It's been quite some time but it's a core part of the stdlib and has dozens of potential methods so I think it's useful to have some benchmarks for the different suggestions and include the numpy method which can be by far the fastest.

```
import random
from timeit import timeit
import numpy as np
l = [random.random() for i in range(10**4)]
l[10**4 - 100] = 5
# method 1
def fun1(l:list, x:int, e = -1) -> int:
return [[i for i,elem in enumerate(l) if elem == x] or [e]][0]
# method 2
def fun2(l:list, x:int, e = -1) -> int:
for i,elem in enumerate(l):
if elem == x:
return i
else:
return e
# method 3
def fun3(l:list, x:int, e = -1) -> int:
try:
idx = l.index(x)
except ValueError:
idx = e
return idx
# method 4
def fun4(l:list, x:int, e = -1) -> int:
return l.index(x) if x in l else e
l2 = np.array(l)
# method 5
def fun5(l:list or np.ndarray, x:int, e = -1) -> int:
res = np.where(np.equal(l, x))
if res[0].any():
return res[0][0]
else:
return e
if __name__ == "__main__":
print("Method 1:")
print(timeit(stmt = "fun1(l, 5)", number = 1000, globals = globals()))
print("")
print("Method 2:")
print(timeit(stmt = "fun2(l, 5)", number = 1000, globals = globals()))
print("")
print("Method 3:")
print(timeit(stmt = "fun3(l, 5)", number = 1000, globals = globals()))
print("")
print("Method 4:")
print(timeit(stmt = "fun4(l, 5)", number = 1000, globals = globals()))
print("")
print("Method 5, numpy given list:")
print(timeit(stmt = "fun5(l, 5)", number = 1000, globals = globals()))
print("")
print("Method 6, numpy given np.ndarray:")
print(timeit(stmt = "fun5(l2, 5)", number = 1000, globals = globals()))
print("")
```

When run as main, this results in the following printout on my machine indicating time in seconds to complete 1000 trials of each function:

Method 1:
0.7502102799990098

Method 2:
0.7291318440002215

Method 3:
0.24142152300009911

Method 4:
0.5253471979995084

Method 5, numpy given list:
0.5045417560013448

Method 6, numpy given np.ndarray:
0.011147511999297421

Of course the question asks specifically about lists so the best solution is to use the try-except method, however the speed improvements (at least 20x here compared to try-except) offered by using the numpy data structures and operators instead of python data structures is significant and if building something on many arrays of data that is performance critical then the author should try to use numpy throughout to take advantage of the superfast C bindings. (CPython interpreter, other interpreter performances may vary)

Btw, the reason Method 5 is much slower than Method 6 is because numpy first has to convert the given list to it's own numpy array, so giving it a list doesn't break it it just doesn't fully utilise the speed possible.

`thing_index`

." - This is definitely un-Pythonic. Passing a (meaningless) token value in case an operation does not succeed is frowned upon - exceptions really are the right way here. Especially since`thing_list[-1]`

is a valid expression, meaning the last entry in the list.facepalm...spot the java coder :P`str.find`

method that does exactly that: returns`-1`

when needle is not found in subject.2more comments