!-------------------------------------- LICENCE BEGIN ------------------------------------
!Environment Canada - Atmospheric Science and Technology License/Disclaimer,
! version 3; Last Modified: May 7, 2008.
!This is free but copyrighted software; you can use/redistribute/modify it under the terms
!of the Environment Canada - Atmospheric Science and Technology License/Disclaimer
!version 3 or (at your option) any later version that should be found at:
!http://collaboration.cmc.ec.gc.ca/science/rpn.comm/license.html
!
!This software is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
!without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
!See the above mentioned License/Disclaimer for more details.
!You should have received a copy of the License/Disclaimer along with this software;
!if not, you can write to: EC-RPN COMM Group, 2121 TransCanada, suite 500, Dorval (Quebec),
!CANADA, H9P 1J3; or send e-mail to service.rpn@ec.gc.ca
!-------------------------------------- LICENCE END --------------------------------------
!
C
C X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X
C
subroutine anormsp 1,4
*
*Author: Luc Fillion - ARMA/EC 20 Jan 08
*
*
IMPLICIT NONE
*implicits
#include "comdim.cdk"
#include "comsp.cdk"
#include "comcva.cdk"
*
integer jla,ji,jj,jk
integer idum1,idum2,idum3,idum4
real*8 zmin,zmax
real*8 zcon
!
real*8 zspvar(nla,2)
real*8 zsprpn(ni+2,nj+2)
*
**
do jk = 1,nksdim
do jla = 1, nla
zspvar(jla,1) = sp(jla,1,jk)
zspvar(jla,2) = sp(jla,2,jk)
enddo
!
call transp(zspvar,zsprpn,'2RPN') ! zsp output
!
zcon = 2.0
do jj=1,nj+2
zsprpn(1,jj) = zsprpn(1,jj)/zcon
enddo
!
do ji=1,ni+2
zsprpn(ji,1) = zsprpn(ji,1)/zcon
enddo
!
zcon = 4.*real(ni*nj)
do jj=1,nj+2
do ji=1,ni+2
zsprpn(ji,jj) = zcon*zsprpn(ji,jj)
enddo
enddo
!
call transp(zspvar,zsprpn,'2VAR')
!
do jla = 1, nla
sp(jla,1,jk) = zspvar(jla,1)
sp(jla,2,jk) = zspvar(jla,2)
enddo
enddo
!
if(nanalvar.eq.4) then
do jk = 1,nflev
do jla = 1, nla
zspvar(jla,1) = sptb(jla,1,jk)
zspvar(jla,2) = sptb(jla,2,jk)
enddo
!
call transp(zspvar,zsprpn,'2RPN') ! zsp output
!
zcon = 2.0
do jj=1,nj+2
zsprpn(1,jj) = zsprpn(1,jj)/zcon
enddo
!
do ji=1,ni+2
zsprpn(ji,1) = zsprpn(ji,1)/zcon
enddo
!
zcon = 4.*real(ni*nj)
do jj=1,nj+2
do ji=1,ni+2
zsprpn(ji,jj) = zcon*zsprpn(ji,jj)
enddo
enddo
!
call transp(zspvar,zsprpn,'2VAR')
!
do jla = 1, nla
sptb(jla,1,jk) = zspvar(jla,1)
sptb(jla,2,jk) = zspvar(jla,2)
enddo
enddo
endif
! call maxmin(sptb,nla,nflev,2,zmin,zmax,
! & idum1,idum2,idum3,idum4,'anormsp ',
! & 'SB')
!
return
end