D i L aminokwasy dzialajace dla src_MD
[unres.git] / source / unres / src_MD / unres.F
1 CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
2 C                                                                              C
3 C                                U N R E S                                     C
4 C                                                                              C
5 C Program to carry out conformational search of proteins in an united-residue  C
6 C approximation.                                                               C
7 C                                                                              C
8 CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
9       implicit real*8 (a-h,o-z)
10       include 'DIMENSIONS'
11
12
13 #ifdef MPI
14       include 'mpif.h'
15       include 'COMMON.SETUP'
16 #endif
17       include 'COMMON.TIME1'
18       include 'COMMON.INTERACT'
19       include 'COMMON.NAMES'
20       include 'COMMON.GEO'
21       include 'COMMON.HEADER'
22       include 'COMMON.CONTROL'
23       include 'COMMON.CONTACTS'
24       include 'COMMON.CHAIN'
25       include 'COMMON.VAR'
26       include 'COMMON.IOUNITS'
27       include 'COMMON.FFIELD'
28       include 'COMMON.REMD'
29       include 'COMMON.MD'
30       include 'COMMON.SBRIDGE'
31       double precision hrtime,mintime,sectime
32       character*64 text_mode_calc(-2:14) /'test',
33      & 'SC rotamer distribution',
34      & 'Energy evaluation or minimization',
35      & 'Regularization of PDB structure',
36      & 'Threading of a sequence on PDB structures',
37      & 'Monte Carlo (with minimization) ',
38      & 'Energy minimization of multiple conformations',
39      & 'Checking energy gradient',
40      & 'Entropic sampling Monte Carlo (with minimization)',
41      & 'Energy map',
42      & 'CSA calculations',
43      & 'Not used 9',
44      & 'Not used 10',
45      & 'Soft regularization of PDB structure',
46      & 'Mesoscopic molecular dynamics (MD) ',
47      & 'Not used 13',
48      & 'Replica exchange molecular dynamics (REMD)'/
49       external ilen
50
51 c      call memmon_print_usage()
52
53       call init_task
54       if (me.eq.king)
55      & write(iout,*)'### LAST MODIFIED  03/28/12 23:29 by czarek'  
56       if (me.eq.king) call cinfo
57 C Read force field parameters and job setup data
58       call readrtns
59       call flush(iout)
60 C
61       if (me.eq.king .or. .not. out1file) then
62        write (iout,'(2a/)') 
63      & text_mode_calc(modecalc)(:ilen(text_mode_calc(modecalc))),
64      & ' calculation.' 
65        if (minim) write (iout,'(a)') 
66      &  'Conformations will be energy-minimized.'
67        write (iout,'(80(1h*)/)') 
68       endif
69       call flush(iout)
70 C
71       if (modecalc.eq.-2) then
72         call test
73         stop
74       else if (modecalc.eq.-1) then
75         write(iout,*) "call check_sc_map next"
76         call check_bond
77         stop
78       endif
79 #ifdef MPI
80       if (fg_rank.gt.0) then
81 C Fine-grain slaves just do energy and gradient components.
82         call ergastulum ! slave workhouse in Latin
83       else
84 #endif
85       if (modecalc.eq.0) then
86         call exec_eeval_or_minim
87       else if (modecalc.eq.1) then
88         call exec_regularize
89       else if (modecalc.eq.2) then
90         call exec_thread
91       else if (modecalc.eq.3 .or. modecalc .eq.6) then
92         call exec_MC
93       else if (modecalc.eq.4) then
94         call exec_mult_eeval_or_minim
95       else if (modecalc.eq.5) then
96         call exec_checkgrad
97       else if (ModeCalc.eq.7) then
98         call exec_map
99       else if (ModeCalc.eq.8) then
100         call exec_CSA
101       else if (modecalc.eq.11) then
102         call exec_softreg
103       else if (modecalc.eq.12) then
104         call exec_MD
105       else if (modecalc.eq.14) then
106         call exec_MREMD
107       else
108         write (iout,'(a)') 'This calculation type is not supported',
109      &   ModeCalc
110       endif
111 #ifdef MPI
112       endif
113 C Finish task.
114       if (fg_rank.eq.0) call finish_task
115 c      call memmon_print_usage()
116 #ifdef TIMING
117        call print_detailed_timing
118 #endif
119       call MPI_Finalize(ierr)
120       stop 'Bye Bye...'
121 #else
122       call dajczas(tcpu(),hrtime,mintime,sectime)
123       stop '********** Program terminated normally.'
124 #endif
125       end
126 c--------------------------------------------------------------------------
127       subroutine exec_MD
128       include 'DIMENSIONS'
129 #ifdef MPI
130       include "mpif.h"
131 #endif
132       include 'COMMON.SETUP'
133       include 'COMMON.CONTROL'
134       include 'COMMON.IOUNITS'
135       if (me.eq.king .or. .not. out1file)
136      &   write (iout,*) "Calling chainbuild"
137       call chainbuild
138       call MD
139       return
140       end
141 c---------------------------------------------------------------------------
142       subroutine exec_MREMD
143       include 'DIMENSIONS'
144 #ifdef MPI
145       include "mpif.h"
146       include 'COMMON.SETUP'
147       include 'COMMON.CONTROL'
148       include 'COMMON.IOUNITS'
149       include 'COMMON.REMD'
150       if (me.eq.king .or. .not. out1file)
151      &   write (iout,*) "Calling chainbuild"
152       call chainbuild
153       if (me.eq.king .or. .not. out1file)
154      &   write (iout,*) "Calling REMD"
155       if (remd_mlist) then 
156         call MREMD
157       else
158         do i=1,nrep
159           remd_m(i)=1
160         enddo
161         call MREMD
162       endif
163 #else
164       write (iout,*) "MREMD works on parallel machines only"
165 #endif
166       return
167       end
168 c---------------------------------------------------------------------------
169       subroutine exec_eeval_or_minim
170       implicit real*8 (a-h,o-z)
171       include 'DIMENSIONS'
172 #ifdef MPI
173       include 'mpif.h'
174 #endif
175       include 'COMMON.SETUP'
176       include 'COMMON.TIME1'
177       include 'COMMON.INTERACT'
178       include 'COMMON.NAMES'
179       include 'COMMON.GEO'
180       include 'COMMON.HEADER'
181       include 'COMMON.CONTROL'
182       include 'COMMON.CONTACTS'
183       include 'COMMON.CHAIN'
184       include 'COMMON.VAR'
185       include 'COMMON.IOUNITS'
186       include 'COMMON.FFIELD'
187       include 'COMMON.REMD'
188       include 'COMMON.MD'
189       include 'COMMON.SBRIDGE'
190       common /srutu/ icall
191       double precision energy(0:n_ene)
192       double precision energy_long(0:n_ene),energy_short(0:n_ene)
193       double precision varia(maxvar)
194       if (indpdb.eq.0) call chainbuild
195 #ifdef MPI
196       time00=MPI_Wtime()
197 #else
198       time00=tcpu()
199 #endif
200       call chainbuild_cart
201       if (split_ene) then
202        print *,"Processor",myrank," after chainbuild"
203        icall=1
204        call etotal_long(energy_long(0))
205        write (iout,*) "Printing long range energy"
206        call enerprint(energy_long(0))
207        call etotal_short(energy_short(0))
208        write (iout,*) "Printing short range energy"
209        call enerprint(energy_short(0))
210        do i=0,n_ene
211          energy(i)=energy_long(i)+energy_short(i)
212          write (iout,*) i,energy_long(i),energy_short(i),energy(i)
213        enddo
214        write (iout,*) "Printing long+short range energy"
215        call enerprint(energy(0))
216       endif
217       call etotal(energy(0))
218 #ifdef MPI
219       time_ene=MPI_Wtime()-time00
220 #else
221       time_ene=tcpu()-time00
222 #endif
223       write (iout,*) "Time for energy evaluation",time_ene
224       print *,"after etotal"
225       etota = energy(0)
226       etot =etota
227       call enerprint(energy(0))
228       call hairpin(.true.,nharp,iharp)
229       call secondary2(.true.)
230       if (minim) then
231 crc overlap test
232         if (overlapsc) then 
233           print *, 'Calling OVERLAP_SC'
234           call overlap_sc(fail)
235         endif 
236
237         if (searchsc) then 
238           call sc_move(2,nres-1,10,1d10,nft_sc,etot)
239           print *,'SC_move',nft_sc,etot
240           write(iout,*) 'SC_move',nft_sc,etot
241         endif 
242
243         if (dccart) then
244           print *, 'Calling MINIM_DC'
245 #ifdef MPI
246           time1=MPI_WTIME()
247 #else
248           time1=tcpu()
249 #endif
250           call minim_dc(etot,iretcode,nfun)
251         else
252           if (indpdb.ne.0) then 
253             call bond_regular
254             call chainbuild
255           endif
256           call geom_to_var(nvar,varia)
257           print *,'Calling MINIMIZE.'
258 #ifdef MPI
259           time1=MPI_WTIME()
260 #else
261           time1=tcpu()
262 #endif
263           call minimize(etot,varia,iretcode,nfun)
264         endif
265         print *,'SUMSL return code is',iretcode,' eval ',nfun
266 #ifdef MPI
267         evals=nfun/(MPI_WTIME()-time1)
268 #else
269         evals=nfun/(tcpu()-time1)
270 #endif
271         print *,'# eval/s',evals
272         print *,'refstr=',refstr
273         call hairpin(.true.,nharp,iharp)
274         call secondary2(.true.)
275         call etotal(energy(0))
276         etot = energy(0)
277         call enerprint(energy(0))
278
279         call intout
280         call briefout(0,etot)
281         if (refstr) call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
282           write (iout,'(a,i3)') 'SUMSL return code:',iretcode
283           write (iout,'(a,i20)') '# of energy evaluations:',nfun+1
284           write (iout,'(a,f16.3)')'# of energy evaluations/sec:',evals
285       else
286         print *,'refstr=',refstr
287         if (refstr) call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
288         call briefout(0,etot)
289       endif
290       if (outpdb) call pdbout(etot,titel(:50),ipdb)
291       if (outmol2) call mol2out(etot,titel(:50))
292       return
293       end
294 c---------------------------------------------------------------------------
295       subroutine exec_regularize
296       implicit real*8 (a-h,o-z)
297       include 'DIMENSIONS'
298 #ifdef MPI
299       include 'mpif.h'
300 #endif
301       include 'COMMON.SETUP'
302       include 'COMMON.TIME1'
303       include 'COMMON.INTERACT'
304       include 'COMMON.NAMES'
305       include 'COMMON.GEO'
306       include 'COMMON.HEADER'
307       include 'COMMON.CONTROL'
308       include 'COMMON.CONTACTS'
309       include 'COMMON.CHAIN'
310       include 'COMMON.VAR'
311       include 'COMMON.IOUNITS'
312       include 'COMMON.FFIELD'
313       include 'COMMON.REMD'
314       include 'COMMON.MD'
315       include 'COMMON.SBRIDGE'
316       double precision energy(0:n_ene)
317
318       call gen_dist_constr
319       call sc_conf
320       call intout
321       call regularize(nct-nnt+1,etot,rms,cref(1,nnt),iretcode)
322       call etotal(energy(0))
323       energy(0)=energy(0)-energy(14)
324       etot=energy(0)
325       call enerprint(energy(0))
326       call intout
327       call briefout(0,etot)
328       if (outpdb) call pdbout(etot,titel(:50),ipdb)
329       if (outmol2) call mol2out(etot,titel(:50))
330       if (refstr) call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
331       write (iout,'(a,i3)') 'SUMSL return code:',iretcode
332       return
333       end
334 c---------------------------------------------------------------------------
335       subroutine exec_thread
336       include 'DIMENSIONS'
337 #ifdef MP
338       include "mpif.h"
339 #endif
340       include "COMMON.SETUP"
341       call thread_seq
342       return
343       end
344 c---------------------------------------------------------------------------
345       subroutine exec_MC
346       implicit real*8 (a-h,o-z)
347       include 'DIMENSIONS'
348       character*10 nodeinfo
349       double precision varia(maxvar)
350 #ifdef MPI
351       include "mpif.h"
352 #endif
353       include "COMMON.SETUP"
354       include 'COMMON.CONTROL'
355       call mcm_setup
356       if (minim) then
357 #ifdef MPI
358         if (modecalc.eq.3) then
359           call do_mcm(ipar)
360         else
361           call entmcm
362         endif
363 #else
364         if (modecalc.eq.3) then
365           call do_mcm(ipar)
366         else
367           call entmcm
368         endif
369 #endif
370       else
371         call monte_carlo
372       endif
373       return
374       end
375 c---------------------------------------------------------------------------
376       subroutine exec_mult_eeval_or_minim
377       implicit real*8 (a-h,o-z)
378       include 'DIMENSIONS'
379 #ifdef MPI
380       include 'mpif.h'
381       dimension muster(mpi_status_size)
382 #endif
383       include 'COMMON.SETUP'
384       include 'COMMON.TIME1'
385       include 'COMMON.INTERACT'
386       include 'COMMON.NAMES'
387       include 'COMMON.GEO'
388       include 'COMMON.HEADER'
389       include 'COMMON.CONTROL'
390       include 'COMMON.CONTACTS'
391       include 'COMMON.CHAIN'
392       include 'COMMON.VAR'
393       include 'COMMON.IOUNITS'
394       include 'COMMON.FFIELD'
395       include 'COMMON.REMD'
396       include 'COMMON.MD'
397       include 'COMMON.SBRIDGE'
398       double precision varia(maxvar)
399       dimension ind(6)
400       double precision energy(0:max_ene)
401       logical eof
402       eof=.false.
403 #ifdef MPI
404       if(me.ne.king) then
405         call minim_mcmf
406         return
407       endif
408
409       close (intin)
410       open(intin,file=intinname,status='old')
411       write (istat,'(a5,20a12)')"#    ",
412      &  (wname(print_order(i)),i=1,nprint_ene)
413       if (refstr) then
414         write (istat,'(a5,20a12)')"#    ",
415      &   (ename(print_order(i)),i=1,nprint_ene),
416      &   "ETOT total","RMSD","nat.contact","nnt.contact"        
417       else
418         write (istat,'(a5,20a12)')"#    ",
419      &    (ename(print_order(i)),i=1,nprint_ene),"ETOT total"
420       endif
421
422       if (.not.minim) then
423         do while (.not. eof)
424           if (read_cart) then
425             read (intin,'(e15.10,e15.5)',end=1100,err=1100) time,ene
426             call read_x(intin,*11)
427 #ifdef MPI
428 c Broadcast the order to compute internal coordinates to the slaves.
429             if (nfgtasks.gt.1)
430      &        call MPI_Bcast(6,1,MPI_INTEGER,king,FG_COMM,IERROR)
431 #endif
432             call int_from_cart1(.false.)
433           else
434             read (intin,'(i5)',end=1100,err=1100) iconf
435             call read_angles(intin,*11)
436             call geom_to_var(nvar,varia)
437             call chainbuild
438           endif
439           write (iout,'(a,i7)') 'Conformation #',iconf
440           call etotal(energy(0))
441           call briefout(iconf,energy(0))
442           call enerprint(energy(0))
443           etot=energy(0)
444           if (refstr) then 
445             call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
446             write (istat,'(i5,20(f12.3))') iconf,
447      &      (energy(print_order(i)),i=1,nprint_ene),etot,
448      &       rms,frac,frac_nn,co
449 cjlee end
450           else
451             write (istat,'(i5,16(f12.3))') iconf,
452      &     (energy(print_order(i)),i=1,nprint_ene),etot
453           endif
454         enddo
455 1100    continue
456         goto 1101
457       endif
458
459       mm=0
460       imm=0
461       nft=0
462       ene0=0.0d0
463       n=0
464       iconf=0
465 c      do n=1,nzsc
466       do while (.not. eof)
467         mm=mm+1
468         if (mm.lt.nodes) then
469           if (read_cart) then
470             read (intin,'(e15.10,e15.5)',end=11,err=11) time,ene
471             call read_x(intin,*11)
472 #ifdef MPI
473 c Broadcast the order to compute internal coordinates to the slaves.
474             if (nfgtasks.gt.1) 
475      &        call MPI_Bcast(6,1,MPI_INTEGER,king,FG_COMM,IERROR)
476 #endif
477             call int_from_cart1(.false.)
478           else
479             read (intin,'(i5)',end=11,err=11) iconf
480             call read_angles(intin,*11)
481             call geom_to_var(nvar,varia)
482             call chainbuild
483           endif
484           write (iout,'(a,i7)') 'Conformation #',iconf
485           n=n+1
486          imm=imm+1
487          ind(1)=1
488          ind(2)=n
489          ind(3)=0
490          ind(4)=0
491          ind(5)=0
492          ind(6)=0
493          ene0=0.0d0
494          call mpi_send(ind,6,mpi_integer,mm,idint,CG_COMM,
495      *                  ierr)
496          call mpi_send(varia,nvar,mpi_double_precision,mm,
497      *                  idreal,CG_COMM,ierr)
498          call mpi_send(ene0,1,mpi_double_precision,mm,
499      *                  idreal,CG_COMM,ierr)
500 c         print *,'task ',n,' sent to worker ',mm,nvar
501         else
502          call mpi_recv(ind,6,mpi_integer,mpi_any_source,idint,
503      *                 CG_COMM,muster,ierr)
504          man=muster(mpi_source)
505 c         print *,'receiving result from worker ',man,' (',iii1,iii,')'
506          call mpi_recv(varia,nvar,mpi_double_precision, 
507      *               man,idreal,CG_COMM,muster,ierr)
508          call mpi_recv(ene,1,
509      *               mpi_double_precision,man,idreal,
510      *               CG_COMM,muster,ierr)
511          call mpi_recv(ene0,1,
512      *               mpi_double_precision,man,idreal,
513      *               CG_COMM,muster,ierr)
514 c         print *,'result received from worker ',man,' sending now'
515
516           call var_to_geom(nvar,varia)
517           call chainbuild
518           call etotal(energy(0))
519           iconf=ind(2)
520           write (iout,*)
521           write (iout,*)
522           write (iout,'(a,2i7)') 'Conformation #',iconf,ind(5)
523
524           etot=energy(0)
525           call enerprint(energy(0))
526           call briefout(it,etot)
527 c          if (minim) call briefout(it,etot)
528           if (refstr) then 
529             call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
530             write (istat,'(i5,19(f12.3))') iconf,
531      &     (energy(print_order(i)),i=1,nprint_ene),etot,
532      &     rms,frac,frac_nn,co
533           else
534             write (istat,'(i5,15(f12.3))') iconf,
535      &     (energy(print_order(i)),i=1,nprint_ene),etot
536           endif
537
538           imm=imm-1
539           if (read_cart) then
540             read (intin,'(e15.10,e15.5)',end=1101,err=1101) time,ene
541             call read_x(intin,*11)
542 #ifdef MPI
543 c Broadcast the order to compute internal coordinates to the slaves.
544             if (nfgtasks.gt.1)
545      &        call MPI_Bcast(6,1,MPI_INTEGER,king,FG_COMM,IERROR)
546 #endif
547             call int_from_cart1(.false.)
548           else
549             read (intin,'(i5)',end=1101,err=1101) iconf
550             call read_angles(intin,*11)
551             call geom_to_var(nvar,varia)
552             call chainbuild
553           endif
554           n=n+1
555           imm=imm+1
556           ind(1)=1
557           ind(2)=n
558           ind(3)=0
559           ind(4)=0
560           ind(5)=0
561           ind(6)=0
562           call mpi_send(ind,6,mpi_integer,man,idint,CG_COMM,
563      *                  ierr)
564           call mpi_send(varia,nvar,mpi_double_precision,man, 
565      *                  idreal,CG_COMM,ierr)
566           call mpi_send(ene0,1,mpi_double_precision,man,
567      *                  idreal,CG_COMM,ierr)
568           nf_mcmf=nf_mcmf+ind(4)
569           nmin=nmin+1
570         endif
571       enddo
572 11    continue
573       do j=1,imm
574         call mpi_recv(ind,6,mpi_integer,mpi_any_source,idint,
575      *               CG_COMM,muster,ierr)
576         man=muster(mpi_source)
577         call mpi_recv(varia,nvar,mpi_double_precision, 
578      *               man,idreal,CG_COMM,muster,ierr)
579         call mpi_recv(ene,1,
580      *               mpi_double_precision,man,idreal,
581      *               CG_COMM,muster,ierr)
582         call mpi_recv(ene0,1,
583      *               mpi_double_precision,man,idreal,
584      *               CG_COMM,muster,ierr)
585
586         call var_to_geom(nvar,varia)
587         call chainbuild
588         call etotal(energy(0))
589         iconf=ind(2)
590         write (iout,*)
591         write (iout,*)
592         write (iout,'(a,2i7)') 'Conformation #',iconf,ind(5)
593
594         etot=energy(0)
595         call enerprint(energy(0))
596         call briefout(it,etot)
597         if (refstr) then 
598           call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
599           write (istat,'(i5,19(f12.3))') iconf,
600      &   (energy(print_order(i)),i=1,nprint_ene),etot,
601      &   rms,frac,frac_nn,co
602         else
603           write (istat,'(i5,15(f12.3))') iconf,
604      &    (energy(print_order(i)),i=1,nprint_ene),etot
605         endif
606         nmin=nmin+1
607       enddo
608 1101  continue
609       do i=1, nodes-1
610          ind(1)=0
611          ind(2)=0
612          ind(3)=0
613          ind(4)=0
614          ind(5)=0
615          ind(6)=0
616          call mpi_send(ind,6,mpi_integer,i,idint,CG_COMM,
617      *                  ierr)
618       enddo
619 #else
620       close (intin)
621       open(intin,file=intinname,status='old')
622       write (istat,'(a5,20a12)')"#    ",
623      &   (wname(print_order(i)),i=1,nprint_ene)
624       write (istat,'("#    ",20(1pe12.4))')
625      &   (weights(print_order(i)),i=1,nprint_ene)
626       if (refstr) then
627         write (istat,'(a5,20a12)')"#    ",
628      &   (ename(print_order(i)),i=1,nprint_ene),
629      &   "ETOT total","RMSD","nat.contact","nnt.contact"
630       else
631         write (istat,'(a5,14a12)')"#    ",
632      &   (ename(print_order(i)),i=1,nprint_ene),"ETOT total"
633       endif
634       do while (.not. eof)
635           if (read_cart) then
636             read (intin,'(e15.10,e15.5)',end=1100,err=1100) time,ene
637             call read_x(intin,*11)
638 #ifdef MPI
639 c Broadcast the order to compute internal coordinates to the slaves.
640             if (nfgtasks.gt.1)
641      &        call MPI_Bcast(6,1,MPI_INTEGER,king,FG_COMM,IERROR)
642 #endif
643             call int_from_cart1(.false.)
644           else
645             read (intin,'(i5)',end=1100,err=1100) iconf
646             call read_angles(intin,*11)
647             call geom_to_var(nvar,varia)
648             call chainbuild
649           endif
650         write (iout,'(a,i7)') 'Conformation #',iconf
651         if (minim) call minimize(etot,varia,iretcode,nfun)
652         call etotal(energy(0))
653
654         etot=energy(0)
655         call enerprint(energy(0))
656         if (minim) call briefout(it,etot) 
657         if (refstr) then 
658           call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
659           write (istat,'(i5,18(f12.3))') iconf,
660      &   (energy(print_order(i)),i=1,nprint_ene),
661      &   etot,rms,frac,frac_nn,co
662 cjlee end
663         else
664           write (istat,'(i5,14(f12.3))') iconf,
665      &   (energy(print_order(i)),i=1,nprint_ene),etot
666         endif
667       enddo
668    11 continue
669  1100 continue
670 #endif
671       return
672       end
673 c---------------------------------------------------------------------------
674       subroutine exec_checkgrad
675       implicit real*8 (a-h,o-z)
676       include 'DIMENSIONS'
677 #ifdef MPI
678       include 'mpif.h'
679 #endif
680       include 'COMMON.SETUP'
681       include 'COMMON.TIME1'
682       include 'COMMON.INTERACT'
683       include 'COMMON.NAMES'
684       include 'COMMON.GEO'
685       include 'COMMON.HEADER'
686       include 'COMMON.CONTROL'
687       include 'COMMON.CONTACTS'
688       include 'COMMON.CHAIN'
689       include 'COMMON.VAR'
690       include 'COMMON.IOUNITS'
691       include 'COMMON.FFIELD'
692       include 'COMMON.REMD'
693       include 'COMMON.MD'
694       include 'COMMON.SBRIDGE'
695       common /srutu/ icall
696       double precision energy(0:max_ene)
697 c      do i=2,nres
698 c        vbld(i)=vbld(i)+ran_number(-0.1d0,0.1d0)
699 c        if (itype(i).ne.10) 
700 c     &      vbld(i+nres)=vbld(i+nres)+ran_number(-0.001d0,0.001d0)
701 c      enddo
702       if (indpdb.eq.0) call chainbuild
703 c      do i=0,nres
704 c        do j=1,3
705 c          dc(j,i)=dc(j,i)+ran_number(-0.2d0,0.2d0)
706 c        enddo
707 c      enddo
708 c      do i=1,nres-1
709 c        if (itype(i).ne.10) then
710 c          do j=1,3
711 c            dc(j,i+nres)=dc(j,i+nres)+ran_number(-0.2d0,0.2d0)
712 c          enddo
713 c        endif
714 c      enddo
715 c      do j=1,3
716 c        dc(j,0)=ran_number(-0.2d0,0.2d0)
717 c      enddo
718       usampl=.true.
719       totT=1.d0
720       eq_time=0.0d0
721       call read_fragments
722       read(inp,*) t_bath
723       call rescale_weights(t_bath)
724       call chainbuild_cart
725       call cartprint
726       call intout
727       icall=1
728       call etotal(energy(0))
729       etot = energy(0)
730       call enerprint(energy(0))
731       write (iout,*) "Uconst",Uconst," Uconst_back",uconst_back
732       print *,'icheckgrad=',icheckgrad
733       goto (10,20,30) icheckgrad
734   10  call check_ecartint
735       return
736   20  call check_cartgrad
737       return
738   30  call check_eint
739       return
740       end
741 c---------------------------------------------------------------------------
742       subroutine exec_map
743 C Energy maps
744       call map_read
745       call map
746       return
747       end
748 c---------------------------------------------------------------------------
749       subroutine exec_CSA
750 #ifdef MPI
751       include "mpif.h"
752 #endif
753       include 'DIMENSIONS'
754       include 'COMMON.IOUNITS'
755 C Conformational Space Annealling programmed by Jooyoung Lee.
756 C This method works only with parallel machines!
757 #ifdef MPI
758 csa      call together
759       write (iout,*) "CSA is not supported in this version"
760 #else
761 csa      write (iout,*) "CSA works on parallel machines only"
762       write (iout,*) "CSA is not supported in this version"
763 #endif
764       return
765       end
766 c---------------------------------------------------------------------------
767       subroutine exec_softreg
768       implicit real*8 (a-h,o-z)
769       include 'DIMENSIONS'
770       include 'COMMON.IOUNITS'
771       include 'COMMON.CONTROL'
772       double precision energy(0:max_ene)
773       logical debug /.false./
774       call chainbuild
775       call etotal(energy(0))
776       call enerprint(energy(0))
777       if (.not.lsecondary) then
778         write(iout,*) 'Calling secondary structure recognition'
779         call secondary2(debug)
780       else
781         write(iout,*) 'Using secondary structure supplied in pdb'
782       endif
783
784       call softreg
785
786       call etotal(energy(0))
787       etot=energy(0)
788       call enerprint(energy(0))
789       call intout
790       call briefout(0,etot)
791       call secondary2(.true.)
792       if (refstr) call rms_nac_nnc(rms,frac,frac_nn,co,.true.)
793       return
794       end