# sum to zero gives 0. with ifort and 3.1225e-16 with gfortran

I would like to know if there is a specific option for gfortran so that the following sum enclosed in a loop in i

``````startx+(i-iref)*dx
``````

which is

``````-15+(376-1)*0.04
``````

gives 0. exactly with gfortran (as it does with ifort).

These numbers are not integers and are defined as

``````real :: dx=0.04
double precision :: iref=1.d0,startx=-15.
integer i=376 !(classic i of a loop)
``````

[ifort is compiled with -O0 -assume byterecl -r8 while gfortran with -O0 -fdefault-real-8 -fdefault-double-8]

Is it possible? Any hint?

Thanks

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It seems to be the case for What Every Computer Scientist Should Know About Floating-Point Arithmetic –  ppeterka Oct 9 '13 at 13:23
I'm not sure what you want to do... could you show us the whole loop? –  Alexander Vogt Oct 9 '13 at 13:24
Be a little careful, you seem to know that `1.d0` is a double precision real literal, but `-15.` is (compilation options aside) not. I don't expect the difference between `-15.` and `-15.0d0` to have a material impact on your case. –  High Performance Mark Oct 9 '13 at 13:31
With my gfortran the given flags evidently make everything double precision including the `real` declaration and the literals, and I get "exactly" zero for the shown calculation. If any of the constants were single precision you'd get a much larger O 10^-7 error. At the end of the day if 10^-16 matters you are doing something wrong. –  george Oct 9 '13 at 17:58

As soon as you do some arithmetics on floating point numbers, there is no/hardly ever such a thing as zero precisely. This is mainly due to the limited precision of the floating point representation.

If you want to check whether a value is zero, use something on the lines of

``````if ( abs(res) <= 1.e-5 ) then
write(*,*) 'res=',0.e0
else
write(*,*) 'res=',res
endif
``````

(This is the single precision version. )

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