Pandas groupby "ngroup" function tags each group in "group" order.

I'm looking for similar behaviour but need the assigned tags to be in original (index) order, how can I do so efficiently (this will happen often with large arrays) in pandas and numpy?

> df = pd.DataFrame(
          {"A": [9,8,7,8,9]},
a  9
b  8
c  7
d  8
e  9
> df.groupby("A").ngroup()
a    2
b    1
c    0
d    1
e    2

# LOOKING FOR ###################
a    0
b    1
c    2
d    1
e    0

How can I achieve the desired output with a single dimension numpy array?

arr = np.array([9,8,7,8 ,9])
# looking for [0,1,2,1,0]

4 Answers 4


Perhaps a better way is factorize:



array([0, 1, 2, 1, 0])
  • 1
    This approach works well for numpy arrays: pd.factorize(arr)[0] -> array([0, 1, 2, 1, 0], dtype=int64)
    – Craig
    Sep 21, 2020 at 3:16
  • awesome! guys any idea how this can be done with numpy (without the pandas dependency)?
    – Amir
    Sep 21, 2020 at 3:21

You can use np.unique -

In [105]: a = np.array([9,8,7,8,9])

In [106]: u,idx,tags = np.unique(a, return_index=True, return_inverse=True)

In [107]: idx.argsort().argsort()[tags]
Out[107]: array([0, 1, 2, 1, 0])
  • if a = np.array([12,10,11,12]) , using above we get (1,2,0,1) rather than the desired (0,1,2,0)
    – Amir
    Sep 21, 2020 at 17:06
  • simply idx[tags] wont help either, a = np.array([12,10,10,11]) we get (0,1,1,3) rather than the desired (0,1,1,2)
    – Amir
    Sep 21, 2020 at 17:16
  • @Amir Needed one more there. Check out edited solution.
    – Divakar
    Sep 21, 2020 at 17:42

You can pass sort=Flase to groupby():

df.groupby('A', sort=False).ngroup()

a    0
b    1
c    2
d    1
e    0
dtype: int64

As far as I can tell, there isn't a direct equivalent of groupby in numpy. For a pure numpy version, you can use numpy.unique() to get the unique values. numpy.unique() has the option to return the inverse, basically the array of indices that would recreate your input array, but it sorts the unique values first, so the result is the same as using the regular (sorted) pandas.groupby() command.

To get around this, you can capture the index values of the first occurrence of each unique value. Sort the index values and use these as indices into the original array to get the unique values in their original order. Create a dictionary to map between the unique values and the group numbers and then use that dictionary to convert the values in the array to the appropriate group numbers.

import numpy as np

arr = np.array([9, 8, 7, 8, 9])

_, i = np.unique(arr, return_index=True)  # get the indexes of the first occurence of each unique value
groups = arr[np.sort(i)]  # sort the indexes and retrieve the values from the array so that they are in the array order
m = {value:ngroup for ngroup, value in enumerate(groups)}  # create a mapping of value:groupnumber
np.vectorize(m.get)(arr)  # use vectorize to create a new array using m

array([0, 1, 2, 1, 0])
  • While the factorize method in @Quang's answer is much quicker, this too can be very useful when grouping multiple columns (i.e df.groupby(["A", "B"], sort=False) ...)
    – Amir
    Sep 21, 2020 at 3:19
  • @Amir - please see my updated answer for a pure numpy solution.
    – Craig
    Sep 21, 2020 at 4:41

I've benchmarked the suggested solutions:

enter image description here

Turns out that:
factorize is the fastest for array sizes > 10³
unique-argsort is the fastest for array sizes < 10³ (but slower by a factor of 10 for larger ones),
ngroup is always slower, but for array sizes >3*10³ it has roughly the same speed as factorize.

from contextlib import contextmanager
from time import perf_counter as clock
from itertools import count
import numpy as np
import pandas as pd

def f1(a):
    return s.factorize()[0]

def f2(s):
    return s.groupby(s, sort=False).ngroup().values

def f3(s):
    u, idx, tags = np.unique(s.values, return_index=True, return_inverse=True)
    return idx.argsort().argsort()[tags]

def bench(r):
    t1 = clock()
    t2 = clock()

res = []
for i in count():
    n = 2**i
    a = np.random.randint(0, n, n)
    s = pd.Series(a)
    rr = []
    for j in range(5):
        r = []
        with bench(r):
            a1 = f1(s)
        with bench(r):
            a2 = f2(s)
        with bench(r):
            a3 = f3(s)
        if max(r) > 0.5:
    res.append(np.min(rr, axis=0))
    if np.max(rr) > 0.4:

np.save('results.npy', np.array(res))

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