component, we store the `--help` output of the tool in a file at `src/xxx/help.txt`. ````bash cat < src/xxx/help.txt ```sh xxx --help ``` EOF docker run quay.io/biocontainers/xxx:tag xxx --help >> src/xxx/help.txt ```` Notes: * This help file has no functional purpose, but it is useful for the developer to see the help output of the tool. * Some tools might not have a `--help` argument but instead have a `-h` argument. For example, for `arriba`, the help message is obtained by running `arriba -h`: ```bash docker run quay.io/biocontainers/arriba:2.4.0--h0033a41_2 arriba -h ``` ### Step 6: Create or fetch test data To help develop the component, it's interesting to have some test data available. In most cases, we can use the test data from the Snakemake wrappers. To make sure we can reproduce the test data in the future, we store the command to fetch the test data in a file at `src/xxx/test_data/script.sh`. ```bash cat < src/xxx/test_data/script.sh # clone repo if [ ! -d /tmp/snakemake-wrappers ]; then git clone --depth 1 --single-branch --branch master https://github.com/snakemake/snakemake-wrappers /tmp/snakemake-wrappers fi # copy test data cp -r /tmp/snakemake-wrappers/bio/xxx/test/* src/xxx/test_data EOF ``` The test data should be suitable for testing this component. Ensure that the test data is small enough: ideally <1KB, preferably <10KB, if need be <100KB. ### Step 7: Add arguments for the input files By looking at the help file, we add the input arguments to the config file. Here is an example of the input arguments of an existing component. For instance, in the [arriba help file](src/arriba/help.txt), we see the following: Usage: arriba [-c Chimeric.out.sam] -x Aligned.out.bam \ -g annotation.gtf -a assembly.fa [-b blacklists.tsv] [-k known_fusions.tsv] \ [-t tags.tsv] [-p protein_domains.gff3] [-d structural_variants_from_WGS.tsv] \ -o fusions.tsv [-O fusions.discarded.tsv] \ [OPTIONS] -x FILE File in SAM/BAM/CRAM format with main alignments as generated by STAR (Aligned.out.sam). Arriba extracts candidate reads from this file. Based on this information, we can add the following input arguments to the config file. ```yaml argument_groups: - name: Inputs arguments: - name: --bam alternatives: -x type: file description: | File in SAM/BAM/CRAM format with main alignments as generated by STAR (Aligned.out.sam). Arriba extracts candidate reads from this file. required: true example: Aligned.out.bam ``` Check the [documentation](https://viash.io/reference/config/functionality/arguments) for more information on the format of input arguments. Several notes: * Argument names should be formatted in `--snake_case`. This means arguments like `--foo-bar` should be formatted as `--foo_bar`, and short arguments like `-f` should receive a longer name like `--foo`. * Input arguments can have `multiple: true` to allow the user to specify multiple files. ### Step 8: Add arguments for the output files By looking at the help file, we now also add output arguments to the config file. For example, in the [arriba help file](src/arriba/help.txt), we see the following: Usage: arriba [-c Chimeric.out.sam] -x Aligned.out.bam \ -g annotation.gtf -a assembly.fa [-b blacklists.tsv] [-k known_fusions.tsv] \ [-t tags.tsv] [-p protein_domains.gff3] [-d structural_variants_from_WGS.tsv] \ -o fusions.tsv [-O fusions.discarded.tsv] \ [OPTIONS] -o FILE Output file with fusions that have passed all filters. -O FILE Output file with fusions that were discarded due to filtering. Based on this information, we can add the following output arguments to the config file. ```yaml argument_groups: - name: Outputs arguments: - name: --fusions alternatives: -o type: file direction: output description: | Output file with fusions that have passed all filters. required: true example: fusions.tsv - name: --fusions_discarded alternatives: -O type: file direction: output description: | Output file with fusions that were discarded due to filtering. required: false example: fusions.discarded.tsv ``` Note: * Preferably, these outputs should not be directores but files. For example, if a tool outputs a directory `foo/` containing files `foo/bar.txt` and `foo/baz.txt`, there should be two output arguments `--bar` and `--baz` (as opposed to one output argument which outputs the whole `foo/` directory). ### Step 9: Add arguments for the other arguments Finally, add all other arguments to the config file. There are a few exceptions: * Arguments related to specifying CPU and memory requirements are handled separately and should not be added to the config file. * Arguments related to printing the information such as printing the version (`-v`, `--version`) or printing the help (`-h`, `--help`) should not be added to the config file. ### Step 10: Add a Docker engine To ensure reproducibility of components, we require that all components are run in a Docker container. ```yaml engines: - type: docker image: quay.io/biocontainers/xxx:0.1.0--py_0 ``` The container should have your tool installed, as well as `ps`. If you didn't find a suitable container in the previous step, you can create a custom container. For example: ```yaml engines: - type: docker image: python:3.10 setup: - type: python packages: numpy ``` For more information on how to do this, see the [documentation](https://viash.io/guide/component/add-dependencies.html#steps-for-creating-a-custom-docker-platform). Here is a list of base containers we can recommend: * Bash: [`bash`](https://hub.docker.com/_/bash), [`ubuntu`](https://hub.docker.com/_/ubuntu) * C#: [`ghcr.io/data-intuitive/dotnet-script`](https://github.com/data-intuitive/ghcr-dotnet-script/pkgs/container/dotnet-script) * JavaScript: [`node`](https://hub.docker.com/_/node) * Python: [`python`](https://hub.docker.com/_/python), [`nvcr.io/nvidia/pytorch`](https://catalog.ngc.nvidia.com/orgs/nvidia/containers/pytorch) * R: [`eddelbuettel/r2u`](https://hub.docker.com/r/eddelbuettel/r2u), [`rocker/tidyverse`](https://hub.docker.com/r/rocker/tidyverse) * Scala: [`sbtscala/scala-sbt`](https://hub.docker.com/r/sbtscala/scala-sbt) ### Step 11: Write a runner script Next, we need to write a runner script that runs the tool with the input arguments. Create a Bash script named `src/xxx/script.sh` which runs the tool with the input arguments. ```bash #!/bin/bash ## VIASH START ## VIASH END xxx \ --input "$par_input" \ --output "$par_output" \ $([ "$par_option" = "true" ] && echo "--option") ``` When building a Viash component, Viash will automatically replace the `## VIASH START` and `## VIASH END` lines (and anything in between) with environment variables based on the arguments specified in the config. As an example, this is what the Bash script for the `arriba` component looks like: ```bash #!/bin/bash ## VIASH START ## VIASH END arriba \ -x "$par_bam" \ -a "$par_genome" \ -g "$par_gene_annotation" \ -o "$par_fusions" \ ${par_known_fusions:+-k "${par_known_fusions}"} \ ${par_blacklist:+-b "${par_blacklist}"} \ ${par_structural_variants:+-d "${par_structural_variants}"} \ $([ "$par_skip_duplicate_marking" = "true" ] && echo "-u") \ $([ "$par_extra_information" = "true" ] && echo "-X") \ $([ "$par_fill_gaps" = "true" ] && echo "-I") ``` ### Step 12: Create test script If the unit test requires test resources, these should be provided in the `test_resources` section of the component. ```yaml functionality: # ... test_resources: - type: bash_script path: test.sh - type: file path: test_data ``` Create a test script at `src/xxx/test.sh` that runs the component with the test data. This script should run the component (available with `$meta_executable`) with the test data and check if the output is as expected. The script should exit with a non-zero exit code if the output is not as expected. For example: ```bash #!/bin/bash ## VIASH START ## VIASH END echo "> Run xxx with test data" "$meta_executable" \ --input "$meta_resources_dir/test_data/input.txt" \ --output "output.txt" \ --option echo ">> Checking output" [ ! -f "output.txt" ] && echo "Output file output.txt does not exist" && exit 1 ``` For example, this is what the test script for the `arriba` component looks like: ```bash #!/bin/bash ## VIASH START ## VIASH END echo "> Run arriba with blacklist" "$meta_executable" \ --bam "$meta_resources_dir/test_data/A.bam" \ --genome "$meta_resources_dir/test_data/genome.fasta" \ --gene_annotation "$meta_resources_dir/test_data/annotation.gtf" \ --blacklist "$meta_resources_dir/test_data/blacklist.tsv" \ --fusions "fusions.tsv" \ --fusions_discarded "fusions_discarded.tsv" \ --interesting_contigs "1,2" echo ">> Checking output" [ ! -f "fusions.tsv" ] && echo "Output file fusions.tsv does not exist" && exit 1 [ ! -f "fusions_discarded.tsv" ] && echo "Output file fusions_discarded.tsv does not exist" && exit 1 echo ">> Check if output is empty" [ ! -s "fusions.tsv" ] && echo "Output file fusions.tsv is empty" && exit 1 [ ! -s "fusions_discarded.tsv" ] && echo "Output file fusions_discarded.tsv is empty" && exit 1 ``` ### Step 12: Create a `/var/software_versions.txt` file For the sake of transparency and reproducibility, we require that the versions of the software used in the component are documented. For now, this is managed by creating a file `/var/software_versions.txt` in the `setup` section of the Docker engine. ```yaml engines: - type: docker image: quay.io/biocontainers/xxx:0.1.0--py_0 setup: - type: docker run: | echo "xxx: \"0.1.0\"" > /var/software_versions.txt ```