Determine precision and scale of particular number

2020-02-05 09:31发布

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I have a variable in Python containing a floating point number (e.g. num = 24654.123), and I'd like to determine the number's precision and scale values (in the Oracle sense), so 123.45678 should give me (8,5), 12.76 should give me (4,2), etc.

I was first thinking about using the string representation (via str or repr), but those fail for large numbers (although I understand now it's the limitations of floating point representation that's the issue here):

>>> num = 1234567890.0987654321
>>> str(num) = 1234567890.1
>>> repr(num) = 1234567890.0987654

Edit:

Good points below. I should clarify. The number is already a float and is being pushed to a database via cx_Oracle. I'm trying to do the best I can in Python to handle floats that are too large for the corresponding database type short of executing the INSERT and handling Oracle errors (because I want to deal with the numbers a field, not a record, at a time). I guess map(len, repr(num).split('.')) is the closest I'll get to the precision and scale of the float?

7条回答
Summer. ? 凉城
2楼-- · 2020-02-05 09:42

I found another solution that seems to be simpler, but I'm not sure exactly if it will work for all cases.

   import math
   x = 1.2345678

   def flip(string):
       result = ""
       for ch in string:
           result = ch + result
      return result

   prec = int(math.log10(float(flip(str(x)))) + 1   # precision as int
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该账号已被封号
3楼-- · 2020-02-05 09:56

I think you should consider using the decimal type instead of a float. The float type will give rounding errors because the numbers are represented internally in binary but many decimal numbers don't have an exact binary representation.

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地球回转人心会变
4楼-- · 2020-02-05 10:00

Basically, you can't with floating point numbers. Using the decimal type would help and if you want really large precision, consider using gmpy, the GNU Multiple Precision library's port to Python.

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三岁会撩人
5楼-- · 2020-02-05 10:03

Getting the number of digits to the left of the decimal point is easy:

int(log10(x))+1

The number of digits to the right of the decimal point is trickier, because of the inherent inaccuracy of floating point values. I'll need a few more minutes to figure that one out.

Edit: Based on that principle, here's the complete code.

import math

def precision_and_scale(x):
    max_digits = 14
    int_part = int(abs(x))
    magnitude = 1 if int_part == 0 else int(math.log10(int_part)) + 1
    if magnitude >= max_digits:
        return (magnitude, 0)
    frac_part = abs(x) - int_part
    multiplier = 10 ** (max_digits - magnitude)
    frac_digits = multiplier + int(multiplier * frac_part + 0.5)
    while frac_digits % 10 == 0:
        frac_digits /= 10
    scale = int(math.log10(frac_digits))
    return (magnitude + scale, scale)
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甜甜的少女心
6楼-- · 2020-02-05 10:03

seems like str is better choice than repr:

>>> r=10.2345678
>>> r
10.234567800000001
>>> repr(r)
'10.234567800000001'
>>> str(r)
'10.2345678'
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Evening l夕情丶
7楼-- · 2020-02-05 10:05

Not possible with floating point variables. For example, typing 

>>> 10.2345

gives:

10.234500000000001

So, to get 6,4 out of this, you will have to find a way to distinguish between a user entering 10.2345 and 10.234500000000001, which is impossible using floats. This has to do with the way floating point numbers are stored. Use decimal.

import decimal
a = decimal.Decimal('10.234539048538495')
>>> str(a)
'10.234539048538495'
>>>  (len(str(a))-1, len(str(a).split('.')[1]))
(17,15)
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