xarray.ufuncs.minimum¶
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xarray.ufuncs.
minimum
= <xarray.ufuncs._UFuncDispatcher object>¶ xarray specific variant of numpy.minimum. Handles xarray.Dataset, xarray.DataArray, xarray.Variable, numpy.ndarray and dask.array.Array objects with automatic dispatching.
Documentation from numpy:
minimum(x1, x2[, out])
Element-wise minimum of array elements.
Compare two arrays and returns a new array containing the element-wise minima. If one of the elements being compared is a NaN, then that element is returned. If both elements are NaNs then the first is returned. The latter distinction is important for complex NaNs, which are defined as at least one of the real or imaginary parts being a NaN. The net effect is that NaNs are propagated.
Parameters: x1, x2 : array_like
The arrays holding the elements to be compared. They must have the same shape, or shapes that can be broadcast to a single shape.
Returns: y : ndarray or scalar
The minimum of x1 and x2, element-wise. Returns scalar if both x1 and x2 are scalars.
See also
maximum
- Element-wise maximum of two arrays, propagates NaNs.
fmin
- Element-wise minimum of two arrays, ignores NaNs.
amin
- The minimum value of an array along a given axis, propagates NaNs.
nanmin
- The minimum value of an array along a given axis, ignores NaNs.
fmax
,amax
,nanmax
Notes
The minimum is equivalent to
np.where(x1 <= x2, x1, x2)
when neither x1 nor x2 are NaNs, but it is faster and does proper broadcasting.Examples
>>> np.minimum([2, 3, 4], [1, 5, 2]) array([1, 3, 2])
>>> np.minimum(np.eye(2), [0.5, 2]) # broadcasting array([[ 0.5, 0. ], [ 0. , 1. ]])
>>> np.minimum([np.nan, 0, np.nan],[0, np.nan, np.nan]) array([ NaN, NaN, NaN]) >>> np.minimum(-np.Inf, 1) -inf