method
ma.masked_array.
mini
Return the array minimum along the specified axis.
Deprecated since version 1.13.0: This function is identical to both:
self.min(keepdims=True, axis=axis).squeeze(axis=axis) np.ma.minimum.reduce(self, axis=axis)
self.min(keepdims=True, axis=axis).squeeze(axis=axis)
np.ma.minimum.reduce(self, axis=axis)
Typically though, self.min(axis=axis) is sufficient.
self.min(axis=axis)
The axis along which to find the minima. Default is None, in which case the minimum value in the whole array is returned.
If axis is None, the result is a scalar. Otherwise, if axis is given and the array is at least 2-D, the result is a masked array with dimension one smaller than the array on which mini is called.
Examples
>>> x = np.ma.array(np.arange(6), mask=[0 ,1, 0, 0, 0 ,1]).reshape(3, 2) >>> x masked_array( data=[[0, --], [2, 3], [4, --]], mask=[[False, True], [False, False], [False, True]], fill_value=999999) >>> x.mini() masked_array(data=0, mask=False, fill_value=999999) >>> x.mini(axis=0) masked_array(data=[0, 3], mask=[False, False], fill_value=999999) >>> x.mini(axis=1) masked_array(data=[0, 2, 4], mask=[False, False, False], fill_value=999999)
There is a small difference between mini and min:
min
>>> x[:,1].mini(axis=0) masked_array(data=3, mask=False, fill_value=999999) >>> x[:,1].min(axis=0) 3