xarray.testing.strategies.variables#
- xarray.testing.strategies.variables(*, array_strategy_fn=None, dims=None, dtype=one_of(one_of(one_of(integer_dtypes(), unsigned_integer_dtypes()), floating_dtypes()), complex_number_dtypes()), attrs=recursive(dictionaries(keys=text(alphabet=characters(max_codepoint=383, categories=['L', 'N']), max_size=5), values=one_of(one_of(one_of(none(), booleans()), text(alphabet=characters(max_codepoint=383, categories=['L', 'N']), max_size=5)), arrays(dtype=scalar_dtypes(), shape=array_shapes(max_dims=2, max_side=2)))), lambda children: ..., max_leaves=3))#
Generates arbitrary xarray.Variable objects.
Follows the basic signature of the xarray.Variable constructor, but allows passing alternative strategies to generate either numpy-like array data or dimensions. Also allows specifying the shape or dtype of the wrapped array up front.
Passing nothing will generate a completely arbitrary Variable (containing a numpy array).
Requires the hypothesis package to be installed.
- Parameters:
array_strategy_fn (
Callable which returns a strategy generating array-likes, optional) – Callable must only accept shape and dtype kwargs, and must generate results consistent with its input. If not passed the default is to generate a small numpy array with one of the supported_dtypes.dims (
Strategy for generating the dimensions, optional) – Can either be a strategy for generating a sequence of string dimension names, or a strategy for generating a mapping of string dimension names to integer lengths along each dimension. If provided as a mapping the array shape will be passed to array_strategy_fn. Default is to generate arbitrary dimension names for each axis in data.dtype (
Strategy which generates np.dtype objects, optional) – Will be passed in to array_strategy_fn. Default is to generate any scalar dtype using supported_dtypes. Be aware that this default set of dtypes includes some not strictly allowed by the array API standard.attrs (
Strategy which generates dicts, optional) – Default is to generate a nested attributes dictionary containing arbitrary strings, booleans, integers, Nones, and numpy arrays.
- Returns:
variable_strategy– Strategy for generating xarray.Variable objects.- Raises:
ValueError – If a custom array_strategy_fn returns a strategy which generates an example array inconsistent with the shape & dtype input passed to it.
Examples
Generate completely arbitrary Variable objects backed by a numpy array:
>>> variables().example() <xarray.Variable (żō: 3)> array([43506, -16, -151], dtype=int32) >>> variables().example() <xarray.Variable (eD: 4, ğŻżÂĕ: 2, T: 2)> array([[[-10000000., -10000000.], [-10000000., -10000000.]], [[-10000000., -10000000.], [ 0., -10000000.]], [[ 0., -10000000.], [-10000000., inf]], [[ -0., -10000000.], [-10000000., -0.]]], dtype=float32) Attributes: śřĴ: {'ĉ': {'iĥf': array([-30117, -1740], dtype=int16)}}
Generate only Variable objects with certain dimension names:
>>> variables(dims=st.just(["a", "b"])).example() <xarray.Variable (a: 5, b: 3)> array([[ 248, 4294967295, 4294967295], [2412855555, 3514117556, 4294967295], [ 111, 4294967295, 4294967295], [4294967295, 1084434988, 51688], [ 47714, 252, 11207]], dtype=uint32)
Generate only Variable objects with certain dimension names and lengths:
>>> variables(dims=st.just({"a": 2, "b": 1})).example() <xarray.Variable (a: 2, b: 1)> array([[-1.00000000e+007+3.40282347e+038j], [-2.75034266e-225+2.22507386e-311j]])
See also