A package for parsing Earth Observation science granule structure and extracting relations between science variables and their associated metadata, such as coordinates.
Project description
earthdata-varinfo
A Python package developed as part of the NASA Earth Observing System Data and Information System (EOSDIS) for parsing Earth Observation science granule structure and extracting relations between science variables and their associated metadata, such as coordinates. This package also includes the capability to generate variable (UMM-Var) metadata records that are compatible with the NASA EOSDIS Common Metadata Repository (CMR).
For general usage of classes and functions in earthdata-varinfo
, see:
https://github.com/nasa/earthdata-varinfo/blob/main/docs/earthdata-varinfo.ipynb.
Features:
CFConfig
A class that takes a JSON file and retrieves all related configuration based on
the supplied mission name and collection shortname. The JSON file is optional,
and if not supplied, a CFConfig
class will be constructed with largely empty
attributes.
from varinfo import CFConfig
cf_config = CFConfig('ICESat2', 'ATL03', config_file='config/0.0.1/sample_config_0.0.1.json')
cf_attributes = cf_config.get_cf_attributes('/full/variable/path')
VarInfo
A group of classes that contain the relations between all variables within a single granule. Current classes include:
- VarInfoBase: An abstract base class that contains core logic and methods used by the child classes that parse different sources of granule information.
- VarInfoFromDmr: Child class that maps input from a
.dmr
file downloaded from Hyrax in the cloud. This inherits all the methods and logic of VarInfoBase. - VarInfoFromNetCDF4: Child class that maps input directly from a NetCDF-4 file. Thus inherits all the methods and logic of VarInfoBase.
from varinfo import VarInfoFromDmr
var_info = VarInfoFromDmr('/path/to/local/file.dmr',
config_file='config/0.0.1/sample_config_0.0.1.json')
# Retrieve a set of variables with coordinate metadata:
var_info.get_science_variables()
# Retrieve a set of variables without coordinate metadata:
var_info.get_metadata_variables()
# Augment a set of desired variables with all variables required to support
# the requested set. For example coordinate variables.
var_info.get_required_variables({'/path/to/science/variable'})
# Retrieve an ordered list of dimensions associated with all specified variables.
var_info.get_required_dimensions({'/path/to/science/variable'})
# Retrieve all spatial dimensions associated with the specified set of science
# variables.
var_info.get_spatial_dimensions({'/path/to/science/variable'})
The VarInfoFromDmr
and VarInfoFromNetCDF4
classes also have an optional
argument short_name
, which can be used upon instantiation to specify the
short name of the collection to which the granule belongs. This option is to be
used when a granule does not contain the collection short name within its
metadata global attributes (e.g., ABoVE collections from ORNL).
var_info = VarInfoFromDmr('/path/to/local/file.dmr', short_name='ATL03')
Note: as there are now two optional parameters, short_name
and config_file
,
it is best to ensure that both are specified as named arguments upon
instantiation.
UMM-Var generation
earthdata-varinfo
can generate variable metadata records compatible with the
CMR UMM-Var schema:
from varinfo import VarInfoFromNetCDF4
from varinfo.umm_var import export_all_umm_var_to_json, get_all_umm_var
# Instantiate a VarInfoFromNetCDF4 object for a local NetCDF-4 file.
var_info = VarInfoFromNetCDF4('/path/to/local/file.nc4', short_name='ATL03')
# Retrieve a dictionary of UMM-Var JSON records. Keys are the full variable
# paths, values are UMM-Var schema-compatible, JSON-serialisable dictionaries.
umm_var = get_all_umm_var(var_info)
# Write each UMM-Var dictionary to its own JSON file:
export_all_umm_var_to_json(list(umm_var.values()), output_dir='local_dir')
End-to-end UMM-Var generation and publication:
from cmr import CMR_OPS
from varinfo.generate_umm_var import generate_collection_umm_var
# Defaults to UAT, and not to publish:
umm_var_json = generate_collection_umm_var(<UAT collection concept ID>,
<authorization header>)
# To use a production collection:
umm_var_json = generate_collection_umm_var(<Production collection concept ID>,
<authorization header>,
cmr_env=CMR_OPS)
# To generate and publish records for a UAT collection (note the authorization
# header must contain a LaunchPad token):
umm_var_json = generate_collection_umm_var(<UAT collection concept ID>,
<authorization header>,
publish=True)
Expected outputs:
publish=False
, or not specifying a value will result in JSON output containing the UMM-Var JSON for each identified variable.publish=True
will return a list of strings. Each string is either the concept ID of a new UMM-Var record, or a string including the full path of a variable that failed to publish and the error messages returned from CMR.
Native IDs for generated UMM-Var records will be of format:
<collection concept ID>-<variable LongName>
For variables that are hierarchical, slashes will be converted to underscores, to ensure the native ID is compatible with the CMR API.
Configuration file schema:
The configuration file schema is defined as a JSON schema file in the config
directory. Each new iteration to the schema should be placed in its own
semantically versioned subdirectory, and a sample configuration file should be
provided. Additionally, notes on the schema changes should be provided in
config/CHANGELOG.md
.
Installing
Using pip
Install the latest version of the package from PyPI using pip:
$ pip install earthdata-varinfo
Other methods:
For local development, it is possible to clone the repository and then install the version being developed in editable mode:
$ git clone https://github.com/nasa/earthdata-varinfo
$ cd earthdata-varinfo
$ pip install -e .
Contributing
Contributions are welcome! For more information see CONTRIBUTING.md
.
Developing
Development within this repository should occur on a feature branch. Pull
Requests (PRs) are created with a target of the main
branch before being
reviewed and merged.
Releases are created when a feature branch is merged to main
and that branch
also contains an update to the VERSION
file.
Development Setup:
Prerequisites:
- Python 3.7+, ideally installed in a virtual environment, such as
pyenv
orconda
. - A local copy of this repository.
Install dependencies:
$ make develop
Run a linter against package code (preferably do this prior to submitting code for a PR review):
$ make lint
Run unittest
suite:
$ make test
Releasing:
All CI/CD for this repository is defined in the .github/workflows
directory:
- run_tests.yml - A reusable workflow that runs the unit test suite under a matrix of Python versions.
- run_tests_on_pull_requests.yml - Triggered for all PRs against main. It runs the workflow in run_test.yml to ensure all tests pass on the new code.
- publish_to_pypi.yml - Triggered either manually or for commits to the main
branch that contain changes to the
VERSION
file.
The publish_to_pypi.yml
workflow will:
- Run the full unit test suite, to prevent publication of broken code.
- Extract the semantic version number from
VERSION
. - Extract the release notes for the most recent version from
CHANGELOG.md
. - Build the package to be published to PyPI.
- Publish the package to PyPI.
- Publish a GitHub release under the semantic version number, with associated git tag.
Before triggering a release, ensure the VERSION
and CHANGELOG.md
files are updated accordingly.
Get in touch:
You can reach out to the maintainers of this repository via email:
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