^{There are two answers (1, 2) that include benchmark but for some reason, neither of them include list.index() into their benchmark, even though it was suggested in the accepted answer that was posted at least 2 years before these answers.}

`list.index()`

is the fastest option given on this page, including `enumerate`

(all versions that involve it), `__getitem__`

and `numpy.argmin`

.

Moreover, if the list has a non-unique minimum value and you want to get all indices where the minimum value occurs, `list.index`

in a while-loop outperforms other options such as numpy and `enumerate`

as well. Note that you can limit its search to begin from a particular index by passing the starting point (which is the second argument to `list.index`

), which is crucial for performance because we don't want to search from the beginning in every iteration of the while-loop.

```
# get the index of the minimum value
my_list = [1, 2, 0, 1]
idxmin = my_list.index(min(my_list))
print(idxmin) # 2
# get all indices where the min value occurs
my_list = [1, 2, 3, 1]
idxmins = []
min_val = min(my_list)
pos = -1
while True:
try:
pos = my_list.index(min_val, pos+1)
# ^^^^^ <---- pick up where we left off in the previous iteration
idxmins.append(pos)
except ValueError:
break
print(idxmins) # [0, 3]
```

The following benchmarks (performed on Python 3.11.4 and numpy 1.25.2) show that `list.index`

is almost twice as fast as all other options no matter the length of the list. The left graph also shows that `getitem`

performs the same as `enumerate`

(and `numpy.argmin`

) for long lists, which shows that gg349 and Nico's benchmarks are outdated.

The right graph shows that if the minimum value is non-unique and we want to find all indices of the minimum value, then `list.index`

in a while loop as outlined above performs so much better than competing options involving `enumerate`

or numpy, especially for long lists.

The code used to produce the figure above:

```
from operator import itemgetter
import numpy as np
import matplotlib.pyplot as plt
import perfplot
def enumerate_1(a):
return min(enumerate(a), key=itemgetter(1))[0]
def np_argmin_1(a):
return np.argmin(a)
def getitem(a):
return min(range(len(a)), key=a.__getitem__)
def list_index_1(a):
return a.index(min(a))
def enumerate_2(a):
min_val = min(a)
return [i for i, v in enumerate(a) if v == min_val]
def np_argmin_2(a):
arr = np.array(a)
return np.arange(len(a))[arr==arr.min()]
def list_index_2(a):
result = []
min_val = min(a)
pos = -1
while True:
try:
pos = a.index(min_val, pos+1)
result.append(pos)
except ValueError:
break
return result
kernels_list = [[enumerate_1, list_index_1, np_argmin_1, getitem],
[enumerate_2, list_index_2, np_argmin_2]]
n_range = [2**k for k in range(1, 20)]
su = lambda n: list(range(n, 0, -1))
titles = ['Get index of a unique min value',
'Get indices of a non-unique min value']
labels = ['enumerate', 'list_index', 'np_argmin', 'getitem']
xlabel = 'List length'
fig, axs = plt.subplots(1, 2, figsize=(12, 5), facecolor='white', dpi=60)
for ax, ks, t in zip(axs, kernels_list, titles):
plt.sca(ax)
perfplot.plot(ks, n_range, su, None, labels, xlabel, t, relative_to=1)
ax.xaxis.set_tick_params(labelsize=13)
plt.setp(axs, ylim=(0, 5), yticks=range(1, 6),
xlim=(1, 1100000), xscale='log', xticks=[1, 100, 10000, 1000000]);
fig.tight_layout();
fig.savefig('benchmark.png', dpi=60);
```

`divmod`

exists to prevent having to say`[i / 3, i % 3]`

much.