# Python Decimal - engineering notation for mili (10e-3) and micro (10e-6)

Here is the example which is bothering me:

``````>>> x = decimal.Decimal('0.0001')
>>> print x.normalize()
>>> print x.normalize().to_eng_string()
0.0001
0.0001
``````

Is there a way to have engineering notation for representing mili (10e-3) and micro (10e-6)?

-
Is this what you are looking for? stackoverflow.com/questions/6913532/… – Hans Then Jul 31 '13 at 14:46
Nope. Engineering notation is the floating point representation in which exponents are only multiples of 3, and the mantissa never has more than 3 digits. Reference – Alan Jul 31 '13 at 14:54
Then, would the engineering notation of this be 100E-6 – sihrc Jul 31 '13 at 15:15
@sihrc Yes, that is correct. – Alan Jul 31 '13 at 15:25
Looks like zero has your answer. you can probably implement your own code to take in the exceptions if it bothers you that much. – sihrc Jul 31 '13 at 15:31

Here's a function that does things explicitly, and also has support for using SI suffixes for the exponent:

``````def eng_string( x, format='%s', si=False):
'''
Returns float/int value <x> formatted in a simplified engineering format -
using an exponent that is a multiple of 3.

format: printf-style string used to format the value before the exponent.

si: if true, use SI suffix for exponent, e.g. k instead of e3, n instead of
e-9 etc.

E.g. with format='%.2f':
1.23e-08 => 12.30e-9
123 => 123.00
1230.0 => 1.23e3
-1230000.0 => -1.23e6

and with si=True:
1230.0 => 1.23k
-1230000.0 => -1.23M
'''
sign = ''
if x < 0:
x = -x
sign = '-'
exp = int( math.floor( math.log10( x)))
exp3 = exp - ( exp % 3)
x3 = x / ( 10 ** exp3)

if si and exp3 >= -24 and exp3 <= 24 and exp3 != 0:
exp3_text = 'yzafpnum kMGTPEZY'[ ( exp3 - (-24)) / 3]
elif exp3 == 0:
exp3_text = ''
else:
exp3_text = 'e%s' % exp3

return ( '%s'+format+'%s') % ( sign, x3, exp3_text)
``````
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This is a great function! it works well. I would suggest one improvement, something like x = numpy.float64(x) as it doesn't quite handle integer numbers – Paul May 16 '14 at 17:03
This great, but as Paul suggested, it doesn't work for integers. Suggest adding `import math` and `x=float(x)` (no need to bring numpy into it..?) – beroe Apr 9 '15 at 1:09

The `decimal` module is following the Decimal Arithmetic Specification, which states:

to-scientific-string – conversion to numeric string

[...]

The coefficient is first converted to a string in base ten using the characters 0 through 9 with no leading zeros (except if its value is zero, in which case a single 0 character is used). Next, the adjusted exponent is calculated; this is the exponent, plus the number of characters in the converted coefficient, less one. That is, exponent+(clength-1), where clength is the length of the coefficient in decimal digits.

If the exponent is less than or equal to zero and the adjusted exponent is greater than or equal to -6, the number will be converted to a character form without using exponential notation.

[...]

to-engineering-string – conversion to numeric string

This operation converts a number to a string, using engineering notation if an exponent is needed.

The conversion exactly follows the rules for conversion to scientific numeric string except in the case of finite numbers where exponential notation is used.

Or, in other words:

``````>>> for n in (10 ** e for e in range(-1, -8, -1)):
...     d = Decimal(str(n))
...     print d.to_eng_string()
...
0.1
0.01
0.001
0.0001
0.00001
0.000001
100E-9
``````
-
I'm looking for a workaround to that. So that `to_eng_string()` works for smaller numbers. In the standard way, `mili` and `micro` prefixes are completely ignored and they are quite often. – Alan Jul 31 '13 at 15:33
@Alan that's a slightly different question - you asked for "engineering notation for all cases", and you're getting that, per spec. What you're after is "my variation on engineering notation", which is understandably missing from the standard library. – Zero Piraeus Jul 31 '13 at 15:35
I see where the confusion is coming from. By "all cases" i meant that it wouldn't be discriminating towards `mili` and `micro`. Will change the subject to make it more clear. – Alan Jul 31 '13 at 15:43
@ZeroPiraeus This proprietary (IBM) specification actually admits that it is not applying engineering notation for infinite numbers! As an engineer, I share Alan's opinion that Python chose poorly in adopting this proprietary specification. – Serge Stroobandt Jan 27 at 18:00
@Alan you are right in noting that the engineering notation is not applied in all cases when implementing this proprietary specification. This becomes obvious when quoting this specification in its entirety. See also my other comment. – Serge Stroobandt Jan 27 at 18:08

# The «full» quote shows what is wrong!

The `decimal` module is indeed following the proprietary (IBM) Decimal Arithmetic Specification. Quoting this IBM specification in its entirety clearly shows what is wrong with `decimal.to_eng_string()` (emphasis added):

to-engineering-string – conversion to numeric string

This operation converts a number to a string, using engineering notation if an exponent is needed.

The conversion exactly follows the rules for conversion to scientific numeric string except in the case of finite numbers where exponential notation is used. In this case, the converted exponent is adjusted to be a multiple of three (engineering notation) by positioning the decimal point with one, two, or three characters preceding it (that is, the part before the decimal point will range from 1 through 999). This may require the addition of either one or two trailing zeros.

If after the adjustment the decimal point would not be followed by a digit then it is not added. If the final exponent is zero then no indicator letter and exponent is suffixed.

This proprietary IBM specification actually admits to not applying the engineering notation for infinite (decimal representation) numbers! This is obviously incorrect behaviour for which a Python bug report was opened.

## Solution

``````from math import *

def powerise10(x):
""" Returns x as a*10**b with 0 <= a < 10
"""
if x == 0: return 0 , 0
Neg = x <0
if Neg : x = -x
a = 1.0 * x / 10**(floor(log10(x)))
b = int(floor(log10(x)))
if Neg : a = -a
return a ,b

def eng(x):
"""Return a string representing x in an engineer friendly notation"""
a , b = powerise10(x)
if -3<b<3: return "%.4g" % x
a = a * 10**(b%3)
b = b - b%3
return "%.4gE%s" %(a,b)
``````

## Test result

``````>>> eng(0.0001)
100E-6
``````
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You don't really mean "infinite numbers", do you? What do you propose that the output of `Decimal('inf').to_eng_string()` should be? – Mark Dickinson Jan 28 at 8:18
BTW, the quoted sentence is dangerously close to ambiguous. It should be read as "except in the case of (those finite numbers for which exponential notation is used)", rather than "except in the case of finite numbers, where exponential notation is used". – Mark Dickinson Jan 28 at 8:20
@MarkDickinson I agree, the quoted specification is ambiguous. I edited my text to leave clear that what is meant is infinite decimal representation. – Serge Stroobandt Jan 28 at 9:43
I think you're misinterpreting that sentence in the specification. It's got nothing to do with infinite numbers, and nothing to do with numbers that don't have a finite-length decimal representation either. (The whole point of the decimal module is that all representable numbers have a finite-length decimal representation.) It's simply saying that the engineering format and scientific format are the same for finite numbers that aren't large or small enough in magnitude to require an exponent. Infinity doesn't come into it anywhere. – Mark Dickinson Jan 28 at 15:52