- Web version:
- Open Google Chrome or Mozilla Firefox (currently the only supported browsers)
- Go to http://bids-standard.github.io/bids-validator/ and select a folder with your BIDS dataset. If the validator seems to be working longer than couple of minutes please open developer tools and report the error at https://github.com/bids-standard/bids-validator/issues.
- Command line version:
- Install Node.js (at least version 10.11.0)
- From a terminal run
npm install -g bids-validator
- Run
bids-validator
to start validating datasets.
- Docker
- Install Docker
- From a terminal run
docker run -ti --rm -v /path/to/data:/data:ro bids/validator /data
but replace the/path/to/data
part of the command with your own path on your machine.
- Python Library:
- Install Python (works with python2 and python3)
- Install Pip package manager for python, if not already installed.
- From a terminal run
pip install bids_validator
to acquire the BIDS Validator PyPi package - Open a Python terminal
python
- Import the BIDS Validator package
from bids_validator import BIDSValidator
- Check if a file is BIDS compatible
BIDSValidator().is_bids('path/to/a/bids/file')
The BIDS Validator is designed to work in both the browser and in Node.js. We target support for the latest long term stable (LTS) release of Node.js and the latest version of Chrome.
There is also a library of helper functions written in Python, for use with BIDS compliant applications written in this language.
Please report any issues you experience while using these support targets via the GitHub issue tracker. If you experience issues outside of these supported environments and believe we should extend our targeted support feel free to open a new issue describing the issue, your support target and why you require extended support and we will address these issues on a case by case basis.
This package is maintained by @rwblair.
Some of our awesome contributors include:
The BIDS Validator has one primary method that takes a directory as either a path to the directory (node) or the object given by selecting a directory with a file input (browser), an options object, and a callback.
Available options include:
- ignoreWarnings - (boolean - defaults to false)
- ignoreNiftiHeaders - (boolean - defaults to false)
For example:
validate.BIDS(directory, {ignoreWarnings: true}, function (issues, summary) {console.log(issues.errors, issues.warnings);});
If you would like to test individual files you can use the file specific checks that we expose.
- validate.BIDS()
- validate.JSON()
- validate.TSV()
- validate.NIFTI()
Additionally you can reformat stored errors against a new config using validate.reformat()
Optionally one can include a .bidsignore
file in the root of the dataset. This
file lists patterns (compatible with the .gitignore syntax)
defining files that should be ignored by the validator. This option is useful
when the validated dataset includes file types not yet supported by BIDS
specification.
*_not_bids.txt
extra_data/
You can configure the severity of errors by passing a json configuration file
with a -c
or --config
flag to the command line interface or by defining a
config object on the options object passed during javascript usage.
If no path is specified a default path of .bids-validator-config.json
will be used. You can add this file to your dataset to share dataset specific validation configuration. To disable this behavior use --no-config
and the default configuration will be used.
The basic configuration format is outlined below. All configuration is optional.
{
"ignore": [],
"warn": [],
"error": [],
"ignoredFiles": []
}
ignoredFiles
takes a list of file paths or glob patterns you'd like to ignore.
Lets say we want to ignore all files and sub-directory under /derivatives/
.
This is not the same syntax as used in the .bidsignore file
{
"ignoredFiles": ["/derivatives/**"]
}
Note that adding two stars **
in path makes validator recognize all files and
sub-dir to be ignored.
ignore
, warn
, and error
take lists of issue codes or issue keys and change
the severity of those issues so they are either ignored or reported as warnings
or errors. You can find a list of all available issues at
utils/issues/list.
Some issues may be ignored by default, but can be elevated to warnings or errors. These provide a way to check for common things that are more specific than BIDS compatibility. An example is a check for the presence of a T1w modality. The following would raise an error if no T1W image was found in a dataset.
{
"error": ["NO_T1W"]
}
In addition to issue codes and keys these lists can also contain objects with and "and" or "or" properties set to arrays of codes or keys. These allow some level of conditional logic when configuring issues. For example:
{
"ignore": [
{
"and": [
"ECHO_TIME_GREATER_THAN",
"ECHO_TIME_NOT_DEFINED"
]
}
]
}
In the above example the two issues will only be ignored if both of them are triggered during validation.
{
"ignore": [
{
"and": [
"ECHO_TIME_GREATER_THAN",
"ECHO_TIME_NOT_DEFINED"
{
"or": [
"ECHO_TIME1-2_NOT_DEFINED",
"ECHO_TIME_MUST_DEFINE"
]
}
]
}
]
}
And in this example the listed issues will only be ignored if
ECHO_TIME_GREATER_THAN
, ECHO_TIME_NOT_DEFINED
and either
ECHO_TIME1-2_NOT_DEFINED
or ECHO_TIME_MUST_DEFINE
are triggered during
validation.
"or" arrays are not supported at the lowest level because it wouldn't add any functionality. For example the following is not supported.
{
"ignore": [
{
"or": [
"ECHO_TIME_GREATER_THAN",
"ECHO_TIME_NOT_DEFINED"
]
}
]
}
because it would be functionally the same as this:
{
"ignore": [
"ECHO_TIME_GREATER_THAN",
"ECHO_TIME_NOT_DEFINED"
]
}
For passing a configuration while using the bids-validator on the command line, note that you have to specify at least two configurations of a given type, because an array is expected. For example, the following code will ignore empty file errors (99) and files that cannot be read (44):
bids-validator --config.ignore=99 --config.ignore=44 path/to/bids/dir
This style of use puts limits on what configuration you can require, so for complex scenarios, we advise users to create a dedicated configuration file with contents as described above.
The BIDS Validator currently works in the browser with browserify
or webpack. You can add it to a project by cloning
the validator and requiring it with browserify syntax
var validate = require('bids-validator');
or an ES2015 webpack import
import validate from 'bids-validator'
.
The BIDS validator works like most npm packages. You can install it by running
npm install bids-validator
.
If you install the bids validator globally by using npm install -g bids-validator
you will be able to use it as a command line tool. Once installed you should be
able to run bids-validator /path/to/your/bids/directory
and see any validation
issues logged to the terminal. Run bids-validator
without a directory path to
see available options.
To use bids validator with docker, you simply need to install docker on your system.
And then from a terminal run:
docker run -ti --rm bids/validator --version
to print the version of the docker imagedocker run -ti --rm bids/validator --help
to print the helpdocker run -ti --rm -v /path/to/data:/data:ro bids/validator /data
to validate the dataset/path/to/data
on your host machine
See here for a brief explanation of the commands:
docker run
is the command to tell docker to run a certain docker image, usually taking the formdocker run <IMAGENAME> <COMMAND>
- the
-ti
flag means the inputs are accepted and outputs are printed to the terminal - the
--rm
flag means that the state of the docker container is not saved after it has run - the
-v
flag is adding your local data to the docker container (bind-mounts). Importantly, the input after the-v
flag consists of three fields separated colons::
- the first field is the path to the directory on the host machine:
/path/to/data
- the second field is the path where the directory is mounted in the container
- the third field is optional. In our case, we use
ro
to specify that the mounted data is read only
- the first field is the path to the directory on the host machine:
There are is a limited library of helper functions written in Python. The main function
determines if a file extension is compliant with the BIDS specification. You can find
the available functions in the library, as well as their descriptions,
here.
To install, run pip install -U bids_validator
(requires python and pip).
from bids_validator import BIDSValidator
validator = BIDSValidator()
filepaths = ["/sub-01/anat/sub-01_rec-CSD_T1w.nii.gz", "/sub-01/anat/sub-01_acq-23_rec-CSD_T1w.exe"]
for filepath in filepaths:
print(validator.is_bids(filepath)) # will print True, and then False
To develop locally, clone the project and run yarn
from the project
root. This will install external dependencies. If you wish to install
bids-validator
globally (so that you can run it in other folders), use the
following command to install it globally: cd bids-validator && npm install -g
Please see the CONTRIBUTING.md for additional details.
A note about OS X, the dependencies for the browser require a npm package called node-gyp which needs xcode to be installed in order to be compiled.
- The browser version of
bids-validator
lives in the repo subdirectory/bids-validator-web
. It is a React.js application that uses the next.js framework. - To develop
bids-validator
and see how it will act in the browser, simply runyarn web-dev
in the project root and navigate tolocalhost:3000
. - In development mode, changes to the codebase will trigger rebuilds of the application automatically.
- Changes to the
/bids-validator
in the codebase will also be reflected in the web application. - Tests use the Jest testing library and should be developed in
/bids-validator-web/tests
. We can always use more tests, so please feel free to contribute a test that reduces the chance of any bugs you fix! - To ensure that the web application compiles successfully in production, run
yarn web-export
If it's your first time running tests, first use the command git submodule update --init --depth 1
to pull the test example data. This repo contains the bids-examples github repository as a submodule.
To start the test suite run npm test
from the project root. npm test -- --watch
is useful to run tests while making changes. A coverage report is available with
npm run coverage
.
To run the linter which checks code conventions run npm run lint
.
Publishing is done with Lerna. Use the command yarn lerna publish
and follow instructions to set a new version.
Using lerna publish will create a git commit with updated version information and create a version number tag for it, push the tag to GitHub, then publish to NPM and PyPI. The GitHub release is manual following that.
Many contributions to the bids-validator
were done by members of the
BIDS community. See the list of contributors.
A large part of the development of bids-validator
is currently done by
Squishymedia, who are in turn financed through
different grants offered for the general development of BIDS. See the list
below.
Development and contributions were supported through the following federally funded projects/grants: