# find nearest value in numpy array

is there a numpy-thonic way, e.g. function, to find the 'nearest value' in an array? example:

``````np.find_nearest( array, value )
``````
-

``````import numpy as np
def find_nearest(array,value):
idx = (np.abs(array-value)).argmin()
return array[idx]

array = np.random.random(10)
print(array)
# [ 0.21069679  0.61290182  0.63425412  0.84635244  0.91599191  0.00213826
#   0.17104965  0.56874386  0.57319379  0.28719469]

value = 0.5

print(find_nearest(array, value))
# 0.568743859261
``````
-
+1: Tidy answer :-) – Jon Cage Apr 2 '10 at 12:02
I would suggest the more direct `return np.abs(array-value).min()`. In fact, there is no need for any index, when the nearest element is what is looked for. – EOL Apr 2 '10 at 14:42
@EOL: `return np.abs(array-value).min()` gives the wrong answer. This gives you the min of the absolute value distance, and somehow we need to return the actual array value. We could add `value` and come close, but the absolute value throws a wrench into things... – unutbu Apr 2 '10 at 18:51
@~unutbu You're right, my bad. I can't think of anything better than your solution! – EOL Apr 3 '10 at 23:07
seems crazy there isn't a numpy built-in that does this. – dbliss Apr 8 at 19:32

With slight modification, the answer above works with arrays of arbitrary dimension (1d, 2d, 3d, ...):

``````def find_nearest(a, a0):
"Element in nd array `a` closest to the scalar value `a0`"
idx = np.abs(a - a0).argmin()
return a.flat[idx]
``````

Or, written as a single line:

``````a.flat[np.abs(a - a0).argmin()]
``````
-
The "flat" bit isn't necessary. `a[np.abs(a-a0).argmin)]` works fine. – Max Shron Dec 11 '13 at 14:20
Actually, that still only works for one dimension, since argmin() gives multiple results per column / dimension. Also I had a typo. This works, at least for 2 dimensions: `a[np.sum(np.square(np.abs(a-a0)),1).argmin()]`. – Max Shron Dec 11 '13 at 20:52
So, it does not work for higher dimensions, and the answer should be deleted (or modified to reflect this) – Hugues Fontenelle Jul 8 '14 at 11:57
Please provide an example where the proposed answer does no work. If you find one I will modify my answer. If you cannot find one then could you remove your comments? – kwgoodman Apr 9 at 17:12

IF your array is sorted and is very large, this is a much faster solution:

``````def find_nearest(array,value):
idx = np.searchsorted(array, value, side="left")
if math.fabs(value - array[idx-1]) < math.fabs(value - array[idx]):
return array[idx-1]
else:
return array[idx]
``````

This scales to very large arrays. You can easily modify the above to sort in the method if you can't assume that the array is already sorted. It’s overkill for small arrays, but once they get large this is much faster.

-
That sounds like the most reasonable solution. I wonder why it is so slow anyways. Plain `np.searchsorted` takes about 2 µs for my test set, the whole function about 10 µs. Using `np.abs` it's getting even worse. No clue what python is doing there. – Michael Feb 17 at 18:07
@Michael For single values, the Numpy math routines will be slower than the `math` routines, see this answer. – Demitri Feb 18 at 14:53

Here's an extension to find the nearest vector in an array of vectors.

``````import numpy as np

def find_nearest_vector(array, value):
idx = np.array([np.linalg.norm(x+y) for (x,y) in array-value]).argmin()
return array[idx]

A = np.random.random((10,2))*100
""" A = array([[ 34.19762933,  43.14534123],
[ 48.79558706,  47.79243283],
[ 38.42774411,  84.87155478],
[ 63.64371943,  50.7722317 ],
[ 73.56362857,  27.87895698],
[ 96.67790593,  77.76150486],
[ 68.86202147,  21.38735169],
[  5.21796467,  59.17051276],
[ 82.92389467,  99.90387851],
[  6.76626539,  30.50661753]])"""
pt = [6, 30]
print find_nearest_vector(A,pt)
# array([  6.76626539,  30.50661753])
``````
-
Exactly what I am looking for. – Nikhil Gupta Jul 7 at 18:36

Here's a version that will handle a non-scalar "values" array:

``````import numpy as np

def find_nearest(array, values):
indices = np.abs(np.subtract.outer(array, values)).argmin(0)
return array[index]
``````

Or a version that returns a numeric type (e.g. int, float) if the input is scalar:

``````def find_nearest(array, values):
values = np.atleast_1d(values)
indices = np.abs(np.subtract.outer(array, values)).argmin(0)
out = array[indices]
return out if len(out) > 1 else out[0]
``````
-
Good answer, I've never used the `outer` method of a ufunc before, I think I'll be using it more in the future. The first function should return `array[indices]`, by the way. – Widjet Nov 20 at 7:38

If you don't want to use numpy this will do it:

``````def find_nearest(array, value):
n = [abs(i-value) for i in array]
idx = n.index(min(n))
return array[idx]
``````
-

For large arrays, the (excellent) answer given by @Demitri is far faster than the answer currently marked as best. I've adapted his exact algorithm in the following two ways:

1. The function below works whether or not the input array is sorted.

2. The function below returns the index of the input array corresponding to the closest value, which is somewhat more general.

Note that the function below also handles a specific edge case that would lead to a bug in the original function written by @Demitri. Otherwise, my algorithm is identical to his.

``````def find_idx_nearest_val(array, value):
idx_sorted = np.argsort(array)
sorted_array = np.array(array[idx_sorted])
idx = np.searchsorted(sorted_array, value, side="left")
if idx >= len(array):
idx_nearest = idx_sorted[len(array)-1]
return idx_nearest
elif idx == 0:
idx_nearest = idx_sorted[0]
return idx_nearest
else:
if abs(value - sorted_array[idx-1]) < abs(value - sorted_array[idx]):
idx_nearest = idx_sorted[idx-1]
return idx_nearest
else:
idx_nearest = idx_sorted[idx]
return idx_nearest
``````
-
It's worth pointing out that this is a great example of how optimizing code tends to make it uglier and harder to read. The answer given by @unutbu should be (much) preferred in cases where speed is not a major concern, since it is far more transparent. – aph Apr 8 at 15:01
I don't see the answer given by @Michael. Is this an error or am I blind? – Fookatchu Apr 9 at 9:55
Nope, you're not blind, I'm just illiterate ;-) It was @Demitri whose answer I was riffing on. My bad. I just fixed my post. Thanks! – aph Apr 9 at 13:57

Here is a version with scipy for @Ari Onasafari, answer "to find the nearest vector in an array of vectors"

``````In [1]: from scipy import spatial

In [2]: import numpy as np

In [3]: A = np.random.random((10,2))*100

In [4]: A
Out[4]:
array([[ 68.83402637,  38.07632221],
[ 76.84704074,  24.9395109 ],
[ 16.26715795,  98.52763827],
[ 70.99411985,  67.31740151],
[ 71.72452181,  24.13516764],
[ 17.22707611,  20.65425362],
[ 43.85122458,  21.50624882],
[ 76.71987125,  44.95031274],
[ 63.77341073,  78.87417774],
[  8.45828909,  30.18426696]])

In [5]: pt = [6, 30]  # <-- the point to find

In [6]: A[spatial.KDTree(A).query(pt)[1]] # <-- the nearest point
Out[6]: array([  8.45828909,  30.18426696])

#how it works!
In [7]: distance,index = spatial.KDTree(A).query(pt)

In [8]: distance # <-- The distances to the nearest neighbors
Out[8]: 2.4651855048258393

In [9]: index # <-- The locations of the neighbors
Out[9]: 9

#then
In [10]: A[index]
Out[10]: array([  8.45828909,  30.18426696])
``````
-