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Add load_pluto_relief to load Pluto relief dataset in various resolu…
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…tions and registrations (#3027)
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seisman authored Feb 1, 2024
1 parent af22e94 commit 598e770
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1 change: 1 addition & 0 deletions doc/api/index.rst
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datasets.load_earth_vertical_gravity_gradient
datasets.load_mars_relief
datasets.load_moon_relief
datasets.load_pluto_relief
datasets.load_venus_relief
datasets.load_sample_data

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1 change: 1 addition & 0 deletions pygmt/datasets/__init__.py
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)
from pygmt.datasets.mars_relief import load_mars_relief
from pygmt.datasets.moon_relief import load_moon_relief
from pygmt.datasets.pluto_relief import load_pluto_relief
from pygmt.datasets.samples import list_sample_data, load_sample_data
from pygmt.datasets.tile_map import load_tile_map
from pygmt.datasets.venus_relief import load_venus_relief
21 changes: 21 additions & 0 deletions pygmt/datasets/load_remote_dataset.py
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Expand Up @@ -272,6 +272,27 @@ class GMTRemoteDataset(NamedTuple):
"14s": Resolution("14s", registrations=["pixel"], tiled=True),
},
),
"pluto_relief": GMTRemoteDataset(
title="Pluto relief",
name="pluto_relief",
long_name="USGS Pluto relief",
units="meters",
extra_attributes={},
resolutions={
"01d": Resolution("01d"),
"30m": Resolution("30m"),
"20m": Resolution("20m"),
"15m": Resolution("15m"),
"10m": Resolution("10m"),
"06m": Resolution("06m"),
"05m": Resolution("05m", tiled=True),
"04m": Resolution("04m", tiled=True),
"03m": Resolution("03m", tiled=True),
"02m": Resolution("02m", tiled=True),
"01m": Resolution("01m", tiled=True),
"52s": Resolution("52s", registrations=["pixel"], tiled=True),
},
),
"venus_relief": GMTRemoteDataset(
title="Venus relief",
name="venus_relief",
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104 changes: 104 additions & 0 deletions pygmt/datasets/pluto_relief.py
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"""
Function to download the Pluto relief dataset from the GMT data server, and load as
:class:`xarray.DataArray`.
The grids are available in various resolutions.
"""
from typing import Literal

from pygmt.datasets.load_remote_dataset import _load_remote_dataset
from pygmt.helpers import kwargs_to_strings

__doctest_skip__ = ["load_pluto_relief"]


@kwargs_to_strings(region="sequence")
def load_pluto_relief(
resolution="01d",
region=None,
registration: Literal["gridline", "pixel", None] = None,
):
r"""
Load the Pluto relief dataset in various resolutions.
.. figure:: https://www.generic-mapping-tools.org/remote-datasets/_images/GMT_pluto_relief.jpg
:width: 80%
:align: center
Pluto relief dataset.
The grids are downloaded to a user data directory (usually
``~/.gmt/server/pluto/pluto_relief/``) the first time you invoke this function.
Afterwards, it will load the grid from the data directory. So you'll need an
internet connection the first time around.
These grids can also be accessed by passing in the file name
**@pluto_relief**\_\ *res*\[_\ *reg*] to any grid processing function or plotting
method. *res* is the grid resolution (see below), and *reg* is the grid registration
type (**p** for pixel registration or **g** for gridline registration).
The default color palette table (CPT) for this dataset is *@pluto_relief.cpt*. It's
implicitly used when passing in the file name of the dataset to any grid plotting
method if no CPT is explicitly specified. When the dataset is loaded and plotted as
an :class:`xarray.DataArray` object, the default CPT is ignored, and GMT's default
CPT (*turbo*) is used. To use the dataset-specific CPT, you need to explicitly set
``cmap="@pluto_relief.cpt"``.
Refer to :gmt-datasets:`pluto-relief.html` for more details about available
datasets, including version information and references.
Parameters
----------
resolution : str
The grid resolution. The suffix ``d``, ``m`` and ``s`` stand for arc-degrees,
arc-minutes and arc-seconds. It can be ``"01d"``, ``"30m"``, ``"20m"``,
``"15m"``, ``"10m"``, ``"06m"``, ``"05m"``, ``"04m"``, ``"03m"``, ``"02m"``,
``"01m"``, and ``"52s"``.
region : str or list
The subregion of the grid to load, in the form of a list
[*xmin*, *xmax*, *ymin*, *ymax*] or a string *xmin/xmax/ymin/ymax*. Required for
grids with resolutions higher than 5 arc-minutes (i.e., ``"05m"``).
registration
Grid registration type. Either ``"pixel"`` for pixel registration or
``"gridline"`` for gridline registration. Default is ``None``, means
``"gridline"`` for all resolutions except for ``"52s"`` which is ``"pixel"``
only.
Returns
-------
grid : :class:`xarray.DataArray`
The Pluto relief grid. Coordinates are latitude and longitude in degrees. Relief
is in meters.
Note
----
The registration and coordinate system type of the returned
:class:`xarray.DataArray` grid can be accessed via the GMT accessors (i.e.,
``grid.gmt.registration`` and ``grid.gmt.gtype`` respectively). However, these
properties may be lost after specific grid operations (such as slicing) and will
need to be manually set before passing the grid to any PyGMT data processing or
plotting functions. Refer to :class:`pygmt.GMTDataArrayAccessor` for detailed
explanations and workarounds.
Examples
--------
>>> from pygmt.datasets import load_pluto_relief
>>> # load the default grid (gridline-registered 1 arc-degree grid)
>>> grid = load_pluto_relief()
>>> # load the 30 arc-minutes grid with "gridline" registration
>>> grid = load_pluto_relief(resolution="30m", registration="gridline")
>>> # load high-resolution (5 arc-minutes) grid for a specific region
>>> grid = load_pluto_relief(
... resolution="05m",
... region=[120, 160, 30, 60],
... registration="gridline",
... )
"""
grid = _load_remote_dataset(
dataset_name="pluto_relief",
dataset_prefix="pluto_relief_",
resolution=resolution,
region=region,
registration=registration,
)
return grid
3 changes: 3 additions & 0 deletions pygmt/helpers/caching.py
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Expand Up @@ -65,6 +65,9 @@ def cache_data():
# Moon relief grids
"@moon_relief_01d_g",
"@N00W030.moon_relief_01m_p.nc", # Specific grid for 01m test
# Pluto relief grids
"@pluto_relief_01d_g",
"@N00W030.pluto_relief_01m_p.nc", # Specific grid for 01m test
# Venus relief grids
"@venus_relief_01d_g",
"@N00W030.venus_relief_01m_g.nc", # Specific grid for 01m test
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51 changes: 51 additions & 0 deletions pygmt/tests/test_datasets_pluto_relief.py
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"""
Test basic functionality for loading Pluto relief datasets.
"""
import numpy as np
import numpy.testing as npt
from pygmt.datasets import load_pluto_relief


def test_pluto_relief_01d():
"""
Test some properties of the Pluto relief 01d data.
"""
data = load_pluto_relief(resolution="01d")
assert data.name == "pluto_relief"
assert data.attrs["units"] == "meters"
assert data.attrs["long_name"] == "USGS Pluto relief"
assert data.shape == (181, 361)
assert data.gmt.registration == 0
npt.assert_allclose(data.lat, np.arange(-90, 91, 1))
npt.assert_allclose(data.lon, np.arange(-180, 181, 1))
npt.assert_allclose(data.min(), -3021.0, atol=0.25)
npt.assert_allclose(data.max(), 4423.25, atol=0.25)


def test_pluto_relief_01d_with_region():
"""
Test loading low-resolution Pluto relief with 'region'.
"""
data = load_pluto_relief(resolution="01d", region=[-10, 10, -5, 5])
assert data.shape == (11, 21)
assert data.gmt.registration == 0
npt.assert_allclose(data.lat, np.arange(-5, 6, 1))
npt.assert_allclose(data.lon, np.arange(-10, 11, 1))
npt.assert_allclose(data.min(), -1319.25, atol=0.25)
npt.assert_allclose(data.max(), 27.5, atol=0.25)


def test_pluto_relief_01m_default_registration():
"""
Test that the grid returned by default for the 1 arc-minute resolution has
a "gridline" registration.
"""
data = load_pluto_relief(resolution="01m", region=[-10, -9, 3, 5])
assert data.shape == (121, 61)
assert data.gmt.registration == 0
assert data.coords["lat"].data.min() == 3.0
assert data.coords["lat"].data.max() == 5.0
assert data.coords["lon"].data.min() == -10.0
assert data.coords["lon"].data.max() == -9.0
npt.assert_allclose(data.min(), -1280.5, atol=0.25)
npt.assert_allclose(data.max(), 1665.0, atol=0.25)

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