# Numpy: For every element in one array, find the index in another array

I have two 1D arrays, x & y, one smaller than the other. I'm trying to find the index of every element of y in x.

I've found two naive ways to do this, the first is slow, and the second memory-intensive.

# The slow way

``````indices= []
for iy in y:
indices += np.where(x==iy)
``````

# The memory hog

``````xe = np.outer([1,]*len(x), y)
ye = np.outer(x, [1,]*len(y))
junk, indices = np.where(np.equal(xe, ye))
``````

Is there a faster way or less memory intensive approach? Ideally the search would take advantage of the fact that we are searching for not one thing in a list, but many things, and thus is slightly more amenable to parallelization. Bonus points if you don't assume that every element of y is actually in x.

I want to suggest one-line solution:

``````indices = np.where(np.in1d(x, y))
``````

The result is an array with indices for x array which corresponds to elements from y which were found in x.

One can use it without numpy.where if needs.

• This should be the chosen answer. It works even when values of x are repeated or non-existent. The answer involving searchsorted is complex, weird, unnatural. Jul 12, 2016 at 14:51
• Whilst this does return the indices of the elements in y that exist in x, the order of the returned indices does not match the order of the values in x. Consider: x=np.array([1,2,3,4,5]; y=np.array([5,4,3,2,1]). The above method returns array([0,1,2,3,4]), so x=1 is matched to y=5, which is not what is wanted... Aug 11, 2016 at 14:32
• in1d() solutions just do not work. Take y = np.array([10, 5, 5, 1, 'auto', 6, 'auto', 1, 5, 10, 10, 'auto']) and x = np.array(['auto', 5, 6, 10, 1]). You would expect [3, 1, 1, 4, 0, 2, 0, 4, 3, 3, 0]. np.where(np.in1d(x, y)) doesn't yield that. Sep 12, 2018 at 14:56
• This simply states whether the elements in x exists in y, and then gives the corresponding index in x. It does not give the corresponding index in y for each item in x. Nov 2, 2021 at 15:33

As Joe Kington said, searchsorted() can search element very quickly. To deal with elements that are not in x, you can check the searched result with original y, and create a masked array:

``````import numpy as np
x = np.array([3,5,7,1,9,8,6,6])
y = np.array([2,1,5,10,100,6])

index = np.argsort(x)
sorted_x = x[index]
sorted_index = np.searchsorted(sorted_x, y)

yindex = np.take(index, sorted_index, mode="clip")

print result
``````

the result is:

``````[-- 3 1 -- -- 6]
``````

It does assume that every element of y is in x, (and will return results even for elements that aren't!) but it is much faster.

``````import numpy as np

# Generate some example data...
x = np.arange(1000)
np.random.shuffle(x)
y = np.arange(100)

# Actually preform the operation...
xsorted = np.argsort(x)
ypos = np.searchsorted(x[xsorted], y)
indices = xsorted[ypos]
``````
• Fantastic. Much faster indeed. I'm including `assert na.all(na.intersect1d(x,y) == na.sort(y))` to restrict the input so that y is a subset of x. Thanks! Nov 24, 2011 at 3:06

I think this is a clearer version:

``````np.where(y.reshape(y.size, 1) == x)
``````

than `indices = np.where(y[:, None] == x[None, :])`. You don't need to broadcast x into 2D.

This type of solution I found to be best because unlike searchsorted() or in1d() based solutions that have seen posted here or elsewhere, the above works with duplicates and it doesn't care if anything is sorted. This was important to me because I wanted x to be in a particular custom order.

• Clearer does not mean less inefficient. Nov 10, 2021 at 21:41
• I guess you can make a further simplification `y.reshape(-1, 1)` Sep 19, 2022 at 14:08
• Actually `np.where(y[:, None] == x)` is enough. Mar 20 at 3:21

I would just do this:

``````indices = np.where(y[:, None] == x[None, :])
``````

Unlike your memory-hog way, this makes use of broadcast to directly generate 2D boolean array without creating 2D arrays for both x and y.

• For the record, this hogs the memory as well. Jun 26, 2017 at 2:43
• Yes, what I meant is it is less memory-hogging. I think my version is a good compromise in keeping the code clean while taking up less memory. Aug 11, 2017 at 1:23
• This approach clocks in at 1000x slower than the accepted answer. Jan 25, 2020 at 5:57

The numpy_indexed package (disclaimer: I am its author) contains a function that does exactly this:

``````import numpy_indexed as npi
``````

It will currently raise a KeyError if not all elements in y are present in x; but perhaps I should add a kwarg so that one can elect to mark such items with a -1 or something.

It should have the same efficiency as the currently accepted answer, since the implementation is along similar lines. numpy_indexed is however more flexible, and also allows to search for indices of rows of multidimensional arrays, for instance.

EDIT: ive changed the handling of missing values; the 'missing' kwarg can now be set with 'raise', 'ignore' or 'mask'. In the latter case you get a masked array of the same length of y, on which you can call .compressed() to get the valid indices. Note that there is also npi.contains(x, y) if this is all you need to know.

Another solution would be:

``````a = np.array(['Bob', 'Alice', 'John', 'Jack', 'Brian', 'Dylan',])
z = ['Bob', 'Brian', 'John']
for i in z:
print(np.argwhere(i==a))
``````

Use this line of code :-

indices = np.where(y[:, None] == x[None, :])

My solution can additionally handle a multidimensional x. By default, it will return a standard numpy array of corresponding y indices in the shape of x.

If you can't assume that y is a subset of x, then set `masked=True` to return a masked array (this has a performance penalty). Otherwise, you will still get indices for elements not contained in y, but they probably won't be useful to you.

The answers by HYRY and Joe Kington were helpful in making this.

``````# For each element of ndarray x, return index of corresponding element in 1d array y
# If y contains duplicates, the index of the last duplicate is returned
# Optionally, mask indices where the x element does not exist in y

# Flattened x
x_flat = x.ravel()

# Indices to sort y
y_argsort = y.argsort()

# Indices in sorted y of corresponding x elements, flat
x_in_y_sort_flat = y.searchsorted(x_flat, sorter=y_argsort)

# Indices in y of corresponding x elements, flat
x_in_y_flat = y_argsort[x_in_y_sort_flat]

# Reshape to shape of x
return x_in_y_flat.reshape(x.shape)

else:
# Check for inequality at each y index to mask invalid indices
# Reshape to shape of x
``````

A more direct solution, that doesn't expect the array to be sorted.

``````import pandas as pd
A = pd.Series(['amsterdam', 'delhi', 'chromepet', 'tokyo', 'others'])
B = pd.Series(['chromepet', 'tokyo', 'tokyo', 'delhi', 'others'])

# Find index position of B's items in A
B.map(lambda x: np.where(A==x)).tolist()
``````

Result is:

``````[2, 3, 3, 1, 4]
``````

more compact solution:

``````indices, = np.in1d(a, b).nonzero()
``````