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I've got a ndarray of floating point values in numpy and I want to find the unique values of this array. Of course, this has problems because of floating point I want to be able to set a delta value to use for the comparisons when working out which elements are unique.

Is there a way to do this? At the moment I am simply doing:


Which gives me something like:

array([       -Inf,  0.62962963,  0.62962963,  0.62962963,  0.62962963,

where the values that look the same (to the number of decimal places being displayed) are obviously slightly different.

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up vote 3 down vote accepted

Doesn't floor and round both fail the OP's requirement in some cases?

np.floor([5.99999999, 6.0]) # array([ 5.,  6.])
np.round([6.50000001, 6.5], 0) #array([ 7.,  6.])

The way I would do it is (and this may not be optimal (and is surely slower than other answers)) something like this:

import numpy as np
TOL = 1.0e-3
a = np.random.random((10,10))
i = np.argsort(a.flat)
d = np.diff(a.flat[i])
result = a.flat[i[d>TOL]]

Of course this method will exclude all but the largest member of a run of values that come within the tolerance of any other value, which means you may not find any unique values in an array if all values are significantly close even though the max-min is larger than the tolerance.

Here is essentially the same algorithm, but easier to understand and should be faster as it avoids an indexing step:

a = np.random.random((10,))
b = a.copy()
d = np.diff(b)
result = b[d>TOL]

The OP may also want to look into scipy.cluster (for a fancy version of this method) or numpy.digitize (for a fancy version of the other two methods)

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I like the idea in principle, but that last caveat seems like an even larger divergence from the OP's requirements. – JoshAdel Mar 25 '11 at 12:35
@JoshAdel: I have to assume the OP's data is naturally clustered (by the example, they seem very tightly clustered around certain values) or else the request doesn't have much meaning. Assuming that, digitizing the OP's data at arbitrary thresholds (that could split the clusters) seems to do more harm than good. – Paul Mar 25 '11 at 14:30
What would be useful is the ability to do fixed point precision truncation. I have a way in mind to solve this correctly (albeit in a slower way), but I won't be able to post it until later. – JoshAdel Mar 25 '11 at 14:54
Ok, posted an updated solution – JoshAdel Mar 25 '11 at 15:52

Another possibility is to just round to the nearest desirable tolerance:


where a is your original array.

Edit: Just to note that my solution and @unutbu's are nearly identical speed-wise (mine is maybe 5% faster) according to my timings, so either is a good solution.

Edit #2: This is meant to address Paul's concern. It is definitely slower and there may be some optimizations one can make, but I'm posting it as-is to demonstrate the stratgey:

def eclose(a,b,rtol=1.0000000000000001e-05, atol=1e-08):
    return np.abs(a - b) <= (atol + rtol * np.abs(b))

x = np.array([6.4,6.500000001, 6.5,6.51])
y = x.flat.copy()
ci = 0

U = np.empty((0,),dtype=y.dtype)

while ci < y.size:
    ii = eclose(y[ci],y)
    mi = np.max(ii.nonzero())
    U = np.concatenate((U,[y[mi]])) 
    ci = mi + 1

print U

This should be decently fast if there are many repeated values within the precision range, but if many of the values are unique, then this is going to be slow. Also, it may be better to set U up as a list and append through the while loop, but that falls under 'further optimization'.

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+1: Rounding will correctly unify some corner cases where flooring may fail, and it is faster. – unutbu Mar 25 '11 at 4:15

How about something like


where x is your original array.

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just to note that np.unique1d is deprecated in version 1.4 and will be removed in 1.5. – JoshAdel Mar 25 '11 at 0:19
@JoshAdel: Thanks for the heads-up. – unutbu Mar 25 '11 at 4:16
I actually may have those versions slightly wrong, but it's definitely not in the newest documentation. np.unique is recommended in its place. – JoshAdel Mar 25 '11 at 4:20

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