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pchfe.f90 @ 5300

Last change on this file since 5300 was 5246, checked in by abarral, 11 days ago
Convert fixed-form to free-form sources .F -> .{f,F}90 (WIP: some .F remain, will be handled in subsequent commits)
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: 9.6 KB

Line
1	!DECK PCHFE
2	SUBROUTINE PCHFE (N, X, F, D, INCFD, SKIP, NE, XE, FE, IERR)
3	!***BEGIN PROLOGUE PCHFE
4	!***PURPOSE Evaluate a piecewise cubic Hermite function at an array of
5	! points. May be used by itself for Hermite interpolation,
6	! or as an evaluator for PCHIM or PCHIC.
7	!***LIBRARY SLATEC (PCHIP)
8	!***CATEGORY E3
9	!***TYPE SINGLE PRECISION (PCHFE-S, DPCHFE-D)
10	!***KEYWORDS CUBIC HERMITE EVALUATION, HERMITE INTERPOLATION, PCHIP,
11	! PIECEWISE CUBIC EVALUATION
12	!***AUTHOR Fritsch, F. N., (LLNL)
13	! Lawrence Livermore National Laboratory
14	! P.O. Box 808 (L-316)
15	! Livermore, CA 94550
16	! FTS 532-4275, (510) 422-4275
17	!***DESCRIPTION
18	!
19	! PCHFE: Piecewise Cubic Hermite Function Evaluator
20	!
21	! Evaluates the cubic Hermite function defined by N, X, F, D at
22	! the points XE(J), J=1(1)NE.
23	!
24	! To provide compatibility with PCHIM and PCHIC, includes an
25	! increment between successive values of the F- and D-arrays.
26	!
27	! ----------------------------------------------------------------------
28	!
29	! Calling sequence:
30	!
31	! PARAMETER (INCFD = ...)
32	! INTEGER N, NE, IERR
33	! REAL X(N), F(INCFD,N), D(INCFD,N), XE(NE), FE(NE)
34	! LOGICAL SKIP
35	!
36	! CALL PCHFE (N, X, F, D, INCFD, SKIP, NE, XE, FE, IERR)
37	!
38	! Parameters:
39	!
40	! N -- (input) number of data points. (Error return if N.LT.2 .)
41	!
42	! X -- (input) real array of independent variable values. The
43	! elements of X must be strictly increasing:
44	! X(I-1) .LT. X(I), I = 2(1)N.
45	! (Error return if not.)
46	!
47	! F -- (input) real array of function values. F(1+(I-1)*INCFD) is
48	! the value corresponding to X(I).
49	!
50	! D -- (input) real array of derivative values. D(1+(I-1)*INCFD) is
51	! the value corresponding to X(I).
52	!
53	! INCFD -- (input) increment between successive values in F and D.
54	! (Error return if INCFD.LT.1 .)
55	!
56	! SKIP -- (input/output) logical variable which should be set to
57	! .TRUE. if the user wishes to skip checks for validity of
58	! preceding parameters, or to .FALSE. otherwise.
59	! This will save time in case these checks have already
60	! been performed (say, in PCHIM or PCHIC).
61	! SKIP will be set to .TRUE. on normal return.
62	!
63	! NE -- (input) number of evaluation points. (Error return if
64	! NE.LT.1 .)
65	!
66	! XE -- (input) real array of points at which the function is to be
67	! evaluated.
68	!
69	! NOTES:
70	! 1. The evaluation will be most efficient if the elements
71	! of XE are increasing relative to X;
72	! that is, XE(J) .GE. X(I)
73	! implies XE(K) .GE. X(I), all K.GE.J .
74	! 2. If any of the XE are outside the interval [X(1),X(N)],
75	! values are extrapolated from the nearest extreme cubic,
76	! and a warning error is returned.
77	!
78	! FE -- (output) real array of values of the cubic Hermite function
79	! defined by N, X, F, D at the points XE.
80	!
81	! IERR -- (output) error flag.
82	! Normal return:
83	! IERR = 0 (no errors).
84	! Warning error:
85	! IERR.GT.0 means that extrapolation was performed at
86	! IERR points.
87	! "Recoverable" errors:
88	! IERR = -1 if N.LT.2 .
89	! IERR = -2 if INCFD.LT.1 .
90	! IERR = -3 if the X-array is not strictly increasing.
91	! IERR = -4 if NE.LT.1 .
92	! (The FE-array has not been changed in any of these cases.)
93	! NOTE: The above errors are checked in the order listed,
94	! and following arguments have NOT been validated.
95	!
96	!***REFERENCES (NONE)
97	!***ROUTINES CALLED CHFEV, XERMSG
98	!***REVISION HISTORY (YYMMDD)
99	! 811020 DATE WRITTEN
100	! 820803 Minor cosmetic changes for release 1.
101	! 870707 Minor cosmetic changes to prologue.
102	! 890531 Changed all specific intrinsics to generic. (WRB)
103	! 890831 Modified array declarations. (WRB)
104	! 890831 REVISION DATE from Version 3.2
105	! 891214 Prologue converted to Version 4.0 format. (BAB)
106	! 900315 CALLs to XERROR changed to CALLs to XERMSG. (THJ)
107	!***END PROLOGUE PCHFE
108	! Programming notes:
109	!
110	! 1. To produce a double precision version, simply:
111	! a. Change PCHFE to DPCHFE, and CHFEV to DCHFEV, wherever they
112	! occur,
113	! b. Change the real declaration to double precision,
114	!
115	! 2. Most of the coding between the call to CHFEV and the end of
116	! the IR-loop could be eliminated if it were permissible to
117	! assume that XE is ordered relative to X.
118	!
119	! 3. CHFEV does not assume that X1 is less than X2. thus, it would
120	! be possible to write a version of PCHFE that assumes a strict-
121	! ly decreasing X-array by simply running the IR-loop backwards
122	! (and reversing the order of appropriate tests).
123	!
124	! 4. The present code has a minor bug, which I have decided is not
125	! worth the effort that would be required to fix it.
126	! If XE contains points in [X(N-1),X(N)], followed by points .LT.
127	! X(N-1), followed by points .GT.X(N), the extrapolation points
128	! will be counted (at least) twice in the total returned in IERR.
129	!
130	! DECLARE ARGUMENTS.
131	!
132	INTEGER :: N, INCFD, NE, IERR
133	REAL :: X(), F(INCFD,), D(INCFD,), XE(), FE(*)
134	LOGICAL :: SKIP
135	!
136	! DECLARE LOCAL VARIABLES.
137	!
138	INTEGER :: I, IERC, IR, J, JFIRST, NEXT(2), NJ
139	!
140	! VALIDITY-CHECK ARGUMENTS.
141	!
142	!***FIRST EXECUTABLE STATEMENT PCHFE
143	IF (SKIP) GO TO 5
144	!
145	IF ( N.LT.2 ) GO TO 5001
146	IF ( INCFD.LT.1 ) GO TO 5002
147	DO I = 2, N
148	IF ( X(I).LE.X(I-1) ) GO TO 5003
149	END DO
150	!
151	! FUNCTION DEFINITION IS OK, GO ON.
152	!
153	5 CONTINUE
154	IF ( NE.LT.1 ) GO TO 5004
155	IERR = 0
156	SKIP = .TRUE.
157	!
158	! LOOP OVER INTERVALS. ( INTERVAL INDEX IS IL = IR-1 . )
159	! ( INTERVAL IS X(IL).LE.X.LT.X(IR) . )
160	JFIRST = 1
161	IR = 2
162	10 CONTINUE
163	!
164	! SKIP OUT OF LOOP IF HAVE PROCESSED ALL EVALUATION POINTS.
165	!
166	IF (JFIRST .GT. NE) GO TO 5000
167	!
168	! LOCATE ALL POINTS IN INTERVAL.
169	!
170	DO J = JFIRST, NE
171	IF (XE(J) .GE. X(IR)) GO TO 30
172	END DO
173	J = NE + 1
174	GO TO 40
175	!
176	! HAVE LOCATED FIRST POINT BEYOND INTERVAL.
177	!
178	30 CONTINUE
179	IF (IR .EQ. N) J = NE + 1
180	!
181	40 CONTINUE
182	NJ = J - JFIRST
183	!
184	! SKIP EVALUATION IF NO POINTS IN INTERVAL.
185	!
186	IF (NJ .EQ. 0) GO TO 50
187	!
188	! EVALUATE CUBIC AT XE(I), I = JFIRST (1) J-1 .
189	!
190	! ----------------------------------------------------------------
191	CALL CHFEV (X(IR-1),X(IR), F(1,IR-1),F(1,IR), D(1,IR-1),D(1,IR), &
192	NJ, XE(JFIRST), FE(JFIRST), NEXT, IERC)
193	! ----------------------------------------------------------------
194	IF (IERC .LT. 0) GO TO 5005
195	!
196	IF (NEXT(2) .EQ. 0) GO TO 42
197	! IF (NEXT(2) .GT. 0) THEN
198	! IN THE CURRENT SET OF XE-POINTS, THERE ARE NEXT(2) TO THE
199	! RIGHT OF X(IR).
200	!
201	IF (IR .LT. N) GO TO 41
202	! IF (IR .EQ. N) THEN
203	! THESE ARE ACTUALLY EXTRAPOLATION POINTS.
204	IERR = IERR + NEXT(2)
205	GO TO 42
206	41 CONTINUE
207	! ELSE
208	! WE SHOULD NEVER HAVE GOTTEN HERE.
209	GO TO 5005
210	! ENDIF
211	! ENDIF
212	42 CONTINUE
213	!
214	IF (NEXT(1) .EQ. 0) GO TO 49
215	! IF (NEXT(1) .GT. 0) THEN
216	! IN THE CURRENT SET OF XE-POINTS, THERE ARE NEXT(1) TO THE
217	! LEFT OF X(IR-1).
218	!
219	IF (IR .GT. 2) GO TO 43
220	! IF (IR .EQ. 2) THEN
221	! THESE ARE ACTUALLY EXTRAPOLATION POINTS.
222	IERR = IERR + NEXT(1)
223	GO TO 49
224	43 CONTINUE
225	! ELSE
226	! XE IS NOT ORDERED RELATIVE TO X, SO MUST ADJUST
227	! EVALUATION INTERVAL.
228	!
229	! FIRST, LOCATE FIRST POINT TO LEFT OF X(IR-1).
230	DO I = JFIRST, J-1
231	IF (XE(I) .LT. X(IR-1)) GO TO 45
232	END DO
233	! NOTE-- CANNOT DROP THROUGH HERE UNLESS THERE IS AN ERROR
234	! IN CHFEV.
235	GO TO 5005
236	!
237	45 CONTINUE
238	! RESET J. (THIS WILL BE THE NEW JFIRST.)
239	J = I
240	!
241	! NOW FIND OUT HOW FAR TO BACK UP IN THE X-ARRAY.
242	DO I = 1, IR-1
243	IF (XE(J) .LT. X(I)) GO TO 47
244	END DO
245	! NB-- CAN NEVER DROP THROUGH HERE, SINCE XE(J).LT.X(IR-1).
246	!
247	47 CONTINUE
248	! AT THIS POINT, EITHER XE(J) .LT. X(1)
249	! OR X(I-1) .LE. XE(J) .LT. X(I) .
250	! RESET IR, RECOGNIZING THAT IT WILL BE INCREMENTED BEFORE
251	! CYCLING.
252	IR = MAX(1, I-1)
253	! ENDIF
254	! ENDIF
255	49 CONTINUE
256	!
257	JFIRST = J
258	!
259	! END OF IR-LOOP.
260	!
261	50 CONTINUE
262	IR = IR + 1
263	IF (IR .LE. N) GO TO 10
264	!
265	! NORMAL RETURN.
266	!
267	5000 CONTINUE
268	RETURN
269	!
270	! ERROR RETURNS.
271	!
272	5001 CONTINUE
273	! N.LT.2 RETURN.
274	IERR = -1
275	CALL XERMSG ('SLATEC', 'PCHFE', &
276	'NUMBER OF DATA POINTS LESS THAN TWO', IERR, 1)
277	RETURN
278	!
279	5002 CONTINUE
280	! INCFD.LT.1 RETURN.
281	IERR = -2
282	CALL XERMSG ('SLATEC', 'PCHFE', 'INCREMENT LESS THAN ONE', IERR, &
283	1)
284	RETURN
285	!
286	5003 CONTINUE
287	! X-ARRAY NOT STRICTLY INCREASING.
288	IERR = -3
289	CALL XERMSG ('SLATEC', 'PCHFE', 'X-ARRAY NOT STRICTLY INCREASING' &
290	, IERR, 1)
291	RETURN
292	!
293	5004 CONTINUE
294	! NE.LT.1 RETURN.
295	IERR = -4
296	CALL XERMSG ('SLATEC', 'PCHFE', &
297	'NUMBER OF EVALUATION POINTS LESS THAN ONE', IERR, 1)
298	RETURN
299	!
300	5005 CONTINUE
301	! ERROR RETURN FROM CHFEV.
302	! * THIS CASE SHOULD NEVER OCCUR *
303	IERR = -5
304	CALL XERMSG ('SLATEC', 'PCHFE', &
305	'ERROR RETURN FROM CHFEV -- FATAL', IERR, 2)
306	RETURN
307	!------------- LAST LINE OF PCHFE FOLLOWS ------------------------------
308	END SUBROUTINE PCHFE

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