No need to import anything and no need evaluate. You can do this in one line for most basic use cases, including the one given in original question.

## One liner

```
l_x = [i.strip() for i in x[1:-1].replace('"',"").split(',')]
```

## Explanation

```
x = '[ "A","B","C" , " D"]'
# str indexing to eliminate the brackets
# replace as split will otherwise retain the quotes in returned list
# split to conv to list
l_x = x[1:-1].replace('"',"").split(',')
```

*Outputs*:

```
for i in range(0, len(l_x)):
print(l_x[i])
# vvvv output vvvvv
'''
A
B
C
D
'''
print(type(l_x)) # out: class 'list'
print(len(l_x)) # out: 4
```

You can parse and clean up this list as needed using list comprehension.

```
l_x = [i.strip() for i in l_x] # list comprehension to clean up
for i in range(0, len(l_x)):
print(l_x[i])
# vvvvv output vvvvv
'''
A
B
C
D
'''
```

## Nested lists

If you have nested lists, it does get a bit more annoying. Without using regex (which would simplify the replace), and assuming you want to return a flattened list (and the zen of python says flat is better than nested):

```
x = '[ "A","B","C" , " D", ["E","F","G"]]'
l_x = x[1:-1].split(',')
l_x = [i
.replace(']', '')
.replace('[', '')
.replace('"', '')
.strip() for i in l_x
]
# returns ['A', 'B', 'C', 'D', 'E', 'F', 'G']
```

If you need to retain the nested list it gets a bit uglier, but can still be done just with re and list comprehension:

```
import re
x = '[ "A","B","C" , " D", "["E","F","G"]","Z", "Y", "["H","I","J"]", "K", "L"]'
# clean it up so regex is simpler
x = x.replace('"', '').replace(' ', '')
# look ahead for the bracketed text that signifies nested list
l_x = re.split(r',(?=\[[A-Za-z0-9\',]+\])|(?<=\]),', x[1:-1])
print(l_x)
# flatten and split the non nested list items
l_x0 = [item for items in l_x for item in items.split(',') if not '[' in items]
# convert the nested lists to lists
l_x1 = [
i[1:-1].split(',') for i in l_x if '[' in i
]
# add the two lists
l_x = l_x0 + l_x1
```

This last solution will work on any list stored as a string, nested or not.