source: LMDZ6/branches/Amaury_dev/libf/misc/xermsg.f90 @ 5114

Last change on this file since 5114 was 5106, checked in by abarral, 4 months ago

Turn coefils.h into lmdz_coefils.f90
Put filtreg.F90 inside lmdz_filtreg.F90
Turn mod_filtreg_p.F90 into lmdz_filtreg_p.F90
Delete obsolete parafilt.h*
(lint) remove spaces between routine name and args

  • 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: 15.8 KB
Line 
1!DECK XERMSG
2SUBROUTINE XERMSG(LIBRAR, SUBROU, MESSG, NERR, LEVEL)
3  IMPLICIT NONE
4  !***BEGIN PROLOGUE  XERMSG
5  !***PURPOSE  Process error messages for SLATEC and other libraries.
6  !***LIBRARY   SLATEC (XERROR)
7  !***CATEGORY  R3C
8  !***TYPE      ALL (XERMSG-A)
9  !***KEYWORDS  ERROR MESSAGE, XERROR
10  !***AUTHOR  Fong, Kirby, (NMFECC at LLNL)
11  !***DESCRIPTION
12  !
13  !   XERMSG processes a diagnostic message in a manner determined by the
14  !   value of LEVEL and the current value of the library error control
15  !   flag, KONTRL.  See SUBROUTINE XSETF for details.
16  !
17  !    LIBRAR   A character constant (or character variable) with the name
18  !         of the library.  This will be 'SLATEC' for the SLATEC
19  !         Common Math Library.  The error handling package is
20  !         general enough to be used by many libraries
21  !         simultaneously, so it is desirable for the routine that
22  !         detects and reports an error to identify the library name
23  !         as well as the routine name.
24  !
25  !    SUBROU   A character constant (or character variable) with the name
26  !             of the routine that detected the error.  Usually it is the
27  !         name of the routine that is calling XERMSG.  There are
28  !         some instances where a user callable library routine calls
29  !         lower level subsidiary routines where the error is
30  !         detected.  In such cases it may be more informative to
31  !         supply the name of the routine the user called rather than
32  !         the name of the subsidiary routine that detected the
33  !         error.
34  !
35  !    MESSG    A character constant (or character variable) with the text
36  !         of the error or warning message.  In the example below,
37  !         the message is a character constant that contains a
38  !         generic message.
39  !
40  !               CALL XERMSG ('SLATEC', 'MMPY',
41  !              *'THE ORDER OF THE MATRIX EXCEEDS THE ROW DIMENSION',
42  !              *3, 1)
43  !
44  !         It is possible (and is sometimes desirable) to generate a
45  !         specific message--e.g., one that contains actual numeric
46  !         values.  Specific numeric values can be converted into
47  !         character strings using formatted WRITE statements into
48  !         character variables.  This is called standard Fortran
49  !         internal file I/O and is exemplified in the first three
50  !         lines of the following example.  You can also catenate
51  !         substrings of characters to construct the error message.
52  !         Here is an example showing the use of both writing to
53  !         an internal file and catenating character strings.
54  !
55  !               CHARACTER*5 CHARN, CHARL
56  !               WRITE (CHARN,10) N
57  !               WRITE (CHARL,10) LDA
58  !            10 FORMAT(I5)
59  !               CALL XERMSG ('SLATEC', 'MMPY', 'THE ORDER'//CHARN//
60  !              *   ' OF THE MATRIX EXCEEDS ITS ROW DIMENSION OF'//
61  !              *   CHARL, 3, 1)
62  !
63  !         There are two subtleties worth mentioning.  One is that
64  !         the // for character catenation is used to construct the
65  !         error message so that no single character constant is
66  !         continued to the next line.  This avoids confusion as to
67  !         whether there are trailing blanks at the end of the line.
68  !         The second is that by catenating the parts of the message
69  !             as an actual argument rather than encoding the entire
70  !         message into one large character variable, we avoid
71  !         having to know how long the message will be in order to
72  !         declare an adequate length for that large character
73  !         variable.  XERMSG calls XERPRN to print the message using
74  !         multiple lines if necessary.  If the message is very long,
75  !         XERPRN will break it into pieces of 72 characters (as
76  !         requested by XERMSG) for printing on multiple lines.
77  !         Also, XERMSG asks XERPRN to prefix each line with ' *  '
78  !         so that the total line length could be 76 characters.
79  !         Note also that XERPRN scans the error message backwards
80  !         to ignore trailing blanks.  Another feature is that
81  !         the substring '$$' is treated as a new line sentinel
82  !         by XERPRN.  If you want to construct a multiline
83  !         message without having to count out multiples of 72
84  !         characters, just use '$$' as a separator.  '$$'
85  !         obviously must occur within 72 characters of the
86  !         start of each line to have its intended effect since
87  !         XERPRN is asked to wrap around at 72 characters in
88  !         addition to looking for '$$'.
89  !
90  !    NERR     An integer value that is chosen by the library routine's
91  !         author.  It must be in the range -99 to 999 (three
92  !         printable digits).  Each distinct error should have its
93  !         own error number.  These error numbers should be described
94  !         in the machine readable documentation for the routine.
95  !         The error numbers need be unique only within each routine,
96  !         so it is reasonable for each routine to start enumerating
97  !         errors from 1 and proceeding to the next integer.
98  !
99  !    LEVEL    An integer value in the range 0 to 2 that indicates the
100  !         level (severity) of the error.  Their meanings are
101  !
102  !        -1  A warning message.  This is used if it is not clear
103  !            that there really is an error, but the user's attention
104  !            may be needed.  An attempt is made to only print this
105  !            message once.
106  !
107  !         0  A warning message.  This is used if it is not clear
108  !            that there really is an error, but the user's attention
109  !            may be needed.
110  !
111  !         1  A recoverable error.  This is used even if the error is
112  !            so serious that the routine cannot return any useful
113  !            answer.  If the user has told the error package to
114  !            return after recoverable errors, then XERMSG will
115  !            return to the Library routine which can then return to
116  !            the user's routine.  The user may also permit the error
117  !            package to terminate the program upon encountering a
118  !            recoverable error.
119  !
120  !         2  A fatal error.  XERMSG will not return to its caller
121  !            after it receives a fatal error.  This level should
122  !            hardly ever be used; it is much better to allow the
123  !            user a chance to recover.  An example of one of the few
124  !            cases in which it is permissible to declare a level 2
125  !            error is a reverse communication Library routine that
126  !            is likely to be called repeatedly until it integrates
127  !            across some interval.  If there is a serious error in
128  !            the input such that another step cannot be taken and
129  !            the Library routine is called again without the input
130  !            error having been corrected by the caller, the Library
131  !            routine will probably be called forever with improper
132  !            input.  In this case, it is reasonable to declare the
133  !            error to be fatal.
134  !
135  !    Each of the arguments to XERMSG is input; none will be modified by
136  !    XERMSG.  A routine may make multiple calls to XERMSG with warning
137  !    level messages; however, after a CALL to XERMSG with a recoverable
138  !    error, the routine should return to the user.  Do not try to call
139  !    XERMSG with a second recoverable error after the first recoverable
140  !    error because the error package saves the error number.  The user
141  !    can retrieve this error number by calling another entry point in
142  !    the error handling package and then clear the error number when
143  !    recovering from the error.  Calling XERMSG in succession causes the
144  !    old error number to be overwritten by the latest error number.
145  !    This is considered harmless for error numbers associated with
146  !    warning messages but must not be done for error numbers of serious
147  !    errors.  After a CALL to XERMSG with a recoverable error, the user
148  !    must be given a chance to CALL NUMXER or XERCLR to retrieve or
149  !    clear the error number.
150  !***REFERENCES  R. E. Jones and D. K. Kahaner, XERROR, the SLATEC
151  !             Error-handling Package, SAND82-0800, Sandia
152  !             Laboratories, 1982.
153  !***ROUTINES CALLED  FDUMP, J4SAVE, XERCNT, XERHLT, XERPRN, XERSVE
154  !***REVISION HISTORY  (YYMMDD)
155  !   880101  DATE WRITTEN
156  !   880621  REVISED AS DIRECTED AT SLATEC CML MEETING OF FEBRUARY 1988.
157  !       THERE ARE TWO BASIC CHANGES.
158  !       1.  A NEW ROUTINE, XERPRN, IS USED INSTEAD OF XERPRT TO
159  !           PRINT MESSAGES.  THIS ROUTINE WILL BREAK LONG MESSAGES
160  !           INTO PIECES FOR PRINTING ON MULTIPLE LINES.  '$$' IS
161  !           ACCEPTED AS A NEW LINE SENTINEL.  A PREFIX CAN BE
162  !           ADDED TO EACH LINE TO BE PRINTED.  XERMSG USES EITHER
163  !           ' ***' OR ' *  ' AND LONG MESSAGES ARE BROKEN EVERY
164  !           72 CHARACTERS (AT MOST) SO THAT THE MAXIMUM LINE
165  !           LENGTH OUTPUT CAN NOW BE AS GREAT AS 76.
166  !       2.  THE TEXT OF ALL MESSAGES IS NOW IN UPPER CASE SINCE THE
167  !           FORTRAN STANDARD DOCUMENT DOES NOT ADMIT THE EXISTENCE
168  !           OF LOWER CASE.
169  !   880708  REVISED AFTER THE SLATEC CML MEETING OF JUNE 29 AND 30.
170  !       THE PRINCIPAL CHANGES ARE
171  !       1.  CLARIFY COMMENTS IN THE PROLOGUES
172  !       2.  RENAME XRPRNT TO XERPRN
173  !       3.  REWORK HANDLING OF '$$' IN XERPRN TO HANDLE BLANK LINES
174  !           SIMILAR TO THE WAY FORMAT STATEMENTS HANDLE THE /
175  !           CHARACTER FOR NEW RECORDS.
176  !   890706  REVISED WITH THE HELP OF FRED FRITSCH AND REG CLEMENS TO
177  !       CLEAN UP THE CODING.
178  !   890721  REVISED TO USE NEW FEATURE IN XERPRN TO COUNT CHARACTERS IN
179  !       PREFIX.
180  !   891013  REVISED TO CORRECT COMMENTS.
181  !   891214  Prologue converted to Version 4.0 format.  (WRB)
182  !   900510  Changed test on NERR to be -9999999 < NERR < 99999999, but
183  !       NERR .ne. 0, and on LEVEL to be -2 < LEVEL < 3.  Added
184  !       LEVEL=-1 logic, changed calls to XERSAV to XERSVE, and
185  !       XERCTL to XERCNT.  (RWC)
186  !   920501  Reformatted the REFERENCES section.  (WRB)
187  !***END PROLOGUE  XERMSG
188  CHARACTER(len=*) :: LIBRAR, SUBROU, MESSG
189  CHARACTER(len=8) :: XLIBR, XSUBR
190  CHARACTER(len=72) :: TEMP
191  CHARACTER(len=20) :: LFIRST
192  INTEGER :: NERR, LEVEL, LKNTRL
193  INTEGER :: J4SAVE, MAXMES, KDUMMY, I, KOUNT, LERR, LLEVEL
194  INTEGER :: MKNTRL, LTEMP
195  !***FIRST EXECUTABLE STATEMENT  XERMSG
196  LKNTRL = J4SAVE (2, 0, .FALSE.)
197  MAXMES = J4SAVE (4, 0, .FALSE.)
198  !
199  !   LKNTRL IS A LOCAL COPY OF THE CONTROL FLAG KONTRL.
200  !   MAXMES IS THE MAXIMUM NUMBER OF TIMES ANY PARTICULAR MESSAGE
201  !      SHOULD BE PRINTED.
202  !
203  !   WE PRINT A FATAL ERROR MESSAGE AND TERMINATE FOR AN ERROR IN
204  !      CALLING XERMSG.  THE ERROR NUMBER SHOULD BE POSITIVE,
205  !      AND THE LEVEL SHOULD BE BETWEEN 0 AND 2.
206  !
207  IF (NERR<-9999999 .OR. NERR>99999999 .OR. NERR==0 .OR. &
208        LEVEL<-1 .OR. LEVEL>2) THEN
209     CALL XERPRN (' ***', -1, 'FATAL ERROR IN...$$ ' // &
210           'XERMSG -- INVALID ERROR NUMBER OR LEVEL$$ '// &
211           'JOB ABORT DUE TO FATAL ERROR.', 72)
212     CALL XERSVE (' ', ' ', ' ', 0, 0, 0, KDUMMY)
213     CALL XERHLT (' ***XERMSG -- INVALID INPUT')
214     RETURN
215  ENDIF
216  !
217  !   RECORD THE MESSAGE.
218  !
219  I = J4SAVE (1, NERR, .TRUE.)
220  CALL XERSVE (LIBRAR, SUBROU, MESSG, 1, NERR, LEVEL, KOUNT)
221  !
222  !   HANDLE PRINT-ONCE WARNING MESSAGES.
223  !
224  IF (LEVEL==-1 .AND. KOUNT>1) RETURN
225  !
226  !   ALLOW TEMPORARY USER OVERRIDE OF THE CONTROL FLAG.
227  !
228  XLIBR  = LIBRAR
229  XSUBR  = SUBROU
230  LFIRST = MESSG
231  LERR   = NERR
232  LLEVEL = LEVEL
233  CALL XERCNT (XLIBR, XSUBR, LFIRST, LERR, LLEVEL, LKNTRL)
234  !
235  LKNTRL = MAX(-2, MIN(2,LKNTRL))
236  MKNTRL = ABS(LKNTRL)
237  !
238  !   SKIP PRINTING IF THE CONTROL FLAG VALUE AS RESET IN XERCNT IS
239  !   ZERO AND THE ERROR IS NOT FATAL.
240  !
241  IF (LEVEL<2 .AND. LKNTRL==0) GO TO 30
242  IF (LEVEL==0 .AND. KOUNT>MAXMES) GO TO 30
243  IF (LEVEL==1 .AND. KOUNT>MAXMES .AND. MKNTRL==1) GO TO 30
244  IF (LEVEL==2 .AND. KOUNT>MAX(1,MAXMES)) GO TO 30
245  !
246  !   ANNOUNCE THE NAMES OF THE LIBRARY AND SUBROUTINE BY BUILDING A
247  !   MESSAGE IN CHARACTER VARIABLE TEMP (NOT EXCEEDING 66 CHARACTERS)
248  !   AND SENDING IT OUT VIA XERPRN.  PRINT ONLY IF CONTROL FLAG
249  !   IS NOT ZERO.
250  !
251  IF (LKNTRL /= 0) THEN
252     TEMP(1:21) = 'MESSAGE FROM ROUTINE '
253     I = MIN(LEN(SUBROU), 16)
254     TEMP(22:21+I) = SUBROU(1:I)
255     TEMP(22+I:33+I) = ' IN LIBRARY '
256     LTEMP = 33 + I
257     I = MIN(LEN(LIBRAR), 16)
258     TEMP(LTEMP+1:LTEMP+I) = LIBRAR (1:I)
259     TEMP(LTEMP+I+1:LTEMP+I+1) = '.'
260     LTEMP = LTEMP + I + 1
261     CALL XERPRN (' ***', -1, TEMP(1:LTEMP), 72)
262  ENDIF
263  !
264  !   IF LKNTRL IS POSITIVE, PRINT AN INTRODUCTORY LINE BEFORE
265  !   PRINTING THE MESSAGE.  THE INTRODUCTORY LINE TELLS THE CHOICE
266  !   FROM EACH OF THE FOLLOWING THREE OPTIONS.
267  !   1.  LEVEL OF THE MESSAGE
268  !          'INFORMATIVE MESSAGE'
269  !          'POTENTIALLY RECOVERABLE ERROR'
270  !          'FATAL ERROR'
271  !   2.  WHETHER CONTROL FLAG WILL ALLOW PROGRAM TO CONTINUE
272  !          'PROG CONTINUES'
273  !          'PROG ABORTED'
274  !   3.  WHETHER OR NOT A TRACEBACK WAS REQUESTED.  (THE TRACEBACK
275  !       MAY NOT BE IMPLEMENTED AT SOME SITES, SO THIS ONLY TELLS
276  !       WHAT WAS REQUESTED, NOT WHAT WAS DELIVERED.)
277  !          'TRACEBACK REQUESTED'
278  !          'TRACEBACK NOT REQUESTED'
279  !   NOTICE THAT THE LINE INCLUDING FOUR PREFIX CHARACTERS WILL NOT
280  !   EXCEED 74 CHARACTERS.
281  !   WE SKIP THE NEXT BLOCK IF THE INTRODUCTORY LINE IS NOT NEEDED.
282  !
283  IF (LKNTRL > 0) THEN
284  !
285  !   THE FIRST PART OF THE MESSAGE TELLS ABOUT THE LEVEL.
286  !
287     IF (LEVEL <= 0) THEN
288        TEMP(1:20) = 'INFORMATIVE MESSAGE,'
289        LTEMP = 20
290     ELSEIF (LEVEL == 1) THEN
291        TEMP(1:30) = 'POTENTIALLY RECOVERABLE ERROR,'
292        LTEMP = 30
293     ELSE
294        TEMP(1:12) = 'FATAL ERROR,'
295        LTEMP = 12
296     ENDIF
297  !
298  !   THEN WHETHER THE PROGRAM WILL CONTINUE.
299  !
300     IF ((MKNTRL==2 .AND. LEVEL>=1) .OR. &
301           (MKNTRL==1 .AND. LEVEL==2)) THEN
302        TEMP(LTEMP+1:LTEMP+14) = ' PROG ABORTED,'
303        LTEMP = LTEMP + 14
304     ELSE
305        TEMP(LTEMP+1:LTEMP+16) = ' PROG CONTINUES,'
306        LTEMP = LTEMP + 16
307     ENDIF
308  !
309  !   FINALLY TELL WHETHER THERE SHOULD BE A TRACEBACK.
310  !
311     IF (LKNTRL > 0) THEN
312        TEMP(LTEMP+1:LTEMP+20) = ' TRACEBACK REQUESTED'
313        LTEMP = LTEMP + 20
314     ELSE
315        TEMP(LTEMP+1:LTEMP+24) = ' TRACEBACK NOT REQUESTED'
316        LTEMP = LTEMP + 24
317     ENDIF
318     CALL XERPRN (' ***', -1, TEMP(1:LTEMP), 72)
319  ENDIF
320  !
321  !   NOW SEND OUT THE MESSAGE.
322  !
323  CALL XERPRN (' *  ', -1, MESSG, 72)
324  !
325  !   IF LKNTRL IS POSITIVE, WRITE THE ERROR NUMBER AND REQUEST A
326  !      TRACEBACK.
327  !
328  IF (LKNTRL > 0) THEN
329     WRITE (TEMP, '(''ERROR NUMBER = '', I8)') NERR
330     DO I=16,22
331        IF (TEMP(I:I) /= ' ') GO TO 20
332  END DO
333  !
334   20   CALL XERPRN (' *  ', -1, TEMP(1:15) // TEMP(I:23), 72)
335     CALL FDUMP
336  ENDIF
337  !
338  !   IF LKNTRL IS NOT ZERO, PRINT A BLANK LINE AND AN END OF MESSAGE.
339  !
340  IF (LKNTRL /= 0) THEN
341     CALL XERPRN (' *  ', -1, ' ', 72)
342     CALL XERPRN (' ***', -1, 'END OF MESSAGE', 72)
343     CALL XERPRN ('    ',  0, ' ', 72)
344  ENDIF
345  !
346  !   IF THE ERROR IS NOT FATAL OR THE ERROR IS RECOVERABLE AND THE
347  !   CONTROL FLAG IS SET FOR RECOVERY, THEN RETURN.
348  !
349   30   IF (LEVEL<=0 .OR. (LEVEL==1 .AND. MKNTRL<=1)) RETURN
350  !
351  !   THE PROGRAM WILL BE STOPPED DUE TO AN UNRECOVERED ERROR OR A
352  !   FATAL ERROR.  PRINT THE REASON FOR THE ABORT AND THE ERROR
353  !   SUMMARY IF THE CONTROL FLAG AND THE MAXIMUM ERROR COUNT PERMIT.
354  !
355  IF (LKNTRL>0 .AND. KOUNT<MAX(1,MAXMES)) THEN
356     IF (LEVEL == 1) THEN
357        CALL XERPRN &
358              (' ***', -1, 'JOB ABORT DUE TO UNRECOVERED ERROR.', 72)
359     ELSE
360        CALL XERPRN(' ***', -1, 'JOB ABORT DUE TO FATAL ERROR.', 72)
361     ENDIF
362     CALL XERSVE (' ', ' ', ' ', -1, 0, 0, KDUMMY)
363     CALL XERHLT (' ')
364  ELSE
365     CALL XERHLT (MESSG)
366  ENDIF
367
368END SUBROUTINE XERMSG
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