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test_coding.py
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from __future__ import annotations
from contextlib import suppress
import numpy as np
import pandas as pd
import pytest
import xarray as xr
from xarray.coding import variables
from xarray.conventions import decode_cf_variable, encode_cf_variable
from xarray.tests import assert_allclose, assert_equal, assert_identical, requires_dask
with suppress(ImportError):
import dask.array as da
def test_CFMaskCoder_decode() -> None:
original = xr.Variable(("x",), [0, -1, 1], {"_FillValue": -1})
expected = xr.Variable(("x",), [0, np.nan, 1])
coder = variables.CFMaskCoder()
encoded = coder.decode(original)
assert_identical(expected, encoded)
encoding_with_dtype = {
"dtype": np.dtype("float64"),
"_FillValue": np.float32(1e20),
"missing_value": np.float64(1e20),
}
encoding_without_dtype = {
"_FillValue": np.float32(1e20),
"missing_value": np.float64(1e20),
}
CFMASKCODER_ENCODE_DTYPE_CONFLICT_TESTS = {
"numeric-with-dtype": ([0.0, -1.0, 1.0], encoding_with_dtype),
"numeric-without-dtype": ([0.0, -1.0, 1.0], encoding_without_dtype),
"times-with-dtype": (pd.date_range("2000", periods=3), encoding_with_dtype),
}
@pytest.mark.parametrize(
("data", "encoding"),
CFMASKCODER_ENCODE_DTYPE_CONFLICT_TESTS.values(),
ids=list(CFMASKCODER_ENCODE_DTYPE_CONFLICT_TESTS.keys()),
)
def test_CFMaskCoder_encode_missing_fill_values_conflict(data, encoding) -> None:
original = xr.Variable(("x",), data, encoding=encoding)
encoded = encode_cf_variable(original)
assert encoded.dtype == encoded.attrs["missing_value"].dtype
assert encoded.dtype == encoded.attrs["_FillValue"].dtype
roundtripped = decode_cf_variable("foo", encoded)
assert_identical(roundtripped, original)
def test_CFMaskCoder_missing_value() -> None:
expected = xr.DataArray(
np.array([[26915, 27755, -9999, 27705], [25595, -9999, 28315, -9999]]),
dims=["npts", "ntimes"],
name="tmpk",
)
expected.attrs["missing_value"] = -9999
decoded = xr.decode_cf(expected.to_dataset())
encoded, _ = xr.conventions.cf_encoder(decoded.variables, decoded.attrs)
assert_equal(encoded["tmpk"], expected.variable)
decoded.tmpk.encoding["_FillValue"] = -9940
with pytest.raises(ValueError):
encoded, _ = xr.conventions.cf_encoder(decoded.variables, decoded.attrs)
@requires_dask
def test_CFMaskCoder_decode_dask() -> None:
original = xr.Variable(("x",), [0, -1, 1], {"_FillValue": -1}).chunk()
expected = xr.Variable(("x",), [0, np.nan, 1])
coder = variables.CFMaskCoder()
encoded = coder.decode(original)
assert isinstance(encoded.data, da.Array)
assert_identical(expected, encoded)
# TODO(shoyer): port other fill-value tests
# TODO(shoyer): parameterize when we have more coders
def test_coder_roundtrip() -> None:
original = xr.Variable(("x",), [0.0, np.nan, 1.0])
coder = variables.CFMaskCoder()
roundtripped = coder.decode(coder.encode(original))
assert_identical(original, roundtripped)
@pytest.mark.parametrize("dtype", ["u1", "u2", "i1", "i2", "f2", "f4"])
@pytest.mark.parametrize("dtype2", ["f4", "f8"])
def test_scaling_converts_to_float(dtype: str, dtype2: str) -> None:
dt = np.dtype(dtype2)
original = xr.Variable(
("x",), np.arange(10, dtype=dtype), encoding=dict(scale_factor=dt.type(10))
)
coder = variables.CFScaleOffsetCoder()
encoded = coder.encode(original)
assert encoded.dtype == dt
roundtripped = coder.decode(encoded)
assert_identical(original, roundtripped)
assert roundtripped.dtype == dt
@pytest.mark.parametrize("scale_factor", (10, [10]))
@pytest.mark.parametrize("add_offset", (0.1, [0.1]))
def test_scaling_offset_as_list(scale_factor, add_offset) -> None:
# test for #4631
encoding = dict(scale_factor=scale_factor, add_offset=add_offset)
original = xr.Variable(("x",), np.arange(10.0), encoding=encoding)
coder = variables.CFScaleOffsetCoder()
encoded = coder.encode(original)
roundtripped = coder.decode(encoded)
assert_allclose(original, roundtripped)
@pytest.mark.parametrize("bits", [1, 2, 4, 8])
def test_decode_unsigned_from_signed(bits) -> None:
unsigned_dtype = np.dtype(f"u{bits}")
signed_dtype = np.dtype(f"i{bits}")
original_values = np.array([np.iinfo(unsigned_dtype).max], dtype=unsigned_dtype)
encoded = xr.Variable(
("x",), original_values.astype(signed_dtype), attrs={"_Unsigned": "true"}
)
coder = variables.CFMaskCoder()
decoded = coder.decode(encoded)
assert decoded.dtype == unsigned_dtype
assert decoded.values == original_values
@pytest.mark.parametrize("bits", [1, 2, 4, 8])
def test_decode_signed_from_unsigned(bits) -> None:
unsigned_dtype = np.dtype(f"u{bits}")
signed_dtype = np.dtype(f"i{bits}")
original_values = np.array([-1], dtype=signed_dtype)
encoded = xr.Variable(
("x",), original_values.astype(unsigned_dtype), attrs={"_Unsigned": "false"}
)
coder = variables.CFMaskCoder()
decoded = coder.decode(encoded)
assert decoded.dtype == signed_dtype
assert decoded.values == original_values