That was interesting. I have hacked together a small program that creates a very simple pyramid using the `STREAM`

access. It seems to work:

```
program write_stl
use ISO_FORTRAN_ENV
implicit none
integer, parameter :: u = 400
character(len=*), parameter :: fname = 'pyramid.stl'
integer :: ios
integer(kind=4) :: num_facets
character(len=80) :: title
real(kind=4), dimension(3) :: top_vertex, front_vertex, left_vertex, right_vertex
top_vertex = (/0.0, 0.0, 2.0/)
front_vertex = (/0.0, -1.0, 0.0/)
left_vertex = (/-1.0, 1.0, 0.0/)
right_vertex = (/1.0, 1.0, 0.0/)
open(unit=u, file=fname, access='stream', status='replace', &
action='write', iostat=ios)
call check(ios, 'open')
title = "Testpyramid"
write(u, iostat=ios) title
call check(ios, 'write title')
num_facets = 4
write(u, iostat=ios) num_facets
call check(ios, 'write number of facets')
! bottom facet
call write_facet(u, front_vertex, left_vertex, right_vertex)
call write_facet(u, top_vertex, right_vertex, left_vertex)
call write_facet(u, top_vertex, left_vertex, front_vertex)
call write_facet(u, top_vertex, front_vertex, right_vertex)
close(u, iostat=ios)
call check(ios, 'close')
contains
subroutine check(ios, operation)
implicit none
integer, intent(in) :: ios
character(len=*), intent(in) :: operation
if (ios == 0) return
write(*, '(A, I0, 2A)') "Encountered error ", ios, " while performing ", operation
stop 1
end subroutine check
subroutine write_facet(u, vertex1, vertex2, vertex3)
implicit none
integer, intent(in) :: u
real(kind=4), dimension(3), intent(in) :: vertex1, vertex2, vertex3
real(kind=4), dimension(3) :: normal
integer(kind=2), parameter :: zero = 0
normal = calc_normal(vertex1, vertex2, vertex3)
write(u, iostat=ios) normal
call check(ios, 'write normal')
write(u, iostat=ios) vertex1
call check(ios, 'write vertex')
write(u, iostat=ios) vertex2
call check(ios, 'write vertex')
write(u, iostat=ios) vertex3
call check(ios, 'write vertex')
write(u, iostat=ios) zero
call check(ios, 'write zero')
end subroutine write_facet
function calc_normal(vec1, vec2, vec3)
implicit none
real(kind=4), dimension(3), intent(in) :: vec1, vec2, vec3
real(kind=4), dimension(3) :: calc_normal
real(kind=4), dimension(3) :: d1, d2
d1 = vec2 - vec1
d2 = vec3 - vec1
calc_normal(1) = d1(2) * d2(3) - d1(3) * d2(2)
calc_normal(2) = d1(3) * d2(1) - d1(1) * d2(3)
calc_normal(3) = d1(1) * d2(2) - d1(2) * d2(1)
calc_normal = calc_normal / norm(calc_normal)
end function calc_normal
function norm(vec)
implicit none
real(kind=4), dimension(3), intent(in) :: vec
real(kind=4) :: norm
norm = sqrt(vec(1)**2 + vec(2)**2 + vec(3)**2)
end function norm
end program write_stl
```

`recl = 84 + N * 50`

? The inquire statement should be used for that. – Vladimir F Dec 7 '15 at 23:17