source: trunk/WRF.COMMON/WRFV3/external/io_grib2/g2lib/specpack.F @ 3567

Last change on this file since 3567 was 2759, checked in by aslmd, 2 years ago

adding unmodified code from WRFV3.0.1.1, expurged from useless data +1M size

File size: 3.8 KB
Line 
1      subroutine specpack(fld,ndpts,JJ,KK,MM,idrstmpl,cpack,lcpack)
2!$$$  SUBPROGRAM DOCUMENTATION BLOCK
3!                .      .    .                                       .
4! SUBPROGRAM:    specpack
5!   PRGMMR: Gilbert          ORG: W/NP11    DATE: 2002-12-19
6!
7! ABSTRACT: This subroutine packs a spectral data field using the complex
8!   packing algorithm for spherical harmonic data as
9!   defined in the GRIB2 Data Representation Template 5.51.
10!
11! PROGRAM HISTORY LOG:
12! 2002-12-19  Gilbert
13!
14! USAGE:    CALL specpack(fld,ndpts,JJ,KK,MM,idrstmpl,cpack,lcpack)
15!   INPUT ARGUMENT LIST:
16!     fld()    - Contains the packed data values
17!     ndpts    - The number of data values to pack
18!     JJ       - J - pentagonal resolution parameter
19!     KK       - K - pentagonal resolution parameter
20!     MM       - M - pentagonal resolution parameter
21!     idrstmpl - Contains the array of values for Data Representation
22!                Template 5.51
23!
24!   OUTPUT ARGUMENT LIST:
25!     cpack    - The packed data field (character*1 array)
26!     lcpack   - length of packed field cpack().
27!
28! REMARKS: None
29!
30! ATTRIBUTES:
31!   LANGUAGE: XL Fortran 90
32!   MACHINE:  IBM SP
33!
34!$$$
35
36      real,intent(in) :: fld(ndpts)
37      integer,intent(in) :: ndpts,JJ,KK,MM
38      integer,intent(inout) :: idrstmpl(*)
39      character(len=1),intent(out) :: cpack(*)
40      integer,intent(out) :: lcpack
41
42      integer :: ifld(ndpts),Ts,tmplsim(5)
43      real :: bscale,dscale,unpk(ndpts),tfld(ndpts)
44      real,allocatable :: pscale(:)
45
46      bscale = 2.0**real(-idrstmpl(2))
47      dscale = 10.0**real(idrstmpl(3))
48      nbits = idrstmpl(4)
49      Js=idrstmpl(6)
50      Ks=idrstmpl(7)
51      Ms=idrstmpl(8)
52      Ts=idrstmpl(9)
53
54!
55!   Calculate Laplacian scaling factors for each possible wave number.
56!
57      allocate(pscale(JJ+MM))
58      tscale=real(idrstmpl(5))*1E-6
59      do n=Js,JJ+MM
60         pscale(n)=real(n*(n+1))**(tscale)
61      enddo
62!
63!   Separate spectral coeffs into two lists; one to contain unpacked
64!   values within the sub-spectrum Js, Ks, Ms, and the other with values
65!   outside of the sub-spectrum to be packed.
66!
67      inc=1
68      incu=1
69      incp=1
70      do m=0,MM
71         Nm=JJ      ! triangular or trapezoidal
72         if ( KK .eq. JJ+MM ) Nm=JJ+m          ! rhombodial
73         Ns=Js      ! triangular or trapezoidal
74         if ( Ks .eq. Js+Ms ) Ns=Js+m          ! rhombodial
75         do n=m,Nm
76            if (n.le.Ns .AND. m.le.Ms) then    ! save unpacked value
77               unpk(incu)=fld(inc)         ! real part
78               unpk(incu+1)=fld(inc+1)     ! imaginary part
79               inc=inc+2
80               incu=incu+2
81            else                         ! Save value to be packed and scale
82                                         ! Laplacian scale factor
83               tfld(incp)=fld(inc)*pscale(n)         ! real part
84               tfld(incp+1)=fld(inc+1)*pscale(n)     ! imaginary part
85               inc=inc+2
86               incp=incp+2
87            endif
88         enddo
89      enddo
90
91      deallocate(pscale)
92
93      incu=incu-1
94      if (incu .ne. Ts) then
95         print *,'specpack: Incorrect number of unpacked values ',
96     &           'given:',Ts     
97         print *,'specpack: Resetting idrstmpl(9) to ',incu
98         Ts=incu
99      endif
100!
101!  Add unpacked values to the packed data array in 32-bit IEEE format
102!
103      call mkieee(unpk,cpack,Ts)
104      ipos=4*Ts
105!
106!  Scale and pack the rest of the coefficients
107!
108      tmplsim(2)=idrstmpl(2)
109      tmplsim(3)=idrstmpl(3)
110      tmplsim(4)=idrstmpl(4)
111      call simpack(tfld,ndpts-Ts,tmplsim,cpack(ipos+1),lcpack)
112      lcpack=lcpack+ipos
113!
114!  Fill in Template 5.51
115!
116      idrstmpl(1)=tmplsim(1)
117      idrstmpl(2)=tmplsim(2)
118      idrstmpl(3)=tmplsim(3)
119      idrstmpl(4)=tmplsim(4)
120      idrstmpl(9)=Ts
121      idrstmpl(10)=1         ! Unpacked spectral data is 32-bit IEEE
122
123      return
124      end
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