I have two p-times-n arrays `x`

and `missx`

, where `x`

contains arbitrary numbers and `missx`

is an array containing zeros and ones. I need to perform recursive calculations on those points where `missx`

is zero. The obvious solution would be like this:

```
do i = 1, n
do j = 1, p
if(missx(j,i)==0) then
z(j,i) = ... something depending on the previous computations and x(j,i)
end if
end do
end do
```

Problem with this approach is that most of the time `missx`

is always 0, so there is quite a lot `if`

statements which are always true.

In R, I would do it like this:

```
for(i in 1:n)
for(j in which(xmiss[,i]==0))
z[j,i] <- ... something depending on the previous computations and x[j,i]
```

Is there a way to do the inner loop like that in Fortran? I did try a version like this:

```
do i = 1, n
do j = 1, xlength(i) !xlength(i) gives the number of zero-elements in x(,i)
j2=whichx(j,i) !whichx(1:xlength(i),i) contains the indices of zero-elements in x(,i)
z(j2,i) = ... something depending on the previous computations and x(j,i)
end do
end do
```

This seemed slightly faster than the first solution (if not counting the amount of defining `xlength`

and `whichx`

), but is there some more clever way to this like the R version, so I wouldn't need to store those `xlength`

and `whichx`

arrays?