Metadata-Version: 2.1
Name: pydaymet
Version: 0.11.1
Summary: Access the climate data from the Daymet database through its RESTful service.
Home-page: https://github.com/cheginit/pydaymet
Author: Taher Chegini
Author-email: cheginit@gmail.com
License: MIT
Project-URL: Homepage, https://github.com/cheginit/pydaymet
Project-URL: Issues, https://github.com/cheginit/pydaymet/issues
Project-URL: CI, https://github.com/cheginit/pydaymet/actions
Project-URL: Changelog, https://github.com/cheginit/pydaymet/blob/main/HISTORY.rst
Platform: any
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Topic :: Scientific/Engineering
Classifier: Topic :: Scientific/Engineering :: GIS
Classifier: Topic :: Scientific/Engineering :: Hydrology
Classifier: Typing :: Typed
Requires-Python: >=3.7
Description-Content-Type: text/x-rst
Provides-Extra: test
License-File: LICENSE

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    :target: https://github.com/cheginit/HyRiver

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    :target: https://github.com/cheginit/async_retriever/actions/workflows/test.yml
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=============== ==================================================================== ============
Package         Description                                                          Status
=============== ==================================================================== ============
PyNHD_          Navigate and subset NHDPlus (MR and HR) using web services           |pynhd|
Py3DEP_         Access topographic data through National Map's 3DEP web service      |py3dep|
PyGeoHydro_     Access NWIS, NID, HCDN 2009, NLCD, and SSEBop databases              |pygeohydro|
PyDaymet_       Access Daymet for daily climate data both single pixel and gridded   |pydaymet|
AsyncRetriever_ High-level API for asynchronous requests with persistent caching     |async|
PyGeoOGC_       Send queries to any ArcGIS RESTful-, WMS-, and WFS-based services    |pygeoogc|
PyGeoUtils_     Convert responses from PyGeoOGC's supported web services to datasets |pygeoutils|
=============== ==================================================================== ============

.. _PyGeoHydro: https://github.com/cheginit/pygeohydro
.. _AsyncRetriever: https://github.com/cheginit/async_retriever
.. _PyGeoOGC: https://github.com/cheginit/pygeoogc
.. _PyGeoUtils: https://github.com/cheginit/pygeoutils
.. _PyNHD: https://github.com/cheginit/pynhd
.. _Py3DEP: https://github.com/cheginit/py3dep
.. _PyDaymet: https://github.com/cheginit/pydaymet

PyDaymet: Daily climate data through Daymet
-------------------------------------------

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Features
--------

PyDaymet is a part of `HyRiver <https://github.com/cheginit/HyRiver>`__ software stack that
is designed to aid in watershed analysis through web services. This package provides
access to climate data from
`Daymet V4 <https://daac.ornl.gov/DAYMET/guides/Daymet_Daily_V4.html>`__ database using NetCDF
Subset Service (NCSS). Both single pixel (using ``get_bycoords`` function) and gridded data (using
``get_bygeom``) are supported which are returned as
``pandas.DataFrame`` and ``xarray.Dataset``, respectively. Climate data is available for North
America, Hawaii from 1980, and Puerto Rico from 1950 at three time scales: daily, monthly,
and annual. Additionally, PyDaymet can compute Potential EvapoTranspiration (PET)
using `FAO Penman-Monteith equation <http://www.fao.org/docrep/X0490E/X0490E00.htm>`__ for
both single pixel and gridded data.

To fully utilize the capabilities of the NCSS, under-the-hood, PyDaymet uses
`AsyncRetriever <https://github.com/cheginit/async_retriever>`__
for retrieving Daymet data asynchronously with persistent caching. This improves the reliability
and speed of data retrieval significantly.

You can try using PyDaymet without installing it on you system by clicking on the binder badge
below the PyDaymet banner. A Jupyter notebook instance with the stack
pre-installed will be launched in your web browser and you can start coding!

Please note that since this project is in early development stages, while the provided
functionalities should be stable, changes in APIs are possible in new releases. But we
appreciate it if you give this project a try and provide feedback. Contributions are most welcome.

Moreover, requests for additional functionalities can be submitted via
`issue tracker <https://github.com/cheginit/pydaymet/issues>`__.

Installation
------------

You can install PyDaymet using ``pip`` after installing ``libgdal`` on your system
(for example, in Ubuntu run ``sudo apt install libgdal-dev``):

.. code-block:: console

    $ pip install pydaymet

Alternatively, PyDaymet can be installed from the ``conda-forge`` repository
using `Conda <https://docs.conda.io/en/latest/>`__:

.. code-block:: console

    $ conda install -c conda-forge pydaymet

Quick start
-----------

You can use PyDaymet using command-line or as a Python library. The commanda-line
provides access to two functionality:

- Getting gridded climate data: You must create a ``geopandas.GeoDataFrame`` that contains
  the geometries of the target locations. This dataframe must have at least five columns:
  ``id``, ``start``, ``end``, ``region``, and ``geometry``. The ``id`` column is used as
  filenames for saving the obtained climate data to a NetCDF (``.nc``) file. The ``start``
  and ``end`` columns are starting and ending dates of the target period. The ``region``
  columns determines the geometry's region of each row (``na``, ``hi``, or ``pr``). Then,
  you must save the dataframe to a file with extensions such as ``.shp`` or ``.gpkg``
  (whatever that ``geopandas.read_file`` can read).
- Getting single pixel climate data: You must create a ``pandas.DataFrame`` that
  contains coordinates of the target locations. This dataframe must have at least five columns:
  ``id``, ``start``, ``end``, ``region``, ``x``, and ``y``. The ``id`` column is used as filenames
  for saving the obtained climate data to a CSV (``.csv``) file. The ``start``, ``end``, and
  ``region`` columns the same as the before. The ``x`` and ``y`` columns are coordinates
  of the target locations.

``pydaymet`` has three required arguments and four optional:

.. code-block:: console

    pydaymet --help
    Usage: pydaymet [OPTIONS] TARGET TARGET_TYPE CRS

      Retrieve cliamte data within geometries or elevations for a list of coordinates.

      TARGET: Path to a geospatial file (any file that geopandas.read_file can open) or a csv file.

      The input files should have three columns:

          - id: Feature identifiers that daymet uses as the output netcdf/csv filenames.
          - start: Starting time.
          - end: Ending time.
          - region: Target region (na for CONUS, hi for Hawaii, and pr for Puerto Rico.

      If target_type is geometry, an additional geometry column is required.
      If it is coords, two additional columns are need: x and y.

      TARGET_TYPE: Type of input file: "coords" for csv and "geometry" for geospatial.

      CRS: CRS of the input data.

      Examples:

          $ pydaymet ny_coords.csv coords epsg:4326 -v prcp -v tmin -p -t monthly
          $ pydaymet ny_geom.gpkg geometry epsg:3857 -v prcp

    Options:
      -v, --variables TEXT            Target variables. You can pass this flag
                                      multiple times for multiple variables.
      -t, --time_scale [daily|monthly|annual]
                                      Target time scale.
      -p, --pet                       Compute PET.
      -s, --save_dir PATH             Path to a directory to save the requested files. Extension
                                      for the outputs is .nc for geometry and .csv for coords.
      -h, --help                      Show this message and exit.

Now, let's see how we can use PyDaymet as a library.

PyDaymet offers two functions for getting climate data; ``get_bycoords`` and ``get_bygeom``.
The arguments of these functions are identical except the first argument where the latter
should be polygon and the former should be a coordinate (a tuple of length two as in (x, y)).
The input geometry or coordinate can be in any valid CRS (defaults to EPSG:4326). The ``dates``
argument can be either a tuple of length two like ``(start_str, end_str)`` or a list of years
like ``[2000, 2005]``. It is noted that both functions have a ``pet`` flag for computing PET.
Additionally, we can pass ``time_scale`` to get daily, monthly or annual summaries. This flag
by default is set to daily.

.. code-block:: python

    from pynhd import NLDI
    import pydaymet as daymet

    geometry = NLDI().get_basins("01031500").geometry[0]

    var = ["prcp", "tmin"]
    dates = ("2000-01-01", "2000-06-30")

    daily = daymet.get_bygeom(geometry, dates, variables=var, pet=True)
    monthly = daymet.get_bygeom(geometry, dates, variables=var, time_scale="monthly")

.. image:: https://raw.githubusercontent.com/cheginit/HyRiver-examples/main/notebooks/_static/daymet_grid.png
    :target: https://github.com/cheginit/HyRiver-examples/blob/main/notebooks/daymet.ipynb
    :width: 400

If the input geometry (or coordinate) is in a CRS other than EPSG:4326, we should pass
it to the functions.

.. code-block:: python

    coords = (-1431147.7928, 318483.4618)
    crs = "epsg:3542"
    dates = ("2000-01-01", "2006-12-31")
    annual = daymet.get_bycoords(coords, dates, variables=var, loc_crs=crs, time_scale="annual")

.. image:: https://raw.githubusercontent.com/cheginit/HyRiver-examples/main/notebooks/_static/daymet_loc.png
    :target: https://github.com/cheginit/HyRiver-examples/blob/main/notebooks/daymet.ipynb
    :width: 400

Next, let's get annual total precipitation for Hawaii and Puerto Rico for 2010.

.. code-block:: python

    hi_ext = (-160.3055, 17.9539, -154.7715, 23.5186)
    pr_ext = (-67.9927, 16.8443, -64.1195, 19.9381)
    hi = daymet.get_bygeom(hi_ext, 2010, variables="prcp", region="hi", time_scale="annual")
    pr = daymet.get_bygeom(pr_ext, 2010, variables="prcp", region="pr", time_scale="annual")

Some example plots are shown below:

.. image:: https://raw.githubusercontent.com/cheginit/HyRiver-examples/main/notebooks/_static/hi.png
    :target: https://github.com/cheginit/HyRiver-examples/blob/main/notebooks/daymet.ipynb
    :width: 400

.. image:: https://raw.githubusercontent.com/cheginit/HyRiver-examples/main/notebooks/_static/pr.png
    :target: https://github.com/cheginit/HyRiver-examples/blob/main/notebooks/daymet.ipynb
    :width: 400

Contributing
------------

Contributions are very welcomed. Please read
`CONTRIBUTING.rst <https://github.com/cheginit/pygeoogc/blob/main/CONTRIBUTING.rst>`__
file for instructions.

Credits
-------
Credits to `Koen Hufkens <https://github.com/khufkens>`__ for his implementation of
accessing the Daymet RESTful service, `daymetpy <https://github.com/bluegreen-labs/daymetpy>`__.


