# SPDX-FileCopyrightText: : 2017-2020 The PyPSA-Eur Authors
#
# SPDX-License-Identifier: MIT

"""
Creates Voronoi shapes for each bus representing both onshore and offshore regions.

Relevant Settings
-----------------

.. code:: yaml

    countries:

.. seealso::
    Documentation of the configuration file ``config.yaml`` at
    :ref:`toplevel_cf`

Inputs
------

- ``resources/country_shapes.geojson``: confer :ref:`shapes`
- ``resources/offshore_shapes.geojson``: confer :ref:`shapes`
- ``networks/base.nc``: confer :ref:`base`

Outputs
-------

- ``resources/regions_onshore.geojson``:

    .. image:: ../img/regions_onshore.png
        :scale: 33 %

- ``resources/regions_offshore.geojson``:

    .. image:: ../img/regions_offshore.png
        :scale: 33 %

Description
-----------

"""

import logging
from _helpers import configure_logging

import pypsa
import os
import pandas as pd
import geopandas as gpd

from vresutils.graph import voronoi_partition_pts

logger = logging.getLogger(__name__)


def save_to_geojson(s, fn):
    if os.path.exists(fn):
        os.unlink(fn)
    schema = {**gpd.io.file.infer_schema(s), 'geometry': 'Unknown'}
    s.to_file(fn, driver='GeoJSON', schema=schema)


if __name__ == "__main__":
    if 'snakemake' not in globals():
        from _helpers import mock_snakemake
        snakemake = mock_snakemake('build_bus_regions')
    configure_logging(snakemake)

    countries = snakemake.config['countries']

    n = pypsa.Network(snakemake.input.base_network)

    country_shapes = gpd.read_file(snakemake.input.country_shapes).set_index('name')['geometry']
    offshore_shapes = gpd.read_file(snakemake.input.offshore_shapes).set_index('name')['geometry']

    onshore_regions = []
    offshore_regions = []

    for country in countries:
        c_b = n.buses.country == country

        onshore_shape = country_shapes[country]
        onshore_locs = n.buses.loc[c_b & n.buses.substation_lv, ["x", "y"]]
        onshore_regions.append(gpd.GeoDataFrame({
                'name': onshore_locs.index,
                'x': onshore_locs['x'],
                'y': onshore_locs['y'],
                'geometry': voronoi_partition_pts(onshore_locs.values, onshore_shape),
                'country': country
            }))

        if country not in offshore_shapes.index: continue
        offshore_shape = offshore_shapes[country]
        offshore_locs = n.buses.loc[c_b & n.buses.substation_off, ["x", "y"]]
        offshore_regions_c = gpd.GeoDataFrame({
                'name': offshore_locs.index,
                'x': offshore_locs['x'],
                'y': offshore_locs['y'],
                'geometry': voronoi_partition_pts(offshore_locs.values, offshore_shape),
                'country': country
            })
        offshore_regions_c = offshore_regions_c.loc[offshore_regions_c.area > 1e-2]
        offshore_regions.append(offshore_regions_c)

    save_to_geojson(pd.concat(onshore_regions, ignore_index=True), snakemake.output.regions_onshore)

    save_to_geojson(pd.concat(offshore_regions, ignore_index=True), snakemake.output.regions_offshore)