nums.numpy.allclose
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nums.numpy.allclose(a, b, rtol=1e-05, atol=1e-08, equal_nan=False)[source] Returns True if two arrays are element-wise equal within a tolerance.
This docstring was copied from numpy.allclose.
Some inconsistencies with the NumS version may exist.
The tolerance values are positive, typically very small numbers. The relative difference (rtol * abs(b)) and the absolute difference atol are added together to compare against the absolute difference between a and b.
NaNs are treated as equal if they are in the same place and if
equal_nan=True. Infs are treated as equal if they are in the same place and of the same sign in both arrays.- Parameters
a (BlockArray) – Input arrays to compare.
b (BlockArray) – Input arrays to compare.
rtol (float) – The relative tolerance parameter (see Notes).
atol (float) – The absolute tolerance parameter (see Notes).
equal_nan (bool) – 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
allclose – Returns True if the two arrays are equal within the given tolerance; False otherwise.
- Return type
bool
Notes
If the following equation is element-wise True, then allclose returns True.
absolute(a - b) <= (atol + rtol * absolute(b))
The above equation is not symmetric in a and b, so that
allclose(a, b)might be different fromallclose(b, a)in some rare cases.The comparison of a and b uses standard broadcasting, which means that a and b need not have the same shape in order for
allclose(a, b)to evaluate to True. The same is true for equal but not array_equal.equal_nan=True not supported.
Examples
The doctests shown below are copied from NumPy. They won’t show the correct result until you operate
get().>>> nps.allclose(nps.array([1e10,1e-7]), nps.array([1.00001e10,1e-8])).get() array(False) >>> nps.allclose(nps.array([1e10,1e-8]), nps.array([1.00001e10,1e-9])).get() array(True) >>> nps.allclose(nps.array([1e10,1e-8]), nps.array([1.0001e10,1e-9])).get() array(False) >>> nps.allclose(nps.array([1.0, nps.nan]), nps.array([1.0, nps.nan])).get() array(False)