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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [gfortran.dg/] [g77/] [20010519-1.f] - Blame information for rev 302

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1 302 jeremybenn
c { dg-do compile }
2
CHARMM Element source/dimb/nmdimb.src 1.1
3
C.##IF DIMB
4
      SUBROUTINE NMDIMB(X,Y,Z,NAT3,BNBND,BIMAG,LNOMA,AMASS,DDS,DDSCR,
5
     1                 PARDDV,DDV,DDM,PARDDF,DDF,PARDDE,DDEV,DD1BLK,
6
     2                 DD1BLL,NADD,LRAISE,DD1CMP,INBCMP,JNBCMP,
7
     3                 NPAR,ATMPAR,ATMPAS,BLATOM,PARDIM,NFREG,NFRET,
8
     4                 PARFRQ,CUTF1,ITMX,TOLDIM,IUNMOD,IUNRMD,
9
     5                 LBIG,LSCI,ATMPAD,SAVF,NBOND,IB,JB,DDVALM)
10
C-----------------------------------------------------------------------
11
C     01-Jul-1992 David Perahia, Liliane Mouawad
12
C     15-Dec-1994 Herman van Vlijmen
13
C
14
C     This is the main routine for the mixed-basis diagonalization.
15
C     See: L.Mouawad and D.Perahia, Biopolymers (1993), 33, 599,
16
C     and: D.Perahia and L.Mouawad, Comput. Chem. (1995), 19, 241.
17
C     The method iteratively solves the diagonalization of the
18
C     Hessian matrix. To save memory space, it uses a compressed
19
C     form of the Hessian, which only contains the nonzero elements.
20
C     In the diagonalization process, approximate eigenvectors are
21
C     mixed with Cartesian coordinates to form a reduced basis. The
22
C     Hessian is then diagonalized in the reduced basis. By iterating
23
C     over different sets of Cartesian coordinates the method ultimately
24
C     converges to the exact eigenvalues and eigenvectors (up to the
25
C     requested accuracy).
26
C     If no existing basis set is read, an initial basis will be created
27
C     which consists of the low-frequency eigenvectors of diagonal blocks
28
C     of the Hessian.
29
C-----------------------------------------------------------------------
30
C-----------------------------------------------------------------------
31
C:::##INCLUDE '~/charmm_fcm/impnon.fcm'
32
C..##IF VAX IRIS HPUX IRIS GNU CSPP OS2 GWS CRAY ALPHA
33
      IMPLICIT NONE
34
C..##ENDIF
35
C-----------------------------------------------------------------------
36
C-----------------------------------------------------------------------
37
C:::##INCLUDE '~/charmm_fcm/stream.fcm'
38
      LOGICAL LOWER,QLONGL
39
      INTEGER MXSTRM,POUTU
40
      PARAMETER (MXSTRM=20,POUTU=6)
41
      INTEGER   NSTRM,ISTRM,JSTRM,OUTU,PRNLEV,WRNLEV,IOLEV
42
      COMMON /CASE/   LOWER, QLONGL
43
      COMMON /STREAM/ NSTRM,ISTRM,JSTRM(MXSTRM),OUTU,PRNLEV,WRNLEV,IOLEV
44
C..##IF SAVEFCM
45
C..##ENDIF
46
C-----------------------------------------------------------------------
47
C-----------------------------------------------------------------------
48
C:::##INCLUDE '~/charmm_fcm/dimens.fcm'
49
      INTEGER LARGE,MEDIUM,SMALL,REDUCE
50
C..##IF QUANTA
51
C..##ELIF T3D
52
C..##ELSE
53
      PARAMETER (LARGE=60120, MEDIUM=25140, SMALL=6120)
54
C..##ENDIF
55
      PARAMETER (REDUCE=15000)
56
      INTEGER SIZE
57
C..##IF XLARGE
58
C..##ELIF XXLARGE
59
C..##ELIF LARGE
60
C..##ELIF MEDIUM
61
      PARAMETER (SIZE=MEDIUM)
62
C..##ELIF REDUCE
63
C..##ELIF SMALL
64
C..##ELIF XSMALL
65
C..##ENDIF
66
C..##IF MMFF
67
      integer MAXDEFI
68
      parameter(MAXDEFI=250)
69
      INTEGER NAME0,NAMEQ0,NRES0,KRES0
70
      PARAMETER (NAME0=4,NAMEQ0=10,NRES0=4,KRES0=4)
71
      integer MaxAtN
72
      parameter (MaxAtN=55)
73
      INTEGER MAXAUX
74
      PARAMETER (MAXAUX = 10)
75
C..##ENDIF
76
      INTEGER MAXCSP, MAXHSET
77
C..##IF HMCM
78
      PARAMETER (MAXHSET = 200)
79
C..##ELSE
80
C..##ENDIF
81
C..##IF REDUCE
82
C..##ELSE
83
      PARAMETER (MAXCSP = 500)
84
C..##ENDIF
85
C..##IF HMCM
86
      INTEGER MAXHCM,MAXPCM,MAXRCM
87
C...##IF REDUCE
88
C...##ELSE
89
      PARAMETER (MAXHCM=500)
90
      PARAMETER (MAXPCM=5000)
91
      PARAMETER (MAXRCM=2000)
92
C...##ENDIF
93
C..##ENDIF
94
      INTEGER MXCMSZ
95
C..##IF IBM IBMRS CRAY INTEL IBMSP T3D REDUCE
96
C..##ELSE
97
      PARAMETER (MXCMSZ = 5000)
98
C..##ENDIF
99
      INTEGER CHRSIZ
100
      PARAMETER (CHRSIZ = SIZE)
101
      INTEGER MAXATB
102
C..##IF REDUCE
103
C..##ELIF QUANTA
104
C..##ELSE
105
      PARAMETER (MAXATB = 200)
106
C..##ENDIF
107
      INTEGER MAXVEC
108
C..##IFN VECTOR PARVECT
109
      PARAMETER (MAXVEC = 10)
110
C..##ELIF LARGE XLARGE XXLARGE
111
C..##ELIF MEDIUM
112
C..##ELIF SMALL REDUCE
113
C..##ELIF XSMALL
114
C..##ELSE
115
C..##ENDIF
116
      INTEGER IATBMX
117
      PARAMETER (IATBMX = 8)
118
      INTEGER MAXHB
119
C..##IF LARGE XLARGE XXLARGE
120
C..##ELIF MEDIUM
121
      PARAMETER (MAXHB = 8000)
122
C..##ELIF SMALL
123
C..##ELIF REDUCE XSMALL
124
C..##ELSE
125
C..##ENDIF
126
      INTEGER MAXTRN,MAXSYM
127
C..##IFN NOIMAGES
128
      PARAMETER (MAXTRN = 5000)
129
      PARAMETER (MAXSYM = 192)
130
C..##ELSE
131
C..##ENDIF
132
C..##IF LONEPAIR (lonepair_max)
133
      INTEGER MAXLP,MAXLPH
134
C...##IF REDUCE
135
C...##ELSE
136
      PARAMETER (MAXLP  = 2000)
137
      PARAMETER (MAXLPH = 4000)
138
C...##ENDIF
139
C..##ENDIF (lonepair_max)
140
      INTEGER NOEMAX,NOEMX2
141
C..##IF REDUCE
142
C..##ELSE
143
      PARAMETER (NOEMAX = 2000)
144
      PARAMETER (NOEMX2 = 4000)
145
C..##ENDIF
146
      INTEGER MAXATC, MAXCB, MAXCH, MAXCI, MAXCP, MAXCT, MAXITC, MAXNBF
147
C..##IF REDUCE
148
C..##ELIF MMFF CFF
149
      PARAMETER (MAXATC = 500, MAXCB = 1500, MAXCH = 3200, MAXCI = 600,
150
     &           MAXCP  = 3000,MAXCT = 15500,MAXITC = 200, MAXNBF=1000)
151
C..##ELIF YAMMP
152
C..##ELIF LARGE
153
C..##ELSE
154
C..##ENDIF
155
      INTEGER MAXCN
156
      PARAMETER (MAXCN = MAXITC*(MAXITC+1)/2)
157
      INTEGER MAXA, MAXAIM, MAXB, MAXT, MAXP
158
      INTEGER MAXIMP, MAXNB, MAXPAD, MAXRES
159
      INTEGER MAXSEG, MAXGRP
160
C..##IF LARGE XLARGE XXLARGE
161
C..##ELIF MEDIUM
162
      PARAMETER (MAXA = SIZE, MAXB = SIZE, MAXT = SIZE,
163
     &           MAXP = 2*SIZE)
164
      PARAMETER (MAXIMP = 9200, MAXNB = 17200, MAXPAD = 8160,
165
     &           MAXRES = 14000)
166
C...##IF MCSS
167
C...##ELSE
168
      PARAMETER (MAXSEG = 1000)
169
C...##ENDIF
170
C..##ELIF SMALL
171
C..##ELIF XSMALL
172
C..##ELIF REDUCE
173
C..##ELSE
174
C..##ENDIF
175
C..##IF NOIMAGES
176
C..##ELSE
177
      PARAMETER (MAXAIM = 2*SIZE)
178
      PARAMETER (MAXGRP = 2*SIZE/3)
179
C..##ENDIF
180
      INTEGER REDMAX,REDMX2
181
C..##IF REDUCE
182
C..##ELSE
183
      PARAMETER (REDMAX = 20)
184
      PARAMETER (REDMX2 = 80)
185
C..##ENDIF
186
      INTEGER MXRTRS, MXRTA, MXRTB, MXRTT, MXRTP, MXRTI, MXRTX,
187
     &        MXRTHA, MXRTHD, MXRTBL, NICM
188
      PARAMETER (MXRTRS = 200, MXRTA = 5000, MXRTB = 5000,
189
     &           MXRTT = 5000, MXRTP = 5000, MXRTI = 2000,
190
C..##IF YAMMP
191
C..##ELSE
192
     &           MXRTX = 5000, MXRTHA = 300, MXRTHD = 300,
193
C..##ENDIF
194
     &           MXRTBL = 5000, NICM = 10)
195
      INTEGER NMFTAB,  NMCTAB,  NMCATM,  NSPLIN
196
C..##IF REDUCE
197
C..##ELSE
198
      PARAMETER (NMFTAB = 200, NMCTAB = 3, NMCATM = 12000, NSPLIN = 3)
199
C..##ENDIF
200
      INTEGER MAXSHK
201
C..##IF XSMALL
202
C..##ELIF REDUCE
203
C..##ELSE
204
      PARAMETER (MAXSHK = SIZE*3/4)
205
C..##ENDIF
206
      INTEGER SCRMAX
207
C..##IF IBM IBMRS CRAY INTEL IBMSP T3D REDUCE
208
C..##ELSE
209
      PARAMETER (SCRMAX = 5000)
210
C..##ENDIF
211
C..##IF TSM
212
      INTEGER MXPIGG
213
C...##IF REDUCE
214
C...##ELSE
215
      PARAMETER (MXPIGG=500)
216
C...##ENDIF
217
      INTEGER MXCOLO,MXPUMB
218
      PARAMETER (MXCOLO=20,MXPUMB=20)
219
C..##ENDIF
220
C..##IF ADUMB
221
      INTEGER MAXUMP, MAXEPA, MAXNUM
222
C...##IF REDUCE
223
C...##ELSE
224
      PARAMETER (MAXUMP = 10, MAXNUM = 4)
225
C...##ENDIF
226
C..##ENDIF
227
      INTEGER MAXING
228
      PARAMETER (MAXING=1000)
229
C..##IF MMFF
230
      integer MAX_RINGSIZE, MAX_EACH_SIZE
231
      parameter (MAX_RINGSIZE = 20, MAX_EACH_SIZE = 1000)
232
      integer MAXPATHS
233
      parameter (MAXPATHS = 8000)
234
      integer MAX_TO_SEARCH
235
      parameter (MAX_TO_SEARCH = 6)
236
C..##ENDIF
237
C-----------------------------------------------------------------------
238
C-----------------------------------------------------------------------
239
C:::##INCLUDE '~/charmm_fcm/number.fcm'
240
      REAL(KIND=8)     ZERO, ONE, TWO, THREE, FOUR, FIVE, SIX,
241
     &           SEVEN, EIGHT, NINE, TEN, ELEVEN, TWELVE, THIRTN,
242
     &           FIFTN, NINETN, TWENTY, THIRTY
243
C..##IF SINGLE
244
C..##ELSE
245
      PARAMETER (ZERO   =  0.D0, ONE    =  1.D0, TWO    =  2.D0,
246
     &           THREE  =  3.D0, FOUR   =  4.D0, FIVE   =  5.D0,
247
     &           SIX    =  6.D0, SEVEN  =  7.D0, EIGHT  =  8.D0,
248
     &           NINE   =  9.D0, TEN    = 10.D0, ELEVEN = 11.D0,
249
     &           TWELVE = 12.D0, THIRTN = 13.D0, FIFTN  = 15.D0,
250
     &           NINETN = 19.D0, TWENTY = 20.D0, THIRTY = 30.D0)
251
C..##ENDIF
252
      REAL(KIND=8)     FIFTY, SIXTY, SVNTY2, EIGHTY, NINETY, HUNDRD,
253
     &           ONE2TY, ONE8TY, THRHUN, THR6TY, NINE99, FIFHUN, THOSND,
254
     &           FTHSND,MEGA
255
C..##IF SINGLE
256
C..##ELSE
257
      PARAMETER (FIFTY  = 50.D0,  SIXTY  =  60.D0,  SVNTY2 =   72.D0,
258
     &           EIGHTY = 80.D0,  NINETY =  90.D0,  HUNDRD =  100.D0,
259
     &           ONE2TY = 120.D0, ONE8TY = 180.D0,  THRHUN =  300.D0,
260
     &           THR6TY=360.D0,   NINE99 = 999.D0,  FIFHUN = 1500.D0,
261
     &           THOSND = 1000.D0,FTHSND = 5000.D0, MEGA   =   1.0D6)
262
C..##ENDIF
263
      REAL(KIND=8)     MINONE, MINTWO, MINSIX
264
      PARAMETER (MINONE = -1.D0,  MINTWO = -2.D0,  MINSIX = -6.D0)
265
      REAL(KIND=8) TENM20,TENM14,TENM8,TENM5,PT0001,PT0005,PT001,PT005,
266
     &           PT01, PT02, PT05, PTONE, PT125, PT25, SIXTH, THIRD,
267
     &           PTFOUR, PTSIX, HALF, PT75, PT9999, ONEPT5, TWOPT4
268
C..##IF SINGLE
269
C..##ELSE
270
      PARAMETER (TENM20 = 1.0D-20,  TENM14 = 1.0D-14,  TENM8  = 1.0D-8,
271
     &           TENM5  = 1.0D-5,   PT0001 = 1.0D-4, PT0005 = 5.0D-4,
272
     &           PT001  = 1.0D-3,   PT005  = 5.0D-3, PT01   = 0.01D0,
273
     &           PT02   = 0.02D0,   PT05   = 0.05D0, PTONE  = 0.1D0,
274
     &           PT125  = 0.125D0,  SIXTH  = ONE/SIX,PT25   = 0.25D0,
275
     &           THIRD  = ONE/THREE,PTFOUR = 0.4D0,  HALF   = 0.5D0,
276
     &           PTSIX  = 0.6D0,    PT75   = 0.75D0, PT9999 = 0.9999D0,
277
     &           ONEPT5 = 1.5D0,    TWOPT4 = 2.4D0)
278
C..##ENDIF
279
      REAL(KIND=8) ANUM,FMARK
280
      REAL(KIND=8) RSMALL,RBIG
281
C..##IF SINGLE
282
C..##ELSE
283
      PARAMETER (ANUM=9999.0D0, FMARK=-999.0D0)
284
      PARAMETER (RSMALL=1.0D-10,RBIG=1.0D20)
285
C..##ENDIF
286
      REAL(KIND=8) RPRECI,RBIGST
287
C..##IF VAX DEC
288
C..##ELIF IBM
289
C..##ELIF CRAY
290
C..##ELIF ALPHA T3D T3E
291
C..##ELSE
292
C...##IF SINGLE
293
C...##ELSE
294
      PARAMETER (RPRECI = 2.22045D-16, RBIGST = 4.49423D+307)
295
C...##ENDIF
296
C..##ENDIF
297
C-----------------------------------------------------------------------
298
C-----------------------------------------------------------------------
299
C:::##INCLUDE '~/charmm_fcm/consta.fcm'
300
      REAL(KIND=8) PI,RADDEG,DEGRAD,TWOPI
301
      PARAMETER(PI=3.141592653589793D0,TWOPI=2.0D0*PI)
302
      PARAMETER (RADDEG=180.0D0/PI)
303
      PARAMETER (DEGRAD=PI/180.0D0)
304
      REAL(KIND=8) COSMAX
305
      PARAMETER (COSMAX=0.9999999999D0)
306
      REAL(KIND=8) TIMFAC
307
      PARAMETER (TIMFAC=4.88882129D-02)
308
      REAL(KIND=8) KBOLTZ
309
      PARAMETER (KBOLTZ=1.987191D-03)
310
      REAL(KIND=8) CCELEC
311
C..##IF AMBER
312
C..##ELIF DISCOVER
313
C..##ELSE
314
      PARAMETER (CCELEC=332.0716D0)
315
C..##ENDIF
316
      REAL(KIND=8) CNVFRQ
317
      PARAMETER (CNVFRQ=2045.5D0/(2.99793D0*6.28319D0))
318
      REAL(KIND=8) SPEEDL
319
      PARAMETER (SPEEDL=2.99793D-02)
320
      REAL(KIND=8) ATMOSP
321
      PARAMETER (ATMOSP=1.4584007D-05)
322
      REAL(KIND=8) PATMOS
323
      PARAMETER (PATMOS = 1.D0 / ATMOSP )
324
      REAL(KIND=8) BOHRR
325
      PARAMETER (BOHRR = 0.529177249D0 )
326
      REAL(KIND=8) TOKCAL
327
      PARAMETER (TOKCAL = 627.5095D0 )
328
C..##IF MMFF
329
      REAL(KIND=8) MDAKCAL
330
      parameter(MDAKCAL=143.9325D0)
331
C..##ENDIF
332
      REAL(KIND=8) DEBYEC
333
      PARAMETER ( DEBYEC = 2.541766D0 / BOHRR )
334
      REAL(KIND=8) ZEROC
335
      PARAMETER ( ZEROC = 298.15D0 )
336
C-----------------------------------------------------------------------
337
C-----------------------------------------------------------------------
338
C:::##INCLUDE '~/charmm_fcm/exfunc.fcm'
339
C..##IF ACE
340
C..##ENDIF
341
C..##IF ADUMB
342
C..##ENDIF
343
      CHARACTER(4) GTRMA, NEXTA4, CURRA4
344
      CHARACTER(6) NEXTA6
345
      CHARACTER(8) NEXTA8
346
      CHARACTER(20) NEXT20
347
      INTEGER     ALLCHR, ALLSTK, ALLHP, DECODI, FIND52,
348
     *            GETATN, GETRES, GETRSN, GETSEG, GTRMI, I4VAL,
349
     *            ICHAR4, ICMP16, ILOGI4, INDX, INDXA, INDXAF,
350
     *            INDXRA, INTEG4, IREAL4, IREAL8, LOCDIF,
351
     *            LUNASS, MATOM, NEXTI, NINDX, NSELCT, NSELCTV, ATMSEL,
352
     *            PARNUM, PARINS,
353
     *            SRCHWD, SRCHWS, STRLNG, DSIZE, SSIZE
354
C..##IF ACE
355
     *           ,GETNNB
356
C..##ENDIF
357
      LOGICAL     CHKPTR, EQST, EQSTA, EQSTWC, EQWDWC, DOTRIM, CHECQUE,
358
     *            HYDROG, INITIA, LONE, LTSTEQ, ORDER, ORDER5,
359
     *            ORDERR, USEDDT, QTOKDEL, QDIGIT, QALPHA
360
      REAL(KIND=8)      DECODF, DOTVEC, GTRMF, LENVEC, NEXTF, RANDOM, GTRR8,
361
     *            RANUMB, R8VAL, RETVAL8, SUMVEC
362
C..##IF ADUMB
363
     *           ,UMFI
364
C..##ENDIF
365
      EXTERNAL  GTRMA, NEXTA4, CURRA4, NEXTA6, NEXTA8,NEXT20,
366
     *          ALLCHR, ALLSTK, ALLHP, DECODI, FIND52,
367
     *          GETATN, GETRES, GETRSN, GETSEG, GTRMI, I4VAL,
368
     *          ICHAR4, ICMP16,  ILOGI4, INDX, INDXA, INDXAF,
369
     *          INDXRA, INTEG4, IREAL4, IREAL8, LOCDIF,
370
     *          LUNASS, MATOM, NEXTI, NINDX, NSELCT, NSELCTV, ATMSEL,
371
     *          PARNUM, PARINS,
372
     *          SRCHWD, SRCHWS, STRLNG, DSIZE, SSIZE,
373
     *          CHKPTR, EQST, EQSTA, EQSTWC, EQWDWC, DOTRIM, CHECQUE,
374
     *          HYDROG, INITIA, LONE, LTSTEQ, ORDER, ORDER5,
375
     *          ORDERR, USEDDT, QTOKDEL, QDIGIT, QALPHA,
376
     *          DECODF, DOTVEC, GTRMF, LENVEC, NEXTF, RANDOM, GTRR8,
377
     *          RANUMB, R8VAL, RETVAL8, SUMVEC
378
C..##IF ADUMB
379
     *           ,UMFI
380
C..##ENDIF
381
C..##IF ACE
382
     *           ,GETNNB
383
C..##ENDIF
384
C..##IFN NOIMAGES
385
      INTEGER IMATOM
386
      EXTERNAL IMATOM
387
C..##ENDIF
388
C..##IF MBOND
389
C..##ENDIF
390
C..##IF MMFF
391
      INTEGER LEN_TRIM
392
      EXTERNAL LEN_TRIM
393
      CHARACTER(4) AtName
394
      external AtName
395
      CHARACTER(8) ElementName
396
      external ElementName
397
      CHARACTER(10) QNAME
398
      external QNAME
399
      integer  IATTCH, IBORDR, CONN12, CONN13, CONN14
400
      integer  LEQUIV, LPATH
401
      integer  nbndx, nbnd2, nbnd3, NTERMA
402
      external IATTCH, IBORDR, CONN12, CONN13, CONN14
403
      external LEQUIV, LPATH
404
      external nbndx, nbnd2, nbnd3, NTERMA
405
      external find_loc
406
      REAL(KIND=8)   vangle, OOPNGL, TORNGL, ElementMass
407
      external vangle, OOPNGL, TORNGL, ElementMass
408
C..##ENDIF
409
C-----------------------------------------------------------------------
410
C-----------------------------------------------------------------------
411
C:::##INCLUDE '~/charmm_fcm/stack.fcm'
412
      INTEGER STKSIZ
413
C..##IFN UNICOS
414
C...##IF LARGE XLARGE
415
C...##ELIF MEDIUM REDUCE
416
      PARAMETER (STKSIZ=4000000)
417
C...##ELIF SMALL
418
C...##ELIF XSMALL
419
C...##ELIF XXLARGE
420
C...##ELSE
421
C...##ENDIF
422
      INTEGER LSTUSD,MAXUSD,STACK
423
      COMMON /ISTACK/ LSTUSD,MAXUSD,STACK(STKSIZ)
424
C..##ELSE
425
C..##ENDIF
426
C..##IF SAVEFCM
427
C..##ENDIF
428
C-----------------------------------------------------------------------
429
C-----------------------------------------------------------------------
430
C:::##INCLUDE '~/charmm_fcm/heap.fcm'
431
      INTEGER HEAPDM
432
C..##IFN UNICOS (unicos)
433
C...##IF XXLARGE (size)
434
C...##ELIF LARGE XLARGE (size)
435
C...##ELIF MEDIUM (size)
436
C....##IF T3D (t3d2)
437
C....##ELIF TERRA (t3d2)
438
C....##ELIF ALPHA (t3d2)
439
C....##ELIF T3E (t3d2)
440
C....##ELSE (t3d2)
441
      PARAMETER (HEAPDM=2048000)
442
C....##ENDIF (t3d2)
443
C...##ELIF SMALL (size)
444
C...##ELIF REDUCE (size)
445
C...##ELIF XSMALL (size)
446
C...##ELSE (size)
447
C...##ENDIF (size)
448
      INTEGER FREEHP,HEAPSZ,HEAP
449
      COMMON /HEAPST/ FREEHP,HEAPSZ,HEAP(HEAPDM)
450
      LOGICAL LHEAP(HEAPDM)
451
      EQUIVALENCE (LHEAP,HEAP)
452
C..##ELSE (unicos)
453
C..##ENDIF (unicos)
454
C..##IF SAVEFCM (save)
455
C..##ENDIF (save)
456
C-----------------------------------------------------------------------
457
C-----------------------------------------------------------------------
458
C:::##INCLUDE '~/charmm_fcm/fast.fcm'
459
      INTEGER IACNB, NITCC, ICUSED, FASTER, LFAST, LMACH, OLMACH
460
      INTEGER ICCOUNT, LOWTP, IGCNB, NITCC2
461
      INTEGER ICCNBA, ICCNBB, ICCNBC, ICCNBD, LCCNBA, LCCNBD
462
      COMMON /FASTI/ FASTER, LFAST, LMACH, OLMACH, NITCC, NITCC2,
463
     &               ICUSED(MAXATC), ICCOUNT(MAXATC), LOWTP(MAXATC),
464
     &               IACNB(MAXAIM), IGCNB(MAXATC),
465
     &               ICCNBA, ICCNBB, ICCNBC, ICCNBD, LCCNBA, LCCNBD
466
C..##IF SAVEFCM
467
C..##ENDIF
468
C-----------------------------------------------------------------------
469
C-----------------------------------------------------------------------
470
C:::##INCLUDE '~/charmm_fcm/deriv.fcm'
471
      REAL(KIND=8) DX,DY,DZ
472
      COMMON /DERIVR/ DX(MAXAIM),DY(MAXAIM),DZ(MAXAIM)
473
C..##IF SAVEFCM
474
C..##ENDIF
475
C-----------------------------------------------------------------------
476
C-----------------------------------------------------------------------
477
C:::##INCLUDE '~/charmm_fcm/energy.fcm'
478
      INTEGER LENENP, LENENT, LENENV, LENENA
479
      PARAMETER (LENENP = 50, LENENT = 70, LENENV = 50,
480
     &           LENENA = LENENP + LENENT + LENENV )
481
      INTEGER TOTE, TOTKE, EPOT, TEMPS, GRMS, BPRESS, PJNK1, PJNK2,
482
     &        PJNK3, PJNK4, HFCTE, HFCKE, EHFC, EWORK, VOLUME, PRESSE,
483
     &        PRESSI, VIRI, VIRE, VIRKE, TEPR, PEPR, KEPR, KEPR2,
484
     &        DROFFA,
485
     &        XTLTE, XTLKE, XTLPE, XTLTEM, XTLPEP, XTLKEP, XTLKP2,
486
     &        TOT4, TOTK4, EPOT4, TEM4, MbMom, BodyT, PartT
487
C..##IF ACE
488
     &      , SELF, SCREEN, COUL ,SOLV, INTER
489
C..##ENDIF
490
C..##IF FLUCQ
491
     &       ,FQKIN
492
C..##ENDIF
493
      PARAMETER (TOTE   =  1, TOTKE  =  2, EPOT   =  3, TEMPS  =  4,
494
     &           GRMS   =  5, BPRESS =  6, PJNK1  =  7, PJNK2  =  8,
495
     &           PJNK3  =  9, PJNK4  = 10, HFCTE  = 11, HFCKE  = 12,
496
     &           EHFC   = 13, EWORK  = 11, VOLUME = 15, PRESSE = 16,
497
     &           PRESSI = 17, VIRI   = 18, VIRE   = 19, VIRKE  = 20,
498
     &           TEPR   = 21, PEPR   = 22, KEPR   = 23, KEPR2  = 24,
499
     &                        DROFFA = 26, XTLTE  = 27, XTLKE  = 28,
500
     &           XTLPE  = 29, XTLTEM = 30, XTLPEP = 31, XTLKEP = 32,
501
     &           XTLKP2 = 33,
502
     &           TOT4   = 37, TOTK4  = 38, EPOT4  = 39, TEM4   = 40,
503
     &           MbMom  = 41, BodyT  = 42, PartT  = 43
504
C..##IF ACE
505
     &         , SELF   = 45, SCREEN = 46, COUL   = 47,
506
     &           SOLV   = 48, INTER  = 49
507
C..##ENDIF
508
C..##IF FLUCQ
509
     &          ,FQKIN  = 50
510
C..##ENDIF
511
     &          )
512
C..##IF ACE
513
C..##ENDIF
514
C..##IF GRID
515
C..##ENDIF
516
C..##IF FLUCQ
517
C..##ENDIF
518
      INTEGER  BOND, ANGLE, UREYB, DIHE, IMDIHE, VDW, ELEC, HBOND,
519
     &         USER, CHARM, CDIHE, CINTCR, CQRT, NOE, SBNDRY,
520
     &         IMVDW, IMELEC, IMHBND, EWKSUM, EWSELF, EXTNDE, RXNFLD,
521
     &         ST2, IMST2, TSM, QMEL, QMVDW, ASP, EHARM, GEO, MDIP,
522
     &         PRMS, PANG, SSBP, BK4D, SHEL, RESD, SHAP,
523
     &         STRB, OOPL, PULL, POLAR, DMC, RGY, EWEXCL, EWQCOR,
524
     &         EWUTIL, PBELEC, PBNP, PINT, MbDefrm, MbElec, STRSTR,
525
     &         BNDBND, BNDTW, EBST, MBST, BBT, SST, GBEnr, GSBP
526
C..##IF HMCM
527
     &       , HMCM
528
C..##ENDIF
529
C..##IF ADUMB
530
     &       , ADUMB
531
C..##ENDIF
532
     &       , HYDR
533
C..##IF FLUCQ
534
     &       , FQPOL
535
C..##ENDIF
536
      PARAMETER (BOND   =  1, ANGLE  =  2, UREYB  =  3, DIHE   =  4,
537
     &           IMDIHE =  5, VDW    =  6, ELEC   =  7, HBOND  =  8,
538
     &           USER   =  9, CHARM  = 10, CDIHE  = 11, CINTCR = 12,
539
     &           CQRT   = 13, NOE    = 14, SBNDRY = 15, IMVDW  = 16,
540
     &           IMELEC = 17, IMHBND = 18, EWKSUM = 19, EWSELF = 20,
541
     &           EXTNDE = 21, RXNFLD = 22, ST2    = 23, IMST2  = 24,
542
     &           TSM    = 25, QMEL   = 26, QMVDW  = 27, ASP    = 28,
543
     &           EHARM  = 29, GEO    = 30, MDIP   = 31, PINT   = 32,
544
     &           PRMS   = 33, PANG   = 34, SSBP   = 35, BK4D   = 36,
545
     &           SHEL   = 37, RESD   = 38, SHAP   = 39, STRB   = 40,
546
     &           OOPL   = 41, PULL   = 42, POLAR  = 43, DMC    = 44,
547
     &           RGY    = 45, EWEXCL = 46, EWQCOR = 47, EWUTIL = 48,
548
     &           PBELEC = 49, PBNP   = 50, MbDefrm= 51, MbElec = 52,
549
     &           STRSTR = 53, BNDBND = 54, BNDTW  = 55, EBST   = 56,
550
     &           MBST   = 57, BBT    = 58, SST    = 59, GBEnr  = 60,
551
     &           GSBP   = 65
552
C..##IF HMCM
553
     &         , HMCM   = 61
554
C..##ENDIF
555
C..##IF ADUMB
556
     &         , ADUMB  = 62
557
C..##ENDIF
558
     &         , HYDR   = 63
559
C..##IF FLUCQ
560
     &         , FQPOL  = 65
561
C..##ENDIF
562
     &           )
563
      INTEGER  VEXX, VEXY, VEXZ, VEYX, VEYY, VEYZ, VEZX, VEZY, VEZZ,
564
     &         VIXX, VIXY, VIXZ, VIYX, VIYY, VIYZ, VIZX, VIZY, VIZZ,
565
     &         PEXX, PEXY, PEXZ, PEYX, PEYY, PEYZ, PEZX, PEZY, PEZZ,
566
     &         PIXX, PIXY, PIXZ, PIYX, PIYY, PIYZ, PIZX, PIZY, PIZZ
567
      PARAMETER ( VEXX =  1, VEXY =  2, VEXZ =  3, VEYX =  4,
568
     &            VEYY =  5, VEYZ =  6, VEZX =  7, VEZY =  8,
569
     &            VEZZ =  9,
570
     &            VIXX = 10, VIXY = 11, VIXZ = 12, VIYX = 13,
571
     &            VIYY = 14, VIYZ = 15, VIZX = 16, VIZY = 17,
572
     &            VIZZ = 18,
573
     &            PEXX = 19, PEXY = 20, PEXZ = 21, PEYX = 22,
574
     &            PEYY = 23, PEYZ = 24, PEZX = 25, PEZY = 26,
575
     &            PEZZ = 27,
576
     &            PIXX = 28, PIXY = 29, PIXZ = 30, PIYX = 31,
577
     &            PIYY = 32, PIYZ = 33, PIZX = 34, PIZY = 35,
578
     &            PIZZ = 36)
579
      CHARACTER(4)  CEPROP, CETERM, CEPRSS
580
      COMMON /ANER/ CEPROP(LENENP), CETERM(LENENT), CEPRSS(LENENV)
581
      LOGICAL  QEPROP, QETERM, QEPRSS
582
      COMMON /QENER/ QEPROP(LENENP), QETERM(LENENT), QEPRSS(LENENV)
583
      REAL(KIND=8)   EPROP, ETERM, EPRESS
584
      COMMON /ENER/ EPROP(LENENP), ETERM(LENENT), EPRESS(LENENV)
585
C..##IF SAVEFCM
586
C..##ENDIF
587
      REAL(KIND=8)   EPRPA, EPRP2A, EPRPP, EPRP2P,
588
     &         ETRMA, ETRM2A, ETRMP, ETRM2P,
589
     &         EPRSA, EPRS2A, EPRSP, EPRS2P
590
      COMMON /ENACCM/ EPRPA(LENENP), ETRMA(LENENT), EPRSA(LENENV),
591
     &                EPRP2A(LENENP),ETRM2A(LENENT),EPRS2A(LENENV),
592
     &                EPRPP(LENENP), ETRMP(LENENT), EPRSP(LENENV),
593
     &                EPRP2P(LENENP),ETRM2P(LENENT),EPRS2P(LENENV)
594
C..##IF SAVEFCM
595
C..##ENDIF
596
      INTEGER  ECALLS, TOT1ST, TOT2ND
597
      COMMON /EMISCI/ ECALLS, TOT1ST, TOT2ND
598
      REAL(KIND=8)   EOLD, FITA, DRIFTA, EAT0A, CORRA, FITP, DRIFTP,
599
     &         EAT0P, CORRP
600
      COMMON /EMISCR/ EOLD, FITA, DRIFTA, EAT0A, CORRA,
601
     &                     FITP, DRIFTP, EAT0P, CORRP
602
C..##IF SAVEFCM
603
C..##ENDIF
604
C..##IF ACE
605
C..##ENDIF
606
C..##IF FLUCQ
607
C..##ENDIF
608
C..##IF ADUMB
609
C..##ENDIF
610
C..##IF GRID
611
C..##ENDIF
612
C..##IF FLUCQ
613
C..##ENDIF
614
C..##IF TSM
615
      REAL(KIND=8) TSMTRM(LENENT),TSMTMP(LENENT)
616
      COMMON /TSMENG/ TSMTRM,TSMTMP
617
C...##IF SAVEFCM
618
C...##ENDIF
619
C..##ENDIF
620
      REAL(KIND=8) EHQBM
621
      LOGICAL HQBM
622
      COMMON /HQBMVAR/HQBM
623
C..##IF SAVEFCM
624
C..##ENDIF
625
C-----------------------------------------------------------------------
626
C-----------------------------------------------------------------------
627
C:::##INCLUDE '~/charmm_fcm/dimb.fcm'
628
C..##IF DIMB (dimbfcm)
629
      INTEGER NPARMX,MNBCMP,LENDSK
630
      PARAMETER (NPARMX=1000,MNBCMP=300,LENDSK=200000)
631
      INTEGER IJXXCM,IJXYCM,IJXZCM,IJYXCM,IJYYCM
632
      INTEGER IJYZCM,IJZXCM,IJZYCM,IJZZCM
633
      INTEGER IIXXCM,IIXYCM,IIXZCM,IIYYCM
634
      INTEGER IIYZCM,IIZZCM
635
      INTEGER JJXXCM,JJXYCM,JJXZCM,JJYYCM
636
      INTEGER JJYZCM,JJZZCM
637
      PARAMETER (IJXXCM=1,IJXYCM=2,IJXZCM=3,IJYXCM=4,IJYYCM=5)
638
      PARAMETER (IJYZCM=6,IJZXCM=7,IJZYCM=8,IJZZCM=9)
639
      PARAMETER (IIXXCM=1,IIXYCM=2,IIXZCM=3,IIYYCM=4)
640
      PARAMETER (IIYZCM=5,IIZZCM=6)
641
      PARAMETER (JJXXCM=1,JJXYCM=2,JJXZCM=3,JJYYCM=4)
642
      PARAMETER (JJYZCM=5,JJZZCM=6)
643
      INTEGER ITER,IPAR1,IPAR2,NFSAV,PINBCM,PJNBCM,PDD1CM,LENCMP
644
      LOGICAL QDISK,QDW,QCMPCT
645
      COMMON /DIMBI/ ITER,IPAR1,IPAR2,NFSAV,PINBCM,PJNBCM,LENCMP
646
      COMMON /DIMBL/ QDISK,QDW,QCMPCT
647
C...##IF SAVEFCM
648
C...##ENDIF
649
C..##ENDIF (dimbfcm)
650
C-----------------------------------------------------------------------
651
C-----------------------------------------------------------------------
652
C:::##INCLUDE '~/charmm_fcm/ctitla.fcm'
653
      INTEGER MAXTIT
654
      PARAMETER (MAXTIT=32)
655
      INTEGER NTITLA,NTITLB
656
      CHARACTER(80) TITLEA,TITLEB
657
      COMMON /NTITLA/ NTITLA,NTITLB
658
      COMMON /CTITLA/ TITLEA(MAXTIT),TITLEB(MAXTIT)
659
C..##IF SAVEFCM
660
C..##ENDIF
661
C-----------------------------------------------------------------------
662
C Passed variables
663
      INTEGER NAT3,NADD,NPAR,NFREG,NFRET,BLATOM
664
      INTEGER ATMPAR(2,*),ATMPAS(2,*),ATMPAD(2,*)
665
      INTEGER BNBND(*),BIMAG(*)
666
      INTEGER INBCMP(*),JNBCMP(*),PARDIM
667
      INTEGER ITMX,IUNMOD,IUNRMD,SAVF
668
      INTEGER NBOND,IB(*),JB(*)
669
      REAL(KIND=8) X(*),Y(*),Z(*),AMASS(*),DDSCR(*)
670
      REAL(KIND=8) DDV(NAT3,*),PARDDV(PARDIM,*),DDM(*),DDS(*)
671
      REAL(KIND=8) DDF(*),PARDDF(*),DDEV(*),PARDDE(*)
672
      REAL(KIND=8) DD1BLK(*),DD1BLL(*),DD1CMP(*)
673
      REAL(KIND=8) TOLDIM,DDVALM
674
      REAL(KIND=8) PARFRQ,CUTF1
675
      LOGICAL LNOMA,LRAISE,LSCI,LBIG
676
C Local variables
677
      INTEGER NATOM,NATP,NDIM,I,J,II,OLDFAS,OLDPRN,IUPD
678
      INTEGER NPARC,NPARD,NPARS,NFCUT1,NFREG2,NFREG6
679
      INTEGER IH1,IH2,IH3,IH4,IH5,IH6,IH7,IH8
680
      INTEGER IS1,IS2,IS3,IS4,JSPACE,JSP,DDSS,DD5
681
      INTEGER ISTRT,ISTOP,IPA1,IPA2,IRESF
682
      INTEGER ATMPAF,INIDS,TRAROT
683
      INTEGER SUBLIS,ATMCOR
684
      INTEGER NFRRES,DDVBAS
685
      INTEGER DDV2,DDVAL
686
      INTEGER LENCM,NTR,NFRE,NFC,N1,N2,NFCUT,NSUBP
687
      INTEGER SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6
688
      INTEGER DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ
689
      INTEGER I620,I640,I660,I700,I720,I760,I800,I840,I880,I920
690
      REAL(KIND=8) CVGMX,TOLER
691
      LOGICAL LCARD,LAPPE,LPURG,LWDINI,QCALC,QMASWT,QMIX,QDIAG
692
C Begin
693
      QCALC=.TRUE.
694
      LWDINI=.FALSE.
695
      INIDS=0
696
      IS3=0
697
      IS4=0
698
      LPURG=.TRUE.
699
      ITER=0
700
      NADD=0
701
      NFSAV=0
702
      TOLER=TENM5
703
      QDIAG=.TRUE.
704
      CVGMX=HUNDRD
705
      QMIX=.FALSE.
706
      NATOM=NAT3/3
707
      NFREG6=(NFREG-6)/NPAR
708
      NFREG2=NFREG/2
709
      NFRRES=(NFREG+6)/2
710
      IF(NFREG.GT.PARDIM) CALL WRNDIE(-3,'<NMDIMB>',
711
     1     'NFREG IS LARGER THAN PARDIM*3')
712
C
713
C ALLOCATE-SPACE-FOR-TRANSROT-VECTORS
714
      ASSIGN 801 TO I800 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
715
      GOTO 800
716
 801  CONTINUE
717
C ALLOCATE-SPACE-FOR-DIAGONALIZATION
718
      ASSIGN 721 TO I720 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
719
      GOTO 720
720
 721  CONTINUE
721
C ALLOCATE-SPACE-FOR-REDUCED-BASIS
722
      ASSIGN 761 TO I760 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
723
      GOTO 760
724
 761  CONTINUE
725
C ALLOCATE-SPACE-FOR-OTHER-ARRAYS
726
      ASSIGN 921 TO I920 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
727
      GOTO 920
728
 921  CONTINUE
729
C
730
C Space allocation for working arrays of EISPACK
731
C diagonalization subroutines
732
      IF(LSCI) THEN
733
C ALLOCATE-SPACE-FOR-LSCI
734
         ASSIGN 841 TO I840 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
735
         GOTO 840
736
 841     CONTINUE
737
      ELSE
738
C ALLOCATE-DUMMY-SPACE-FOR-LSCI
739
         ASSIGN 881 TO I880 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
740
         GOTO 880
741
 881     CONTINUE
742
      ENDIF
743
      QMASWT=(.NOT.LNOMA)
744
      IF(.NOT. QDISK) THEN
745
         LENCM=INBCMP(NATOM-1)*9+NATOM*6
746
         DO I=1,LENCM
747
            DD1CMP(I)=0.0
748
         ENDDO
749
         OLDFAS=LFAST
750
         QCMPCT=.TRUE.
751
         LFAST = -1
752
         CALL ENERGY(X,Y,Z,DX,DY,DZ,BNBND,BIMAG,NAT3,DD1CMP,.TRUE.,1)
753
         LFAST=OLDFAS
754
         QCMPCT=.FALSE.
755
C
756
C Mass weight DD1CMP matrix
757
C
758
         CALL MASSDD(DD1CMP,DDM,INBCMP,JNBCMP,NATOM)
759
      ELSE
760
         CALL WRNDIE(-3,'<NMDIMB>','QDISK OPTION NOT SUPPORTED YET')
761
C         DO I=1,LENDSK
762
C            DD1CMP(I)=0.0
763
C         ENDDO
764
C         OLDFAS=LFAST
765
C         LFAST = -1
766
      ENDIF
767
C
768
C Fill DDV with six translation-rotation vectors
769
C
770
      CALL TRROT(X,Y,Z,DDV,NAT3,1,DDM)
771
      CALL CPARAY(HEAP(TRAROT),DDV,NAT3,1,6,1)
772
      NTR=6
773
      OLDPRN=PRNLEV
774
      PRNLEV=1
775
      CALL ORTHNM(1,6,NTR,HEAP(TRAROT),NAT3,.FALSE.,TOLER)
776
      PRNLEV=OLDPRN
777
      IF(IUNRMD .LT. 0) THEN
778
C
779
C If no previous basis is read
780
C
781
         IF(PRNLEV.GE.2) WRITE(OUTU,502) NPAR
782
 502     FORMAT(/' NMDIMB: Calculating initial basis from block ',
783
     1           'diagonals'/' NMDIMB: The number of blocks is ',I5/)
784
         NFRET = 6
785
         DO I=1,NPAR
786
            IS1=ATMPAR(1,I)
787
            IS2=ATMPAR(2,I)
788
            NDIM=(IS2-IS1+1)*3
789
            NFRE=NDIM
790
            IF(NFRE.GT.NFREG6) NFRE=NFREG6
791
            IF(NFREG6.EQ.0) NFRE=1
792
            CALL FILUPT(HEAP(IUPD),NDIM)
793
            CALL MAKDDU(DD1BLK,DD1CMP,INBCMP,JNBCMP,HEAP(IUPD),
794
     1                  IS1,IS2,NATOM)
795
            IF(PRNLEV.GE.9) CALL PRINTE(OUTU,EPROP,ETERM,'VIBR',
796
     1          'ENR',.TRUE.,1,ZERO,ZERO)
797
C
798
C Generate the lower section of the matrix and diagonalize
799
C
800
C..##IF EISPACK
801
C..##ENDIF
802
               IH1=1
803
               NATP=NDIM+1
804
               IH2=IH1+NATP
805
               IH3=IH2+NATP
806
               IH4=IH3+NATP
807
               IH5=IH4+NATP
808
               IH6=IH5+NATP
809
               IH7=IH6+NATP
810
               IH8=IH7+NATP
811
               CALL DIAGQ(NDIM,NFRE,DD1BLK,PARDDV,DDS(IH2),DDS(IH3),
812
     1           DDS(IH4),DDS(IH5),DDS,DDS(IH6),DDS(IH7),DDS(IH8),NADD)
813
C..##IF EISPACK
814
C..##ENDIF
815
C
816
C Put the PARDDV vectors into DDV and replace the elements which do
817
C not belong to the considered partitioned region by zeros.
818
C
819
            CALL ADJNME(DDV,PARDDV,NAT3,NDIM,NFRE,NFRET,IS1,IS2)
820
            IF(LSCI) THEN
821
               DO J=1,NFRE
822
               PARDDF(J)=CNVFRQ*SQRT(ABS(PARDDE(J)))
823
               IF(PARDDE(J) .LT. 0.0) PARDDF(J)=-PARDDF(J)
824
               ENDDO
825
            ELSE
826
               DO J=1,NFRE
827
               PARDDE(J)=DDS(J)
828
               PARDDF(J)=CNVFRQ*SQRT(ABS(PARDDE(J)))
829
               IF(PARDDE(J) .LT. 0.0) PARDDF(J)=-PARDDF(J)
830
               ENDDO
831
            ENDIF
832
            IF(PRNLEV.GE.2) THEN
833
               WRITE(OUTU,512) I
834
               WRITE(OUTU,514)
835
               WRITE(OUTU,516) (J,PARDDF(J),J=1,NFRE)
836
            ENDIF
837
            NFRET=NFRET+NFRE
838
            IF(NFRET .GE. NFREG) GOTO 10
839
         ENDDO
840
 512     FORMAT(/' NMDIMB: Diagonalization of part',I5,' completed')
841
 514     FORMAT(' NMDIMB: Frequencies'/)
842
 516     FORMAT(5(I4,F12.6))
843
   10    CONTINUE
844
C
845
C Orthonormalize the eigenvectors
846
C
847
         OLDPRN=PRNLEV
848
         PRNLEV=1
849
         CALL ORTHNM(1,NFRET,NFRET,DDV,NAT3,LPURG,TOLER)
850
         PRNLEV=OLDPRN
851
C
852
C Do reduced basis diagonalization using the DDV vectors
853
C and get eigenvectors of zero iteration
854
C
855
         IF(PRNLEV.GE.2) THEN
856
            WRITE(OUTU,521) ITER
857
            WRITE(OUTU,523) NFRET
858
         ENDIF
859
 521     FORMAT(/' NMDIMB: Iteration number = ',I5)
860
 523     FORMAT(' NMDIMB: Dimension of the reduced basis set = ',I5)
861
         IF(LBIG) THEN
862
            IF(PRNLEV.GE.2) WRITE(OUTU,585) NFRET,IUNMOD
863
 525        FORMAT(' NMDIMB: ',I5,' basis vectors are saved in unit',I5)
864
            REWIND (UNIT=IUNMOD)
865
            LCARD=.FALSE.
866
            CALL WRTNMD(LCARD,1,NFRET,NAT3,DDV,DDSCR,DDEV,IUNMOD,AMASS)
867
            CALL SAVEIT(IUNMOD)
868
         ELSE
869
            CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFRET,1)
870
         ENDIF
871
         CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV,
872
     1     DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD,
873
     2     INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,0,0,IS3,IS4,
874
     3     CUTF1,NFCUT1,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1),
875
     4     HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6),
876
     5     HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ),
877
     6     HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD)
878
C
879
C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS
880
C
881
         ASSIGN 621 TO I620 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
882
         GOTO 620
883
 621     CONTINUE
884
C SAVE-MODES
885
         ASSIGN 701 TO I700 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
886
         GOTO 700
887
 701     CONTINUE
888
         IF(ITER.EQ.ITMX) THEN
889
            CALL CLEANHP(NAT3,NFREG,NPARD,NSUBP,PARDIM,DDV2,DDSS,DDVBAS,
890
     1                   DDVAL,JSPACE,TRAROT,
891
     2                   SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6,
892
     3                   DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ,IUPD,ATMPAF,
893
     4                   ATMCOR,SUBLIS,LSCI,QDW,LBIG)
894
            RETURN
895
         ENDIF
896
      ELSE
897
C
898
C Read in existing basis
899
C
900
         IF(PRNLEV.GE.2) THEN
901
            WRITE(OUTU,531)
902
 531        FORMAT(/' NMDIMB: Calculations restarted')
903
         ENDIF
904
C READ-MODES
905
         ISTRT=1
906
         ISTOP=99999999
907
         LCARD=.FALSE.
908
         LAPPE=.FALSE.
909
         CALL RDNMD(LCARD,NFRET,NFREG,NAT3,NDIM,
910
     1     DDV,DDSCR,DDF,DDEV,
911
     2     IUNRMD,LAPPE,ISTRT,ISTOP)
912
         NFRET=NDIM
913
         IF(NFRET.GT.NFREG) THEN
914
            NFRET=NFREG
915
            CALL WRNDIE(-1,'<NMDIMB>',
916
     1       'Not enough space to hold the basis. Increase NMODes')
917
         ENDIF
918
C PRINT-MODES
919
         IF(PRNLEV.GE.2) THEN
920
            WRITE(OUTU,533) NFRET,IUNRMD
921
            WRITE(OUTU,514)
922
            WRITE(OUTU,516) (J,DDF(J),J=1,NFRET)
923
         ENDIF
924
 533     FORMAT(/' NMDIMB: ',I5,' restart modes read from unit ',I5)
925
         NFRRES=NFRET
926
      ENDIF
927
C
928
C -------------------------------------------------
929
C Here starts the mixed-basis diagonalization part.
930
C -------------------------------------------------
931
C
932
C
933
C Check cut-off frequency
934
C
935
      CALL SELNMD(DDF,NFRET,CUTF1,NFCUT1)
936
C TEST-NFCUT1
937
      IF(IUNRMD.LT.0) THEN
938
        IF(NFCUT1*2-6.GT.NFREG) THEN
939
           IF(PRNLEV.GE.2) WRITE(OUTU,537) DDF(NFRRES)
940
           NFCUT1=NFRRES
941
           CUTF1=DDF(NFRRES)
942
        ENDIF
943
      ELSE
944
        CUTF1=DDF(NFRRES)
945
      ENDIF
946
 537  FORMAT(/' NMDIMB: Too many vectors for the given cutoff frequency'
947
     1       /'         Cutoff frequency is decreased to',F9.3)
948
C
949
C Compute the new partioning of the molecule
950
C
951
      CALL PARTIC(NAT3,NFREG,NFCUT1,NPARMX,NPARC,ATMPAR,NFRRES,
952
     1            PARDIM)
953
      NPARS=NPARC
954
      DO I=1,NPARC
955
         ATMPAS(1,I)=ATMPAR(1,I)
956
         ATMPAS(2,I)=ATMPAR(2,I)
957
      ENDDO
958
      IF(QDW) THEN
959
         IF(IPAR1.EQ.0.OR.IPAR2.EQ.0) LWDINI=.TRUE.
960
         IF(IPAR1.GE.IPAR2) LWDINI=.TRUE.
961
         IF(IABS(IPAR1).GT.NPARC*2) LWDINI=.TRUE.
962
         IF(IABS(IPAR2).GT.NPARC*2) LWDINI=.TRUE.
963
         IF(ITER.EQ.0) LWDINI=.TRUE.
964
      ENDIF
965
      ITMX=ITMX+ITER
966
      IF(PRNLEV.GE.2) THEN
967
         WRITE(OUTU,543) ITER,ITMX
968
         IF(QDW) WRITE(OUTU,545) IPAR1,IPAR2
969
      ENDIF
970
 543  FORMAT(/' NMDIMB: Previous iteration number = ',I8/
971
     1        ' NMDIMB: Iteration number to reach = ',I8)
972
 545  FORMAT(' NMDIMB: Previous sub-blocks = ',I5,2X,I5)
973
C
974
      IF(SAVF.LE.0) SAVF=NPARC
975
      IF(PRNLEV.GE.2) WRITE(OUTU,547) SAVF
976
 547  FORMAT(' NMDIMB: Eigenvectors will be saved every',I5,
977
     1       ' iterations')
978
C
979
C If double windowing is defined, the original block sizes are divided
980
C in two.
981
C
982
      IF(QDW) THEN
983
         NSUBP=1
984
         CALL PARTID(NPARC,ATMPAR,NPARD,ATMPAD,NPARMX)
985
         ATMPAF=ALLHP(INTEG4(NPARD*NPARD))
986
         ATMCOR=ALLHP(INTEG4(NATOM))
987
         DDVAL=ALLHP(IREAL8(NPARD*NPARD))
988
         CALL CORARR(ATMPAD,NPARD,HEAP(ATMCOR),NATOM)
989
         CALL PARLIS(HEAP(ATMCOR),HEAP(ATMPAF),INBCMP,JNBCMP,NPARD,
990
     2         NSUBP,NATOM,X,Y,Z,NBOND,IB,JB,DD1CMP,HEAP(DDVAL),DDVALM)
991
         SUBLIS=ALLHP(INTEG4(NSUBP*2))
992
         CALL PARINT(HEAP(ATMPAF),NPARD,HEAP(SUBLIS),NSUBP)
993
         CALL INIPAF(HEAP(ATMPAF),NPARD)
994
C
995
C Find out with which block to continue (double window method only)
996
C
997
         IPA1=IPAR1
998
         IPA2=IPAR2
999
         IRESF=0
1000
         IF(LWDINI) THEN
1001
            ITER=0
1002
            LWDINI=.FALSE.
1003
            GOTO 500
1004
         ENDIF
1005
         DO II=1,NSUBP
1006
            CALL IPART(HEAP(SUBLIS),II,IPAR1,IPAR2,HEAP(ATMPAF),
1007
     1                 NPARD,QCALC)
1008
            IF((IPAR1.EQ.IPA1).AND.(IPAR2.EQ.IPA2)) GOTO 500
1009
         ENDDO
1010
      ENDIF
1011
 500  CONTINUE
1012
C
1013
C Main loop.
1014
C
1015
      DO WHILE((CVGMX.GT.TOLDIM).AND.(ITER.LT.ITMX))
1016
         IF(.NOT.QDW) THEN
1017
            ITER=ITER+1
1018
            IF(PRNLEV.GE.2) WRITE(OUTU,553) ITER
1019
 553  FORMAT(/' NMDIMB: Iteration number = ',I8)
1020
            IF(INIDS.EQ.0) THEN
1021
               INIDS=1
1022
            ELSE
1023
               INIDS=0
1024
            ENDIF
1025
            CALL PARTDS(NAT3,NPARC,ATMPAR,NPARS,ATMPAS,INIDS,NPARMX,
1026
     1                  DDF,NFREG,CUTF1,PARDIM,NFCUT1)
1027
C DO-THE-DIAGONALISATIONS
1028
            ASSIGN 641 to I640 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1029
            GOTO 640
1030
 641        CONTINUE
1031
            QDIAG=.FALSE.
1032
C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS
1033
            ASSIGN 622 TO I620 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1034
            GOTO 620
1035
 622        CONTINUE
1036
            QDIAG=.TRUE.
1037
C SAVE-MODES
1038
            ASSIGN 702 TO I700 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1039
            GOTO 700
1040
 702        CONTINUE
1041
C
1042
         ELSE
1043
            DO II=1,NSUBP
1044
               CALL IPART(HEAP(SUBLIS),II,IPAR1,IPAR2,HEAP(ATMPAF),
1045
     1                 NPARD,QCALC)
1046
               IF(QCALC) THEN
1047
                  IRESF=IRESF+1
1048
                  ITER=ITER+1
1049
                  IF(PRNLEV.GE.2) WRITE(OUTU,553) ITER
1050
C DO-THE-DWIN-DIAGONALISATIONS
1051
                  ASSIGN 661 TO I660 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1052
                  GOTO 660
1053
 661              CONTINUE
1054
               ENDIF
1055
               IF((IRESF.EQ.SAVF).OR.(ITER.EQ.ITMX)) THEN
1056
                  IRESF=0
1057
                  QDIAG=.FALSE.
1058
C DO-THE-DIAGONALISATIONS-WITH-RESIDUALS
1059
                  ASSIGN 623 TO I620 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1060
                  GOTO 620
1061
 623              CONTINUE
1062
                  QDIAG=.TRUE.
1063
                  IF((CVGMX.LE.TOLDIM).OR.(ITER.EQ.ITMX)) GOTO 600
1064
C SAVE-MODES
1065
                  ASSIGN 703 TO I700 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1066
                  GOTO 700
1067
 703              CONTINUE
1068
               ENDIF
1069
            ENDDO
1070
         ENDIF
1071
      ENDDO
1072
 600  CONTINUE
1073
C
1074
C SAVE-MODES
1075
      ASSIGN 704 TO I700 ! { dg-warning "Deleted feature: ASSIGN" "Deleted feature: ASSIGN" }
1076
      GOTO 700
1077
 704  CONTINUE
1078
      CALL CLEANHP(NAT3,NFREG,NPARD,NSUBP,PARDIM,DDV2,DDSS,DDVBAS,
1079
     1             DDVAL,JSPACE,TRAROT,
1080
     2             SCIFV1,SCIFV2,SCIFV3,SCIFV4,SCIFV6,
1081
     3             DRATQ,ERATQ,E2RATQ,BDRATQ,INRATQ,IUPD,ATMPAF,
1082
     4             ATMCOR,SUBLIS,LSCI,QDW,LBIG)
1083
      RETURN
1084
C-----------------------------------------------------------------------
1085
C INTERNAL PROCEDURES
1086
C-----------------------------------------------------------------------
1087
C TO DO-THE-DIAGONALISATIONS-WITH-RESIDUALS
1088
 620  CONTINUE
1089
      IF(IUNRMD.LT.0) THEN
1090
        CALL SELNMD(DDF,NFRET,CUTF1,NFC)
1091
        N1=NFCUT1
1092
        N2=(NFRET+6)/2
1093
        NFCUT=MAX(N1,N2)
1094
        IF(NFCUT*2-6 .GT. NFREG) THEN
1095
           NFCUT=(NFREG+6)/2
1096
           CUTF1=DDF(NFCUT)
1097
           IF(PRNLEV.GE.2) THEN
1098
             WRITE(OUTU,562) ITER
1099
             WRITE(OUTU,564) CUTF1
1100
           ENDIF
1101
        ENDIF
1102
      ELSE
1103
        NFCUT=NFRET
1104
        NFC=NFRET
1105
      ENDIF
1106
 562  FORMAT(/' NMDIMB: Not enough space to hold the residual vectors'/
1107
     1       '         into DDV array during iteration ',I5)
1108
 564  FORMAT('         Cutoff frequency is changed to ',F9.3)
1109
C
1110
C do reduced diagonalization with preceding eigenvectors plus
1111
C residual vectors
1112
C
1113
      ISTRT=1
1114
      ISTOP=NFCUT
1115
      CALL CLETR(DDV,HEAP(TRAROT),NAT3,ISTRT,ISTOP,NFCUT,DDEV,DDF)
1116
      CALL RNMTST(DDV,HEAP(DDVBAS),NAT3,DDSCR,DD1CMP,INBCMP,JNBCMP,
1117
     2            7,NFCUT,CVGMX,NFCUT,NFC,QDIAG,LBIG,IUNMOD)
1118
      NFSAV=NFCUT
1119
      IF(QDIAG) THEN
1120
         NFRET=NFCUT*2-6
1121
         IF(PRNLEV.GE.2) WRITE(OUTU,566) NFRET
1122
 566     FORMAT(/' NMDIMB: Diagonalization with residual vectors. '/
1123
     1          '          Dimension of the reduced basis set'/
1124
     2          '             before orthonormalization = ',I5)
1125
         NFCUT=NFRET
1126
         OLDPRN=PRNLEV
1127
         PRNLEV=1
1128
         CALL ORTHNM(1,NFRET,NFCUT,DDV,NAT3,LPURG,TOLER)
1129
         PRNLEV=OLDPRN
1130
         NFRET=NFCUT
1131
         IF(PRNLEV.GE.2) WRITE(OUTU,568) NFRET
1132
 568     FORMAT('             after orthonormalization  = ',I5)
1133
         IF(LBIG) THEN
1134
            IF(PRNLEV.GE.2) WRITE(OUTU,570) NFCUT,IUNMOD
1135
 570        FORMAT(' NMDIMB: ',I5,' basis vectors are saved in unit',I5)
1136
            REWIND (UNIT=IUNMOD)
1137
            LCARD=.FALSE.
1138
            CALL WRTNMD(LCARD,1,NFCUT,NAT3,DDV,DDSCR,DDEV,IUNMOD,AMASS)
1139
            CALL SAVEIT(IUNMOD)
1140
         ELSE
1141
            CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1)
1142
         ENDIF
1143
         QMIX=.FALSE.
1144
         CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV,
1145
     1     DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD,
1146
     2     INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,0,0,IS3,IS4,
1147
     3     CUTF1,NFCUT1,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1),
1148
     4     HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6),
1149
     5     HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ),
1150
     6     HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD)
1151
         CALL SELNMD(DDF,NFRET,CUTF1,NFCUT1)
1152
      ENDIF
1153
      GOTO I620 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1154
C
1155
C-----------------------------------------------------------------------
1156
C TO DO-THE-DIAGONALISATIONS
1157
 640  CONTINUE
1158
      DO I=1,NPARC
1159
         NFCUT1=NFRRES
1160
         IS1=ATMPAR(1,I)
1161
         IS2=ATMPAR(2,I)
1162
         NDIM=(IS2-IS1+1)*3
1163
         IF(PRNLEV.GE.2) WRITE(OUTU,573) I,IS1,IS2
1164
 573     FORMAT(/' NMDIMB: Mixed diagonalization, part ',I5/
1165
     1           ' NMDIMB: Block limits: ',I5,2X,I5)
1166
         IF(NDIM+NFCUT1.GT.PARDIM) CALL WRNDIE(-3,'<NMDIMB>',
1167
     1      'Error in dimension of block')
1168
         NFRET=NFCUT1
1169
         IF(NFRET.GT.NFREG) NFRET=NFREG
1170
         CALL CLETR(DDV,HEAP(TRAROT),NAT3,1,NFCUT1,NFCUT,DDEV,DDF)
1171
         NFCUT1=NFCUT
1172
         CALL ADZER(DDV,1,NFCUT1,NAT3,IS1,IS2)
1173
         NFSAV=NFCUT1
1174
         OLDPRN=PRNLEV
1175
         PRNLEV=1
1176
         CALL ORTHNM(1,NFCUT1,NFCUT,DDV,NAT3,LPURG,TOLER)
1177
         PRNLEV=OLDPRN
1178
         CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1)
1179
         NFRET=NDIM+NFCUT
1180
         QMIX=.TRUE.
1181
         CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV,
1182
     1        DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD,
1183
     2        INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,IS1,IS2,IS3,IS4,
1184
     3        CUTF1,NFCUT,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1),
1185
     4        HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6),
1186
     5        HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ),
1187
     6        HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD)
1188
         QMIX=.FALSE.
1189
         IF(NFCUT.GT.NFRRES) NFCUT=NFRRES
1190
         NFCUT1=NFCUT
1191
         NFRET=NFCUT
1192
      ENDDO
1193
      GOTO I640 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1194
C
1195
C-----------------------------------------------------------------------
1196
C TO DO-THE-DWIN-DIAGONALISATIONS
1197
 660  CONTINUE
1198
C
1199
C Store the DDV vectors into DDVBAS
1200
C
1201
      NFCUT1=NFRRES
1202
      IS1=ATMPAD(1,IPAR1)
1203
      IS2=ATMPAD(2,IPAR1)
1204
      IS3=ATMPAD(1,IPAR2)
1205
      IS4=ATMPAD(2,IPAR2)
1206
      NDIM=(IS2-IS1+IS4-IS3+2)*3
1207
      IF(PRNLEV.GE.2) WRITE(OUTU,577) IPAR1,IPAR2,IS1,IS2,IS3,IS4
1208
 577  FORMAT(/' NMDIMB: Mixed double window diagonalization, parts ',
1209
     1        2I5/
1210
     2        ' NMDIMB: Block limits: ',I5,2X,I5,4X,I5,2X,I5)
1211
      IF(NDIM+NFCUT1.GT.PARDIM) CALL WRNDIE(-3,'<NMDIMB>',
1212
     1      'Error in dimension of block')
1213
      NFRET=NFCUT1
1214
      IF(NFRET.GT.NFREG) NFRET=NFREG
1215
C
1216
C Prepare the DDV vectors consisting of 6 translations-rotations
1217
C + eigenvectors from 7 to NFCUT1 + cartesian displacements vectors
1218
C spanning the atoms from IS1 to IS2
1219
C
1220
      CALL CLETR(DDV,HEAP(TRAROT),NAT3,1,NFCUT1,NFCUT,DDEV,DDF)
1221
      NFCUT1=NFCUT
1222
      NFSAV=NFCUT1
1223
      CALL ADZERD(DDV,1,NFCUT1,NAT3,IS1,IS2,IS3,IS4)
1224
      OLDPRN=PRNLEV
1225
      PRNLEV=1
1226
      CALL ORTHNM(1,NFCUT1,NFCUT,DDV,NAT3,LPURG,TOLER)
1227
      PRNLEV=OLDPRN
1228
      CALL CPARAY(HEAP(DDVBAS),DDV,NAT3,1,NFCUT,1)
1229
C
1230
      NFRET=NDIM+NFCUT
1231
      QMIX=.TRUE.
1232
      CALL RBDG(X,Y,Z,NAT3,NDIM,NFRET,DDV,DDF,DDEV,
1233
     1     DDSCR,HEAP(DD5),HEAP(DDSS),HEAP(DDV2),NADD,
1234
     2     INBCMP,JNBCMP,HEAP(DDVBAS),DD1CMP,QMIX,IS1,IS2,IS3,IS4,
1235
     3     CUTF1,NFCUT,NFREG,HEAP(IUPD),DD1BLL,HEAP(SCIFV1),
1236
     4     HEAP(SCIFV2),HEAP(SCIFV3),HEAP(SCIFV4),HEAP(SCIFV6),
1237
     5     HEAP(DRATQ),HEAP(ERATQ),HEAP(E2RATQ),
1238
     6     HEAP(BDRATQ),HEAP(INRATQ),LSCI,LBIG,IUNMOD)
1239
      QMIX=.FALSE.
1240
C
1241
      IF(NFCUT.GT.NFRRES) NFCUT=NFRRES
1242
      NFCUT1=NFCUT
1243
      NFRET=NFCUT
1244
      GOTO I660 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1245
C
1246
C-----------------------------------------------------------------------
1247
C TO SAVE-MODES
1248
 700  CONTINUE
1249
      IF(PRNLEV.GE.2) WRITE(OUTU,583) IUNMOD
1250
 583  FORMAT(/' NMDIMB: Saving the eigenvalues and eigenvectors to unit'
1251
     1       ,I4)
1252
      REWIND (UNIT=IUNMOD)
1253
      ISTRT=1
1254
      ISTOP=NFSAV
1255
      LCARD=.FALSE.
1256
      IF(PRNLEV.GE.2) WRITE(OUTU,585) NFSAV,IUNMOD
1257
 585  FORMAT(' NMDIMB: ',I5,' modes are saved in unit',I5)
1258
      CALL WRTNMD(LCARD,ISTRT,ISTOP,NAT3,DDV,DDSCR,DDEV,IUNMOD,
1259
     1            AMASS)
1260
      CALL SAVEIT(IUNMOD)
1261
      GOTO I700 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1262
C
1263
C-----------------------------------------------------------------------
1264
C TO ALLOCATE-SPACE-FOR-DIAGONALIZATION
1265
 720  CONTINUE
1266
      DDV2=ALLHP(IREAL8((PARDIM+3)*(PARDIM+3)))
1267
      JSPACE=IREAL8((PARDIM+4))*8
1268
      JSP=IREAL8(((PARDIM+3)*(PARDIM+4))/2)
1269
      JSPACE=JSPACE+JSP
1270
      DDSS=ALLHP(JSPACE)
1271
      DD5=DDSS+JSPACE-JSP
1272
      GOTO I720 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1273
C
1274
C-----------------------------------------------------------------------
1275
C TO ALLOCATE-SPACE-FOR-REDUCED-BASIS
1276
 760  CONTINUE
1277
      IF(LBIG) THEN
1278
         DDVBAS=ALLHP(IREAL8(NAT3))
1279
      ELSE
1280
         DDVBAS=ALLHP(IREAL8(NFREG*NAT3))
1281
      ENDIF
1282
      GOTO I760 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1283
C
1284
C-----------------------------------------------------------------------
1285
C TO ALLOCATE-SPACE-FOR-TRANSROT-VECTORS
1286
 800  CONTINUE
1287
      TRAROT=ALLHP(IREAL8(6*NAT3))
1288
      GOTO I800 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1289
C
1290
C-----------------------------------------------------------------------
1291
C TO ALLOCATE-SPACE-FOR-LSCI
1292
 840  CONTINUE
1293
      SCIFV1=ALLHP(IREAL8(PARDIM+3))
1294
      SCIFV2=ALLHP(IREAL8(PARDIM+3))
1295
      SCIFV3=ALLHP(IREAL8(PARDIM+3))
1296
      SCIFV4=ALLHP(IREAL8(PARDIM+3))
1297
      SCIFV6=ALLHP(IREAL8(PARDIM+3))
1298
      DRATQ=ALLHP(IREAL8(PARDIM+3))
1299
      ERATQ=ALLHP(IREAL8(PARDIM+3))
1300
      E2RATQ=ALLHP(IREAL8(PARDIM+3))
1301
      BDRATQ=ALLHP(IREAL8(PARDIM+3))
1302
      INRATQ=ALLHP(INTEG4(PARDIM+3))
1303
      GOTO I840 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1304
C
1305
C-----------------------------------------------------------------------
1306
C TO ALLOCATE-DUMMY-SPACE-FOR-LSCI
1307
 880  CONTINUE
1308
      SCIFV1=ALLHP(IREAL8(2))
1309
      SCIFV2=ALLHP(IREAL8(2))
1310
      SCIFV3=ALLHP(IREAL8(2))
1311
      SCIFV4=ALLHP(IREAL8(2))
1312
      SCIFV6=ALLHP(IREAL8(2))
1313
      DRATQ=ALLHP(IREAL8(2))
1314
      ERATQ=ALLHP(IREAL8(2))
1315
      E2RATQ=ALLHP(IREAL8(2))
1316
      BDRATQ=ALLHP(IREAL8(2))
1317
      INRATQ=ALLHP(INTEG4(2))
1318
      GOTO I880 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1319
C
1320
C-----------------------------------------------------------------------
1321
C TO ALLOCATE-SPACE-FOR-OTHER-ARRAYS
1322
 920  CONTINUE
1323
      IUPD=ALLHP(INTEG4(PARDIM+3))
1324
      GOTO I920 ! { dg-warning "Deleted feature: Assigned" "Assigned GO TO" }
1325
C.##ELSE
1326
C.##ENDIF
1327
      END

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