Floating point "g" format not stripping trailing zeros
Ian Kelly
ian.g.kelly at gmail.com
Fri Feb 13 16:40:01 EST 2015
On Fri, Feb 13, 2015 at 2:22 PM, Grant Edwards <invalid at invalid.invalid> wrote:
> On 2015-02-13, Dave Angel <davea at davea.name> wrote:
>> On the other hand, the Decimal package has a way that the programmer
>> can tell how many digits to use at each stage of the calculation.
>
> That's what surpised me. From TFM:
>
> https://docs.python.org/2/library/decimal.html:
>
> * The decimal module incorporates a notion of significant places so that
> 1.30 + 1.20 is 2.50. The trailing zero is kept to indicate
> significance. This is the customary presentation for monetary
> applications. For multiplication, the “schoolbook” approach uses
> all the figures in the multiplicands. For instance, 1.3 * 1.2 gives
> 1.56 while 1.30 * 1.20 gives 1.5600.
Huh. That approach for multiplication is definitely not what I was
taught in school. I was taught that the number of significant digits
in the product is the lesser of the number of significant digits in
either of the measured multiplicands. So 1.30 * 1.20 would be 1.56,
while 1.3 * 1.2 would just be 1.6. Wikipedia appears to agree with me:
http://en.wikipedia.org/wiki/Significance_arithmetic#Multiplication_and_division_using_significance_arithmetic
Moreover:
>>> D('1.304') * D('1.204')
Decimal('1.570016')
>>> D('1.295') * D('1.195')
Decimal('1.547525')
So 1.30 * 1.20 could be written approximately as 1.56 ± 0.01. Given
that, I don't understand how the trailing zeros in 1.5600 could
possibly be considered significant.
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