**UPDATE2:** more generic vectorized function, which will work for multiple `normal`

and multiple `list`

columns

```
def explode(df, lst_cols, fill_value=''):
# make sure `lst_cols` is a list
if lst_cols and not isinstance(lst_cols, list):
lst_cols = [lst_cols]
# all columns except `lst_cols`
idx_cols = df.columns.difference(lst_cols)
# calculate lengths of lists
lens = df[lst_cols[0]].str.len()
if (lens > 0).all():
# ALL lists in cells aren't empty
return pd.DataFrame({
col:np.repeat(df[col].values, lens)
for col in idx_cols
}).assign(**{col:np.concatenate(df[col].values) for col in lst_cols}) \
.loc[:, df.columns]
else:
# at least one list in cells is empty
return pd.DataFrame({
col:np.repeat(df[col].values, lens)
for col in idx_cols
}).assign(**{col:np.concatenate(df[col].values) for col in lst_cols}) \
.append(df.loc[lens==0, idx_cols]).fillna(fill_value) \
.loc[:, df.columns]
```

Demo:

Multiple `list`

columns - all `list`

columns must have the same # of elements in each row:

```
In [36]: df
Out[36]:
aaa myid num text
0 10 1 [1, 2, 3] [aa, bb, cc]
1 11 2 [1, 2] [cc, dd]
2 12 3 [] []
3 13 4 [] []
In [37]: explode(df, ['num','text'], fill_value='')
Out[37]:
aaa myid num text
0 10 1 1 aa
1 10 1 2 bb
2 10 1 3 cc
3 11 2 1 cc
4 11 2 2 dd
2 12 3
3 13 4
```

Setup:

```
df = pd.DataFrame({
'aaa': {0: 10, 1: 11, 2: 12, 3: 13},
'myid': {0: 1, 1: 2, 2: 3, 3: 4},
'num': {0: [1, 2, 3], 1: [1, 2], 2: [], 3: []},
'text': {0: ['aa', 'bb', 'cc'], 1: ['cc', 'dd'], 2: [], 3: []}
})
```

CSV column:

```
In [46]: df
Out[46]:
var1 var2 var3
0 a,b,c 1 XX
1 d,e,f,x,y 2 ZZ
In [47]: explode(df.assign(var1=df.var1.str.split(',')), 'var1')
Out[47]:
var1 var2 var3
0 a 1 XX
1 b 1 XX
2 c 1 XX
3 d 2 ZZ
4 e 2 ZZ
5 f 2 ZZ
6 x 2 ZZ
7 y 2 ZZ
```

using this little trick we can convert CSV-like column to `list`

column:

```
In [48]: df.assign(var1=df.var1.str.split(','))
Out[48]:
var1 var2 var3
0 [a, b, c] 1 XX
1 [d, e, f, x, y] 2 ZZ
```

**UPDATE:** **generic vectorized approach (will work also for multiple columns):**

Original DF:

```
In [177]: df
Out[177]:
var1 var2 var3
0 a,b,c 1 XX
1 d,e,f,x,y 2 ZZ
```

**Solution:**

first let's convert CSV strings to lists:

```
In [178]: lst_col = 'var1'
In [179]: x = df.assign(**{lst_col:df[lst_col].str.split(',')})
In [180]: x
Out[180]:
var1 var2 var3
0 [a, b, c] 1 XX
1 [d, e, f, x, y] 2 ZZ
```

Now we can do this:

```
In [181]: pd.DataFrame({
...: col:np.repeat(x[col].values, x[lst_col].str.len())
...: for col in x.columns.difference([lst_col])
...: }).assign(**{lst_col:np.concatenate(x[lst_col].values)})[x.columns.tolist()]
...:
Out[181]:
var1 var2 var3
0 a 1 XX
1 b 1 XX
2 c 1 XX
3 d 2 ZZ
4 e 2 ZZ
5 f 2 ZZ
6 x 2 ZZ
7 y 2 ZZ
```

**OLD answer:**

Inspired by @AFinkelstein solution, i wanted to make it bit more generalized which could be applied to DF with more than two columns and as fast, well almost, as fast as AFinkelstein's solution):

```
In [2]: df = pd.DataFrame(
...: [{'var1': 'a,b,c', 'var2': 1, 'var3': 'XX'},
...: {'var1': 'd,e,f,x,y', 'var2': 2, 'var3': 'ZZ'}]
...: )
In [3]: df
Out[3]:
var1 var2 var3
0 a,b,c 1 XX
1 d,e,f,x,y 2 ZZ
In [4]: (df.set_index(df.columns.drop('var1',1).tolist())
...: .var1.str.split(',', expand=True)
...: .stack()
...: .reset_index()
...: .rename(columns={0:'var1'})
...: .loc[:, df.columns]
...: )
Out[4]:
var1 var2 var3
0 a 1 XX
1 b 1 XX
2 c 1 XX
3 d 2 ZZ
4 e 2 ZZ
5 f 2 ZZ
6 x 2 ZZ
7 y 2 ZZ
```