1 | module tpindex_mod |
---|
2 | |
---|
3 | implicit none |
---|
4 | |
---|
5 | contains |
---|
6 | |
---|
7 | subroutine tpindex(pw,tw,qvar,pref,tref,wrefvar,LCOEF,MT,MP, |
---|
8 | & NVAR,wratio) |
---|
9 | |
---|
10 | !================================================================== |
---|
11 | ! |
---|
12 | ! Purpose |
---|
13 | ! ------- |
---|
14 | ! Interpolate K-coefficients to the given P,T and Qvar values. |
---|
15 | ! |
---|
16 | ! Notes |
---|
17 | ! ----- |
---|
18 | ! The interpolation is the usual one in two dimensions given |
---|
19 | ! in "Numerical Recipes", where the "X" are P, the "Y" are |
---|
20 | ! T, and the F(X,Y) are the CO2 K-coefficients. |
---|
21 | ! |
---|
22 | ! The interpolating box is: |
---|
23 | ! |
---|
24 | ! (PL,TU) (PR,TU) |
---|
25 | ! |
---|
26 | ! (TW,PW) |
---|
27 | ! |
---|
28 | ! |
---|
29 | ! (PL,TL) (PR,TL) |
---|
30 | ! |
---|
31 | ! PL - Pressure left |
---|
32 | ! PR - Pressure right |
---|
33 | ! TL - Temperature lower |
---|
34 | ! TU - Temperature upper |
---|
35 | ! PW - Pressure wanted |
---|
36 | ! TW - Temperature wanted |
---|
37 | ! |
---|
38 | ! Inputs |
---|
39 | ! ------ |
---|
40 | ! PW - The pressure to interpolate to |
---|
41 | ! TW - The temperature to interpolate to |
---|
42 | ! Qvar - The abundance to interpolate to |
---|
43 | ! Pref - The tabulated (log) pressure grid |
---|
44 | ! Tref - The tabulated temperature grid |
---|
45 | ! WREFVAR - The tabulated abundance grid |
---|
46 | ! |
---|
47 | ! Outputs |
---|
48 | ! ------- |
---|
49 | ! MT - Temperature index (bottom left temperature) |
---|
50 | ! of bounding box |
---|
51 | ! MP - Pressure index (bottom left pressure) |
---|
52 | ! of bounding box |
---|
53 | ! NVAR - index (bottom left ) |
---|
54 | ! of bounding box |
---|
55 | ! LCOEF(4) - Interpolation coefficients |
---|
56 | ! WRATIO - weight for the interpolation of abundance |
---|
57 | ! |
---|
58 | ! Authors |
---|
59 | ! ------- |
---|
60 | ! Adapted from the NASA Ames code by R. Wordsworth (2009) |
---|
61 | ! |
---|
62 | !================================================================== |
---|
63 | |
---|
64 | use radinc_h, only: L_PINT, L_NTREF, L_REFVAR |
---|
65 | |
---|
66 | implicit none |
---|
67 | |
---|
68 | REAL,INTENT(IN) :: Tref(L_NTREF) |
---|
69 | REAL,INTENT(IN) :: pref(L_PINT) |
---|
70 | REAL,INTENT(IN) :: wrefvar(L_REFVAR) |
---|
71 | REAL,INTENT(IN) :: PW, TW, Qvar |
---|
72 | |
---|
73 | INTEGER,INTENT(OUT) :: MT, MP, NVAR |
---|
74 | REAL,INTENT(OUT) :: LCOEF(4), wratio |
---|
75 | |
---|
76 | INTEGER :: N |
---|
77 | REAL :: PWL ! local value for log10(PW) |
---|
78 | REAL :: TWL ! local value for TW |
---|
79 | REAL :: T ! linear interpolation weight along log(pressure) |
---|
80 | REAL :: U ! linear interpolation weight along temperature |
---|
81 | |
---|
82 | ! 1. For the interpolation along temperature |
---|
83 | ! Get the upper and lower temperature grid indicies that bound the |
---|
84 | ! requested temperature. If the sought temperature is below |
---|
85 | ! the T-grid minimum, assume that lower value. If the sought temperature |
---|
86 | ! is above the T-grid maximum, assume that maximum value. |
---|
87 | ! TW : temperature to interpolate to |
---|
88 | ! TREF : reference temperature array |
---|
89 | ! MT : index of TREF for (lower) bounding temperature |
---|
90 | ! U : weight for interpolation in temperature |
---|
91 | |
---|
92 | TWL = TW |
---|
93 | |
---|
94 | IF(TWL.LT.TREF(1)) THEN |
---|
95 | ! Below lowest tabulated temperature |
---|
96 | MT = 1 |
---|
97 | TWL=TREF(1)*1.00 |
---|
98 | ELSEIF(TWL.GE.TREF(L_NTREF)) THEN |
---|
99 | ! Above highest tabulated temperature |
---|
100 | MT=L_NTREF-1 |
---|
101 | TWL = TREF(L_NTREF)*1.00 |
---|
102 | ELSE |
---|
103 | ! Regular case, find encompassing tabulated temperatures |
---|
104 | do n=1,L_NTREF-1 |
---|
105 | IF (TWL.GE.TREF(N) .and. TWL.LT.TREF(N+1)) THEN |
---|
106 | MT = n |
---|
107 | EXIT |
---|
108 | END IF |
---|
109 | END DO |
---|
110 | |
---|
111 | END IF |
---|
112 | |
---|
113 | ! weight for the temperature interpolation |
---|
114 | U = (TWL-TREF(MT))/(TREF(MT+1)-TREF(MT)) |
---|
115 | |
---|
116 | ! 2. For interpolation along pressure |
---|
117 | ! Get the upper and lower pressure grid indicies that bound the |
---|
118 | ! requested pressure. If the sought pressure is below |
---|
119 | ! the P-grid minimum, assume that lower value. If the sought pressure |
---|
120 | ! is above the P-grid maximum, assume that maximum value. |
---|
121 | |
---|
122 | PWL = log10(PW) |
---|
123 | |
---|
124 | IF(PWL.LT.PREF(1)) THEN |
---|
125 | ! Below lowest tabulated pressure |
---|
126 | MP = 1 |
---|
127 | PWL=Pref(1)*1.00 |
---|
128 | ELSEIF(PWL.GE.PREF(L_PINT)) THEN |
---|
129 | ! Above highest tabulated pressure |
---|
130 | MP = L_PINT-1 |
---|
131 | PWL = PREF(L_PINT)*1.00 |
---|
132 | ELSE |
---|
133 | ! Regular case, find encompassing tabulated pressures |
---|
134 | do n=1,L_PINT-1 |
---|
135 | IF (PWL.GE.PREF(N) .and. PWL.LT.PREF(N+1)) THEN |
---|
136 | MP = n |
---|
137 | EXIT |
---|
138 | END IF |
---|
139 | END DO |
---|
140 | |
---|
141 | END IF |
---|
142 | |
---|
143 | ! weight for the pressure interpolation |
---|
144 | T = (PWL-PREF(MP))/(PREF(MP+1)-PREF(MP)) |
---|
145 | |
---|
146 | ! Build the interpolation coefficients (bilinear in temperature-log(pressure)) |
---|
147 | LCOEF(1) = (1.0-T)*(1.0-U) |
---|
148 | LCOEF(2) = T*(1.0-U) |
---|
149 | LCOEF(3) = T*U |
---|
150 | LCOEF(4) = (1.0-T)*U |
---|
151 | |
---|
152 | ! 3. For interpolation along abundances |
---|
153 | ! Get the indicies for abundance of the varying species. There are 10 sets of |
---|
154 | ! k-coefficients with differing amounts of variable vs. constant gas. |
---|
155 | |
---|
156 | IF(QVAR.LE.WREFVAR(1)) THEN |
---|
157 | ! Below lowest tabulated abundance |
---|
158 | NVAR = 1 |
---|
159 | WRATIO = 0.0D0 ! put all the weight on the first point |
---|
160 | ELSEIF(QVAR.GE.WREFVAR(L_REFVAR)) THEN |
---|
161 | ! Above highest tabulated abundance |
---|
162 | NVAR = L_REFVAR-1 ! TB16 in order to not oversize NVAr when doing |
---|
163 | !NVAR+1 |
---|
164 | WRATIO = 1.00D0 ! put all the weight on the last point |
---|
165 | ELSE |
---|
166 | ! Regular case, find encompassing tabulated abundances |
---|
167 | ! and compute corresponding weight |
---|
168 | DO N=2,L_REFVAR |
---|
169 | IF(QVAR.GE.WREFVAR(N-1) .and. QVAR.LT.WREFVAR(N)) THEN |
---|
170 | NVAR = N-1 |
---|
171 | WRATIO = (QVAR - WREFVAR(N-1))/(WREFVAR(N) - WREFVAR(N-1)) |
---|
172 | EXIT |
---|
173 | END IF |
---|
174 | END DO |
---|
175 | END IF |
---|
176 | |
---|
177 | end subroutine tpindex |
---|
178 | |
---|
179 | end module tpindex_mod |
---|
180 | |
---|