Fileformats provides a library of file-format types implemented as Python classes for validation, detection, typing and provide hooks for extra functionality and format conversions. Formats are typically validated/identified by a combination of file extension and "magic numbers" where applicable. Unlike other file-type packages, FileFormats, supports multi-file data formats ("file sets"), which are often found in scientific workflows, e.g. with separate header/data files.
FileFormats provides a flexible extension framework to add custom identification routines for exotic file formats, e.g. formats that require inspection of headers to locate data files, directories containing certain file types, or to peek at metadata fields to define specific sub-types (e.g. functional MRI DICOM file set). These file-sets with auxiliary files can be moved, copied and hashed like they are a single file object.
See the extension template for instructions on how to design FileFormats extensions modules to augment the standard file-types implemented in the main repository with custom domain/vendor-specific file-format types (e.g. fileformats-medimage).
Support for all non-vendor standard MIME types (i.e. ones not matching */vnd.* or */x-*) has been
added to FileFormats by semi-automatically scraping the
IANA MIME types website for file
extensions and magic numbers. As such, many of the formats in the library have not been properly
tested on real data and so should be treated with some caution. If you encounter any issues with an implemented file
type, please raise an issue in the GitHub tracker.
Adding support for vendor formats is planned for v1.0.
FileFormats can be installed for Python >= 3.8 from PyPI with
$ python3 -m pip fileformatsImplementations of methods and converters between select formats that require external dependencies require the installation of the corresponding "extras" package e.g
$ python3 -m pip install fileformats-extrasExtension packages exist for for formats not covered by [IANA MIME types] (e.g. NIfTI, R-files, MATLAB files) and can be installed along with their "extras" package similarly
$ python3 -m pip install \
fileformats-medimage \
fileformats-medimage-extras \
fileformats-datascience \
fileformats-datascience-extrasUsing the WithMagicNumber mixin class, the Png format can be defined concisely as
from fileformats.generic import File
from fileformats.core.mixin import WithMagicNumber
class Png(WithMagicNumber, File):
binary = True
ext = ".png"
iana_mime = "image/png"
magic_number = b".PNG"Files can then be checked to see whether they are of PNG format by
png = Png("/path/to/image/file.png") # Checks the extension and magic numberwhich will raise a FormatMismatchError if initialisation or validation fails, or
for a boolean method that checks the validation use matches
if Png.matches(a_path_to_a_file):
... handle case ...There are 2 main functions that can be used for format identification
fileformats.core.from_mimefileformats.core.find_matching
As the name suggests, this function is used to return the FileFormats class corresponding
to a given MIME <https://www.iana.org/assignments/media-types/media-types.xhtml>__ string.
All non-vendor official MIME-types are supported. Non-official types can be loaded using
the application/x-name-of-type form as long as the name of the type is unique amongst
all installed format types. To avoid name clashes between different extension types, the
"MIME-like" string can be used instead, where informal registries corresponding to the
fileformats extension namespace are used instead, e.g. medimage/nifti-gz or datascience/hdf5.
Given a set of file-system paths, by default, find_matching will iterate through all
installed fileformats classes and return all that validate successfully (formats without
any specific constraints are excluded by default). The potential candidate classes can be
restricted by using the candidates keyword argument.
While not implemented in the main File-formats itself, file-formats provides hooks for
other packages to implement extra behaviour such as format conversion.
The fileformats-extras <https://github.com/ArcanaFramework/fileformats-extras>__
implements a number of converters between standard file-format types, e.g. archive types
to/from generic file/directories, which if installed can be called using the convert() method.
from fileformats.application import Zip
from fileformats.generic import Directory
zip_file = Zip.convert(Directory("/path/to/a/directory"))
extracted = Directory.convert(zip_file)
copied = extracted.copy_to("/path/to/output")The converters are implemented in the Pydra dataflow framework, and can be linked into wider Pydra workflows by creating a converter task
import pydra
from pydra.tasks.mypackage import MyTask
from fileformats.application import Json, Yaml
wf = pydra.Workflow(name="a_workflow", input_spec=["in_json"])
wf.add(
Yaml.get_converter(Json, name="json2yaml", in_file=wf.lzin.in_json)
)
wf.add(
MyTask(
name="my_task",
in_file=wf.json2yaml.lzout.out_file,
)
)
...Alternatively, the conversion can be executed outside of a Pydra workflow with
json_file = Json("/path/to/file.json")
yaml_file = Yaml.convert(json_file)This work is licensed under a Creative Commons Attribution 4.0 International License
