# 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)
```

Source: https://code.activestate.com/recipes/578238-engineering-notation/

## Test result

```
>>> eng(0.0001)
100E-6
```