source: trunk/LMDZ.GENERIC/libf/phystd/bilinearbig.F90 @ 1351

Last change on this file since 1351 was 1315, checked in by milmd, 10 years ago

LMDZ.GENERIC. OpenMP directives added in generic physic. When running in pure OpenMP or hybrid OpenMP/MPI, may have some bugs with condense_cloud and wstats routines.

  • Property svn:executable set to *
File size: 2.0 KB
Line 
1      subroutine bilinearbig(nX,nY,x_arr,y_arr,f2d_arr,x_in,y_in,f,ind)
2
3!     Necessary for interpolation of continuum data
4!     optimized by A. Spiga 01/2013
5
6      implicit none
7
8      integer nX,nY,i,j,ind,b
9
10      real*8 x_in,y_in,x1,x2,y1,y2
11      real*8 f,f11,f12,f21,f22,fA,fB
12      real*8 x_arr(nX)
13      real*8 y_arr(nY)
14      real*8 f2d_arr(nX,nY)
15      real*8,save :: x,y
16!$OMP THREADPRIVATE(x,y)
17
18      integer strlen
19      character*100 label
20      label='subroutine bilinear'
21
22
23      x=x_in
24      y=y_in
25
26   !! AS: important to optimize here because the array is quite large
27   !! ... and actually calculations only need to be done once
28   !! IF ind=-9999 we have not calculated yet
29   if ( ind == -9999) then
30      !1st check we're within the wavenumber range
31      if ((x.lt.x_arr(2)).or.(x.gt.x_arr(nX-2))) then
32         ind=-1
33      else
34        i=1
35        x2=x_arr(i)
36        do while ( x2 .le. x )
37          x1=x2
38          i=i+1
39          x2=x_arr(i)
40          ind=i-1
41        end do
42      endif
43   endif
44
45   !! Either we already saw we are out of wavenumber range
46   !! ... and we just have to set f=0 and exit
47   if ( ind == -1) then
48      f=0.0D+0
49      return
50   !! Or we already determined ind -- so we just proceed
51   else
52      x1=x_arr(ind)
53      x2=x_arr(ind+1)
54   endif
55
56!     ... and for y within the temperature range
57      if ((y.lt.y_arr(1)).or.(y.gt.y_arr(nY))) then
58         write(*,*) 'Warning from bilinearH2H2:'
59         write(*,*) 'Outside continuum temperature range!'
60         if(y.lt.y_arr(1))then
61            y=y_arr(1)+0.01
62         endif
63         if(y.gt.y_arr(nY))then
64            y=y_arr(nY)-0.01
65         endif
66      else
67        j=1
68        y2=y_arr(j)
69        do while ( y2 .le. y )
70          y1=y2
71          j=j+1
72          y2=y_arr(j)
73          b=j-1
74        end do
75      endif
76     
77      f11=f2d_arr(ind,b)
78      f21=f2d_arr(ind+1,b)
79      f12=f2d_arr(ind,b+1)
80      f22=f2d_arr(ind+1,b+1)
81
82      call bilinear(f,f11,f21,f12,f22,x,x1,x2,y,y1,y2)
83
84      return
85    end subroutine bilinearbig
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