isclose(arr1, arr2, rtol=1e-05, atol=1e-08, equal_nan=False)
This docstring was copied from numpy.isclose.
Some inconsistencies with the Dask version may exist.
The tolerance values are positive, typically very small numbers. The relative difference (:None:None:`rtol`
* abs(b
)) and the absolute difference :None:None:`atol`
are added together to compare against the absolute difference between a
and b
.
that are much smaller than one (see Notes).
For finite values, isclose uses the following equation to test whether two floating point values are equivalent.
absolute(
a
-b
) <= (:None:None:`atol`
+:None:None:`rtol`
* absolute(b
))
Unlike the built-in math.isclose
, the above equation is not symmetric in a
and b
-- it assumes b
is the reference value -- so that :None:None:`isclose(a, b)`
might be different from :None:None:`isclose(b, a)`
. Furthermore, the default value of atol is not zero, and is used to determine what small values should be considered close to zero. The default value is appropriate for expected values of order unity: if the expected values are significantly smaller than one, it can result in false positives. :None:None:`atol`
should be carefully selected for the use case at hand. A zero value for :None:None:`atol`
will result in :None:None:`False`
if either a
or b
is zero.
isclose
is not defined for non-numeric data types. :None:None:`bool`
is considered a numeric data-type for this purpose.
Input arrays to compare.
The relative tolerance parameter (see Notes).
The absolute tolerance parameter (see Notes).
Whether to compare NaN's as equal. If True, NaN's in a
will be considered equal to NaN's in b
in the output array.
Returns a boolean array of where a
and b
are equal within the given tolerance. If both a
and b
are scalars, returns a single boolean value.
Returns a boolean array where two arrays are element-wise equal within a tolerance.
>>> np.isclose([1e10,1e-7], [1.00001e10,1e-8]) # doctest: +SKIP array([ True, False])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e10,1e-8], [1.00001e10,1e-9]) # doctest: +SKIP array([ True, True])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e10,1e-8], [1.0001e10,1e-9]) # doctest: +SKIP array([False, True])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1.0, np.nan], [1.0, np.nan]) # doctest: +SKIP array([ True, False])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1.0, np.nan], [1.0, np.nan], equal_nan=True) # doctest: +SKIP array([ True, True])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e-8, 1e-7], [0.0, 0.0]) # doctest: +SKIP array([ True, False])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e-100, 1e-7], [0.0, 0.0], atol=0.0) # doctest: +SKIP array([False, False])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e-10, 1e-10], [1e-20, 0.0]) # doctest: +SKIP array([ True, True])This example is valid syntax, but we were not able to check execution
>>> np.isclose([1e-10, 1e-10], [1e-20, 0.999999e-10], atol=0.0) # doctest: +SKIP array([False, True])See :
The following pages refer to to this document either explicitly or contain code examples using this.
dask.array.ma.masked_values
dask.array.routines.allclose
dask.array.routines.isclose
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