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Is there a Pythonic and efficient way to check whether a Numpy array contains at least one instance of a given row? By "efficient" I mean it terminates upon finding the first matching row rather than iterating over the entire array even if a result has already been found.

With Python arrays this can be accomplished very cleanly with if row in array:, but this does not work as I would expect for Numpy arrays, as illustrated below.

With Python arrays:

>>> a = [[1,2],[10,20],[100,200]]
>>> [1,2] in a
True
>>> [1,20] in a
False

but Numpy arrays give different and rather odd-looking results. (The __contains__ method of ndarray seems to be undocumented.)

>>> a = np.array([[1,2],[10,20],[100,200]])
>>> np.array([1,2]) in a
True
>>> np.array([1,20]) in a
True
>>> np.array([1,42]) in a
True
>>> np.array([42,1]) in a
False
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You are wishing for the impossible. Numpy does currently not provide anything that will stop when finding the first one. However, if you do this more then a few times sort based approaches are much more efficient anyway. As to the behaviour of __contains__ I would almost say it is a bug (i.e. it works fine for scalars, but arrays are a bit weird, though internally it is just tom10 said anyway) –  seberg Feb 8 '13 at 9:44
    
@seberg are you sure that no solution exists? If so then that is the answer to my question, so please post it and if I'm convinced I will accept it. Also if you could explain what you mean by "sort based approaches" it would be helpful. My array is in fact sorted so that the most commonly searched-for rows tend to be near the top, if that's what you mean - but this is no use unless the query method stops once it finds a match. –  Nathaniel Feb 8 '13 at 10:06
    
@seberg if __collect__ was doing what tom10 said then the last input line quoted in my question would return True, no? –  Nathaniel Feb 8 '13 at 10:06

4 Answers 4

up vote 7 down vote accepted

Numpys __contains__ is at the time of writing this (a == b).any() which is arguably only correct if b is a scalar (it is a bit hairy, but I believe – works like this only in 1.7. or later – this would be the right general method (a == b).all(np.arange(a.ndim - b.ndim, a.ndim)).any(), which makes sense for all combinations of a and b dimensionality)...

EDIT: Just to be clear, this is not necessarily the expected result when broadcasting is involved. Also someone might argue that it should handle the items in a separately as np.in1d does. I am not sure there is one clear way it should work.

Now you want numpy to stop when it finds the first occurrence. This AFAIK does not exist at this time. It is difficult because numpy is based mostly on ufuncs, which do the same thing over the whole array. Numpy does optimize these kind of reductions, but effectively that only works when the array being reduced is already a boolean array (i.e. np.ones(10, dtype=bool).any()).

Otherwise it would need a special function for __contains__ which does not exist. That may seem odd, but you have to remember that numpy supports many data types and has a bigger machinery to select the correct ones and select the correct function to work on it. So in other words, the ufunc machinery cannot do it, and implementing __contains__ or such specially is not actually that trivial because of data types.

You can of course write it in python, or since you probably know your data type, writing it yourself in Cython/C is very simple.


That said. Often it is much better anyway to use sorting based approach for these things. That is a little tedious as well as there is no such thing as searchsorted for a lexsort, but it works (you could also abuse scipy.spatial.cKDTree if you like). This assumes you want to compare along the last axis only:

# Unfortunatly you need to use structured arrays:
sorted = np.ascontiguousarray(a).view([('', a.dtype)] * a.shape[-1]).ravel()

# Actually at this point, you can also use np.in1d, if you already have many b
# then that is even better.

sorted.sort()

b_comp = np.ascontiguousarray(b).view(sorted.dtype)
ind = sorted.searchsorted(b_comp)

result = sorted[ind] == b_comp

This works also for an array b, and if you keep the sorted array around, is also much better if you do it for a single value (row) in b at a time, when a stays the same (otherwise I would just np.in1d after viewing it as a recarray). Important: you must do the np.ascontiguousarray for safety. It will typically do nothing, but if it does, it would be a big potential bug otherwise.

share|improve this answer
    
Thanks, this is helpful. I will wait a few days in case anyone knows of some special clever solution and will accept this answer if not. (Evidently I was just being a bit dense about what (a==b).any() would return.) –  Nathaniel Feb 8 '13 at 13:01
    
@Nathaniel I think you forgot your promise :P –  askewchan Sep 30 '13 at 20:41

You can use .tolist()

>>> a = np.array([[1,2],[10,20],[100,200]])
>>> [1,2] in a.tolist()
True
>>> [1,20] in a.tolist()
False
>>> [1,20] in a.tolist()
False
>>> [1,42] in a.tolist()
False
>>> [42,1] in a.tolist()
False

Or use a view:

>>> any((a[:]==[1,2]).all(1))
True
>>> any((a[:]==[1,20]).all(1))
False

Or generate over the numpy list (potentially VERY SLOW):

any(([1,2] == x).all() for x in a)     # stops on first occurrence 

Or use numpy logic functions:

any(np.equal(a,[1,2]).all(1))

If you time these:

import numpy as np
import time

n=300000
a=np.arange(n*3).reshape(n,3)
b=a.tolist()

t1,t2,t3=a[n//100][0],a[n//2][0],a[-10][0]

tests=[ ('early hit',[t1, t1+1, t1+2]),
        ('middle hit',[t2,t2+1,t2+2]),
        ('late hit', [t3,t3+1,t3+2]),
        ('miss',[0,2,0])]

fmt='\t{:20}{:.5f} seconds and is {}'     

for test, tgt in tests:
    print('\n{}: {} in {:,} elements:'.format(test,tgt,n))

    name='view'
    t1=time.time()
    result=(a[...]==tgt).all(1).any()
    t2=time.time()
    print(fmt.format(name,t2-t1,result))

    name='python list'
    t1=time.time()
    result = True if tgt in b else False
    t2=time.time()
    print(fmt.format(name,t2-t1,result))

    name='gen over numpy'
    t1=time.time()
    result=any((tgt == x).all() for x in a)
    t2=time.time()
    print(fmt.format(name,t2-t1,result))

    name='logic equal'
    t1=time.time()
    np.equal(a,tgt).all(1).any()
    t2=time.time()
    print(fmt.format(name,t2-t1,result))

You can see that hit or miss, the numpy routines are the same speed to search the array. The Python in operator is potentially a lot faster for an early hit, and the generator is just bad news if you have to go all the way through the array.

Here are the results for 300,000 x 3 element array:

early hit: [9000, 9001, 9002] in 300,000 elements:
    view                0.01002 seconds and is True
    python list         0.00305 seconds and is True
    gen over numpy      0.06470 seconds and is True
    logic equal         0.00909 seconds and is True

middle hit: [450000, 450001, 450002] in 300,000 elements:
    view                0.00915 seconds and is True
    python list         0.15458 seconds and is True
    gen over numpy      3.24386 seconds and is True
    logic equal         0.00937 seconds and is True

late hit: [899970, 899971, 899972] in 300,000 elements:
    view                0.00936 seconds and is True
    python list         0.30604 seconds and is True
    gen over numpy      6.47660 seconds and is True
    logic equal         0.00965 seconds and is True

miss: [0, 2, 0] in 300,000 elements:
    view                0.00936 seconds and is False
    python list         0.01287 seconds and is False
    gen over numpy      6.49190 seconds and is False
    logic equal         0.00965 seconds and is False

And for 3,000,000 x 3 array:

early hit: [90000, 90001, 90002] in 3,000,000 elements:
    view                0.10128 seconds and is True
    python list         0.02982 seconds and is True
    gen over numpy      0.66057 seconds and is True
    logic equal         0.09128 seconds and is True

middle hit: [4500000, 4500001, 4500002] in 3,000,000 elements:
    view                0.09331 seconds and is True
    python list         1.48180 seconds and is True
    gen over numpy      32.69874 seconds and is True
    logic equal         0.09438 seconds and is True

late hit: [8999970, 8999971, 8999972] in 3,000,000 elements:
    view                0.09868 seconds and is True
    python list         3.01236 seconds and is True
    gen over numpy      65.15087 seconds and is True
    logic equal         0.09591 seconds and is True

miss: [0, 2, 0] in 3,000,000 elements:
    view                0.09588 seconds and is False
    python list         0.12904 seconds and is False
    gen over numpy      64.46789 seconds and is False
    logic equal         0.09671 seconds and is False

Which seems to indicate that np.equal is the fastest pure numpy way to do this...

share|improve this answer
1  
Thanks, but I was looking for an implementation that will terminate after finding the first matching row, rather than iterating over the whole array as tolist does. The first version of the question was unclear about this; I've edited it. –  Nathaniel Feb 8 '13 at 6:24
    
Does the view method evaluate lazily? I suspect that calling .all on the view will create a whole new array, but I don't know how to find out. –  Nathaniel Feb 8 '13 at 6:33
1  
A few points: 1) In "view", instead of a[:], I think you should use a[...]; 2) in "logic", I think you should use np.any and np.all instead of the python ones; 3) It would also be good to do a comparison for the False result, since that will be dramatically different for some of these cases (especially "gen"). +1, though, for an actual efficiency measure. –  tom10 Feb 8 '13 at 18:22
    
@tom10: Thanks! I incorporated your comments (I think) and expanded the timings. Hope this is of interest. –  Pyson Feb 8 '13 at 20:45
    
@Pyson many thanks for the update. I can see that in my use case np.equal will probably be faster than using a Python list, even though it doesn't get the bonus for terminating early. This is very useful to know. –  Nathaniel Feb 9 '13 at 2:15

I think

equal([1,2], a).all(axis=1)   # also,  ([1,2]==a).all(axis=1)
# array([ True, False, False], dtype=bool)

will list the rows that match. As Jamie points out, to know whether at least one such row exists, use any:

equal([1,2], a).all(axis=1).any()
# True

Aside:
I suspect in (and __contains__) is just as above but using any instead of all.

share|improve this answer
    
+1 Nice! You'll have to wrap it all up in np.any(...) to get a single membership boolean value, though. –  Jaime Feb 8 '13 at 5:48
    
Thanks. But this will iterate through the entire array and allocate a new array in memory containing the all the results, and only then check to see if it is empty. An efficient implementation would stop and return True as soon as it finds the first matching row. –  Nathaniel Feb 8 '13 at 6:13
    
I've edited the question to clarify what I meant by "efficient". –  Nathaniel Feb 8 '13 at 6:24

If you really want to stop at the first occurrence, you could write a loop, like:

import numpy as np

needle = np.array([10, 20])
haystack = np.array([[1,2],[10,20],[100,200]])
found = False
for row in haystack:
    if np.all(row == needle):
        found = True
        break
print("Found: ", found)

However, I strongly suspect, that it will be much slower than the other suggestions which use numpy routines to do it for the whole array.

share|improve this answer
1  
Yeah, that's what I was trying to avoid. It will be disappointing if it turns out that Numpy doesn't supply a built-in way of doing this. –  Nathaniel Feb 8 '13 at 10:12
    
Honestly, if you know that it is typically at the begging of the array, it is not a bad solution (and if needle is a large enough array, it is a good solution in any case). –  seberg Feb 8 '13 at 12:15

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