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3 |
! From histcom.f90, version 2.1 2004/04/21 09:27:10 |
! From histcom.f90, version 2.1 2004/04/21 09:27:10 |
4 |
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5 |
implicit none |
USE errioipsl, ONLY: histerr |
6 |
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USE histcom_var, ONLY: datasz_in, datasz_max, date0, deltat, & |
7 |
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freq_opp, freq_wrt, fuchnbout, last_opp, last_opp_chk, last_wrt, & |
8 |
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last_wrt_chk, missing_val, nbopp, nb_files, scal, scsize, sopps, & |
9 |
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topp |
10 |
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use histvar_seq_m, only: histvar_seq |
11 |
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use histwrite_real_m, only: histwrite_real |
12 |
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use isittime_m, only: isittime |
13 |
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USE mathop_m, ONLY: mathop |
14 |
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15 |
PRIVATE |
implicit none |
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PUBLIC histwrite |
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16 |
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17 |
INTERFACE histwrite |
INTERFACE histwrite |
18 |
! The "histwrite" procedures give the data to the input-output system. |
! The "histwrite" procedures give the data to the input-output system. |
23 |
! later stage we can call different operations and write subroutines |
! later stage we can call different operations and write subroutines |
24 |
! for the REAL and INTEGER interfaces. |
! for the REAL and INTEGER interfaces. |
25 |
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26 |
! INTEGER, INTENT(IN):: pfileid |
! INTEGER, INTENT(IN):: fileid |
27 |
! The ID of the file on which this variable is to be written. |
! The ID of the file on which this variable is to be written. |
28 |
! The variable should have been defined in this file before. |
! The variable should have been defined in this file before. |
29 |
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30 |
! CHARACTER(LEN=*), INTENT(IN):: pvarname |
! CHARACTER(LEN=*), INTENT(IN):: varname |
31 |
! short name of the variable |
! short name of the variable |
32 |
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33 |
! INTEGER, INTENT(IN):: pitau |
! INTEGER, INTENT(IN):: itau |
34 |
! current timestep |
! current timestep |
35 |
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36 |
! REAL, INTENT(IN):: pdata(:) or (:, :) or (:, :, :) |
! REAL, INTENT(IN):: pdata(:) or (:, :) or (:, :, :) |
37 |
! values of the variable |
! values of the variable |
38 |
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! INTEGER, INTENT(IN):: nbindex |
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! number of indices provided |
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! If it is equal to the size of the full field as provided in histdef |
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! then nothing is done. |
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! INTEGER, INTENT(IN):: nindex(nbindex) |
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! The indices used to expand the variable (pdata) onto the full field |
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39 |
! The difference between the procedures is the rank of "pdata". |
! The difference between the procedures is the rank of "pdata". |
40 |
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41 |
MODULE PROCEDURE histwrite_r1d, histwrite_r2d, histwrite_r3d |
MODULE PROCEDURE histwrite_r1d, histwrite_r2d, histwrite_r3d |
42 |
END INTERFACE |
END INTERFACE histwrite |
43 |
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44 |
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PRIVATE |
45 |
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public histwrite |
46 |
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47 |
CONTAINS |
CONTAINS |
48 |
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49 |
SUBROUTINE histwrite_r1d(pfileid, pvarname, pitau, pdata) |
SUBROUTINE histwrite_r1d(fileid, varname, itau, pdata) |
50 |
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51 |
USE errioipsl, ONLY : histerr |
INTEGER, INTENT(IN):: fileid, itau |
52 |
use calendar, only: isittime |
CHARACTER(LEN=*), INTENT(IN):: varname |
53 |
USE mathop_m, ONLY : mathop |
REAL, INTENT(IN):: pdata(:) |
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use histcom_var |
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INTEGER, INTENT(IN) :: pfileid, pitau |
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REAL, INTENT(IN) :: pdata(:) |
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CHARACTER(LEN=*), INTENT(IN) :: pvarname |
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! Variables local to the procedure: |
! Variables local to the procedure: |
56 |
integer nbindex, nindex(size(pdata)) |
integer nbindex, nindex(size(pdata)) |
57 |
LOGICAL :: do_oper, do_write, largebuf |
LOGICAL:: do_oper, do_write, largebuf |
58 |
INTEGER :: varid, io, nbpt_in, nbpt_out |
INTEGER:: varid, io, nbpt_in, nbpt_out |
59 |
REAL, ALLOCATABLE, SAVE :: buff_tmp(:) |
REAL, ALLOCATABLE, SAVE:: buff_tmp(:) |
60 |
INTEGER, SAVE :: buff_tmp_sz |
INTEGER, SAVE:: buff_tmp_sz |
61 |
CHARACTER(LEN=7) :: tmp_opp |
CHARACTER(LEN=7):: tmp_opp |
62 |
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63 |
!-------------------------------------------------------------------- |
!-------------------------------------------------------------------- |
64 |
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66 |
nindex = 0 |
nindex = 0 |
67 |
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68 |
! 1.0 Try to catch errors like specifying the wrong file ID. |
! 1.0 Try to catch errors like specifying the wrong file ID. |
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! Thanks Marine for showing us what errors users can make ! |
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70 |
IF ( (pfileid < 1).OR.(pfileid > nb_files) ) THEN |
IF ((fileid < 1) .OR. (fileid > nb_files)) THEN |
71 |
CALL histerr (3, "histwrite", & |
CALL histerr(3, "histwrite", & |
72 |
& 'Illegal file ID in the histwrite of variable', pvarname, ' ') |
'Illegal file ID in the histwrite of variable', varname, ' ') |
73 |
ENDIF |
ENDIF |
74 |
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! 1.1 Find the id of the variable to be written and the real time |
! 1.1 Find the id of the variable to be written and the real time |
76 |
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77 |
CALL histvar_seq (pfileid, pvarname, varid) |
CALL histvar_seq(fileid, varname, varid) |
78 |
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79 |
! 2.0 do nothing for never operation |
! 2.0 do nothing for never operation |
80 |
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81 |
tmp_opp = topp(pfileid, varid) |
tmp_opp = topp(fileid, varid) |
82 |
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83 |
IF (TRIM(tmp_opp) == "never") THEN |
IF (TRIM(tmp_opp) == "never") THEN |
84 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
85 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
86 |
ENDIF |
ENDIF |
87 |
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88 |
! 3.0 We check if we need to do an operation |
! 3.0 We check if we need to do an operation |
89 |
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90 |
IF (last_opp_chk(pfileid, varid) == pitau) THEN |
IF (last_opp_chk(fileid, varid) == itau) THEN |
91 |
CALL histerr (3, "histwrite", & |
CALL histerr(3, "histwrite", & |
92 |
& 'This variable as already been analysed at the present', & |
'This variable as already been analysed at the present', & |
93 |
& 'time step', ' ') |
'time step', ' ') |
94 |
ENDIF |
ENDIF |
95 |
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96 |
CALL isittime & |
CALL isittime(itau, date0(fileid), deltat(fileid), & |
97 |
& (pitau, date0(pfileid), deltat(pfileid), freq_opp(pfileid, varid), & |
freq_opp(fileid, varid), last_opp(fileid, varid), & |
98 |
& last_opp(pfileid, varid), last_opp_chk(pfileid, varid), do_oper) |
last_opp_chk(fileid, varid), do_oper) |
99 |
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100 |
! 4.0 We check if we need to write the data |
! 4.0 We check if we need to write the data |
101 |
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102 |
IF (last_wrt_chk(pfileid, varid) == pitau) THEN |
IF (last_wrt_chk(fileid, varid) == itau) THEN |
103 |
CALL histerr (3, "histwrite", & |
CALL histerr(3, "histwrite", & |
104 |
& 'This variable as already been written for the present', & |
'This variable as already been written for the present', & |
105 |
& 'time step', ' ') |
'time step', ' ') |
106 |
ENDIF |
ENDIF |
107 |
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108 |
CALL isittime & |
CALL isittime(itau, date0(fileid), deltat(fileid), & |
109 |
& (pitau, date0(pfileid), deltat(pfileid), freq_wrt(pfileid, varid), & |
freq_wrt(fileid, varid), last_wrt(fileid, varid), & |
110 |
& last_wrt(pfileid, varid), last_wrt_chk(pfileid, varid), do_write) |
last_wrt_chk(fileid, varid), do_write) |
111 |
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112 |
! 5.0 histwrite called |
! 5.0 histwrite called |
113 |
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114 |
IF (do_oper.OR.do_write) THEN |
IF (do_oper .OR. do_write) THEN |
115 |
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! 5.1 Get the sizes of the data we will handle |
116 |
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117 |
!- 5.1 Get the sizes of the data we will handle |
IF (datasz_in(fileid, varid, 1) <= 0) THEN |
118 |
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! There is the risk here that the user has over-sized the array. |
119 |
IF (datasz_in(pfileid, varid, 1) <= 0) THEN |
! But how can we catch this ? |
120 |
!--- There is the risk here that the user has over-sized the array. |
! In the worst case we will do impossible operations |
121 |
!--- But how can we catch this ? |
! on part of the data ! |
122 |
!--- In the worst case we will do impossible operations |
datasz_in(fileid, varid, 1) = SIZE(pdata) |
123 |
!--- on part of the data ! |
datasz_in(fileid, varid, 2) = -1 |
124 |
datasz_in(pfileid, varid, 1) = SIZE(pdata) |
datasz_in(fileid, varid, 3) = -1 |
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datasz_in(pfileid, varid, 2) = -1 |
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datasz_in(pfileid, varid, 3) = -1 |
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125 |
ENDIF |
ENDIF |
126 |
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127 |
!- 5.2 The maximum size of the data will give the size of the buffer |
! 5.2 The maximum size of the data will give the size of the buffer |
128 |
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129 |
IF (datasz_max(pfileid, varid) <= 0) THEN |
IF (datasz_max(fileid, varid) <= 0) THEN |
130 |
largebuf = .FALSE. |
largebuf = .FALSE. |
131 |
DO io=1, nbopp(pfileid, varid) |
DO io=1, nbopp(fileid, varid) |
132 |
IF (INDEX(fuchnbout, sopps(pfileid, varid, io)) > 0) THEN |
IF (INDEX(fuchnbout, sopps(fileid, varid, io)) > 0) THEN |
133 |
largebuf = .TRUE. |
largebuf = .TRUE. |
134 |
ENDIF |
ENDIF |
135 |
ENDDO |
ENDDO |
136 |
IF (largebuf) THEN |
IF (largebuf) THEN |
137 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = scsize(fileid, varid, 1) & |
138 |
& scsize(pfileid, varid, 1) & |
* scsize(fileid, varid, 2) *scsize(fileid, varid, 3) |
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& *scsize(pfileid, varid, 2) & |
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& *scsize(pfileid, varid, 3) |
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139 |
ELSE |
ELSE |
140 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = datasz_in(fileid, varid, 1) |
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& datasz_in(pfileid, varid, 1) |
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141 |
ENDIF |
ENDIF |
142 |
ENDIF |
ENDIF |
143 |
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144 |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
145 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE(buff_tmp(datasz_max(fileid, varid))) |
146 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
147 |
ELSE IF (datasz_max(pfileid, varid) > buff_tmp_sz) THEN |
ELSE IF (datasz_max(fileid, varid) > buff_tmp_sz) THEN |
148 |
DEALLOCATE (buff_tmp) |
DEALLOCATE(buff_tmp) |
149 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE(buff_tmp(datasz_max(fileid, varid))) |
150 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
151 |
ENDIF |
ENDIF |
152 |
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153 |
!- We have to do the first operation anyway. |
! We have to do the first operation anyway. Thus we do it here |
154 |
!- Thus we do it here and change the ranke |
! and change the ranke of the data at the same time. This |
155 |
!- of the data at the same time. This should speed up things. |
! should speed up things. |
156 |
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157 |
nbpt_in = datasz_in(pfileid, varid, 1) |
nbpt_in = datasz_in(fileid, varid, 1) |
158 |
nbpt_out = datasz_max(pfileid, varid) |
nbpt_out = datasz_max(fileid, varid) |
159 |
CALL mathop (sopps(pfileid, varid, 1), nbpt_in, pdata, & |
CALL mathop(sopps(fileid, varid, 1), nbpt_in, pdata, missing_val, & |
160 |
& missing_val, nbindex, nindex, & |
nbindex, nindex, scal(fileid, varid, 1), nbpt_out, buff_tmp) |
161 |
& scal(pfileid, varid, 1), nbpt_out, buff_tmp) |
CALL histwrite_real(fileid, varid, itau, nbpt_out, buff_tmp, nbindex, & |
162 |
CALL histwrite_real (pfileid, varid, pitau, nbpt_out, & |
nindex, do_oper, do_write) |
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& buff_tmp, nbindex, nindex, do_oper, do_write) |
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163 |
ENDIF |
ENDIF |
164 |
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165 |
! 6.0 Manage time steps |
! 6.0 Manage time steps |
166 |
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167 |
IF ((TRIM(tmp_opp) /= "once").AND.(TRIM(tmp_opp) /= "never")) THEN |
IF ((TRIM(tmp_opp) /= "once") .AND. (TRIM(tmp_opp) /= "never")) THEN |
168 |
last_opp_chk(pfileid, varid) = pitau |
last_opp_chk(fileid, varid) = itau |
169 |
last_wrt_chk(pfileid, varid) = pitau |
last_wrt_chk(fileid, varid) = itau |
170 |
ELSE |
ELSE |
171 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
172 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
173 |
ENDIF |
ENDIF |
174 |
!-------------------------- |
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175 |
END SUBROUTINE histwrite_r1d |
END SUBROUTINE histwrite_r1d |
176 |
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177 |
!=== |
!************************************************************************ |
178 |
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179 |
SUBROUTINE histwrite_r2d (pfileid, pvarname, pitau, pdata) |
SUBROUTINE histwrite_r2d (fileid, varname, itau, pdata) |
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!-------------------------------------------------------------------- |
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180 |
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181 |
use calendar, only: isittime |
INTEGER, INTENT(IN):: fileid, itau |
182 |
USE errioipsl, ONLY : histerr |
REAL, INTENT(IN):: pdata(:, :) |
183 |
USE mathop_m, ONLY : mathop |
CHARACTER(LEN=*), INTENT(IN):: varname |
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use histcom_var |
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INTEGER, INTENT(IN) :: pfileid, pitau |
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REAL, DIMENSION(:, :), INTENT(IN) :: pdata |
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CHARACTER(LEN=*), INTENT(IN) :: pvarname |
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184 |
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185 |
integer nbindex, nindex(size(pdata)) |
integer nbindex, nindex(size(pdata)) |
186 |
LOGICAL :: do_oper, do_write, largebuf |
LOGICAL:: do_oper, do_write, largebuf |
187 |
INTEGER :: varid, io, nbpt_in(1:2), nbpt_out |
INTEGER:: varid, io, nbpt_in(1:2), nbpt_out |
188 |
REAL, ALLOCATABLE, SAVE :: buff_tmp(:) |
REAL, ALLOCATABLE, SAVE:: buff_tmp(:) |
189 |
INTEGER, SAVE :: buff_tmp_sz |
INTEGER, SAVE:: buff_tmp_sz |
190 |
CHARACTER(LEN=7) :: tmp_opp |
CHARACTER(LEN=7):: tmp_opp |
191 |
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192 |
!-------------------------------------------------------------------- |
!-------------------------------------------------------------------- |
193 |
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195 |
nindex = 0 |
nindex = 0 |
196 |
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197 |
! 1.0 Try to catch errors like specifying the wrong file ID. |
! 1.0 Try to catch errors like specifying the wrong file ID. |
|
! Thanks Marine for showing us what errors users can make ! |
|
198 |
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199 |
IF ( (pfileid < 1).OR.(pfileid > nb_files) ) THEN |
IF ( (fileid < 1).OR.(fileid > nb_files) ) THEN |
200 |
CALL histerr (3, "histwrite", & |
CALL histerr (3, "histwrite", & |
201 |
& 'Illegal file ID in the histwrite of variable', pvarname, ' ') |
'Illegal file ID in the histwrite of variable', varname, ' ') |
202 |
ENDIF |
ENDIF |
203 |
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204 |
! 1.1 Find the id of the variable to be written and the real time |
! 1.1 Find the id of the variable to be written and the real time |
205 |
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206 |
CALL histvar_seq (pfileid, pvarname, varid) |
CALL histvar_seq (fileid, varname, varid) |
207 |
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208 |
! 2.0 do nothing for never operation |
! 2.0 do nothing for never operation |
209 |
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210 |
tmp_opp = topp(pfileid, varid) |
tmp_opp = topp(fileid, varid) |
211 |
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212 |
IF (TRIM(tmp_opp) == "never") THEN |
IF (TRIM(tmp_opp) == "never") THEN |
213 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
214 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
215 |
ENDIF |
ENDIF |
216 |
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217 |
! 3.0 We check if we need to do an operation |
! 3.0 We check if we need to do an operation |
218 |
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219 |
IF (last_opp_chk(pfileid, varid) == pitau) THEN |
IF (last_opp_chk(fileid, varid) == itau) CALL histerr (3, "histwrite", & |
220 |
CALL histerr (3, "histwrite", & |
'This variable as already been analysed at the present', & |
221 |
& 'This variable as already been analysed at the present', & |
'time step', ' ') |
222 |
& 'time step', ' ') |
|
223 |
ENDIF |
CALL isittime(itau, date0(fileid), deltat(fileid), & |
224 |
|
freq_opp(fileid, varid), last_opp(fileid, varid), & |
225 |
CALL isittime & |
last_opp_chk(fileid, varid), do_oper) |
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& (pitau, date0(pfileid), deltat(pfileid), freq_opp(pfileid, varid), & |
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& last_opp(pfileid, varid), last_opp_chk(pfileid, varid), do_oper) |
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226 |
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227 |
! 4.0 We check if we need to write the data |
! 4.0 We check if we need to write the data |
228 |
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229 |
IF (last_wrt_chk(pfileid, varid) == pitau) THEN |
IF (last_wrt_chk(fileid, varid) == itau) THEN |
230 |
CALL histerr (3, "histwrite", & |
CALL histerr (3, "histwrite", & |
231 |
& 'This variable as already been written for the present', & |
'This variable as already been written for the present', & |
232 |
& 'time step', ' ') |
'time step', ' ') |
233 |
ENDIF |
ENDIF |
234 |
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235 |
CALL isittime & |
CALL isittime & |
236 |
& (pitau, date0(pfileid), deltat(pfileid), freq_wrt(pfileid, varid), & |
(itau, date0(fileid), deltat(fileid), freq_wrt(fileid, varid), & |
237 |
& last_wrt(pfileid, varid), last_wrt_chk(pfileid, varid), do_write) |
last_wrt(fileid, varid), last_wrt_chk(fileid, varid), do_write) |
238 |
|
|
239 |
! 5.0 histwrite called |
! 5.0 histwrite called |
240 |
|
|
242 |
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|
243 |
!- 5.1 Get the sizes of the data we will handle |
!- 5.1 Get the sizes of the data we will handle |
244 |
|
|
245 |
IF (datasz_in(pfileid, varid, 1) <= 0) THEN |
IF (datasz_in(fileid, varid, 1) <= 0) THEN |
246 |
!--- There is the risk here that the user has over-sized the array. |
!--- There is the risk here that the user has over-sized the array. |
247 |
!--- But how can we catch this ? |
!--- But how can we catch this ? |
248 |
!--- In the worst case we will do impossible operations |
!--- In the worst case we will do impossible operations |
249 |
!--- on part of the data ! |
!--- on part of the data ! |
250 |
datasz_in(pfileid, varid, 1) = SIZE(pdata, DIM=1) |
datasz_in(fileid, varid, 1) = SIZE(pdata, DIM=1) |
251 |
datasz_in(pfileid, varid, 2) = SIZE(pdata, DIM=2) |
datasz_in(fileid, varid, 2) = SIZE(pdata, DIM=2) |
252 |
datasz_in(pfileid, varid, 3) = -1 |
datasz_in(fileid, varid, 3) = -1 |
253 |
ENDIF |
ENDIF |
254 |
|
|
255 |
!- 5.2 The maximum size of the data will give the size of the buffer |
!- 5.2 The maximum size of the data will give the size of the buffer |
256 |
|
|
257 |
IF (datasz_max(pfileid, varid) <= 0) THEN |
IF (datasz_max(fileid, varid) <= 0) THEN |
258 |
largebuf = .FALSE. |
largebuf = .FALSE. |
259 |
DO io=1, nbopp(pfileid, varid) |
DO io=1, nbopp(fileid, varid) |
260 |
IF (INDEX(fuchnbout, sopps(pfileid, varid, io)) > 0) THEN |
IF (INDEX(fuchnbout, sopps(fileid, varid, io)) > 0) THEN |
261 |
largebuf = .TRUE. |
largebuf = .TRUE. |
262 |
ENDIF |
ENDIF |
263 |
ENDDO |
ENDDO |
264 |
IF (largebuf) THEN |
IF (largebuf) THEN |
265 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = & |
266 |
& scsize(pfileid, varid, 1) & |
scsize(fileid, varid, 1) & |
267 |
& *scsize(pfileid, varid, 2) & |
*scsize(fileid, varid, 2) & |
268 |
& *scsize(pfileid, varid, 3) |
*scsize(fileid, varid, 3) |
269 |
ELSE |
ELSE |
270 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = & |
271 |
& datasz_in(pfileid, varid, 1) & |
datasz_in(fileid, varid, 1) & |
272 |
& *datasz_in(pfileid, varid, 2) |
*datasz_in(fileid, varid, 2) |
273 |
ENDIF |
ENDIF |
274 |
ENDIF |
ENDIF |
275 |
|
|
276 |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
277 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE (buff_tmp(datasz_max(fileid, varid))) |
278 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
279 |
ELSE IF (datasz_max(pfileid, varid) > buff_tmp_sz) THEN |
ELSE IF (datasz_max(fileid, varid) > buff_tmp_sz) THEN |
280 |
DEALLOCATE (buff_tmp) |
DEALLOCATE (buff_tmp) |
281 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE (buff_tmp(datasz_max(fileid, varid))) |
282 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
283 |
ENDIF |
ENDIF |
284 |
|
|
285 |
!- We have to do the first operation anyway. |
!- We have to do the first operation anyway. |
286 |
!- Thus we do it here and change the ranke |
!- Thus we do it here and change the ranke |
287 |
!- of the data at the same time. This should speed up things. |
!- of the data at the same time. This should speed up things. |
288 |
|
|
289 |
nbpt_in(1:2) = datasz_in(pfileid, varid, 1:2) |
nbpt_in(1:2) = datasz_in(fileid, varid, 1:2) |
290 |
nbpt_out = datasz_max(pfileid, varid) |
nbpt_out = datasz_max(fileid, varid) |
291 |
CALL mathop (sopps(pfileid, varid, 1), nbpt_in, pdata, & |
CALL mathop (sopps(fileid, varid, 1), nbpt_in, pdata, & |
292 |
& missing_val, nbindex, nindex, & |
missing_val, nbindex, nindex, & |
293 |
& scal(pfileid, varid, 1), nbpt_out, buff_tmp) |
scal(fileid, varid, 1), nbpt_out, buff_tmp) |
294 |
CALL histwrite_real (pfileid, varid, pitau, nbpt_out, & |
CALL histwrite_real (fileid, varid, itau, nbpt_out, & |
295 |
& buff_tmp, nbindex, nindex, do_oper, do_write) |
buff_tmp, nbindex, nindex, do_oper, do_write) |
296 |
ENDIF |
ENDIF |
297 |
|
|
298 |
! 6.0 Manage time steps |
! 6.0 Manage time steps |
299 |
|
|
300 |
IF ((TRIM(tmp_opp) /= "once").AND.(TRIM(tmp_opp) /= "never")) THEN |
IF ((TRIM(tmp_opp) /= "once").AND.(TRIM(tmp_opp) /= "never")) THEN |
301 |
last_opp_chk(pfileid, varid) = pitau |
last_opp_chk(fileid, varid) = itau |
302 |
last_wrt_chk(pfileid, varid) = pitau |
last_wrt_chk(fileid, varid) = itau |
303 |
ELSE |
ELSE |
304 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
305 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
306 |
ENDIF |
ENDIF |
307 |
!-------------------------- |
|
308 |
END SUBROUTINE histwrite_r2d |
END SUBROUTINE histwrite_r2d |
309 |
|
|
310 |
!=== |
!************************************************************************ |
311 |
|
|
312 |
SUBROUTINE histwrite_r3d (pfileid, pvarname, pitau, pdata) |
SUBROUTINE histwrite_r3d (fileid, varname, itau, pdata) |
|
!-------------------------------------------------------------------- |
|
313 |
|
|
314 |
use calendar, only: isittime |
INTEGER, INTENT(IN):: fileid, itau |
315 |
USE errioipsl, ONLY : histerr |
REAL, DIMENSION(:, :, :), INTENT(IN):: pdata |
316 |
USE mathop_m, ONLY : mathop |
CHARACTER(LEN=*), INTENT(IN):: varname |
|
use histcom_var |
|
|
|
|
|
INTEGER, INTENT(IN) :: pfileid, pitau |
|
|
REAL, DIMENSION(:, :, :), INTENT(IN) :: pdata |
|
|
CHARACTER(LEN=*), INTENT(IN) :: pvarname |
|
317 |
|
|
318 |
integer nbindex, nindex(size(pdata)) |
integer nbindex, nindex(size(pdata)) |
319 |
LOGICAL :: do_oper, do_write, largebuf |
LOGICAL:: do_oper, do_write, largebuf |
320 |
INTEGER :: varid, io, nbpt_in(1:3), nbpt_out |
INTEGER:: varid, io, nbpt_in(1:3), nbpt_out |
321 |
REAL, ALLOCATABLE, SAVE :: buff_tmp(:) |
REAL, ALLOCATABLE, SAVE:: buff_tmp(:) |
322 |
INTEGER, SAVE :: buff_tmp_sz |
INTEGER, SAVE:: buff_tmp_sz |
323 |
CHARACTER(LEN=7) :: tmp_opp |
CHARACTER(LEN=7):: tmp_opp |
324 |
|
|
325 |
!-------------------------------------------------------------------- |
!-------------------------------------------------------------------- |
326 |
|
|
330 |
! 1.0 Try to catch errors like specifying the wrong file ID. |
! 1.0 Try to catch errors like specifying the wrong file ID. |
331 |
! Thanks Marine for showing us what errors users can make ! |
! Thanks Marine for showing us what errors users can make ! |
332 |
|
|
333 |
IF ( (pfileid < 1).OR.(pfileid > nb_files) ) THEN |
IF ( (fileid < 1).OR.(fileid > nb_files) ) THEN |
334 |
CALL histerr (3, "histwrite", & |
CALL histerr (3, "histwrite", & |
335 |
& 'Illegal file ID in the histwrite of variable', pvarname, ' ') |
'Illegal file ID in the histwrite of variable', varname, ' ') |
336 |
ENDIF |
ENDIF |
337 |
|
|
338 |
! 1.1 Find the id of the variable to be written and the real time |
! 1.1 Find the id of the variable to be written and the real time |
339 |
|
|
340 |
CALL histvar_seq (pfileid, pvarname, varid) |
CALL histvar_seq (fileid, varname, varid) |
341 |
|
|
342 |
! 2.0 do nothing for never operation |
! 2.0 do nothing for never operation |
343 |
|
|
344 |
tmp_opp = topp(pfileid, varid) |
tmp_opp = topp(fileid, varid) |
345 |
|
|
346 |
IF (TRIM(tmp_opp) == "never") THEN |
IF (TRIM(tmp_opp) == "never") THEN |
347 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
348 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
349 |
ENDIF |
ENDIF |
350 |
|
|
351 |
! 3.0 We check if we need to do an operation |
! 3.0 We check if we need to do an operation |
352 |
|
|
353 |
IF (last_opp_chk(pfileid, varid) == pitau) THEN |
IF (last_opp_chk(fileid, varid) == itau) THEN |
354 |
CALL histerr (3, "histwrite", & |
CALL histerr (3, "histwrite", & |
355 |
& 'This variable as already been analysed at the present', & |
'This variable as already been analysed at the present', & |
356 |
& 'time step', ' ') |
'time step', ' ') |
357 |
ENDIF |
ENDIF |
358 |
|
|
359 |
CALL isittime & |
CALL isittime & |
360 |
& (pitau, date0(pfileid), deltat(pfileid), freq_opp(pfileid, varid), & |
(itau, date0(fileid), deltat(fileid), freq_opp(fileid, varid), & |
361 |
& last_opp(pfileid, varid), last_opp_chk(pfileid, varid), do_oper) |
last_opp(fileid, varid), last_opp_chk(fileid, varid), do_oper) |
362 |
|
|
363 |
! 4.0 We check if we need to write the data |
! 4.0 We check if we need to write the data |
364 |
|
|
365 |
IF (last_wrt_chk(pfileid, varid) == pitau) THEN |
IF (last_wrt_chk(fileid, varid) == itau) THEN |
366 |
CALL histerr (3, "histwrite", & |
CALL histerr (3, "histwrite", & |
367 |
& 'This variable as already been written for the present', & |
'This variable as already been written for the present', & |
368 |
& 'time step', ' ') |
'time step', ' ') |
369 |
ENDIF |
ENDIF |
370 |
|
|
371 |
CALL isittime & |
CALL isittime & |
372 |
& (pitau, date0(pfileid), deltat(pfileid), freq_wrt(pfileid, varid), & |
(itau, date0(fileid), deltat(fileid), freq_wrt(fileid, varid), & |
373 |
& last_wrt(pfileid, varid), last_wrt_chk(pfileid, varid), do_write) |
last_wrt(fileid, varid), last_wrt_chk(fileid, varid), do_write) |
374 |
|
|
375 |
! 5.0 histwrite called |
! 5.0 histwrite called |
376 |
|
|
378 |
|
|
379 |
!- 5.1 Get the sizes of the data we will handle |
!- 5.1 Get the sizes of the data we will handle |
380 |
|
|
381 |
IF (datasz_in(pfileid, varid, 1) <= 0) THEN |
IF (datasz_in(fileid, varid, 1) <= 0) THEN |
382 |
!--- There is the risk here that the user has over-sized the array. |
!--- There is the risk here that the user has over-sized the array. |
383 |
!--- But how can we catch this ? |
!--- But how can we catch this ? |
384 |
!--- In the worst case we will do impossible operations |
!--- In the worst case we will do impossible operations |
385 |
!--- on part of the data ! |
!--- on part of the data ! |
386 |
datasz_in(pfileid, varid, 1) = SIZE(pdata, DIM=1) |
datasz_in(fileid, varid, 1) = SIZE(pdata, DIM=1) |
387 |
datasz_in(pfileid, varid, 2) = SIZE(pdata, DIM=2) |
datasz_in(fileid, varid, 2) = SIZE(pdata, DIM=2) |
388 |
datasz_in(pfileid, varid, 3) = SIZE(pdata, DIM=3) |
datasz_in(fileid, varid, 3) = SIZE(pdata, DIM=3) |
389 |
ENDIF |
ENDIF |
390 |
|
|
391 |
!- 5.2 The maximum size of the data will give the size of the buffer |
!- 5.2 The maximum size of the data will give the size of the buffer |
392 |
|
|
393 |
IF (datasz_max(pfileid, varid) <= 0) THEN |
IF (datasz_max(fileid, varid) <= 0) THEN |
394 |
largebuf = .FALSE. |
largebuf = .FALSE. |
395 |
DO io =1, nbopp(pfileid, varid) |
DO io =1, nbopp(fileid, varid) |
396 |
IF (INDEX(fuchnbout, sopps(pfileid, varid, io)) > 0) THEN |
IF (INDEX(fuchnbout, sopps(fileid, varid, io)) > 0) THEN |
397 |
largebuf = .TRUE. |
largebuf = .TRUE. |
398 |
ENDIF |
ENDIF |
399 |
ENDDO |
ENDDO |
400 |
IF (largebuf) THEN |
IF (largebuf) THEN |
401 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = & |
402 |
& scsize(pfileid, varid, 1) & |
scsize(fileid, varid, 1) & |
403 |
& *scsize(pfileid, varid, 2) & |
*scsize(fileid, varid, 2) & |
404 |
& *scsize(pfileid, varid, 3) |
*scsize(fileid, varid, 3) |
405 |
ELSE |
ELSE |
406 |
datasz_max(pfileid, varid) = & |
datasz_max(fileid, varid) = & |
407 |
& datasz_in(pfileid, varid, 1) & |
datasz_in(fileid, varid, 1) & |
408 |
& *datasz_in(pfileid, varid, 2) & |
*datasz_in(fileid, varid, 2) & |
409 |
& *datasz_in(pfileid, varid, 3) |
*datasz_in(fileid, varid, 3) |
410 |
ENDIF |
ENDIF |
411 |
ENDIF |
ENDIF |
412 |
|
|
413 |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
IF (.NOT.ALLOCATED(buff_tmp)) THEN |
414 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE (buff_tmp(datasz_max(fileid, varid))) |
415 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
416 |
ELSE IF (datasz_max(pfileid, varid) > buff_tmp_sz) THEN |
ELSE IF (datasz_max(fileid, varid) > buff_tmp_sz) THEN |
417 |
DEALLOCATE (buff_tmp) |
DEALLOCATE (buff_tmp) |
418 |
ALLOCATE (buff_tmp(datasz_max(pfileid, varid))) |
ALLOCATE (buff_tmp(datasz_max(fileid, varid))) |
419 |
buff_tmp_sz = datasz_max(pfileid, varid) |
buff_tmp_sz = datasz_max(fileid, varid) |
420 |
ENDIF |
ENDIF |
421 |
|
|
422 |
!- We have to do the first operation anyway. |
!- We have to do the first operation anyway. |
423 |
!- Thus we do it here and change the ranke |
!- Thus we do it here and change the ranke |
424 |
!- of the data at the same time. This should speed up things. |
!- of the data at the same time. This should speed up things. |
425 |
|
|
426 |
nbpt_in(1:3) = datasz_in(pfileid, varid, 1:3) |
nbpt_in(1:3) = datasz_in(fileid, varid, 1:3) |
427 |
nbpt_out = datasz_max(pfileid, varid) |
nbpt_out = datasz_max(fileid, varid) |
428 |
CALL mathop (sopps(pfileid, varid, 1), nbpt_in, pdata, & |
CALL mathop (sopps(fileid, varid, 1), nbpt_in, pdata, & |
429 |
& missing_val, nbindex, nindex, & |
missing_val, nbindex, nindex, & |
430 |
& scal(pfileid, varid, 1), nbpt_out, buff_tmp) |
scal(fileid, varid, 1), nbpt_out, buff_tmp) |
431 |
CALL histwrite_real (pfileid, varid, pitau, nbpt_out, & |
CALL histwrite_real (fileid, varid, itau, nbpt_out, & |
432 |
& buff_tmp, nbindex, nindex, do_oper, do_write) |
buff_tmp, nbindex, nindex, do_oper, do_write) |
433 |
ENDIF |
ENDIF |
434 |
|
|
435 |
! 6.0 Manage time steps |
! 6.0 Manage time steps |
436 |
|
|
437 |
IF ((TRIM(tmp_opp) /= "once").AND.(TRIM(tmp_opp) /= "never")) THEN |
IF ((TRIM(tmp_opp) /= "once").AND.(TRIM(tmp_opp) /= "never")) THEN |
438 |
last_opp_chk(pfileid, varid) = pitau |
last_opp_chk(fileid, varid) = itau |
439 |
last_wrt_chk(pfileid, varid) = pitau |
last_wrt_chk(fileid, varid) = itau |
440 |
ELSE |
ELSE |
441 |
last_opp_chk(pfileid, varid) = -99 |
last_opp_chk(fileid, varid) = -99 |
442 |
last_wrt_chk(pfileid, varid) = -99 |
last_wrt_chk(fileid, varid) = -99 |
|
ENDIF |
|
|
!-------------------------- |
|
|
END SUBROUTINE histwrite_r3d |
|
|
|
|
|
!=== |
|
|
|
|
|
SUBROUTINE histwrite_real(pfileid, varid, pitau, nbdpt, buff_tmp, nbindex, & |
|
|
nindex, do_oper, do_write) |
|
|
|
|
|
! This subroutine is internal and does the calculations and writing |
|
|
! if needed. At a later stage it should be split into an operation |
|
|
! and writing subroutines. |
|
|
!-------------------------------------------------------------------- |
|
|
|
|
|
USE mathop_m, ONLY : mathop |
|
|
USE mathelp, ONLY : trans_buff, moycum |
|
|
use netcdf, only: NF90_PUT_VAR |
|
|
use histcom_var |
|
|
|
|
|
INTEGER, INTENT(IN) :: pfileid, pitau, varid, & |
|
|
& nbindex, nindex(nbindex), nbdpt |
|
|
REAL, DIMENSION(:) :: buff_tmp |
|
|
LOGICAL, INTENT(IN) :: do_oper, do_write |
|
|
|
|
|
INTEGER :: tsz, ncid, ncvarid |
|
|
INTEGER :: i, iret, ipt, itax |
|
|
INTEGER :: io, nbin, nbout |
|
|
INTEGER, DIMENSION(4) :: corner, edges |
|
|
INTEGER :: itime |
|
|
|
|
|
REAL :: rtime |
|
|
CHARACTER(LEN=7) :: tmp_opp |
|
|
|
|
|
REAL, ALLOCATABLE, SAVE :: buff_tmp2(:) |
|
|
INTEGER, SAVE :: buff_tmp2_sz |
|
|
REAL, ALLOCATABLE, SAVE :: buffer_used(:) |
|
|
INTEGER, SAVE :: buffer_sz |
|
|
|
|
|
!-------------------------------------------------------------------- |
|
|
|
|
|
! The sizes which can be encoutered |
|
|
|
|
|
tsz = zsize(pfileid, varid, 1)*zsize(pfileid, varid, 2)*zsize(pfileid, varid, 3) |
|
|
|
|
|
! 1.0 We allocate the memory needed to store the data between write |
|
|
! and the temporary space needed for operations. |
|
|
! We have to keep precedent buffer if needed |
|
|
|
|
|
IF (.NOT. ALLOCATED(buffer)) THEN |
|
|
ALLOCATE(buffer(buff_pos)) |
|
|
buffer_sz = buff_pos |
|
|
buffer(:)=0.0 |
|
|
ELSE IF (buffer_sz < buff_pos) THEN |
|
|
IF (SUM(buffer)/=0.0) THEN |
|
|
ALLOCATE (buffer_used(buffer_sz)) |
|
|
buffer_used(:)=buffer(:) |
|
|
DEALLOCATE (buffer) |
|
|
ALLOCATE (buffer(buff_pos)) |
|
|
buffer_sz = buff_pos |
|
|
buffer(:SIZE(buffer_used))=buffer_used |
|
|
DEALLOCATE (buffer_used) |
|
|
ELSE |
|
|
DEALLOCATE (buffer) |
|
|
ALLOCATE (buffer(buff_pos)) |
|
|
buffer_sz = buff_pos |
|
|
buffer(:)=0.0 |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
! The buffers are only deallocated when more space is needed. This |
|
|
! reduces the umber of allocates but increases memory needs. |
|
|
|
|
|
IF (.NOT.ALLOCATED(buff_tmp2)) THEN |
|
|
ALLOCATE (buff_tmp2(datasz_max(pfileid, varid))) |
|
|
buff_tmp2_sz = datasz_max(pfileid, varid) |
|
|
ELSE IF ( datasz_max(pfileid, varid) > buff_tmp2_sz) THEN |
|
|
DEALLOCATE (buff_tmp2) |
|
|
ALLOCATE (buff_tmp2(datasz_max(pfileid, varid))) |
|
|
buff_tmp2_sz = datasz_max(pfileid, varid) |
|
|
ENDIF |
|
|
|
|
|
rtime = pitau * deltat(pfileid) |
|
|
tmp_opp = topp(pfileid, varid) |
|
|
|
|
|
! 3.0 Do the operations or transfer the slab of data into buff_tmp |
|
|
|
|
|
! 3.1 DO the Operations only if needed |
|
|
|
|
|
IF ( do_oper ) THEN |
|
|
i = pfileid |
|
|
nbout = nbdpt |
|
|
|
|
|
!- 3.4 We continue the sequence of operations |
|
|
!- we started in the interface routine |
|
|
|
|
|
DO io = 2, nbopp(i, varid), 2 |
|
|
nbin = nbout |
|
|
nbout = datasz_max(i, varid) |
|
|
CALL mathop(sopps(i, varid, io), nbin, buff_tmp, missing_val, & |
|
|
& nbindex, nindex, scal(i, varid, io), nbout, buff_tmp2) |
|
|
|
|
|
nbin = nbout |
|
|
nbout = datasz_max(i, varid) |
|
|
CALL mathop(sopps(i, varid, io+1), nbin, buff_tmp2, missing_val, & |
|
|
& nbindex, nindex, scal(i, varid, io+1), nbout, buff_tmp) |
|
|
ENDDO |
|
|
|
|
|
! 3.5 Zoom into the data |
|
|
|
|
|
CALL trans_buff & |
|
|
& (zorig(i, varid, 1), zsize(i, varid, 1), & |
|
|
& zorig(i, varid, 2), zsize(i, varid, 2), & |
|
|
& zorig(i, varid, 3), zsize(i, varid, 3), & |
|
|
& scsize(i, varid, 1), scsize(i, varid, 2), scsize(i, varid, 3), & |
|
|
& buff_tmp, buff_tmp2_sz, buff_tmp2) |
|
|
|
|
|
!- 5.0 Do the operations if needed. In the case of instantaneous |
|
|
!- output we do not transfer to the buffer. |
|
|
|
|
|
ipt = point(pfileid, varid) |
|
|
|
|
|
IF ( (TRIM(tmp_opp) /= "inst") & |
|
|
& .AND.(TRIM(tmp_opp) /= "once") ) THEN |
|
|
CALL moycum(tmp_opp, tsz, buffer(ipt:), & |
|
|
& buff_tmp2, nb_opp(pfileid, varid)) |
|
|
ENDIF |
|
|
|
|
|
last_opp(pfileid, varid) = pitau |
|
|
nb_opp(pfileid, varid) = nb_opp(pfileid, varid)+1 |
|
|
|
|
443 |
ENDIF |
ENDIF |
444 |
|
|
445 |
! 6.0 Write to file if needed |
END SUBROUTINE histwrite_r3d |
|
|
|
|
IF ( do_write ) THEN |
|
|
|
|
|
ncvarid = ncvar_ids(pfileid, varid) |
|
|
ncid = ncdf_ids(pfileid) |
|
|
|
|
|
!- 6.1 Do the operations that are needed before writting |
|
|
|
|
|
IF ( (TRIM(tmp_opp) /= "inst") & |
|
|
& .AND.(TRIM(tmp_opp) /= "once") ) THEN |
|
|
rtime = (rtime+last_wrt(pfileid, varid)*deltat(pfileid))/2.0 |
|
|
ENDIF |
|
|
|
|
|
!- 6.2 Add a value to the time axis of this variable if needed |
|
|
|
|
|
IF ( (TRIM(tmp_opp) /= "l_max") & |
|
|
& .AND.(TRIM(tmp_opp) /= "l_min") & |
|
|
& .AND.(TRIM(tmp_opp) /= "once") ) THEN |
|
|
|
|
|
itax = var_axid(pfileid, varid) |
|
|
itime = nb_wrt(pfileid, varid)+1 |
|
|
|
|
|
IF (tax_last(pfileid, itax) < itime) THEN |
|
|
iret = NF90_PUT_VAR (ncid, tdimid(pfileid, itax), (/ rtime /), & |
|
|
& start=(/ itime /), count=(/ 1 /)) |
|
|
tax_last(pfileid, itax) = itime |
|
|
ENDIF |
|
|
ELSE |
|
|
itime=1 |
|
|
ENDIF |
|
|
|
|
|
!- 6.3 Write the data. Only in the case of instantaneous output |
|
|
! we do not write the buffer. |
|
|
|
|
|
IF (scsize(pfileid, varid, 3) == 1) THEN |
|
|
IF (regular(pfileid)) THEN |
|
|
corner(1:4) = (/ 1, 1, itime, 0 /) |
|
|
edges(1:4) = (/ zsize(pfileid, varid, 1), & |
|
|
& zsize(pfileid, varid, 2), & |
|
|
& 1, 0 /) |
|
|
ELSE |
|
|
corner(1:4) = (/ 1, itime, 0, 0 /) |
|
|
edges(1:4) = (/ zsize(pfileid, varid, 1), 1, 0, 0 /) |
|
|
ENDIF |
|
|
ELSE |
|
|
IF ( regular(pfileid) ) THEN |
|
|
corner(1:4) = (/ 1, 1, 1, itime /) |
|
|
edges(1:4) = (/ zsize(pfileid, varid, 1), & |
|
|
& zsize(pfileid, varid, 2), & |
|
|
& zsize(pfileid, varid, 3), 1 /) |
|
|
ELSE |
|
|
corner(1:4) = (/ 1, 1, itime, 0 /) |
|
|
edges(1:4) = (/ zsize(pfileid, varid, 1), & |
|
|
& zsize(pfileid, varid, 3), 1, 0 /) |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
ipt = point(pfileid, varid) |
|
|
|
|
|
IF ( (TRIM(tmp_opp) /= "inst") & |
|
|
& .AND.(TRIM(tmp_opp) /= "once") ) THEN |
|
|
iret = NF90_PUT_VAR (ncid, ncvarid, buffer(ipt:), & |
|
|
& start=corner(1:4), count=edges(1:4)) |
|
|
ELSE |
|
|
iret = NF90_PUT_VAR (ncid, ncvarid, buff_tmp2, & |
|
|
& start=corner(1:4), count=edges(1:4)) |
|
|
ENDIF |
|
|
|
|
|
last_wrt(pfileid, varid) = pitau |
|
|
nb_wrt(pfileid, varid) = nb_wrt(pfileid, varid)+1 |
|
|
nb_opp(pfileid, varid) = 0 |
|
|
!-- |
|
|
! After the write the file can be synchronized so that no data is |
|
|
! lost in case of a crash. This feature gives up on the benefits of |
|
|
! buffering and should only be used in debuging mode. A flag is |
|
|
! needed here to switch to this mode. |
|
|
!-- |
|
|
! iret = NF90_SYNC (ncid) |
|
|
|
|
|
ENDIF |
|
|
!--------------------------- |
|
|
END SUBROUTINE histwrite_real |
|
|
|
|
|
!************************************************************* |
|
|
|
|
|
SUBROUTINE histvar_seq (pfid, pvarname, pvid) |
|
|
|
|
|
! This subroutine optimized the search for the variable in the table. |
|
|
! In a first phase it will learn the succession of the variables |
|
|
! called and then it will use the table to guess what comes next. |
|
|
! It is the best solution to avoid lengthy searches through array |
|
|
! vectors. |
|
|
|
|
|
! ARGUMENTS : |
|
|
|
|
|
! pfid : id of the file on which we work |
|
|
! pvarname : The name of the variable we are looking for |
|
|
! pvid : The var id we found |
|
|
|
|
|
USE find_str_m, ONLY: find_str |
|
|
USE errioipsl, ONLY : histerr |
|
|
use histcom_var |
|
|
|
|
|
INTEGER, INTENT(in) :: pfid |
|
|
CHARACTER(LEN=*), INTENT(IN) :: pvarname |
|
|
INTEGER, INTENT(out) :: pvid |
|
|
|
|
|
LOGICAL, SAVE :: learning(nb_files_max)=.TRUE. |
|
|
INTEGER, SAVE :: overlap(nb_files_max) = -1 |
|
|
INTEGER, SAVE :: varseq(nb_files_max, nb_var_max*3) |
|
|
INTEGER, SAVE :: varseq_len(nb_files_max) = 0 |
|
|
INTEGER, SAVE :: varseq_pos(nb_files_max) |
|
|
INTEGER, SAVE :: varseq_err(nb_files_max) = 0 |
|
|
INTEGER :: nb, sp, nx, pos, ib |
|
|
CHARACTER(LEN=20), DIMENSION(nb_var_max) :: tab_str20 |
|
|
CHARACTER(LEN=20) :: str20 |
|
|
CHARACTER(LEN=70) :: str70 |
|
|
INTEGER :: tab_str20_length(nb_var_max) |
|
|
|
|
|
!-------------------------------------------------------------------- |
|
|
nb = nb_var(pfid) |
|
|
|
|
|
IF (learning(pfid)) THEN |
|
|
|
|
|
!- 1.0 We compute the length over which we are going |
|
|
!- to check the overlap |
|
|
|
|
|
IF (overlap(pfid) <= 0) THEN |
|
|
IF (nb_var(pfid) > 6) THEN |
|
|
overlap(pfid) = nb_var(pfid)/3*2 |
|
|
ELSE |
|
|
overlap(pfid) = nb_var(pfid) |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
!- 1.1 Find the position of this string |
|
|
|
|
|
str20 = pvarname |
|
|
tab_str20(1:nb) = name(pfid, 1:nb) |
|
|
tab_str20_length(1:nb) = name_length(pfid, 1:nb) |
|
|
|
|
|
CALL find_str (nb, tab_str20, tab_str20_length, str20, pos) |
|
|
|
|
|
IF (pos > 0) THEN |
|
|
pvid = pos |
|
|
ELSE |
|
|
CALL histerr (3, "histvar_seq", & |
|
|
& 'The name of the variable you gave has not been declared', & |
|
|
& 'You should use subroutine histdef for declaring variable', & |
|
|
& TRIM(str20)) |
|
|
ENDIF |
|
|
|
|
|
!- 1.2 If we have not given up we store the position |
|
|
!- in the sequence of calls |
|
|
|
|
|
IF ( varseq_err(pfid) .GE. 0 ) THEN |
|
|
sp = varseq_len(pfid)+1 |
|
|
IF (sp <= nb_var_max*3) THEN |
|
|
varseq(pfid, sp) = pvid |
|
|
varseq_len(pfid) = sp |
|
|
ELSE |
|
|
CALL histerr (2, "histvar_seq", & |
|
|
& 'The learning process has failed and we give up. '// & |
|
|
& 'Either you sequence is', & |
|
|
& 'too complex or I am too dumb. '// & |
|
|
& 'This will only affect the efficiency', & |
|
|
& 'of your code. Thus if you wish to save time'// & |
|
|
& ' contact the IOIPSL team. ') |
|
|
WRITE(*, *) 'The sequence we have found up to now :' |
|
|
WRITE(*, *) varseq(pfid, 1:sp-1) |
|
|
varseq_err(pfid) = -1 |
|
|
ENDIF |
|
|
|
|
|
!--- 1.3 Check if we have found the right overlap |
|
|
|
|
|
IF (varseq_len(pfid) .GE. overlap(pfid)*2) THEN |
|
|
|
|
|
!----- We skip a few variables if needed as they could come |
|
|
!----- from the initialisation of the model. |
|
|
|
|
|
DO ib = 0, sp-overlap(pfid)*2 |
|
|
IF ( learning(pfid) .AND.& |
|
|
& SUM(ABS(varseq(pfid, ib+1:ib+overlap(pfid)) -& |
|
|
& varseq(pfid, sp-overlap(pfid)+1:sp))) == 0 ) THEN |
|
|
learning(pfid) = .FALSE. |
|
|
varseq_len(pfid) = sp-overlap(pfid)-ib |
|
|
varseq_pos(pfid) = overlap(pfid)+ib |
|
|
varseq(pfid, 1:varseq_len(pfid)) = & |
|
|
& varseq(pfid, ib+1:ib+varseq_len(pfid)) |
|
|
ENDIF |
|
|
ENDDO |
|
|
ENDIF |
|
|
ENDIF |
|
|
ELSE |
|
|
|
|
|
!- 2.0 Now we know how the calls to histwrite are sequenced |
|
|
!- and we can get a guess at the var ID |
|
|
|
|
|
nx = varseq_pos(pfid)+1 |
|
|
IF (nx > varseq_len(pfid)) nx = 1 |
|
|
|
|
|
pvid = varseq(pfid, nx) |
|
|
|
|
|
IF ( (INDEX(name(pfid, pvid), pvarname) <= 0) & |
|
|
& .OR.(name_length(pfid, pvid) /= len_trim(pvarname)) ) THEN |
|
|
str20 = pvarname |
|
|
tab_str20(1:nb) = name(pfid, 1:nb) |
|
|
tab_str20_length(1:nb) = name_length(pfid, 1:nb) |
|
|
CALL find_str (nb, tab_str20, tab_str20_length, str20, pos) |
|
|
IF (pos > 0) THEN |
|
|
pvid = pos |
|
|
ELSE |
|
|
CALL histerr(3, "histvar_seq", & |
|
|
& 'The name of the variable you gave has not been declared', & |
|
|
& 'You should use subroutine histdef for declaring variable', str20) |
|
|
ENDIF |
|
|
varseq_err(pfid) = varseq_err(pfid)+1 |
|
|
ELSE |
|
|
|
|
|
!--- We only keep the new position if we have found the variable |
|
|
!--- this way. This way an out of sequence call to histwrite does |
|
|
!--- not defeat the process. |
|
|
|
|
|
varseq_pos(pfid) = nx |
|
|
ENDIF |
|
|
|
|
|
IF (varseq_err(pfid) .GE. 10) THEN |
|
|
WRITE(str70, '("for file ", I3)') pfid |
|
|
CALL histerr(2, "histvar_seq", & |
|
|
& 'There were 10 errors in the learned sequence of variables', & |
|
|
& str70, 'This looks like a bug, please report it.') |
|
|
varseq_err(pfid) = 0 |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
END SUBROUTINE histvar_seq |
|
446 |
|
|
447 |
END MODULE histwrite_m |
END MODULE histwrite_m |