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)]
decimal
module or some other arbitrary-precision math library, such asgmpy
.int(1324343032.324325235 * 1000) / 1000.0
seems to work well