Implicit real conversion to integer in (IBM)-Fortran-IV

I'm rewriting an old IBM-Fortran program to modern Fortran-90 and I've encountered the following expressions:

``````N1=A/B+1.000001
N2=A/B+1. -1.E-5
N3=A/B+1.E-05
``````

As far as I know, in the old Fortran way of implicit declaration, variables starting with `I`-`N` are taken as integers. That means we're looking at an implicit conversion from floating point numbers `A`,`B` to integers `N1`-`N3`.

My question is now, how do I translate these expression, using explicit real-integer conversions? My attempt was:

``````N1=ceiling(A/B+1.)
N2=floor(A/B+1.)
N3=ceiling(A/B)
``````

Can anyone please clarify this? I haven't found any hints regarding this on the internet.

Thanks!

-

To be honest, I'm not sure if `int()` leads to the correct results when using higher floating point precision, i.e. `double precision` variables. I think the above code is toying with the fact, that the floating point numbers had a limited accuracy of, I think, `1. +- 1E-4`, which led me to the assumption that a `floor()` or `ceiling()`-kind of behaviour was intended. –  Jost Sep 19 '12 at 12:58
No, the implicit conversion is identical to `int`. It is a generic function, for all real kinds and other numeric types, as are the other functions. –  Vladimir F Sep 19 '12 at 13:17
Yes, I know. When using the implicit conversion, numbers past the dot simply get cut off, which is what `int` does. But then again, what is the point of the `+1.E-5` and `-1.E-5`? –  Jost Sep 19 '12 at 13:23
@Jost, since floating point precision is limited, it could be that some number like `3.0` is internally stored like `2.99999987` or something. Integer truncation would result in a value of `2` instead of `3`. That's why a small correction is added, just to bump up some of the least significant bits of the mantissa. (Note: this example is very bad since 3.0 is exactly representable in IEEE 754 as 1.1_2 x 2^1 but still shows the general idea). –  Hristo Iliev Sep 19 '12 at 14:13