/[lmdze]/trunk/Sources/phylmd/Radlwsw/swtt1.f
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Annotation of /trunk/Sources/phylmd/Radlwsw/swtt1.f

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Revision 81 - (hide annotations)
Wed Mar 5 14:38:41 2014 UTC (10 years, 3 months ago) by guez
Original Path: trunk/phylmd/Radlwsw/swtt1.f90
File size: 3945 byte(s) 
 Converted to free source form files which were still in fixed source
form. The conversion was done using the polish mode of the NAG Fortran
Compiler.

In addition to converting to free source form, the processing of the
files also:

-- indented the code (including comments);

-- set Fortran keywords to uppercase, and set all other identifiers
to lower case;

-- added qualifiers to end statements (for example "end subroutine
conflx", instead of "end");

-- changed the terminating statements of all DO loops so that each
loop ends with an ENDDO statement (instead of a labeled continue).
1 guez 81 SUBROUTINE swtt1(knu, kabs, kind, pu, ptr)
2     USE dimens_m
3     USE dimphy
4     USE raddim
5     IMPLICIT NONE
6    
7     ! -----------------------------------------------------------------------
8     ! PURPOSE.
9     ! --------
10     ! THIS ROUTINE COMPUTES THE TRANSMISSION FUNCTIONS FOR ALL THE
11     ! ABSORBERS (H2O, UNIFORMLY MIXED GASES, AND O3) IN THE TWO SPECTRAL
12     ! INTERVALS.
13    
14     ! METHOD.
15     ! -------
16    
17     ! TRANSMISSION FUNCTION ARE COMPUTED USING PADE APPROXIMANTS
18     ! AND HORNER'S ALGORITHM.
19    
20     ! REFERENCE.
21     ! ----------
22    
23     ! SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND
24     ! ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS
25    
26     ! AUTHOR.
27     ! -------
28     ! JEAN-JACQUES MORCRETTE *ECMWF*
29    
30     ! MODIFICATIONS.
31     ! --------------
32     ! ORIGINAL : 95-01-20
33     ! -----------------------------------------------------------------------
34     ! * ARGUMENTS:
35    
36     INTEGER knu ! INDEX OF THE SPECTRAL INTERVAL
37     INTEGER kabs ! NUMBER OF ABSORBERS
38     INTEGER kind(kabs) ! INDICES OF THE ABSORBERS
39     DOUBLE PRECISION pu(kdlon, kabs) ! ABSORBER AMOUNT
40    
41     DOUBLE PRECISION ptr(kdlon, kabs) ! TRANSMISSION FUNCTION
42    
43     ! * LOCAL VARIABLES:
44    
45     DOUBLE PRECISION zr1(kdlon)
46     DOUBLE PRECISION zr2(kdlon)
47     DOUBLE PRECISION zu(kdlon)
48     INTEGER jl, ja, i, j, ia
49    
50     ! * Prescribed Data:
51    
52     DOUBLE PRECISION apad(2, 3, 7), bpad(2, 3, 7), d(2, 3)
53     SAVE apad, bpad, d
54     DATA ((apad(1,i,j),i=1,3), j=1, 7)/0.912418292E+05, 0.000000000E-00, &
55     0.925887084E-04, 0.723613782E+05, 0.000000000E-00, 0.129353723E-01, &
56     0.596037057E+04, 0.000000000E-00, 0.800821928E+00, 0.000000000E-00, &
57     0.000000000E-00, 0.242715973E+02, 0.000000000E-00, 0.000000000E-00, &
58     0.878331486E+02, 0.000000000E-00, 0.000000000E-00, 0.191559725E+02, &
59     0.000000000E-00, 0.000000000E-00, 0.000000000E+00/
60     DATA ((apad(2,i,j),i=1,3), j=1, 7)/0.376655383E-08, 0.739646016E-08, &
61     0.410177786E+03, 0.978576773E-04, 0.131849595E-03, 0.672595424E+02, &
62     0.387714006E+00, 0.437772681E+00, 0.000000000E-00, 0.118461660E+03, &
63     0.151345118E+03, 0.000000000E-00, 0.119079797E+04, 0.233628890E+04, &
64     0.000000000E-00, 0.293353397E+03, 0.797219934E+03, 0.000000000E-00, &
65     0.000000000E+00, 0.000000000E+00, 0.000000000E+00/
66    
67     DATA ((bpad(1,i,j),i=1,3), j=1, 7)/0.912418292E+05, 0.000000000E-00, &
68     0.925887084E-04, 0.724555318E+05, 0.000000000E-00, 0.131812683E-01, &
69     0.602593328E+04, 0.000000000E-00, 0.812706117E+00, 0.100000000E+01, &
70     0.000000000E-00, 0.249863591E+02, 0.000000000E-00, 0.000000000E-00, &
71     0.931071925E+02, 0.000000000E-00, 0.000000000E-00, 0.252233437E+02, &
72     0.000000000E-00, 0.000000000E-00, 0.100000000E+01/
73     DATA ((bpad(2,i,j),i=1,3), j=1, 7)/0.376655383E-08, 0.739646016E-08, &
74     0.410177786E+03, 0.979023421E-04, 0.131861712E-03, 0.731185438E+02, &
75     0.388611139E+00, 0.437949001E+00, 0.100000000E+01, 0.120291383E+03, &
76     0.151692730E+03, 0.000000000E+00, 0.130531005E+04, 0.237071130E+04, &
77     0.000000000E+00, 0.415049409E+03, 0.867914360E+03, 0.000000000E+00, &
78     0.100000000E+01, 0.100000000E+01, 0.000000000E+00/
79    
80     DATA (d(1,i), i=1, 3)/0.00, 0.00, 0.00/
81     DATA (d(2,i), i=1, 3)/0.000000000, 0.000000000, 0.800000000/
82     ! -----------------------------------------------------------------------
83    
84     ! * 1. HORNER'S ALGORITHM TO COMPUTE TRANSMISSION FUNCTION
85    
86    
87     DO ja = 1, kabs
88     ia = kind(ja)
89     DO jl = 1, kdlon
90     zu(jl) = pu(jl, ja)
91     zr1(jl) = apad(knu, ia, 1) + zu(jl)*(apad(knu,ia,2)+zu(jl)*(apad(knu, &
92     ia,3)+zu(jl)*(apad(knu,ia,4)+zu(jl)*(apad(knu,ia,5)+zu(jl)*(apad(knu, &
93     ia,6)+zu(jl)*(apad(knu,ia,7)))))))
94    
95     zr2(jl) = bpad(knu, ia, 1) + zu(jl)*(bpad(knu,ia,2)+zu(jl)*(bpad(knu, &
96     ia,3)+zu(jl)*(bpad(knu,ia,4)+zu(jl)*(bpad(knu,ia,5)+zu(jl)*(bpad(knu, &
97     ia,6)+zu(jl)*(bpad(knu,ia,7)))))))
98    
99    
100     ! * 2. ADD THE BACKGROUND TRANSMISSION
101    
102    
103     ptr(jl, ja) = (zr1(jl)/zr2(jl))*(1.-d(knu,ia)) + d(knu, ia)
104     END DO
105     END DO
106    
107     RETURN
108     END SUBROUTINE swtt1
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