source: trunk/WRF.COMMON/WRFV2/external/io_grib2/g2lib/simpack.F

Last change on this file was 11, checked in by aslmd, 14 years ago

spiga@svn-planeto:ajoute le modele meso-echelle martien

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1      subroutine simpack(fld,ndpts,idrstmpl,cpack,lcpack)
2!$$$  SUBPROGRAM DOCUMENTATION BLOCK
3!                .      .    .                                       .
4! SUBPROGRAM:    simpack
5!   PRGMMR: Gilbert          ORG: W/NP11    DATE: 2000-06-21
6!
7! ABSTRACT: This subroutine packs up a data field using a simple
8!   packing algorithm as defined in the GRIB2 documention.  It
9!   also fills in GRIB2 Data Representation Template 5.0 with the
10!   appropriate values.
11!
12! PROGRAM HISTORY LOG:
13! 2000-06-21  Gilbert
14!
15! USAGE:    CALL simpack(fld,ndpts,idrstmpl,cpack,lcpack)
16!   INPUT ARGUMENT LIST:
17!     fld()    - Contains the data values to pack
18!     ndpts    - The number of data values in array fld()
19!     idrstmpl - Contains the array of values for Data Representation
20!                Template 5.0
21!                (1) = Reference value - ignored on input
22!                (2) = Binary Scale Factor
23!                (3) = Decimal Scale Factor
24!                (4) = Number of bits used to pack data, if value is
25!                      > 0 and  <= 31.
26!                      If this input value is 0 or outside above range
27!                      then the num of bits is calculated based on given
28!                      data and scale factors.
29!                (5) = Original field type - currently ignored on input
30!                      Data values assumed to be reals.
31!
32!   OUTPUT ARGUMENT LIST:
33!     idrstmpl - Contains the array of values for Data Representation
34!                Template 5.0
35!                (1) = Reference value - set by simpack routine.
36!                (2) = Binary Scale Factor - unchanged from input
37!                (3) = Decimal Scale Factor - unchanged from input
38!                (4) = Number of bits used to pack data, unchanged from
39!                      input if value is between 0 and 31.
40!                      If this input value is 0 or outside above range
41!                      then the num of bits is calculated based on given
42!                      data and scale factors.
43!                (5) = Original field type - currently set = 0 on output.
44!                      Data values assumed to be reals.
45!     cpack    - The packed data field (character*1 array)
46!     lcpack   - length of packed field cpack().
47!
48! REMARKS: None
49!
50! ATTRIBUTES:
51!   LANGUAGE: XL Fortran 90
52!   MACHINE:  IBM SP
53!
54!$$$
55
56      integer,intent(in) :: ndpts
57      real,intent(in) :: fld(ndpts)
58      character(len=1),intent(out) :: cpack(*)
59      integer,intent(inout) :: idrstmpl(*)
60      integer,intent(out) :: lcpack
61
62      real(4) :: ref
63      integer(4) :: iref
64      integer :: ifld(ndpts)
65      integer,parameter :: zero=0
66     
67      bscale=2.0**real(-idrstmpl(2))
68      dscale=10.0**real(idrstmpl(3))
69      if (idrstmpl(4).le.0.OR.idrstmpl(4).gt.31) then
70         nbits=0
71      else
72         nbits=idrstmpl(4)
73      endif
74!
75!  Find max and min values in the data
76!
77      rmax=fld(1)
78      rmin=fld(1)
79      do j=2,ndpts
80        if (fld(j).gt.rmax) rmax=fld(j)
81        if (fld(j).lt.rmin) rmin=fld(j)
82      enddo
83!
84!  If max and min values are not equal, pack up field.
85!  If they are equal, we have a constant field, and the reference
86!  value (rmin) is the value for each point in the field and
87!  set nbits to 0.
88!
89      if (rmin.ne.rmax) then
90        !
91        !  Determine which algorithm to use based on user-supplied
92        !  binary scale factor and number of bits.
93        !
94        if (nbits.eq.0.AND.idrstmpl(2).eq.0) then
95           !
96           !  No binary scaling and calculate minumum number of
97           !  bits in which the data will fit.
98           !
99           imin=nint(rmin*dscale)
100           imax=nint(rmax*dscale)
101           maxdif=imax-imin
102           temp=alog(real(maxdif+1))/alog(2.0)
103           nbits=ceiling(temp)
104           rmin=real(imin)
105           !   scale data
106           do j=1,ndpts
107             ifld(j)=nint(fld(j)*dscale)-imin
108           enddo
109        elseif (nbits.ne.0.AND.idrstmpl(2).eq.0) then
110           !
111           !  Use minimum number of bits specified by user and
112           !  adjust binary scaling factor to accomodate data.
113           !
114           rmin=rmin*dscale
115           rmax=rmax*dscale
116           maxnum=(2**nbits)-1
117           temp=alog(real(maxnum)/(rmax-rmin))/alog(2.0)
118           idrstmpl(2)=ceiling(-1.0*temp)
119           bscale=2.0**real(-idrstmpl(2))
120           !   scale data
121           do j=1,ndpts
122             ifld(j)=nint(((fld(j)*dscale)-rmin)*bscale)
123           enddo
124        elseif (nbits.eq.0.AND.idrstmpl(2).ne.0) then
125           !
126           !  Use binary scaling factor and calculate minumum number of
127           !  bits in which the data will fit.
128           !
129           rmin=rmin*dscale
130           rmax=rmax*dscale
131           maxdif=nint((rmax-rmin)*bscale)
132           temp=alog(real(maxdif+1))/alog(2.0)
133           nbits=ceiling(temp)
134           !   scale data
135           do j=1,ndpts
136             ifld(j)=nint(((fld(j)*dscale)-rmin)*bscale)
137           enddo
138        elseif (nbits.ne.0.AND.idrstmpl(2).ne.0) then
139           !
140           !  Use binary scaling factor and use minumum number of
141           !  bits specified by user.   Dangerous - may loose
142           !  information if binary scale factor and nbits not set
143           !  properly by user.
144           !
145           rmin=rmin*dscale
146           !   scale data
147           do j=1,ndpts
148             ifld(j)=nint(((fld(j)*dscale)-rmin)*bscale)
149           enddo
150        endif
151        !
152        !  Pack data, Pad last octet with Zeros, if necessary,
153        !  and calculate the length of the packed data in bytes
154        !
155        call g2lib_sbytes(cpack,ifld,0,nbits,0,ndpts)
156        nbittot=nbits*ndpts
157        left=8-mod(nbittot,8)
158        if (left.ne.8) then
159          call g2lib_sbyte(cpack,zero,nbittot,left)    ! Pad with zeros to fill Octet
160          nbittot=nbittot+left
161        endif
162        lcpack=nbittot/8
163
164      else
165        nbits=0
166        lcpack=0
167      endif
168
169!
170!  Fill in ref value and number of bits in Template 5.0
171!
172      call mkieee(rmin,ref,1)   ! ensure reference value is IEEE format
173!      call g2lib_gbyte(ref,idrstmpl(1),0,32)
174      iref=transfer(ref,iref)
175      idrstmpl(1)=iref
176      idrstmpl(4)=nbits
177      idrstmpl(5)=0         ! original data were reals
178
179      return
180      end
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