i am currently writing my Diploma thesis in Fortran 90. At a certain stage of my code, i simply want to calculate an Integer (should give a direction in a cartesian grid of mesh cells as a result).

There are no error messages, but the result is wrong. What can it be? The value i am looking for is that of the variable `idirhf`

(see below). it should always be either `1`

, `2`

, or `3`

. Depending on the calculated `preferred`

direction. However, it is often `idirhf = 0`

or maybe even `idirhf = 1195`

or whatever...the values `fcdx`

, `fcdy`

and `fcdz`

are `Real`

values. they represant the components of a gradient.

All variables are declared in a previous step which is not shown.

Can anybody help? i have already spent hours on that little issue now...

Here is a part of the code:

```
distz = ( dr ( k ) + dr ( k - 1 ) + dr ( k + 1) ) / 2.
fcdx = ( fv ( i + 1, j, k ) - fv ( i - 1, j ,k ) ) &
& / ( 2. * dz )
fcdy = ( fv ( i, j + 1, k ) - fv ( i, j - 1, k ) ) &
& / ( 2. * dp )
fcdz = ( fv ( i, j, k + 1 ) - fv ( i, j ,k - 1 ) ) &
& / ( distz )
gradf ( 1 ) = ABS ( fcdx )
gradf ( 2 ) = ABS ( fcdy )
gradf ( 3 ) = ABS ( fcdz )
!
! Prüfung in welche der 3 Kooridnatenrichtung x,y,z
! die HF gebildet werden soll:
!
IF ( gradf(1) > gradf(2) ) THEN
IF ( gradf(1) > gradf(3) ) THEN
idirhf = x
x = 1
ider1 = y
ider2 = z
nsten1 = 5
nsten2 = 5
END IF
END IF
!
IF ( gradf(2) > gradf(1) ) THEN
IF ( gradf(2) > gradf(3) ) THEN
idirhf = y
y = 2
ider1 = x
ider2 = z
nsten1 = 4
nsten2 = 5
END IF
END IF
!
IF ( gradf(3) > gradf(1) ) THEN
IF ( gradf(3) > gradf(2) ) THEN
idirhf = z
z = 3
ider1 = x
ider2 = y
nsten1 = 4
nsten2 = 5
END IF
END IF
! WRITE(*,*)'###Nach gradf-Vergleich.idirhf = ', idirhf
```

`idirhf`

and`x`

,`y`

, or`z`

. Besides Fortran has the logical`.AND.`

operator - no need to use nested`IF`

s. – Hristo Iliev Aug 17 '12 at 16:08`integer :: maxdir; maxdir = maxloc(gradf); select case (maxdir) case(1)...`

Note too that as it stands currently, if (say)`gradf(1)==gradf(2) > gradf(3)`

, none of the if bodies will get executed; exact numerical equality might be unlikely but not at all impossible (say, for example, if some derivitives are zero in the initial conditions). – Jonathan Dursi Aug 18 '12 at 3:19