2

I am attempting to write an STL Binary file in Fortran 90. The file has the following format

HEADER: An 80 byte ASCII header - TITLE

A 4 byte unsigned long integer, NO. OF FACETS

FORMAT FOR EACH FACET:

Normal vector, 3 floating values of 4 bytes each;

Vertex 1 XYZ coordinates, 3 floating values of 4 bytes each;

Vertex 2 XYZ coordinates, 3 floating values of 4 bytes each;

Vertex 3 XYZ coordinates, 3 floating values of 4 bytes each;

An unsigned integer, of 2 bytes, that should be zero;

I am attempting to create an unformatted file for writing the relevant information but am having trouble defining the correct record length. Assuming that I have N facets, I am using the following commands to open and write information

open(unit = 1, status = 'replace', iostat = ioerror, format = 'unformatted', access = 'direct', recl = 84 + N * 50, file = 'c:\temp\test.stl')

Can I issue the first write statement to write out the header information followed by the second write statement (within a do loop) to write out the facet information?

If so, what would be the record number I need to have for each of the write statements since I have the header and the facet information with different record lengths.

write(1,rec=?), *header information*
do,i=1,N,1
   write(1,rec=?), *facet information*
enddo
  • Are you sure that a Fortran unformatted direct access file is appropriate for this? – francescalus Dec 7 '15 at 23:16
  • 1
    Direct access seems to be a bad design choice. Stream would be much better, considering the header. How did you get the recl = 84 + N * 50? The inquire statement should be used for that. – Vladimir F Dec 7 '15 at 23:17
  • Since the records are of different lengths, direct access is inappropriate, as already commented. – M. S. B. Dec 8 '15 at 1:49
  • If you had to do without streams, you could write the entire file as a single record. That means one write, header and all. Note the recl unit is typically 4 bytes, so divide that expression by 4 and you have a problem if n is odd. – agentp Dec 8 '15 at 3:23
2

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
  • Thanks chw21 for the example! Guess I was heading down the wrong path with writing as an unformatted file as several of you pointed out. – HarRad Dec 8 '15 at 14:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.