NCEPLIBS-ip/ver-5.0.0/ip__grid__mod_8F90_source.html

 module ip_grid_mod

   use ip_grid_descriptor_mod

   implicit none


   integer, public, parameter :: equid_cylind_grid_id_grib1 = 0

   integer, public, parameter :: mercator_grid_id_grib1 = 1

   integer, public, parameter :: lambert_conf_grid_id_grib1 = 3

   integer, public, parameter :: gaussian_grid_id_grib1 = 4

   integer, public, parameter :: polar_stereo_grid_id_grib1 = 5

   integer, public, parameter :: rot_equid_cylind_e_grid_id_grib1 = 203

   integer, public, parameter :: rot_equid_cylind_b_grid_id_grib1 = 205


   integer, public, parameter :: equid_cylind_grid_id_grib2 = 0

   integer, public, parameter :: rot_equid_cylind_grid_id_grib2 = 1

   integer, public, parameter :: mercator_grid_id_grib2 = 10

   integer, public, parameter :: polar_stereo_grid_id_grib2 = 20

   integer, public, parameter :: lambert_conf_grid_id_grib2 = 30

   integer, public, parameter :: gaussian_grid_id_grib2 = 40


   private

   public :: ip_grid

   public :: gdswzd_interface

   public :: operator(==)


   type, abstract :: ip_grid

      class(ip_grid_descriptor), allocatable :: descriptor


      integer :: im

      integer :: jm

      integer :: nm


      integer :: nscan

      integer :: kscan


      integer :: nscan_field_pos


      integer :: iwrap

      integer :: jwrap1

      integer :: jwrap2

      real :: rerth

      real :: eccen_squared

    contains

      procedure(init_grib1_interface), deferred :: init_grib1

      procedure(init_grib2_interface), deferred :: init_grib2

      procedure(gdswzd_interface), deferred :: gdswzd

      procedure :: field_pos

      generic :: init => init_grib1, init_grib2

   end type ip_grid


   abstract interface


      subroutine gdswzd_interface(self, iopt, npts, fill, xpts, ypts, rlon, rlat, nret, crot, srot, &

           xlon, xlat, ylon, ylat, area)

        import

        class(ip_grid), intent(in) :: self

        INTEGER,          INTENT(IN   ) :: IOPT, NPTS

        INTEGER,          INTENT(  OUT) :: NRET

        !

        REAL,             INTENT(IN   ) :: FILL

        REAL,             INTENT(INOUT) :: RLON(NPTS),RLAT(NPTS)

        REAL,             INTENT(INOUT) :: XPTS(NPTS),YPTS(NPTS)

        REAL, OPTIONAL,   INTENT(  OUT) :: CROT(NPTS),SROT(NPTS)

        REAL, OPTIONAL,   INTENT(  OUT) :: XLON(NPTS),XLAT(NPTS)

        REAL, OPTIONAL,   INTENT(  OUT) :: YLON(NPTS),YLAT(NPTS),AREA(NPTS)

      end subroutine gdswzd_interface


      subroutine init_grib1_interface(self, g1_desc)

        import

        class(ip_grid), intent(inout) :: self

        type(grib1_descriptor), intent(in) :: g1_desc

      end subroutine init_grib1_interface


      subroutine init_grib2_interface(self, g2_desc)

        import

        class(ip_grid), intent(inout) :: self

        type(grib2_descriptor), intent(in) :: g2_desc

      end subroutine init_grib2_interface


   end interface


   interface operator (==)

      module procedure is_same_grid

   end interface operator (==)


 contains


   logical function is_same_grid(grid1, grid2)

     class(ip_grid), intent(in) :: grid1, grid2

     is_same_grid = grid1%descriptor == grid2%descriptor

   end function is_same_grid


   function field_pos(self, i, j)

     class(ip_grid), intent(in) :: self

     integer, intent(in) :: i, j

     integer :: field_pos


     integer :: ii, jj, im, jm

     integer :: iif, jjf, is1, iwrap

     integer :: jwrap1, jwrap2, kscan, nscan


     ! extract from navigation parameter array

     im=self%im

     jm=self%jm

     iwrap=self%iwrap

     jwrap1=self%jwrap1

     jwrap2=self%jwrap2

     nscan=self%nscan_field_pos

     kscan=self%kscan


     ! compute wraparounds in x and y if necessary and possible

     ii=i

     jj=j

     if(iwrap.gt.0) then

        ii=mod(i-1+iwrap,iwrap)+1

        if(j.lt.1.and.jwrap1.gt.0) then

           jj=jwrap1-j

           ii=mod(ii-1+iwrap/2,iwrap)+1

        elseif(j.gt.jm.and.jwrap2.gt.0) then

           jj=jwrap2-j

           ii=mod(ii-1+iwrap/2,iwrap)+1

        endif

     endif


     ! compute position for the appropriate scanning mode

     field_pos=0

     if(nscan.eq.0) then

        if(ii.ge.1.and.ii.le.im.and.jj.ge.1.and.jj.le.jm) field_pos=ii+(jj-1)*im

     elseif(nscan.eq.1) then

        if(ii.ge.1.and.ii.le.im.and.jj.ge.1.and.jj.le.jm) field_pos=jj+(ii-1)*jm

     elseif(nscan.eq.2) then

        is1=(jm+1-kscan)/2

        iif=jj+(ii-is1)

        jjf=jj-(ii-is1)+kscan

        if(iif.ge.1.and.iif.le.2*im-1.and.jjf.ge.1.and.jjf.le.jm) &

             field_pos=(iif+(jjf-1)*(2*im-1)+1-kscan)/2

     elseif(nscan.eq.3) then

        is1=(jm+1-kscan)/2

        iif=jj+(ii-is1)

        jjf=jj-(ii-is1)+kscan

        if(iif.ge.1.and.iif.le.2*im-1.and.jjf.ge.1.and.jjf.le.jm) field_pos=(iif+1)/2+(jjf-1)*im

     endif

   end function field_pos


 end module ip_grid_mod


ip_grid_mod::gdswzd_interface
Definition: ip_grid_mod.F90:119

ip_grid_mod::init_grib1_interface
Definition: ip_grid_mod.F90:142

ip_grid_mod::init_grib2_interface
Definition: ip_grid_mod.F90:156

gdswzd
void gdswzd(int igdtnum, int *igdtmpl, int igdtlen, int iopt, int npts, float fill, float *xpts, float *ypts, float *rlon, float *rlat, int *nret, float *crot, float *srot, float *xlon, float *xlat, float *ylon, float *ylat, float *area)
gdswzd() interface for C for _4 build of library.

ip_grid_descriptor_mod
Users derived type grid descriptor objects to abstract away the raw GRIB1 and GRIB2 grid definitions.
Definition: ip_grid_descriptor_mod.F90:15

ip_grid_descriptor_mod::is_same_grid
logical function is_same_grid(grid1, grid2)
Test whether two grid descriptors are the same.
Definition: ip_grid_descriptor_mod.F90:116

ip_grid_mod
Abstract ip_grid type.
Definition: ip_grid_mod.F90:10

ip_grid_mod::lambert_conf_grid_id_grib2
integer, parameter, public lambert_conf_grid_id_grib2
Integer grid number for Lambert conformal grid in grib2.
Definition: ip_grid_mod.F90:26

ip_grid_mod::gaussian_grid_id_grib2
integer, parameter, public gaussian_grid_id_grib2
Integer grid number for Gaussian grid in grib2.
Definition: ip_grid_mod.F90:27

ip_grid_mod::equid_cylind_grid_id_grib2
integer, parameter, public equid_cylind_grid_id_grib2
Integer grid number for equidistant cylindrical grid in grib2.
Definition: ip_grid_mod.F90:22

ip_grid_mod::gaussian_grid_id_grib1
integer, parameter, public gaussian_grid_id_grib1
Integer grid number for Gaussian grid in grib1.
Definition: ip_grid_mod.F90:17

ip_grid_mod::rot_equid_cylind_e_grid_id_grib1
integer, parameter, public rot_equid_cylind_e_grid_id_grib1
Integer grid number for rotated equidistant cylindrical E-stagger grid.
Definition: ip_grid_mod.F90:19

ip_grid_mod::polar_stereo_grid_id_grib2
integer, parameter, public polar_stereo_grid_id_grib2
Integer grid number for polar stereo grid in grib2.
Definition: ip_grid_mod.F90:25

ip_grid_mod::field_pos
integer function field_pos(self, i, j)
Returns the field position for a given grid point.
Definition: ip_grid_mod.F90:198

ip_grid_mod::lambert_conf_grid_id_grib1
integer, parameter, public lambert_conf_grid_id_grib1
Integer grid number for Lambert Conformal grid in grib1.
Definition: ip_grid_mod.F90:16

ip_grid_mod::mercator_grid_id_grib1
integer, parameter, public mercator_grid_id_grib1
Integer grid number for Mercator grid in grib1.
Definition: ip_grid_mod.F90:15

ip_grid_mod::equid_cylind_grid_id_grib1
integer, parameter, public equid_cylind_grid_id_grib1
Integer grid number for equidistant cylindrical grid in grib1.
Definition: ip_grid_mod.F90:14

ip_grid_mod::rot_equid_cylind_b_grid_id_grib1
integer, parameter, public rot_equid_cylind_b_grid_id_grib1
Integer grid number for rotated equidistant cylindrical B-stagger grid.
Definition: ip_grid_mod.F90:20

ip_grid_mod::rot_equid_cylind_grid_id_grib2
integer, parameter, public rot_equid_cylind_grid_id_grib2
Integer grid number for rotated equidistant cylindrical grid in grib2.
Definition: ip_grid_mod.F90:23

ip_grid_mod::mercator_grid_id_grib2
integer, parameter, public mercator_grid_id_grib2
Integer grid number for Mercator grid in grib2.
Definition: ip_grid_mod.F90:24

ip_grid_mod::polar_stereo_grid_id_grib1
integer, parameter, public polar_stereo_grid_id_grib1
Integer grid number for polar stereo grid in grib1.
Definition: ip_grid_mod.F90:18

ip_grid_descriptor_mod::grib1_descriptor
Descriptor representing a grib1 grib descriptor section (GDS) with an integer array.
Definition: ip_grid_descriptor_mod.F90:38

ip_grid_descriptor_mod::grib2_descriptor
Grib-2 descriptor containing a grib2 GDT represented by an integer array.
Definition: ip_grid_descriptor_mod.F90:47

ip_grid_descriptor_mod::ip_grid_descriptor
Abstract descriptor object which represents a grib1 or grib2 descriptor.
Definition: ip_grid_descriptor_mod.F90:28

ip_grid_mod::ip_grid
Abstract grid that holds fields and methods common to all grids.
Definition: ip_grid_mod.F90:52