A python package with helper tools for the nf-core community.
Read this documentation on the nf-core website: https://nf-co.re/tools
-
nf-core launch
- Run a pipeline with interactive parameter prompts -
nf-core create
- Create a new pipeline with the nf-core template -
nf-core lint
- Check pipeline code against nf-core guidelines -
nf-core bump-version
- Update nf-core pipeline version number -
nf-core modules
- commands for dealing with DSL2 modulesmodules list
- List available modulesmodules info
- Show information about a modulemodules install
- Install modules in a pipelinemodules update
- Update modules in a pipelinemodules remove
- Remove a module from a pipelinemodules patch
- Create a patch file for a modulemodules create
- Create a module from the templatemodules create-test-yml
- Create thetest.yml
file for a modulemodules lint
- Check a module against nf-core guidelinesmodules test
- Run the tests for a modulemodules bump-versions
- Bump software versions of modulesmodules mulled
- Generate the name for a multi-tool container image
-
nf-core subworkflows
- commands for dealing with subworkflowssubworkflows list
- List available subworkflowssubworkflows info
- Show information about a subworkflowsubworkflows install
- Install subworkflows in a pipelinesubworkflows update
- Update subworkflows in a pipelinesubworkflows remove
- Remove a subworkflow from a pipelinesubworkflows create
- Create a subworkflow from the templatesubworkflows create-test-yml
- Create thetest.yml
file for a subworkflowsubworkflows test
- Run the tests for a subworkflow
The nf-core tools package is written in Python and can be imported and used within other packages. For documentation of the internal Python functions, please refer to the Tools Python API docs.
You can install nf-core/tools
from bioconda.
First, install conda and configure the channels to use bioconda (see the bioconda documentation). Then, just run the conda installation command:
conda install nf-core
Alternatively, you can create a new environment with both nf-core/tools and nextflow:
conda create --name nf-core python=3.8 nf-core nextflow
conda activate nf-core
nf-core/tools
can also be installed from PyPI using pip as follows:
pip install nf-core
There is a docker image that you can use to run nf-core/tools
that has all of the requirements packaged (including Nextflow) and so should work out of the box. It is called nfcore/tools
(NB: no hyphen!)
You can use this container on the command line as follows:
docker run -itv `pwd`:`pwd` -w `pwd` -u $(id -u):$(id -g) nfcore/tools
-i
and-t
are needed for the interactive cli prompts to work (this tells Docker to use a pseudo-tty with stdin attached)- The
-v
argument tells Docker to bind your current working directory (pwd
) to the same path inside the container, so that files created there will be saved to your local file system outside of the container. -w
sets the working directory in the container to this path, so that it's the same as your working directory outside of the container.-u
sets your local user account as the user inside the container, so that any files created have the correct ownership permissions
After the above base command, you can use the regular command line flags that you would use with other types of installation.
For example, to launch the viralrecon
pipeline:
docker run -itv `pwd`:`pwd` -w `pwd` -u $(id -u):$(id -g) nfcore/tools launch viralrecon -r 1.1.0
If you use $NXF_SINGULARITY_CACHEDIR
for downloads, you'll also need to make this folder and environment variable available to the continer:
docker run -itv `pwd`:`pwd` -w `pwd` -u $(id -u):$(id -g) -v $NXF_SINGULARITY_CACHEDIR:$NXF_SINGULARITY_CACHEDIR -e NXF_SINGULARITY_CACHEDIR nfcore/tools launch viralrecon -r 1.1.0
The above base command is a bit of a mouthful to type, to say the least.
To make it easier to use, we highly recommend adding the following bash alias to your ~/.bashrc
file:
alias nf-core="docker run -itv `pwd`:`pwd` -w `pwd` -u $(id -u):$(id -g) nfcore/tools"
Once applied (you may need to reload your shell) you can just use the nf-core
command instead:
nf-core list
You can use docker image tags to specify the version you would like to use. For example, nfcore/tools:dev
for the latest development version of the code, or nfcore/tools:1.14
for version 1.14
of tools.
If you omit this, it will default to :latest
, which should be the latest stable release.
If you need a specific version of Nextflow inside the container, you can build an image yourself.
Clone the repo locally and check out whatever version of nf-core/tools that you need.
Then build using the --build-arg NXF_VER
flag as follows:
docker build -t nfcore/tools:dev . --build-arg NXF_VER=20.04.0
If you would like the latest development version of tools, the command is:
pip install --upgrade --force-reinstall git+https://github.com/nf-core/tools.git@dev
If you intend to make edits to the code, first make a fork of the repository and then clone it locally. Go to the cloned directory and install with pip (also installs development requirements):
pip install --upgrade -r requirements-dev.txt -e .
If you prefer, you can also run tools with a specific Python interpreter.
The command line usage and flags are then exactly the same as if you ran with the nf-core
command.
Note that the module is nf_core
with an underscore, not a hyphen like the console command.
For example:
python -m nf_core --help
python3 -m nf_core list
~/my_env/bin/python -m nf_core create --name mypipeline --description "This is a new skeleton pipeline"
The tools functionality is written in such a way that you can import it into your own scripts. For example, if you would like to get a list of all available nf-core pipelines:
import nf_core.list
wfs = nf_core.list.Workflows()
wfs.get_remote_workflows()
for wf in wfs.remote_workflows:
print(wf.full_name)
Please see https://nf-co.re/tools-docs/ for the function documentation.
nf-core/tools automatically checks the web to see if there is a new version of nf-core/tools available.
If you would prefer to skip this check, set the environment variable NFCORE_NO_VERSION_CHECK
. For example:
export NFCORE_NO_VERSION_CHECK=1
It is advisable to keep nf-core/tools updated to the most recent version. The command to update depends on the system used to install it, for example if you have installed it with conda you can use:
conda update nf-core
if you used pip:
pip install --upgrade nf-core
Please refer to the respective documentation for further details to manage packages, as for example conda or pip.
Auto-completion for the nf-core
command is available for bash, zsh and fish. To activate it, add the following lines to the respective shell config files.
shell | shell config file | command |
---|---|---|
bash | ~/.bashrc | eval "$(_NF_CORE_COMPLETE=bash_source nf-core)" |
Zsh | ~/.zshrc | eval "$(_NF_CORE_COMPLETE=zsh_source nf-core)" |
fish | ~/.config/fish/completions/nf-core.fish | eval (env _NF_CORE_COMPLETE=fish_source nf-core) |
After a restart of the shell session you should have auto-completion for the nf-core
command and all its sub-commands and options.
NB: The added line will run the command
nf-core
(which will also slow down startup time of your shell). You should therefore either have the nf-core/tools installed globally. You can also wrap it insideif type nf-core > /dev/null; then
<YOUR EVAL CODE LINE>fi
for bash and zsh orif command -v nf-core &> /dev/null eval (env _NF_CORE_COMPLETE=fish_source nf-core) end
for fish. You need to then source the config in your environment for the completions to be activated.
NB: If you see the error
command not found compdef
, be sure that your config file contains the lineautoload -Uz compinit && compinit
before the eval line.
The command nf-core list
shows all available nf-core pipelines along with their latest version, when that was published and how recently the pipeline code was pulled to your local system (if at all).
An example of the output from the command is as follows:
To narrow down the list, supply one or more additional keywords to filter the pipelines based on matches in titles, descriptions and topics:
You can sort the results by latest release (-s release
, default),
when you last pulled a local copy (-s pulled
),
alphabetically (-s name
),
or number of GitHub stars (-s stars
).
To return results as JSON output for downstream use, use the --json
flag.
Archived pipelines are not returned by default. To include them, use the --show_archived
flag.
Some nextflow pipelines have a considerable number of command line flags that can be used.
To help with this, you can use the nf-core launch
command.
You can choose between a web-based graphical interface or an interactive command-line wizard tool to enter the pipeline parameters for your run.
Both interfaces show documentation alongside each parameter and validate your inputs.
The tool uses the nextflow_schema.json
file from a pipeline to give parameter descriptions, defaults and grouping.
If no file for the pipeline is found, one will be automatically generated at runtime.
Nextflow params
variables are saved in to a JSON file called nf-params.json
and used by nextflow with the -params-file
flag.
This makes it easier to reuse these in the future.
The command takes one argument - either the name of an nf-core pipeline which will be pulled automatically, or the path to a directory containing a Nextflow pipeline (can be any pipeline, doesn't have to be nf-core).
Once complete, the wizard will ask you if you want to launch the Nextflow run.
If not, you can copy and paste the Nextflow command with the nf-params.json
file of your inputs.
INFO [âś“] Input parameters look valid
INFO Nextflow command:
nextflow run nf-core/rnaseq -params-file "nf-params.json"
Do you want to run this command now? [y/n]:
-r
,--revision
- Specify a pipeline release (or branch / git commit sha) of the project to run
-i
,--id
- You can use the web GUI for nf-core pipelines by clicking "Launch" on the website. Once filled in you will be given an ID to use with this command which is used to retrieve your inputs.
-c
,--command-only
- If you prefer not to save your inputs in a JSON file and use
-params-file
, this option will specify all entered params directly in the nextflow command.
- If you prefer not to save your inputs in a JSON file and use
-p
,--params-in PATH
- To use values entered in a previous pipeline run, you can supply the
nf-params.json
file previously generated. - This will overwrite the pipeline schema defaults before the wizard is launched.
- To use values entered in a previous pipeline run, you can supply the
-o
,--params-out PATH
- Path to save parameters JSON file to. (Default:
nf-params.json
)
- Path to save parameters JSON file to. (Default:
-a
,--save-all
- Without this option the pipeline will ignore any values that match the pipeline schema defaults.
- This option saves all parameters found to the JSON file.
-h
,--show-hidden
- A pipeline JSON schema can define some parameters as 'hidden' if they are rarely used or for internal pipeline use only.
- This option forces the wizard to show all parameters, including those labelled as 'hidden'.
--url
- Change the URL used for the graphical interface, useful for development work on the website.
Sometimes you may need to run an nf-core pipeline on a server or HPC system that has no internet connection. In this case you will need to fetch the pipeline files first, then manually transfer them to your system.
To make this process easier and ensure accurate retrieval of correctly versioned code and software containers, we have written a download helper tool.
The nf-core download
command will download both the pipeline code and the institutional nf-core/configs files. It can also optionally download any singularity image files that are required.
If run without any arguments, the download tool will interactively prompt you for the required information. Each option has a flag, if all are supplied then it will run without any user input needed.
Once downloaded, you will see something like the following file structure for the downloaded pipeline:
You can run the pipeline by simply providing the directory path for the workflow
folder to your nextflow run
command:
nextflow run /path/to/download/nf-core-rnaseq-dev/workflow/ --input mydata.csv --outdir results # usual parameters here
The pipeline files are automatically updated (params.custom_config_base
is set to ../configs
), so that the local copy of institutional configs are available when running the pipeline.
So using -profile <NAME>
should work if available within nf-core/configs.
If you're using Singularity, the nf-core download
command can also fetch the required Singularity container images for you.
To do this, select singularity
in the prompt or specify --container singularity
in the command.
Your archive / target output directory will then include three folders: workflow
, configs
and also singularity-containers
.
The downloaded workflow files are again edited to add the following line to the end of the pipeline's nextflow.config
file:
singularity.cacheDir = "${projectDir}/../singularity-images/"
This tells Nextflow to use the singularity-containers
directory relative to the workflow for the singularity image cache directory.
All images should be downloaded there, so Nextflow will use them instead of trying to pull from the internet.
We highly recommend setting the $NXF_SINGULARITY_CACHEDIR
environment variable on your system, even if that is a different system to where you will be running Nextflow.
If found, the tool will fetch the Singularity images to this directory first before copying to the target output archive / directory. Any images previously fetched will be found there and copied directly - this includes images that may be shared with other pipelines or previous pipeline version downloads or download attempts.
If you are running the download on the same system where you will be running the pipeline (eg. a shared filesystem where Nextflow won't have an internet connection at a later date), you can choose to only use the cache via a prompt or cli options --singularity-cache-only
/ --singularity-cache-copy
.
This instructs nf-core download
to fetch all Singularity images to the $NXF_SINGULARITY_CACHEDIR
directory but does not copy them to the workflow archive / directory.
The workflow config file is not edited. This means that when you later run the workflow, Nextflow will just use the cache folder directly.
The Singularity image download finds containers using two methods:
- It runs
nextflow config
on the downloaded workflow to look for aprocess.container
statement for the whole pipeline. This is the typical method used for DSL1 pipelines. - It scrapes any files it finds with a
.nf
file extension in the workflowmodules
directory for lines that look likecontainer = "xxx"
. This is the typical method for DSL2 pipelines, which have one container per process.
Some DSL2 modules have container addresses for docker (eg. quay.io/biocontainers/fastqc:0.11.9--0
) and also URLs for direct downloads of a Singularity continaer (eg. https://depot.galaxyproject.org/singularity/fastqc:0.11.9--0
).
Where both are found, the download URL is preferred.
Once a full list of containers is found, they are processed in the following order:
- If the target image already exists, nothing is done (eg. with
$NXF_SINGULARITY_CACHEDIR
and--singularity-cache-only
specified) - If found in
$NXF_SINGULARITY_CACHEDIR
and--singularity-cache-only
is not specified, they are copied to the output directory - If they start with
http
they are downloaded directly within Python (default 4 at a time, you can customise this with--parallel-downloads
) - If they look like a Docker image name, they are fetched using a
singularity pull
command- This requires Singularity to be installed on the system and is substantially slower
Note that compressing many GBs of binary files can be slow, so specifying --compress none
is recommended when downloading Singularity images.
If the download speeds are much slower than your internet connection is capable of, you can set --parallel-downloads
to a large number to download loads of images at once.
Sometimes it's useful to see the software licences of the tools used in a pipeline.
You can use the licences
subcommand to fetch and print the software licence from each conda / PyPI package used in an nf-core pipeline.
⚠️ This command does not currently work for newer DSL2 pipelines. This will hopefully be addressed soon.
The create
subcommand makes a new pipeline using the nf-core base template.
With a given pipeline name, description and author, it makes a starter pipeline which follows nf-core best practices.
After creating the files, the command initialises the folder as a git repository and makes an initial commit. This first "vanilla" commit which is identical to the output from the templating tool is important, as it allows us to keep your pipeline in sync with the base template in the future. See the nf-core syncing docs for more information.
Once you have run the command, create a new empty repository on GitHub under your username (not the nf-core
organisation, yet) and push the commits from your computer using the example commands in the above log.
You can then continue to edit, commit and push normally as you build your pipeline.
Please see the nf-core documentation for a full walkthrough of how to create a new nf-core workflow.
As the log output says, remember to come and discuss your idea for a pipeline as early as possible! See the documentation for instructions.
Note that if the required arguments for nf-core create
are not given, it will interactively prompt for them. If you prefer, you can supply them as command line arguments. See nf-core create --help
for more information.
The nf-core create
command comes with a number of options that allow you to customize the creation of a pipeline if you intend to not publish it as an
nf-core pipeline. This can be done in two ways: by using interactive prompts, or by supplying a template.yml
file using the --template-yaml <file>
option.
Both options allow you to specify a custom pipeline prefix to use instead of the common nf-core
, as well as selecting parts of the template to be excluded during pipeline creation.
The interactive prompts will guide you through the pipeline creation process. An example of a template.yml
file is shown below.
name: coolpipe
description: A cool pipeline
author: me
prefix: myorg
skip:
- github
- ci
- github_badges
- igenomes
- nf_core_configs
This will create a pipeline called coolpipe
in the directory myorg-coolpipe
(<prefix>-<name>
) with me
as the author. It will exclude all possible parts of the template:
github
: removed all files required for GitHub hosting of the pipeline. Specifically, the.github
folder and.gitignore
file.ci
: removes the GitHub continuous integration tests from the pipeline. Specifically, the.github/workflows/
folder.github_badges
: removes GitHub badges from theREADME.md
file.igenomes
: removes pipeline options related to iGenomes. Including theconf/igenomes.config
file and all references to it.nf_core_configs
: excludesnf_core/configs
repository options, which make multiple config profiles for various institutional clusters available.
To run the pipeline creation silently (i.e. without any prompts) with the nf-core template, you can use the --plain
option.
The lint
subcommand checks a given pipeline for all nf-core community guidelines.
This is the same test that is used on the automated continuous integration tests.
For example, the current version looks something like this:
You can use the -k
/ --key
flag to run only named tests for faster debugging, eg: nf-core lint -k files_exist -k files_unchanged
. The nf-core lint
command lints the current working directory by default, to specify another directory you can use --dir <directory>
.
Each test result name on the left is a terminal hyperlink. In most terminals you can ctrl + click ( cmd + click) these links to open documentation specific to this test in your browser.
Alternatively visit https://nf-co.re/tools-docs/lint_tests/index.html and find your test to read more.
It's sometimes desirable to disable certain lint tests, especially if you're using nf-core/tools with your own pipeline that is outside of nf-core.
To help with this, you can add a tools config file to your pipeline called .nf-core.yml
in the pipeline root directory (previously: .nf-core-lint.yml
).
Here you can list the names of any tests that you would like to disable and set them to False
, for example:
lint:
actions_awsfulltest: False
pipeline_todos: False
Some lint tests allow greater granularity, for example skipping a test only for a specific file. This is documented in the test-specific docs but generally involves passing a list, for example:
lint:
files_exist:
- CODE_OF_CONDUCT.md
files_unchanged:
- assets/email_template.html
- CODE_OF_CONDUCT.md
Note that you have to list all configurations for the nf-core lint
command under the lint:
field in the .nf-core.yml
file, as this file is also used for configuration of other commands.
Some lint tests can try to automatically fix any issues they find. To enable this functionality, use the --fix
flag.
The pipeline must be a git
repository with no uncommitted changes for this to work.
This is so that any automated changes can then be reviewed and undone (git checkout .
) if you disagree.
The output from nf-core lint
is designed to be viewed on the command line and is deliberately succinct.
You can view all passed tests with --show-passed
or generate JSON / markdown results with the --json
and --markdown
flags.
nf-core pipelines have a nextflow_schema.json
file in their root which describes the different parameters used by the workflow.
These files allow automated validation of inputs when running the pipeline, are used to generate command line help and can be used to build interfaces to launch pipelines.
Pipeline schema files are built according to the JSONSchema specification (Draft 7).
To help developers working with pipeline schema, nf-core tools has three schema
sub-commands:
nf-core schema validate
nf-core schema build
nf-core schema docs
nf-core schema lint
Nextflow can take input parameters in a JSON or YAML file when running a pipeline using the -params-file
option.
This command validates such a file against the pipeline schema.
Usage is nf-core schema validate <pipeline> <parameter file>
. eg with the pipeline downloaded above, you can run:
The pipeline
option can be a directory containing a pipeline, a path to a schema file or the name of an nf-core pipeline (which will be downloaded using nextflow pull
).
Manually building JSONSchema documents is not trivial and can be very error prone.
Instead, the nf-core schema build
command collects your pipeline parameters and gives interactive prompts about any missing or unexpected params.
If no existing schema is found it will create one for you.
Once built, the tool can send the schema to the nf-core website so that you can use a graphical interface to organise and fill in the schema. The tool checks the status of your schema on the website and once complete, saves your changes locally.
Usage is nf-core schema build -d <pipeline_directory>
, eg:
There are four flags that you can use with this command:
--dir <pipeline_dir>
: Specify a pipeline directory other than the current working directory--no-prompts
: Make changes without prompting for confirmation each time. Does not launch web tool.--web-only
: Skips comparison of the schema against the pipeline parameters and only launches the web tool.--url <web_address>
: Supply a custom URL for the online tool. Useful when testing locally.
To get an impression about the current pipeline schema you can display the content of the nextflow_schema.json
with nf-core schema docs <pipeline-schema>
. This will print the content of your schema in Markdown format to the standard output.
There are four flags that you can use with this command:
--output <filename>
: Output filename. Defaults to standard out.--format [markdown|html]
: Format to output docs in.--force
: Overwrite existing files--columns <columns_list>
: CSV list of columns to include in the parameter tables
If you want to add a parameter to the schema, you first have to add the parameter and its default value to the nextflow.config
file with the params
scope. Afterwards, you run the command nf-core schema build
to add the parameters to your schema and open the graphical interface to easily modify the schema.
The graphical interface is oganzised in groups and within the groups the single parameters are stored. For a better overview you can collapse all groups with the Collapse groups
button, then your new parameters will be the only remaining one at the bottom of the page. Now you can either create a new group with the Add group
button or drag and drop the paramters in an existing group. Therefor the group has to be expanded. The group title will be displayed, if you run your pipeline with the --help
flag and its description apears on the parameter page of your pipeline.
Now you can start to change the parameter itself. The description is a short explanation about the parameter, that apears if you run your pipeline with the --help
flag. By clicking on the dictionary icon you can add a longer explanation for the parameter page of your pipeline. If you want to specify some conditions for your parameter, like the file extension, you can use the nut icon to open the settings. This menu depends on the type
you assigned to your parameter. For intergers you can define a min and max value, and for strings the file extension can be specified.
After you filled your schema, click on the Finished
button in the top rigth corner, this will automatically update your nextflow_schema.json
. If this is not working you can copy the schema from the graphical interface and paste it in your nextflow_schema.json
file.
Important for the update of a pipeline schema is, that if you want to change the default value of a parameter, you should change it in the nextflow.config
file, since the value in the config file overwrites the value in the pipeline schema. To change any other parameter use nf-core schema build --web-only
to open the graphical interface without rebuilding the pipeline schema. Now, you can change your parameters as mentioned above but keep in mind that changing the parameter datatype is depending on the default value you specified in the nextflow.config
file.
The pipeline schema is linted as part of the main pipeline nf-core lint
command,
however sometimes it can be useful to quickly check the syntax of the JSONSchema without running a full lint run.
Usage is nf-core schema lint <schema>
, eg:
When releasing a new version of a nf-core pipeline, version numbers have to be updated in several different places. The helper command nf-core bump-version
automates this for you to avoid manual errors (and frustration!).
The command uses results from the linting process, so will only work with workflows that pass these tests.
Usage is nf-core bump-version <new_version>
, eg:
You can change the directory from the current working directory by specifying --dir <pipeline_dir>
. To change the required version of Nextflow instead of the pipeline version number, use the flag --nextflow
.
Over time, the main nf-core pipeline template is updated. To keep all nf-core pipelines up to date,
we synchronise these updates automatically when new versions of nf-core/tools are released.
This is done by maintaining a special TEMPLATE
branch, containing a vanilla copy of the nf-core template
with only the variables used when it first ran (name, description etc.). This branch is updated and a
pull-request can be made with just the updates from the main template code.
Note that pipeline synchronisation happens automatically each time nf-core/tools is released, creating an automated pull-request on each pipeline. As such, you do not normally need to run this command yourself!
This command takes a pipeline directory and attempts to run this synchronisation.
Usage is nf-core sync
, eg:
The sync command tries to check out the TEMPLATE
branch from the origin
remote or an existing local branch called TEMPLATE
.
It will fail if it cannot do either of these things.
The nf-core create
command should make this template automatically when you first start your pipeline.
Please see the nf-core website sync documentation if you have difficulties.
To specify a directory to sync other than the current working directory, use the --dir <pipline_dir>
.
By default, the tool will collect workflow variables from the current branch in your pipeline directory.
You can supply the --from-branch
flag to specific a different branch.
Finally, if you give the --pull-request
flag, the command will push any changes to the remote and attempt to create a pull request using the GitHub API.
The GitHub username and repository name will be fetched from the remote url (see git remote -v | grep origin
), or can be supplied with --username
and --github-repository
.
To create the pull request, a personal access token is required for API authentication.
These can be created at https://github.com/settings/tokens.
Supply this using the --auth-token
flag.
With the advent of Nextflow DSL2, we are creating a centralised repository of modules. These are software tool process definitions that can be imported into any pipeline. This allows multiple pipelines to use the same code for share tools and gives a greater degree of granulairy and unit testing.
The nf-core DSL2 modules repository is at https://github.com/nf-core/modules
The modules supercommand comes with two flags for specifying a custom remote:
--git-remote <git remote url>
: Specify the repository from which the modules should be fetched as a git URL. Defaults to the github repository ofnf-core/modules
.--branch <branch name>
: Specify the branch from which the modules should be fetched. Defaults to the default branch of your repository.
For example, if you want to install the fastqc
module from the repository nf-core/modules-test
hosted at gitlab.com
, you can use the following command:
nf-core modules --git-remote git@gitlab.com:nf-core/modules-test.git install fastqc
Note that a custom remote must follow a similar directory structure to that of nf-core/moduleĹ›
for the nf-core modules
commands to work properly.
The directory where modules are installed will be prompted or obtained from org_path
in the .nf-core.yml
file if available. If your modules are located at modules/my-folder/TOOL/SUBTOOL
your .nf-core.yml
should have:
org_path: my-folder
Please avoid installing the same tools from two different remotes, as this can lead to further errors.
The modules commands will during initalisation try to pull changes from the remote repositories. If you want to disable this, for example
due to performance reason or if you want to run the commands offline, you can use the flag --no-pull
. Note however that the commands will
still need to clone repositories that have previously not been used.
You can use the modules command with private remote repositories. Make sure that your local git
is correctly configured with your private remote
and then specify the remote the same way you would do with a public remote repository.
The nf-core modules list
command provides the subcommands remote
and local
for listing modules installed in a remote repository and in the local pipeline respectively. Both subcommands allow to use a pattern for filtering the modules by keywords eg: nf-core modules list <subcommand> <keyword>
.
To list all modules available on nf-core/modules, you can use
nf-core modules list remote
, which will print all available modules to the terminal.
To list modules installed in a local pipeline directory you can use nf-core modules list local
. This will list the modules install in the current working directory by default. If you want to specify another directory, use the --dir <pipeline_dir>
flag.
For quick help about how a module works, use nf-core modules info <tool>
.
This shows documentation about the module on the command line, similar to what's available on the
nf-core website.
You can install modules from nf-core/modules in your pipeline using nf-core modules install
.
A module installed this way will be installed to the ./modules/nf-core/modules
directory.
You can pass the module name as an optional argument to nf-core modules install
instead of using the cli prompt, eg: nf-core modules install fastqc
. You can specify a pipeline directory other than the current working directory by using the --dir <pipeline dir>
.
There are three additional flags that you can use when installing a module:
--force
: Overwrite a previously installed version of the module.--prompt
: Select the module version using a cli prompt.--sha <commit_sha>
: Install the module at a specific commit.
You can update modules installed from a remote repository in your pipeline using nf-core modules update
.
You can pass the module name as an optional argument to nf-core modules update
instead of using the cli prompt, eg: nf-core modules update fastqc
. You can specify a pipeline directory other than the current working directory by using the --dir <pipeline dir>
.
There are five additional flags that you can use with this command:
--force
: Reinstall module even if it appears to be up to date--prompt
: Select the module version using a cli prompt.--sha <commit_sha>
: Install the module at a specific commit from thenf-core/modules
repository.--preview/--no-preview
: Show the diff between the installed files and the new version before installing.--save-diff <filename>
: Save diffs to a file instead of updating in place. The diffs can then be applied withgit apply <filename>
.--all
: Use this flag to run the command on all modules in the pipeline.
If you don't want to update certain modules or want to update them to specific versions, you can make use of the .nf-core.yml
configuration file. For example, you can prevent the star/align
module installed from nf-core/modules
from being updated by adding the following to the .nf-core.yml
file:
update:
https://github.com/nf-core/modules.git:
nf-core:
star/align: False
If you want this module to be updated only to a specific version (or downgraded), you could instead specifiy the version:
update:
https://github.com/nf-core/modules.git:
nf-core:
star/align: "e937c7950af70930d1f34bb961403d9d2aa81c7"
This also works at the repository level. For example, if you want to exclude all modules installed from nf-core/modules
from being updated you could add:
update:
https://github.com/nf-core/modules.git:
nf-core: False
or if you want all modules in nf-core/modules
at a specific version:
update:
https://github.com/nf-core/modules.git:
nf-core: "e937c7950af70930d1f34bb961403d9d2aa81c7"
Note that the module versions specified in the .nf-core.yml
file has higher precedence than versions specified with the command line flags, thus aiding you in writing reproducible pipelines.
To delete a module from your pipeline, run nf-core modules remove
.
You can pass the module name as an optional argument to nf-core modules remove
instead of using the cli prompt, eg: nf-core modules remove fastqc
. To specify the pipeline directory, use --dir <pipeline_dir>
.
If you want to make a minor change to a locally installed module but still keep it up date with the remote version, you can create a patch file using nf-core modules patch
.
The generated patches work with nf-core modules update
: when you install a new version of the module, the command tries to apply
the patch automatically. The patch application fails if the new version of the module modifies the same lines as the patch. In this case,
the patch new version is installed but the old patch file is preserved.
When linting a patched module, the linting command will check the validity of the patch. When running other lint tests the patch is applied in reverse, and the original files are linted.
This command creates a new nf-core module from the nf-core module template.
This ensures that your module follows the nf-core guidelines.
The template contains extensive TODO
messages to walk you through the changes you need to make to the template.
You can create a new module using nf-core modules create
.
This command can be used both when writing a module for the shared nf-core/modules repository, and also when creating local modules for a pipeline.
Which type of repository you are working in is detected by the repository_type
flag in a .nf-core.yml
file in the root directory,
set to either pipeline
or modules
.
The command will automatically look through parent directories for this file to set the root path, so that you can run the command in a subdirectory.
It will start in the current working directory, or whatever is specified with --dir <directory>
.
The nf-core modules create
command will prompt you with the relevant questions in order to create all of the necessary module files.
All modules on nf-core/modules have a strict requirement of being unit tested using minimal test data.
To help developers build new modules, the nf-core modules create-test-yml
command automates the creation of the yaml file required to document the output file md5sum
and other information generated by the testing.
After you have written a minimal Nextflow script to test your module tests/modules/<tool>/<subtool>/main.nf
, this command will run the tests for you and create the tests/modules/<tool>/<subtool>/test.yml
file.
Run the nf-core modules lint
command to check modules in the current working directory (pipeline or nf-core/modules clone) against nf-core guidelines.
Use the --all
flag to run linting on all modules found. Use --dir <pipeline_dir>
to specify another directory than the current working directory.
To run unit tests of a module that you have installed or the test created by the command nf-core modules create-test-yml
, you can use nf-core modules test
command. This command runs the tests specified in modules/tests/software/<tool>/<subtool>/test.yml
file using pytest.
You can specify the module name in the form TOOL/SUBTOOL in command line or provide it later by prompts.
If you are contributing to the nf-core/modules
repository and want to bump bioconda and container versions of certain modules, you can use the nf-core modules bump-versions
helper tool. This will bump the bioconda version of a single or all modules to the latest version and also fetch the correct Docker and Singularity container tags.
If you don't want to update certain modules or want to update them to specific versions, you can make use of the .nf-core.yml
configuration file. For example, you can prevent the star/align
module from being updated by adding the following to the .nf-core.yml
file:
bump-versions:
star/align: False
If you want this module to be updated only to a specific version (or downgraded), you could instead specifiy the version:
bump-versions:
star/align: "2.6.1d"
When you want to use an image of a multi-tool container and you know the specific dependencies and their versions of that container, for example, by looking them up in the BioContainers hash.tsv, you can use the nf-core modules mulled
helper tool. This tool generates the name of a BioContainers mulled image.
After the launch of nf-core modules, we can provide now also nf-core subworkflows to fully utilize the power of DSL2 modularization. Subworkflows are chains of multiple module definitions that can be imported into any pipeline. This allows multiple pipelines to use the same code for a the same tasks, and gives a greater degree of reusability and unit testing.
To allow us to test modules and subworkflows together we put the nf-core DSL2 subworkflows into the subworkflows
directory of the modules repository is at https://github.com/nf-core/modules.
The subworkflows supercommand released in nf-core/tools version 2.7 comes with two flags for specifying a custom remote repository:
--git-remote <git remote url>
: Specify the repository from which the subworkflows should be fetched as a git URL. Defaults to the github repository ofnf-core/modules
.--branch <branch name>
: Specify the branch from which the subworkflows should be fetched. Defaults to the default branch of your repository.
For example, if you want to install the bam_stats_samtools
subworkflow from the repository nf-core/modules-test
hosted at gitlab.com
in the branch subworkflows
, you can use the following command:
nf-core subworkflows --git-remote git@gitlab.com:nf-core/modules-test.git --branch subworkflows install bam_stats_samtools
Note that a custom remote must follow a similar directory structure to that of nf-core/modules
for the nf-core subworkflows
commands to work properly.
The directory where subworkflows are installed will be prompted or obtained from org_path
in the .nf-core.yml
file if available. If your subworkflows are located at subworkflows/my-folder/SUBWORKFLOW_NAME
your .nf-core.yml
file should have:
org_path: my-folder
Please avoid installing the same tools from two different remotes, as this can lead to further errors.
The subworkflows commands will during initalisation try to pull changes from the remote repositories. If you want to disable this, for example due to performance reason or if you want to run the commands offline, you can use the flag --no-pull
. Note however that the commands will still need to clone repositories that have previously not been used.
You can use the subworkflows command with private remote repositories. Make sure that your local git
is correctly configured with your private remote
and then specify the remote the same way you would do with a public remote repository.
The nf-core subworkflows list
command provides the subcommands remote
and local
for listing subworkflows installed in a remote repository and in the local pipeline respectively. Both subcommands allow to use a pattern for filtering the subworkflows by keywords eg: nf-core subworkflows list <subworkflow_name> <keyword>
.
To list all subworkflows available on nf-core/modules, you can use
nf-core subworkflows list remote
, which will print all available subworkflows to the terminal.
To list subworkflows installed in a local pipeline directory you can use nf-core subworkflows list local
. This will list the subworkflows install in the current working directory by default. If you want to specify another directory, use the --dir <pipeline_dir>
flag.
For quick help about how a subworkflow works, use nf-core subworkflows info <subworkflow_name>
.
This shows documentation about the subworkflow on the command line, similar to what's available on the
nf-core website.
You can install subworkflows from nf-core/modules in your pipeline using nf-core subworkflows install
.
A subworkflow installed this way will be installed to the ./subworkflows/nf-core
directory.
You can pass the subworkflow name as an optional argument to nf-core subworkflows install
like above or select it from a list of available subworkflows by only running nf-core subworkflows install
.
There are four additional flags that you can use when installing a subworkflow:
--dir
: Pipeline directory, the default is the current working directory.--force
: Overwrite a previously installed version of the subworkflow.--prompt
: Select the subworkflow version using a cli prompt.--sha <commit_sha>
: Install the subworkflow at a specific commit.
You can update subworkflows installed from a remote repository in your pipeline using nf-core subworkflows update
.
You can pass the subworkflow name as an optional argument to nf-core subworkflows update
like above or select it from the list of available subworkflows by only running nf-core subworkflows update
.
There are six additional flags that you can use with this command:
--dir
: Pipeline directory, the default is the current working directory.--force
: Reinstall subworkflow even if it appears to be up to date--prompt
: Select the subworkflow version using a cli prompt.--sha <commit_sha>
: Install the subworkflow at a specific commit from thenf-core/modules
repository.--preview/--no-preview
: Show the diff between the installed files and the new version before installing.--save-diff <filename>
: Save diffs to a file instead of updating in place. The diffs can then be applied withgit apply <filename>
.--all
: Use this flag to run the command on all subworkflows in the pipeline.--update-deps
: Use this flag to automatically update all dependencies of a subworkflow.
If you don't want to update certain subworkflows or want to update them to specific versions, you can make use of the .nf-core.yml
configuration file. For example, you can prevent the bam_rseqc
subworkflow installed from nf-core/modules
from being updated by adding the following to the .nf-core.yml
file:
update:
https://github.com/nf-core/modules.git:
nf-core:
bam_rseqc: False
If you want this subworkflow to be updated only to a specific version (or downgraded), you could instead specifiy the version:
update:
https://github.com/nf-core/modules.git:
nf-core:
bam_rseqc: "36a77f7c6decf2d1fb9f639ae982bc148d6828aa"
This also works at the repository level. For example, if you want to exclude all modules and subworkflows installed from nf-core/modules
from being updated you could add:
update:
https://github.com/nf-core/modules.git:
nf-core: False
or if you want all subworkflows in nf-core/modules
at a specific version:
update:
https://github.com/nf-core/modules.git:
nf-core: "e937c7950af70930d1f34bb961403d9d2aa81c7"
Note that the subworkflow versions specified in the .nf-core.yml
file has higher precedence than versions specified with the command line flags, thus aiding you in writing reproducible pipelines.
To delete a subworkflow from your pipeline, run nf-core subworkflows remove
.
You can pass the subworkflow name as an optional argument to nf-core subworkflows remove
like above or select it from the list of available subworkflows by only running nf-core subworkflows remove
. To specify the pipeline directory, use --dir <pipeline_dir>
.
This command creates a new nf-core subworkflow from the nf-core subworkflow template.
This ensures that your subworkflow follows the nf-core guidelines.
The template contains extensive TODO
messages to walk you through the changes you need to make to the template.
See the subworkflow documentation for more details around creating a new subworkflow, including rules about nomenclature and a step-by-step guide.
You can create a new subworkflow using nf-core subworkflows create
.
This command can be used both when writing a subworkflow for the shared nf-core/modules repository, and also when creating local subworkflows for a pipeline.
Which type of repository you are working in is detected by the repository_type
flag in a .nf-core.yml
file in the root directory,
set to either pipeline
or modules
.
The command will automatically look through parent directories for this file to set the root path, so that you can run the command in a subdirectory.
It will start in the current working directory, or whatever is specified with --dir <directory>
.
The nf-core subworkflows create
command will prompt you with the relevant questions in order to create all of the necessary subworkflow files.
All subworkflows on nf-core/modules have a strict requirement of being unit tested using minimal test data.
To help developers build new subworkflows, the nf-core subworkflows create-test-yml
command automates the creation of the yaml file required to document the output file md5sum
and other information generated by the testing.
After you have written a minimal Nextflow script to test your subworkflow in /tests/subworkflow/<subworkflow_name>/main.nf
, this command will run the tests for you and create the /tests/subworkflow/<tool>/<subtool>/test.yml
file.
To run unit tests of a subworkflow that you have installed or the test created by the command nf-core subworkflow create-test-yml
, you can use nf-core subworkflows test
command. This command runs the tests specified in tests/subworkflows/<subworkflow_name>/test.yml
file using pytest.
You can specify the subworkflow name in the form TOOL/SUBTOOL in command line or provide it later by prompts.
If you use nf-core tools
in your work, please cite the nf-core
publication as follows:
The nf-core framework for community-curated bioinformatics pipelines.
Philip Ewels, Alexander Peltzer, Sven Fillinger, Harshil Patel, Johannes Alneberg, Andreas Wilm, Maxime Ulysse Garcia, Paolo Di Tommaso & Sven Nahnsen.
Nat Biotechnol. 2020 Feb 13. doi: 10.1038/s41587-020-0439-x.