1 |
MODULE mathop_m |
2 |
|
3 |
! From mathelp.f90, version 2.0 2004/04/05 14:47:50 |
4 |
|
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implicit none |
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|
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PRIVATE |
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PUBLIC :: mathop |
9 |
|
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INTERFACE mathop |
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MODULE PROCEDURE mathop_r11, mathop_r21, mathop_r31 |
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END INTERFACE mathop |
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|
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! Variables used to detect and identify the operations |
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CHARACTER(LEN=120):: indexfu = 'gather, scatter, fill, coll, undef, only' |
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|
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CONTAINS |
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|
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SUBROUTINE mathop_r11(fun, nb, work_in, miss_val, nb_index, nindex, scal, & |
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nb_max, work_out) |
21 |
|
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! This subroutine gives an interface to the various operations |
23 |
! which are allowed. The interface is general enough to allow its |
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! use for other cases. |
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|
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! INPUT |
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|
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! fun : function to be applied to the vector of data |
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! nb : Length of input vector |
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! work_in : Input vector of data (REAL) |
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! miss_val : The value of the missing data flag (it has to be a |
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! maximum value, in f90 : huge( a real )) |
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! nb_index : Length of index vector |
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! nindex : Vector of indices |
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! scal : A scalar value for vector/scalar operations |
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! nb_max : maximum length of output vector |
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|
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! OUTPUT |
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|
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! nb_max : Actual length of output variable |
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! work_out : Output vector after the operation was applied |
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USE errioipsl, ONLY : histerr |
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USE mathop2, ONLY : ma_abs_r11, ma_acos_r11, ma_add_r11, ma_alog_r11, & |
44 |
ma_asin_r11, ma_atan_r11, ma_cels_r11, ma_chs_r11, ma_cos_r11, & |
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ma_deg_r11, ma_divi_r11, ma_div_r11, ma_exp_r11, ma_fucoll_r11, & |
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ma_fufill_r11, ma_fugath_r11, ma_fumax_r11, ma_fumin_r11, & |
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ma_fuonly_r11, ma_fuscat_r11, ma_fuundef_r11, ma_ident_r11, & |
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ma_kelv_r11, ma_mult_r11, ma_power_r11, ma_rad_r11, ma_sin_r11, & |
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ma_sqrt_r11, ma_subi_r11, ma_sub_r11, ma_tan_r11 |
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|
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CHARACTER(LEN=7) :: fun |
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INTEGER :: nb, nb_max, nb_index |
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INTEGER :: nindex(nb_index) |
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REAL :: work_in(nb), scal, miss_val |
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REAL :: work_out(nb_max) |
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|
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INTEGER :: ierr |
58 |
|
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INTRINSIC SIN, COS, TAN, ASIN, ACOS, ATAN, EXP, ALOG, SQRT, ABS |
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!-------------------------------------------------------------------- |
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ierr = 0 |
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|
63 |
IF (scal >= miss_val-1.) THEN |
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IF (INDEX(indexfu, fun(1:LEN_TRIM(fun))) == 0) THEN |
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SELECT CASE (fun) |
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CASE('sin') |
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ierr = ma_sin_r11(nb, work_in, nb_max, work_out) |
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CASE('cos') |
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ierr = ma_cos_r11(nb, work_in, nb_max, work_out) |
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CASE('tan') |
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ierr = ma_tan_r11(nb, work_in, nb_max, work_out) |
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CASE('asin') |
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ierr = ma_asin_r11(nb, work_in, nb_max, work_out) |
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CASE('acos') |
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ierr = ma_acos_r11(nb, work_in, nb_max, work_out) |
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CASE('atan') |
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ierr = ma_atan_r11(nb, work_in, nb_max, work_out) |
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CASE('exp') |
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ierr = ma_exp_r11(nb, work_in, nb_max, work_out) |
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CASE('log') |
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ierr = ma_alog_r11(nb, work_in, nb_max, work_out) |
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CASE('sqrt') |
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ierr = ma_sqrt_r11(nb, work_in, nb_max, work_out) |
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CASE('chs') |
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ierr = ma_chs_r11(nb, work_in, nb_max, work_out) |
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CASE('abs') |
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ierr = ma_abs_r11(nb, work_in, nb_max, work_out) |
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CASE('cels') |
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ierr = ma_cels_r11(nb, work_in, nb_max, work_out) |
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CASE('kelv') |
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ierr = ma_kelv_r11(nb, work_in, nb_max, work_out) |
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CASE('deg') |
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ierr = ma_deg_r11(nb, work_in, nb_max, work_out) |
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CASE('rad') |
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ierr = ma_rad_r11(nb, work_in, nb_max, work_out) |
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CASE('ident') |
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ierr = ma_ident_r11(nb, work_in, nb_max, work_out) |
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CASE DEFAULT |
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CALL histerr(3, "mathop", & |
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'scalar variable undefined and no indexing', & |
101 |
'but still unknown function', fun) |
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END SELECT |
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IF (ierr > 0) THEN |
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CALL histerr(3, "mathop", & |
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'Error while executing a simple function', fun, ' ') |
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ENDIF |
107 |
ELSE |
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SELECT CASE (fun) |
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CASE('gather') |
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ierr = ma_fugath_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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CASE('scatter') |
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IF (nb_index > nb) THEN |
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work_out(1:nb_max) = miss_val |
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ierr=1 |
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ELSE |
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ierr = ma_fuscat_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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ENDIF |
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CASE('coll') |
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ierr = ma_fucoll_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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CASE('fill') |
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ierr = ma_fufill_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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CASE('undef') |
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ierr = ma_fuundef_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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CASE('only') |
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ierr = ma_fuonly_r11(nb, work_in, nb_index, nindex, & |
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miss_val, nb_max, work_out) |
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CASE DEFAULT |
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CALL histerr(3, "mathop", & |
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'scalar variable undefined and indexing', & |
135 |
'was requested but with unknown function', fun) |
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END SELECT |
137 |
IF (ierr > 0) THEN |
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CALL histerr(3, "mathop_r11", & |
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'Error while executing an indexing function', fun, ' ') |
140 |
ENDIF |
141 |
ENDIF |
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ELSE |
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SELECT CASE (fun) |
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CASE('fumin') |
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ierr = ma_fumin_r11(nb, work_in, scal, nb_max, work_out) |
146 |
CASE('fumax') |
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ierr = ma_fumax_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('add') |
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ierr = ma_add_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('subi') |
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ierr = ma_subi_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('sub') |
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ierr = ma_sub_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('mult') |
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ierr = ma_mult_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('div') |
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ierr = ma_div_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('divi') |
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ierr = ma_divi_r11(nb, work_in, scal, nb_max, work_out) |
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CASE('power') |
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ierr = ma_power_r11(nb, work_in, scal, nb_max, work_out) |
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CASE DEFAULT |
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CALL histerr(3, "mathop", & |
164 |
'Unknown operation with a scalar', fun, ' ') |
165 |
END SELECT |
166 |
IF (ierr > 0) THEN |
167 |
CALL histerr(3, "mathop", & |
168 |
'Error while executing a scalar function', fun, ' ') |
169 |
ENDIF |
170 |
ENDIF |
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!----------------------- |
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END SUBROUTINE mathop_r11 |
173 |
! |
174 |
SUBROUTINE mathop_r21(fun, nb, work_in, miss_val, nb_index, nindex, scal, & |
175 |
nb_max, work_out) |
176 |
|
177 |
! This subroutines gives an interface to the various operations |
178 |
! which are allowed. The interface is general enough to allow its use |
179 |
! for other cases. |
180 |
|
181 |
! INPUT |
182 |
|
183 |
! fun : function to be applied to the vector of data |
184 |
! nb : Length of input vector |
185 |
! work_in : Input vector of data (REAL) |
186 |
! miss_val : The value of the missing data flag (it has to be a |
187 |
! maximum value, in f90 : huge( a real )) |
188 |
! nb_index : Length of index vector |
189 |
! nindex : Vector of indices |
190 |
! scal : A scalar value for vector/scalar operations |
191 |
! nb_max : maximum length of output vector |
192 |
|
193 |
! OUTPUT |
194 |
|
195 |
! nb_max : Actual length of output variable |
196 |
! work_out : Output vector after the operation was applied |
197 |
USE errioipsl, ONLY : histerr |
198 |
USE mathop2, ONLY : ma_abs_r21, ma_acos_r21, ma_add_r21, ma_alog_r21, & |
199 |
ma_asin_r21, ma_atan_r21, ma_cels_r21, ma_chs_r21, ma_cos_r21, & |
200 |
ma_deg_r21, ma_divi_r21, ma_div_r21, ma_exp_r21, ma_fucoll_r21, & |
201 |
ma_fufill_r21, ma_fugath_r21, ma_fumax_r21, ma_fumin_r21, & |
202 |
ma_fuonly_r21, ma_fuscat_r21, ma_fuundef_r21, ma_ident_r21, & |
203 |
ma_kelv_r21, ma_mult_r21, ma_power_r21, ma_rad_r21, ma_sin_r21, & |
204 |
ma_sqrt_r21, ma_subi_r21, ma_sub_r21, ma_tan_r21 |
205 |
|
206 |
CHARACTER(LEN=7) :: fun |
207 |
INTEGER :: nb(2), nb_max, nb_index |
208 |
INTEGER :: nindex(nb_index) |
209 |
REAL :: work_in(nb(1), nb(2)), scal, miss_val |
210 |
REAL :: work_out(nb_max) |
211 |
|
212 |
INTEGER :: ierr |
213 |
|
214 |
INTRINSIC SIN, COS, TAN, ASIN, ACOS, ATAN, EXP, ALOG, SQRT, ABS |
215 |
!-------------------------------------------------------------------- |
216 |
ierr = 0 |
217 |
|
218 |
IF (scal >= miss_val-1.) THEN |
219 |
IF (INDEX(indexfu, fun(1:LEN_TRIM(fun))) == 0) THEN |
220 |
SELECT CASE (fun) |
221 |
CASE('sin') |
222 |
ierr = ma_sin_r21(nb, work_in, nb_max, work_out) |
223 |
CASE('cos') |
224 |
ierr = ma_cos_r21(nb, work_in, nb_max, work_out) |
225 |
CASE('tan') |
226 |
ierr = ma_tan_r21(nb, work_in, nb_max, work_out) |
227 |
CASE('asin') |
228 |
ierr = ma_asin_r21(nb, work_in, nb_max, work_out) |
229 |
CASE('acos') |
230 |
ierr = ma_acos_r21(nb, work_in, nb_max, work_out) |
231 |
CASE('atan') |
232 |
ierr = ma_atan_r21(nb, work_in, nb_max, work_out) |
233 |
CASE('exp') |
234 |
ierr = ma_exp_r21(nb, work_in, nb_max, work_out) |
235 |
CASE('log') |
236 |
ierr = ma_alog_r21(nb, work_in, nb_max, work_out) |
237 |
CASE('sqrt') |
238 |
ierr = ma_sqrt_r21(nb, work_in, nb_max, work_out) |
239 |
CASE('chs') |
240 |
ierr = ma_chs_r21(nb, work_in, nb_max, work_out) |
241 |
CASE('abs') |
242 |
ierr = ma_abs_r21(nb, work_in, nb_max, work_out) |
243 |
CASE('cels') |
244 |
ierr = ma_cels_r21(nb, work_in, nb_max, work_out) |
245 |
CASE('kelv') |
246 |
ierr = ma_kelv_r21(nb, work_in, nb_max, work_out) |
247 |
CASE('deg') |
248 |
ierr = ma_deg_r21(nb, work_in, nb_max, work_out) |
249 |
CASE('rad') |
250 |
ierr = ma_rad_r21(nb, work_in, nb_max, work_out) |
251 |
CASE('ident') |
252 |
ierr = ma_ident_r21(nb, work_in, nb_max, work_out) |
253 |
CASE DEFAULT |
254 |
CALL histerr(3, "mathop", & |
255 |
'scalar variable undefined and no indexing', & |
256 |
'but still unknown function', fun) |
257 |
END SELECT |
258 |
IF (ierr > 0) THEN |
259 |
CALL histerr(3, "mathop", & |
260 |
'Error while executing a simple function', fun, ' ') |
261 |
ENDIF |
262 |
ELSE |
263 |
SELECT CASE (fun) |
264 |
CASE('gather') |
265 |
ierr = ma_fugath_r21(nb, work_in, nb_index, nindex, & |
266 |
miss_val, nb_max, work_out) |
267 |
CASE('scatter') |
268 |
IF (nb_index > (nb(1)*nb(2)) ) THEN |
269 |
work_out(1:nb_max) = miss_val |
270 |
ierr=1 |
271 |
ELSE |
272 |
ierr = ma_fuscat_r21(nb, work_in, nb_index, nindex, & |
273 |
miss_val, nb_max, work_out) |
274 |
ENDIF |
275 |
CASE('coll') |
276 |
ierr = ma_fucoll_r21(nb, work_in, nb_index, nindex, & |
277 |
miss_val, nb_max, work_out) |
278 |
CASE('fill') |
279 |
ierr = ma_fufill_r21(nb, work_in, nb_index, nindex, & |
280 |
miss_val, nb_max, work_out) |
281 |
CASE('undef') |
282 |
ierr = ma_fuundef_r21(nb, work_in, nb_index, nindex, & |
283 |
miss_val, nb_max, work_out) |
284 |
CASE('only') |
285 |
ierr = ma_fuonly_r21(nb, work_in, nb_index, nindex, & |
286 |
miss_val, nb_max, work_out) |
287 |
CASE DEFAULT |
288 |
CALL histerr(3, "mathop", & |
289 |
'scalar variable undefined and indexing', & |
290 |
'was requested but with unknown function', fun) |
291 |
END SELECT |
292 |
IF (ierr > 0) THEN |
293 |
CALL histerr(3, "mathop_r21", & |
294 |
'Error while executing an indexing function', fun, ' ') |
295 |
ENDIF |
296 |
ENDIF |
297 |
ELSE |
298 |
SELECT CASE (fun) |
299 |
CASE('fumin') |
300 |
ierr = ma_fumin_r21(nb, work_in, scal, nb_max, work_out) |
301 |
CASE('fumax') |
302 |
ierr = ma_fumax_r21(nb, work_in, scal, nb_max, work_out) |
303 |
CASE('add') |
304 |
ierr = ma_add_r21(nb, work_in, scal, nb_max, work_out) |
305 |
CASE('subi') |
306 |
ierr = ma_subi_r21(nb, work_in, scal, nb_max, work_out) |
307 |
CASE('sub') |
308 |
ierr = ma_sub_r21(nb, work_in, scal, nb_max, work_out) |
309 |
CASE('mult') |
310 |
ierr = ma_mult_r21(nb, work_in, scal, nb_max, work_out) |
311 |
CASE('div') |
312 |
ierr = ma_div_r21(nb, work_in, scal, nb_max, work_out) |
313 |
CASE('divi') |
314 |
ierr = ma_divi_r21(nb, work_in, scal, nb_max, work_out) |
315 |
CASE('power') |
316 |
ierr = ma_power_r21(nb, work_in, scal, nb_max, work_out) |
317 |
CASE DEFAULT |
318 |
CALL histerr(3, "mathop", & |
319 |
'Unknown operation with a scalar', fun, ' ') |
320 |
END SELECT |
321 |
IF (ierr > 0) THEN |
322 |
CALL histerr(3, "mathop", & |
323 |
'Error while executing a scalar function', fun, ' ') |
324 |
ENDIF |
325 |
ENDIF |
326 |
!----------------------- |
327 |
END SUBROUTINE mathop_r21 |
328 |
! |
329 |
SUBROUTINE mathop_r31(fun, nb, work_in, miss_val, nb_index, nindex, scal, & |
330 |
nb_max, work_out) |
331 |
|
332 |
! This subroutines gives an interface to the various operations |
333 |
! which are allowed. The interface is general enough to allow its use |
334 |
! for other cases. |
335 |
|
336 |
! INPUT |
337 |
|
338 |
! fun : function to be applied to the vector of data |
339 |
! nb : Length of input vector |
340 |
! work_in : Input vector of data (REAL) |
341 |
! miss_val : The value of the missing data flag (it has to be a |
342 |
! maximum value, in f90 : huge( a real )) |
343 |
! nb_index : Length of index vector |
344 |
! nindex : Vector of indices |
345 |
! scal : A scalar value for vector/scalar operations |
346 |
! nb_max : maximum length of output vector |
347 |
|
348 |
! OUTPUT |
349 |
|
350 |
! nb_max : Actual length of output variable |
351 |
! work_out : Output vector after the operation was applied |
352 |
USE errioipsl, ONLY : histerr |
353 |
USE mathop2, ONLY : ma_abs_r31, ma_acos_r31, ma_add_r31, ma_alog_r31, & |
354 |
ma_asin_r31, ma_atan_r31, ma_cels_r31, ma_chs_r31, ma_cos_r31, & |
355 |
ma_deg_r31, ma_divi_r31, ma_div_r31, ma_exp_r31, ma_fucoll_r31, & |
356 |
ma_fufill_r31, ma_fugath_r31, ma_fumax_r31, ma_fumin_r31, & |
357 |
ma_fuonly_r31, ma_fuscat_r31, ma_fuundef_r31, ma_ident_r31, & |
358 |
ma_kelv_r31, ma_mult_r31, ma_power_r31, ma_rad_r31, ma_sin_r31, & |
359 |
ma_sqrt_r31, ma_subi_r31, ma_sub_r31, ma_tan_r31 |
360 |
|
361 |
CHARACTER(LEN=7) :: fun |
362 |
INTEGER :: nb(3), nb_max, nb_index |
363 |
INTEGER :: nindex(nb_index) |
364 |
REAL :: work_in(nb(1), nb(2), nb(3)), scal, miss_val |
365 |
REAL :: work_out(nb_max) |
366 |
|
367 |
INTEGER :: ierr |
368 |
|
369 |
INTRINSIC SIN, COS, TAN, ASIN, ACOS, ATAN, EXP, ALOG, SQRT, ABS |
370 |
!-------------------------------------------------------------------- |
371 |
ierr = 0 |
372 |
|
373 |
IF (scal >= miss_val-1.) THEN |
374 |
IF (INDEX(indexfu, fun(1:LEN_TRIM(fun))) == 0) THEN |
375 |
SELECT CASE (fun) |
376 |
CASE('sin') |
377 |
ierr = ma_sin_r31(nb, work_in, nb_max, work_out) |
378 |
CASE('cos') |
379 |
ierr = ma_cos_r31(nb, work_in, nb_max, work_out) |
380 |
CASE('tan') |
381 |
ierr = ma_tan_r31(nb, work_in, nb_max, work_out) |
382 |
CASE('asin') |
383 |
ierr = ma_asin_r31(nb, work_in, nb_max, work_out) |
384 |
CASE('acos') |
385 |
ierr = ma_acos_r31(nb, work_in, nb_max, work_out) |
386 |
CASE('atan') |
387 |
ierr = ma_atan_r31(nb, work_in, nb_max, work_out) |
388 |
CASE('exp') |
389 |
ierr = ma_exp_r31(nb, work_in, nb_max, work_out) |
390 |
CASE('log') |
391 |
ierr = ma_alog_r31(nb, work_in, nb_max, work_out) |
392 |
CASE('sqrt') |
393 |
ierr = ma_sqrt_r31(nb, work_in, nb_max, work_out) |
394 |
CASE('chs') |
395 |
ierr = ma_chs_r31(nb, work_in, nb_max, work_out) |
396 |
CASE('abs') |
397 |
ierr = ma_abs_r31(nb, work_in, nb_max, work_out) |
398 |
CASE('cels') |
399 |
ierr = ma_cels_r31(nb, work_in, nb_max, work_out) |
400 |
CASE('kelv') |
401 |
ierr = ma_kelv_r31(nb, work_in, nb_max, work_out) |
402 |
CASE('deg') |
403 |
ierr = ma_deg_r31(nb, work_in, nb_max, work_out) |
404 |
CASE('rad') |
405 |
ierr = ma_rad_r31(nb, work_in, nb_max, work_out) |
406 |
CASE('ident') |
407 |
ierr = ma_ident_r31(nb, work_in, nb_max, work_out) |
408 |
CASE DEFAULT |
409 |
CALL histerr(3, "mathop", & |
410 |
'scalar variable undefined and no indexing', & |
411 |
'but still unknown function', fun) |
412 |
END SELECT |
413 |
IF (ierr > 0) THEN |
414 |
CALL histerr(3, "mathop", & |
415 |
'Error while executing a simple function', fun, ' ') |
416 |
ENDIF |
417 |
ELSE |
418 |
SELECT CASE (fun) |
419 |
CASE('gather') |
420 |
ierr = ma_fugath_r31(nb, work_in, nb_index, nindex, & |
421 |
miss_val, nb_max, work_out) |
422 |
CASE('scatter') |
423 |
IF (nb_index > (nb(1)*nb(2)*nb(3))) THEN |
424 |
work_out(1:nb_max) = miss_val |
425 |
ierr=1 |
426 |
ELSE |
427 |
ierr = ma_fuscat_r31(nb, work_in, nb_index, nindex, & |
428 |
miss_val, nb_max, work_out) |
429 |
ENDIF |
430 |
CASE('coll') |
431 |
ierr = ma_fucoll_r31(nb, work_in, nb_index, nindex, & |
432 |
miss_val, nb_max, work_out) |
433 |
CASE('fill') |
434 |
ierr = ma_fufill_r31(nb, work_in, nb_index, nindex, & |
435 |
miss_val, nb_max, work_out) |
436 |
CASE('undef') |
437 |
ierr = ma_fuundef_r31(nb, work_in, nb_index, nindex, & |
438 |
miss_val, nb_max, work_out) |
439 |
CASE('only') |
440 |
ierr = ma_fuonly_r31(nb, work_in, nb_index, nindex, & |
441 |
miss_val, nb_max, work_out) |
442 |
CASE DEFAULT |
443 |
CALL histerr(3, "mathop", & |
444 |
'scalar variable undefined and indexing', & |
445 |
'was requested but with unknown function', fun) |
446 |
END SELECT |
447 |
IF (ierr > 0) THEN |
448 |
CALL histerr(3, "mathop_r31", & |
449 |
'Error while executing an indexing function', fun, ' ') |
450 |
ENDIF |
451 |
ENDIF |
452 |
ELSE |
453 |
SELECT CASE (fun) |
454 |
CASE('fumin') |
455 |
ierr = ma_fumin_r31(nb, work_in, scal, nb_max, work_out) |
456 |
CASE('fumax') |
457 |
ierr = ma_fumax_r31(nb, work_in, scal, nb_max, work_out) |
458 |
CASE('add') |
459 |
ierr = ma_add_r31(nb, work_in, scal, nb_max, work_out) |
460 |
CASE('subi') |
461 |
ierr = ma_subi_r31(nb, work_in, scal, nb_max, work_out) |
462 |
CASE('sub') |
463 |
ierr = ma_sub_r31(nb, work_in, scal, nb_max, work_out) |
464 |
CASE('mult') |
465 |
ierr = ma_mult_r31(nb, work_in, scal, nb_max, work_out) |
466 |
CASE('div') |
467 |
ierr = ma_div_r31(nb, work_in, scal, nb_max, work_out) |
468 |
CASE('divi') |
469 |
ierr = ma_divi_r31(nb, work_in, scal, nb_max, work_out) |
470 |
CASE('power') |
471 |
ierr = ma_power_r31(nb, work_in, scal, nb_max, work_out) |
472 |
CASE DEFAULT |
473 |
CALL histerr(3, "mathop", & |
474 |
'Unknown operation with a scalar', fun, ' ') |
475 |
END SELECT |
476 |
IF (ierr > 0) THEN |
477 |
CALL histerr(3, "mathop", & |
478 |
'Error while executing a scalar function', fun, ' ') |
479 |
ENDIF |
480 |
ENDIF |
481 |
|
482 |
END SUBROUTINE mathop_r31 |
483 |
|
484 |
END MODULE mathop_m |