def test_latlon_dims():
a0 = xarray.DataArray(
numpy.zeros((2, 4)),
name="var",
dims=["lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [0, 90, 180, 270]
},
)
a0.lat.attrs["units"] = "degrees_north"
a0.lon.attrs["units"] = "degrees_east"
r = regrid(a0, a0)
assert r.lat.ndim == 1
assert r.lon.ndim == 1
assert r.lat.shape == (2, )
assert r.lon.shape == (4, )
a1 = xarray.DataArray(
numpy.zeros((2, 4)),
name="var",
dims=["lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [-180, -90, 0, 90]
},
)
a1.lat.attrs["units"] = "degrees_north"
a1.lon.attrs["units"] = "degrees_east"
r = regrid(a0, a1)
assert r.lat.ndim == 1
assert r.lon.ndim == 1
assert r.lat.shape == (2, )
assert r.lon.shape == (4, )
a2 = xarray.DataArray(
numpy.zeros((10, 10)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, 10),
"lon": numpy.linspace(-180, 180, 10, endpoint=False),
},
)
a2.lat.attrs["units"] = "degrees_north"
a2.lon.attrs["units"] = "degrees_east"
r = regrid(a1, a2)
assert r.lat.ndim == 1
assert r.lon.ndim == 1
assert r.lat.shape == (10, )
assert r.lon.shape == (10, )
def compare_regrids(tmpdir, source, target):
"""
Check our weight application matches CDO's
"""
import subprocess
grid = identify_grid(target)
gridfile = tmpdir.join("grid")
with open(str(gridfile), "wb") as f:
grid.to_cdo_grid(f)
sourcefile = tmpdir.join("source.nc")
source.to_netcdf(str(sourcefile))
outfile = tmpdir.join("out.nc")
subprocess.check_call(
["cdo",
"remapbil,%s" % str(gridfile),
str(sourcefile),
str(outfile)])
cdo = xarray.open_dataset(str(outfile))
cms = regrid(source, target)
numpy.testing.assert_array_equal(cdo["var"].data[...], cms.values[...])
def test_big_array():
alats = 145
alons = 192
ats = 1
a = xarray.DataArray(
numpy.zeros((ats, alats, alons)),
name="var",
dims=["t", "lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, alats),
"lon": numpy.linspace(0, 360, alons, endpoint=False),
},
)
a.lat.attrs["units"] = "degrees_north"
a.lon.attrs["units"] = "degrees_east"
blats = 10
blons = 10
b = xarray.DataArray(
numpy.zeros((blats, blons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, blats),
"lon": numpy.linspace(-180, 180, blons, endpoint=False),
},
)
b.lat.attrs["units"] = "degrees_north"
b.lon.attrs["units"] = "degrees_east"
r = regrid(a, b)
def test_nco(tmpdir, weight_gen, weight_args):
alats = 10
alons = 11
a = xarray.DataArray(
numpy.random.random((alats, alons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, alats),
"lon": numpy.linspace(0, 360, alons, endpoint=False),
},
)
horiz_attrs(a.lat, a.lon)
a[1:3, 3:9] = numpy.nan
blats = 13
blons = 17
b = xarray.DataArray(
numpy.zeros((blats, blons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, blats),
"lon": numpy.linspace(-180, 180, blons, endpoint=False),
},
)
horiz_attrs(b.lat, b.lon)
w = weight_gen(a, b, **weight_args)
print(w)
c = regrid(a, weights=w)
afile = str(tmpdir / "a.nc")
a.to_netcdf(afile)
wfile = str(tmpdir / "w.nc")
w.to_netcdf(wfile)
nfile = str(tmpdir / "n.nc")
subprocess.run(["ncks", "--map", wfile, afile, nfile], check=True)
n = xarray.open_dataset(nfile)["var"]
numpy.testing.assert_array_equal(c.data, n.data)
def test_regrid_weight_gen(weight_gen, weight_args):
alats = 10
alons = 11
a = xarray.DataArray(
numpy.random.rand(alats, alons),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, alats),
"lon": numpy.linspace(0, 360, alons, endpoint=False),
},
)
a.lat.attrs["units"] = "degrees_north"
a.lon.attrs["units"] = "degrees_east"
a[1, 3] = numpy.nan
blats = 12
blons = 13
b = xarray.DataArray(
numpy.random.rand(blats, blons),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, blats),
"lon": numpy.linspace(-180, 180, blons, endpoint=False),
},
)
b.lat.attrs["units"] = "degrees_north"
b.lon.attrs["units"] = "degrees_east"
b[6, 4] = numpy.nan
w = weight_gen(a, b, **weight_args)
c = regrid(a, weights=w)
# Dimensions match the target grid
numpy.testing.assert_array_equal(c.shape, b.shape)
numpy.testing.assert_array_almost_equal(c.lat, b.lat)
numpy.testing.assert_array_almost_equal(numpy.mod(c.lon, 360),
numpy.mod(b.lon, 360))
# We don't just have a grid of NAN
assert not numpy.isnan(c).all()
# Output is masked
assert numpy.isnan(b[6, 4])
def test_dask_regrid(tmpdir):
d = dask.array.zeros((2, 2), chunks=(2, 2))
a0 = xarray.DataArray(d,
name="var",
dims=["lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [0, 180]
})
a0.lat.attrs["units"] = "degrees_north"
a0.lon.attrs["units"] = "degrees_east"
r = regrid(a0, a0)
assert isinstance(r.data, dask.array.Array)
def test_call_regrid(tmpdir):
a0 = xarray.DataArray(
[[0, 1], [2, 3]],
name="var",
dims=["lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [0, 180]
},
)
a0.lat.attrs["units"] = "degrees_north"
a0.lon.attrs["units"] = "degrees_east"
a0 = a0.astype("f4")
r = regrid(a0, a0)
assert r is not None
def test_3d_regrid(tmpdir):
a0 = xarray.DataArray(
[[[0, 1], [2, 3]], [[4, 5], [6, 7]], [[8, 9], [10, 11]]],
name="var",
dims=["time", "lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [0, 180],
"time": [0, 1, 2]
},
)
a0.lat.attrs["units"] = "degrees_north"
a0.lon.attrs["units"] = "degrees_east"
a0 = a0.astype("f4")
r = regrid(a0, a0)
compare_regrids(tmpdir.mkdir("3d"), a0, a0)
def test_regrid_mask():
alats = 10
alons = 11
a = xarray.DataArray(
numpy.zeros((alats, alons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, alats),
"lon": numpy.linspace(0, 360, alons, endpoint=False),
},
)
a.lat.attrs["units"] = "degrees_north"
a.lon.attrs["units"] = "degrees_east"
a[1, 3] = numpy.nan
blats = 12
blons = 13
b = xarray.DataArray(
numpy.zeros((blats, blons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, blats),
"lon": numpy.linspace(-180, 180, blons, endpoint=False),
},
)
b.lat.attrs["units"] = "degrees_north"
b.lon.attrs["units"] = "degrees_east"
b[6, 4] = numpy.nan
w = esmf_generate_weights(a, b)
a[1, 3] = 1e10
c = regrid(a, weights=w)
assert c.max().values < 10
assert numpy.isnan(c.values[6, 4])
def test_chunked_weights():
alats = 10
alons = 11
a = xarray.DataArray(
numpy.zeros((alats, alons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, alats),
"lon": numpy.linspace(0, 360, alons, endpoint=False),
},
)
a.lat.attrs["units"] = "degrees_north"
a.lon.attrs["units"] = "degrees_east"
a[1, 3] = numpy.nan
blats = 12
blons = 13
b = xarray.DataArray(
numpy.zeros((blats, blons)),
name="var",
dims=["lat", "lon"],
coords={
"lat": numpy.linspace(-90, 90, blats),
"lon": numpy.linspace(-180, 180, blons, endpoint=False),
},
)
b.lat.attrs["units"] = "degrees_north"
b.lon.attrs["units"] = "degrees_east"
b[6, 4] = numpy.nan
w = esmf_generate_weights(a, b)
w = w.chunk({"n_s": 10})
c = regrid(a, weights=w)
def test_manual_weights(tmpdir):
"""
'regrid' will accept a SCRIP format weights file as the target
"""
a0 = xarray.DataArray(
[[0, 1], [2, 3]],
name="var",
dims=["lat", "lon"],
coords={
"lat": [-45, 45],
"lon": [0, 180]
},
)
a0.lat.attrs["units"] = "degrees_north"
a0.lon.attrs["units"] = "degrees_east"
a0 = a0.astype("f4")
grid = identify_grid(a0)
weights = cdo_generate_weights(a0, grid)
r = regrid(a0, weights=weights)
assert r is not None
