source: LMDZ6/branches/Amaury_dev/libf/misc/lmdz_interpolation.f90 @ 5229

Last change on this file since 5229 was 5158, checked in by abarral, 4 months ago

Add missing klon on strataer_emiss_mod.F90
Correct various missing explicit declarations
Replace tabs by spaces (tabs are not part of the fortran charset)
Continue cleaning modules
Removed unused arguments and variables

  • Property copyright set to
    Name of program: LMDZ
    Creation date: 1984
    Version: LMDZ5
    License: CeCILL version 2
    Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
    See the license file in the root directory
File size: 3.7 KB
Line 
1! $Id$
2module lmdz_interpolation
3
4  ! From Press et al., 1996, version 2.10a
5  ! B3 Interpolation and Extrapolation
6
7  IMPLICIT NONE; PRIVATE
8  PUBLIC locate, hunt
9
10CONTAINS
11
12  pure FUNCTION locate(xx, x)
13
14    REAL, DIMENSION(:), INTENT(IN) :: xx
15    REAL, INTENT(IN) :: x
16    INTEGER  locate
17
18    ! Given an array xx(1:N), and given a value x, returns a value j,
19    ! between 0 and N, such that x is between xx(j) and xx(j + 1). xx
20    ! must be monotonic, either increasing or decreasing. j = 0 or j =
21    ! N is returned to indicate that x is out of range. This
22    ! procedure should not be called with a zero-sized array argument.
23    ! See notes.
24
25    INTEGER  n, jl, jm, ju
26    LOGICAL  ascnd
27
28    !----------------------------
29
30    n = size(xx)
31    ascnd = (xx(n) >= xx(1))
32    ! (True if ascending order of table, false otherwise.)
33    ! Initialize lower and upper limits:
34    jl = 0
35    ju = n + 1
36    DO while (ju - jl > 1)
37      jm = (ju + jl) / 2 ! Compute a midpoint,
38      IF (ascnd .eqv. (x >= xx(jm))) THEN
39        jl = jm ! and replace either the lower limit
40      else
41        ju = jm ! or the upper limit, as appropriate.
42      end if
43    END DO
44    ! {ju == jl + 1}
45
46    ! {(ascnd .AND. xx(jl) <= x < xx(jl+1))
47    !  .neqv.
48    !  (.NOT. ascnd .AND. xx(jl+1) <= x < xx(jl))}
49
50    ! Then set the output, being careful with the endpoints:
51    IF (x == xx(1)) THEN
52      locate = 1
53    ELSE IF (x == xx(n)) THEN
54      locate = n - 1
55    else
56      locate = jl
57    end if
58
59  END FUNCTION locate
60
61  !***************************
62
63  pure SUBROUTINE hunt(xx, x, jlo)
64
65    ! Given an array xx(1:N ), and given a value x, returns a value
66    ! jlo such that x is between xx(jlo) and xx(jlo+1). xx must be
67    ! monotonic, either increasing or decreasing. jlo = 0 or jlo = N is
68    ! returned to indicate that x is out of range. jlo on input is taken as
69    ! the initial guess for jlo on output.
70    ! Modified so that it uses the information "jlo = 0" on input.
71
72    INTEGER, INTENT(INOUT) :: jlo
73    REAL, INTENT(IN) :: x
74    REAL, DIMENSION(:), INTENT(IN) :: xx
75    INTEGER  n, inc, jhi, jm
76    LOGICAL  ascnd, hunt_up
77
78    !-----------------------------------------------------
79
80    n = size(xx)
81    ascnd = (xx(n) >= xx(1))
82    ! (True if ascending order of table, false otherwise.)
83    IF (jlo < 0 .OR. jlo > n) THEN
84      ! Input guess not useful. Go immediately to bisection.
85      jlo = 0
86      jhi = n + 1
87    else
88      inc = 1 ! Set the hunting increment.
89      IF (jlo == 0) THEN
90        hunt_up = .TRUE.
91      else
92        hunt_up = x >= xx(jlo) .eqv. ascnd
93      end if
94      IF (hunt_up) then ! Hunt up:
95        DO
96          jhi = jlo + inc
97          IF (jhi > n) then ! Done hunting, since off end of table.
98            jhi = n + 1
99            exit
100          else
101            IF (x < xx(jhi) .eqv. ascnd) exit
102            jlo = jhi ! Not done hunting,
103            inc = inc + inc ! so double the increment
104          end if
105        END DO ! and try again.
106      else ! Hunt down:
107        jhi = jlo
108        DO
109          jlo = jhi - inc
110          IF (jlo < 1) then ! Done hunting, since off end of table.
111            jlo = 0
112            exit
113          else
114            IF (x >= xx(jlo) .eqv. ascnd) exit
115            jhi = jlo ! Not done hunting,
116            inc = inc + inc ! so double the increment
117          end if
118        END DO ! and try again.
119      end if
120    end if ! Done hunting, value bracketed.
121
122    DO ! Hunt is done, so begin the final bisection phase:
123      IF (jhi - jlo <= 1) THEN
124        IF (x == xx(n)) jlo = n - 1
125        IF (x == xx(1)) jlo = 1
126        exit
127      else
128        jm = (jhi + jlo) / 2
129        IF (x >= xx(jm) .eqv. ascnd) THEN
130          jlo = jm
131        else
132          jhi = jm
133        end if
134      end if
135    END DO
136
137  END SUBROUTINE hunt
138
139END MODULE lmdz_interpolation
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