I'll try to give the benchmark of the three most common way (also mentioned above):

```
from timeit import repeat
setup = """
import numpy as np;
import random;
x = np.linspace(0,100);
lb, ub = np.sort([random.random() * 100, random.random() * 100]).tolist()
"""
stmts = 'x[(x > lb) * (x <= ub)]', 'x[(x > lb) & (x <= ub)]', 'x[np.logical_and(x > lb, x <= ub)]'
for _ in range(3):
for stmt in stmts:
t = min(repeat(stmt, setup, number=100_000))
print('%.4f' % t, stmt)
print()
```

Result:

```
0.4808 x[(x > lb) * (x <= ub)]
0.4726 x[(x > lb) & (x <= ub)]
0.4904 x[np.logical_and(x > lb, x <= ub)]
0.4725 x[(x > lb) * (x <= ub)]
0.4806 x[(x > lb) & (x <= ub)]
0.5002 x[np.logical_and(x > lb, x <= ub)]
0.4781 x[(x > lb) * (x <= ub)]
0.4336 x[(x > lb) & (x <= ub)]
0.4974 x[np.logical_and(x > lb, x <= ub)]
```

But, `*`

is not supported in Panda Series, and NumPy Array is faster than pandas data frame (around 1000 times slower, see number):

```
from timeit import repeat
setup = """
import numpy as np;
import random;
import pandas as pd;
x = pd.DataFrame(np.linspace(0,100));
lb, ub = np.sort([random.random() * 100, random.random() * 100]).tolist()
"""
stmts = 'x[(x > lb) & (x <= ub)]', 'x[np.logical_and(x > lb, x <= ub)]'
for _ in range(3):
for stmt in stmts:
t = min(repeat(stmt, setup, number=100))
print('%.4f' % t, stmt)
print()
```

Result:

```
0.1964 x[(x > lb) & (x <= ub)]
0.1992 x[np.logical_and(x > lb, x <= ub)]
0.2018 x[(x > lb) & (x <= ub)]
0.1838 x[np.logical_and(x > lb, x <= ub)]
0.1871 x[(x > lb) & (x <= ub)]
0.1883 x[np.logical_and(x > lb, x <= ub)]
```

Note: adding one line of code `x = x.to_numpy()`

will need about 20 µs.

For those who prefer `%timeit`

:

```
import numpy as np
import random
lb, ub = np.sort([random.random() * 100, random.random() * 100]).tolist()
lb, ub
x = pd.DataFrame(np.linspace(0,100))
def asterik(x):
x = x.to_numpy()
return x[(x > lb) * (x <= ub)]
def and_symbol(x):
x = x.to_numpy()
return x[(x > lb) & (x <= ub)]
def numpy_logical(x):
x = x.to_numpy()
return x[np.logical_and(x > lb, x <= ub)]
for i in range(3):
%timeit asterik(x)
%timeit and_symbol(x)
%timeit numpy_logical(x)
print('\n')
```

Result:

```
23 µs ± 3.62 µs per loop (mean ± std. dev. of 7 runs, 10000 loops each)
35.6 µs ± 9.53 µs per loop (mean ± std. dev. of 7 runs, 100000 loops each)
31.3 µs ± 8.9 µs per loop (mean ± std. dev. of 7 runs, 100000 loops each)
21.4 µs ± 3.35 µs per loop (mean ± std. dev. of 7 runs, 10000 loops each)
21.9 µs ± 1.02 µs per loop (mean ± std. dev. of 7 runs, 100000 loops each)
21.7 µs ± 500 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)
25.1 µs ± 3.71 µs per loop (mean ± std. dev. of 7 runs, 100000 loops each)
36.8 µs ± 18.3 µs per loop (mean ± std. dev. of 7 runs, 100000 loops each)
28.2 µs ± 5.97 µs per loop (mean ± std. dev. of 7 runs, 10000 loops each)
```

`|`

instead of`or`

`abs(result['var'])>0.25`

`max()`

function. Replacing it with with`numpy.maximum()`

for element-wise maxima between two values solved my problem.`df['col']>10 & df['col]<20`

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