After looking for a way to solve this problem, without loading any Python 3 module or extra mathematical operations, I solved the problem using only str.format() e .float(). I think this way is faster than using other mathematical operations, like in the most commom solution. I needed a fast solution because I work with a very very large dataset and so for its working very well here.

```
def truncate_number(f_number, n_decimals):
strFormNum = "{0:." + str(n_decimals+5) + "f}"
trunc_num = float(strFormNum.format(f_number)[:-5])
return(trunc_num)
# Testing the 'trunc_num()' function
test_num = 1150/252
[(idx, truncate_number(test_num, idx)) for idx in range(0, 20)]
```

It returns the following output:

```
[(0, 4.0),
(1, 4.5),
(2, 4.56),
(3, 4.563),
(4, 4.5634),
(5, 4.56349),
(6, 4.563492),
(7, 4.563492),
(8, 4.56349206),
(9, 4.563492063),
(10, 4.5634920634),
(11, 4.56349206349),
(12, 4.563492063492),
(13, 4.563492063492),
(14, 4.56349206349206),
(15, 4.563492063492063),
(16, 4.563492063492063),
(17, 4.563492063492063),
(18, 4.563492063492063),
(19, 4.563492063492063)]
```

no such numberas 1324343032.324 in binary floating point. If you switch to a higher version of Python (2.7 or 3.1 or later) the interpreter willdisplay1324343032.324 for you. But in actuality, the number you are computing with is neither 1324343032.324 nor 1324343032.3239999 regardless of Python version. The only way to getexactly1324343032.324 is to use the`decimal`

module or some other arbitrary-precision math library, such as`gmpy`

.`int(1324343032.324325235 * 1000) / 1000.0`

seems to work well1more comment